Warning: Permanently added '54.152.211.250' (ED25519) to the list of known hosts. You can reproduce this build on your computer by running: sudo dnf install copr-rpmbuild /usr/bin/copr-rpmbuild --verbose --drop-resultdir --task-url https://copr.fedorainfracloud.org/backend/get-build-task/9731645-fedora-43-aarch64 --chroot fedora-43-aarch64 Version: 1.6 PID: 8648 Logging PID: 8650 Task: {'allow_user_ssh': False, 'appstream': False, 'background': True, 'build_id': 9731645, 'buildroot_pkgs': [], 'chroot': 'fedora-43-aarch64', 'enable_net': True, 'fedora_review': False, 'git_hash': '304183fa157c274c79175f4ee6bf348621eec5f2', 'git_repo': 'https://copr-dist-git.fedorainfracloud.org/git/lizardbyte/pulls:pr:4353/Sunshine', 'isolation': 'default', 'memory_reqs': 2048, 'package_name': 'Sunshine', 'package_version': '0.0.4353-1', 'project_dirname': 'pulls:pr:4353', 'project_name': 'pulls', 'project_owner': 'lizardbyte', 'repo_priority': 99, 'repos': [{'baseurl': 'https://download.copr.fedorainfracloud.org/results/lizardbyte/pulls/fedora-43-aarch64/', 'id': 'copr_base', 'name': 'Copr repository', 'priority': None}, {'baseurl': 'https://download.copr.fedorainfracloud.org/results/lizardbyte/pulls:pr:4353/fedora-43-aarch64/', 'id': 'copr_coprdir', 'name': 'Coprdir repository', 'priority': None}, {'baseurl': 'https://download.copr.fedorainfracloud.org/results/slaanesh/cuda-gcc/fedora-43-aarch64/', 'id': 'copr_slaanesh_cuda_gcc', 'name': 'Additional repo copr_slaanesh_cuda_gcc'}], 'sandbox': 'lizardbyte/pulls--82b227ca-3a86-44aa-b6df-d0d629ff870a', 'source_json': {}, 'source_type': None, 'ssh_public_keys': None, 'storage': 0, 'submitter': None, 'tags': [], 'task_id': '9731645-fedora-43-aarch64', 'timeout': 5400, 'uses_devel_repo': False, 'with_opts': [], 'without_opts': []} Running: git clone https://copr-dist-git.fedorainfracloud.org/git/lizardbyte/pulls:pr:4353/Sunshine /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine --depth 500 --no-single-branch --recursive cmd: ['git', 'clone', 'https://copr-dist-git.fedorainfracloud.org/git/lizardbyte/pulls:pr:4353/Sunshine', '/var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine', '--depth', '500', '--no-single-branch', '--recursive'] cwd: . rc: 0 stdout: stderr: Cloning into '/var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine'... Running: git checkout 304183fa157c274c79175f4ee6bf348621eec5f2 -- cmd: ['git', 'checkout', '304183fa157c274c79175f4ee6bf348621eec5f2', '--'] cwd: /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine rc: 0 stdout: stderr: Note: switching to '304183fa157c274c79175f4ee6bf348621eec5f2'. You are in 'detached HEAD' state. You can look around, make experimental changes and commit them, and you can discard any commits you make in this state without impacting any branches by switching back to a branch. If you want to create a new branch to retain commits you create, you may do so (now or later) by using -c with the switch command. Example: git switch -c Or undo this operation with: git switch - Turn off this advice by setting config variable advice.detachedHead to false HEAD is now at 304183f automatic import of Sunshine Running: dist-git-client sources cmd: ['dist-git-client', 'sources'] cwd: /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine rc: 0 stdout: stderr: INFO: Reading stdout from command: git rev-parse --abbrev-ref HEAD INFO: Reading stdout from command: git rev-parse HEAD INFO: Reading sources specification file: sources INFO: Downloading tarball.tar.gz INFO: Reading stdout from command: curl --help all INFO: Calling: curl -H Pragma: -o tarball.tar.gz --location --connect-timeout 60 --retry 3 --retry-delay 10 --remote-time --show-error --fail --retry-all-errors https://copr-dist-git.fedorainfracloud.org/repo/pkgs/lizardbyte/pulls:pr:4353/Sunshine/tarball.tar.gz/md5/32360a7a6f5a33fbbc22fe2d5a2e366c/tarball.tar.gz % Total % Received % Xferd Average Speed Time Time Time Current tail: /var/lib/copr-rpmbuild/main.log: file truncated Dload Upload Total Spent Left Speed 100 1408M 100 1408M 0 0 93.9M 0 0:00:14 0:00:14 --:--:-- 105M INFO: Reading stdout from command: md5sum tarball.tar.gz Running (timeout=5400): unbuffer mock --spec /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine/Sunshine.spec --sources /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine --resultdir /var/lib/copr-rpmbuild/results --uniqueext 1761352438.160069 -r /var/lib/copr-rpmbuild/results/configs/child.cfg INFO: mock.py version 6.5 starting (python version = 3.13.7, NVR = mock-6.5-1.fc42), args: /usr/libexec/mock/mock --spec /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine/Sunshine.spec --sources /var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine --resultdir /var/lib/copr-rpmbuild/results --uniqueext 1761352438.160069 -r /var/lib/copr-rpmbuild/results/configs/child.cfg Start(bootstrap): init plugins INFO: tmpfs initialized INFO: selinux enabled INFO: chroot_scan: initialized INFO: compress_logs: initialized Finish(bootstrap): init plugins Start: init plugins INFO: tmpfs initialized INFO: selinux enabled INFO: chroot_scan: initialized INFO: compress_logs: initialized Finish: init plugins INFO: Signal handler active Start: run INFO: Start(/var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine/Sunshine.spec) Config(fedora-43-aarch64) Start: clean chroot Finish: clean chroot Mock Version: 6.5 INFO: Mock Version: 6.5 Start(bootstrap): chroot init INFO: mounting tmpfs at /var/lib/mock/fedora-43-aarch64-bootstrap-1761352438.160069/root. INFO: calling preinit hooks INFO: enabled root cache INFO: enabled package manager cache Start(bootstrap): cleaning package manager metadata Finish(bootstrap): cleaning package manager metadata INFO: Guessed host environment type: unknown INFO: Using container image: registry.fedoraproject.org/fedora:43 INFO: Pulling image: registry.fedoraproject.org/fedora:43 INFO: Tagging container image as mock-bootstrap-ef099475-dbd9-4af5-bd6a-90a37848be52 INFO: Checking that 6e338e55c5ece099f967016f04288ee676b31ec2ef53a6ffb31868365e2c89ed image matches host's architecture INFO: Copy content of container 6e338e55c5ece099f967016f04288ee676b31ec2ef53a6ffb31868365e2c89ed to /var/lib/mock/fedora-43-aarch64-bootstrap-1761352438.160069/root INFO: mounting 6e338e55c5ece099f967016f04288ee676b31ec2ef53a6ffb31868365e2c89ed with podman image mount INFO: image 6e338e55c5ece099f967016f04288ee676b31ec2ef53a6ffb31868365e2c89ed as /var/lib/containers/storage/overlay/16ef076257a24b0936438abdc38a94588ee59fa742603120d509f022b297a10a/merged INFO: umounting image 6e338e55c5ece099f967016f04288ee676b31ec2ef53a6ffb31868365e2c89ed (/var/lib/containers/storage/overlay/16ef076257a24b0936438abdc38a94588ee59fa742603120d509f022b297a10a/merged) with podman image umount INFO: Removing image mock-bootstrap-ef099475-dbd9-4af5-bd6a-90a37848be52 INFO: Package manager dnf5 detected and used (fallback) INFO: Not updating bootstrap chroot, bootstrap_image_ready=True Start(bootstrap): creating root cache Finish(bootstrap): creating root cache Finish(bootstrap): chroot init Start: chroot init INFO: mounting tmpfs at /var/lib/mock/fedora-43-aarch64-1761352438.160069/root. INFO: calling preinit hooks INFO: enabled root cache INFO: enabled package manager cache Start: cleaning package manager metadata Finish: cleaning package manager metadata INFO: enabled HW Info plugin INFO: Package manager dnf5 detected and used (direct choice) INFO: Buildroot is handled by package management downloaded with a bootstrap image: rpm-6.0.0-1.fc43.aarch64 rpm-sequoia-1.9.0-2.fc43.aarch64 dnf5-5.2.17.0-2.fc43.aarch64 dnf5-plugins-5.2.17.0-2.fc43.aarch64 Start: installing minimal buildroot with dnf5 Updating and loading repositories: Coprdir repository 100% | 21.6 KiB/s | 1.6 KiB | 00m00s Copr repository 100% | 20.7 KiB/s | 1.6 KiB | 00m00s Additional repo copr_slaanesh_cuda_gcc 100% | 29.7 KiB/s | 2.4 KiB | 00m00s updates 100% | 86.6 KiB/s | 19.7 KiB | 00m00s fedora 100% | 30.6 MiB/s | 34.3 MiB | 00m01s Repositories loaded. Package Arch Version Repository Size Installing group/module packages: bash aarch64 5.3.0-2.fc43 fedora 8.4 MiB bzip2 aarch64 1.0.8-21.fc43 fedora 171.3 KiB coreutils aarch64 9.7-6.fc43 fedora 8.1 MiB cpio aarch64 2.15-6.fc43 fedora 1.1 MiB diffutils aarch64 3.12-3.fc43 fedora 1.6 MiB fedora-release-common noarch 43-25 fedora 20.6 KiB findutils aarch64 1:4.10.0-6.fc43 fedora 1.9 MiB gawk aarch64 5.3.2-2.fc43 fedora 2.6 MiB glibc-minimal-langpack aarch64 2.42-4.fc43 fedora 0.0 B grep aarch64 3.12-2.fc43 fedora 1.0 MiB gzip aarch64 1.13-4.fc43 fedora 424.7 KiB info aarch64 7.2-6.fc43 fedora 421.6 KiB patch aarch64 2.8-2.fc43 fedora 262.5 KiB redhat-rpm-config noarch 343-11.fc43 fedora 182.9 KiB rpm-build aarch64 6.0.0-1.fc43 fedora 598.8 KiB sed aarch64 4.9-5.fc43 fedora 873.2 KiB shadow-utils aarch64 2:4.18.0-3.fc43 fedora 4.4 MiB tar aarch64 2:1.35-6.fc43 fedora 3.0 MiB unzip aarch64 6.0-67.fc43 fedora 470.2 KiB util-linux aarch64 2.41.1-17.fc43 fedora 6.8 MiB which aarch64 2.23-3.fc43 fedora 123.4 KiB xz aarch64 1:5.8.1-2.fc43 fedora 1.4 MiB Installing dependencies: add-determinism aarch64 0.6.0-2.fc43 fedora 2.1 MiB alternatives aarch64 1.33-2.fc43 fedora 90.2 KiB ansible-srpm-macros noarch 1-18.1.fc43 fedora 35.7 KiB audit-libs aarch64 4.1.1-2.fc43 fedora 486.9 KiB binutils aarch64 2.45-1.fc43 fedora 30.1 MiB build-reproducibility-srpm-macros noarch 0.6.0-2.fc43 fedora 735.0 B bzip2-libs aarch64 1.0.8-21.fc43 fedora 72.6 KiB ca-certificates noarch 2025.2.80_v9.0.304-1.1.fc43 fedora 2.7 MiB coreutils-common aarch64 9.7-6.fc43 fedora 11.3 MiB crypto-policies noarch 20250714-5.gitcd6043a.fc43 fedora 146.9 KiB curl aarch64 8.15.0-2.fc43 fedora 469.7 KiB cyrus-sasl-lib aarch64 2.1.28-33.fc43 fedora 2.4 MiB debugedit aarch64 5.2-3.fc43 fedora 317.9 KiB dwz aarch64 0.16-2.fc43 fedora 322.6 KiB ed aarch64 1.22.2-1.fc43 fedora 156.0 KiB efi-srpm-macros noarch 6-4.fc43 fedora 40.1 KiB elfutils aarch64 0.193-3.fc43 fedora 3.2 MiB elfutils-debuginfod-client aarch64 0.193-3.fc43 fedora 143.9 KiB elfutils-default-yama-scope noarch 0.193-3.fc43 fedora 1.8 KiB elfutils-libelf aarch64 0.193-3.fc43 fedora 1.2 MiB elfutils-libs aarch64 0.193-3.fc43 fedora 746.7 KiB fedora-gpg-keys noarch 43-1 fedora 131.2 KiB fedora-release noarch 43-25 fedora 0.0 B fedora-release-identity-basic noarch 43-25 fedora 631.0 B fedora-repos noarch 43-1 fedora 4.9 KiB file aarch64 5.46-8.fc43 fedora 140.2 KiB file-libs aarch64 5.46-8.fc43 fedora 11.9 MiB filesystem aarch64 3.18-50.fc43 fedora 112.0 B filesystem-srpm-macros noarch 3.18-50.fc43 fedora 38.2 KiB fonts-srpm-macros noarch 1:2.0.5-23.fc43 fedora 55.8 KiB forge-srpm-macros noarch 0.4.0-3.fc43 fedora 38.9 KiB fpc-srpm-macros noarch 1.3-15.fc43 fedora 144.0 B gap-srpm-macros noarch 2-1.fc43 fedora 2.1 KiB gdb-minimal aarch64 16.3-6.fc43 fedora 13.0 MiB gdbm-libs aarch64 1:1.23-10.fc43 fedora 233.9 KiB ghc-srpm-macros noarch 1.9.2-3.fc43 fedora 779.0 B glibc aarch64 2.42-4.fc43 fedora 6.3 MiB glibc-common aarch64 2.42-4.fc43 fedora 1.3 MiB glibc-gconv-extra aarch64 2.42-4.fc43 fedora 18.6 MiB gmp aarch64 1:6.3.0-4.fc43 fedora 657.9 KiB gnat-srpm-macros noarch 6-8.fc43 fedora 1.0 KiB gnulib-l10n noarch 20241231-1.fc43 fedora 655.0 KiB gnupg2 aarch64 2.4.8-4.fc43 fedora 6.5 MiB gnupg2-dirmngr aarch64 2.4.8-4.fc43 fedora 646.4 KiB gnupg2-gpg-agent aarch64 2.4.8-4.fc43 fedora 847.3 KiB gnupg2-gpgconf aarch64 2.4.8-4.fc43 fedora 321.9 KiB gnupg2-keyboxd aarch64 2.4.8-4.fc43 fedora 233.3 KiB gnupg2-verify aarch64 2.4.8-4.fc43 fedora 364.4 KiB gnutls aarch64 3.8.10-3.fc43 fedora 3.6 MiB go-srpm-macros noarch 3.8.0-1.fc43 fedora 61.9 KiB gpgverify noarch 2.2-3.fc43 fedora 8.7 KiB ima-evm-utils-libs aarch64 1.6.2-6.fc43 fedora 92.7 KiB jansson aarch64 2.14-3.fc43 fedora 93.1 KiB java-srpm-macros noarch 1-7.fc43 fedora 870.0 B json-c aarch64 0.18-7.fc43 fedora 138.7 KiB kernel-srpm-macros noarch 1.0-27.fc43 fedora 1.9 KiB keyutils-libs aarch64 1.6.3-6.fc43 fedora 98.3 KiB krb5-libs aarch64 1.21.3-7.fc43 fedora 2.5 MiB libacl aarch64 2.3.2-4.fc43 fedora 68.0 KiB libarchive aarch64 3.8.1-3.fc43 fedora 975.1 KiB libassuan aarch64 2.5.7-4.fc43 fedora 215.8 KiB libattr aarch64 2.5.2-6.fc43 fedora 68.5 KiB libblkid aarch64 2.41.1-17.fc43 fedora 290.5 KiB libbrotli aarch64 1.1.0-10.fc43 fedora 909.5 KiB libcap aarch64 2.76-3.fc43 fedora 508.8 KiB libcap-ng aarch64 0.8.5-8.fc43 fedora 160.9 KiB libcom_err aarch64 1.47.3-2.fc43 fedora 111.2 KiB libcurl aarch64 8.15.0-2.fc43 fedora 915.1 KiB libeconf aarch64 0.7.9-2.fc43 fedora 81.0 KiB libevent aarch64 2.1.12-16.fc43 fedora 1.1 MiB libfdisk aarch64 2.41.1-17.fc43 fedora 418.9 KiB libffi aarch64 3.5.1-2.fc43 fedora 155.7 KiB libfsverity aarch64 1.6-3.fc43 fedora 68.5 KiB libgcc aarch64 15.2.1-2.fc43 fedora 222.2 KiB libgcrypt aarch64 1.11.1-2.fc43 fedora 1.2 MiB libgomp aarch64 15.2.1-2.fc43 fedora 516.6 KiB libgpg-error aarch64 1.55-2.fc43 fedora 971.3 KiB libidn2 aarch64 2.3.8-2.fc43 fedora 560.6 KiB libksba aarch64 1.6.7-4.fc43 fedora 398.4 KiB liblastlog2 aarch64 2.41.1-17.fc43 fedora 137.9 KiB libmount aarch64 2.41.1-17.fc43 fedora 420.3 KiB libnghttp2 aarch64 1.66.0-2.fc43 fedora 197.9 KiB libpkgconf aarch64 2.3.0-3.fc43 fedora 134.0 KiB libpsl aarch64 0.21.5-6.fc43 fedora 132.5 KiB libselinux aarch64 3.9-5.fc43 fedora 201.1 KiB libsemanage aarch64 3.9-4.fc43 fedora 360.2 KiB libsepol aarch64 3.9-2.fc43 fedora 809.8 KiB libsmartcols aarch64 2.41.1-17.fc43 fedora 224.6 KiB libssh aarch64 0.11.3-1.fc43 fedora 587.0 KiB libssh-config noarch 0.11.3-1.fc43 fedora 277.0 B libstdc++ aarch64 15.2.1-2.fc43 fedora 2.8 MiB libtasn1 aarch64 4.20.0-2.fc43 fedora 220.4 KiB libtool-ltdl aarch64 2.5.4-7.fc43 fedora 94.0 KiB libunistring aarch64 1.1-10.fc43 fedora 1.7 MiB libusb1 aarch64 1.0.29-4.fc43 fedora 178.9 KiB libuuid aarch64 2.41.1-17.fc43 fedora 69.4 KiB libverto aarch64 0.3.2-11.fc43 fedora 69.4 KiB libxcrypt aarch64 4.4.38-8.fc43 fedora 272.5 KiB libxml2 aarch64 2.12.10-5.fc43 fedora 1.9 MiB libzstd aarch64 1.5.7-2.fc43 fedora 667.7 KiB lua-libs aarch64 5.4.8-2.fc43 fedora 328.8 KiB lua-srpm-macros noarch 1-16.fc43 fedora 1.3 KiB lz4-libs aarch64 1.10.0-3.fc43 fedora 197.4 KiB mpfr aarch64 4.2.2-2.fc43 fedora 755.5 KiB ncurses-base noarch 6.5-7.20250614.fc43 fedora 328.1 KiB ncurses-libs aarch64 6.5-7.20250614.fc43 fedora 1.2 MiB nettle aarch64 3.10.1-2.fc43 fedora 765.3 KiB npth aarch64 1.8-3.fc43 fedora 93.5 KiB ocaml-srpm-macros noarch 11-2.fc43 fedora 1.9 KiB openblas-srpm-macros noarch 2-20.fc43 fedora 112.0 B openldap aarch64 2.6.10-4.fc43 fedora 761.9 KiB openssl-libs aarch64 1:3.5.1-2.fc43 fedora 7.4 MiB p11-kit aarch64 0.25.8-1.fc43 fedora 2.5 MiB p11-kit-trust aarch64 0.25.8-1.fc43 fedora 530.3 KiB package-notes-srpm-macros noarch 0.5-14.fc43 fedora 1.6 KiB pam-libs aarch64 1.7.1-3.fc43 fedora 223.0 KiB pcre2 aarch64 10.46-1.fc43 fedora 713.6 KiB pcre2-syntax noarch 10.46-1.fc43 fedora 275.3 KiB perl-srpm-macros noarch 1-60.fc43 fedora 861.0 B pkgconf aarch64 2.3.0-3.fc43 fedora 112.4 KiB pkgconf-m4 noarch 2.3.0-3.fc43 fedora 14.4 KiB pkgconf-pkg-config aarch64 2.3.0-3.fc43 fedora 990.0 B popt aarch64 1.19-9.fc43 fedora 144.8 KiB publicsuffix-list-dafsa noarch 20250616-2.fc43 fedora 69.1 KiB pyproject-srpm-macros noarch 1.18.4-1.fc43 fedora 1.9 KiB python-srpm-macros noarch 3.14-5.fc43 fedora 51.5 KiB qt5-srpm-macros noarch 5.15.17-2.fc43 fedora 500.0 B qt6-srpm-macros noarch 6.9.2-1.fc43 fedora 464.0 B readline aarch64 8.3-2.fc43 fedora 563.8 KiB rpm aarch64 6.0.0-1.fc43 fedora 3.4 MiB rpm-build-libs aarch64 6.0.0-1.fc43 fedora 264.1 KiB rpm-libs aarch64 6.0.0-1.fc43 fedora 995.4 KiB rpm-sequoia aarch64 1.9.0-2.fc43 fedora 2.3 MiB rpm-sign-libs aarch64 6.0.0-1.fc43 fedora 67.8 KiB rust-srpm-macros noarch 26.4-1.fc43 fedora 4.8 KiB setup noarch 2.15.0-26.fc43 fedora 725.0 KiB sqlite-libs aarch64 3.50.2-2.fc43 fedora 1.5 MiB systemd-libs aarch64 258-1.fc43 fedora 2.4 MiB systemd-standalone-sysusers aarch64 258-1.fc43 fedora 329.6 KiB tpm2-tss aarch64 4.1.3-8.fc43 fedora 2.1 MiB tree-sitter-srpm-macros noarch 0.4.2-1.fc43 fedora 8.3 KiB util-linux-core aarch64 2.41.1-17.fc43 fedora 2.4 MiB xxhash-libs aarch64 0.8.3-3.fc43 fedora 86.0 KiB xz-libs aarch64 1:5.8.1-2.fc43 fedora 201.5 KiB zig-srpm-macros noarch 1-5.fc43 fedora 1.1 KiB zip aarch64 3.0-44.fc43 fedora 762.5 KiB zlib-ng-compat aarch64 2.2.5-2.fc43 fedora 133.4 KiB zstd aarch64 1.5.7-2.fc43 fedora 1.5 MiB Installing groups: Buildsystem building group Transaction Summary: Installing: 170 packages Total size of inbound packages is 58 MiB. Need to download 58 MiB. After this operation, 225 MiB extra will be used (install 225 MiB, remove 0 B). [ 1/170] bzip2-0:1.0.8-21.fc43.aarch64 100% | 2.4 MiB/s | 51.6 KiB | 00m00s [ 2/170] coreutils-0:9.7-6.fc43.aarch6 100% | 40.6 MiB/s | 1.1 MiB | 00m00s [ 3/170] bash-0:5.3.0-2.fc43.aarch64 100% | 61.3 MiB/s | 1.8 MiB | 00m00s [ 4/170] fedora-release-common-0:43-25 100% | 8.0 MiB/s | 24.6 KiB | 00m00s [ 5/170] diffutils-0:3.12-3.fc43.aarch 100% | 47.6 MiB/s | 389.7 KiB | 00m00s [ 6/170] findutils-1:4.10.0-6.fc43.aar 100% | 108.0 MiB/s | 552.7 KiB | 00m00s [ 7/170] glibc-minimal-langpack-0:2.42 100% | 18.7 MiB/s | 38.2 KiB | 00m00s [ 8/170] grep-0:3.12-2.fc43.aarch64 100% | 72.3 MiB/s | 296.2 KiB | 00m00s [ 9/170] gzip-0:1.13-4.fc43.aarch64 100% | 23.4 MiB/s | 167.6 KiB | 00m00s [ 10/170] info-0:7.2-6.fc43.aarch64 100% | 21.9 MiB/s | 179.4 KiB | 00m00s [ 11/170] patch-0:2.8-2.fc43.aarch64 100% | 27.2 MiB/s | 111.6 KiB | 00m00s [ 12/170] redhat-rpm-config-0:343-11.fc 100% | 25.8 MiB/s | 79.1 KiB | 00m00s [ 13/170] rpm-build-0:6.0.0-1.fc43.aarc 100% | 43.2 MiB/s | 132.6 KiB | 00m00s [ 14/170] cpio-0:2.15-6.fc43.aarch64 100% | 5.0 MiB/s | 289.6 KiB | 00m00s [ 15/170] gawk-0:5.3.2-2.fc43.aarch64 100% | 20.6 MiB/s | 1.1 MiB | 00m00s [ 16/170] tar-2:1.35-6.fc43.aarch64 100% | 92.3 MiB/s | 850.8 KiB | 00m00s [ 17/170] shadow-utils-2:4.18.0-3.fc43. 100% | 55.6 MiB/s | 1.3 MiB | 00m00s [ 18/170] sed-0:4.9-5.fc43.aarch64 100% | 10.2 MiB/s | 314.4 KiB | 00m00s [ 19/170] unzip-0:6.0-67.fc43.aarch64 100% | 36.2 MiB/s | 185.4 KiB | 00m00s [ 20/170] which-0:2.23-3.fc43.aarch64 100% | 10.1 MiB/s | 41.4 KiB | 00m00s [ 21/170] xz-1:5.8.1-2.fc43.aarch64 100% | 112.0 MiB/s | 573.4 KiB | 00m00s [ 22/170] filesystem-0:3.18-50.fc43.aar 100% | 121.2 MiB/s | 1.3 MiB | 00m00s [ 23/170] glibc-0:2.42-4.fc43.aarch64 100% | 129.9 MiB/s | 1.8 MiB | 00m00s [ 24/170] ncurses-libs-0:6.5-7.20250614 100% | 35.2 MiB/s | 324.6 KiB | 00m00s [ 25/170] coreutils-common-0:9.7-6.fc43 100% | 140.0 MiB/s | 2.1 MiB | 00m00s [ 26/170] gmp-1:6.3.0-4.fc43.aarch64 100% | 53.0 MiB/s | 271.3 KiB | 00m00s [ 27/170] libacl-0:2.3.2-4.fc43.aarch64 100% | 4.7 MiB/s | 24.2 KiB | 00m00s [ 28/170] libattr-0:2.5.2-6.fc43.aarch6 100% | 8.7 MiB/s | 17.7 KiB | 00m00s [ 29/170] bzip2-libs-0:1.0.8-21.fc43.aa 100% | 1.0 MiB/s | 40.9 KiB | 00m00s [ 30/170] util-linux-0:2.41.1-17.fc43.a 100% | 16.4 MiB/s | 1.2 MiB | 00m00s [ 31/170] libselinux-0:3.9-5.fc43.aarch 100% | 13.5 MiB/s | 96.6 KiB | 00m00s [ 32/170] systemd-libs-0:258-1.fc43.aar 100% | 85.0 MiB/s | 783.4 KiB | 00m00s [ 33/170] libcap-0:2.76-3.fc43.aarch64 100% | 3.0 MiB/s | 87.9 KiB | 00m00s [ 34/170] fedora-repos-0:43-1.noarch 100% | 2.2 MiB/s | 9.1 KiB | 00m00s [ 35/170] openssl-libs-1:3.5.1-2.fc43.a 100% | 128.7 MiB/s | 2.4 MiB | 00m00s [ 36/170] readline-0:8.3-2.fc43.aarch64 100% | 36.1 MiB/s | 221.8 KiB | 00m00s [ 37/170] pcre2-0:10.46-1.fc43.aarch64 100% | 59.2 MiB/s | 242.7 KiB | 00m00s [ 38/170] ed-0:1.22.2-1.fc43.aarch64 100% | 27.1 MiB/s | 83.1 KiB | 00m00s [ 39/170] ansible-srpm-macros-0:1-18.1. 100% | 9.7 MiB/s | 19.9 KiB | 00m00s [ 40/170] build-reproducibility-srpm-ma 100% | 5.8 MiB/s | 11.8 KiB | 00m00s [ 41/170] dwz-0:0.16-2.fc43.aarch64 100% | 43.0 MiB/s | 132.2 KiB | 00m00s [ 42/170] efi-srpm-macros-0:6-4.fc43.no 100% | 10.9 MiB/s | 22.4 KiB | 00m00s [ 43/170] file-0:5.46-8.fc43.aarch64 100% | 16.0 MiB/s | 49.2 KiB | 00m00s [ 44/170] glibc-common-0:2.42-4.fc43.aa 100% | 10.5 MiB/s | 312.8 KiB | 00m00s [ 45/170] filesystem-srpm-macros-0:3.18 100% | 6.4 MiB/s | 26.4 KiB | 00m00s [ 46/170] fonts-srpm-macros-1:2.0.5-23. 100% | 13.3 MiB/s | 27.2 KiB | 00m00s [ 47/170] forge-srpm-macros-0:0.4.0-3.f 100% | 9.8 MiB/s | 20.1 KiB | 00m00s [ 48/170] fpc-srpm-macros-0:1.3-15.fc43 100% | 3.9 MiB/s | 7.9 KiB | 00m00s [ 49/170] gap-srpm-macros-0:2-1.fc43.no 100% | 4.4 MiB/s | 9.0 KiB | 00m00s [ 50/170] gnat-srpm-macros-0:6-8.fc43.n 100% | 1.4 MiB/s | 8.5 KiB | 00m00s [ 51/170] mpfr-0:4.2.2-2.fc43.aarch64 100% | 6.4 MiB/s | 322.0 KiB | 00m00s [ 52/170] go-srpm-macros-0:3.8.0-1.fc43 100% | 13.8 MiB/s | 28.3 KiB | 00m00s [ 53/170] kernel-srpm-macros-0:1.0-27.f 100% | 2.2 MiB/s | 8.9 KiB | 00m00s [ 54/170] java-srpm-macros-0:1-7.fc43.n 100% | 1.6 MiB/s | 7.9 KiB | 00m00s [ 55/170] lua-srpm-macros-0:1-16.fc43.n 100% | 2.1 MiB/s | 8.8 KiB | 00m00s [ 56/170] openblas-srpm-macros-0:2-20.f 100% | 3.7 MiB/s | 7.6 KiB | 00m00s [ 57/170] ghc-srpm-macros-0:1.9.2-3.fc4 100% | 349.8 KiB/s | 8.7 KiB | 00m00s [ 58/170] perl-srpm-macros-0:1-60.fc43. 100% | 4.0 MiB/s | 8.3 KiB | 00m00s [ 59/170] pyproject-srpm-macros-0:1.18. 100% | 6.7 MiB/s | 13.7 KiB | 00m00s [ 60/170] python-srpm-macros-0:3.14-5.f 100% | 7.6 MiB/s | 23.4 KiB | 00m00s [ 61/170] ocaml-srpm-macros-0:11-2.fc43 100% | 402.6 KiB/s | 9.3 KiB | 00m00s [ 62/170] qt6-srpm-macros-0:6.9.2-1.fc4 100% | 4.6 MiB/s | 9.4 KiB | 00m00s [ 63/170] package-notes-srpm-macros-0:0 100% | 374.4 KiB/s | 9.0 KiB | 00m00s [ 64/170] rust-srpm-macros-0:26.4-1.fc4 100% | 5.4 MiB/s | 11.1 KiB | 00m00s [ 65/170] tree-sitter-srpm-macros-0:0.4 100% | 3.3 MiB/s | 13.4 KiB | 00m00s [ 66/170] zig-srpm-macros-0:1-5.fc43.no 100% | 4.1 MiB/s | 8.4 KiB | 00m00s [ 67/170] zip-0:3.0-44.fc43.aarch64 100% | 64.1 MiB/s | 262.6 KiB | 00m00s [ 68/170] rpm-0:6.0.0-1.fc43.aarch64 100% | 17.6 MiB/s | 578.2 KiB | 00m00s [ 69/170] debugedit-0:5.2-3.fc43.aarch6 100% | 13.8 MiB/s | 84.7 KiB | 00m00s [ 70/170] qt5-srpm-macros-0:5.15.17-2.f 100% | 180.4 KiB/s | 8.7 KiB | 00m00s [ 71/170] elfutils-libelf-0:0.193-3.fc4 100% | 6.7 MiB/s | 206.5 KiB | 00m00s [ 72/170] binutils-0:2.45-1.fc43.aarch6 100% | 98.6 MiB/s | 6.2 MiB | 00m00s [ 73/170] elfutils-0:0.193-3.fc43.aarch 100% | 11.9 MiB/s | 534.9 KiB | 00m00s [ 74/170] libarchive-0:3.8.1-3.fc43.aar 100% | 40.3 MiB/s | 412.3 KiB | 00m00s [ 75/170] libgcc-0:15.2.1-2.fc43.aarch6 100% | 28.5 MiB/s | 116.9 KiB | 00m00s [ 76/170] pkgconf-pkg-config-0:2.3.0-3. 100% | 2.3 MiB/s | 9.6 KiB | 00m00s [ 77/170] libstdc++-0:15.2.1-2.fc43.aar 100% | 118.8 MiB/s | 851.3 KiB | 00m00s [ 78/170] popt-0:1.19-9.fc43.aarch64 100% | 10.6 MiB/s | 65.3 KiB | 00m00s [ 79/170] rpm-build-libs-0:6.0.0-1.fc43 100% | 23.1 MiB/s | 118.2 KiB | 00m00s [ 80/170] rpm-libs-0:6.0.0-1.fc43.aarch 100% | 92.5 MiB/s | 378.8 KiB | 00m00s [ 81/170] zstd-0:1.5.7-2.fc43.aarch64 100% | 87.3 MiB/s | 446.9 KiB | 00m00s [ 82/170] libeconf-0:0.7.9-2.fc43.aarch 100% | 11.4 MiB/s | 35.2 KiB | 00m00s [ 83/170] libsemanage-0:3.9-4.fc43.aarc 100% | 29.2 MiB/s | 119.5 KiB | 00m00s [ 84/170] libxcrypt-0:4.4.38-8.fc43.aar 100% | 17.4 MiB/s | 124.5 KiB | 00m00s [ 85/170] setup-0:2.15.0-26.fc43.noarch 100% | 38.4 MiB/s | 157.3 KiB | 00m00s [ 86/170] libblkid-0:2.41.1-17.fc43.aar 100% | 39.5 MiB/s | 121.3 KiB | 00m00s [ 87/170] audit-libs-0:4.1.1-2.fc43.aar 100% | 5.0 MiB/s | 139.5 KiB | 00m00s [ 88/170] libfdisk-0:2.41.1-17.fc43.aar 100% | 50.1 MiB/s | 153.9 KiB | 00m00s [ 89/170] pam-libs-0:1.7.1-3.fc43.aarch 100% | 2.4 MiB/s | 57.4 KiB | 00m00s [ 90/170] libcap-ng-0:0.8.5-8.fc43.aarc 100% | 701.0 KiB/s | 32.2 KiB | 00m00s [ 91/170] libsmartcols-0:2.41.1-17.fc43 100% | 16.1 MiB/s | 82.5 KiB | 00m00s [ 92/170] libuuid-0:2.41.1-17.fc43.aarc 100% | 5.1 MiB/s | 25.9 KiB | 00m00s [ 93/170] liblastlog2-0:2.41.1-17.fc43. 100% | 478.7 KiB/s | 23.5 KiB | 00m00s [ 94/170] libmount-0:2.41.1-17.fc43.aar 100% | 3.2 MiB/s | 158.5 KiB | 00m00s [ 95/170] util-linux-core-0:2.41.1-17.f 100% | 105.6 MiB/s | 540.8 KiB | 00m00s [ 96/170] zlib-ng-compat-0:2.2.5-2.fc43 100% | 12.9 MiB/s | 65.8 KiB | 00m00s [ 97/170] xz-libs-1:5.8.1-2.fc43.aarch6 100% | 27.2 MiB/s | 111.3 KiB | 00m00s [ 98/170] gnulib-l10n-0:20241231-1.fc43 100% | 24.4 MiB/s | 150.2 KiB | 00m00s [ 99/170] glibc-gconv-extra-0:2.42-4.fc 100% | 110.5 MiB/s | 1.7 MiB | 00m00s [100/170] libsepol-0:3.9-2.fc43.aarch64 100% | 28.7 MiB/s | 323.6 KiB | 00m00s [101/170] crypto-policies-0:20250714-5. 100% | 32.0 MiB/s | 98.5 KiB | 00m00s [102/170] fedora-gpg-keys-0:43-1.noarch 100% | 45.2 MiB/s | 138.9 KiB | 00m00s [103/170] ncurses-base-0:6.5-7.20250614 100% | 3.3 MiB/s | 88.2 KiB | 00m00s [104/170] pcre2-syntax-0:10.46-1.fc43.n 100% | 31.7 MiB/s | 162.2 KiB | 00m00s [105/170] add-determinism-0:0.6.0-2.fc4 100% | 103.9 MiB/s | 851.5 KiB | 00m00s [106/170] curl-0:8.15.0-2.fc43.aarch64 100% | 11.9 MiB/s | 230.6 KiB | 00m00s [107/170] file-libs-0:5.46-8.fc43.aarch 100% | 26.7 MiB/s | 848.0 KiB | 00m00s [108/170] ca-certificates-0:2025.2.80_v 100% | 16.4 MiB/s | 975.4 KiB | 00m00s [109/170] elfutils-debuginfod-client-0: 100% | 2.4 MiB/s | 46.2 KiB | 00m00s [110/170] alternatives-0:1.33-2.fc43.aa 100% | 1.4 MiB/s | 39.8 KiB | 00m00s [111/170] jansson-0:2.14-3.fc43.aarch64 100% | 3.5 MiB/s | 46.7 KiB | 00m00s [112/170] libxml2-0:2.12.10-5.fc43.aarc 100% | 110.5 MiB/s | 678.7 KiB | 00m00s [113/170] elfutils-libs-0:0.193-3.fc43. 100% | 8.9 MiB/s | 265.4 KiB | 00m00s [114/170] pkgconf-0:2.3.0-3.fc43.aarch6 100% | 21.7 MiB/s | 44.4 KiB | 00m00s [115/170] lz4-libs-0:1.10.0-3.fc43.aarc 100% | 3.1 MiB/s | 79.5 KiB | 00m00s [116/170] libgomp-0:15.2.1-2.fc43.aarch 100% | 117.6 MiB/s | 361.3 KiB | 00m00s [117/170] libzstd-0:1.5.7-2.fc43.aarch6 100% | 5.9 MiB/s | 283.6 KiB | 00m00s [118/170] lua-libs-0:5.4.8-2.fc43.aarch 100% | 12.5 MiB/s | 127.9 KiB | 00m00s [119/170] rpm-sign-libs-0:6.0.0-1.fc43. 100% | 5.4 MiB/s | 27.6 KiB | 00m00s [120/170] pkgconf-m4-0:2.3.0-3.fc43.noa 100% | 579.6 KiB/s | 13.9 KiB | 00m00s [121/170] sqlite-libs-0:3.50.2-2.fc43.a 100% | 120.9 MiB/s | 742.8 KiB | 00m00s [122/170] libffi-0:3.5.1-2.fc43.aarch64 100% | 9.6 MiB/s | 39.3 KiB | 00m00s [123/170] rpm-sequoia-0:1.9.0-2.fc43.aa 100% | 28.9 MiB/s | 887.0 KiB | 00m00s [124/170] p11-kit-0:0.25.8-1.fc43.aarch 100% | 9.4 MiB/s | 492.3 KiB | 00m00s [125/170] elfutils-default-yama-scope-0 100% | 3.0 MiB/s | 12.4 KiB | 00m00s [126/170] libpkgconf-0:2.3.0-3.fc43.aar 100% | 18.5 MiB/s | 37.9 KiB | 00m00s [127/170] json-c-0:0.18-7.fc43.aarch64 100% | 980.9 KiB/s | 45.1 KiB | 00m00s [128/170] p11-kit-trust-0:0.25.8-1.fc43 100% | 1.7 MiB/s | 138.6 KiB | 00m00s [129/170] ima-evm-utils-libs-0:1.6.2-6. 100% | 1.2 MiB/s | 29.3 KiB | 00m00s [130/170] libtasn1-0:4.20.0-2.fc43.aarc 100% | 10.3 MiB/s | 73.8 KiB | 00m00s [131/170] gpgverify-0:2.2-3.fc43.noarch 100% | 3.6 MiB/s | 11.1 KiB | 00m00s [132/170] gnupg2-0:2.4.8-4.fc43.aarch64 100% | 36.1 MiB/s | 1.6 MiB | 00m00s [133/170] gnupg2-dirmngr-0:2.4.8-4.fc43 100% | 52.0 MiB/s | 266.0 KiB | 00m00s [134/170] libfsverity-0:1.6-3.fc43.aarc 100% | 742.8 KiB/s | 18.6 KiB | 00m00s [135/170] gnupg2-gpg-agent-0:2.4.8-4.fc 100% | 43.3 MiB/s | 265.9 KiB | 00m00s [136/170] gnupg2-keyboxd-0:2.4.8-4.fc43 100% | 29.7 MiB/s | 91.2 KiB | 00m00s [137/170] gnupg2-verify-0:2.4.8-4.fc43. 100% | 53.4 MiB/s | 164.1 KiB | 00m00s [138/170] libassuan-0:2.5.7-4.fc43.aarc 100% | 13.0 MiB/s | 66.5 KiB | 00m00s [139/170] libgpg-error-0:1.55-2.fc43.aa 100% | 59.4 MiB/s | 243.5 KiB | 00m00s [140/170] npth-0:1.8-3.fc43.aarch64 100% | 12.2 MiB/s | 25.0 KiB | 00m00s [141/170] gnupg2-gpgconf-0:2.4.8-4.fc43 100% | 4.1 MiB/s | 113.9 KiB | 00m00s [142/170] libgcrypt-0:1.11.1-2.fc43.aar 100% | 18.1 MiB/s | 517.6 KiB | 00m00s [143/170] libksba-0:1.6.7-4.fc43.aarch6 100% | 38.5 MiB/s | 157.5 KiB | 00m00s [144/170] openldap-0:2.6.10-4.fc43.aarc 100% | 81.7 MiB/s | 251.1 KiB | 00m00s [145/170] libusb1-0:1.0.29-4.fc43.aarch 100% | 25.2 MiB/s | 77.5 KiB | 00m00s [146/170] tpm2-tss-0:4.1.3-8.fc43.aarch 100% | 9.3 MiB/s | 400.5 KiB | 00m00s [147/170] gnutls-0:3.8.10-3.fc43.aarch6 100% | 32.4 MiB/s | 1.3 MiB | 00m00s [148/170] libidn2-0:2.3.8-2.fc43.aarch6 100% | 5.9 MiB/s | 174.6 KiB | 00m00s [149/170] libunistring-0:1.1-10.fc43.aa 100% | 17.0 MiB/s | 539.2 KiB | 00m00s [150/170] libevent-0:2.1.12-16.fc43.aar 100% | 49.5 MiB/s | 253.4 KiB | 00m00s [151/170] cyrus-sasl-lib-0:2.1.28-33.fc 100% | 28.0 MiB/s | 774.0 KiB | 00m00s [152/170] gdbm-libs-1:1.23-10.fc43.aarc 100% | 18.2 MiB/s | 56.0 KiB | 00m00s [153/170] fedora-release-0:43-25.noarch 100% | 6.6 MiB/s | 13.5 KiB | 00m00s [154/170] nettle-0:3.10.1-2.fc43.aarch6 100% | 8.0 MiB/s | 425.7 KiB | 00m00s [155/170] systemd-standalone-sysusers-0 100% | 19.4 MiB/s | 138.8 KiB | 00m00s [156/170] libtool-ltdl-0:2.5.4-7.fc43.a 100% | 1.4 MiB/s | 35.6 KiB | 00m00s [157/170] xxhash-libs-0:0.8.3-3.fc43.aa 100% | 4.8 MiB/s | 34.5 KiB | 00m00s [158/170] fedora-release-identity-basic 100% | 3.5 MiB/s | 14.3 KiB | 00m00s [159/170] gdb-minimal-0:16.3-6.fc43.aar 100% | 208.3 MiB/s | 4.2 MiB | 00m00s [160/170] libbrotli-0:1.1.0-10.fc43.aar 100% | 55.5 MiB/s | 341.0 KiB | 00m00s [161/170] libnghttp2-0:1.66.0-2.fc43.aa 100% | 8.8 MiB/s | 72.2 KiB | 00m00s [162/170] libcurl-0:8.15.0-2.fc43.aarch 100% | 13.7 MiB/s | 393.0 KiB | 00m00s [163/170] krb5-libs-0:1.21.3-7.fc43.aar 100% | 22.9 MiB/s | 751.0 KiB | 00m00s [164/170] libssh-0:0.11.3-1.fc43.aarch6 100% | 32.2 MiB/s | 230.6 KiB | 00m00s [165/170] libcom_err-0:1.47.3-2.fc43.aa 100% | 8.7 MiB/s | 26.7 KiB | 00m00s [166/170] libpsl-0:0.21.5-6.fc43.aarch6 100% | 2.3 MiB/s | 65.1 KiB | 00m00s [167/170] keyutils-libs-0:1.6.3-6.fc43. 100% | 1.1 MiB/s | 31.5 KiB | 00m00s [168/170] libverto-0:0.3.2-11.fc43.aarc 100% | 928.6 KiB/s | 20.4 KiB | 00m00s [169/170] libssh-config-0:0.11.3-1.fc43 100% | 4.4 MiB/s | 9.1 KiB | 00m00s [170/170] publicsuffix-list-dafsa-0:202 100% | 2.5 MiB/s | 59.2 KiB | 00m00s -------------------------------------------------------------------------------- [170/170] Total 100% | 62.8 MiB/s | 57.6 MiB | 00m01s Running transaction Importing OpenPGP key 0x31645531: UserID : "Fedora (43) " Fingerprint: C6E7F081CF80E13146676E88829B606631645531 From : file:///usr/share/distribution-gpg-keys/fedora/RPM-GPG-KEY-fedora-43-primary The key was successfully imported. [ 1/172] Verify package files 100% | 787.0 B/s | 170.0 B | 00m00s [ 2/172] Prepare transaction 100% | 2.5 KiB/s | 170.0 B | 00m00s [ 3/172] Installing libgcc-0:15.2.1-2. 100% | 109.3 MiB/s | 223.9 KiB | 00m00s [ 4/172] Installing libssh-config-0:0. 100% | 0.0 B/s | 816.0 B | 00m00s [ 5/172] Installing publicsuffix-list- 100% | 68.2 MiB/s | 69.8 KiB | 00m00s [ 6/172] Installing fedora-release-ide 100% | 867.2 KiB/s | 888.0 B | 00m00s [ 7/172] Installing fedora-gpg-keys-0: 100% | 29.1 MiB/s | 179.0 KiB | 00m00s [ 8/172] Installing fedora-repos-0:43- 100% | 5.6 MiB/s | 5.7 KiB | 00m00s [ 9/172] Installing fedora-release-com 100% | 24.3 MiB/s | 24.9 KiB | 00m00s [ 10/172] Installing fedora-release-0:4 100% | 15.1 KiB/s | 124.0 B | 00m00s >>> Running sysusers scriptlet: setup-0:2.15.0-26.fc43.noarch >>> Finished sysusers scriptlet: setup-0:2.15.0-26.fc43.noarch >>> Scriptlet output: >>> Creating group 'adm' with GID 4. >>> Creating group 'audio' with GID 63. >>> Creating group 'cdrom' with GID 11. >>> Creating group 'clock' with GID 103. >>> Creating group 'dialout' with GID 18. >>> Creating group 'disk' with GID 6. >>> Creating group 'floppy' with GID 19. >>> Creating group 'ftp' with GID 50. >>> Creating group 'games' with GID 20. >>> Creating group 'input' with GID 104. >>> Creating group 'kmem' with GID 9. >>> Creating group 'kvm' with GID 36. >>> Creating group 'lock' with GID 54. >>> Creating group 'lp' with GID 7. >>> Creating group 'mail' with GID 12. >>> Creating group 'man' with GID 15. >>> Creating group 'mem' with GID 8. >>> Creating group 'nobody' with GID 65534. >>> Creating group 'render' with GID 105. >>> Creating group 'root' with GID 0. >>> Creating group 'sgx' with GID 106. >>> Creating group 'sys' with GID 3. >>> Creating group 'tape' with GID 33. >>> Creating group 'tty' with GID 5. >>> Creating group 'users' with GID 100. >>> Creating group 'utmp' with GID 22. >>> Creating group 'video' with GID 39. >>> Creating group 'wheel' with GID 10. >>> Creating user 'adm' (adm) with UID 3 and GID 4. >>> Creating group 'bin' with GID 1. >>> Creating user 'bin' (bin) with UID 1 and GID 1. >>> Creating group 'daemon' with GID 2. >>> Creating user 'daemon' (daemon) with UID 2 and GID 2. >>> Creating user 'ftp' (FTP User) with UID 14 and GID 50. >>> Creating user 'games' (games) with UID 12 and GID 100. >>> Creating user 'halt' (halt) with UID 7 and GID 0. >>> Creating user 'lp' (lp) with UID 4 and GID 7. >>> Creating user 'mail' (mail) with UID 8 and GID 12. >>> Creating user 'nobody' (Kernel Overflow User) with UID 65534 and GID 65534. >>> Creating user 'operator' (operator) with UID 11 and GID 0. >>> Creating user 'root' (Super User) with UID 0 and GID 0. >>> Creating user 'shutdown' (shutdown) with UID 6 and GID 0. >>> Creating user 'sync' (sync) with UID 5 and GID 0. >>> [ 11/172] Installing setup-0:2.15.0-26. 100% | 35.7 MiB/s | 730.6 KiB | 00m00s [ 12/172] Installing filesystem-0:3.18- 100% | 1.8 MiB/s | 212.8 KiB | 00m00s [ 13/172] Installing pkgconf-m4-0:2.3.0 100% | 14.5 MiB/s | 14.8 KiB | 00m00s [ 14/172] Installing pcre2-syntax-0:10. 100% | 135.6 MiB/s | 277.8 KiB | 00m00s [ 15/172] Installing gnulib-l10n-0:2024 100% | 129.3 MiB/s | 661.9 KiB | 00m00s [ 16/172] Installing coreutils-common-0 100% | 289.5 MiB/s | 11.3 MiB | 00m00s [ 17/172] Installing ncurses-base-0:6.5 100% | 49.3 MiB/s | 353.5 KiB | 00m00s [ 18/172] Installing bash-0:5.3.0-2.fc4 100% | 200.7 MiB/s | 8.4 MiB | 00m00s [ 19/172] Installing glibc-common-0:2.4 100% | 57.6 MiB/s | 1.3 MiB | 00m00s [ 20/172] Installing glibc-gconv-extra- 100% | 373.2 MiB/s | 18.7 MiB | 00m00s [ 21/172] Installing glibc-0:2.42-4.fc4 100% | 139.6 MiB/s | 6.3 MiB | 00m00s [ 22/172] Installing ncurses-libs-0:6.5 100% | 207.9 MiB/s | 1.2 MiB | 00m00s [ 23/172] Installing glibc-minimal-lang 100% | 0.0 B/s | 124.0 B | 00m00s [ 24/172] Installing zlib-ng-compat-0:2 100% | 131.1 MiB/s | 134.2 KiB | 00m00s [ 25/172] Installing bzip2-libs-0:1.0.8 100% | 72.0 MiB/s | 73.8 KiB | 00m00s [ 26/172] Installing libgpg-error-0:1.5 100% | 45.4 MiB/s | 977.1 KiB | 00m00s [ 27/172] Installing libstdc++-0:15.2.1 100% | 315.1 MiB/s | 2.8 MiB | 00m00s [ 28/172] Installing xz-libs-1:5.8.1-2. 100% | 197.9 MiB/s | 202.6 KiB | 00m00s [ 29/172] Installing libassuan-0:2.5.7- 100% | 212.6 MiB/s | 217.7 KiB | 00m00s [ 30/172] Installing libgcrypt-0:1.11.1 100% | 238.9 MiB/s | 1.2 MiB | 00m00s [ 31/172] Installing readline-0:8.3-2.f 100% | 184.2 MiB/s | 565.9 KiB | 00m00s [ 32/172] Installing gmp-1:6.3.0-4.fc43 100% | 214.9 MiB/s | 660.1 KiB | 00m00s [ 33/172] Installing libuuid-0:2.41.1-1 100% | 68.9 MiB/s | 70.6 KiB | 00m00s [ 34/172] Installing popt-0:1.19-9.fc43 100% | 49.3 MiB/s | 151.4 KiB | 00m00s [ 35/172] Installing npth-0:1.8-3.fc43. 100% | 92.4 MiB/s | 94.6 KiB | 00m00s [ 36/172] Installing libblkid-0:2.41.1- 100% | 142.3 MiB/s | 291.5 KiB | 00m00s [ 37/172] Installing libxcrypt-0:4.4.38 100% | 134.4 MiB/s | 275.2 KiB | 00m00s [ 38/172] Installing libzstd-0:1.5.7-2. 100% | 217.8 MiB/s | 669.0 KiB | 00m00s [ 39/172] Installing elfutils-libelf-0: 100% | 297.5 MiB/s | 1.2 MiB | 00m00s [ 40/172] Installing sqlite-libs-0:3.50 100% | 250.2 MiB/s | 1.5 MiB | 00m00s [ 41/172] Installing gnupg2-gpgconf-0:2 100% | 18.6 MiB/s | 324.0 KiB | 00m00s [ 42/172] Installing libattr-0:2.5.2-6. 100% | 67.8 MiB/s | 69.4 KiB | 00m00s [ 43/172] Installing libacl-0:2.3.2-4.f 100% | 67.2 MiB/s | 68.8 KiB | 00m00s [ 44/172] Installing libtasn1-0:4.20.0- 100% | 108.5 MiB/s | 222.2 KiB | 00m00s [ 45/172] Installing libunistring-0:1.1 100% | 291.0 MiB/s | 1.7 MiB | 00m00s [ 46/172] Installing libidn2-0:2.3.8-2. 100% | 46.1 MiB/s | 566.7 KiB | 00m00s [ 47/172] Installing crypto-policies-0: 100% | 21.0 MiB/s | 172.0 KiB | 00m00s [ 48/172] Installing dwz-0:0.16-2.fc43. 100% | 15.8 MiB/s | 324.0 KiB | 00m00s [ 49/172] Installing gnupg2-verify-0:2. 100% | 19.8 MiB/s | 365.8 KiB | 00m00s [ 50/172] Installing mpfr-0:4.2.2-2.fc4 100% | 184.9 MiB/s | 757.2 KiB | 00m00s [ 51/172] Installing gawk-0:5.3.2-2.fc4 100% | 99.3 MiB/s | 2.6 MiB | 00m00s [ 52/172] Installing libksba-0:1.6.7-4. 100% | 130.5 MiB/s | 401.0 KiB | 00m00s [ 53/172] Installing unzip-0:6.0-67.fc4 100% | 25.7 MiB/s | 473.7 KiB | 00m00s [ 54/172] Installing file-libs-0:5.46-8 100% | 540.0 MiB/s | 11.9 MiB | 00m00s [ 55/172] Installing file-0:5.46-8.fc43 100% | 8.1 MiB/s | 141.7 KiB | 00m00s [ 56/172] Installing pcre2-0:10.46-1.fc 100% | 232.7 MiB/s | 715.0 KiB | 00m00s [ 57/172] Installing grep-0:3.12-2.fc43 100% | 45.1 MiB/s | 1.0 MiB | 00m00s [ 58/172] Installing xz-1:5.8.1-2.fc43. 100% | 56.5 MiB/s | 1.4 MiB | 00m00s [ 59/172] Installing libeconf-0:0.7.9-2 100% | 80.7 MiB/s | 82.6 KiB | 00m00s [ 60/172] Installing libcap-ng-0:0.8.5- 100% | 159.0 MiB/s | 162.8 KiB | 00m00s [ 61/172] Installing audit-libs-0:4.1.1 100% | 159.4 MiB/s | 489.6 KiB | 00m00s [ 62/172] Installing pam-libs-0:1.7.1-3 100% | 110.1 MiB/s | 225.4 KiB | 00m00s [ 63/172] Installing libcap-0:2.76-3.fc 100% | 27.9 MiB/s | 513.9 KiB | 00m00s [ 64/172] Installing systemd-libs-0:258 100% | 266.7 MiB/s | 2.4 MiB | 00m00s [ 65/172] Installing libsmartcols-0:2.4 100% | 220.4 MiB/s | 225.7 KiB | 00m00s [ 66/172] Installing libsepol-0:3.9-2.f 100% | 263.9 MiB/s | 810.8 KiB | 00m00s [ 67/172] Installing libselinux-0:3.9-5 100% | 98.8 MiB/s | 202.4 KiB | 00m00s [ 68/172] Installing findutils-1:4.10.0 100% | 80.0 MiB/s | 1.9 MiB | 00m00s [ 69/172] Installing sed-0:4.9-5.fc43.a 100% | 39.1 MiB/s | 881.4 KiB | 00m00s [ 70/172] Installing libmount-0:2.41.1- 100% | 205.7 MiB/s | 421.2 KiB | 00m00s [ 71/172] Installing alternatives-0:1.3 100% | 5.3 MiB/s | 91.8 KiB | 00m00s [ 72/172] Installing lz4-libs-0:1.10.0- 100% | 193.9 MiB/s | 198.5 KiB | 00m00s [ 73/172] Installing lua-libs-0:5.4.8-2 100% | 161.2 MiB/s | 330.0 KiB | 00m00s [ 74/172] Installing libffi-0:3.5.1-2.f 100% | 153.4 MiB/s | 157.1 KiB | 00m00s [ 75/172] Installing p11-kit-0:0.25.8-1 100% | 89.8 MiB/s | 2.5 MiB | 00m00s [ 76/172] Installing p11-kit-trust-0:0. 100% | 18.6 MiB/s | 532.0 KiB | 00m00s [ 77/172] Installing json-c-0:0.18-7.fc 100% | 45.6 MiB/s | 139.9 KiB | 00m00s [ 78/172] Installing openssl-libs-1:3.5 100% | 253.8 MiB/s | 7.4 MiB | 00m00s [ 79/172] Installing coreutils-0:9.7-6. 100% | 166.6 MiB/s | 8.2 MiB | 00m00s [ 80/172] Installing ca-certificates-0: 100% | 1.3 MiB/s | 2.5 MiB | 00m02s [ 81/172] Installing gzip-0:1.13-4.fc43 100% | 21.0 MiB/s | 430.2 KiB | 00m00s [ 82/172] Installing rpm-sequoia-0:1.9. 100% | 287.9 MiB/s | 2.3 MiB | 00m00s [ 83/172] Installing libfsverity-0:1.6- 100% | 67.8 MiB/s | 69.4 KiB | 00m00s [ 84/172] Installing libevent-0:2.1.12- 100% | 271.3 MiB/s | 1.1 MiB | 00m00s [ 85/172] Installing zstd-0:1.5.7-2.fc4 100% | 68.5 MiB/s | 1.5 MiB | 00m00s [ 86/172] Installing util-linux-core-0: 100% | 94.9 MiB/s | 2.5 MiB | 00m00s [ 87/172] Installing tar-2:1.35-6.fc43. 100% | 107.3 MiB/s | 3.0 MiB | 00m00s [ 88/172] Installing libsemanage-0:3.9- 100% | 176.7 MiB/s | 361.9 KiB | 00m00s [ 89/172] Installing systemd-standalone 100% | 17.9 MiB/s | 330.1 KiB | 00m00s [ 90/172] Installing rpm-libs-0:6.0.0-1 100% | 243.4 MiB/s | 997.0 KiB | 00m00s [ 91/172] Installing libusb1-0:1.0.29-4 100% | 17.6 MiB/s | 180.6 KiB | 00m00s >>> Running sysusers scriptlet: tpm2-tss-0:4.1.3-8.fc43.aarch64 >>> Finished sysusers scriptlet: tpm2-tss-0:4.1.3-8.fc43.aarch64 >>> Scriptlet output: >>> Creating group 'tss' with GID 59. >>> Creating user 'tss' (Account used for TPM access) with UID 59 and GID 59. >>> [ 92/172] Installing tpm2-tss-0:4.1.3-8 100% | 239.9 MiB/s | 2.2 MiB | 00m00s [ 93/172] Installing ima-evm-utils-libs 100% | 91.8 MiB/s | 94.0 KiB | 00m00s [ 94/172] Installing gnupg2-gpg-agent-0 100% | 28.7 MiB/s | 851.2 KiB | 00m00s [ 95/172] Installing zip-0:3.0-44.fc43. 100% | 37.4 MiB/s | 766.4 KiB | 00m00s [ 96/172] Installing gnupg2-keyboxd-0:2 100% | 28.6 MiB/s | 234.6 KiB | 00m00s [ 97/172] Installing libpsl-0:0.21.5-6. 100% | 130.5 MiB/s | 133.6 KiB | 00m00s [ 98/172] Installing liblastlog2-0:2.41 100% | 17.1 MiB/s | 140.0 KiB | 00m00s [ 99/172] Installing libfdisk-0:2.41.1- 100% | 136.7 MiB/s | 420.0 KiB | 00m00s [100/172] Installing nettle-0:3.10.1-2. 100% | 187.6 MiB/s | 768.4 KiB | 00m00s [101/172] Installing gnutls-0:3.8.10-3. 100% | 279.4 MiB/s | 3.6 MiB | 00m00s [102/172] Installing libxml2-0:2.12.10- 100% | 78.8 MiB/s | 1.9 MiB | 00m00s [103/172] Installing libarchive-0:3.8.1 100% | 238.5 MiB/s | 977.0 KiB | 00m00s [104/172] Installing bzip2-0:1.0.8-21.f 100% | 10.1 MiB/s | 175.8 KiB | 00m00s [105/172] Installing add-determinism-0: 100% | 91.4 MiB/s | 2.1 MiB | 00m00s [106/172] Installing build-reproducibil 100% | 1.0 MiB/s | 1.0 KiB | 00m00s [107/172] Installing cpio-0:2.15-6.fc43 100% | 49.8 MiB/s | 1.1 MiB | 00m00s [108/172] Installing diffutils-0:3.12-3 100% | 67.6 MiB/s | 1.6 MiB | 00m00s [109/172] Installing ed-0:1.22.2-1.fc43 100% | 9.1 MiB/s | 158.3 KiB | 00m00s [110/172] Installing patch-0:2.8-2.fc43 100% | 14.3 MiB/s | 264.1 KiB | 00m00s [111/172] Installing jansson-0:2.14-3.f 100% | 92.3 MiB/s | 94.5 KiB | 00m00s [112/172] Installing libgomp-0:15.2.1-2 100% | 252.9 MiB/s | 518.0 KiB | 00m00s [113/172] Installing libpkgconf-0:2.3.0 100% | 132.0 MiB/s | 135.1 KiB | 00m00s [114/172] Installing pkgconf-0:2.3.0-3. 100% | 6.2 MiB/s | 114.9 KiB | 00m00s [115/172] Installing pkgconf-pkg-config 100% | 104.3 KiB/s | 1.8 KiB | 00m00s [116/172] Installing libtool-ltdl-0:2.5 100% | 92.9 MiB/s | 95.1 KiB | 00m00s [117/172] Installing gdbm-libs-1:1.23-1 100% | 230.1 MiB/s | 235.6 KiB | 00m00s [118/172] Installing cyrus-sasl-lib-0:2 100% | 96.7 MiB/s | 2.4 MiB | 00m00s [119/172] Installing openldap-0:2.6.10- 100% | 186.9 MiB/s | 765.6 KiB | 00m00s [120/172] Installing gnupg2-dirmngr-0:2 100% | 23.5 MiB/s | 649.1 KiB | 00m00s [121/172] Installing gnupg2-0:2.4.8-4.f 100% | 163.2 MiB/s | 6.5 MiB | 00m00s [122/172] Installing rpm-sign-libs-0:6. 100% | 67.0 MiB/s | 68.6 KiB | 00m00s [123/172] Installing gpgverify-0:2.2-3. 100% | 9.2 MiB/s | 9.4 KiB | 00m00s [124/172] Installing xxhash-libs-0:0.8. 100% | 85.3 MiB/s | 87.4 KiB | 00m00s [125/172] Installing libbrotli-0:1.1.0- 100% | 222.6 MiB/s | 911.8 KiB | 00m00s [126/172] Installing libnghttp2-0:1.66. 100% | 194.4 MiB/s | 199.1 KiB | 00m00s [127/172] Installing keyutils-libs-0:1. 100% | 97.4 MiB/s | 99.8 KiB | 00m00s [128/172] Installing libcom_err-0:1.47. 100% | 109.5 MiB/s | 112.2 KiB | 00m00s [129/172] Installing libverto-0:0.3.2-1 100% | 69.5 MiB/s | 71.2 KiB | 00m00s [130/172] Installing krb5-libs-0:1.21.3 100% | 253.2 MiB/s | 2.5 MiB | 00m00s [131/172] Installing libssh-0:0.11.3-1. 100% | 191.7 MiB/s | 589.1 KiB | 00m00s [132/172] Installing libcurl-0:8.15.0-2 100% | 223.7 MiB/s | 916.2 KiB | 00m00s [133/172] Installing curl-0:8.15.0-2.fc 100% | 15.9 MiB/s | 472.4 KiB | 00m00s [134/172] Installing rpm-0:6.0.0-1.fc43 100% | 58.7 MiB/s | 2.8 MiB | 00m00s [135/172] Installing efi-srpm-macros-0: 100% | 40.2 MiB/s | 41.1 KiB | 00m00s [136/172] Installing java-srpm-macros-0 100% | 0.0 B/s | 1.1 KiB | 00m00s [137/172] Installing lua-srpm-macros-0: 100% | 1.9 MiB/s | 1.9 KiB | 00m00s [138/172] Installing tree-sitter-srpm-m 100% | 9.1 MiB/s | 9.3 KiB | 00m00s [139/172] Installing zig-srpm-macros-0: 100% | 1.6 MiB/s | 1.7 KiB | 00m00s [140/172] Installing filesystem-srpm-ma 100% | 38.0 MiB/s | 38.9 KiB | 00m00s [141/172] Installing elfutils-default-y 100% | 340.5 KiB/s | 2.0 KiB | 00m00s [142/172] Installing elfutils-libs-0:0. 100% | 182.8 MiB/s | 748.5 KiB | 00m00s [143/172] Installing elfutils-debuginfo 100% | 7.1 MiB/s | 146.2 KiB | 00m00s [144/172] Installing binutils-0:2.45-1. 100% | 267.1 MiB/s | 30.2 MiB | 00m00s [145/172] Installing elfutils-0:0.193-3 100% | 118.6 MiB/s | 3.2 MiB | 00m00s [146/172] Installing gdb-minimal-0:16.3 100% | 224.9 MiB/s | 13.0 MiB | 00m00s [147/172] Installing debugedit-0:5.2-3. 100% | 16.5 MiB/s | 321.2 KiB | 00m00s [148/172] Installing rpm-build-libs-0:6 100% | 129.4 MiB/s | 264.9 KiB | 00m00s [149/172] Installing rust-srpm-macros-0 100% | 5.4 MiB/s | 5.6 KiB | 00m00s [150/172] Installing qt6-srpm-macros-0: 100% | 0.0 B/s | 740.0 B | 00m00s [151/172] Installing qt5-srpm-macros-0: 100% | 0.0 B/s | 776.0 B | 00m00s [152/172] Installing perl-srpm-macros-0 100% | 0.0 B/s | 1.1 KiB | 00m00s [153/172] Installing package-notes-srpm 100% | 0.0 B/s | 2.0 KiB | 00m00s [154/172] Installing openblas-srpm-macr 100% | 0.0 B/s | 392.0 B | 00m00s [155/172] Installing ocaml-srpm-macros- 100% | 0.0 B/s | 2.1 KiB | 00m00s [156/172] Installing kernel-srpm-macros 100% | 0.0 B/s | 2.3 KiB | 00m00s [157/172] Installing gnat-srpm-macros-0 100% | 0.0 B/s | 1.3 KiB | 00m00s [158/172] Installing ghc-srpm-macros-0: 100% | 0.0 B/s | 1.0 KiB | 00m00s [159/172] Installing gap-srpm-macros-0: 100% | 0.0 B/s | 2.7 KiB | 00m00s [160/172] Installing fpc-srpm-macros-0: 100% | 0.0 B/s | 420.0 B | 00m00s [161/172] Installing ansible-srpm-macro 100% | 35.4 MiB/s | 36.2 KiB | 00m00s [162/172] Installing rpm-build-0:6.0.0- 100% | 28.3 MiB/s | 607.9 KiB | 00m00s [163/172] Installing pyproject-srpm-mac 100% | 2.4 MiB/s | 2.5 KiB | 00m00s [164/172] Installing redhat-rpm-config- 100% | 61.6 MiB/s | 189.1 KiB | 00m00s [165/172] Installing forge-srpm-macros- 100% | 39.3 MiB/s | 40.3 KiB | 00m00s [166/172] Installing fonts-srpm-macros- 100% | 55.7 MiB/s | 57.0 KiB | 00m00s [167/172] Installing go-srpm-macros-0:3 100% | 61.6 MiB/s | 63.0 KiB | 00m00s [168/172] Installing python-srpm-macros 100% | 25.8 MiB/s | 52.8 KiB | 00m00s [169/172] Installing util-linux-0:2.41. 100% | 127.0 MiB/s | 6.9 MiB | 00m00s [170/172] Installing shadow-utils-2:4.1 100% | 99.9 MiB/s | 4.5 MiB | 00m00s [171/172] Installing which-0:2.23-3.fc4 100% | 6.8 MiB/s | 125.6 KiB | 00m00s [172/172] Installing info-0:7.2-6.fc43. 100% | 182.4 KiB/s | 422.0 KiB | 00m02s Complete! Finish: installing minimal buildroot with dnf5 Start: creating root cache Finish: creating root cache Finish: chroot init INFO: Installed packages: INFO: add-determinism-0.6.0-2.fc43.aarch64 alternatives-1.33-2.fc43.aarch64 ansible-srpm-macros-1-18.1.fc43.noarch audit-libs-4.1.1-2.fc43.aarch64 bash-5.3.0-2.fc43.aarch64 binutils-2.45-1.fc43.aarch64 build-reproducibility-srpm-macros-0.6.0-2.fc43.noarch bzip2-1.0.8-21.fc43.aarch64 bzip2-libs-1.0.8-21.fc43.aarch64 ca-certificates-2025.2.80_v9.0.304-1.1.fc43.noarch coreutils-9.7-6.fc43.aarch64 coreutils-common-9.7-6.fc43.aarch64 cpio-2.15-6.fc43.aarch64 crypto-policies-20250714-5.gitcd6043a.fc43.noarch curl-8.15.0-2.fc43.aarch64 cyrus-sasl-lib-2.1.28-33.fc43.aarch64 debugedit-5.2-3.fc43.aarch64 diffutils-3.12-3.fc43.aarch64 dwz-0.16-2.fc43.aarch64 ed-1.22.2-1.fc43.aarch64 efi-srpm-macros-6-4.fc43.noarch elfutils-0.193-3.fc43.aarch64 elfutils-debuginfod-client-0.193-3.fc43.aarch64 elfutils-default-yama-scope-0.193-3.fc43.noarch elfutils-libelf-0.193-3.fc43.aarch64 elfutils-libs-0.193-3.fc43.aarch64 fedora-gpg-keys-43-1.noarch fedora-release-43-25.noarch fedora-release-common-43-25.noarch fedora-release-identity-basic-43-25.noarch fedora-repos-43-1.noarch file-5.46-8.fc43.aarch64 file-libs-5.46-8.fc43.aarch64 filesystem-3.18-50.fc43.aarch64 filesystem-srpm-macros-3.18-50.fc43.noarch findutils-4.10.0-6.fc43.aarch64 fonts-srpm-macros-2.0.5-23.fc43.noarch forge-srpm-macros-0.4.0-3.fc43.noarch fpc-srpm-macros-1.3-15.fc43.noarch gap-srpm-macros-2-1.fc43.noarch gawk-5.3.2-2.fc43.aarch64 gdb-minimal-16.3-6.fc43.aarch64 gdbm-libs-1.23-10.fc43.aarch64 ghc-srpm-macros-1.9.2-3.fc43.noarch glibc-2.42-4.fc43.aarch64 glibc-common-2.42-4.fc43.aarch64 glibc-gconv-extra-2.42-4.fc43.aarch64 glibc-minimal-langpack-2.42-4.fc43.aarch64 gmp-6.3.0-4.fc43.aarch64 gnat-srpm-macros-6-8.fc43.noarch gnulib-l10n-20241231-1.fc43.noarch gnupg2-2.4.8-4.fc43.aarch64 gnupg2-dirmngr-2.4.8-4.fc43.aarch64 gnupg2-gpg-agent-2.4.8-4.fc43.aarch64 gnupg2-gpgconf-2.4.8-4.fc43.aarch64 gnupg2-keyboxd-2.4.8-4.fc43.aarch64 gnupg2-verify-2.4.8-4.fc43.aarch64 gnutls-3.8.10-3.fc43.aarch64 go-srpm-macros-3.8.0-1.fc43.noarch gpg-pubkey-c6e7f081cf80e13146676e88829b606631645531-66b6dccf gpgverify-2.2-3.fc43.noarch grep-3.12-2.fc43.aarch64 gzip-1.13-4.fc43.aarch64 ima-evm-utils-libs-1.6.2-6.fc43.aarch64 info-7.2-6.fc43.aarch64 jansson-2.14-3.fc43.aarch64 java-srpm-macros-1-7.fc43.noarch json-c-0.18-7.fc43.aarch64 kernel-srpm-macros-1.0-27.fc43.noarch keyutils-libs-1.6.3-6.fc43.aarch64 krb5-libs-1.21.3-7.fc43.aarch64 libacl-2.3.2-4.fc43.aarch64 libarchive-3.8.1-3.fc43.aarch64 libassuan-2.5.7-4.fc43.aarch64 libattr-2.5.2-6.fc43.aarch64 libblkid-2.41.1-17.fc43.aarch64 libbrotli-1.1.0-10.fc43.aarch64 libcap-2.76-3.fc43.aarch64 libcap-ng-0.8.5-8.fc43.aarch64 libcom_err-1.47.3-2.fc43.aarch64 libcurl-8.15.0-2.fc43.aarch64 libeconf-0.7.9-2.fc43.aarch64 libevent-2.1.12-16.fc43.aarch64 libfdisk-2.41.1-17.fc43.aarch64 libffi-3.5.1-2.fc43.aarch64 libfsverity-1.6-3.fc43.aarch64 libgcc-15.2.1-2.fc43.aarch64 libgcrypt-1.11.1-2.fc43.aarch64 libgomp-15.2.1-2.fc43.aarch64 libgpg-error-1.55-2.fc43.aarch64 libidn2-2.3.8-2.fc43.aarch64 libksba-1.6.7-4.fc43.aarch64 liblastlog2-2.41.1-17.fc43.aarch64 libmount-2.41.1-17.fc43.aarch64 libnghttp2-1.66.0-2.fc43.aarch64 libpkgconf-2.3.0-3.fc43.aarch64 libpsl-0.21.5-6.fc43.aarch64 libselinux-3.9-5.fc43.aarch64 libsemanage-3.9-4.fc43.aarch64 libsepol-3.9-2.fc43.aarch64 libsmartcols-2.41.1-17.fc43.aarch64 libssh-0.11.3-1.fc43.aarch64 libssh-config-0.11.3-1.fc43.noarch libstdc++-15.2.1-2.fc43.aarch64 libtasn1-4.20.0-2.fc43.aarch64 libtool-ltdl-2.5.4-7.fc43.aarch64 libunistring-1.1-10.fc43.aarch64 libusb1-1.0.29-4.fc43.aarch64 libuuid-2.41.1-17.fc43.aarch64 libverto-0.3.2-11.fc43.aarch64 libxcrypt-4.4.38-8.fc43.aarch64 libxml2-2.12.10-5.fc43.aarch64 libzstd-1.5.7-2.fc43.aarch64 lua-libs-5.4.8-2.fc43.aarch64 lua-srpm-macros-1-16.fc43.noarch lz4-libs-1.10.0-3.fc43.aarch64 mpfr-4.2.2-2.fc43.aarch64 ncurses-base-6.5-7.20250614.fc43.noarch ncurses-libs-6.5-7.20250614.fc43.aarch64 nettle-3.10.1-2.fc43.aarch64 npth-1.8-3.fc43.aarch64 ocaml-srpm-macros-11-2.fc43.noarch openblas-srpm-macros-2-20.fc43.noarch openldap-2.6.10-4.fc43.aarch64 openssl-libs-3.5.1-2.fc43.aarch64 p11-kit-0.25.8-1.fc43.aarch64 p11-kit-trust-0.25.8-1.fc43.aarch64 package-notes-srpm-macros-0.5-14.fc43.noarch pam-libs-1.7.1-3.fc43.aarch64 patch-2.8-2.fc43.aarch64 pcre2-10.46-1.fc43.aarch64 pcre2-syntax-10.46-1.fc43.noarch perl-srpm-macros-1-60.fc43.noarch pkgconf-2.3.0-3.fc43.aarch64 pkgconf-m4-2.3.0-3.fc43.noarch pkgconf-pkg-config-2.3.0-3.fc43.aarch64 popt-1.19-9.fc43.aarch64 publicsuffix-list-dafsa-20250616-2.fc43.noarch pyproject-srpm-macros-1.18.4-1.fc43.noarch python-srpm-macros-3.14-5.fc43.noarch qt5-srpm-macros-5.15.17-2.fc43.noarch qt6-srpm-macros-6.9.2-1.fc43.noarch readline-8.3-2.fc43.aarch64 redhat-rpm-config-343-11.fc43.noarch rpm-6.0.0-1.fc43.aarch64 rpm-build-6.0.0-1.fc43.aarch64 rpm-build-libs-6.0.0-1.fc43.aarch64 rpm-libs-6.0.0-1.fc43.aarch64 rpm-sequoia-1.9.0-2.fc43.aarch64 rpm-sign-libs-6.0.0-1.fc43.aarch64 rust-srpm-macros-26.4-1.fc43.noarch sed-4.9-5.fc43.aarch64 setup-2.15.0-26.fc43.noarch shadow-utils-4.18.0-3.fc43.aarch64 sqlite-libs-3.50.2-2.fc43.aarch64 systemd-libs-258-1.fc43.aarch64 systemd-standalone-sysusers-258-1.fc43.aarch64 tar-1.35-6.fc43.aarch64 tpm2-tss-4.1.3-8.fc43.aarch64 tree-sitter-srpm-macros-0.4.2-1.fc43.noarch unzip-6.0-67.fc43.aarch64 util-linux-2.41.1-17.fc43.aarch64 util-linux-core-2.41.1-17.fc43.aarch64 which-2.23-3.fc43.aarch64 xxhash-libs-0.8.3-3.fc43.aarch64 xz-5.8.1-2.fc43.aarch64 xz-libs-5.8.1-2.fc43.aarch64 zig-srpm-macros-1-5.fc43.noarch zip-3.0-44.fc43.aarch64 zlib-ng-compat-2.2.5-2.fc43.aarch64 zstd-1.5.7-2.fc43.aarch64 Start: buildsrpm Start: rpmbuild -bs Building target platforms: aarch64 Building for target aarch64 warning: %source_date_epoch_from_changelog is set, but %changelog has no entries to take a date from Wrote: /builddir/build/SRPMS/Sunshine-0.0.4353-1.fc43.src.rpm RPM build warnings: %source_date_epoch_from_changelog is set, but %changelog has no entries to take a date from Finish: rpmbuild -bs INFO: chroot_scan: 1 files copied to /var/lib/copr-rpmbuild/results/chroot_scan INFO: /var/lib/mock/fedora-43-aarch64-1761352438.160069/root/var/log/dnf5.log INFO: chroot_scan: creating tarball /var/lib/copr-rpmbuild/results/chroot_scan.tar.gz /bin/tar: Removing leading `/' from member names Finish: buildsrpm INFO: Done(/var/lib/copr-rpmbuild/workspace/workdir-0ur18ky4/Sunshine/Sunshine.spec) Config(child) 1 minutes 27 seconds INFO: Results and/or logs in: /var/lib/copr-rpmbuild/results INFO: Cleaning up build root ('cleanup_on_success=True') Start: clean chroot INFO: unmounting tmpfs. Finish: clean chroot INFO: Start(/var/lib/copr-rpmbuild/results/Sunshine-0.0.4353-1.fc43.src.rpm) Config(fedora-43-aarch64) Start(bootstrap): chroot init INFO: mounting tmpfs at /var/lib/mock/fedora-43-aarch64-bootstrap-1761352438.160069/root. INFO: reusing tmpfs at /var/lib/mock/fedora-43-aarch64-bootstrap-1761352438.160069/root. INFO: calling preinit hooks INFO: enabled root cache INFO: enabled package manager cache Start(bootstrap): cleaning package manager metadata Finish(bootstrap): cleaning package manager metadata Finish(bootstrap): chroot init Start: chroot init INFO: mounting tmpfs at /var/lib/mock/fedora-43-aarch64-1761352438.160069/root. INFO: calling preinit hooks INFO: enabled root cache Start: unpacking root cache Finish: unpacking root cache INFO: enabled package manager cache Start: cleaning package manager metadata Finish: cleaning package manager metadata INFO: enabled HW Info plugin INFO: Buildroot is handled by package management downloaded with a bootstrap image: rpm-6.0.0-1.fc43.aarch64 rpm-sequoia-1.9.0-2.fc43.aarch64 dnf5-5.2.17.0-2.fc43.aarch64 dnf5-plugins-5.2.17.0-2.fc43.aarch64 Finish: chroot init Start: build phase for Sunshine-0.0.4353-1.fc43.src.rpm Start: build setup for Sunshine-0.0.4353-1.fc43.src.rpm Building target platforms: aarch64 Building for target aarch64 warning: %source_date_epoch_from_changelog is set, but %changelog has no entries to take a date from Wrote: /builddir/build/SRPMS/Sunshine-0.0.4353-1.fc43.src.rpm RPM build warnings: %source_date_epoch_from_changelog is set, but %changelog has no entries to take a date from Updating and loading repositories: Additional repo copr_slaanesh_cuda_gcc 100% | 39.8 KiB/s | 1.5 KiB | 00m00s Coprdir repository 100% | 39.7 KiB/s | 1.5 KiB | 00m00s Copr repository 100% | 39.7 KiB/s | 1.5 KiB | 00m00s fedora 100% | 27.8 KiB/s | 5.1 KiB | 00m00s updates 100% | 175.9 KiB/s | 16.5 KiB | 00m00s Repositories loaded. Package "rpm-build-6.0.0-1.fc43.aarch64" is already installed. Package "which-2.23-3.fc43.aarch64" is already installed. Package Arch Version Repository Size Installing: appstream aarch64 1.1.0-1.fc43 fedora 4.4 MiB cmake aarch64 3.31.6-4.fc43 fedora 29.7 MiB desktop-file-utils aarch64 0.28-2.fc43 fedora 318.3 KiB gcc14 aarch64 14.3.1-1.fc43 fedora 106.2 MiB gcc14-c++ aarch64 14.3.1-1.fc43 fedora 120.1 MiB git aarch64 2.51.0-2.fc43 fedora 56.4 KiB libX11-devel aarch64 1.8.12-1.fc43 fedora 1.0 MiB libXcursor-devel aarch64 1.2.3-3.fc43 fedora 22.7 KiB libXfixes-devel aarch64 6.0.1-6.fc43 fedora 9.2 KiB libXi-devel aarch64 1.8.2-3.fc43 fedora 132.5 KiB libXinerama-devel aarch64 1.1.5-9.fc43 fedora 7.0 KiB libXrandr-devel aarch64 1.5.4-6.fc43 fedora 21.8 KiB libXtst-devel aarch64 1.2.5-3.fc43 fedora 11.6 KiB libappstream-glib aarch64 0.8.3-4.fc43 fedora 1.5 MiB libayatana-appindicator-gtk3-devel aarch64 0.5.94-4.fc43 fedora 263.7 KiB libcap-devel aarch64 2.76-3.fc43 fedora 37.5 KiB libcurl-devel aarch64 8.15.0-2.fc43 fedora 1.3 MiB libdrm-devel aarch64 2.4.125-2.fc43 fedora 776.2 KiB libevdev-devel aarch64 1.13.4-2.fc43 fedora 95.7 KiB libgudev aarch64 238-8.fc43 fedora 103.8 KiB libnotify-devel aarch64 0.8.7-1.fc43 fedora 550.5 KiB libva-devel aarch64 2.22.0-6.fc43 fedora 696.6 KiB libxcb-devel aarch64 1.17.0-6.fc43 fedora 2.7 MiB mesa-libGL-devel aarch64 25.2.4-2.fc43 fedora 80.8 KiB mesa-libgbm-devel aarch64 25.2.4-2.fc43 fedora 30.1 KiB miniupnpc-devel aarch64 2.3.3-3.fc43 fedora 58.9 KiB nodejs-npm aarch64 1:10.9.3-1.22.19.0.2.fc43 fedora 9.2 MiB numactl-devel aarch64 2.0.19-3.fc43 fedora 26.7 KiB openssl-devel aarch64 1:3.5.1-2.fc43 fedora 4.6 MiB opus-devel aarch64 1.5.2-3.fc43 fedora 2.6 MiB pulseaudio-libs-devel aarch64 17.0-7.fc43 fedora 4.8 MiB systemd-rpm-macros noarch 258-1.fc43 fedora 8.5 KiB systemd-udev aarch64 258-1.fc43 fedora 14.3 MiB wget2-wget aarch64 2.2.0-6.fc43 fedora 42.0 B xorg-x11-server-Xvfb aarch64 21.1.18-2.fc43 fedora 1.8 MiB Installing dependencies: abattis-cantarell-vf-fonts noarch 0.301-15.fc43 fedora 192.7 KiB adwaita-cursor-theme noarch 49.0-1.fc43 fedora 11.4 MiB adwaita-icon-theme noarch 49.0-1.fc43 fedora 1.2 MiB adwaita-icon-theme-legacy noarch 46.2-4.fc43 fedora 2.1 MiB at-spi2-atk aarch64 2.58.1-1.fc43 fedora 359.2 KiB at-spi2-atk-devel aarch64 2.58.1-1.fc43 fedora 1.6 KiB at-spi2-core aarch64 2.58.1-1.fc43 fedora 1.6 MiB at-spi2-core-devel aarch64 2.58.1-1.fc43 fedora 4.3 MiB atk aarch64 2.58.1-1.fc43 fedora 296.8 KiB atk-devel aarch64 2.58.1-1.fc43 fedora 5.9 MiB authselect aarch64 1.6.2-1.fc43 fedora 226.1 KiB authselect-libs aarch64 1.6.2-1.fc43 fedora 935.6 KiB autoconf noarch 2.72-7.fc43 fedora 2.8 MiB automake noarch 1.18.1-2.fc43 fedora 1.8 MiB avahi-glib aarch64 0.9~rc2-6.fc43 fedora 67.6 KiB avahi-libs aarch64 0.9~rc2-6.fc43 fedora 230.4 KiB brotli aarch64 1.1.0-10.fc43 fedora 67.6 KiB brotli-devel aarch64 1.1.0-10.fc43 fedora 65.6 KiB bubblewrap aarch64 0.11.0-2.fc43 fedora 182.8 KiB bzip2-devel aarch64 1.0.8-21.fc43 fedora 309.8 KiB c-ares aarch64 1.34.5-2.fc43 fedora 273.1 KiB cairo aarch64 1.18.4-2.fc43 fedora 1.8 MiB cairo-devel aarch64 1.18.4-2.fc43 fedora 2.3 MiB cairo-gobject aarch64 1.18.4-2.fc43 fedora 67.2 KiB cairo-gobject-devel aarch64 1.18.4-2.fc43 fedora 7.0 KiB cmake-data noarch 3.31.6-4.fc43 fedora 8.5 MiB cmake-filesystem aarch64 3.31.6-4.fc43 fedora 0.0 B cmake-rpm-macros noarch 3.31.6-4.fc43 fedora 7.7 KiB colord-libs aarch64 1.4.8-2.fc43 fedora 970.2 KiB cracklib aarch64 2.9.11-8.fc43 fedora 422.4 KiB cryptsetup-libs aarch64 2.8.1-1.fc43 fedora 2.6 MiB cups-filesystem noarch 1:2.4.14-2.fc43 fedora 0.0 B cups-libs aarch64 1:2.4.14-2.fc43 fedora 666.9 KiB dbus aarch64 1:1.16.0-4.fc43 fedora 0.0 B dbus-broker aarch64 37-2.fc43 fedora 422.1 KiB dbus-common noarch 1:1.16.0-4.fc43 fedora 11.2 KiB dbus-devel aarch64 1:1.16.0-4.fc43 fedora 131.7 KiB dbus-libs aarch64 1:1.16.0-4.fc43 fedora 397.8 KiB default-fonts-core-sans noarch 4.2-5.fc43 fedora 11.9 KiB device-mapper aarch64 1.02.208-2.fc43 fedora 438.6 KiB device-mapper-libs aarch64 1.02.208-2.fc43 fedora 446.3 KiB emacs-filesystem noarch 1:30.0-5.fc43 fedora 0.0 B expat aarch64 2.7.2-1.fc43 fedora 358.6 KiB flac-libs aarch64 1.5.0-3.fc43 fedora 683.3 KiB fontconfig aarch64 2.17.0-3.fc43 fedora 1.2 MiB fontconfig-devel aarch64 2.17.0-3.fc43 fedora 123.6 KiB fonts-filesystem noarch 1:2.0.5-23.fc43 fedora 0.0 B freetype aarch64 2.13.3-3.fc43 fedora 814.5 KiB freetype-devel aarch64 2.13.3-3.fc43 fedora 8.5 MiB fribidi aarch64 1.0.16-3.fc43 fedora 246.3 KiB fribidi-devel aarch64 1.0.16-3.fc43 fedora 78.0 KiB gdbm aarch64 1:1.23-10.fc43 fedora 543.9 KiB gdk-pixbuf2 aarch64 2.44.3-1.fc43 fedora 2.6 MiB gdk-pixbuf2-devel aarch64 2.44.3-1.fc43 fedora 2.4 MiB gettext aarch64 0.25.1-2.fc43 fedora 13.6 MiB gettext-common-devel noarch 0.25.1-2.fc43 fedora 592.5 KiB gettext-devel aarch64 0.25.1-2.fc43 fedora 1.3 MiB gettext-envsubst aarch64 0.25.1-2.fc43 fedora 106.7 KiB gettext-libs aarch64 0.25.1-2.fc43 fedora 2.3 MiB gettext-runtime aarch64 0.25.1-2.fc43 fedora 508.1 KiB git-core aarch64 2.51.0-2.fc43 fedora 23.4 MiB git-core-doc noarch 2.51.0-2.fc43 fedora 17.7 MiB glib2 aarch64 2.86.0-2.fc43 fedora 15.4 MiB glib2-devel aarch64 2.86.0-2.fc43 fedora 16.0 MiB glibc-devel aarch64 2.42-4.fc43 fedora 2.2 MiB glycin-devel aarch64 2.0.3-1.fc43 fedora 126.0 KiB glycin-libs aarch64 2.0.3-1.fc43 fedora 4.1 MiB glycin-loaders aarch64 2.0.3-1.fc43 fedora 11.9 MiB gnutls-dane aarch64 3.8.10-3.fc43 fedora 68.9 KiB google-noto-fonts-common noarch 20250901-1.fc43 fedora 17.7 KiB google-noto-sans-vf-fonts noarch 20250901-1.fc43 fedora 1.4 MiB gpgme aarch64 1.24.3-6.fc43 fedora 691.3 KiB graphite2 aarch64 1.3.14-19.fc43 fedora 239.6 KiB graphite2-devel aarch64 1.3.14-19.fc43 fedora 49.3 KiB groff-base aarch64 1.23.0-10.fc43 fedora 4.2 MiB gsm aarch64 1.0.23-1.fc43 fedora 77.2 KiB gtk-update-icon-cache aarch64 3.24.51-2.fc43 fedora 94.1 KiB gtk3 aarch64 3.24.51-2.fc43 fedora 22.9 MiB gtk3-devel aarch64 3.24.51-2.fc43 fedora 34.5 MiB harfbuzz aarch64 11.5.1-1.fc43 fedora 2.7 MiB harfbuzz-cairo aarch64 11.5.1-1.fc43 fedora 68.1 KiB harfbuzz-devel aarch64 11.5.1-1.fc43 fedora 5.3 MiB harfbuzz-icu aarch64 11.5.1-1.fc43 fedora 67.4 KiB hicolor-icon-theme noarch 0.18-2.fc43 fedora 72.4 KiB highway aarch64 1.2.0-5.fc42 fedora 4.4 MiB hiredis aarch64 1.2.0-7.fc43 fedora 201.8 KiB hwdata noarch 0.399-1.fc43 fedora 9.6 MiB json-glib aarch64 1.10.8-1.fc43 fedora 616.4 KiB jsoncpp aarch64 1.9.6-2.fc43 fedora 271.8 KiB kbd aarch64 2.8.0-3.fc43 fedora 2.4 MiB kbd-legacy noarch 2.8.0-3.fc43 fedora 571.4 KiB kbd-misc noarch 2.8.0-3.fc43 fedora 2.5 MiB kernel-headers aarch64 6.17.0-63.fc43 fedora 6.6 MiB keyutils-libs-devel aarch64 1.6.3-6.fc43 fedora 48.2 KiB kmod aarch64 34.2-2.fc43 fedora 271.1 KiB kmod-libs aarch64 34.2-2.fc43 fedora 159.0 KiB krb5-devel aarch64 1.21.3-7.fc43 fedora 705.9 KiB lame-libs aarch64 3.100-20.fc43 fedora 1.2 MiB lcms2 aarch64 2.16-6.fc43 fedora 484.8 KiB lcms2-devel aarch64 2.16-6.fc43 fedora 135.7 KiB less aarch64 679-2.fc43 fedora 554.0 KiB libICE aarch64 1.1.2-3.fc43 fedora 222.4 KiB libSM aarch64 1.2.5-3.fc43 fedora 129.1 KiB libX11 aarch64 1.8.12-1.fc43 fedora 1.3 MiB libX11-common noarch 1.8.12-1.fc43 fedora 1.2 MiB libX11-xcb aarch64 1.8.12-1.fc43 fedora 67.0 KiB libXau aarch64 1.0.12-3.fc43 fedora 121.0 KiB libXau-devel aarch64 1.0.12-3.fc43 fedora 7.5 KiB libXcomposite aarch64 0.4.6-6.fc43 fedora 96.5 KiB libXcomposite-devel aarch64 0.4.6-6.fc43 fedora 8.0 KiB libXcursor aarch64 1.2.3-3.fc43 fedora 69.5 KiB libXdamage aarch64 1.1.6-6.fc43 fedora 95.7 KiB libXdamage-devel aarch64 1.1.6-6.fc43 fedora 2.5 KiB libXdmcp aarch64 1.1.5-4.fc43 fedora 122.3 KiB libXext aarch64 1.3.6-4.fc43 fedora 145.9 KiB libXext-devel aarch64 1.3.6-4.fc43 fedora 98.9 KiB libXfixes aarch64 6.0.1-6.fc43 fedora 70.3 KiB libXfont2 aarch64 2.0.7-3.fc43 fedora 358.4 KiB libXft aarch64 2.3.8-9.fc43 fedora 192.4 KiB libXft-devel aarch64 2.3.8-9.fc43 fedora 31.7 KiB libXi aarch64 1.8.2-3.fc43 fedora 72.5 KiB libXinerama aarch64 1.1.5-9.fc43 fedora 71.0 KiB libXmu aarch64 1.2.1-4.fc43 fedora 263.4 KiB libXrandr aarch64 1.5.4-6.fc43 fedora 71.7 KiB libXrender aarch64 0.9.12-3.fc43 fedora 70.0 KiB libXrender-devel aarch64 0.9.12-3.fc43 fedora 50.1 KiB libXt aarch64 1.3.1-3.fc43 fedora 477.5 KiB libXtst aarch64 1.2.5-3.fc43 fedora 73.5 KiB libXxf86vm aarch64 1.1.6-3.fc43 fedora 69.3 KiB libaom aarch64 3.13.1-1.fc43 fedora 3.9 MiB libasyncns aarch64 0.8-31.fc43 fedora 99.4 KiB libatomic aarch64 15.2.1-2.fc43 fedora 68.8 KiB libayatana-appindicator-gtk3 aarch64 0.5.94-4.fc43 fedora 147.3 KiB libayatana-ido-gtk3 aarch64 0.10.4-6.fc43 fedora 302.8 KiB libayatana-ido-gtk3-devel aarch64 0.10.4-6.fc43 fedora 116.4 KiB libayatana-indicator-gtk3 aarch64 0.9.4-9.fc43 fedora 171.7 KiB libayatana-indicator-gtk3-devel aarch64 0.9.4-9.fc43 fedora 24.6 KiB libblkid-devel aarch64 2.41.1-17.fc43 fedora 44.9 KiB libcbor aarch64 0.12.0-6.fc43 fedora 137.9 KiB libcloudproviders aarch64 0.3.6-2.fc43 fedora 156.3 KiB libcloudproviders-devel aarch64 0.3.6-2.fc43 fedora 375.4 KiB libcom_err-devel aarch64 1.47.3-2.fc43 fedora 16.7 KiB libdatrie aarch64 0.2.13-12.fc43 fedora 93.9 KiB libdatrie-devel aarch64 0.2.13-12.fc43 fedora 606.1 KiB libdav1d aarch64 1.5.1-2.fc43 fedora 856.6 KiB libdbusmenu aarch64 16.04.0-30.fc43 fedora 552.3 KiB libdbusmenu-devel aarch64 16.04.0-30.fc43 fedora 244.2 KiB libdbusmenu-gtk3 aarch64 16.04.0-30.fc43 fedora 136.6 KiB libdrm aarch64 2.4.125-2.fc43 fedora 763.3 KiB libedit aarch64 3.1-56.20250104cvs.fc43 fedora 280.1 KiB libepoxy aarch64 1.5.10-11.fc43 fedora 1.2 MiB libepoxy-devel aarch64 1.5.10-11.fc43 fedora 1.6 MiB libevdev aarch64 1.13.4-2.fc43 fedora 134.1 KiB libffi-devel aarch64 3.5.1-2.fc43 fedora 30.7 KiB libfido2 aarch64 1.16.0-3.fc43 fedora 278.7 KiB libfontenc aarch64 1.1.8-4.fc43 fedora 106.7 KiB libfyaml aarch64 0.8-8.fc43 fedora 566.9 KiB libglvnd aarch64 1:1.7.0-8.fc43 fedora 1.3 MiB libglvnd-core-devel aarch64 1:1.7.0-8.fc43 fedora 40.3 KiB libglvnd-devel aarch64 1:1.7.0-8.fc43 fedora 2.1 MiB libglvnd-egl aarch64 1:1.7.0-8.fc43 fedora 68.8 KiB libglvnd-gles aarch64 1:1.7.0-8.fc43 fedora 394.2 KiB libglvnd-glx aarch64 1:1.7.0-8.fc43 fedora 1.0 MiB libglvnd-opengl aarch64 1:1.7.0-8.fc43 fedora 329.2 KiB libgusb aarch64 0.4.9-4.fc43 fedora 181.9 KiB libheif aarch64 1.20.2-6.fc43 fedora 1.5 MiB libicu aarch64 77.1-1.fc43 fedora 36.5 MiB libicu-devel aarch64 77.1-1.fc43 fedora 5.1 MiB libidn2-devel aarch64 2.3.8-2.fc43 fedora 149.1 KiB libjpeg-turbo aarch64 3.1.2-1.fc43 fedora 740.4 KiB libjxl aarch64 1:0.11.1-6.fc43 fedora 2.4 MiB libkadm5 aarch64 1.21.3-7.fc43 fedora 266.2 KiB libmount-devel aarch64 2.41.1-17.fc43 fedora 65.5 KiB libmpc aarch64 1.3.1-8.fc43 fedora 152.7 KiB libnghttp2-devel aarch64 1.66.0-2.fc43 fedora 286.3 KiB libnotify aarch64 0.8.7-1.fc43 fedora 183.6 KiB libnsl2 aarch64 2.0.1-4.fc43 fedora 93.9 KiB libogg aarch64 2:1.3.6-1.fc43 fedora 77.7 KiB libogg-devel aarch64 2:1.3.6-1.fc43 fedora 17.6 KiB libopenjph aarch64 0.22.0-2.fc43 fedora 325.6 KiB libpciaccess aarch64 0.16-16.fc43 fedora 72.5 KiB libpciaccess-devel aarch64 0.16-16.fc43 fedora 15.3 KiB libpng aarch64 2:1.6.50-2.fc43 fedora 269.9 KiB libpng-devel aarch64 2:1.6.50-2.fc43 fedora 957.5 KiB libpsl-devel aarch64 0.21.5-6.fc43 fedora 110.2 KiB libpwquality aarch64 1.4.5-14.fc43 fedora 609.3 KiB librsvg2 aarch64 2.61.0-2.fc43 fedora 4.6 MiB libseccomp aarch64 2.6.0-2.fc43 fedora 245.0 KiB libseccomp-devel aarch64 2.6.0-2.fc43 fedora 170.3 KiB libselinux-devel aarch64 3.9-5.fc43 fedora 127.3 KiB libsepol-devel aarch64 3.9-2.fc43 fedora 121.4 KiB libsndfile aarch64 1.2.2-10.fc43 fedora 562.1 KiB libsoup3 aarch64 3.6.5-8.fc43 fedora 1.2 MiB libssh-devel aarch64 0.11.3-1.fc43 fedora 178.0 KiB libstdc++-devel aarch64 15.2.1-2.fc43 fedora 36.4 MiB libstemmer aarch64 3.0.1-8.fc43 fedora 725.6 KiB libtextstyle aarch64 0.25.1-2.fc43 fedora 199.2 KiB libthai aarch64 0.1.29-11.fc43 fedora 807.4 KiB libthai-devel aarch64 0.1.29-11.fc43 fedora 644.3 KiB libtinysparql aarch64 3.10.1-1.fc43 fedora 1.4 MiB libtirpc aarch64 1.3.7-0.fc43 fedora 210.6 KiB libunwind aarch64 1.8.1-3.fc43 fedora 351.7 KiB libuv aarch64 1:1.51.0-2.fc43 fedora 605.4 KiB libva aarch64 2.22.0-6.fc43 fedora 557.6 KiB libverto-devel aarch64 0.3.2-11.fc43 fedora 25.7 KiB libvorbis aarch64 1:1.3.7-13.fc43 fedora 845.6 KiB libwayland-client aarch64 1.24.0-1.fc43 fedora 70.1 KiB libwayland-cursor aarch64 1.24.0-1.fc43 fedora 81.4 KiB libwayland-egl aarch64 1.24.0-1.fc43 fedora 68.5 KiB libwayland-server aarch64 1.24.0-1.fc43 fedora 134.6 KiB libwebp aarch64 1.6.0-2.fc43 fedora 817.5 KiB libxcb aarch64 1.17.0-6.fc43 fedora 2.2 MiB libxcrypt-devel aarch64 4.4.38-8.fc43 fedora 30.8 KiB libxkbcommon aarch64 1.11.0-1.fc43 fedora 471.5 KiB libxkbcommon-devel aarch64 1.11.0-1.fc43 fedora 383.4 KiB libxkbfile aarch64 1.1.3-4.fc43 fedora 241.9 KiB libxml2-devel aarch64 2.12.10-5.fc43 fedora 3.4 MiB libxmlb aarch64 0.3.24-1.fc43 fedora 323.8 KiB libxshmfence aarch64 1.3.2-7.fc43 fedora 68.5 KiB llvm-filesystem aarch64 21.1.2-1.fc43 fedora 0.0 B llvm-libs aarch64 21.1.2-1.fc43 fedora 132.8 MiB lm_sensors-libs aarch64 3.6.0-23.fc43 fedora 93.8 KiB lzo aarch64 2.10-15.fc43 fedora 162.9 KiB lzo-devel aarch64 2.10-15.fc43 fedora 212.2 KiB lzo-minilzo aarch64 2.10-15.fc43 fedora 88.7 KiB m4 aarch64 1.4.20-2.fc43 fedora 859.3 KiB make aarch64 1:4.4.1-11.fc43 fedora 1.8 MiB mesa-dri-drivers aarch64 25.2.4-2.fc43 fedora 35.5 MiB mesa-filesystem aarch64 25.2.4-2.fc43 fedora 3.6 KiB mesa-libEGL aarch64 25.2.4-2.fc43 fedora 330.4 KiB mesa-libGL aarch64 25.2.4-2.fc43 fedora 333.9 KiB mesa-libgbm aarch64 25.2.4-2.fc43 fedora 67.8 KiB miniupnpc aarch64 2.3.3-3.fc43 fedora 228.2 KiB mpdecimal aarch64 4.0.1-2.fc43 fedora 281.2 KiB mpg123-libs aarch64 1.32.10-2.fc43 fedora 754.4 KiB ncurses aarch64 6.5-7.20250614.fc43 fedora 893.6 KiB nodejs aarch64 1:22.19.0-2.fc43 fedora 200.6 KiB nodejs-libs aarch64 1:22.19.0-2.fc43 fedora 74.2 MiB noopenh264 aarch64 2.6.0-2.fc43 fedora 95.2 KiB numactl-libs aarch64 2.0.19-3.fc43 fedora 69.1 KiB openjpeg aarch64 2.5.4-1.fc43 fedora 412.4 KiB openssh aarch64 10.0p1-5.fc43 fedora 1.4 MiB openssh-clients aarch64 10.0p1-5.fc43 fedora 2.7 MiB opus aarch64 1.5.2-3.fc43 fedora 391.7 KiB pam aarch64 1.7.1-3.fc43 fedora 4.2 MiB pango aarch64 1.57.0-1.fc43 fedora 1.2 MiB pango-devel aarch64 1.57.0-1.fc43 fedora 1.5 MiB pcre2-devel aarch64 10.46-1.fc43 fedora 2.1 MiB pcre2-utf16 aarch64 10.46-1.fc43 fedora 582.1 KiB pcre2-utf32 aarch64 10.46-1.fc43 fedora 582.0 KiB perl-AutoLoader noarch 5.74-520.fc43 fedora 20.6 KiB perl-B aarch64 1.89-520.fc43 fedora 545.4 KiB perl-Carp noarch 1.54-520.fc43 fedora 46.6 KiB perl-Class-Struct noarch 0.68-520.fc43 fedora 25.4 KiB perl-Data-Dumper aarch64 2.191-521.fc43 fedora 135.7 KiB perl-Digest noarch 1.20-520.fc43 fedora 35.3 KiB perl-Digest-MD5 aarch64 2.59-520.fc43 fedora 103.7 KiB perl-DynaLoader aarch64 1.57-520.fc43 fedora 32.1 KiB perl-Encode aarch64 4:3.21-520.fc43 fedora 4.8 MiB perl-Errno aarch64 1.38-520.fc43 fedora 8.4 KiB perl-Error noarch 1:0.17030-2.fc43 fedora 76.7 KiB perl-Exporter noarch 5.79-520.fc43 fedora 54.3 KiB perl-Fcntl aarch64 1.20-520.fc43 fedora 92.8 KiB perl-File-Basename noarch 2.86-520.fc43 fedora 14.0 KiB perl-File-Compare noarch 1.100.800-520.fc43 fedora 5.6 KiB perl-File-Copy noarch 2.41-520.fc43 fedora 19.7 KiB perl-File-Find noarch 1.44-520.fc43 fedora 42.0 KiB perl-File-Path noarch 2.18-520.fc43 fedora 63.5 KiB perl-File-Temp noarch 1:0.231.100-520.fc43 fedora 162.3 KiB perl-File-stat noarch 1.14-520.fc43 fedora 12.5 KiB perl-FileHandle noarch 2.05-520.fc43 fedora 9.4 KiB perl-Getopt-Long noarch 1:2.58-520.fc43 fedora 144.5 KiB perl-Getopt-Std noarch 1.14-520.fc43 fedora 11.2 KiB perl-Git noarch 2.51.0-2.fc43 fedora 64.4 KiB perl-HTTP-Tiny noarch 0.090-521.fc43 fedora 154.4 KiB perl-IO aarch64 1.55-520.fc43 fedora 191.4 KiB perl-IO-Socket-IP noarch 0.43-521.fc43 fedora 100.3 KiB perl-IO-Socket-SSL noarch 2.095-2.fc43 fedora 714.5 KiB perl-IPC-Open3 noarch 1.24-520.fc43 fedora 27.7 KiB perl-MIME-Base32 noarch 1.303-24.fc43 fedora 30.7 KiB perl-MIME-Base64 aarch64 3.16-520.fc43 fedora 94.1 KiB perl-Net-SSLeay aarch64 1.94-11.fc43 fedora 1.4 MiB perl-POSIX aarch64 2.23-520.fc43 fedora 263.5 KiB perl-PathTools aarch64 3.94-520.fc43 fedora 224.0 KiB perl-Pod-Escapes noarch 1:1.07-520.fc43 fedora 24.9 KiB perl-Pod-Perldoc noarch 3.28.01-521.fc43 fedora 163.7 KiB perl-Pod-Simple noarch 1:3.47-3.fc43 fedora 565.3 KiB perl-Pod-Usage noarch 4:2.05-520.fc43 fedora 86.3 KiB perl-Scalar-List-Utils aarch64 5:1.70-1.fc43 fedora 152.9 KiB perl-SelectSaver noarch 1.02-520.fc43 fedora 2.2 KiB perl-Socket aarch64 4:2.040-2.fc43 fedora 144.3 KiB perl-Storable aarch64 1:3.37-521.fc43 fedora 243.2 KiB perl-Symbol noarch 1.09-520.fc43 fedora 6.8 KiB perl-Term-ANSIColor noarch 5.01-521.fc43 fedora 97.5 KiB perl-Term-Cap noarch 1.18-520.fc43 fedora 29.3 KiB perl-TermReadKey aarch64 2.38-26.fc43 fedora 108.0 KiB perl-Text-ParseWords noarch 3.31-520.fc43 fedora 13.6 KiB perl-Text-Tabs+Wrap noarch 2024.001-520.fc43 fedora 22.6 KiB perl-Thread-Queue noarch 3.14-520.fc43 fedora 28.9 KiB perl-Time-Local noarch 2:1.350-520.fc43 fedora 69.0 KiB perl-URI noarch 5.34-1.fc43 fedora 268.0 KiB perl-base noarch 2.27-520.fc43 fedora 12.6 KiB perl-constant noarch 1.33-521.fc43 fedora 26.2 KiB perl-if noarch 0.61.000-520.fc43 fedora 5.8 KiB perl-interpreter aarch64 4:5.42.0-520.fc43 fedora 174.6 KiB perl-lib aarch64 0.65-520.fc43 fedora 8.5 KiB perl-libnet noarch 3.15-521.fc43 fedora 289.4 KiB perl-libs aarch64 4:5.42.0-520.fc43 fedora 11.6 MiB perl-locale noarch 1.13-520.fc43 fedora 6.1 KiB perl-mro aarch64 1.29-520.fc43 fedora 81.6 KiB perl-overload noarch 1.40-520.fc43 fedora 71.6 KiB perl-overloading noarch 0.02-520.fc43 fedora 4.9 KiB perl-parent noarch 1:0.244-520.fc43 fedora 10.3 KiB perl-podlators noarch 1:6.0.2-520.fc43 fedora 317.5 KiB perl-threads aarch64 1:2.43-520.fc43 fedora 135.1 KiB perl-threads-shared aarch64 1.70-520.fc43 fedora 103.7 KiB perl-vars noarch 1.05-520.fc43 fedora 3.9 KiB pixman aarch64 0.46.2-2.fc43 fedora 654.5 KiB pixman-devel aarch64 0.46.2-2.fc43 fedora 56.1 KiB protobuf-c aarch64 1.5.1-2.fc43 fedora 77.7 KiB publicsuffix-list noarch 20250616-2.fc43 fedora 332.8 KiB pulseaudio-libs aarch64 17.0-7.fc43 fedora 3.4 MiB pulseaudio-libs-glib2 aarch64 17.0-7.fc43 fedora 67.8 KiB python-pip-wheel noarch 25.1.1-18.fc43 fedora 1.2 MiB python3 aarch64 3.14.0-1.fc43 fedora 84.8 KiB python3-libs aarch64 3.14.0-1.fc43 fedora 44.9 MiB python3-packaging noarch 25.0-7.fc43 fedora 607.4 KiB rav1e-libs aarch64 0.7.1-8.fc43 fedora 2.0 MiB rhash aarch64 1.4.5-3.fc43 fedora 394.8 KiB shared-mime-info aarch64 2.4-2.fc43 fedora 5.3 MiB spirv-tools-libs aarch64 2025.3-4.fc43 fedora 5.3 MiB svt-av1-libs aarch64 3.1.2-1.fc43 fedora 3.4 MiB sysprof-capture-devel aarch64 49.0-1.fc43 fedora 767.4 KiB systemd aarch64 258-1.fc43 fedora 15.5 MiB systemd-devel aarch64 258-1.fc43 fedora 615.8 KiB systemd-pam aarch64 258-1.fc43 fedora 1.2 MiB systemd-shared aarch64 258-1.fc43 fedora 4.9 MiB tzdata noarch 2025b-3.fc43 fedora 1.6 MiB unbound-libs aarch64 1.23.1-3.fc43 fedora 1.4 MiB vim-filesystem noarch 2:9.1.1818-1.fc43 fedora 40.0 B wayland-devel aarch64 1.24.0-1.fc43 fedora 712.0 KiB wget2 aarch64 2.2.0-6.fc43 fedora 1.1 MiB wget2-libs aarch64 2.2.0-6.fc43 fedora 369.5 KiB xkbcomp aarch64 1.4.7-4.fc43 fedora 208.9 KiB xkeyboard-config noarch 2.45-1.fc43 fedora 10.2 MiB xml-common noarch 0.6.3-67.fc43 fedora 78.4 KiB xorg-x11-proto-devel noarch 2024.1-5.fc43 fedora 1.7 MiB xorg-x11-server-common aarch64 21.1.18-2.fc43 fedora 127.0 KiB xorg-x11-xauth aarch64 1:1.1.4-2.fc43 fedora 76.0 KiB xprop aarch64 1.2.8-4.fc43 fedora 78.7 KiB xz-devel aarch64 1:5.8.1-2.fc43 fedora 258.8 KiB zlib-ng-compat-devel aarch64 2.2.5-2.fc43 fedora 107.0 KiB Transaction Summary: Installing: 387 packages Total size of inbound packages is 280 MiB. Need to download 280 MiB. After this operation, 1 GiB extra will be used (install 1 GiB, remove 0 B). [ 1/387] appstream-0:1.1.0-1.fc43.aarc 100% | 26.3 MiB/s | 860.2 KiB | 00m00s [ 2/387] cmake-0:3.31.6-4.fc43.aarch64 100% | 139.3 MiB/s | 8.5 MiB | 00m00s [ 3/387] desktop-file-utils-0:0.28-2.f 100% | 833.0 KiB/s | 69.1 KiB | 00m00s [ 4/387] git-0:2.51.0-2.fc43.aarch64 100% | 2.9 MiB/s | 41.0 KiB | 00m00s [ 5/387] libX11-devel-0:1.8.12-1.fc43. 100% | 56.5 MiB/s | 1.0 MiB | 00m00s [ 6/387] libXcursor-devel-0:1.2.3-3.fc 100% | 5.5 MiB/s | 39.5 KiB | 00m00s [ 7/387] libXfixes-devel-0:6.0.1-6.fc4 100% | 2.0 MiB/s | 12.5 KiB | 00m00s [ 8/387] libXi-devel-0:1.8.2-3.fc43.aa 100% | 11.3 MiB/s | 115.8 KiB | 00m00s [ 9/387] libXinerama-devel-0:1.1.5-9.f 100% | 1.3 MiB/s | 13.0 KiB | 00m00s [ 10/387] libXrandr-devel-0:1.5.4-6.fc4 100% | 2.3 MiB/s | 19.2 KiB | 00m00s [ 11/387] libXtst-devel-0:1.2.5-3.fc43. 100% | 1.7 MiB/s | 15.7 KiB | 00m00s [ 12/387] libappstream-glib-0:0.8.3-4.f 100% | 8.5 MiB/s | 391.3 KiB | 00m00s [ 13/387] libayatana-appindicator-gtk3- 100% | 2.5 MiB/s | 41.3 KiB | 00m00s [ 14/387] libcap-devel-0:2.76-3.fc43.aa 100% | 5.0 MiB/s | 61.5 KiB | 00m00s [ 15/387] libcurl-devel-0:8.15.0-2.fc43 100% | 64.2 MiB/s | 920.5 KiB | 00m00s [ 16/387] libdrm-devel-0:2.4.125-2.fc43 100% | 23.7 MiB/s | 194.4 KiB | 00m00s [ 17/387] libevdev-devel-0:1.13.4-2.fc4 100% | 491.2 KiB/s | 28.5 KiB | 00m00s [ 18/387] libgudev-0:238-8.fc43.aarch64 100% | 3.3 MiB/s | 33.8 KiB | 00m00s [ 19/387] libnotify-devel-0:0.8.7-1.fc4 100% | 6.8 MiB/s | 76.7 KiB | 00m00s [ 20/387] gcc14-c++-0:14.3.1-1.fc43.aar 100% | 76.3 MiB/s | 24.3 MiB | 00m00s [ 21/387] libva-devel-0:2.22.0-6.fc43.a 100% | 3.8 MiB/s | 133.8 KiB | 00m00s [ 22/387] libxcb-devel-0:1.17.0-6.fc43. 100% | 71.9 MiB/s | 1.4 MiB | 00m00s [ 23/387] mesa-libGL-devel-0:25.2.4-2.f 100% | 2.9 MiB/s | 39.1 KiB | 00m00s [ 24/387] mesa-libgbm-devel-0:25.2.4-2. 100% | 2.9 MiB/s | 27.0 KiB | 00m00s [ 25/387] miniupnpc-devel-0:2.3.3-3.fc4 100% | 2.5 MiB/s | 23.0 KiB | 00m00s [ 26/387] numactl-devel-0:2.0.19-3.fc43 100% | 2.8 MiB/s | 22.6 KiB | 00m00s [ 27/387] openssl-devel-1:3.5.1-2.fc43. 100% | 125.4 MiB/s | 3.0 MiB | 00m00s [ 28/387] gcc14-0:14.3.1-1.fc43.aarch64 100% | 87.2 MiB/s | 39.8 MiB | 00m00s [ 29/387] opus-devel-0:1.5.2-3.fc43.aar 100% | 16.2 MiB/s | 781.3 KiB | 00m00s [ 30/387] systemd-rpm-macros-0:258-1.fc 100% | 7.1 MiB/s | 14.5 KiB | 00m00s [ 31/387] pulseaudio-libs-devel-0:17.0- 100% | 44.3 MiB/s | 453.6 KiB | 00m00s [ 32/387] systemd-udev-0:258-1.fc43.aar 100% | 77.5 MiB/s | 2.4 MiB | 00m00s [ 33/387] xorg-x11-server-Xvfb-0:21.1.1 100% | 28.1 MiB/s | 804.4 KiB | 00m00s [ 34/387] nodejs-npm-1:10.9.3-1.22.19.0 100% | 17.9 MiB/s | 2.3 MiB | 00m00s [ 35/387] glib2-0:2.86.0-2.fc43.aarch64 100% | 138.7 MiB/s | 3.1 MiB | 00m00s [ 36/387] libstemmer-0:3.0.1-8.fc43.aar 100% | 21.9 MiB/s | 157.0 KiB | 00m00s [ 37/387] libfyaml-0:0.8-8.fc43.aarch64 100% | 6.7 MiB/s | 221.1 KiB | 00m00s [ 38/387] libxmlb-0:0.3.24-1.fc43.aarch 100% | 8.5 MiB/s | 112.7 KiB | 00m00s [ 39/387] cmake-filesystem-0:3.31.6-4.f 100% | 3.0 MiB/s | 15.5 KiB | 00m00s [ 40/387] cmake-data-0:3.31.6-4.fc43.no 100% | 117.5 MiB/s | 2.5 MiB | 00m00s [ 41/387] expat-0:2.7.2-1.fc43.aarch64 100% | 12.5 MiB/s | 115.2 KiB | 00m00s [ 42/387] jsoncpp-0:1.9.6-2.fc43.aarch6 100% | 15.0 MiB/s | 92.2 KiB | 00m00s [ 43/387] libuv-1:1.51.0-2.fc43.aarch64 100% | 63.9 MiB/s | 261.8 KiB | 00m00s [ 44/387] emacs-filesystem-1:30.0-5.fc4 100% | 1.8 MiB/s | 7.5 KiB | 00m00s [ 45/387] rhash-0:1.4.5-3.fc43.aarch64 100% | 18.7 MiB/s | 191.5 KiB | 00m00s [ 46/387] make-1:4.4.1-11.fc43.aarch64 100% | 40.6 MiB/s | 582.0 KiB | 00m00s [ 47/387] glibc-devel-0:2.42-4.fc43.aar 100% | 77.9 MiB/s | 558.6 KiB | 00m00s [ 48/387] libmpc-0:1.3.1-8.fc43.aarch64 100% | 9.9 MiB/s | 71.1 KiB | 00m00s [ 49/387] git-core-0:2.51.0-2.fc43.aarc 100% | 116.6 MiB/s | 5.0 MiB | 00m00s [ 50/387] libstdc++-devel-0:15.2.1-2.fc 100% | 97.6 MiB/s | 5.2 MiB | 00m00s [ 51/387] perl-File-Basename-0:2.86-520 100% | 2.4 MiB/s | 17.2 KiB | 00m00s [ 52/387] git-core-doc-0:2.51.0-2.fc43. 100% | 58.3 MiB/s | 3.0 MiB | 00m00s [ 53/387] perl-Getopt-Long-1:2.58-520.f 100% | 12.4 MiB/s | 63.6 KiB | 00m00s [ 54/387] perl-Git-0:2.51.0-2.fc43.noar 100% | 9.3 MiB/s | 38.1 KiB | 00m00s [ 55/387] perl-IPC-Open3-0:1.24-520.fc4 100% | 5.8 MiB/s | 23.9 KiB | 00m00s [ 56/387] perl-PathTools-0:3.94-520.fc4 100% | 17.0 MiB/s | 87.3 KiB | 00m00s [ 57/387] perl-lib-0:0.65-520.fc43.aarc 100% | 3.6 MiB/s | 14.9 KiB | 00m00s [ 58/387] perl-interpreter-4:5.42.0-520 100% | 11.8 MiB/s | 72.4 KiB | 00m00s [ 59/387] libX11-0:1.8.12-1.fc43.aarch6 100% | 105.0 MiB/s | 645.4 KiB | 00m00s [ 60/387] libX11-xcb-0:1.8.12-1.fc43.aa 100% | 2.3 MiB/s | 11.7 KiB | 00m00s [ 61/387] perl-libs-4:5.42.0-520.fc43.a 100% | 138.9 MiB/s | 2.5 MiB | 00m00s [ 62/387] xorg-x11-proto-devel-0:2024.1 100% | 41.9 MiB/s | 300.0 KiB | 00m00s [ 63/387] libXcursor-0:1.2.3-3.fc43.aar 100% | 6.1 MiB/s | 31.1 KiB | 00m00s [ 64/387] libXrender-devel-0:0.9.12-3.f 100% | 6.2 MiB/s | 18.9 KiB | 00m00s [ 65/387] libXfixes-0:6.0.1-6.fc43.aarc 100% | 6.3 MiB/s | 19.3 KiB | 00m00s [ 66/387] libXext-devel-0:1.3.6-4.fc43. 100% | 20.8 MiB/s | 85.1 KiB | 00m00s [ 67/387] libXi-0:1.8.2-3.fc43.aarch64 100% | 6.4 MiB/s | 39.6 KiB | 00m00s [ 68/387] libXinerama-0:1.1.5-9.fc43.aa 100% | 2.0 MiB/s | 14.2 KiB | 00m00s [ 69/387] libXtst-0:1.2.5-3.fc43.aarch6 100% | 10.1 MiB/s | 20.7 KiB | 00m00s [ 70/387] gdk-pixbuf2-0:2.44.3-1.fc43.a 100% | 117.9 MiB/s | 483.1 KiB | 00m00s [ 71/387] perl-TermReadKey-0:2.38-26.fc 100% | 632.8 KiB/s | 35.4 KiB | 00m00s [ 72/387] json-glib-0:1.10.8-1.fc43.aar 100% | 27.6 MiB/s | 169.5 KiB | 00m00s [ 73/387] libXrandr-0:1.5.4-6.fc43.aarc 100% | 934.1 KiB/s | 27.1 KiB | 00m00s [ 74/387] glib2-devel-0:2.86.0-2.fc43.a 100% | 78.3 MiB/s | 1.5 MiB | 00m00s [ 75/387] libayatana-appindicator-gtk3- 100% | 5.1 MiB/s | 52.5 KiB | 00m00s [ 76/387] libdbusmenu-devel-0:16.04.0-3 100% | 3.6 MiB/s | 32.8 KiB | 00m00s [ 77/387] brotli-devel-0:1.1.0-10.fc43. 100% | 6.6 MiB/s | 33.9 KiB | 00m00s [ 78/387] gtk3-devel-0:3.24.51-2.fc43.a 100% | 95.5 MiB/s | 4.3 MiB | 00m00s [ 79/387] krb5-devel-0:1.21.3-7.fc43.aa 100% | 23.1 MiB/s | 141.9 KiB | 00m00s [ 80/387] libidn2-devel-0:2.3.8-2.fc43. 100% | 20.8 MiB/s | 64.0 KiB | 00m00s [ 81/387] libnghttp2-devel-0:1.66.0-2.f 100% | 26.5 MiB/s | 54.4 KiB | 00m00s [ 82/387] libpsl-devel-0:0.21.5-6.fc43. 100% | 16.1 MiB/s | 32.9 KiB | 00m00s [ 83/387] libssh-devel-0:0.11.3-1.fc43. 100% | 20.4 MiB/s | 41.8 KiB | 00m00s [ 84/387] zlib-ng-compat-devel-0:2.2.5- 100% | 18.7 MiB/s | 38.3 KiB | 00m00s [ 85/387] libdrm-0:2.4.125-2.fc43.aarch 100% | 23.2 MiB/s | 189.9 KiB | 00m00s [ 86/387] kernel-headers-0:6.17.0-63.fc 100% | 118.9 MiB/s | 1.7 MiB | 00m00s [ 87/387] libpciaccess-devel-0:0.16-16. 100% | 1.5 MiB/s | 12.4 KiB | 00m00s [ 88/387] libevdev-0:1.13.4-2.fc43.aarc 100% | 7.3 MiB/s | 37.6 KiB | 00m00s [ 89/387] libayatana-indicator-gtk3-dev 100% | 242.5 KiB/s | 14.3 KiB | 00m00s [ 90/387] libnotify-0:0.8.7-1.fc43.aarc 100% | 10.5 MiB/s | 53.9 KiB | 00m00s [ 91/387] libva-0:2.22.0-6.fc43.aarch64 100% | 18.8 MiB/s | 115.7 KiB | 00m00s [ 92/387] wayland-devel-0:1.24.0-1.fc43 100% | 25.2 MiB/s | 154.6 KiB | 00m00s [ 93/387] libXau-devel-0:1.0.12-3.fc43. 100% | 4.5 MiB/s | 13.8 KiB | 00m00s [ 94/387] gdk-pixbuf2-devel-0:2.44.3-1. 100% | 24.0 MiB/s | 369.2 KiB | 00m00s [ 95/387] libxcb-0:1.17.0-6.fc43.aarch6 100% | 23.6 MiB/s | 242.1 KiB | 00m00s [ 96/387] libglvnd-devel-1:1.7.0-8.fc43 100% | 14.4 MiB/s | 162.1 KiB | 00m00s [ 97/387] mesa-libgbm-0:25.2.4-2.fc43.a 100% | 2.1 MiB/s | 28.4 KiB | 00m00s [ 98/387] nodejs-1:22.19.0-2.fc43.aarch 100% | 5.5 MiB/s | 50.3 KiB | 00m00s [ 99/387] numactl-libs-0:2.0.19-3.fc43. 100% | 4.4 MiB/s | 31.2 KiB | 00m00s [100/387] libogg-devel-2:1.3.6-1.fc43.a 100% | 2.5 MiB/s | 12.9 KiB | 00m00s [101/387] opus-0:1.5.2-3.fc43.aarch64 100% | 38.8 MiB/s | 238.2 KiB | 00m00s [102/387] pulseaudio-libs-0:17.0-7.fc43 100% | 65.4 MiB/s | 669.3 KiB | 00m00s [103/387] cryptsetup-libs-0:2.8.1-1.fc4 100% | 30.6 MiB/s | 564.7 KiB | 00m00s [104/387] kbd-0:2.8.0-3.fc43.aarch64 100% | 52.7 MiB/s | 377.8 KiB | 00m00s [105/387] kmod-0:34.2-2.fc43.aarch64 100% | 25.4 MiB/s | 130.1 KiB | 00m00s [106/387] pulseaudio-libs-glib2-0:17.0- 100% | 401.3 KiB/s | 16.1 KiB | 00m00s [107/387] kmod-libs-0:34.2-2.fc43.aarch 100% | 8.1 MiB/s | 66.3 KiB | 00m00s [108/387] miniupnpc-0:2.3.3-3.fc43.aarc 100% | 742.5 KiB/s | 57.9 KiB | 00m00s [109/387] systemd-shared-0:258-1.fc43.a 100% | 121.2 MiB/s | 1.7 MiB | 00m00s [110/387] libXau-0:1.0.12-3.fc43.aarch6 100% | 5.5 MiB/s | 33.6 KiB | 00m00s [111/387] systemd-0:258-1.fc43.aarch64 100% | 134.6 MiB/s | 4.0 MiB | 00m00s [112/387] libXdmcp-0:1.1.5-4.fc43.aarch 100% | 4.5 MiB/s | 37.1 KiB | 00m00s [113/387] libXfont2-0:2.0.7-3.fc43.aarc 100% | 17.9 MiB/s | 146.4 KiB | 00m00s [114/387] libglvnd-glx-1:1.7.0-8.fc43.a 100% | 14.0 MiB/s | 129.3 KiB | 00m00s [115/387] libunwind-0:1.8.1-3.fc43.aarc 100% | 8.9 MiB/s | 82.2 KiB | 00m00s [116/387] pixman-0:0.46.2-2.fc43.aarch6 100% | 23.1 MiB/s | 213.2 KiB | 00m00s [117/387] cmake-rpm-macros-0:3.31.6-4.f 100% | 7.2 MiB/s | 14.8 KiB | 00m00s [118/387] xorg-x11-xauth-1:1.1.4-2.fc43 100% | 4.2 MiB/s | 34.1 KiB | 00m00s [119/387] xorg-x11-server-common-0:21.1 100% | 3.9 MiB/s | 36.3 KiB | 00m00s [120/387] shared-mime-info-0:2.4-2.fc43 100% | 55.0 MiB/s | 394.6 KiB | 00m00s [121/387] vim-filesystem-2:9.1.1818-1.f 100% | 1.9 MiB/s | 15.5 KiB | 00m00s [122/387] libxcrypt-devel-0:4.4.38-8.fc 100% | 3.6 MiB/s | 29.1 KiB | 00m00s [123/387] less-0:679-2.fc43.aarch64 100% | 27.2 MiB/s | 194.9 KiB | 00m00s [124/387] perl-Carp-0:1.54-520.fc43.noa 100% | 7.0 MiB/s | 28.7 KiB | 00m00s [125/387] openssh-clients-0:10.0p1-5.fc 100% | 102.6 MiB/s | 735.7 KiB | 00m00s [126/387] perl-Exporter-0:5.79-520.fc43 100% | 7.5 MiB/s | 30.9 KiB | 00m00s [127/387] perl-Pod-Usage-4:2.05-520.fc4 100% | 13.2 MiB/s | 40.5 KiB | 00m00s [128/387] perl-Text-ParseWords-0:3.31-5 100% | 5.3 MiB/s | 16.3 KiB | 00m00s [129/387] perl-base-0:2.27-520.fc43.noa 100% | 5.3 MiB/s | 16.2 KiB | 00m00s [130/387] perl-constant-0:1.33-521.fc43 100% | 7.4 MiB/s | 22.8 KiB | 00m00s [131/387] perl-overload-0:1.40-520.fc43 100% | 14.8 MiB/s | 45.6 KiB | 00m00s [132/387] perl-Fcntl-0:1.20-520.fc43.aa 100% | 5.8 MiB/s | 29.7 KiB | 00m00s [133/387] perl-Error-1:0.17030-2.fc43.n 100% | 6.5 MiB/s | 40.2 KiB | 00m00s [134/387] perl-IO-0:1.55-520.fc43.aarch 100% | 13.4 MiB/s | 82.2 KiB | 00m00s [135/387] perl-POSIX-0:2.23-520.fc43.aa 100% | 31.7 MiB/s | 97.4 KiB | 00m00s [136/387] perl-Symbol-0:1.09-520.fc43.n 100% | 4.6 MiB/s | 14.2 KiB | 00m00s [137/387] perl-Errno-0:1.38-520.fc43.aa 100% | 2.9 MiB/s | 14.9 KiB | 00m00s [138/387] perl-Scalar-List-Utils-5:1.70 100% | 14.3 MiB/s | 73.0 KiB | 00m00s [139/387] perl-DynaLoader-0:1.57-520.fc 100% | 4.2 MiB/s | 26.0 KiB | 00m00s [140/387] perl-vars-0:1.05-520.fc43.noa 100% | 4.2 MiB/s | 13.0 KiB | 00m00s [141/387] libX11-common-0:1.8.12-1.fc43 100% | 28.6 MiB/s | 175.9 KiB | 00m00s [142/387] perl-Encode-4:3.21-520.fc43.a 100% | 104.2 MiB/s | 1.0 MiB | 00m00s [143/387] libXrender-0:0.9.12-3.fc43.aa 100% | 3.3 MiB/s | 27.0 KiB | 00m00s [144/387] libXext-0:1.3.6-4.fc43.aarch6 100% | 6.2 MiB/s | 38.4 KiB | 00m00s [145/387] libffi-devel-0:3.5.1-2.fc43.a 100% | 4.0 MiB/s | 28.7 KiB | 00m00s [146/387] libmount-devel-0:2.41.1-17.fc 100% | 2.2 MiB/s | 24.5 KiB | 00m00s [147/387] glycin-libs-0:2.0.3-1.fc43.aa 100% | 68.4 MiB/s | 1.5 MiB | 00m00s [148/387] libselinux-devel-0:3.9-5.fc43 100% | 10.6 MiB/s | 152.1 KiB | 00m00s [149/387] python3-0:3.14.0-1.fc43.aarch 100% | 5.4 MiB/s | 27.7 KiB | 00m00s [150/387] sysprof-capture-devel-0:49.0- 100% | 27.1 MiB/s | 166.4 KiB | 00m00s [151/387] python3-packaging-0:25.0-7.fc 100% | 10.5 MiB/s | 161.5 KiB | 00m00s [152/387] at-spi2-atk-devel-0:2.58.1-1. 100% | 2.7 MiB/s | 11.2 KiB | 00m00s [153/387] atk-0:2.58.1-1.fc43.aarch64 100% | 15.7 MiB/s | 80.5 KiB | 00m00s [154/387] atk-devel-0:2.58.1-1.fc43.aar 100% | 43.3 MiB/s | 443.4 KiB | 00m00s [155/387] cairo-0:1.18.4-2.fc43.aarch64 100% | 68.3 MiB/s | 699.1 KiB | 00m00s [156/387] cairo-devel-0:1.18.4-2.fc43.a 100% | 20.8 MiB/s | 191.8 KiB | 00m00s [157/387] cairo-gobject-devel-0:1.18.4- 100% | 2.1 MiB/s | 10.9 KiB | 00m00s [158/387] fribidi-devel-0:1.0.16-3.fc43 100% | 5.7 MiB/s | 29.2 KiB | 00m00s [159/387] fontconfig-devel-0:2.17.0-3.f 100% | 23.6 MiB/s | 169.5 KiB | 00m00s [160/387] pcre2-devel-0:10.46-1.fc43.aa 100% | 9.8 MiB/s | 543.2 KiB | 00m00s [161/387] harfbuzz-0:11.5.1-1.fc43.aarc 100% | 65.7 MiB/s | 1.1 MiB | 00m00s [162/387] libXcomposite-devel-0:0.4.6-6 100% | 1.1 MiB/s | 15.8 KiB | 00m00s [163/387] libXdamage-devel-0:1.1.6-6.fc 100% | 1.3 MiB/s | 9.5 KiB | 00m00s [164/387] libcloudproviders-devel-0:0.3 100% | 6.9 MiB/s | 49.2 KiB | 00m00s [165/387] libepoxy-devel-0:1.5.10-11.fc 100% | 26.0 MiB/s | 132.9 KiB | 00m00s [166/387] libepoxy-0:1.5.10-11.fc43.aar 100% | 26.1 MiB/s | 240.6 KiB | 00m00s [167/387] gtk3-0:3.24.51-2.fc43.aarch64 100% | 133.8 MiB/s | 5.9 MiB | 00m00s [168/387] libxkbcommon-devel-0:1.11.0-1 100% | 5.1 MiB/s | 73.0 KiB | 00m00s [169/387] pango-0:1.57.0-1.fc43.aarch64 100% | 28.4 MiB/s | 349.4 KiB | 00m00s [170/387] pango-devel-0:1.57.0-1.fc43.a 100% | 8.3 MiB/s | 162.0 KiB | 00m00s [171/387] libdbusmenu-0:16.04.0-30.fc43 100% | 7.1 MiB/s | 131.4 KiB | 00m00s [172/387] libdbusmenu-gtk3-0:16.04.0-30 100% | 5.1 MiB/s | 36.7 KiB | 00m00s [173/387] brotli-0:1.1.0-10.fc43.aarch6 100% | 3.8 MiB/s | 19.5 KiB | 00m00s [174/387] keyutils-libs-devel-0:1.6.3-6 100% | 19.5 MiB/s | 59.8 KiB | 00m00s [175/387] libcom_err-devel-0:1.47.3-2.f 100% | 4.0 MiB/s | 16.6 KiB | 00m00s [176/387] libkadm5-0:1.21.3-7.fc43.aarc 100% | 18.8 MiB/s | 77.1 KiB | 00m00s [177/387] libverto-devel-0:0.3.2-11.fc4 100% | 3.5 MiB/s | 14.2 KiB | 00m00s [178/387] libayatana-indicator-gtk3-0:0 100% | 962.5 KiB/s | 51.0 KiB | 00m00s [179/387] libayatana-ido-gtk3-devel-0:0 100% | 618.7 KiB/s | 21.0 KiB | 00m00s [180/387] publicsuffix-list-0:20250616- 100% | 8.8 MiB/s | 89.9 KiB | 00m00s [181/387] libpciaccess-0:0.16-16.fc43.a 100% | 4.3 MiB/s | 26.2 KiB | 00m00s [182/387] glycin-devel-0:2.0.3-1.fc43.a 100% | 3.3 MiB/s | 23.8 KiB | 00m00s [183/387] libwayland-client-0:1.24.0-1. 100% | 3.5 MiB/s | 32.5 KiB | 00m00s [184/387] mesa-filesystem-0:25.2.4-2.fc 100% | 2.4 MiB/s | 21.9 KiB | 00m00s [185/387] libwayland-egl-0:1.24.0-1.fc4 100% | 4.0 MiB/s | 12.4 KiB | 00m00s [186/387] libwayland-server-0:1.24.0-1. 100% | 13.4 MiB/s | 41.1 KiB | 00m00s [187/387] libglvnd-core-devel-1:1.7.0-8 100% | 8.4 MiB/s | 17.2 KiB | 00m00s [188/387] libglvnd-1:1.7.0-8.fc43.aarch 100% | 26.5 MiB/s | 108.5 KiB | 00m00s [189/387] libglvnd-egl-1:1.7.0-8.fc43.a 100% | 8.8 MiB/s | 36.2 KiB | 00m00s [190/387] libglvnd-gles-1:1.7.0-8.fc43. 100% | 9.8 MiB/s | 30.2 KiB | 00m00s [191/387] libglvnd-opengl-1:1.7.0-8.fc4 100% | 9.6 MiB/s | 39.4 KiB | 00m00s [192/387] libatomic-0:15.2.1-2.fc43.aar 100% | 22.0 MiB/s | 45.1 KiB | 00m00s [193/387] automake-0:1.18.1-2.fc43.noar 100% | 117.8 MiB/s | 723.5 KiB | 00m00s [194/387] libogg-2:1.3.6-1.fc43.aarch64 100% | 5.4 MiB/s | 33.3 KiB | 00m00s [195/387] dbus-libs-1:1.16.0-4.fc43.aar 100% | 20.4 MiB/s | 145.9 KiB | 00m00s [196/387] libasyncns-0:0.8-31.fc43.aarc 100% | 3.6 MiB/s | 29.4 KiB | 00m00s [197/387] libwayland-cursor-0:1.24.0-1. 100% | 310.4 KiB/s | 18.9 KiB | 00m00s [198/387] device-mapper-libs-0:1.02.208 100% | 21.2 MiB/s | 173.5 KiB | 00m00s [199/387] libsndfile-0:1.2.2-10.fc43.aa 100% | 10.6 MiB/s | 217.2 KiB | 00m00s [200/387] kbd-legacy-0:2.8.0-3.fc43.noa 100% | 35.3 MiB/s | 578.3 KiB | 00m00s [201/387] dbus-1:1.16.0-4.fc43.aarch64 100% | 744.6 KiB/s | 7.4 KiB | 00m00s [202/387] kbd-misc-0:2.8.0-3.fc43.noarc 100% | 60.9 MiB/s | 1.6 MiB | 00m00s [203/387] libseccomp-0:2.6.0-2.fc43.aar 100% | 9.3 MiB/s | 76.3 KiB | 00m00s [204/387] systemd-pam-0:258-1.fc43.aarc 100% | 49.1 MiB/s | 402.5 KiB | 00m00s [205/387] freetype-0:2.13.3-3.fc43.aarc 100% | 43.6 MiB/s | 402.0 KiB | 00m00s [206/387] libfontenc-0:1.1.8-4.fc43.aar 100% | 4.0 MiB/s | 32.4 KiB | 00m00s [207/387] mesa-libGL-0:25.2.4-2.fc43.aa 100% | 14.1 MiB/s | 130.1 KiB | 00m00s [208/387] xkbcomp-0:1.4.7-4.fc43.aarch6 100% | 6.7 MiB/s | 96.0 KiB | 00m00s [209/387] xkeyboard-config-0:2.45-1.fc4 100% | 60.1 MiB/s | 984.5 KiB | 00m00s [210/387] libXmu-0:1.2.1-4.fc43.aarch64 100% | 7.6 MiB/s | 77.3 KiB | 00m00s [211/387] libedit-0:3.1-56.20250104cvs. 100% | 10.2 MiB/s | 104.3 KiB | 00m00s [212/387] libfido2-0:1.16.0-3.fc43.aarc 100% | 11.8 MiB/s | 96.5 KiB | 00m00s [213/387] perl-Pod-Perldoc-0:3.28.01-52 100% | 6.3 MiB/s | 84.3 KiB | 00m00s [214/387] openssh-0:10.0p1-5.fc43.aarch 100% | 18.2 MiB/s | 335.4 KiB | 00m00s [215/387] perl-mro-0:1.29-520.fc43.aarc 100% | 4.1 MiB/s | 29.5 KiB | 00m00s [216/387] perl-podlators-1:6.0.2-520.fc 100% | 12.5 MiB/s | 128.3 KiB | 00m00s [217/387] perl-overloading-0:0.02-520.f 100% | 1.6 MiB/s | 12.9 KiB | 00m00s [218/387] perl-File-stat-0:1.14-520.fc4 100% | 2.4 MiB/s | 17.1 KiB | 00m00s [219/387] perl-Socket-4:2.040-2.fc43.aa 100% | 10.8 MiB/s | 55.0 KiB | 00m00s [220/387] perl-SelectSaver-0:1.02-520.f 100% | 1.9 MiB/s | 11.7 KiB | 00m00s [221/387] perl-locale-0:1.13-520.fc43.n 100% | 2.2 MiB/s | 13.5 KiB | 00m00s [222/387] perl-Getopt-Std-0:1.14-520.fc 100% | 1.7 MiB/s | 15.7 KiB | 00m00s [223/387] perl-MIME-Base64-0:3.16-520.f 100% | 3.7 MiB/s | 29.9 KiB | 00m00s [224/387] perl-Storable-1:3.37-521.fc43 100% | 11.7 MiB/s | 95.8 KiB | 00m00s [225/387] nodejs-libs-1:22.19.0-2.fc43. 100% | 88.7 MiB/s | 19.3 MiB | 00m00s [226/387] perl-parent-1:0.244-520.fc43. 100% | 528.7 KiB/s | 14.8 KiB | 00m00s [227/387] fontconfig-0:2.17.0-3.fc43.aa 100% | 9.9 MiB/s | 274.5 KiB | 00m00s [228/387] lcms2-0:2.16-6.fc43.aarch64 100% | 35.3 MiB/s | 180.8 KiB | 00m00s [229/387] libblkid-devel-0:2.41.1-17.fc 100% | 5.7 MiB/s | 23.3 KiB | 00m00s [230/387] libsepol-devel-0:3.9-2.fc43.a 100% | 11.8 MiB/s | 48.3 KiB | 00m00s [231/387] pcre2-utf16-0:10.46-1.fc43.aa 100% | 54.0 MiB/s | 221.2 KiB | 00m00s [232/387] glycin-loaders-0:2.0.3-1.fc43 100% | 119.8 MiB/s | 2.8 MiB | 00m00s [233/387] pcre2-utf32-0:10.46-1.fc43.aa 100% | 14.6 MiB/s | 210.0 KiB | 00m00s [234/387] at-spi2-atk-0:2.58.1-1.fc43.a 100% | 12.1 MiB/s | 86.6 KiB | 00m00s [235/387] at-spi2-core-devel-0:2.58.1-1 100% | 30.4 MiB/s | 341.9 KiB | 00m00s [236/387] at-spi2-core-0:2.58.1-1.fc43. 100% | 31.8 MiB/s | 390.2 KiB | 00m00s [237/387] libpng-2:1.6.50-2.fc43.aarch6 100% | 22.7 MiB/s | 116.2 KiB | 00m00s [238/387] python3-libs-0:3.14.0-1.fc43. 100% | 167.2 MiB/s | 9.7 MiB | 00m00s [239/387] dbus-devel-1:1.16.0-4.fc43.aa 100% | 994.8 KiB/s | 38.8 KiB | 00m00s [240/387] lzo-0:2.10-15.fc43.aarch64 100% | 4.0 MiB/s | 65.7 KiB | 00m00s [241/387] freetype-devel-0:2.13.3-3.fc4 100% | 68.8 MiB/s | 1.0 MiB | 00m00s [242/387] libpng-devel-2:1.6.50-2.fc43. 100% | 17.9 MiB/s | 293.3 KiB | 00m00s [243/387] cairo-gobject-0:1.18.4-2.fc43 100% | 4.1 MiB/s | 16.9 KiB | 00m00s [244/387] pixman-devel-0:0.46.2-2.fc43. 100% | 2.5 MiB/s | 17.9 KiB | 00m00s [245/387] lzo-devel-0:2.10-15.fc43.aarc 100% | 1.7 MiB/s | 39.0 KiB | 00m00s [246/387] fribidi-0:1.0.16-3.fc43.aarch 100% | 13.1 MiB/s | 53.5 KiB | 00m00s [247/387] gettext-0:0.25.1-2.fc43.aarch 100% | 148.7 MiB/s | 1.6 MiB | 00m00s [248/387] adwaita-icon-theme-0:49.0-1.f 100% | 56.3 MiB/s | 403.9 KiB | 00m00s [249/387] cups-libs-1:2.4.14-2.fc43.aar 100% | 50.6 MiB/s | 259.2 KiB | 00m00s [250/387] gtk-update-icon-cache-0:3.24. 100% | 4.1 MiB/s | 33.7 KiB | 00m00s [251/387] hicolor-icon-theme-0:0.18-2.f 100% | 10.7 MiB/s | 65.9 KiB | 00m00s [252/387] libXcomposite-0:0.4.6-6.fc43. 100% | 5.9 MiB/s | 24.3 KiB | 00m00s [253/387] libXdamage-0:1.1.6-6.fc43.aar 100% | 3.8 MiB/s | 23.5 KiB | 00m00s [254/387] libxml2-devel-0:2.12.10-5.fc4 100% | 9.7 MiB/s | 524.0 KiB | 00m00s [255/387] libtinysparql-0:3.10.1-1.fc43 100% | 44.3 MiB/s | 363.3 KiB | 00m00s [256/387] colord-libs-0:1.4.8-2.fc43.aa 100% | 3.9 MiB/s | 223.1 KiB | 00m00s [257/387] libxkbcommon-0:1.11.0-1.fc43. 100% | 33.5 MiB/s | 171.5 KiB | 00m00s [258/387] graphite2-0:1.3.14-19.fc43.aa 100% | 22.4 MiB/s | 91.7 KiB | 00m00s [259/387] libXft-0:2.3.8-9.fc43.aarch64 100% | 7.6 MiB/s | 70.4 KiB | 00m00s [260/387] libthai-0:0.1.29-11.fc43.aarc 100% | 22.8 MiB/s | 209.7 KiB | 00m00s [261/387] libcloudproviders-0:0.3.6-2.f 100% | 1.3 MiB/s | 45.6 KiB | 00m00s [262/387] libXft-devel-0:2.3.8-9.fc43.a 100% | 8.0 MiB/s | 49.4 KiB | 00m00s [263/387] libthai-devel-0:0.1.29-11.fc4 100% | 15.7 MiB/s | 128.3 KiB | 00m00s [264/387] hwdata-0:0.399-1.fc43.noarch 100% | 138.0 MiB/s | 1.7 MiB | 00m00s [265/387] harfbuzz-devel-0:11.5.1-1.fc4 100% | 17.1 MiB/s | 454.9 KiB | 00m00s [266/387] lcms2-devel-0:2.16-6.fc43.aar 100% | 5.2 MiB/s | 31.8 KiB | 00m00s [267/387] libseccomp-devel-0:2.6.0-2.fc 100% | 12.2 MiB/s | 62.3 KiB | 00m00s [268/387] mesa-libEGL-0:25.2.4-2.fc43.a 100% | 25.5 MiB/s | 130.5 KiB | 00m00s [269/387] autoconf-0:2.72-7.fc43.noarch 100% | 81.1 MiB/s | 830.6 KiB | 00m00s [270/387] perl-Class-Struct-0:0.68-520. 100% | 10.8 MiB/s | 22.1 KiB | 00m00s [271/387] perl-File-Path-0:2.18-520.fc4 100% | 11.4 MiB/s | 35.1 KiB | 00m00s [272/387] perl-Thread-Queue-0:3.14-520. 100% | 3.0 MiB/s | 21.3 KiB | 00m00s [273/387] perl-threads-1:2.43-520.fc43. 100% | 11.1 MiB/s | 56.6 KiB | 00m00s [274/387] flac-libs-0:1.5.0-3.fc43.aarc 100% | 24.4 MiB/s | 250.3 KiB | 00m00s [275/387] gsm-0:1.0.23-1.fc43.aarch64 100% | 8.6 MiB/s | 35.1 KiB | 00m00s [276/387] c-ares-0:1.34.5-2.fc43.aarch6 100% | 2.0 MiB/s | 116.4 KiB | 00m00s [277/387] lame-libs-0:3.100-20.fc43.aar 100% | 19.3 MiB/s | 336.0 KiB | 00m00s [278/387] libvorbis-1:1.3.7-13.fc43.aar 100% | 22.4 MiB/s | 183.8 KiB | 00m00s [279/387] device-mapper-0:1.02.208-2.fc 100% | 19.1 MiB/s | 136.7 KiB | 00m00s [280/387] mpg123-libs-0:1.32.10-2.fc43. 100% | 34.9 MiB/s | 357.2 KiB | 00m00s [281/387] libXxf86vm-0:1.1.6-3.fc43.aar 100% | 5.7 MiB/s | 17.6 KiB | 00m00s [282/387] dbus-broker-0:37-2.fc43.aarch 100% | 40.8 MiB/s | 167.1 KiB | 00m00s [283/387] libxkbfile-0:1.1.3-4.fc43.aar 100% | 14.6 MiB/s | 89.7 KiB | 00m00s [284/387] libXt-0:1.3.1-3.fc43.aarch64 100% | 10.0 MiB/s | 174.6 KiB | 00m00s [285/387] libcbor-0:0.12.0-6.fc43.aarch 100% | 5.3 MiB/s | 32.6 KiB | 00m00s [286/387] groff-base-0:1.23.0-10.fc43.a 100% | 97.4 MiB/s | 1.1 MiB | 00m00s [287/387] mesa-dri-drivers-0:25.2.4-2.f 100% | 180.4 MiB/s | 9.7 MiB | 00m00s [288/387] perl-File-Temp-1:0.231.100-52 100% | 5.2 MiB/s | 59.0 KiB | 00m00s [289/387] libayatana-ido-gtk3-0:0.10.4- 100% | 536.3 KiB/s | 85.3 KiB | 00m00s [290/387] perl-HTTP-Tiny-0:0.090-521.fc 100% | 11.0 MiB/s | 56.3 KiB | 00m00s [291/387] perl-Term-ANSIColor-0:5.01-52 100% | 9.3 MiB/s | 47.6 KiB | 00m00s [292/387] perl-Term-Cap-0:1.18-520.fc43 100% | 7.1 MiB/s | 21.9 KiB | 00m00s [293/387] default-fonts-core-sans-0:4.2 100% | 9.7 MiB/s | 29.9 KiB | 00m00s [294/387] perl-Pod-Simple-1:3.47-3.fc43 100% | 21.5 MiB/s | 219.9 KiB | 00m00s [295/387] fonts-filesystem-1:2.0.5-23.f 100% | 2.8 MiB/s | 8.7 KiB | 00m00s [296/387] xml-common-0:0.6.3-67.fc43.no 100% | 10.1 MiB/s | 31.0 KiB | 00m00s [297/387] bubblewrap-0:0.11.0-2.fc43.aa 100% | 15.7 MiB/s | 64.4 KiB | 00m00s [298/387] libheif-0:1.20.2-6.fc43.aarch 100% | 103.4 MiB/s | 529.4 KiB | 00m00s [299/387] libjxl-1:0.11.1-6.fc43.aarch6 100% | 86.7 MiB/s | 888.0 KiB | 00m00s [300/387] mpdecimal-0:4.0.1-2.fc43.aarc 100% | 11.7 MiB/s | 95.8 KiB | 00m00s [301/387] librsvg2-0:2.61.0-2.fc43.aarc 100% | 108.9 MiB/s | 1.7 MiB | 00m00s [302/387] tzdata-0:2025b-3.fc43.noarch 100% | 87.1 MiB/s | 713.9 KiB | 00m00s [303/387] python-pip-wheel-0:25.1.1-18. 100% | 63.4 MiB/s | 1.2 MiB | 00m00s [304/387] xprop-0:1.2.8-4.fc43.aarch64 100% | 4.3 MiB/s | 35.0 KiB | 00m00s [305/387] systemd-devel-0:258-1.fc43.aa 100% | 34.5 MiB/s | 670.6 KiB | 00m00s [306/387] lzo-minilzo-0:2.10-15.fc43.aa 100% | 3.3 MiB/s | 23.8 KiB | 00m00s [307/387] bzip2-devel-0:1.0.8-21.fc43.a 100% | 18.9 MiB/s | 213.4 KiB | 00m00s [308/387] gettext-libs-0:0.25.1-2.fc43. 100% | 108.3 MiB/s | 776.1 KiB | 00m00s [309/387] gettext-runtime-0:0.25.1-2.fc 100% | 16.1 MiB/s | 115.5 KiB | 00m00s [310/387] libtextstyle-0:0.25.1-2.fc43. 100% | 14.4 MiB/s | 88.5 KiB | 00m00s [311/387] xz-devel-1:5.8.1-2.fc43.aarch 100% | 13.1 MiB/s | 66.9 KiB | 00m00s [312/387] adwaita-cursor-theme-0:49.0-1 100% | 61.9 MiB/s | 380.1 KiB | 00m00s [313/387] libgusb-0:0.4.9-4.fc43.aarch6 100% | 12.1 MiB/s | 61.8 KiB | 00m00s [314/387] avahi-libs-0:0.9~rc2-6.fc43.a 100% | 12.9 MiB/s | 65.8 KiB | 00m00s [315/387] cups-filesystem-1:2.4.14-2.fc 100% | 3.1 MiB/s | 12.7 KiB | 00m00s [316/387] avahi-glib-0:0.9~rc2-6.fc43.a 100% | 4.8 MiB/s | 14.9 KiB | 00m00s [317/387] adwaita-icon-theme-legacy-0:4 100% | 145.8 MiB/s | 2.5 MiB | 00m00s [318/387] libsoup3-0:3.6.5-8.fc43.aarch 100% | 47.3 MiB/s | 387.3 KiB | 00m00s [319/387] libdatrie-0:0.2.13-12.fc43.aa 100% | 3.9 MiB/s | 31.9 KiB | 00m00s [320/387] graphite2-devel-0:1.3.14-19.f 100% | 2.9 MiB/s | 20.6 KiB | 00m00s [321/387] harfbuzz-cairo-0:11.5.1-1.fc4 100% | 4.0 MiB/s | 28.8 KiB | 00m00s [322/387] harfbuzz-icu-0:11.5.1-1.fc43. 100% | 2.0 MiB/s | 16.1 KiB | 00m00s [323/387] libicu-devel-0:77.1-1.fc43.aa 100% | 77.6 MiB/s | 794.3 KiB | 00m00s [324/387] libdatrie-devel-0:0.2.13-12.f 100% | 14.9 MiB/s | 137.7 KiB | 00m00s [325/387] gettext-devel-0:0.25.1-2.fc43 100% | 30.5 MiB/s | 280.7 KiB | 00m00s [326/387] m4-0:1.4.20-2.fc43.aarch64 100% | 29.5 MiB/s | 332.4 KiB | 00m00s [327/387] perl-Data-Dumper-0:2.191-521. 100% | 8.9 MiB/s | 55.0 KiB | 00m00s [328/387] perl-File-Compare-0:1.100.800 100% | 2.2 MiB/s | 13.3 KiB | 00m00s [329/387] perl-File-Copy-0:2.41-520.fc4 100% | 2.8 MiB/s | 20.1 KiB | 00m00s [330/387] perl-File-Find-0:1.44-520.fc4 100% | 6.2 MiB/s | 25.3 KiB | 00m00s [331/387] libicu-0:77.1-1.fc43.aarch64 100% | 151.1 MiB/s | 10.6 MiB | 00m00s [332/387] perl-threads-shared-0:1.70-52 100% | 2.9 MiB/s | 44.0 KiB | 00m00s [333/387] dbus-common-1:1.16.0-4.fc43.n 100% | 1.3 MiB/s | 14.2 KiB | 00m00s [334/387] libxshmfence-0:1.3.2-7.fc43.a 100% | 4.4 MiB/s | 13.5 KiB | 00m00s [335/387] lm_sensors-libs-0:3.6.0-23.fc 100% | 13.2 MiB/s | 40.5 KiB | 00m00s [336/387] libICE-0:1.1.2-3.fc43.aarch64 100% | 9.4 MiB/s | 76.7 KiB | 00m00s [337/387] spirv-tools-libs-0:2025.3-4.f 100% | 104.2 MiB/s | 1.5 MiB | 00m00s [338/387] libSM-0:1.2.5-3.fc43.aarch64 100% | 5.4 MiB/s | 44.4 KiB | 00m00s [339/387] perl-IO-Socket-SSL-0:2.095-2. 100% | 18.8 MiB/s | 231.5 KiB | 00m00s [340/387] perl-Net-SSLeay-0:1.94-11.fc4 100% | 30.7 MiB/s | 376.8 KiB | 00m00s [341/387] perl-Time-Local-2:1.350-520.f 100% | 4.8 MiB/s | 34.4 KiB | 00m00s [342/387] perl-Pod-Escapes-1:1.07-520.f 100% | 3.2 MiB/s | 19.8 KiB | 00m00s [343/387] perl-if-0:0.61.000-520.fc43.n 100% | 3.4 MiB/s | 14.0 KiB | 00m00s [344/387] ncurses-0:6.5-7.20250614.fc43 100% | 69.1 MiB/s | 424.5 KiB | 00m00s [345/387] abattis-cantarell-vf-fonts-0: 100% | 19.6 MiB/s | 120.1 KiB | 00m00s [346/387] google-noto-sans-vf-fonts-0:2 100% | 85.7 MiB/s | 614.2 KiB | 00m00s [347/387] perl-Text-Tabs+Wrap-0:2024.00 100% | 600.9 KiB/s | 21.6 KiB | 00m00s [348/387] libaom-0:3.13.1-1.fc43.aarch6 100% | 118.1 MiB/s | 1.7 MiB | 00m00s [349/387] libdav1d-0:1.5.1-2.fc43.aarch 100% | 43.2 MiB/s | 354.2 KiB | 00m00s [350/387] libjpeg-turbo-0:3.1.2-1.fc43. 100% | 41.0 MiB/s | 251.9 KiB | 00m00s [351/387] libopenjph-0:0.22.0-2.fc43.aa 100% | 26.9 MiB/s | 110.3 KiB | 00m00s [352/387] noopenh264-0:2.6.0-2.fc43.aar 100% | 4.4 MiB/s | 22.3 KiB | 00m00s [353/387] libwebp-0:1.6.0-2.fc43.aarch6 100% | 25.4 MiB/s | 260.4 KiB | 00m00s [354/387] openjpeg-0:2.5.4-1.fc43.aarch 100% | 29.9 MiB/s | 183.5 KiB | 00m00s [355/387] rav1e-libs-0:0.7.1-8.fc43.aar 100% | 86.0 MiB/s | 792.8 KiB | 00m00s [356/387] svt-av1-libs-0:3.1.2-1.fc43.a 100% | 88.5 MiB/s | 1.3 MiB | 00m00s [357/387] highway-0:1.2.0-5.fc42.aarch6 100% | 53.9 MiB/s | 717.3 KiB | 00m00s [358/387] gettext-envsubst-0:0.25.1-2.f 100% | 4.5 MiB/s | 37.3 KiB | 00m00s [359/387] gettext-common-devel-0:0.25.1 100% | 58.8 MiB/s | 601.7 KiB | 00m00s [360/387] perl-B-0:1.89-520.fc43.aarch6 100% | 21.7 MiB/s | 177.6 KiB | 00m00s [361/387] llvm-filesystem-0:21.1.2-1.fc 100% | 2.4 MiB/s | 14.6 KiB | 00m00s [362/387] perl-IO-Socket-IP-0:0.43-521. 100% | 8.2 MiB/s | 42.1 KiB | 00m00s [363/387] perl-AutoLoader-0:5.74-520.fc 100% | 6.9 MiB/s | 21.2 KiB | 00m00s [364/387] perl-URI-0:5.34-1.fc43.noarch 100% | 29.1 MiB/s | 149.1 KiB | 00m00s [365/387] google-noto-fonts-common-0:20 100% | 5.6 MiB/s | 17.1 KiB | 00m00s [366/387] perl-MIME-Base32-0:1.303-24.f 100% | 4.0 MiB/s | 20.4 KiB | 00m00s [367/387] perl-libnet-0:3.15-521.fc43.n 100% | 17.9 MiB/s | 128.3 KiB | 00m00s [368/387] perl-Digest-MD5-0:2.59-520.fc 100% | 8.7 MiB/s | 35.8 KiB | 00m00s [369/387] perl-FileHandle-0:2.05-520.fc 100% | 5.0 MiB/s | 15.5 KiB | 00m00s [370/387] perl-Digest-0:1.20-520.fc43.n 100% | 6.1 MiB/s | 24.8 KiB | 00m00s [371/387] wget2-wget-0:2.2.0-6.fc43.aar 100% | 1.9 MiB/s | 9.7 KiB | 00m00s [372/387] wget2-0:2.2.0-6.fc43.aarch64 100% | 45.1 MiB/s | 277.2 KiB | 00m00s [373/387] llvm-libs-0:21.1.2-1.fc43.aar 100% | 164.1 MiB/s | 33.3 MiB | 00m00s [374/387] gpgme-0:1.24.3-6.fc43.aarch64 100% | 5.5 MiB/s | 215.5 KiB | 00m00s [375/387] wget2-libs-0:2.2.0-6.fc43.aar 100% | 3.9 MiB/s | 145.9 KiB | 00m00s [376/387] gnutls-dane-0:3.8.10-3.fc43.a 100% | 5.3 MiB/s | 37.9 KiB | 00m00s [377/387] unbound-libs-0:1.23.1-3.fc43. 100% | 52.1 MiB/s | 533.7 KiB | 00m00s [378/387] hiredis-0:1.2.0-7.fc43.aarch6 100% | 4.7 MiB/s | 48.6 KiB | 00m00s [379/387] protobuf-c-0:1.5.1-2.fc43.aar 100% | 6.2 MiB/s | 31.6 KiB | 00m00s [380/387] authselect-libs-0:1.6.2-1.fc4 100% | 28.2 MiB/s | 231.2 KiB | 00m00s [381/387] pam-0:1.7.1-3.fc43.aarch64 100% | 59.9 MiB/s | 551.8 KiB | 00m00s [382/387] authselect-0:1.6.2-1.fc43.aar 100% | 21.2 MiB/s | 195.3 KiB | 00m00s [383/387] gdbm-1:1.23-10.fc43.aarch64 100% | 48.7 MiB/s | 149.7 KiB | 00m00s [384/387] libnsl2-0:2.0.1-4.fc43.aarch6 100% | 7.2 MiB/s | 29.5 KiB | 00m00s [385/387] libpwquality-0:1.4.5-14.fc43. 100% | 28.9 MiB/s | 118.4 KiB | 00m00s [386/387] libtirpc-0:1.3.7-0.fc43.aarch 100% | 22.7 MiB/s | 93.1 KiB | 00m00s [387/387] cracklib-0:2.9.11-8.fc43.aarc 100% | 29.8 MiB/s | 91.6 KiB | 00m00s -------------------------------------------------------------------------------- [387/387] Total 100% | 130.3 MiB/s | 279.6 MiB | 00m02s Running transaction [ 1/389] Verify package files 100% | 419.0 B/s | 387.0 B | 00m01s [ 2/389] Prepare transaction 100% | 1.2 KiB/s | 387.0 B | 00m00s [ 3/389] Installing glib2-0:2.86.0-2.f 100% | 211.4 MiB/s | 15.4 MiB | 00m00s [ 4/389] Installing xorg-x11-proto-dev 100% | 148.6 MiB/s | 1.8 MiB | 00m00s [ 5/389] Installing expat-0:2.7.2-1.fc 100% | 17.6 MiB/s | 360.6 KiB | 00m00s [ 6/389] Installing cmake-filesystem-0 100% | 3.7 MiB/s | 7.6 KiB | 00m00s [ 7/389] Installing zlib-ng-compat-dev 100% | 106.0 MiB/s | 108.5 KiB | 00m00s [ 8/389] Installing dbus-libs-1:1.16.0 100% | 194.8 MiB/s | 398.9 KiB | 00m00s [ 9/389] Installing libglvnd-1:1.7.0-8 100% | 443.4 MiB/s | 1.3 MiB | 00m00s [ 10/389] Installing libwayland-client- 100% | 69.6 MiB/s | 71.2 KiB | 00m00s [ 11/389] Installing libX11-xcb-0:1.8.1 100% | 33.1 MiB/s | 67.8 KiB | 00m00s [ 12/389] Installing shared-mime-info-0 100% | 75.3 MiB/s | 2.6 MiB | 00m00s [ 13/389] Installing libseccomp-0:2.6.0 100% | 120.5 MiB/s | 246.8 KiB | 00m00s [ 14/389] Installing libogg-2:1.3.6-1.f 100% | 77.3 MiB/s | 79.2 KiB | 00m00s [ 15/389] Installing pixman-0:0.46.2-2. 100% | 213.4 MiB/s | 655.6 KiB | 00m00s [ 16/389] Installing libXau-0:1.0.12-3. 100% | 119.6 MiB/s | 122.5 KiB | 00m00s [ 17/389] Installing libxcb-0:1.17.0-6. 100% | 240.8 MiB/s | 2.2 MiB | 00m00s [ 18/389] Installing avahi-libs-0:0.9~r 100% | 113.8 MiB/s | 233.0 KiB | 00m00s [ 19/389] Installing json-glib-0:1.10.8 100% | 87.7 MiB/s | 628.4 KiB | 00m00s [ 20/389] Installing libdbusmenu-0:16.0 100% | 270.7 MiB/s | 554.4 KiB | 00m00s [ 21/389] Installing libicu-0:77.1-1.fc 100% | 320.5 MiB/s | 36.5 MiB | 00m00s [ 22/389] Installing fonts-filesystem-1 100% | 769.5 KiB/s | 788.0 B | 00m00s [ 23/389] Installing fribidi-0:1.0.16-3 100% | 12.1 MiB/s | 248.8 KiB | 00m00s [ 24/389] Installing libpng-2:1.6.50-2. 100% | 132.4 MiB/s | 271.1 KiB | 00m00s [ 25/389] Installing libpng-devel-2:1.6 100% | 42.7 MiB/s | 961.4 KiB | 00m00s [ 26/389] Installing lcms2-0:2.16-6.fc4 100% | 158.3 MiB/s | 486.4 KiB | 00m00s [ 27/389] Installing libepoxy-0:1.5.10- 100% | 312.7 MiB/s | 1.3 MiB | 00m00s [ 28/389] Installing emacs-filesystem-1 100% | 531.2 KiB/s | 544.0 B | 00m00s [ 29/389] Installing libuv-1:1.51.0-2.f 100% | 198.0 MiB/s | 608.2 KiB | 00m00s [ 30/389] Installing fribidi-devel-0:1. 100% | 80.0 MiB/s | 81.9 KiB | 00m00s [ 31/389] Installing pixman-devel-0:0.4 100% | 55.5 MiB/s | 56.9 KiB | 00m00s [ 32/389] Installing systemd-shared-0:2 100% | 304.0 MiB/s | 4.9 MiB | 00m00s [ 33/389] Installing libwayland-cursor- 100% | 80.6 MiB/s | 82.5 KiB | 00m00s [ 34/389] Installing libcloudproviders- 100% | 154.5 MiB/s | 158.2 KiB | 00m00s [ 35/389] Installing libtirpc-0:1.3.7-0 100% | 103.7 MiB/s | 212.4 KiB | 00m00s [ 36/389] Installing gpgme-0:1.24.3-6.f 100% | 32.3 MiB/s | 693.8 KiB | 00m00s [ 37/389] Installing libdav1d-0:1.5.1-2 100% | 209.4 MiB/s | 857.9 KiB | 00m00s [ 38/389] Installing libICE-0:1.1.2-3.f 100% | 218.5 MiB/s | 223.8 KiB | 00m00s [ 39/389] Installing libdatrie-0:0.2.13 100% | 92.8 MiB/s | 95.0 KiB | 00m00s [ 40/389] Installing libthai-0:0.1.29-1 100% | 263.4 MiB/s | 809.2 KiB | 00m00s [ 41/389] Installing libtextstyle-0:0.2 100% | 195.2 MiB/s | 199.9 KiB | 00m00s [ 42/389] Installing gettext-libs-0:0.2 100% | 175.8 MiB/s | 2.3 MiB | 00m00s [ 43/389] Installing xml-common-0:0.6.3 100% | 39.6 MiB/s | 81.1 KiB | 00m00s [ 44/389] Installing graphite2-0:1.3.14 100% | 11.2 MiB/s | 241.7 KiB | 00m00s [ 45/389] Installing harfbuzz-0:11.5.1- 100% | 247.2 MiB/s | 2.7 MiB | 00m00s [ 46/389] Installing freetype-0:2.13.3- 100% | 199.3 MiB/s | 816.2 KiB | 00m00s [ 47/389] Installing lzo-0:2.10-15.fc43 100% | 80.4 MiB/s | 164.6 KiB | 00m00s [ 48/389] Installing libedit-0:3.1-56.2 100% | 91.7 MiB/s | 281.8 KiB | 00m00s [ 49/389] Installing xkeyboard-config-0 100% | 277.3 MiB/s | 10.3 MiB | 00m00s [ 50/389] Installing libxkbcommon-0:1.1 100% | 154.1 MiB/s | 473.2 KiB | 00m00s [ 51/389] Installing libwayland-egl-0:1 100% | 68.0 MiB/s | 69.6 KiB | 00m00s [ 52/389] Installing mesa-filesystem-0: 100% | 4.2 MiB/s | 4.3 KiB | 00m00s [ 53/389] Installing libffi-devel-0:3.5 100% | 31.3 MiB/s | 32.1 KiB | 00m00s [ 54/389] Installing opus-0:1.5.2-3.fc4 100% | 76.7 MiB/s | 392.8 KiB | 00m00s [ 55/389] Installing kernel-headers-0:6 100% | 130.0 MiB/s | 6.8 MiB | 00m00s [ 56/389] Installing glibc-devel-0:2.42 100% | 105.4 MiB/s | 2.3 MiB | 00m00s [ 57/389] Installing libxcrypt-devel-0: 100% | 32.3 MiB/s | 33.1 KiB | 00m00s [ 58/389] Installing libmpc-0:1.3.1-8.f 100% | 75.3 MiB/s | 154.2 KiB | 00m00s [ 59/389] Installing make-1:4.4.1-11.fc 100% | 71.2 MiB/s | 1.9 MiB | 00m00s [ 60/389] Installing libstemmer-0:3.0.1 100% | 236.6 MiB/s | 727.0 KiB | 00m00s [ 61/389] Installing gcc14-0:14.3.1-1.f 100% | 285.6 MiB/s | 106.2 MiB | 00m00s [ 62/389] Installing harfbuzz-icu-0:11. 100% | 66.7 MiB/s | 68.3 KiB | 00m00s [ 63/389] Installing graphite2-devel-0: 100% | 49.6 MiB/s | 50.8 KiB | 00m00s [ 64/389] Installing libdatrie-devel-0: 100% | 28.5 MiB/s | 613.3 KiB | 00m00s [ 65/389] Installing libthai-devel-0:0. 100% | 160.2 MiB/s | 656.3 KiB | 00m00s [ 66/389] Installing libSM-0:1.2.5-3.fc 100% | 127.4 MiB/s | 130.4 KiB | 00m00s [ 67/389] Installing libnsl2-0:2.0.1-4. 100% | 92.8 MiB/s | 95.0 KiB | 00m00s [ 68/389] Installing libcloudproviders- 100% | 124.5 MiB/s | 382.6 KiB | 00m00s [ 69/389] Installing lcms2-devel-0:2.16 100% | 133.2 MiB/s | 136.4 KiB | 00m00s [ 70/389] Installing abattis-cantarell- 100% | 94.9 MiB/s | 194.4 KiB | 00m00s [ 71/389] Installing libicu-devel-0:77. 100% | 135.2 MiB/s | 5.1 MiB | 00m00s [ 72/389] Installing libdbusmenu-devel- 100% | 120.5 MiB/s | 246.7 KiB | 00m00s [ 73/389] Installing libgusb-0:0.4.9-4. 100% | 179.3 MiB/s | 183.6 KiB | 00m00s [ 74/389] Installing colord-libs-0:1.4. 100% | 237.6 MiB/s | 973.1 KiB | 00m00s [ 75/389] Installing avahi-glib-0:0.9~r 100% | 66.8 MiB/s | 68.4 KiB | 00m00s [ 76/389] Installing libXau-devel-0:1.0 100% | 1.3 MiB/s | 9.4 KiB | 00m00s [ 77/389] Installing libxcb-devel-0:1.1 100% | 41.5 MiB/s | 3.1 MiB | 00m00s [ 78/389] Installing flac-libs-0:1.5.0- 100% | 167.5 MiB/s | 686.1 KiB | 00m00s [ 79/389] Installing libvorbis-1:1.3.7- 100% | 207.1 MiB/s | 848.2 KiB | 00m00s [ 80/389] Installing libseccomp-devel-0 100% | 8.6 MiB/s | 177.0 KiB | 00m00s [ 81/389] Installing libxmlb-0:0.3.24-1 100% | 15.9 MiB/s | 326.0 KiB | 00m00s [ 82/389] Installing libglvnd-opengl-1: 100% | 322.3 MiB/s | 330.0 KiB | 00m00s [ 83/389] Installing libssh-devel-0:0.1 100% | 88.2 MiB/s | 180.6 KiB | 00m00s [ 84/389] Installing libsoup3-0:3.6.5-8 100% | 117.8 MiB/s | 1.2 MiB | 00m00s [ 85/389] Installing libtinysparql-0:3. 100% | 284.3 MiB/s | 1.4 MiB | 00m00s [ 86/389] Installing cracklib-0:2.9.11- 100% | 18.4 MiB/s | 433.7 KiB | 00m00s [ 87/389] Installing libpwquality-0:1.4 100% | 25.3 MiB/s | 621.7 KiB | 00m00s [ 88/389] Installing gdbm-1:1.23-10.fc4 100% | 25.5 MiB/s | 548.8 KiB | 00m00s [ 89/389] Installing authselect-libs-0: 100% | 71.5 MiB/s | 951.5 KiB | 00m00s [ 90/389] Installing protobuf-c-0:1.5.1 100% | 38.7 MiB/s | 79.3 KiB | 00m00s [ 91/389] Installing hiredis-0:1.2.0-7. 100% | 198.8 MiB/s | 203.5 KiB | 00m00s [ 92/389] Installing google-noto-fonts- 100% | 18.1 MiB/s | 18.5 KiB | 00m00s [ 93/389] Installing google-noto-sans-v 100% | 231.9 MiB/s | 1.4 MiB | 00m00s [ 94/389] Installing default-fonts-core 100% | 8.9 MiB/s | 18.2 KiB | 00m00s [ 95/389] Installing fontconfig-0:2.17. 100% | 1.2 MiB/s | 1.2 MiB | 00m01s [ 96/389] Installing llvm-filesystem-0: 100% | 1.0 MiB/s | 1.1 KiB | 00m00s [ 97/389] Installing llvm-libs-0:21.1.2 100% | 326.3 MiB/s | 132.8 MiB | 00m00s [ 98/389] Installing gettext-common-dev 100% | 578.9 MiB/s | 592.8 KiB | 00m00s [ 99/389] Installing gettext-envsubst-0 100% | 5.6 MiB/s | 108.1 KiB | 00m00s [100/389] Installing gettext-runtime-0: 100% | 22.0 MiB/s | 517.5 KiB | 00m00s [101/389] Installing gettext-0:0.25.1-2 100% | 266.9 MiB/s | 13.6 MiB | 00m00s [102/389] Installing gettext-devel-0:0. 100% | 53.1 MiB/s | 1.3 MiB | 00m00s [103/389] Installing highway-0:1.2.0-5. 100% | 402.3 MiB/s | 4.4 MiB | 00m00s [104/389] Installing libjxl-1:0.11.1-6. 100% | 270.8 MiB/s | 2.4 MiB | 00m00s [105/389] Installing svt-av1-libs-0:3.1 100% | 284.8 MiB/s | 3.4 MiB | 00m00s [106/389] Installing rav1e-libs-0:0.7.1 100% | 285.9 MiB/s | 2.0 MiB | 00m00s [107/389] Installing openjpeg-0:2.5.4-1 100% | 202.3 MiB/s | 414.3 KiB | 00m00s [108/389] Installing noopenh264-0:2.6.0 100% | 94.5 MiB/s | 96.8 KiB | 00m00s [109/389] Installing libwebp-0:1.6.0-2. 100% | 200.6 MiB/s | 821.7 KiB | 00m00s [110/389] Installing libopenjph-0:0.22. 100% | 159.5 MiB/s | 326.7 KiB | 00m00s [111/389] Installing libjpeg-turbo-0:3. 100% | 241.6 MiB/s | 742.1 KiB | 00m00s [112/389] Installing libaom-0:3.13.1-1. 100% | 276.0 MiB/s | 3.9 MiB | 00m00s [113/389] Installing libheif-0:1.20.2-6 100% | 245.6 MiB/s | 1.5 MiB | 00m00s [114/389] Installing ncurses-0:6.5-7.20 100% | 40.0 MiB/s | 900.2 KiB | 00m00s [115/389] Installing spirv-tools-libs-0 100% | 312.7 MiB/s | 5.3 MiB | 00m00s [116/389] Installing lm_sensors-libs-0: 100% | 92.7 MiB/s | 95.0 KiB | 00m00s [117/389] Installing libxshmfence-0:1.3 100% | 7.6 MiB/s | 69.6 KiB | 00m00s >>> Running sysusers scriptlet: dbus-common-1:1.16.0-4.fc43.noarch >>> Finished sysusers scriptlet: dbus-common-1:1.16.0-4.fc43.noarch >>> Scriptlet output: >>> Creating group 'dbus' with GID 81. >>> Creating user 'dbus' (System Message Bus) with UID 81 and GID 81. >>> [118/389] Installing dbus-common-1:1.16 100% | 903.4 KiB/s | 13.6 KiB | 00m00s [119/389] Installing dbus-broker-0:37-2 100% | 14.3 MiB/s | 424.7 KiB | 00m00s [120/389] Installing dbus-1:1.16.0-4.fc 100% | 6.7 KiB/s | 124.0 B | 00m00s >>> Running sysusers scriptlet: systemd-0:258-1.fc43.aarch64 >>> Finished sysusers scriptlet: systemd-0:258-1.fc43.aarch64 >>> Scriptlet output: >>> Creating group 'systemd-journal' with GID 190. >>> >>> Running sysusers scriptlet: systemd-0:258-1.fc43.aarch64 >>> Finished sysusers scriptlet: systemd-0:258-1.fc43.aarch64 >>> Scriptlet output: >>> Creating group 'systemd-oom' with GID 999. >>> Creating user 'systemd-oom' (systemd Userspace OOM Killer) with UID 999 and >>> [121/389] Installing systemd-0:258-1.fc 100% | 73.1 MiB/s | 15.7 MiB | 00m00s [122/389] Installing systemd-pam-0:258- 100% | 247.2 MiB/s | 1.2 MiB | 00m00s [123/389] Installing device-mapper-0:1. 100% | 21.6 MiB/s | 442.2 KiB | 00m00s [124/389] Installing device-mapper-libs 100% | 145.7 MiB/s | 447.5 KiB | 00m00s [125/389] Installing cryptsetup-libs-0: 100% | 263.1 MiB/s | 2.6 MiB | 00m00s [126/389] Installing m4-0:1.4.20-2.fc43 100% | 36.8 MiB/s | 865.8 KiB | 00m00s [127/389] Installing cups-filesystem-1: 100% | 1.7 MiB/s | 1.8 KiB | 00m00s [128/389] Installing cups-libs-1:2.4.14 100% | 81.6 MiB/s | 668.3 KiB | 00m00s [129/389] Installing adwaita-icon-theme 100% | 43.4 MiB/s | 2.4 MiB | 00m00s [130/389] Installing adwaita-cursor-the 100% | 496.9 MiB/s | 11.4 MiB | 00m00s [131/389] Installing adwaita-icon-theme 100% | 50.6 MiB/s | 1.3 MiB | 00m00s [132/389] Installing xz-devel-1:5.8.1-2 100% | 85.5 MiB/s | 262.6 KiB | 00m00s [133/389] Installing libxml2-devel-0:2. 100% | 110.2 MiB/s | 3.4 MiB | 00m00s [134/389] Installing libxkbcommon-devel 100% | 188.1 MiB/s | 385.1 KiB | 00m00s [135/389] Installing lzo-minilzo-0:2.10 100% | 87.9 MiB/s | 90.0 KiB | 00m00s [136/389] Installing lzo-devel-0:2.10-1 100% | 105.1 MiB/s | 215.3 KiB | 00m00s [137/389] Installing bzip2-devel-0:1.0. 100% | 60.7 MiB/s | 310.7 KiB | 00m00s [138/389] Installing tzdata-0:2025b-3.f 100% | 32.6 MiB/s | 1.9 MiB | 00m00s [139/389] Installing python-pip-wheel-0 100% | 415.1 MiB/s | 1.2 MiB | 00m00s [140/389] Installing mpdecimal-0:4.0.1- 100% | 30.7 MiB/s | 282.7 KiB | 00m00s [141/389] Installing python3-libs-0:3.1 100% | 231.2 MiB/s | 45.3 MiB | 00m00s [142/389] Installing python3-0:3.14.0-1 100% | 4.5 MiB/s | 86.6 KiB | 00m00s [143/389] Installing cmake-rpm-macros-0 100% | 8.1 MiB/s | 8.3 KiB | 00m00s [144/389] Installing python3-packaging- 100% | 50.4 MiB/s | 619.9 KiB | 00m00s >>> Running sysusers scriptlet: unbound-libs-0:1.23.1-3.fc43.aarch64 >>> Finished sysusers scriptlet: unbound-libs-0:1.23.1-3.fc43.aarch64 >>> Scriptlet output: >>> Creating group 'unbound' with GID 998. >>> Creating user 'unbound' (Unbound DNS resolver) with UID 998 and GID 998. >>> [145/389] Installing unbound-libs-0:1.2 100% | 207.2 MiB/s | 1.5 MiB | 00m00s [146/389] Installing gnutls-dane-0:3.8. 100% | 68.1 MiB/s | 69.7 KiB | 00m00s [147/389] Installing wget2-libs-0:2.2.0 100% | 181.0 MiB/s | 370.8 KiB | 00m00s [148/389] Installing wget2-0:2.2.0-6.fc 100% | 42.5 MiB/s | 1.1 MiB | 00m00s [149/389] Installing bubblewrap-0:0.11. 100% | 6.7 MiB/s | 185.1 KiB | 00m00s [150/389] Installing groff-base-0:1.23. 100% | 89.3 MiB/s | 4.2 MiB | 00m00s [151/389] Installing perl-Digest-0:1.20 100% | 36.2 MiB/s | 37.1 KiB | 00m00s [152/389] Installing perl-Digest-MD5-0: 100% | 51.6 MiB/s | 105.6 KiB | 00m00s [153/389] Installing perl-FileHandle-0: 100% | 9.6 MiB/s | 9.8 KiB | 00m00s [154/389] Installing perl-B-0:1.89-520. 100% | 178.6 MiB/s | 548.7 KiB | 00m00s [155/389] Installing perl-libnet-0:3.15 100% | 95.9 MiB/s | 294.7 KiB | 00m00s [156/389] Installing perl-MIME-Base32-0 100% | 31.4 MiB/s | 32.2 KiB | 00m00s [157/389] Installing perl-Data-Dumper-0 100% | 67.2 MiB/s | 137.6 KiB | 00m00s [158/389] Installing perl-URI-0:5.34-1. 100% | 55.0 MiB/s | 281.8 KiB | 00m00s [159/389] Installing perl-AutoLoader-0: 100% | 20.5 MiB/s | 21.0 KiB | 00m00s [160/389] Installing perl-IO-Socket-IP- 100% | 99.8 MiB/s | 102.2 KiB | 00m00s [161/389] Installing perl-IO-Socket-SSL 100% | 175.4 MiB/s | 718.6 KiB | 00m00s [162/389] Installing perl-Net-SSLeay-0: 100% | 179.1 MiB/s | 1.4 MiB | 00m00s [163/389] Installing perl-if-0:0.61.000 100% | 6.1 MiB/s | 6.2 KiB | 00m00s [164/389] Installing perl-Text-Tabs+Wra 100% | 23.3 MiB/s | 23.9 KiB | 00m00s [165/389] Installing perl-Pod-Escapes-1 100% | 25.3 MiB/s | 25.9 KiB | 00m00s [166/389] Installing perl-Time-Local-2: 100% | 68.9 MiB/s | 70.6 KiB | 00m00s [167/389] Installing perl-File-Path-0:2 100% | 63.0 MiB/s | 64.5 KiB | 00m00s [168/389] Installing perl-locale-0:1.13 100% | 0.0 B/s | 6.5 KiB | 00m00s [169/389] Installing perl-HTTP-Tiny-0:0 100% | 76.4 MiB/s | 156.4 KiB | 00m00s [170/389] Installing perl-Pod-Simple-1: 100% | 140.3 MiB/s | 574.9 KiB | 00m00s [171/389] Installing perl-Term-Cap-0:1. 100% | 29.9 MiB/s | 30.6 KiB | 00m00s [172/389] Installing perl-Term-ANSIColo 100% | 48.4 MiB/s | 99.2 KiB | 00m00s [173/389] Installing perl-File-Temp-1:0 100% | 160.2 MiB/s | 164.1 KiB | 00m00s [174/389] Installing perl-Class-Struct- 100% | 25.3 MiB/s | 25.9 KiB | 00m00s [175/389] Installing perl-IPC-Open3-0:1 100% | 27.8 MiB/s | 28.5 KiB | 00m00s [176/389] Installing perl-POSIX-0:2.23- 100% | 129.2 MiB/s | 264.7 KiB | 00m00s [177/389] Installing perl-Pod-Perldoc-0 100% | 8.3 MiB/s | 169.2 KiB | 00m00s [178/389] Installing perl-podlators-1:6 100% | 15.7 MiB/s | 321.4 KiB | 00m00s [179/389] Installing perl-File-stat-0:1 100% | 12.8 MiB/s | 13.1 KiB | 00m00s [180/389] Installing perl-Socket-4:2.04 100% | 71.4 MiB/s | 146.3 KiB | 00m00s [181/389] Installing perl-SelectSaver-0 100% | 2.6 MiB/s | 2.6 KiB | 00m00s [182/389] Installing perl-Symbol-0:1.09 100% | 0.0 B/s | 7.3 KiB | 00m00s [183/389] Installing perl-Pod-Usage-4:2 100% | 4.8 MiB/s | 87.9 KiB | 00m00s [184/389] Installing perl-IO-0:1.55-520 100% | 95.6 MiB/s | 195.7 KiB | 00m00s [185/389] Installing perl-overloading-0 100% | 5.4 MiB/s | 5.6 KiB | 00m00s [186/389] Installing perl-mro-0:1.29-52 100% | 80.7 MiB/s | 82.7 KiB | 00m00s [187/389] Installing perl-Fcntl-0:1.20- 100% | 91.6 MiB/s | 93.8 KiB | 00m00s [188/389] Installing perl-base-0:2.27-5 100% | 0.0 B/s | 13.0 KiB | 00m00s [189/389] Installing perl-Text-ParseWor 100% | 14.2 MiB/s | 14.6 KiB | 00m00s [190/389] Installing perl-File-Basename 100% | 14.3 MiB/s | 14.6 KiB | 00m00s [191/389] Installing perl-Getopt-Long-1 100% | 71.9 MiB/s | 147.2 KiB | 00m00s [192/389] Installing perl-Storable-1:3. 100% | 119.5 MiB/s | 244.8 KiB | 00m00s [193/389] Installing perl-parent-1:0.24 100% | 10.7 MiB/s | 11.0 KiB | 00m00s [194/389] Installing perl-MIME-Base64-0 100% | 94.0 MiB/s | 96.3 KiB | 00m00s [195/389] Installing perl-Getopt-Std-0: 100% | 0.0 B/s | 11.8 KiB | 00m00s [196/389] Installing perl-overload-0:1. 100% | 70.3 MiB/s | 72.0 KiB | 00m00s [197/389] Installing perl-vars-0:1.05-5 100% | 0.0 B/s | 4.3 KiB | 00m00s [198/389] Installing perl-Scalar-List-U 100% | 76.5 MiB/s | 156.7 KiB | 00m00s [199/389] Installing perl-Errno-0:1.38- 100% | 0.0 B/s | 8.8 KiB | 00m00s [200/389] Installing perl-constant-0:1. 100% | 26.7 MiB/s | 27.4 KiB | 00m00s [201/389] Installing perl-Encode-4:3.21 100% | 142.4 MiB/s | 4.8 MiB | 00m00s [202/389] Installing perl-DynaLoader-0: 100% | 31.7 MiB/s | 32.5 KiB | 00m00s [203/389] Installing perl-PathTools-0:3 100% | 111.6 MiB/s | 228.6 KiB | 00m00s [204/389] Installing perl-Exporter-0:5. 100% | 54.3 MiB/s | 55.6 KiB | 00m00s [205/389] Installing perl-Carp-0:1.54-5 100% | 15.5 MiB/s | 47.7 KiB | 00m00s [206/389] Installing perl-libs-4:5.42.0 100% | 199.1 MiB/s | 11.7 MiB | 00m00s [207/389] Installing perl-interpreter-4 100% | 9.1 MiB/s | 176.3 KiB | 00m00s [208/389] Installing perl-threads-1:2.4 100% | 67.0 MiB/s | 137.1 KiB | 00m00s [209/389] Installing perl-threads-share 100% | 51.7 MiB/s | 105.9 KiB | 00m00s [210/389] Installing perl-Thread-Queue- 100% | 29.7 MiB/s | 30.4 KiB | 00m00s [211/389] Installing perl-TermReadKey-0 100% | 107.6 MiB/s | 110.2 KiB | 00m00s [212/389] Installing perl-lib-0:0.65-52 100% | 0.0 B/s | 8.9 KiB | 00m00s [213/389] Installing perl-Error-1:0.170 100% | 78.1 MiB/s | 80.0 KiB | 00m00s [214/389] Installing perl-File-Compare- 100% | 0.0 B/s | 6.2 KiB | 00m00s [215/389] Installing perl-File-Copy-0:2 100% | 0.0 B/s | 20.2 KiB | 00m00s [216/389] Installing perl-File-Find-0:1 100% | 41.5 MiB/s | 42.5 KiB | 00m00s [217/389] Installing autoconf-0:2.72-7. 100% | 100.1 MiB/s | 2.8 MiB | 00m00s [218/389] Installing automake-0:1.18.1- 100% | 68.0 MiB/s | 1.8 MiB | 00m00s [219/389] Installing libogg-devel-2:1.3 100% | 18.2 MiB/s | 18.7 KiB | 00m00s [220/389] Installing libcbor-0:0.12.0-6 100% | 136.0 MiB/s | 139.3 KiB | 00m00s [221/389] Installing libfido2-0:1.16.0- 100% | 136.8 MiB/s | 280.3 KiB | 00m00s [222/389] Installing mpg123-libs-0:1.32 100% | 184.8 MiB/s | 757.0 KiB | 00m00s [223/389] Installing lame-libs-0:3.100- 100% | 305.4 MiB/s | 1.2 MiB | 00m00s [224/389] Installing gsm-0:1.0.23-1.fc4 100% | 77.0 MiB/s | 78.8 KiB | 00m00s [225/389] Installing libsndfile-0:1.2.2 100% | 183.5 MiB/s | 563.6 KiB | 00m00s [226/389] Installing c-ares-0:1.34.5-2. 100% | 134.1 MiB/s | 274.7 KiB | 00m00s [227/389] Installing nodejs-libs-1:22.1 100% | 337.4 MiB/s | 74.2 MiB | 00m00s [228/389] Installing nodejs-1:22.19.0-2 100% | 10.4 MiB/s | 202.7 KiB | 00m00s [229/389] Installing hwdata-0:0.399-1.f 100% | 399.8 MiB/s | 9.6 MiB | 00m00s [230/389] Installing libpciaccess-0:0.1 100% | 72.2 MiB/s | 74.0 KiB | 00m00s [231/389] Installing libdrm-0:2.4.125-2 100% | 187.7 MiB/s | 769.0 KiB | 00m00s [232/389] Installing mesa-dri-drivers-0 100% | 306.5 MiB/s | 35.6 MiB | 00m00s [233/389] Installing mesa-libgbm-0:25.2 100% | 67.0 MiB/s | 68.6 KiB | 00m00s [234/389] Installing mesa-libEGL-0:25.2 100% | 161.7 MiB/s | 331.2 KiB | 00m00s [235/389] Installing libglvnd-egl-1:1.7 100% | 68.8 MiB/s | 70.4 KiB | 00m00s [236/389] Installing libglvnd-gles-1:1. 100% | 193.2 MiB/s | 395.6 KiB | 00m00s [237/389] Installing libpciaccess-devel 100% | 15.5 MiB/s | 15.9 KiB | 00m00s [238/389] Installing libdrm-devel-0:2.4 100% | 109.8 MiB/s | 787.3 KiB | 00m00s [239/389] Installing hicolor-icon-theme 100% | 12.5 MiB/s | 179.7 KiB | 00m00s [240/389] Installing pcre2-utf32-0:10.4 100% | 189.7 MiB/s | 582.9 KiB | 00m00s [241/389] Installing pcre2-utf16-0:10.4 100% | 142.3 MiB/s | 583.0 KiB | 00m00s [242/389] Installing pcre2-devel-0:10.4 100% | 69.8 MiB/s | 2.1 MiB | 00m00s [243/389] Installing libsepol-devel-0:3 100% | 41.9 MiB/s | 128.9 KiB | 00m00s [244/389] Installing libselinux-devel-0 100% | 22.6 MiB/s | 162.1 KiB | 00m00s [245/389] Installing libblkid-devel-0:2 100% | 44.9 MiB/s | 46.0 KiB | 00m00s [246/389] Installing libmount-devel-0:2 100% | 65.0 MiB/s | 66.5 KiB | 00m00s [247/389] Installing openssh-0:10.0p1-5 100% | 60.5 MiB/s | 1.4 MiB | 00m00s [248/389] Installing openssh-clients-0: 100% | 58.6 MiB/s | 2.7 MiB | 00m00s [249/389] Installing libfontenc-0:1.1.8 100% | 52.8 MiB/s | 108.1 KiB | 00m00s [250/389] Installing libXfont2-0:2.0.7- 100% | 87.9 MiB/s | 360.1 KiB | 00m00s [251/389] Installing kbd-misc-0:2.8.0-3 100% | 90.0 MiB/s | 2.6 MiB | 00m00s [252/389] Installing kbd-legacy-0:2.8.0 100% | 50.6 MiB/s | 621.4 KiB | 00m00s [253/389] Installing kbd-0:2.8.0-3.fc43 100% | 82.4 MiB/s | 2.4 MiB | 00m00s [254/389] Installing libasyncns-0:0.8-3 100% | 98.3 MiB/s | 100.7 KiB | 00m00s [255/389] Installing pulseaudio-libs-0: 100% | 245.5 MiB/s | 3.4 MiB | 00m00s [256/389] Installing pulseaudio-libs-gl 100% | 66.9 MiB/s | 68.5 KiB | 00m00s [257/389] Installing libatomic-0:15.2.1 100% | 68.0 MiB/s | 69.6 KiB | 00m00s [258/389] Installing numactl-libs-0:2.0 100% | 68.2 MiB/s | 69.9 KiB | 00m00s [259/389] Installing libglvnd-core-deve 100% | 40.1 MiB/s | 41.1 KiB | 00m00s [260/389] Installing libwayland-server- 100% | 132.6 MiB/s | 135.8 KiB | 00m00s [261/389] Installing wayland-devel-0:1. 100% | 32.0 MiB/s | 720.4 KiB | 00m00s [262/389] Installing publicsuffix-list- 100% | 163.0 MiB/s | 333.8 KiB | 00m00s [263/389] Installing libpsl-devel-0:0.2 100% | 55.4 MiB/s | 113.5 KiB | 00m00s [264/389] Installing libverto-devel-0:0 100% | 25.7 MiB/s | 26.4 KiB | 00m00s [265/389] Installing libkadm5-0:1.21.3- 100% | 130.9 MiB/s | 268.1 KiB | 00m00s [266/389] Installing libcom_err-devel-0 100% | 961.8 KiB/s | 18.3 KiB | 00m00s [267/389] Installing keyutils-libs-deve 100% | 27.0 MiB/s | 55.2 KiB | 00m00s [268/389] Installing krb5-devel-0:1.21. 100% | 31.7 MiB/s | 715.2 KiB | 00m00s [269/389] Installing brotli-0:1.1.0-10. 100% | 3.5 MiB/s | 68.3 KiB | 00m00s [270/389] Installing brotli-devel-0:1.1 100% | 66.4 MiB/s | 68.0 KiB | 00m00s [271/389] Installing sysprof-capture-de 100% | 188.1 MiB/s | 770.3 KiB | 00m00s [272/389] Installing glib2-devel-0:2.86 100% | 250.5 MiB/s | 16.0 MiB | 00m00s [273/389] Installing libX11-common-0:1. 100% | 91.4 MiB/s | 1.2 MiB | 00m00s [274/389] Installing libX11-0:1.8.12-1. 100% | 182.9 MiB/s | 1.3 MiB | 00m00s [275/389] Installing libX11-devel-0:1.8 100% | 43.1 MiB/s | 1.1 MiB | 00m00s [276/389] Installing libXext-0:1.3.6-4. 100% | 143.7 MiB/s | 147.1 KiB | 00m00s [277/389] Installing libXext-devel-0:1. 100% | 27.1 MiB/s | 110.9 KiB | 00m00s [278/389] Installing libXrender-0:0.9.1 100% | 69.6 MiB/s | 71.3 KiB | 00m00s [279/389] Installing cairo-0:1.18.4-2.f 100% | 254.8 MiB/s | 1.8 MiB | 00m00s [280/389] Installing libXrender-devel-0 100% | 49.8 MiB/s | 51.0 KiB | 00m00s [281/389] Installing libXfixes-0:6.0.1- 100% | 70.0 MiB/s | 71.6 KiB | 00m00s [282/389] Installing libXfixes-devel-0: 100% | 9.7 MiB/s | 9.9 KiB | 00m00s [283/389] Installing cairo-gobject-0:1. 100% | 66.4 MiB/s | 68.0 KiB | 00m00s [284/389] Installing libXi-0:1.8.2-3.fc 100% | 71.9 MiB/s | 73.6 KiB | 00m00s [285/389] Installing libXi-devel-0:1.8. 100% | 47.1 MiB/s | 144.6 KiB | 00m00s [286/389] Installing libXtst-0:1.2.5-3. 100% | 72.8 MiB/s | 74.6 KiB | 00m00s [287/389] Installing libXcursor-0:1.2.3 100% | 69.5 MiB/s | 71.2 KiB | 00m00s [288/389] Installing libXdamage-0:1.1.6 100% | 95.0 MiB/s | 97.2 KiB | 00m00s [289/389] Installing libXrandr-0:1.5.4- 100% | 71.2 MiB/s | 72.9 KiB | 00m00s [290/389] Installing libXft-0:2.3.8-9.f 100% | 94.7 MiB/s | 193.9 KiB | 00m00s [291/389] Installing pango-0:1.57.0-1.f 100% | 50.6 MiB/s | 1.2 MiB | 00m00s [292/389] Installing libXinerama-0:1.1. 100% | 70.4 MiB/s | 72.1 KiB | 00m00s [293/389] Installing libXcomposite-0:0. 100% | 95.8 MiB/s | 98.1 KiB | 00m00s [294/389] Installing libXcomposite-deve 100% | 10.3 MiB/s | 10.5 KiB | 00m00s [295/389] Installing libXinerama-devel- 100% | 8.3 MiB/s | 8.5 KiB | 00m00s [296/389] Installing librsvg2-0:2.61.0- 100% | 287.6 MiB/s | 4.6 MiB | 00m00s [297/389] Installing glycin-loaders-0:2 100% | 372.2 MiB/s | 11.9 MiB | 00m00s [298/389] Installing glycin-libs-0:2.0. 100% | 295.2 MiB/s | 4.1 MiB | 00m00s [299/389] Installing gdk-pixbuf2-0:2.44 100% | 78.4 MiB/s | 2.6 MiB | 00m00s [300/389] Installing libnotify-0:0.8.7- 100% | 9.1 MiB/s | 186.1 KiB | 00m00s [301/389] Installing gtk-update-icon-ca 100% | 4.9 MiB/s | 95.2 KiB | 00m00s [302/389] Installing libXrandr-devel-0: 100% | 24.1 MiB/s | 24.7 KiB | 00m00s [303/389] Installing libXdamage-devel-0 100% | 3.0 MiB/s | 3.1 KiB | 00m00s [304/389] Installing libXcursor-devel-0 100% | 10.7 MiB/s | 32.8 KiB | 00m00s [305/389] Installing libXtst-devel-0:1. 100% | 13.7 MiB/s | 14.0 KiB | 00m00s [306/389] Installing harfbuzz-cairo-0:1 100% | 13.5 MiB/s | 69.0 KiB | 00m00s [307/389] Installing cairo-devel-0:1.18 100% | 286.4 MiB/s | 2.3 MiB | 00m00s [308/389] Installing harfbuzz-devel-0:1 100% | 149.3 MiB/s | 5.4 MiB | 00m00s [309/389] Installing freetype-devel-0:2 100% | 189.8 MiB/s | 8.5 MiB | 00m00s [310/389] Installing fontconfig-devel-0 100% | 19.5 MiB/s | 159.4 KiB | 00m00s [311/389] Installing cairo-gobject-deve 100% | 7.4 MiB/s | 7.6 KiB | 00m00s [312/389] Installing glycin-devel-0:2.0 100% | 62.1 MiB/s | 127.1 KiB | 00m00s [313/389] Installing gdk-pixbuf2-devel- 100% | 80.3 MiB/s | 2.4 MiB | 00m00s [314/389] Installing libXft-devel-0:2.3 100% | 14.4 MiB/s | 44.3 KiB | 00m00s [315/389] Installing pango-devel-0:1.57 100% | 304.7 MiB/s | 1.5 MiB | 00m00s [316/389] Installing libXxf86vm-0:1.1.6 100% | 68.9 MiB/s | 70.5 KiB | 00m00s [317/389] Installing mesa-libGL-0:25.2. 100% | 163.5 MiB/s | 334.9 KiB | 00m00s [318/389] Installing libglvnd-glx-1:1.7 100% | 340.7 MiB/s | 1.0 MiB | 00m00s [319/389] Installing libglvnd-devel-1:1 100% | 353.4 MiB/s | 2.1 MiB | 00m00s [320/389] Installing libepoxy-devel-0:1 100% | 397.4 MiB/s | 1.6 MiB | 00m00s [321/389] Installing libva-0:2.22.0-6.f 100% | 182.8 MiB/s | 561.6 KiB | 00m00s [322/389] Installing libxkbfile-0:1.1.3 100% | 237.4 MiB/s | 243.1 KiB | 00m00s [323/389] Installing xkbcomp-0:1.4.7-4. 100% | 10.8 MiB/s | 210.0 KiB | 00m00s [324/389] Installing xorg-x11-server-co 100% | 124.9 MiB/s | 127.9 KiB | 00m00s [325/389] Installing libXt-0:1.3.1-3.fc 100% | 233.7 MiB/s | 478.7 KiB | 00m00s [326/389] Installing libXmu-0:1.2.1-4.f 100% | 129.5 MiB/s | 265.3 KiB | 00m00s [327/389] Installing xorg-x11-xauth-1:1 100% | 4.2 MiB/s | 77.2 KiB | 00m00s [328/389] Installing xprop-0:1.2.8-4.fc 100% | 4.1 MiB/s | 80.0 KiB | 00m00s [329/389] Installing at-spi2-core-0:2.5 100% | 118.9 MiB/s | 1.7 MiB | 00m00s [330/389] Installing atk-0:2.58.1-1.fc4 100% | 97.1 MiB/s | 298.2 KiB | 00m00s [331/389] Installing atk-devel-0:2.58.1 100% | 215.5 MiB/s | 6.0 MiB | 00m00s [332/389] Installing at-spi2-atk-0:2.58 100% | 117.6 MiB/s | 361.3 KiB | 00m00s [333/389] Installing gtk3-0:3.24.51-2.f 100% | 234.5 MiB/s | 23.0 MiB | 00m00s [334/389] Installing libayatana-ido-gtk 100% | 149.0 MiB/s | 305.1 KiB | 00m00s [335/389] Installing libayatana-indicat 100% | 84.6 MiB/s | 173.3 KiB | 00m00s [336/389] Installing libdbusmenu-gtk3-0 100% | 134.4 MiB/s | 137.6 KiB | 00m00s [337/389] Installing libayatana-appindi 100% | 73.0 MiB/s | 149.5 KiB | 00m00s [338/389] Installing less-0:679-2.fc43. 100% | 25.9 MiB/s | 557.3 KiB | 00m00s [339/389] Installing git-core-0:2.51.0- 100% | 263.1 MiB/s | 23.4 MiB | 00m00s [340/389] Installing git-core-doc-0:2.5 100% | 238.5 MiB/s | 17.9 MiB | 00m00s [341/389] Installing git-0:2.51.0-2.fc4 100% | 56.4 MiB/s | 57.7 KiB | 00m00s [342/389] Installing perl-Git-0:2.51.0- 100% | 63.8 MiB/s | 65.4 KiB | 00m00s [343/389] Installing vim-filesystem-2:9 100% | 4.6 MiB/s | 4.7 KiB | 00m00s [344/389] Installing libunwind-0:1.8.1- 100% | 173.4 MiB/s | 355.0 KiB | 00m00s [345/389] Installing libXdmcp-0:1.1.5-4 100% | 120.9 MiB/s | 123.8 KiB | 00m00s [346/389] Installing kmod-libs-0:34.2-2 100% | 156.4 MiB/s | 160.1 KiB | 00m00s [347/389] Installing kmod-0:34.2-2.fc43 100% | 12.9 MiB/s | 277.0 KiB | 00m00s [348/389] Installing miniupnpc-0:2.3.3- 100% | 11.9 MiB/s | 230.6 KiB | 00m00s [349/389] Installing libevdev-0:1.13.4- 100% | 132.0 MiB/s | 135.2 KiB | 00m00s [350/389] Installing libnghttp2-devel-0 100% | 280.7 MiB/s | 287.4 KiB | 00m00s [351/389] Installing libidn2-devel-0:2. 100% | 30.6 MiB/s | 156.7 KiB | 00m00s [352/389] Installing libstdc++-devel-0: 100% | 358.4 MiB/s | 36.6 MiB | 00m00s [353/389] Installing rhash-0:1.4.5-3.fc 100% | 18.6 MiB/s | 400.1 KiB | 00m00s [354/389] Installing jsoncpp-0:1.9.6-2. 100% | 133.5 MiB/s | 273.3 KiB | 00m00s [355/389] Installing cmake-0:3.31.6-4.f 100% | 253.6 MiB/s | 29.7 MiB | 00m00s [356/389] Installing cmake-data-0:3.31. 100% | 70.3 MiB/s | 9.1 MiB | 00m00s [357/389] Installing libfyaml-0:0.8-8.f 100% | 17.4 MiB/s | 571.0 KiB | 00m00s [358/389] Installing openssl-devel-1:3. 100% | 46.2 MiB/s | 5.6 MiB | 00m00s [359/389] Installing libcap-devel-0:2.7 100% | 9.7 MiB/s | 49.8 KiB | 00m00s [360/389] Installing systemd-devel-0:25 100% | 28.1 MiB/s | 748.9 KiB | 00m00s [361/389] Installing dbus-devel-1:1.16. 100% | 44.4 MiB/s | 136.5 KiB | 00m00s [362/389] Installing at-spi2-core-devel 100% | 217.7 MiB/s | 4.4 MiB | 00m00s [363/389] Installing at-spi2-atk-devel- 100% | 1.0 MiB/s | 2.1 KiB | 00m00s [364/389] Installing gtk3-devel-0:3.24. 100% | 303.5 MiB/s | 34.6 MiB | 00m00s [365/389] Installing libayatana-ido-gtk 100% | 58.1 MiB/s | 119.0 KiB | 00m00s [366/389] Installing libayatana-indicat 100% | 26.0 MiB/s | 26.7 KiB | 00m00s [367/389] Installing libayatana-appindi 100% | 65.6 MiB/s | 268.9 KiB | 00m00s [368/389] Installing libcurl-devel-0:8. 100% | 34.6 MiB/s | 1.4 MiB | 00m00s [369/389] Installing appstream-0:1.1.0- 100% | 119.5 MiB/s | 4.4 MiB | 00m00s [370/389] Installing gcc14-c++-0:14.3.1 100% | 337.7 MiB/s | 120.2 MiB | 00m00s [371/389] Installing libevdev-devel-0:1 100% | 94.6 MiB/s | 96.9 KiB | 00m00s [372/389] Installing miniupnpc-devel-0: 100% | 3.2 MiB/s | 61.6 KiB | 00m00s >>> Running sysusers scriptlet: systemd-udev-0:258-1.fc43.aarch64 >>> Finished sysusers scriptlet: systemd-udev-0:258-1.fc43.aarch64 >>> Scriptlet output: >>> Creating group 'systemd-coredump' with GID 997. >>> Creating user 'systemd-coredump' (systemd Core Dumper) with UID 997 and GID >>> >>> Running sysusers scriptlet: systemd-udev-0:258-1.fc43.aarch64 >>> Finished sysusers scriptlet: systemd-udev-0:258-1.fc43.aarch64 >>> Scriptlet output: >>> Creating group 'systemd-timesync' with GID 996. >>> Creating user 'systemd-timesync' (systemd Time Synchronization) with UID 996 >>> [373/389] Installing systemd-udev-0:258 100% | 28.4 MiB/s | 14.4 MiB | 00m01s >>> Running %post scriptlet: systemd-udev-0:258-1.fc43.aarch64 >>> Finished %post scriptlet: systemd-udev-0:258-1.fc43.aarch64 >>> Scriptlet output: >>> Failed to preset unit: Unit system-systemdx2dcryptsetup.slice does not exist >>> [374/389] Installing xorg-x11-server-Xv 100% | 70.7 MiB/s | 1.8 MiB | 00m00s [375/389] Installing libva-devel-0:2.22 100% | 229.0 MiB/s | 703.6 KiB | 00m00s [376/389] Installing mesa-libGL-devel-0 100% | 79.6 MiB/s | 81.5 KiB | 00m00s [377/389] Installing libnotify-devel-0: 100% | 137.5 MiB/s | 563.3 KiB | 00m00s [378/389] Installing libappstream-glib- 100% | 55.2 MiB/s | 1.5 MiB | 00m00s [379/389] Installing pulseaudio-libs-de 100% | 254.7 MiB/s | 4.8 MiB | 00m00s [380/389] Installing numactl-devel-0:2. 100% | 27.0 MiB/s | 27.7 KiB | 00m00s [381/389] Installing mesa-libgbm-devel- 100% | 4.3 MiB/s | 30.8 KiB | 00m00s [382/389] Installing nodejs-npm-1:10.9. 100% | 64.3 MiB/s | 9.6 MiB | 00m00s [383/389] Installing opus-devel-0:1.5.2 100% | 241.9 MiB/s | 2.7 MiB | 00m00s [384/389] Installing wget2-wget-0:2.2.0 100% | 22.8 KiB/s | 444.0 B | 00m00s [385/389] Installing authselect-0:1.6.2 100% | 10.3 MiB/s | 232.1 KiB | 00m00s [386/389] Installing pam-0:1.7.1-3.fc43 100% | 108.5 MiB/s | 4.2 MiB | 00m00s [387/389] Installing desktop-file-utils 100% | 15.7 MiB/s | 322.1 KiB | 00m00s [388/389] Installing libgudev-0:238-8.f 100% | 51.4 MiB/s | 105.3 KiB | 00m00s [389/389] Installing systemd-rpm-macros 100% | 8.2 KiB/s | 8.9 KiB | 00m01s Complete! Finish: build setup for Sunshine-0.0.4353-1.fc43.src.rpm Start: rpmbuild Sunshine-0.0.4353-1.fc43.src.rpm Building target platforms: aarch64 Building for target aarch64 warning: %source_date_epoch_from_changelog is set, but %changelog has no entries to take a date from Executing(%mkbuilddir): /bin/sh -e /var/tmp/rpm-tmp.qmbbO0 Executing(%prep): /bin/sh -e /var/tmp/rpm-tmp.JAoawq + umask 022 + cd /builddir/build/BUILD/Sunshine-0.0.4353-build + mkdir -p /builddir/build/BUILD/Sunshine-0.0.4353-build/Sunshine + tar -xzf /builddir/build/SOURCES/tarball.tar.gz -C /builddir/build/BUILD/Sunshine-0.0.4353-build/Sunshine + ls -a /builddir/build/BUILD/Sunshine-0.0.4353-build/Sunshine . .. .clang-format .dockerignore .flake8 .git .gitattributes .github .gitignore .gitmodules .prettierrc.json .readthedocs.yaml .rstcheck.cfg CMakeLists.txt DOCKER_README.md LICENSE NOTICE README.md cmake codecov.yml crowdin.yml docker docs gh-pages-template package.json packaging scripts src src_assets sunshine.icns sunshine.ico sunshine.png sunshine.svg tests third-party tools vite.config.js + RPM_EC=0 ++ jobs -p + exit 0 Executing(%build): /bin/sh -e /var/tmp/rpm-tmp.4YQ3LV + umask 022 + cd /builddir/build/BUILD/Sunshine-0.0.4353-build + CFLAGS='-O2 -flto=auto -ffat-lto-objects -fexceptions -g -grecord-gcc-switches -pipe -Wall -Werror=format-security -Wp,-U_FORTIFY_SOURCE,-D_FORTIFY_SOURCE=3 -Wp,-D_GLIBCXX_ASSERTIONS -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -mbranch-protection=standard -fasynchronous-unwind-tables -fstack-clash-protection -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer ' + export CFLAGS + CXXFLAGS='-O2 -flto=auto -ffat-lto-objects -fexceptions -g -grecord-gcc-switches -pipe -Wall -Werror=format-security -Wp,-U_FORTIFY_SOURCE,-D_FORTIFY_SOURCE=3 -Wp,-D_GLIBCXX_ASSERTIONS -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -mbranch-protection=standard -fasynchronous-unwind-tables -fstack-clash-protection -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer ' + export CXXFLAGS + FFLAGS='-O2 -flto=auto -ffat-lto-objects -fexceptions -g -grecord-gcc-switches -pipe -Wall -Wp,-U_FORTIFY_SOURCE,-D_FORTIFY_SOURCE=3 -Wp,-D_GLIBCXX_ASSERTIONS -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -mbranch-protection=standard -fasynchronous-unwind-tables -fstack-clash-protection -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -I/usr/lib64/gfortran/modules ' + export FFLAGS + FCFLAGS='-O2 -flto=auto -ffat-lto-objects -fexceptions -g -grecord-gcc-switches -pipe -Wall -Wp,-U_FORTIFY_SOURCE,-D_FORTIFY_SOURCE=3 -Wp,-D_GLIBCXX_ASSERTIONS -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -mbranch-protection=standard -fasynchronous-unwind-tables -fstack-clash-protection -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -I/usr/lib64/gfortran/modules ' + export FCFLAGS + VALAFLAGS=-g + export VALAFLAGS + RUSTFLAGS='-Copt-level=3 -Cdebuginfo=2 -Ccodegen-units=1 -Cstrip=none -Cforce-frame-pointers=yes -Clink-arg=-specs=/usr/lib/rpm/redhat/redhat-package-notes --cap-lints=warn' + export RUSTFLAGS + LDFLAGS='-Wl,-z,relro -Wl,--as-needed -Wl,-z,pack-relative-relocs -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -Wl,--build-id=sha1 -specs=/usr/lib/rpm/redhat/redhat-package-notes ' + export LDFLAGS + LT_SYS_LIBRARY_PATH=/usr/lib64: + export LT_SYS_LIBRARY_PATH + CC=gcc + export CC + CXX=g++ + export CXX + set -e ++ uname -m + architecture=aarch64 + cuda_supported_architectures=("x86_64" "aarch64") + cmake_args=("-B=/builddir/build/BUILD/Sunshine-0.0.4353-build/Sunshine/build" "-G=Unix Makefiles" "-S=." "-DBUILD_DOCS=OFF" "-DBUILD_WERROR=ON" "-DCMAKE_BUILD_TYPE=Release" "-DCMAKE_INSTALL_PREFIX=/usr" "-DSUNSHINE_ASSETS_DIR=/usr/share/sunshine" "-DSUNSHINE_EXECUTABLE_PATH=/usr/bin/sunshine" "-DSUNSHINE_ENABLE_WAYLAND=ON" "-DSUNSHINE_ENABLE_X11=ON" "-DSUNSHINE_ENABLE_DRM=ON" "-DSUNSHINE_PUBLISHER_NAME=LizardByte" "-DSUNSHINE_PUBLISHER_WEBSITE=https://app.lizardbyte.dev" "-DSUNSHINE_PUBLISHER_ISSUE_URL=https://app.lizardbyte.dev/support") + export CC=gcc-14 + CC=gcc-14 + export CXX=g++-14 + CXX=g++-14 + '[' -n 12.9.1 ']' + [[ x86_64 aarch64 =~ aarch64 ]] + install_cuda + '[' -f /builddir/build/BUILD/Sunshine-0.0.4353-build/cuda/bin/nvcc ']' + local cuda_prefix=https://developer.download.nvidia.com/compute/cuda/ + local cuda_suffix= + '[' aarch64 == aarch64 ']' + local cuda_suffix=_sbsa + local url=https://developer.download.nvidia.com/compute/cuda/12.9.1/local_installers/cuda_12.9.1_575.57.08_linux_sbsa.run cuda url: https://developer.download.nvidia.com/compute/cuda/12.9.1/local_installers/cuda_12.9.1_575.57.08_linux_sbsa.run + echo 'cuda url: https://developer.download.nvidia.com/compute/cuda/12.9.1/local_installers/cuda_12.9.1_575.57.08_linux_sbsa.run' + wget https://developer.download.nvidia.com/compute/cuda/12.9.1/local_installers/cuda_12.9.1_575.57.08_linux_sbsa.run --progress=bar:force:noscroll --retry-connrefused --tries=3 -q -O /builddir/build/BUILD/Sunshine-0.0.4353-build/cuda.run 7[Files: 0 Bytes: 0 []87[https://developer.dow]87Saving '/builddir/build/BUILD/Sunshine-0.0.4353-build/cuda.run' 87/builddir/build/BUIL 4% [> ] 204.00M --.-KB/s87[Files: 0 Bytes: 0 []87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 9% [> ] 457.84M 253.58MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 9% [=> ] 481.26M 138.56MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 16% [==> ] 797.31M 197.70MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 19% [===> ] 961.62M 189.35MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 22% [===> ] 1.06G 176.86MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 23% [====> ] 1.13G 159.49MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 26% [====> ] 1.24G 152.79MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 28% [=====> ] 1.36G 148.76MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 29% [=====> ] 1.39G 136.43MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 32% [=====> ] 1.53G 137.13MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 33% [=====> ] 1.55G 126.70MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 34% [======> ] 1.63G 122.77MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 35% [======> ] 1.67G 116.12MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 36% [======> ] 1.71G 110.73MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 36% [======> ] 1.73G 104.83MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 37% [======> ] 1.75G 99.67MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 37% [======> ] 1.77G 95.10MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 38% [======> ] 1.79G 91.03MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 38% [=======> ] 1.82G 87.42MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 39% [=======> ] 1.84G 84.16MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 39% [=======> ] 1.86G 81.20MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 39% [=======> ] 1.88G 78.52MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 40% [=======> ] 1.90G 76.06MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 40% [=======> ] 1.92G 65.89MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 41% [=======> ] 1.94G 65.77MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 41% [=======> ] 1.96G 53.00MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 42% [=======> ] 1.98G 46.78MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 42% [========> ] 2.02G 43.02MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 43% [========> ] 2.05G 40.84MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 45% [========> ] 2.14G 40.30MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 46% [========> ] 2.17G 36.39MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 49% [=========> ] 2.32G 41.42MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 51% [=========> ] 2.42G 39.52MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 53% [==========> ] 2.53G 43.22MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 58% [===========> ] 2.75G 49.67MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 61% [===========> ] 2.88G 54.02MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 62% [============> ] 2.97G 56.11MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 65% [============> ] 3.08G 59.91MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 66% [============> ] 3.13G 61.59MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 72% [==============> ] 3.41G 72.67MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 74% [==============> ] 3.50G 75.79MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 76% [===============> ] 3.61G 80.02MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 78% [===============> ] 3.68G 82.18MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 79% [===============> ] 3.76G 84.44MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 85% [================> ] 4.04G 96.04MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 86% [=================> ] 4.10G 97.76MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 88% [=================> ] 4.18G 100.59MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 91% [==================> ] 4.34G 106.84MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 94% [==================> ] 4.46G 111.23MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 97% [===================> ] 4.59G 115.97MB/s87[Files: 0 Bytes: 0 []87/builddir/build/BUIL 99% [===================> ] 4.71G 119.74MB/s87/builddir/build/BUIL 100% [====================>] 4.72G 124.08MB/s87HTTP response 200 [https://developer.download.nvidia.com/compute/cuda/12.9.1/local_installers/cuda_12.9.1_575.57.08_linux_sbsa.run] 87/builddir/build/BUIL 100% [====================>] 4.72G 124.08MB/s87[Files: 1 Bytes: 4.72]8+ chmod a+x /builddir/build/BUILD/Sunshine-0.0.4353-build/cuda.run + /builddir/build/BUILD/Sunshine-0.0.4353-build/cuda.run --no-drm --no-man-page --no-opengl-libs --override --silent --toolkit --toolkitpath=/builddir/build/BUILD/Sunshine-0.0.4353-build/cuda + rm /builddir/build/BUILD/Sunshine-0.0.4353-build/cuda.run + '[' 43 -ge 42 ']' Original math_functions.h: + echo 'Original math_functions.h:' + find /builddir/build/BUILD/Sunshine-0.0.4353-build/cuda -name math_functions.h -exec cat '{}' ';' /* * Copyright 1993-2024 NVIDIA Corporation. All rights reserved. * * NOTICE TO LICENSEE: * * This source code and/or documentation ("Licensed Deliverables") are * subject to NVIDIA intellectual property rights under U.S. and * international Copyright laws. * * These Licensed Deliverables contained herein is PROPRIETARY and * CONFIDENTIAL to NVIDIA and is being provided under the terms and * conditions of a form of NVIDIA software license agreement by and * between NVIDIA and Licensee ("License Agreement") or electronically * accepted by Licensee. Notwithstanding any terms or conditions to * the contrary in the License Agreement, reproduction or disclosure * of the Licensed Deliverables to any third party without the express * written consent of NVIDIA is prohibited. * * NOTWITHSTANDING ANY TERMS OR CONDITIONS TO THE CONTRARY IN THE * LICENSE AGREEMENT, NVIDIA MAKES NO REPRESENTATION ABOUT THE * SUITABILITY OF THESE LICENSED DELIVERABLES FOR ANY PURPOSE. IT IS * PROVIDED "AS IS" WITHOUT EXPRESS OR IMPLIED WARRANTY OF ANY KIND. * NVIDIA DISCLAIMS ALL WARRANTIES WITH REGARD TO THESE LICENSED * DELIVERABLES, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY, * NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE. * NOTWITHSTANDING ANY TERMS OR CONDITIONS TO THE CONTRARY IN THE * LICENSE AGREEMENT, IN NO EVENT SHALL NVIDIA BE LIABLE FOR ANY * SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, OR ANY * DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE * OF THESE LICENSED DELIVERABLES. * * U.S. Government End Users. These Licensed Deliverables are a * "commercial item" as that term is defined at 48 C.F.R. 2.101 (OCT * 1995), consisting of "commercial computer software" and "commercial * computer software documentation" as such terms are used in 48 * C.F.R. 12.212 (SEPT 1995) and is provided to the U.S. Government * only as a commercial end item. Consistent with 48 C.F.R.12.212 and * 48 C.F.R. 227.7202-1 through 227.7202-4 (JUNE 1995), all * U.S. Government End Users acquire the Licensed Deliverables with * only those rights set forth herein. * * Any use of the Licensed Deliverables in individual and commercial * software must include, in the user documentation and internal * comments to the code, the above Disclaimer and U.S. Government End * Users Notice. */ #if !defined(__CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__) #if defined(_MSC_VER) #pragma message("crt/math_functions.h is an internal header file and must not be used directly. Please use cuda_runtime_api.h or cuda_runtime.h instead.") #else #warning "crt/math_functions.h is an internal header file and must not be used directly. Please use cuda_runtime_api.h or cuda_runtime.h instead." #endif #define __CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__ #define __UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_MATH_FUNCTIONS_H__ #endif #if !defined(__MATH_FUNCTIONS_H__) #define __MATH_FUNCTIONS_H__ #if defined(__QNX__) && (__GNUC__ >= 5) && defined(__CUDACC__) #if __has_include(<__config>) #include <__config> #endif #endif /** * \defgroup CUDA_MATH Mathematical Functions * * CUDA mathematical functions are always available in device code. * * Host implementations of the common mathematical functions are mapped * in a platform-specific way to standard math library functions, provided * by the host compiler and respective host libm where available. * Some functions, not available with the host compilers, are implemented * in crt/math_functions.hpp header file. * For example, see ::erfinv(). Other, less common functions, * like ::rhypot(), ::cyl_bessel_i0() are only available in device code. * * CUDA Math device functions are no-throw for well-formed CUDA programs. * * Note that many floating-point and integer functions names are * overloaded for different argument types. For example, the ::log() * function has the following prototypes: * \code * double log(double x); * float log(float x); * float logf(float x); * \endcode * * Note also that due to implementation constraints, certain math functions * from std:: namespace may be callable in device code even via explicitly * qualified std:: names. However, such use is discouraged, since this * capability is unsupported, unverified, undocumented, not portable, and * may change without notice. */ /******************************************************************************* * * * * * * *******************************************************************************/ #if defined(__cplusplus) && defined(__CUDACC__) /******************************************************************************* * * * * * * *******************************************************************************/ #include "builtin_types.h" #include "host_defines.h" //NOTE: For NVRTC, these declarations have been moved into the compiler (to reduce compile time) #define EXCLUDE_FROM_RTC /******************************************************************************* * * * * * * *******************************************************************************/ extern "C" { /** * @{ */ /* Define math function DOXYGEN toplevel groups, functions will be added to these groups later. */ /** * \defgroup CUDA_MATH_SINGLE Single Precision Mathematical Functions * This section describes single precision mathematical functions. * To use these functions, you do not need to include any additional * header file in your program. */ /** * \defgroup CUDA_MATH_DOUBLE Double Precision Mathematical Functions * This section describes double precision mathematical functions. * To use these functions, you do not need to include any additional * header file in your program. */ /** * \defgroup CUDA_MATH_INT Integer Mathematical Functions * This section describes integer mathematical functions. * To use these functions, you do not need to include any additional * header file in your program. */ /** * \defgroup CUDA_MATH_INTRINSIC_SINGLE Single Precision Intrinsics * This section describes single precision intrinsic functions that are * only supported in device code. * To use these functions, you do not need to include any additional * header file in your program. */ /** * \defgroup CUDA_MATH_INTRINSIC_DOUBLE Double Precision Intrinsics * This section describes double precision intrinsic functions that are * only supported in device code. * To use these functions, you do not need to include any additional * header file in your program. */ /** * \defgroup CUDA_MATH_INTRINSIC_INT Integer Intrinsics * This section describes integer intrinsic functions. All of these * functions are supported in device code. For some of the functions, * host-specific implementations are also provided. For example, * see `::__nv_bswap16()`. * To use these functions, you do not need to include any additional * header file in your program. */ /** * \defgroup CUDA_MATH_INTRINSIC_CAST Type Casting Intrinsics * This section describes type casting intrinsic functions that are * only supported in device code. * To use these functions, you do not need to include any additional * header file in your program. */ /** * * \defgroup CUDA_MATH_INTRINSIC_SIMD SIMD Intrinsics * This section describes SIMD intrinsic functions that are * only supported in device code. * To use these functions, you do not need to include any additional * header file in your program. */ /** * @} */ #define __DEVICE_FUNCTIONS_DECL__ __host__ __device__ #if !defined(_MSC_VER) #define __CUDA_MATH_CRTIMP #else #if _MSC_VER < 1900 #define __CUDA_MATH_CRTIMP _CRTIMP #else #define __CUDA_MATH_CRTIMP _ACRTIMP #endif #endif #if defined(__ANDROID__) && (__ANDROID_API__ <= 20) && !defined(__aarch64__) static __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __cudart_builtin__ int abs(int); static __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __cudart_builtin__ long int labs(long int); static __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __cudart_builtin__ long long int llabs(long long int); #else /* __ANDROID__ */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_INT * \brief Calculate the absolute value of the input \p int argument. * * Calculate the absolute value of the input argument \p a. * * \return * Returns the absolute value of the input argument. * - abs(\p INT_MIN) is \p Undefined */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __cudart_builtin__ int __cdecl abs(int a) __THROW; /** * \ingroup CUDA_MATH_INT * \brief Calculate the absolute value of the input \p long \p int argument. * * Calculate the absolute value of the input argument \p a. * * \return * Returns the absolute value of the input argument. * - labs(\p LONG_MIN) is \p Undefined */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __cudart_builtin__ long int __cdecl labs(long int a) __THROW; /** * \ingroup CUDA_MATH_INT * \brief Calculate the absolute value of the input \p long \p long \p int argument. * * Calculate the absolute value of the input argument \p a. * * \return * Returns the absolute value of the input argument. * - llabs(\p LLONG_MIN) is \p Undefined */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __cudart_builtin__ long long int llabs(long long int a) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } #endif #endif /* __ANDROID__ */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) /* put all math functions in std */ namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the absolute value of the input argument. * * Calculate the absolute value of the input argument \p x. * * \return * Returns the absolute value of the input argument. * - fabs( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - fabs( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns +0. * - fabs(NaN) returns an unspecified NaN. * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl fabs(double x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the absolute value of its argument * * Calculate the absolute value of the input argument \p x. * * \return * Returns the absolute value of its argument. * - fabsf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - fabsf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns +0. * - fabsf(NaN) returns an unspecified NaN. * * \note_accuracy_single */ #if defined(_WIN32) && defined(_M_ARM64) extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl fabsf(float x) __THROW; #else extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float fabsf(float x) __THROW; #endif #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int min(const int a, const int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ unsigned int umin(const unsigned int a, const unsigned int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p long \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long long int llmin(const long long int a, const long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p long \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ unsigned long long int ullmin(const unsigned long long int a, const unsigned long long int b); #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Determine the minimum numeric value of the arguments. * * Determines the minimum numeric value of the arguments \p x and \p y. Treats NaN * arguments as missing data. If one argument is a NaN and the other is legitimate numeric * value, the numeric value is chosen. * * \return * Returns the minimum numeric value of the arguments \p x and \p y. * - If both arguments are NaN, returns NaN. * - If one argument is NaN, returns the numeric argument. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float fminf(float x, float y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl fminf(float x, float y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Determine the minimum numeric value of the arguments. * * Determines the minimum numeric value of the arguments \p x and \p y. Treats NaN * arguments as missing data. If one argument is a NaN and the other is legitimate numeric * value, the numeric value is chosen. * * \return * Returns the minimum numeric value of the arguments \p x and \p y. * - If both arguments are NaN, returns NaN. * - If one argument is NaN, returns the numeric argument. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double fmin(double x, double y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl fmin(double x, double y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int max(const int a, const int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ unsigned int umax(const unsigned int a, const unsigned int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p long \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long long int llmax(const long long int a, const long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p long \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ unsigned long long int ullmax(const unsigned long long int a, const unsigned long long int b); #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Determine the maximum numeric value of the arguments. * * Determines the maximum numeric value of the arguments \p x and \p y. Treats NaN * arguments as missing data. If one argument is a NaN and the other is legitimate numeric * value, the numeric value is chosen. * * \return * Returns the maximum numeric values of the arguments \p x and \p y. * - If both arguments are NaN, returns NaN. * - If one argument is NaN, returns the numeric argument. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float fmaxf(float x, float y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl fmaxf(float x, float y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Determine the maximum numeric value of the arguments. * * Determines the maximum numeric value of the arguments \p x and \p y. Treats NaN * arguments as missing data. If one argument is a NaN and the other is legitimate numeric * value, the numeric value is chosen. * * \return * Returns the maximum numeric values of the arguments \p x and \p y. * - If both arguments are NaN, returns NaN. * - If one argument is NaN, returns the numeric argument. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double fmax(double, double) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl fmax(double, double); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the sine of the input argument. * * Calculate the sine of the input argument \p x (measured in radians). * * \return * - sin( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sin( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - sin(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl sin(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the cosine of the input argument. * * Calculate the cosine of the input argument \p x (measured in radians). * * \return * - cos( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - cos( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - cos(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl cos(double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the sine and cosine of the first input argument. * * Calculate the sine and cosine of the first input argument \p x (measured * in radians). The results for sine and cosine are written into the * second argument, \p sptr, and, respectively, third argument, \p cptr. * * \see ::sin() and ::cos(). * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ void sincos(double x, double *sptr, double *cptr) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the sine and cosine of the first input argument. * * Calculate the sine and cosine of the first input argument \p x (measured * in radians). The results for sine and cosine are written into the second * argument, \p sptr, and, respectively, third argument, \p cptr. * * \see ::sinf() and ::cosf(). * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ void sincosf(float x, float *sptr, float *cptr) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the tangent of the input argument. * * Calculate the tangent of the input argument \p x (measured in radians). * * \return * - tan( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - tan( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - tan(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl tan(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the square root of the input argument. * * Calculate the nonnegative square root of \p x, * \cuda_math_formula \sqrt{x} \end_cuda_math_formula. * * \return * Returns * \cuda_math_formula \sqrt{x} \end_cuda_math_formula. * - sqrt( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sqrt( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - sqrt(\p x) returns NaN if \p x is less than 0. * - sqrt(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl sqrt(double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the reciprocal of the square root of the input argument. * * Calculate the reciprocal of the nonnegative square root of \p x, * \cuda_math_formula 1/\sqrt{x} \end_cuda_math_formula. * * \return * Returns * \cuda_math_formula 1/\sqrt{x} \end_cuda_math_formula. * - rsqrt( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - rsqrt( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - rsqrt(\p x) returns NaN if \p x is less than 0. * - rsqrt(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double rsqrt(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the reciprocal of the square root of the input argument. * * Calculate the reciprocal of the nonnegative square root of \p x, * \cuda_math_formula 1/\sqrt{x} \end_cuda_math_formula. * * \return * Returns * \cuda_math_formula 1/\sqrt{x} \end_cuda_math_formula. * - rsqrtf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - rsqrtf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - rsqrtf(\p x) returns NaN if \p x is less than 0. * - rsqrtf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float rsqrtf(float x); #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base 2 logarithm of the input argument. * * Calculate the base 2 logarithm of the input argument \p x. * * \return * - log2( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log2(1) returns +0. * - log2(\p x) returns NaN for \p x < 0. * - log2( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log2(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double log2(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl log2(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base 2 exponential of the input argument. * * Calculate * \cuda_math_formula 2^x \end_cuda_math_formula , * the base 2 exponential of the input argument \p x. * * \return * - exp2( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - exp2( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - exp2( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - exp2(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double exp2(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl exp2(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the base 2 exponential of the input argument. * * Calculate * \cuda_math_formula 2^x \end_cuda_math_formula , * the base 2 exponential of the input argument \p x. * * \return * - exp2f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - exp2f( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - exp2f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - exp2f(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float exp2f(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl exp2f(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base 10 exponential of the input argument. * * Calculate * \cuda_math_formula 10^x \end_cuda_math_formula , * the base 10 exponential of the input argument \p x. * * \return * - exp10( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - exp10( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - exp10( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - exp10(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double exp10(double x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the base 10 exponential of the input argument. * * Calculate * \cuda_math_formula 10^x \end_cuda_math_formula , * the base 10 exponential of the input argument \p x. * * \return * - exp10f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - exp10f( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - exp10f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - exp10f(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float exp10f(float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument, minus 1. * * Calculate * \cuda_math_formula e^x \end_cuda_math_formula * -1, the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument \p x, minus 1. * * \return * - expm1( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - expm1( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns -1. * - expm1( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - expm1(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double expm1(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl expm1(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument, minus 1. * * Calculate * \cuda_math_formula e^x \end_cuda_math_formula * -1, the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument \p x, minus 1. * * \return * - expm1f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - expm1f( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns -1. * - expm1f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - expm1f(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float expm1f(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl expm1f(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the base 2 logarithm of the input argument. * * Calculate the base 2 logarithm of the input argument \p x. * * \return * - log2f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log2f(1) returns +0. * - log2f(\p x) returns NaN for \p x < 0. * - log2f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log2f(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float log2f(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl log2f(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base 10 logarithm of the input argument. * * Calculate the base 10 logarithm of the input argument \p x. * * \return * - log10( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log10(1) returns +0. * - log10(\p x) returns NaN for \p x < 0. * - log10( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log10(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl log10(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base * \cuda_math_formula e \end_cuda_math_formula * logarithm of the input argument. * * Calculate the base * \cuda_math_formula e \end_cuda_math_formula * logarithm of the input argument \p x. * * \return * - log( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log(1) returns +0. * - log(\p x) returns NaN for \p x < 0. * - log( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl log(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of * \cuda_math_formula \log_{e}(1+x) \end_cuda_math_formula. * * Calculate the value of * \cuda_math_formula \log_{e}(1+x) \end_cuda_math_formula * of the input argument \p x. * * \return * - log1p( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - log1p(-1) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log1p(\p x) returns NaN for \p x < -1. * - log1p( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log1p(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double log1p(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl log1p(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of * \cuda_math_formula \log_{e}(1+x) \end_cuda_math_formula. * * Calculate the value of * \cuda_math_formula \log_{e}(1+x) \end_cuda_math_formula * of the input argument \p x. * * \return * - log1pf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - log1pf(-1) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log1pf(\p x) returns NaN for \p x < -1. * - log1pf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log1pf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float log1pf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl log1pf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the largest integer less than or equal to \p x. * * Calculates the largest integer value which is less than or equal to \p x. * * \return * Returns * \cuda_math_formula \lfloor x \rfloor \end_cuda_math_formula * expressed as a floating-point number. * - floor( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - floor( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - floor(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl floor(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument. * * Calculate * \cuda_math_formula e^x \end_cuda_math_formula , * the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument \p x. * * \return * - exp( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - exp( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - exp( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - exp(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl exp(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the hyperbolic cosine of the input argument. * * Calculate the hyperbolic cosine of the input argument \p x. * * \return * - cosh( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - cosh( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - cosh(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl cosh(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the hyperbolic sine of the input argument. * * Calculate the hyperbolic sine of the input argument \p x. * * \return * - sinh( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sinh( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - sinh(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl sinh(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the hyperbolic tangent of the input argument. * * Calculate the hyperbolic tangent of the input argument \p x. * * \return * - tanh( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - tanh( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 1 \end_cuda_math_formula. * - tanh(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl tanh(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the nonnegative inverse hyperbolic cosine of the input argument. * * Calculate the nonnegative inverse hyperbolic cosine of the input argument \p x. * * \return * Result will be in the interval [0, * \cuda_math_formula +\infty \end_cuda_math_formula * ]. * - acosh(1) returns 0. * - acosh(\p x) returns NaN for \p x in the interval [ * \cuda_math_formula -\infty \end_cuda_math_formula * , 1). * - acosh( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - acosh(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double acosh(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl acosh(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the nonnegative inverse hyperbolic cosine of the input argument. * * Calculate the nonnegative inverse hyperbolic cosine of the input argument \p x. * * \return * Result will be in the interval [0, * \cuda_math_formula +\infty \end_cuda_math_formula * ]. * - acoshf(1) returns 0. * - acoshf(\p x) returns NaN for \p x in the interval [ * \cuda_math_formula -\infty \end_cuda_math_formula * , 1). * - acoshf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - acoshf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float acoshf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl acoshf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the inverse hyperbolic sine of the input argument. * * Calculate the inverse hyperbolic sine of the input argument \p x. * * \return * - asinh( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - asinh( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - asinh(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double asinh(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl asinh(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the inverse hyperbolic sine of the input argument. * * Calculate the inverse hyperbolic sine of the input argument \p x. * * \return * - asinhf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - asinhf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - asinhf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float asinhf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl asinhf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the inverse hyperbolic tangent of the input argument. * * Calculate the inverse hyperbolic tangent of the input argument \p x. * * \return * - atanh( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - atanh( * \cuda_math_formula \pm 1 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - atanh(\p x) returns NaN for \p x outside interval [-1, 1]. * - atanh(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double atanh(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl atanh(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the inverse hyperbolic tangent of the input argument. * * Calculate the inverse hyperbolic tangent of the input argument \p x. * * \return * - atanhf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - atanhf( * \cuda_math_formula \pm 1 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - atanhf(\p x) returns NaN for \p x outside interval [-1, 1]. * - atanhf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float atanhf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl atanhf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of * \cuda_math_formula x\cdot 2^{exp} \end_cuda_math_formula. * * Calculate the value of * \cuda_math_formula x\cdot 2^{exp} \end_cuda_math_formula * of the input arguments \p x and \p exp. * * \return * - ldexp(\p x, \p exp) is equivalent to scalbn(\p x, \p exp). * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl ldexp(double x, int exp) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of * \cuda_math_formula x\cdot 2^{exp} \end_cuda_math_formula. * * Calculate the value of * \cuda_math_formula x\cdot 2^{exp} \end_cuda_math_formula * of the input arguments \p x and \p exp. * * \return * - ldexpf(\p x, \p exp) is equivalent to scalbnf(\p x, \p exp). * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float ldexpf(float x, int exp) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the floating-point representation of the exponent of the input argument. * * Calculate the floating-point representation of the exponent of the input argument \p x. * * \return * - logb( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - logb( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - logb(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double logb(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl logb(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the floating-point representation of the exponent of the input argument. * * Calculate the floating-point representation of the exponent of the input argument \p x. * * \return * - logbf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - logbf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - logbf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float logbf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl logbf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Compute the unbiased integer exponent of the argument. * * Calculates the unbiased integer exponent of the input argument \p x. * * \return * - If successful, returns the unbiased exponent of the argument. * - ilogb( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns INT_MIN. * - ilogb(NaN) returns INT_MIN. * - ilogb( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns INT_MAX. * - Note: above behavior does not take into account FP_ILOGB0 nor FP_ILOGBNAN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int ilogb(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP int __cdecl ilogb(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Compute the unbiased integer exponent of the argument. * * Calculates the unbiased integer exponent of the input argument \p x. * * \return * - If successful, returns the unbiased exponent of the argument. * - ilogbf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns INT_MIN. * - ilogbf(NaN) returns INT_MIN. * - ilogbf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns INT_MAX. * - Note: above behavior does not take into account FP_ILOGB0 nor FP_ILOGBNAN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int ilogbf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP int __cdecl ilogbf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Scale floating-point input by integer power of two. * * Scale \p x by * \cuda_math_formula 2^n \end_cuda_math_formula * by efficient manipulation of the floating-point * exponent. * * \return * Returns \p x * * \cuda_math_formula 2^n \end_cuda_math_formula. * - scalbn( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - scalbn(\p x, 0) returns \p x. * - scalbn( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - scalbn(NaN, \p n) returns NaN. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double scalbn(double x, int n) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl scalbn(double x, int n); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Scale floating-point input by integer power of two. * * Scale \p x by * \cuda_math_formula 2^n \end_cuda_math_formula * by efficient manipulation of the floating-point * exponent. * * \return * Returns \p x * * \cuda_math_formula 2^n \end_cuda_math_formula. * - scalbnf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - scalbnf(\p x, 0) returns \p x. * - scalbnf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - scalbnf(NaN, \p n) returns NaN. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float scalbnf(float x, int n) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl scalbnf(float x, int n); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Scale floating-point input by integer power of two. * * Scale \p x by * \cuda_math_formula 2^n \end_cuda_math_formula * by efficient manipulation of the floating-point * exponent. * * \return * Returns \p x * * \cuda_math_formula 2^n \end_cuda_math_formula. * - scalbln( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - scalbln(\p x, 0) returns \p x. * - scalbln( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - scalbln(NaN, \p n) returns NaN. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double scalbln(double x, long int n) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl scalbln(double x, long int n); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Scale floating-point input by integer power of two. * * Scale \p x by * \cuda_math_formula 2^n \end_cuda_math_formula * by efficient manipulation of the floating-point * exponent. * * \return * Returns \p x * * \cuda_math_formula 2^n \end_cuda_math_formula. * - scalblnf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - scalblnf(\p x, 0) returns \p x. * - scalblnf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p n) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - scalblnf(NaN, \p n) returns NaN. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float scalblnf(float x, long int n) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl scalblnf(float x, long int n); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Extract mantissa and exponent of a floating-point value * * Decompose the floating-point value \p x into a component \p m for the * normalized fraction element and another term \p n for the exponent. * The absolute value of \p m will be greater than or equal to 0.5 and * less than 1.0 or it will be equal to 0; * \cuda_math_formula x = m\cdot 2^n \end_cuda_math_formula. * The integer exponent \p n will be stored in the location to which \p nptr points. * * \return * Returns the fractional component \p m. * - frexp( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p nptr) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * and stores zero in the location pointed to by \p nptr. * - frexp( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p nptr) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula * and stores an unspecified value in the * location to which \p nptr points. * - frexp(NaN, \p y) returns a NaN and stores an unspecified value in the location to which \p nptr points. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl frexp(double x, int *nptr) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Extract mantissa and exponent of a floating-point value * * Decomposes the floating-point value \p x into a component \p m for the * normalized fraction element and another term \p n for the exponent. * The absolute value of \p m will be greater than or equal to 0.5 and * less than 1.0 or it will be equal to 0; * \cuda_math_formula x = m\cdot 2^n \end_cuda_math_formula. * The integer exponent \p n will be stored in the location to which \p nptr points. * * \return * Returns the fractional component \p m. * - frexpf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p nptr) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * and stores zero in the location pointed to by \p nptr. * - frexpf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p nptr) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula * and stores an unspecified value in the * location to which \p nptr points. * - frexpf(NaN, \p y) returns a NaN and stores an unspecified value in the location to which \p nptr points. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float frexpf(float x, int *nptr) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Round to nearest integer value in floating-point. * * Round \p x to the nearest integer value in floating-point format, * with halfway cases rounded away from zero. * * \return * Returns rounded integer value. * - round( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - round( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - round(NaN) returns NaN. * * \note_slow_round See ::rint(). */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double round(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl round(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round to nearest integer value in floating-point. * * Round \p x to the nearest integer value in floating-point format, * with halfway cases rounded away from zero. * * \return * Returns rounded integer value. * - roundf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - roundf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - roundf(NaN) returns NaN. * * \note_slow_round See ::rintf(). */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float roundf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl roundf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Round to nearest integer value. * * Round \p x to the nearest integer value, with halfway cases rounded * away from zero. If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. * * \note_slow_round See ::lrint(). */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long int lround(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long int __cdecl lround(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round to nearest integer value. * * Round \p x to the nearest integer value, with halfway cases rounded * away from zero. If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. * * \note_slow_round See ::lrintf(). */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long int lroundf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long int __cdecl lroundf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Round to nearest integer value. * * Round \p x to the nearest integer value, with halfway cases rounded * away from zero. If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. * * \note_slow_round See ::llrint(). */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long long int llround(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long long int __cdecl llround(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round to nearest integer value. * * Round \p x to the nearest integer value, with halfway cases rounded * away from zero. If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. * * \note_slow_round See ::llrintf(). */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long long int llroundf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long long int __cdecl llroundf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Round to nearest integer value in floating-point. * * Round \p x to the nearest integer value in floating-point format, * with halfway cases rounded to the nearest even integer value. * * \return * Returns rounded integer value. * - rint( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - rint( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - rint(NaN) returns NaN. */ #if defined(__CUDA_ARCH__) || defined(__DOXYGEN_ONLY__) /* * We don't generate the declaration of rint for host compilation. * This is acaully a workaround to compile the boost header file when * Clang 3.8 is used as the host compiler. The boost header file has * the following example code: * namespace NS { extern "C" { double rint(double); } * } * * After preprocessing, we get something like below: * * extern "C" { double rint(double x) throw(); } * # 30 "/usr/include/math.h" 3 * extern "C" { double rint(double x) throw(); } * namespace NS { extern "C" { double rint(double); } } * * Although GCC accepts this output, Clang 3.8 doesn't. * Furthermore, we cannot change the boost header file by adding "throw()" * to rint's declaration there. So, as a workaround, we just don't generate * our re-declaration for the host compilation. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double rint(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl rint(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #endif /* __CUDA_ARCH__ || __DOXYGEN_ONLY__ */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round input to nearest integer value in floating-point. * * Round \p x to the nearest integer value in floating-point format, * with halfway cases rounded to the nearest even integer value. * * \return * Returns rounded integer value. * - rintf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - rintf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - rintf(NaN) returns NaN. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float rintf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl rintf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Round input to nearest integer value. * * Round \p x to the nearest integer value, * with halfway cases rounded to the nearest even integer value. * If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long int lrint(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long int __cdecl lrint(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round input to nearest integer value. * * Round \p x to the nearest integer value, * with halfway cases rounded to the nearest even integer value. * If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long int lrintf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long int __cdecl lrintf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Round input to nearest integer value. * * Round \p x to the nearest integer value, * with halfway cases rounded to the nearest even integer value. * If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long long int llrint(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long long int __cdecl llrint(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round input to nearest integer value. * * Round \p x to the nearest integer value, * with halfway cases rounded to the nearest even integer value. * If the result is outside the range of the return type, * the behavior is undefined. * * \return * Returns rounded integer value. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ long long int llrintf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP long long int __cdecl llrintf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Round the input argument to the nearest integer. * * Round argument \p x to an integer value in double precision floating-point format. Uses round to nearest rounding, with ties rounding to even. * * \return * - nearbyint( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - nearbyint( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - nearbyint(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double nearbyint(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl nearbyint(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Round the input argument to the nearest integer. * * Round argument \p x to an integer value in single precision floating-point format. Uses round to nearest rounding, with ties rounding to even. * * \return * - nearbyintf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - nearbyintf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - nearbyintf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float nearbyintf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl nearbyintf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate ceiling of the input argument. * * Compute the smallest integer value not less than \p x. * * \return * Returns * \cuda_math_formula \lceil x \rceil \end_cuda_math_formula expressed as a floating-point number. * - ceil( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - ceil( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - ceil(NaN) returns NaN. */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl ceil(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Truncate input argument to the integral part. * * Round \p x to the nearest integer value that does not exceed \p x in * magnitude. * * \return * Returns truncated integer value. * - trunc( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - trunc( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - trunc(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double trunc(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl trunc(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Truncate input argument to the integral part. * * Round \p x to the nearest integer value that does not exceed \p x in * magnitude. * * \return * Returns truncated integer value. * - truncf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - truncf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - truncf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float truncf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl truncf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Compute the positive difference between \p x and \p y. * * Compute the positive difference between \p x and \p y. The positive * difference is \p x - \p y when \p x > \p y and +0 otherwise. * * \return * Returns the positive difference between \p x and \p y. * - fdim(\p x, \p y) returns \p x - \p y if \p x > \p y. * - fdim(\p x, \p y) returns +0 if \p x * \cuda_math_formula \leq \end_cuda_math_formula \p y. * - If either argument is NaN, NaN is returned. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double fdim(double x, double y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl fdim(double x, double y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Compute the positive difference between \p x and \p y. * * Compute the positive difference between \p x and \p y. The positive * difference is \p x - \p y when \p x > \p y and +0 otherwise. * * \return * Returns the positive difference between \p x and \p y. * - fdimf(\p x, \p y) returns \p x - \p y if \p x > \p y. * - fdimf(\p x, \p y) returns +0 if \p x * \cuda_math_formula \leq \end_cuda_math_formula \p y. * - If either argument is NaN, NaN is returned. * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float fdimf(float x, float y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl fdimf(float x, float y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the arc tangent of the ratio of first and second input arguments. * * Calculate the principal value of the arc tangent of the ratio of first * and second input arguments \p y / \p x. The quadrant of the result is * determined by the signs of inputs \p y and \p x. * * \return * Result will be in radians, in the interval [- * \cuda_math_formula \pi \end_cuda_math_formula * , + * \cuda_math_formula \pi \end_cuda_math_formula * ]. * - atan2( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , -0) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula. * - atan2( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , +0) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - atan2( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p x) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * for \p x < 0. * - atan2( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p x) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * for \p x > 0. * - atan2(\p y, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\pi \end_cuda_math_formula * /2 for \p y < 0. * - atan2(\p y, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pi \end_cuda_math_formula * /2 for \p y > 0. * - atan2( * \cuda_math_formula \pm y \end_cuda_math_formula * , * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * for finite \p y > 0. * - atan2( * \cuda_math_formula \pm y \end_cuda_math_formula * , * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * for finite \p y > 0. * - atan2( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p x) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * /2 for finite \p x. * - atan2( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 3\pi \end_cuda_math_formula * /4. * - atan2( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * /4. * - If either argument is NaN, NaN is returned. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl atan2(double y, double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the arc tangent of the input argument. * * Calculate the principal value of the arc tangent of the input argument \p x. * * \return * Result will be in radians, in the interval [- * \cuda_math_formula \pi \end_cuda_math_formula * /2, + * \cuda_math_formula \pi \end_cuda_math_formula * /2]. * - atan( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - atan( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * /2. * - atan(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl atan(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the arc cosine of the input argument. * * Calculate the principal value of the arc cosine of the input argument \p x. * * \return * Result will be in radians, in the interval [0, * \cuda_math_formula \pi \end_cuda_math_formula * ] for \p x inside [-1, +1]. * - acos(1) returns +0. * - acos(\p x) returns NaN for \p x outside [-1, +1]. * - acos(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl acos(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the arc sine of the input argument. * * Calculate the principal value of the arc sine of the input argument \p x. * * \return * Result will be in radians, in the interval [- * \cuda_math_formula \pi \end_cuda_math_formula * /2, + * \cuda_math_formula \pi \end_cuda_math_formula * /2] for \p x inside [-1, +1]. * - asin( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - asin(\p x) returns NaN for \p x outside [-1, +1]. * - asin(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl asin(double x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the square root of the sum of squares of two arguments. * * Calculate the length of the hypotenuse of a right triangle whose two sides have lengths * \p x and \p y without undue overflow or underflow. * * \return Returns the length of the hypotenuse * \cuda_math_formula \sqrt{x^2+y^2} \end_cuda_math_formula. * - hypot(\p x,\p y), hypot(\p y,\p x), and hypot(\p x, \p -y) are equivalent. * - hypot(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) is equivalent to fabs(\p x). * - hypot( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ,\p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula , * even if \p y is a NaN. * - hypot(NaN, \p y) returns NaN, when \p y is not \cuda_math_formula \pm\infty \end_cuda_math_formula. * * \note_accuracy_double */ #if defined(_WIN32) #if defined(_MSC_VER) && _MSC_VER < 1900 static __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __CRTDECL hypot(double x, double y); #else extern _ACRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl hypot(double x, double y); #endif #else /* _WIN32 */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double hypot(double x, double y) __THROW; #endif /* _WIN32 */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate one over the square root of the sum of squares of two arguments. * * Calculate one over the length of the hypotenuse of a right triangle whose two sides have * lengths \p x and \p y without undue overflow or underflow. * * \return Returns one over the length of the hypotenuse * \cuda_math_formula \frac{1}{\sqrt{x^2+y^2}} \end_cuda_math_formula. * - rhypot(\p x,\p y), rhypot(\p y,\p x), and rhypot(\p x, \p -y) are equivalent. * - rhypot( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ,\p y) returns +0, * even if \p y is a NaN. * - rhypot(\cuda_math_formula \pm 0, \pm 0 \end_cuda_math_formula) returns \cuda_math_formula +\infty \end_cuda_math_formula. * - rhypot(NaN, \p y) returns NaN, when \p y is not \cuda_math_formula \pm\infty \end_cuda_math_formula. * * \note_accuracy_double */ extern __device__ __device_builtin__ double rhypot(double x, double y) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the square root of the sum of squares of two arguments. * * Calculates the length of the hypotenuse of a right triangle whose two sides have lengths * \p x and \p y without undue overflow or underflow. * * \return Returns the length of the hypotenuse * \cuda_math_formula \sqrt{x^2+y^2} \end_cuda_math_formula. * - hypotf(\p x,\p y), hypotf(\p y,\p x), and hypotf(\p x, \p -y) are equivalent. * - hypotf(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) is equivalent to fabsf(\p x). * - hypotf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ,\p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula , * even if \p y is a NaN. * - hypotf(NaN, \p y) returns NaN, when \p y is not \cuda_math_formula \pm\infty \end_cuda_math_formula. * * \note_accuracy_single */ #if defined(_WIN32) static __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __CRTDECL hypotf(float x, float y); #else /* _WIN32 */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float hypotf(float x, float y) __THROW; #endif /* _WIN32 */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate one over the square root of the sum of squares of two arguments. * * Calculates one over the length of the hypotenuse of a right triangle whose two sides have * lengths \p x and \p y without undue overflow or underflow. * * \return Returns one over the length of the hypotenuse * \cuda_math_formula \frac{1}{\sqrt{x^2+y^2}} \end_cuda_math_formula. * - rhypotf(\p x,\p y), rhypotf(\p y,\p x), and rhypotf(\p x, \p -y) are equivalent. * - rhypotf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ,\p y) returns +0, * even if \p y is a NaN. * - rhypotf(\cuda_math_formula \pm 0, \pm 0 \end_cuda_math_formula) returns \cuda_math_formula +\infty \end_cuda_math_formula. * - rhypotf(NaN, \p y) returns NaN, when \p y is not \cuda_math_formula \pm\infty \end_cuda_math_formula. * * \note_accuracy_single */ extern __device__ __device_builtin__ float rhypotf(float x, float y) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the square root of the sum of squares of three coordinates of the argument. * * Calculate the length of three dimensional vector in Euclidean space without undue overflow or underflow. * * \return Returns the length of 3D vector * \cuda_math_formula \sqrt{a^2+b^2+c^2} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +\infty \end_cuda_math_formula * is returned, even if there are NaNs. * - returns +0, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_double */ extern __device__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl norm3d(double a, double b, double c) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate one over the square root of the sum of squares of three coordinates. * * Calculate one over the length of three dimensional vector in Euclidean space without undue overflow or underflow. * * \return Returns one over the length of the 3D vector * \cuda_math_formula \frac{1}{\sqrt{a^2+b^2+c^2}} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +0 \end_cuda_math_formula * is returned, even if there are NaNs. * - returns \cuda_math_formula +\infty \end_cuda_math_formula, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_double */ extern __device__ __device_builtin__ double rnorm3d(double a, double b, double c) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the square root of the sum of squares of four coordinates of the argument. * * Calculate the length of four dimensional vector in Euclidean space without undue overflow or underflow. * * \return Returns the length of 4D vector * \cuda_math_formula \sqrt{a^2+b^2+c^2+d^2} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +\infty \end_cuda_math_formula * is returned, even if there are NaNs. * - returns +0, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_double */ extern __device__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl norm4d(double a, double b, double c, double d) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate one over the square root of the sum of squares of four coordinates. * * Calculate one over the length of four dimensional vector in Euclidean space without undue overflow or underflow. * * \return Returns one over the length of the 3D vector * \cuda_math_formula \frac{1}{\sqrt{a^2+b^2+c^2+d^2}} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +0 \end_cuda_math_formula * is returned, even if there are NaNs. * - returns \cuda_math_formula +\infty \end_cuda_math_formula, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_double */ extern __device__ __device_builtin__ double rnorm4d(double a, double b, double c, double d) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the square root of the sum of squares of any number of coordinates. * * Calculate the length of a vector p, dimension of which is passed as an argument \p without undue overflow or underflow. * * \return Returns the length of the dim-D vector * \cuda_math_formula \sqrt{\sum_{i=0}^{dim-1} p_i^2} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +\infty \end_cuda_math_formula * is returned, even if there are NaNs. * - returns +0, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_double */ __device__ __device_builtin__ double norm(int dim, double const * p) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the reciprocal of square root of the sum of squares of any number of coordinates. * * Calculates one over the length of vector \p p, dimension of which is passed as an argument, in Euclidean space without undue overflow or underflow. * * \return Returns one over the length of the vector * \cuda_math_formula \frac{1}{\sqrt{\sum_{i=0}^{dim-1} p_i^2}} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +0 \end_cuda_math_formula * is returned, even if there are NaNs. * - returns \cuda_math_formula +\infty \end_cuda_math_formula, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_double */ extern __device__ __device_builtin__ double rnorm(int dim, double const * p) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the reciprocal of square root of the sum of squares of any number of coordinates. * * Calculates one over the length of vector \p p, dimension of which is passed as an argument, in Euclidean space without undue overflow or underflow. * * \return Returns one over the length of the vector * \cuda_math_formula \frac{1}{\sqrt{\sum_{i=0}^{dim-1} p_i^2}} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +0 \end_cuda_math_formula * is returned, even if there are NaNs. * - returns \cuda_math_formula +\infty \end_cuda_math_formula, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_single */ extern __device__ __device_builtin__ float rnormf(int dim, float const * p) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the square root of the sum of squares of any number of coordinates. * * Calculates the length of a vector \p p, dimension of which is passed as an argument without undue overflow or underflow. * * \return Returns the length of the dim-D vector * \cuda_math_formula \sqrt{\sum_{i=0}^{dim-1} p_i^2} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +\infty \end_cuda_math_formula * is returned, even if there are NaNs. * - returns +0, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_single */ __device__ __device_builtin__ float normf(int dim, float const * p) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the square root of the sum of squares of three coordinates of the argument. * * Calculates the length of three dimensional vector in Euclidean space without undue overflow or underflow. * * \return Returns the length of the 3D vector * \cuda_math_formula \sqrt{a^2+b^2+c^2} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +\infty \end_cuda_math_formula * is returned, even if there are NaNs. * - returns +0, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_single */ extern __device__ __device_builtin__ float norm3df(float a, float b, float c) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate one over the square root of the sum of squares of three coordinates. * * Calculates one over the length of three dimension vector in Euclidean space without undue overflow or underflow. * * \return Returns one over the length of the 3D vector * \cuda_math_formula \frac{1}{\sqrt{a^2+b^2+c^2}} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +0 \end_cuda_math_formula * is returned, even if there are NaNs. * - returns \cuda_math_formula +\infty \end_cuda_math_formula, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_single */ extern __device__ __device_builtin__ float rnorm3df(float a, float b, float c) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the square root of the sum of squares of four coordinates of the argument. * * Calculates the length of four dimensional vector in Euclidean space without undue overflow or underflow. * * \return Returns the length of the 4D vector * \cuda_math_formula \sqrt{a^2+b^2+c^2+d^2} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +\infty \end_cuda_math_formula * is returned, even if there are NaNs. * - returns +0, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_single */ extern __device__ __device_builtin__ float norm4df(float a, float b, float c, float d) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate one over the square root of the sum of squares of four coordinates. * * Calculates one over the length of four dimension vector in Euclidean space without undue overflow or underflow. * * \return Returns one over the length of the 3D vector * \cuda_math_formula \frac{1}{\sqrt{a^2+b^2+c^2+d^2}} \end_cuda_math_formula. * - In the presence of an exactly infinite coordinate * \cuda_math_formula +0 \end_cuda_math_formula * is returned, even if there are NaNs. * - returns \cuda_math_formula +\infty \end_cuda_math_formula, when all coordinates are \cuda_math_formula \pm 0 \end_cuda_math_formula. * - returns NaN, when at least one of the coordinates is NaN and none are infinite. * * \note_accuracy_single */ extern __device__ __device_builtin__ float rnorm4df(float a, float b, float c, float d) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the cube root of the input argument. * * Calculate the cube root of \p x, * \cuda_math_formula x^{1/3} \end_cuda_math_formula. * * \return * Returns * \cuda_math_formula x^{1/3} \end_cuda_math_formula. * - cbrt( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - cbrt( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - cbrt(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double cbrt(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl cbrt(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the cube root of the input argument. * * Calculate the cube root of \p x, * \cuda_math_formula x^{1/3} \end_cuda_math_formula. * * \return * Returns * \cuda_math_formula x^{1/3} \end_cuda_math_formula. * - cbrtf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - cbrtf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - cbrtf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float cbrtf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl cbrtf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate reciprocal cube root function. * * Calculate reciprocal cube root function of \p x. * * \return * - rcbrt( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - rcbrt( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - rcbrt(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double rcbrt(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate reciprocal cube root function. * * Calculate reciprocal cube root function of \p x. * * \return * - rcbrtf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - rcbrtf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - rcbrtf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float rcbrtf(float x); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the sine of the input argument * \cuda_math_formula \times \pi \end_cuda_math_formula. * * Calculate the sine of \p x * \cuda_math_formula \times \pi \end_cuda_math_formula * (measured in radians), * where \p x is the input argument. * * \return * - sinpi( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sinpi( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - sinpi(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double sinpi(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the sine of the input argument * \cuda_math_formula \times \pi \end_cuda_math_formula. * * Calculate the sine of \p x * \cuda_math_formula \times \pi \end_cuda_math_formula * (measured in radians), * where \p x is the input argument. * * \return * - sinpif( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sinpif( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - sinpif(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float sinpif(float x); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the cosine of the input argument * \cuda_math_formula \times \pi \end_cuda_math_formula. * * Calculate the cosine of \p x * \cuda_math_formula \times \pi \end_cuda_math_formula * (measured in radians), * where \p x is the input argument. * * \return * - cospi( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - cospi( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - cospi(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double cospi(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the cosine of the input argument * \cuda_math_formula \times \pi \end_cuda_math_formula. * * Calculate the cosine of \p x * \cuda_math_formula \times \pi \end_cuda_math_formula * (measured in radians), * where \p x is the input argument. * * \return * - cospif( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - cospif( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - cospif(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float cospif(float x); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the sine and cosine of the first input argument * \cuda_math_formula \times \pi \end_cuda_math_formula. * * Calculate the sine and cosine of the first input argument, \p x (measured in radians), * \cuda_math_formula \times \pi \end_cuda_math_formula. The results for sine and cosine are written into the * second argument, \p sptr, and, respectively, third argument, \p cptr. * * \see ::sinpi() and ::cospi(). * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ void sincospi(double x, double *sptr, double *cptr); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the sine and cosine of the first input argument * \cuda_math_formula \times \pi \end_cuda_math_formula. * * Calculate the sine and cosine of the first input argument, \p x (measured in radians), * \cuda_math_formula \times \pi \end_cuda_math_formula. The results for sine and cosine are written into the * second argument, \p sptr, and, respectively, third argument, \p cptr. * * \see ::sinpif() and ::cospif(). * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ void sincospif(float x, float *sptr, float *cptr); #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of first argument to the power of second argument. * * Calculate the value of \p x to the power of \p y. * * \return * - pow( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula * for \p y an odd integer less than 0. * - pow( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for \p y less than 0 and not an odd integer. * - pow( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * for \p y an odd integer greater than 0. * - pow( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns +0 for \p y > 0 and not an odd integer. * - pow(-1, * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns 1. * - pow(+1, \p y) returns 1 for any \p y, even a NaN. * - pow(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1 for any \p x, even a NaN. * - pow(\p x, \p y) returns a NaN for finite \p x < 0 and finite non-integer \p y. * - pow(\p x, * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for * \cuda_math_formula | x | < 1 \end_cuda_math_formula. * - pow(\p x, * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0 for * \cuda_math_formula | x | > 1 \end_cuda_math_formula. * - pow(\p x, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0 for * \cuda_math_formula | x | < 1 \end_cuda_math_formula. * - pow(\p x, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for * \cuda_math_formula | x | > 1 \end_cuda_math_formula. * - pow( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns -0 for \p y an odd integer less than 0. * - pow( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns +0 for \p y < 0 and not an odd integer. * - pow( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns * \cuda_math_formula -\infty \end_cuda_math_formula * for \p y an odd integer greater than 0. * - pow( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for \p y > 0 and not an odd integer. * - pow( * \cuda_math_formula +\infty \end_cuda_math_formula * , \p y) returns +0 for \p y < 0. * - pow( * \cuda_math_formula +\infty \end_cuda_math_formula * , \p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for \p y > 0. * - pow(\p x, \p y) returns NaN if either \p x or \p y or both are NaN and \p x \cuda_math_formula \neq \end_cuda_math_formula +1 and \p y \cuda_math_formula \neq\pm 0 \end_cuda_math_formula. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl pow(double x, double y) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Break down the input argument into fractional and integral parts. * * Break down the argument \p x into fractional and integral parts. The * integral part is stored in the argument \p iptr. * Fractional and integral parts are given the same sign as the argument \p x. * * \return * - modf( * \cuda_math_formula \pm x \end_cuda_math_formula * , \p iptr) returns a result with the same sign as \p x. * - modf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p iptr) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * and stores * \cuda_math_formula \pm \infty \end_cuda_math_formula * in the object pointed to by \p iptr. * - modf(NaN, \p iptr) stores a NaN in the object pointed to by \p iptr and returns a NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl modf(double x, double *iptr) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the double-precision floating-point remainder of \p x / \p y. * * Calculate the double-precision floating-point remainder of \p x / \p y. * The floating-point remainder of the division operation \p x / \p y calculated * by this function is exactly the value x - n*y, where \p n is \p x / \p y with its fractional part truncated. * The computed value will have the same sign as \p x, and its magnitude will be less than the magnitude of \p y. * * \return * - Returns the floating-point remainder of \p x / \p y. * - fmod( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * if \p y is not zero. * - fmod(\p x, * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns \p x if \p x is finite. * - fmod(\p x, \p y) returns NaN if \p x is * \cuda_math_formula \pm\infty \end_cuda_math_formula * or \p y is zero. * - If either argument is NaN, NaN is returned. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double __cdecl fmod(double x, double y) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Compute double-precision floating-point remainder. * * Compute double-precision floating-point remainder \p r of dividing * \p x by \p y for nonzero \p y. Thus * \cuda_math_formula r = x - n y \end_cuda_math_formula. * The value \p n is the integer value nearest * \cuda_math_formula \frac{x}{y} \end_cuda_math_formula. * In the case when * \cuda_math_formula | n -\frac{x}{y} | = \frac{1}{2} \end_cuda_math_formula * , the * even \p n value is chosen. * * \return * - remainder(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns NaN. * - remainder( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p y) returns NaN. * - remainder(\p x, * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns \p x for finite \p x. * - If either argument is NaN, NaN is returned. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double remainder(double x, double y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl remainder(double x, double y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Compute single-precision floating-point remainder. * * Compute single-precision floating-point remainder \p r of dividing * \p x by \p y for nonzero \p y. Thus * \cuda_math_formula r = x - n y \end_cuda_math_formula. * The value \p n is the integer value nearest * \cuda_math_formula \frac{x}{y} \end_cuda_math_formula. * In the case when * \cuda_math_formula | n -\frac{x}{y} | = \frac{1}{2} \end_cuda_math_formula * , the * even \p n value is chosen. * * \return * - remainderf(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns NaN. * - remainderf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p y) returns NaN. * - remainderf(\p x, * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns \p x for finite \p x. * - If either argument is NaN, NaN is returned. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float remainderf(float x, float y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl remainderf(float x, float y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Compute double-precision floating-point remainder and part of quotient. * * Compute a double-precision floating-point remainder in the same way as the * ::remainder() function. Argument \p quo returns part of quotient upon * division of \p x by \p y. Value \p quo has the same sign as * \cuda_math_formula \frac{x}{y} \end_cuda_math_formula * and may not be the exact quotient but agrees with the exact quotient * in the low order 3 bits. * * \return * Returns the remainder. * - remquo(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p quo) returns NaN * and stores an unspecified value in the * location to which \p quo points. * - remquo( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p y, \p quo) returns NaN * and stores an unspecified value in the * location to which \p quo points. * - remquo(\p x, \p y, \p quo) returns NaN * and stores an unspecified value in the * location to which \p quo points if either of \p x or \p y is NaN. * - remquo(\p x, * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p quo) returns \p x and stores zero * in the location to which \p quo points for finite \p x. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double remquo(double x, double y, int *quo) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl remquo(double x, double y, int *quo); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Compute single-precision floating-point remainder and part of quotient. * * Compute a single-precision floating-point remainder in the same way as the * ::remainderf() function. Argument \p quo returns part of quotient upon * division of \p x by \p y. Value \p quo has the same sign as * \cuda_math_formula \frac{x}{y} \end_cuda_math_formula * and may not be the exact quotient but agrees with the exact quotient * in the low order 3 bits. * * \return * Returns the remainder. * - remquof(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p quo) returns NaN * and stores an unspecified value in the * location to which \p quo points. * - remquof( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p y, \p quo) returns NaN * and stores an unspecified value in the * location to which \p quo points. * - remquof(\p x, \p y, \p quo) returns NaN * and stores an unspecified value in the * location to which \p quo points if either of \p x or \p y is NaN. * - remquof(\p x, * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p quo) returns \p x and stores zero * in the location to which \p quo points for finite \p x. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float remquof(float x, float y, int *quo) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl remquof(float x, float y, int *quo); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the Bessel function of the first kind of order 0 for the input argument. * * Calculate the value of the Bessel function of the first kind of order 0 for * the input argument \p x, * \cuda_math_formula J_0(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the first kind of order 0. * - j0( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns +0. * - j0(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl j0(double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the Bessel function of the first kind of order 0 for the input argument. * * Calculate the value of the Bessel function of the first kind of order 0 for * the input argument \p x, * \cuda_math_formula J_0(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the first kind of order 0. * - j0f( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns +0. * - j0f(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float j0f(float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the Bessel function of the first kind of order 1 for the input argument. * * Calculate the value of the Bessel function of the first kind of order 1 for * the input argument \p x, * \cuda_math_formula J_1(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the first kind of order 1. * - j1( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - j1( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - j1(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl j1(double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the Bessel function of the first kind of order 1 for the input argument. * * Calculate the value of the Bessel function of the first kind of order 1 for * the input argument \p x, * \cuda_math_formula J_1(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the first kind of order 1. * - j1f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - j1f( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - j1f(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float j1f(float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the Bessel function of the first kind of order n for the input argument. * * Calculate the value of the Bessel function of the first kind of order \p n for * the input argument \p x, * \cuda_math_formula J_n(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the first kind of order \p n. * - jn(\p n, NaN) returns NaN. * - jn(\p n, \p x) returns NaN for \p n < 0. * - jn(\p n, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl jn(int n, double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the Bessel function of the first kind of order n for the input argument. * * Calculate the value of the Bessel function of the first kind of order \p n for * the input argument \p x, * \cuda_math_formula J_n(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the first kind of order \p n. * - jnf(\p n, NaN) returns NaN. * - jnf(\p n, \p x) returns NaN for \p n < 0. * - jnf(\p n, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float jnf(int n, float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the Bessel function of the second kind of order 0 for the input argument. * * Calculate the value of the Bessel function of the second kind of order 0 for * the input argument \p x, * \cuda_math_formula Y_0(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the second kind of order 0. * - y0( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - y0(\p x) returns NaN for \p x < 0. * - y0( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - y0(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl y0(double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the Bessel function of the second kind of order 0 for the input argument. * * Calculate the value of the Bessel function of the second kind of order 0 for * the input argument \p x, * \cuda_math_formula Y_0(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the second kind of order 0. * - y0f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - y0f(\p x) returns NaN for \p x < 0. * - y0f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - y0f(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float y0f(float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the Bessel function of the second kind of order 1 for the input argument. * * Calculate the value of the Bessel function of the second kind of order 1 for * the input argument \p x, * \cuda_math_formula Y_1(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the second kind of order 1. * - y1( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - y1(\p x) returns NaN for \p x < 0. * - y1( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - y1(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl y1(double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the Bessel function of the second kind of order 1 for the input argument. * * Calculate the value of the Bessel function of the second kind of order 1 for * the input argument \p x, * \cuda_math_formula Y_1(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the second kind of order 1. * - y1f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - y1f(\p x) returns NaN for \p x < 0. * - y1f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - y1f(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float y1f(float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the Bessel function of the second kind of order n for the input argument. * * Calculate the value of the Bessel function of the second kind of order \p n for * the input argument \p x, * \cuda_math_formula Y_n(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the second kind of order \p n. * - yn(\p n, \p x) returns NaN for \p n < 0. * - yn(\p n, * \cuda_math_formula \pm 0 \end_cuda_math_formula *) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - yn(\p n, \p x) returns NaN for \p x < 0. * - yn(\p n, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - yn(\p n, NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl yn(int n, double x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the Bessel function of the second kind of order n for the input argument. * * Calculate the value of the Bessel function of the second kind of order \p n for * the input argument \p x, * \cuda_math_formula Y_n(x) \end_cuda_math_formula. * * \return * Returns the value of the Bessel function of the second kind of order \p n. * - ynf(\p n, \p x) returns NaN for \p n < 0. * - ynf(\p n, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - ynf(\p n, \p x) returns NaN for \p x < 0. * - ynf(\p n, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - ynf(\p n, NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float ynf(int n, float x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the regular modified cylindrical Bessel function of order 0 for the input argument. * * Calculate the value of the regular modified cylindrical Bessel function of order 0 for * the input argument \p x, * \cuda_math_formula I_0(x) \end_cuda_math_formula. * * \return * Returns the value of the regular modified cylindrical Bessel function of order 0. * - cyl_bessel_i0(\cuda_math_formula \pm 0 \end_cuda_math_formula) returns +1. * - cyl_bessel_i0(\cuda_math_formula \pm\infty \end_cuda_math_formula) returns \cuda_math_formula +\infty \end_cuda_math_formula. * - cyl_bessel_i0(NaN) returns NaN. * * \note_accuracy_double */ extern __device__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl cyl_bessel_i0(double x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the regular modified cylindrical Bessel function of order 0 for the input argument. * * Calculate the value of the regular modified cylindrical Bessel function of order 0 for * the input argument \p x, * \cuda_math_formula I_0(x) \end_cuda_math_formula. * * \return * Returns the value of the regular modified cylindrical Bessel function of order 0. * - cyl_bessel_i0f(\cuda_math_formula \pm 0 \end_cuda_math_formula) returns +1. * - cyl_bessel_i0f(\cuda_math_formula \pm\infty \end_cuda_math_formula) returns \cuda_math_formula +\infty \end_cuda_math_formula. * - cyl_bessel_i0f(NaN) returns NaN. * * \note_accuracy_single */ extern __device__ __device_builtin__ float cyl_bessel_i0f(float x) __THROW; /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the value of the regular modified cylindrical Bessel function of order 1 for the input argument. * * Calculate the value of the regular modified cylindrical Bessel function of order 1 for * the input argument \p x, * \cuda_math_formula I_1(x) \end_cuda_math_formula. * * \return * Returns the value of the regular modified cylindrical Bessel function of order 1. * - cyl_bessel_i1(\cuda_math_formula \pm 0 \end_cuda_math_formula) returns \cuda_math_formula \pm 0 \end_cuda_math_formula. * - cyl_bessel_i1(\cuda_math_formula \pm\infty \end_cuda_math_formula) returns \cuda_math_formula \pm\infty \end_cuda_math_formula. * - cyl_bessel_i1(NaN) returns NaN. * * \note_accuracy_double */ extern __device__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl cyl_bessel_i1(double x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of the regular modified cylindrical Bessel function of order 1 for the input argument. * * Calculate the value of the regular modified cylindrical Bessel function of order 1 for * the input argument \p x, * \cuda_math_formula I_1(x) \end_cuda_math_formula. * * \return * Returns the value of the regular modified cylindrical Bessel function of order 1. * - cyl_bessel_i1f(\cuda_math_formula \pm 0 \end_cuda_math_formula) returns \cuda_math_formula \pm 0 \end_cuda_math_formula. * - cyl_bessel_i1f(\cuda_math_formula \pm\infty \end_cuda_math_formula) returns \cuda_math_formula \pm\infty \end_cuda_math_formula. * - cyl_bessel_i1f(NaN) returns NaN. * * \note_accuracy_single */ extern __device__ __device_builtin__ float cyl_bessel_i1f(float x) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the error function of the input argument. * * Calculate the value of the error function for the input argument \p x, * \cuda_math_formula \frac{2}{\sqrt \pi} \int_0^x e^{-t^2} dt \end_cuda_math_formula. * * \return * - erf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - erf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 1 \end_cuda_math_formula. * - erf(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double erf(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl erf(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the error function of the input argument. * * Calculate the value of the error function for the input argument \p x, * \cuda_math_formula \frac{2}{\sqrt \pi} \int_0^x e^{-t^2} dt \end_cuda_math_formula. * * \return * - erff( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - erff( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 1 \end_cuda_math_formula. * - erff(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float erff(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl erff(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the inverse error function of the input argument. * * Calculate the inverse error function * \cuda_math_formula \operatorname{erf}^{-1} \end_cuda_math_formula * (\p x), of the input argument \p x in the interval [-1, 1]. * * \return * - erfinv( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - erfinv(1) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - erfinv(-1) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - erfinv(\p x) returns NaN for \p x outside [-1, +1]. * - erfinv(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double erfinv(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the inverse error function of the input argument. * * Calculate the inverse error function * \cuda_math_formula \operatorname{erf}^{-1} \end_cuda_math_formula * (\p x), of the input argument \p x in the interval [-1, 1]. * * \return * - erfinvf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - erfinvf(1) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - erfinvf(-1) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - erfinvf(\p x) returns NaN for \p x outside [-1, +1]. * - erfinvf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float erfinvf(float x); #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the complementary error function of the input argument. * * Calculate the complementary error function of the input argument \p x, * 1 - erf(\p x). * * \return * - erfc( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns 2. * - erfc( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - erfc(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double erfc(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl erfc(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the complementary error function of the input argument. * * Calculate the complementary error function of the input argument \p x, * 1 - erf(\p x). * * \return * - erfcf( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns 2. * - erfcf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - erfcf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float erfcf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl erfcf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the natural logarithm of the absolute value of the gamma function of the input argument. * * Calculate the natural logarithm of the absolute value of the gamma function of the input argument \p x, namely the value of * \cuda_math_formula \log_{e}\left|\Gamma(x)\right| \end_cuda_math_formula * * \return * - lgamma(1) returns +0. * - lgamma(2) returns +0. * - lgamma(\p x) returns * \cuda_math_formula +\infty \end_cuda_math_formula * if \p x * \cuda_math_formula \leq \end_cuda_math_formula 0 and \p x is an integer. * - lgamma( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - lgamma( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - lgamma(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double lgamma(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl lgamma(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the inverse complementary error function of the input argument. * * Calculate the inverse complementary error function * \cuda_math_formula \operatorname{erfc}^{-1} \end_cuda_math_formula * (\p x), of the input argument \p x in the interval [0, 2]. * * \return * - erfcinv( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - erfcinv(2) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - erfcinv(\p x) returns NaN for \p x outside [0, 2]. * - erfcinv(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double erfcinv(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the inverse complementary error function of the input argument. * * Calculate the inverse complementary error function * \cuda_math_formula \operatorname{erfc}^{-1} \end_cuda_math_formula * (\p x), of the input argument \p x in the interval [0, 2]. * * \return * - erfcinvf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - erfcinvf(2) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - erfcinvf(\p x) returns NaN for \p x outside [0, 2]. * - erfcinvf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float erfcinvf(float x); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the inverse of the standard normal cumulative distribution function. * * Calculate the inverse of the standard normal cumulative distribution function for input argument \p x, * \cuda_math_formula \Phi^{-1}(x) \end_cuda_math_formula. The function is defined for input values in the interval * \cuda_math_formula (0, 1) \end_cuda_math_formula. * * \return * - normcdfinv( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - normcdfinv(1) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - normcdfinv(\p x) returns NaN * if \p x is not in the interval [0,1]. * - normcdfinv(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double normcdfinv(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the inverse of the standard normal cumulative distribution function. * * Calculate the inverse of the standard normal cumulative distribution function for input argument \p x, * \cuda_math_formula \Phi^{-1}(x) \end_cuda_math_formula. The function is defined for input values in the interval * \cuda_math_formula (0, 1) \end_cuda_math_formula. * * \return * - normcdfinvf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - normcdfinvf(1) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - normcdfinvf(\p x) returns NaN * if \p x is not in the interval [0,1]. * - normcdfinvf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float normcdfinvf(float x); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the standard normal cumulative distribution function. * * Calculate the cumulative distribution function of the standard normal distribution for input argument \p x, * \cuda_math_formula \Phi(x) \end_cuda_math_formula. * * \return * - normcdf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns 1. * - normcdf( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - normcdf(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double normcdf(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the standard normal cumulative distribution function. * * Calculate the cumulative distribution function of the standard normal distribution for input argument \p x, * \cuda_math_formula \Phi(x) \end_cuda_math_formula. * * \return * - normcdff( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns 1. * - normcdff( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0 * - normcdff(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float normcdff(float x); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the scaled complementary error function of the input argument. * * Calculate the scaled complementary error function of the input argument \p x, * \cuda_math_formula e^{x^2}\cdot \operatorname{erfc}(x) \end_cuda_math_formula. * * \return * - erfcx( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - erfcx( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - erfcx(NaN) returns NaN. * * \note_accuracy_double */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double erfcx(double x); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the scaled complementary error function of the input argument. * * Calculate the scaled complementary error function of the input argument \p x, * \cuda_math_formula e^{x^2}\cdot \operatorname{erfc}(x) \end_cuda_math_formula. * * \return * - erfcxf( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - erfcxf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0. * - erfcxf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float erfcxf(float x); #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the natural logarithm of the absolute value of the gamma function of the input argument. * * Calculate the natural logarithm of the absolute value of the gamma function of the input argument \p x, namely the value of * \cuda_math_formula \log_{e}\left|\Gamma(x)\right| \end_cuda_math_formula * * \return * - lgammaf(1) returns +0. * - lgammaf(2) returns +0. * - lgammaf(\p x) returns * \cuda_math_formula +\infty \end_cuda_math_formula * if \p x * \cuda_math_formula \leq \end_cuda_math_formula * 0 and \p x is an integer. * - lgammaf( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - lgammaf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - lgammaf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float lgammaf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl lgammaf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the gamma function of the input argument. * * Calculate the gamma function of the input argument \p x, namely the value of * \cuda_math_formula \Gamma(x) \end_cuda_math_formula. * * \return * - tgamma( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - tgamma(\p x) returns NaN if \p x < 0 and \p x is an integer. * - tgamma( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns NaN. * - tgamma( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - tgamma(NaN) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double tgamma(double x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl tgamma(double x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the gamma function of the input argument. * * Calculate the gamma function of the input argument \p x, namely the value of * \cuda_math_formula \Gamma(x) \end_cuda_math_formula. * * \return * - tgammaf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - tgammaf(\p x) returns NaN if \p x < 0 and \p x is an integer. * - tgammaf( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns NaN. * - tgammaf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - tgammaf(NaN) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float tgammaf(float x) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl tgammaf(float x); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** \ingroup CUDA_MATH_DOUBLE * \brief Create value with given magnitude, copying sign of second value. * * Create a floating-point value with the magnitude \p x and the sign of \p y. * * \return * - a value with the magnitude of \p x and the sign of \p y. * - copysign(\p NaN, \p y) returns a \p NaN with the sign of \p y. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double copysign(double x, double y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl copysign(double x, double y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** \ingroup CUDA_MATH_SINGLE * \brief Create value with given magnitude, copying sign of second value. * * Create a floating-point value with the magnitude \p x and the sign of \p y. * * \return * - a value with the magnitude of \p x and the sign of \p y. * - copysignf(\p NaN, \p y) returns a \p NaN with the sign of \p y. */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float copysignf(float x, float y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl copysignf(float x, float y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Return next representable double-precision floating-point value after argument \p x in the direction of \p y. * * Calculate the next representable double-precision floating-point value * following \p x in the direction of \p y. For example, if \p y is greater than \p x, ::nextafter() * returns the smallest representable number greater than \p x * * \return * - nextafter(\p x, \p y) = \p y if \p x equals \p y. * - nextafter(\p x, \p y) = \p NaN if either \p x or \p y are \p NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double nextafter(double x, double y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl nextafter(double x, double y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Return next representable single-precision floating-point value after argument \p x in the direction of \p y. * * Calculate the next representable single-precision floating-point value * following \p x in the direction of \p y. For example, if \p y is greater than \p x, ::nextafterf() * returns the smallest representable number greater than \p x * * \return * - nextafterf(\p x, \p y) = \p y if \p x equals \p y. * - nextafterf(\p x, \p y) = \p NaN if either \p x or \p y are \p NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float nextafterf(float x, float y) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl nextafterf(float x, float y); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_DOUBLE * \brief Returns "Not a Number" value. * * Return a representation of a quiet NaN. Argument \p tagp selects one of the possible representations. * * \return * - nan(\p tagp) returns NaN. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double nan(const char *tagp) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl nan(const char *tagp); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Returns "Not a Number" value * * Return a representation of a quiet NaN. Argument \p tagp selects one of the possible representations. * * \return * - nanf(\p tagp) returns NaN. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float nanf(const char *tagp) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl nanf(const char *tagp); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* namespace std */ #endif extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isinff(float) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isnanf(float) __THROW; #if defined(__APPLE__) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isfinited(double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isfinitef(float) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __signbitd(double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isnand(double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isinfd(double) __THROW; #else /* __APPLE__ */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __finite(double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __finitef(float) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __signbit(double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isnan(double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isinf(double) __THROW; #endif /* __APPLE__ */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __signbitf(float) __THROW; #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_DOUBLE * \brief Compute * \cuda_math_formula x \times y + z \end_cuda_math_formula * as a single operation. * * Compute the value of * \cuda_math_formula x \times y + z \end_cuda_math_formula * as a single ternary operation. After computing the value * to infinite precision, the value is rounded once using round-to-nearest, * ties-to-even rounding mode. * * \return * Returns the rounded value of * \cuda_math_formula x \times y + z \end_cuda_math_formula * as a single operation. * - fma( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p z) returns NaN. * - fma( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p z) returns NaN. * - fma(\p x, \p y, * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns NaN if * \cuda_math_formula x \times y \end_cuda_math_formula * is an exact * \cuda_math_formula +\infty \end_cuda_math_formula. * - fma(\p x, \p y, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns NaN if * \cuda_math_formula x \times y \end_cuda_math_formula * is an exact * \cuda_math_formula -\infty \end_cuda_math_formula. * - fma(\p x, \p y, \cuda_math_formula \pm 0 \end_cuda_math_formula) returns \cuda_math_formula \pm 0 \end_cuda_math_formula if \cuda_math_formula x \times y \end_cuda_math_formula is exact \cuda_math_formula \pm 0 \end_cuda_math_formula. * - fma(\p x, \p y, \cuda_math_formula \mp 0 \end_cuda_math_formula) returns \cuda_math_formula +0 \end_cuda_math_formula if \cuda_math_formula x \times y \end_cuda_math_formula is exact \cuda_math_formula \pm 0 \end_cuda_math_formula. * - fma(\p x, \p y, \p z) returns \cuda_math_formula +0 \end_cuda_math_formula if \cuda_math_formula x \times y + z \end_cuda_math_formula is exactly zero and \cuda_math_formula z \neq 0 \end_cuda_math_formula. * - If either argument is NaN, NaN is returned. * * \note_accuracy_double */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ double fma(double x, double y, double z) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP double __cdecl fma(double x, double y, double z); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ /** * \ingroup CUDA_MATH_SINGLE * \brief Compute * \cuda_math_formula x \times y + z \end_cuda_math_formula * as a single operation. * * Compute the value of * \cuda_math_formula x \times y + z \end_cuda_math_formula * as a single ternary operation. After computing the value * to infinite precision, the value is rounded once using round-to-nearest, * ties-to-even rounding mode. * * \return * Returns the rounded value of * \cuda_math_formula x \times y + z \end_cuda_math_formula * as a single operation. * - fmaf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p z) returns NaN. * - fmaf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p z) returns NaN. * - fmaf(\p x, \p y, * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns NaN if * \cuda_math_formula x \times y \end_cuda_math_formula * is an exact * \cuda_math_formula +\infty \end_cuda_math_formula. * - fmaf(\p x, \p y, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns NaN if * \cuda_math_formula x \times y \end_cuda_math_formula * is an exact * \cuda_math_formula -\infty \end_cuda_math_formula. * - fmaf(\p x, \p y, \cuda_math_formula \pm 0 \end_cuda_math_formula) returns \cuda_math_formula \pm 0 \end_cuda_math_formula if \cuda_math_formula x \times y \end_cuda_math_formula is exact \cuda_math_formula \pm 0 \end_cuda_math_formula. * - fmaf(\p x, \p y, \cuda_math_formula \mp 0 \end_cuda_math_formula) returns \cuda_math_formula +0 \end_cuda_math_formula if \cuda_math_formula x \times y \end_cuda_math_formula is exact \cuda_math_formula \pm 0 \end_cuda_math_formula. * - fmaf(\p x, \p y, \p z) returns \cuda_math_formula +0 \end_cuda_math_formula if \cuda_math_formula x \times y + z \end_cuda_math_formula is exactly zero and \cuda_math_formula z \neq 0 \end_cuda_math_formula. * - If either argument is NaN, NaN is returned. * * \note_accuracy_single */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float fmaf(float x, float y, float z) __THROW; #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ __CUDA_MATH_CRTIMP float __cdecl fmaf(float x, float y, float z); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif /* these are here to avoid warnings on the call graph. long double is not supported on the device */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __signbitl(long double) __THROW; #if defined(__APPLE__) extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isfinite(long double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isinf(long double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isnan(long double) __THROW; #else /* __APPLE__ */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __finitel(long double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isinfl(long double) __THROW; extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int __isnanl(long double) __THROW; #endif /* __APPLE__ */ #if defined(_WIN32) && ( defined(_M_AMD64) || defined(_M_ARM64) ) extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl acosf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl asinf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl atanf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl atan2f(float, float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl cosf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl sinf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl tanf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl coshf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl sinhf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl tanhf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl expf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl logf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl log10f(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl modff(float, float*) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl powf(float, float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl sqrtf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl ceilf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl floorf(float) __THROW; extern __CUDA_MATH_CRTIMP __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float __cdecl fmodf(float, float) __THROW; #else /* _WIN32 && (_M_AMD64 || _M_ARM64) */ #if defined(__QNX__) && !defined(_LIBCPP_VERSION) namespace std { #endif /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the arc cosine of the input argument. * * Calculate the principal value of the arc cosine of the input argument \p x. * * \return * Result will be in radians, in the interval [0, * \cuda_math_formula \pi \end_cuda_math_formula * ] for \p x inside [-1, +1]. * - acosf(1) returns +0. * - acosf(\p x) returns NaN for \p x outside [-1, +1]. * - acosf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float acosf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the arc sine of the input argument. * * Calculate the principal value of the arc sine of the input argument \p x. * * \return * Result will be in radians, in the interval [- * \cuda_math_formula \pi/2 \end_cuda_math_formula * , + * \cuda_math_formula \pi/2 \end_cuda_math_formula * ] for \p x inside [-1, +1]. * - asinf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - asinf(\p x) returns NaN for \p x outside [-1, +1]. * - asinf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float asinf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the arc tangent of the input argument. * * Calculate the principal value of the arc tangent of the input argument \p x. * * \return * Result will be in radians, in the interval [- * \cuda_math_formula \pi/2 \end_cuda_math_formula * , + * \cuda_math_formula \pi/2 \end_cuda_math_formula * ]. * - atanf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - atanf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * /2. * - atanf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float atanf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the arc tangent of the ratio of first and second input arguments. * * Calculate the principal value of the arc tangent of the ratio of first * and second input arguments \p y / \p x. The quadrant of the result is * determined by the signs of inputs \p y and \p x. * * \return * Result will be in radians, in the interval [- * \cuda_math_formula \pi \end_cuda_math_formula * , + * \cuda_math_formula \pi \end_cuda_math_formula * ]. * - atan2f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , -0) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula. * - atan2f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , +0) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - atan2f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p x) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * for \p x < 0. * - atan2f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p x) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * for \p x > 0. * - atan2f(\p y, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\pi \end_cuda_math_formula * /2 for \p y < 0. * - atan2f(\p y, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pi \end_cuda_math_formula * /2 for \p y > 0. * - atan2f( * \cuda_math_formula \pm y \end_cuda_math_formula * , * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * for finite \p y > 0. * - atan2f( * \cuda_math_formula \pm y \end_cuda_math_formula * , * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * for finite \p y > 0. * - atan2f( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p x) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * /2 for finite \p x. * - atan2f( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 3\pi \end_cuda_math_formula * /4. * - atan2f( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \pi \end_cuda_math_formula * /4. * - If either argument is NaN, NaN is returned. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float atan2f(float y, float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the cosine of the input argument. * * Calculate the cosine of the input argument \p x (measured in radians). * * \return * - cosf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - cosf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - cosf(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float cosf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the sine of the input argument. * * Calculate the sine of the input argument \p x (measured in radians). * * \return * - sinf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sinf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - sinf(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float sinf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the tangent of the input argument. * * Calculate the tangent of the input argument \p x (measured in radians). * * \return * - tanf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - tanf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns NaN. * - tanf(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float tanf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the hyperbolic cosine of the input argument. * * Calculate the hyperbolic cosine of the input argument \p x. * * \return * - coshf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - coshf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - coshf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float coshf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the hyperbolic sine of the input argument. * * Calculate the hyperbolic sine of the input argument \p x. * * \return * - sinhf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sinhf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - sinhf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float sinhf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the hyperbolic tangent of the input argument. * * Calculate the hyperbolic tangent of the input argument \p x. * * \return * - tanhf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - tanhf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 1 \end_cuda_math_formula. * - tanhf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float tanhf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the natural logarithm of the input argument. * * Calculate the natural logarithm of the input argument \p x. * * \return * - logf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - logf(1) returns +0. * - logf(\p x) returns NaN for \p x < 0. * - logf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - logf(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float logf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument. * * Calculate * \cuda_math_formula e^x \end_cuda_math_formula , * the base * \cuda_math_formula e \end_cuda_math_formula * exponential of the input argument \p x. * * \return * - expf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1. * - expf( * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0. * - expf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - expf(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float expf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the base 10 logarithm of the input argument. * * Calculate the base 10 logarithm of the input argument \p x. * * \return * - log10f( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula -\infty \end_cuda_math_formula. * - log10f(1) returns +0. * - log10f(\p x) returns NaN for \p x < 0. * - log10f( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - log10f(NaN) returns NaN. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float log10f(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Break down the input argument into fractional and integral parts. * * Break down the argument \p x into fractional and integral parts. The integral part is stored in the argument \p iptr. * Fractional and integral parts are given the same sign as the argument \p x. * * \return * - modff( * \cuda_math_formula \pm x \end_cuda_math_formula * , \p iptr) returns a result with the same sign as \p x. * - modff( * \cuda_math_formula \pm \infty \end_cuda_math_formula * , \p iptr) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * and stores * \cuda_math_formula \pm \infty \end_cuda_math_formula * in the object pointed to by \p iptr. * - modff(NaN, \p iptr) stores a NaN in the object pointed to by \p iptr and returns a NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float modff(float x, float *iptr) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the value of first argument to the power of second argument. * * Calculate the value of \p x to the power of \p y. * * \return * - powf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula * for \p y an odd integer less than 0. * - powf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for \p y less than 0 and not an odd integer. * - powf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * for \p y an odd integer greater than 0. * - powf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns +0 for \p y > 0 and not an odd integer. * - powf(-1, * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns 1. * - powf(+1, \p y) returns 1 for any \p y, even a NaN. * - powf(\p x, * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns 1 for any \p x, even a NaN. * - powf(\p x, \p y) returns a NaN for finite \p x < 0 and finite non-integer \p y. * - powf(\p x, * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for * \cuda_math_formula | x | < 1 \end_cuda_math_formula. * - powf(\p x, * \cuda_math_formula -\infty \end_cuda_math_formula * ) returns +0 for * \cuda_math_formula | x | > 1 \end_cuda_math_formula. * - powf(\p x, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns +0 for * \cuda_math_formula | x | < 1 \end_cuda_math_formula. * - powf(\p x, * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for * \cuda_math_formula | x | > 1 \end_cuda_math_formula. * - powf( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns -0 for \p y an odd integer less than 0. * - powf( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns +0 for \p y < 0 and not an odd integer. * - powf( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns * \cuda_math_formula -\infty \end_cuda_math_formula * for \p y an odd integer greater than 0. * - powf( * \cuda_math_formula -\infty \end_cuda_math_formula * , \p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for \p y > 0 and not an odd integer. * - powf( * \cuda_math_formula +\infty \end_cuda_math_formula * , \p y) returns +0 for \p y < 0. * - powf( * \cuda_math_formula +\infty \end_cuda_math_formula * , \p y) returns * \cuda_math_formula +\infty \end_cuda_math_formula * for \p y > 0. * - powf(\p x, \p y) returns NaN if either \p x or \p y or both are NaN and \p x \cuda_math_formula \neq \end_cuda_math_formula +1 and \p y \cuda_math_formula \neq\pm 0 \end_cuda_math_formula. * * \note_accuracy_single * \note_fastmath */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float powf(float x, float y) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the square root of the input argument. * * Calculate the nonnegative square root of \p x, * \cuda_math_formula \sqrt{x} \end_cuda_math_formula. * * \return * Returns * \cuda_math_formula \sqrt{x} \end_cuda_math_formula. * - sqrtf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - sqrtf( * \cuda_math_formula +\infty \end_cuda_math_formula * ) returns * \cuda_math_formula +\infty \end_cuda_math_formula. * - sqrtf(\p x) returns NaN if \p x is less than 0. * - sqrtf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float sqrtf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate ceiling of the input argument. * * Compute the smallest integer value not less than \p x. * * \return * Returns * \cuda_math_formula \lceil x \rceil \end_cuda_math_formula * expressed as a floating-point number. * - ceilf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - ceilf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - ceilf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float ceilf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the largest integer less than or equal to \p x. * * Calculate the largest integer value which is less than or equal to \p x. * * \return * Returns * \cuda_math_formula \lfloor x \rfloor \end_cuda_math_formula * expressed as a floating-point number. * - floorf( * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns * \cuda_math_formula \pm \infty \end_cuda_math_formula. * - floorf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * ) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula. * - floorf(NaN) returns NaN. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float floorf(float x) __THROW; /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the floating-point remainder of \p x / \p y. * * Calculate the floating-point remainder of \p x / \p y. * The floating-point remainder of the division operation \p x / \p y calculated * by this function is exactly the value x - n*y, where \p n is \p x / \p y with its fractional part truncated. * The computed value will have the same sign as \p x, and its magnitude will be less than the magnitude of \p y. * \return * - Returns the floating-point remainder of \p x / \p y. * - fmodf( * \cuda_math_formula \pm 0 \end_cuda_math_formula * , \p y) returns * \cuda_math_formula \pm 0 \end_cuda_math_formula * if \p y is not zero. * - fmodf(\p x, * \cuda_math_formula \pm \infty \end_cuda_math_formula * ) returns \p x if \p x is finite. * - fmodf(\p x, \p y) returns NaN if \p x is * \cuda_math_formula \pm\infty \end_cuda_math_formula * or \p y is zero. * - If either argument is NaN, NaN is returned. * * \note_accuracy_single */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float fmodf(float x, float y) __THROW; #if defined(__QNX__) /* redeclare some builtins that QNX uses */ extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float _FLog(float, int); extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float _FCosh(float, float); extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float _FSinh(float, float); extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ float _FSinx(float, unsigned int, int); extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int _FDsign(float); extern __DEVICE_FUNCTIONS_DECL__ __device_builtin__ int _Dsign(double); #endif #if defined(__QNX__) && !defined(_LIBCPP_VERSION) } /* std */ #endif #endif /* _WIN32 && (_M_AMD64 || _M_ARM64) */ } #if !defined(__CUDACC_RTC__) #include #include #ifndef __CUDA_INTERNAL_SKIP_CPP_HEADERS__ #include #include #endif /* __CUDA_INTERNAL_SKIP_CPP_HEADERS__ */ #endif /* __CUDACC_RTC__ */ /******************************************************************************* * * * * * * *******************************************************************************/ #if defined(__CUDACC_RTC__) __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(long double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(long double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(long double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(long double x); #elif defined(__GNUC__) #undef signbit #undef isfinite #undef isnan #undef isinf #if defined(__APPLE__) __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(float x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(double x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(long double x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(float x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(double x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(long double x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(double x) throw(); #if !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 7000 __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(float x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(long double x); #else /* !(!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 7000) */ template __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool __libcpp_isnan(T) _NOEXCEPT; inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isnan(float x) _NOEXCEPT; inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isnan(long double x) _NOEXCEPT; #endif /* !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 7000 */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(double x) throw(); #if !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 7000 __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(float x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(long double x); #else /* !(!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 7000) */ template __cudart_builtin__ __DEVICE_FUNCTIONS_DECL__ bool __libcpp_isinf(T) _NOEXCEPT; inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isinf(float x) _NOEXCEPT; inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isinf(long double x) _NOEXCEPT; #endif /* !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 7000 */ #else /* __APPLE__ */ #if ((defined _GLIBCXX_MATH_H) && _GLIBCXX_MATH_H) && (__cplusplus >= 201103L) #if !defined(_NVHPC_CUDA) namespace std { __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool signbit(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool signbit(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool signbit(long double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isfinite(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isfinite(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isfinite(long double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isnan(float x); /* GCC 6.1 uses ::isnan(double x) for isnan(double x) if the condition is true */ #if _GLIBCXX_HAVE_OBSOLETE_ISNAN && !_GLIBCXX_NO_OBSOLETE_ISINF_ISNAN_DYNAMIC __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(double x) throw(); #else /* !(_GLIBCXX_HAVE_OBSOLETE_ISNAN && !_GLIBCXX_NO_OBSOLETE_ISINF_ISNAN_DYNAMIC) */ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isnan(double x); #endif /* _GLIBCXX_HAVE_OBSOLETE_ISNAN && !_GLIBCXX_NO_OBSOLETE_ISINF_ISNAN_DYNAMIC */ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isnan(long double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isinf(float x); /* GCC 6.1 uses ::isinf(double x) for isinf(double x) if the condition is true. */ #if _GLIBCXX_HAVE_OBSOLETE_ISINF && !_GLIBCXX_NO_OBSOLETE_ISINF_ISNAN_DYNAMIC __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(double x) throw(); #else /* !(_GLIBCXX_HAVE_OBSOLETE_ISINF && !_GLIBCXX_NO_OBSOLETE_ISINF_ISNAN_DYNAMIC) */ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isinf(double x); #endif /* _GLIBCXX_HAVE_OBSOLETE_ISINF && !_GLIBCXX_NO_OBSOLETE_ISINF_ISNAN_DYNAMIC */ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ constexpr bool isinf(long double x); } #endif #else /* !(((defined _GLIBCXX_MATH_H) && _GLIBCXX_MATH_H) && (__cplusplus >= 201103L)) */ #if defined(__QNX__) #if (__QNX__) && !defined(_LIBCPP_VERSION) /* QNX defines functions in std, need to declare them here */ namespace std { __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool signbit(float x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool signbit(double x); __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool signbit(long double x); } #else static __inline__ __DEVICE_FUNCTIONS_DECL__ bool signbit(const float x); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool signbit(const double x); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool signbit(const long double x); #endif static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isfinite(const float a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isfinite(const double a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isfinite(const long double a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isnan(const float a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isnan(const double a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isnan(const long double a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isinf(const float a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isinf(const double a); static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isinf(const long double a); #else /* ! __QNX__ */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(const float x); #if defined(__ICC) __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(const double x) throw(); #else /* !__ICC */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(const double x); #endif /* __ICC */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int signbit(const long double x); __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(const float x); #if defined(__ICC) __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(const double x) throw(); #else /* !__ICC */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(const double x); #endif /* __ICC */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isfinite(const long double x); #if (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 template __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool __libcpp_isnan(T) _NOEXCEPT; inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isnan(float x) _NOEXCEPT; #else /* !((defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000) */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(float x); #endif /* (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 */ #if defined(__ANDROID__) || defined(__HORIZON__) #if !defined(_LIBCPP_VERSION) __forceinline__ #endif /* !defined(_LIBCPP_VERSION) */ #if _LIBCPP_VERSION >= 7000 #ifdef _LIBCPP_PREFERRED_OVERLOAD _LIBCPP_INLINE_VISIBILITY _LIBCPP_PREFERRED_OVERLOAD __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isnan(double x) _NOEXCEPT; #endif /* _LIBCPP_PREFERRED_OVERLOAD */ #else /* _LIBCPP_VERSION < 7000 */ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(double x); #endif /* _LIBCPP_VERSION >= 7000 */ #else /* !(__ANDROID__ || __HORIZON__) */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(double x) throw(); #endif /* __ANDROID__ */ #if (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isnan(long double x) _NOEXCEPT; #else /* !( (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000) */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isnan(long double x); #endif /* (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 */ #if (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 static __inline__ __cudart_builtin__ __DEVICE_FUNCTIONS_DECL__ unsigned __FLOAT_BITS(float __f); static __inline__ __cudart_builtin__ __DEVICE_FUNCTIONS_DECL__ unsigned long long __DOUBLE_BITS(double __f); template __cudart_builtin__ __DEVICE_FUNCTIONS_DECL__ bool __libcpp_isinf(T) _NOEXCEPT; inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isinf(float x) _NOEXCEPT; #else /* !( (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000) */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(float x); #endif /* (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 */ #if defined(__ANDROID__) || defined(__HORIZON__) #if !defined(_LIBCPP_VERSION) __forceinline__ #endif /* !defined(_LIBCPP_VERSION) */ #if _LIBCPP_VERSION >= 7000 #ifdef _LIBCPP_PREFERRED_OVERLOAD _LIBCPP_INLINE_VISIBILITY _LIBCPP_PREFERRED_OVERLOAD __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isinf(double x) _NOEXCEPT; #endif /* _LIBCPP_PREFERRED_OVERLOAD */ #else /* _LIBCPP_VERSION < 7000 */ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(double x); #endif /* _LIBCPP_VERSION >= 7000 */ #else /* ! (__ANDROID__ || __HORIZON__) */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(double x) throw(); #endif /* __ANDROID__ || __HORIZON__ */ #if (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 inline _LIBCPP_INLINE_VISIBILITY __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool isinf(long double x) _NOEXCEPT; #else /* !( (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000) */ __forceinline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ int isinf(long double x); #endif /* (defined(__ANDROID__) || defined(__HORIZON__)) && _LIBCPP_VERSION >= 8000 */ #endif /* __QNX__ */ #endif /* ((defined _GLIBCXX_MATH_H) && _GLIBCXX_MATH_H) && (__cplusplus >= 201103L) */ #endif /* __APPLE__ */ #if !defined(_LIBCPP_VERSION) #if defined(__clang__) #if __has_include() #define __NV_GLIBCXX_VERSION 40800 #endif /* __has_include() */ #endif /* __clang__ */ #if !defined(__NV_GLIBCXX_VERSION) #define __NV_GLIBCXX_VERSION (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__) #endif /* !__NV_GLIBCXX_VERSION */ #endif /* !defined(_LIBCPP_VERSION) */ #if !defined(__HORIZON__) || !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 3800 #if defined(__arm__) && !defined(_STLPORT_VERSION) && !_GLIBCXX_USE_C99 #if !defined(__ANDROID__) || (defined(__NV_GLIBCXX_VERSION) && __NV_GLIBCXX_VERSION < 40800) #if defined(__QNX__) /* QNX defines functions in std, need to declare them here */ namespace std { __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs (long long int a); } #elif defined(__HORIZON__) #if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER) #pragma GCC system_header #endif _LIBCPP_BEGIN_NAMESPACE_STD __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs (long long int a) throw(); _LIBCPP_END_NAMESPACE_STD #else static __inline__ __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs(long long int a); #endif /* __QNX__ || __HORIZON__*/ #endif /* !__ANDROID__ || (defined(__NV_GLIBCXX_VERSION) && __NV_GLIBCXX_VERSION < 40800) */ #endif /* __arm__ && !_STLPORT_VERSION && !_GLIBCXX_USE_C99 */ #endif /* !defined(__HORIZON__) || !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 3800 */ #if defined(__NV_GLIBCXX_VERSION) && __NV_GLIBCXX_VERSION < 40800 && !defined(__ibmxl__) #if !defined(_STLPORT_VERSION) namespace __gnu_cxx { #endif /* !_STLPORT_VERSION */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs(long long int a); #if !defined(_STLPORT_VERSION) } #endif /* !_STLPORT_VERSION */ #endif /* defined(__NV_GLIBCXX_VERSION) && __NV_GLIBCXX_VERSION < 40800 && !__ibmxl__ */ namespace std { template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ T __pow_helper(T, int); template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ T __cmath_power(T, unsigned int); } using std::abs; using std::fabs; using std::ceil; using std::floor; using std::sqrt; #if !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 3800 using std::pow; #endif /* !defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 3800 */ using std::log; using std::log10; using std::fmod; using std::modf; using std::exp; using std::frexp; using std::ldexp; using std::asin; using std::sin; using std::sinh; using std::acos; using std::cos; using std::cosh; using std::atan; using std::atan2; using std::tan; using std::tanh; #elif defined(_WIN32) extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __CUDA_MATH_CRTIMP double __cdecl _hypot(double x, double y); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __CUDA_MATH_CRTIMP float __cdecl _hypotf(float x, float y); #if (!defined(_MSC_VER) || _MSC_VER < 1800) static __inline__ __DEVICE_FUNCTIONS_DECL__ int signbit(long double a); #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if _MSC_VER >= 1900 #define __SIGNBIT_THROW throw() #else #define __SIGNBIT_THROW #endif extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ bool signbit(long double) __SIGNBIT_THROW; extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __device_builtin__ __CUDA_MATH_CRTIMP int _ldsign(long double); #undef __SIGNBIT_THROW #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_DOUBLE * * \brief Return the sign bit of the input. * * Determine whether the floating-point value \p a is negative. * * \return * Reports the sign bit of all values including infinities, zeros, and NaNs. * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is negative. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a * nonzero value if and only if \p a is negative. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE signbit(double a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool #if _MSC_VER >= 1900 #define __SIGNBIT_THROW throw() #else #define __SIGNBIT_THROW #endif /** * \ingroup CUDA_MATH_DOUBLE * * \brief Return the sign bit of the input. * * Determine whether the floating-point value \p a is negative. * * \return * Reports the sign bit of all values including infinities, zeros, and NaNs. * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is negative. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a * nonzero value if and only if \p a is negative. */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __RETURN_TYPE signbit(double) __SIGNBIT_THROW; extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __device_builtin__ __CUDA_MATH_CRTIMP int _dsign(double); #undef __RETURN_TYPE #undef __SIGNBIT_THROW #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_SINGLE * * \brief Return the sign bit of the input. * * Determine whether the floating-point value \p a is negative. * * \return * Reports the sign bit of all values including infinities, zeros, and NaNs. * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is negative. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a nonzero value * if and only if \p a is negative. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE signbit(float a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool #if _MSC_VER >= 1900 #define __SIGNBIT_THROW throw() #else #define __SIGNBIT_THROW #endif /** * \ingroup CUDA_MATH_SINGLE * * \brief Return the sign bit of the input. * * Determine whether the floating-point value \p a is negative. * * \return * Reports the sign bit of all values including infinities, zeros, and NaNs. * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is negative. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a nonzero value * if and only if \p a is negative. */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __RETURN_TYPE signbit(float) __SIGNBIT_THROW; extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ __device_builtin__ __CUDA_MATH_CRTIMP int _fdsign(float); #undef __RETURN_TYPE #undef __SIGNBIT_THROW #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) static __inline__ __DEVICE_FUNCTIONS_DECL__ int isinf(long double a); #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isinf(long double a); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_DOUBLE * * \brief Determine whether argument is infinite. * * Determine whether the floating-point value \p a is an infinite value * (positive or negative). * \return * - With Visual Studio 2013 host compiler: Returns true if and only * if \p a is an infinite value. * - With other host compilers: Returns a nonzero value if and only * if \p a is an infinite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isinf(double a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool /** * \ingroup CUDA_MATH_DOUBLE * * \brief Determine whether argument is infinite. * * Determine whether the floating-point value \p a is an infinite value * (positive or negative). * \return * - With Visual Studio 2013 host compiler: Returns true if and only * if \p a is an infinite value. * - With other host compilers: Returns a nonzero value if and only * if \p a is an infinite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isinf(double a); #undef __RETURN_TYPE #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_SINGLE * * \brief Determine whether argument is infinite. * * Determine whether the floating-point value \p a is an infinite value * (positive or negative). * * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is an infinite value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a nonzero * value if and only if \p a is an infinite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isinf(float a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool /** * \ingroup CUDA_MATH_SINGLE * * \brief Determine whether argument is infinite. * * Determine whether the floating-point value \p a is an infinite value * (positive or negative). * * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is an infinite value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a nonzero * value if and only if \p a is an infinite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isinf(float a); #undef __RETURN_TYPE #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) static __inline__ __DEVICE_FUNCTIONS_DECL__ int isnan(long double a); #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isnan(long double a); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_DOUBLE * * \brief Determine whether argument is a NaN. * * Determine whether the floating-point value \p a is a NaN. * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. * Returns true if and only if \p a is a NaN value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a * nonzero value if and only if \p a is a NaN value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isnan(double a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool /** * \ingroup CUDA_MATH_DOUBLE * * \brief Determine whether argument is a NaN. * * Determine whether the floating-point value \p a is a NaN. * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. * Returns true if and only if \p a is a NaN value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a * nonzero value if and only if \p a is a NaN value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isnan(double a); #undef __RETURN_TYPE #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_SINGLE * * * \brief Determine whether argument is a NaN. * * Determine whether the floating-point value \p a is a NaN. * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. * Returns true if and only if \p a is a NaN value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a * nonzero value if and only if \p a is a NaN value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isnan(float a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool /** * \ingroup CUDA_MATH_SINGLE * * * \brief Determine whether argument is a NaN. * * Determine whether the floating-point value \p a is a NaN. * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. * Returns true if and only if \p a is a NaN value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns a * nonzero value if and only if \p a is a NaN value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isnan(float a); #undef __RETURN_TYPE #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) static __inline__ __DEVICE_FUNCTIONS_DECL__ int isfinite(long double a); #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ static __inline__ __DEVICE_FUNCTIONS_DECL__ bool isfinite(long double a); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_DOUBLE * * \brief Determine whether argument is finite. * * Determine whether the floating-point value \p a is a finite value * (zero, subnormal, or normal and not infinity or NaN). * * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is a finite value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns * a nonzero value if and only if \p a is a finite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isfinite(double a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool /** * \ingroup CUDA_MATH_DOUBLE * * \brief Determine whether argument is finite. * * Determine whether the floating-point value \p a is a finite value * (zero, subnormal, or normal and not infinity or NaN). * * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is a finite value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns * a nonzero value if and only if \p a is a finite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isfinite(double a); #undef __RETURN_TYPE #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #define __RETURN_TYPE int /** * \ingroup CUDA_MATH_SINGLE * \brief Determine whether argument is finite. * * Determine whether the floating-point value \p a is a finite value * (zero, subnormal, or normal and not infinity or NaN). * * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is a finite value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns * a nonzero value if and only if \p a is a finite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isfinite(float a); #undef __RETURN_TYPE #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #define __RETURN_TYPE bool /** * \ingroup CUDA_MATH_SINGLE * \brief Determine whether argument is finite. * * Determine whether the floating-point value \p a is a finite value * (zero, subnormal, or normal and not infinity or NaN). * * \return * - With Visual Studio 2013 host compiler: __RETURN_TYPE is 'bool'. Returns * true if and only if \p a is a finite value. * - With other host compilers: __RETURN_TYPE is 'int'. Returns * a nonzero value if and only if \p a is a finite value. */ static __inline__ __DEVICE_FUNCTIONS_DECL__ __RETURN_TYPE isfinite(float a); #undef __RETURN_TYPE #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ T _Pow_int(T, int); /** * \ingroup CUDA_MATH_INT * \brief Calculate the absolute value of the input \p long \p long \p int argument. * * Calculate the absolute value of the input argument \p a. * * \return * Returns the absolute value of the input argument. * - abs(\p LLONG_MIN) is \p Undefined */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs(long long int a); #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ T _Pow_int(T, int) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs(long long int) throw(); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ #endif /* __CUDACC_RTC__ */ #if __cplusplus >= 201103L #define __NV_NOEXCEPT noexcept #else /* !__cplusplus >= 201103L */ #define __NV_NOEXCEPT throw() #endif /* __cplusplus >= 201103L */ #if defined(_LIBCPP_VERSION) && defined(_LIBCPP_BEGIN_NAMESPACE_STD) && !defined(_STLPORT_VERSION) #if defined(__clang__) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wc++11-extensions" #endif /* __clang__ */ #if _LIBCPP_VERSION < 3800 _LIBCPP_BEGIN_NAMESPACE_STD #endif /* _LIBCPP_VERSION < 3800 */ #elif defined(__GNUC__) && !defined(_STLPORT_VERSION) namespace std { #endif /* defined(_LIBCPP_VERSION) && defined(_LIBCPP_BEGIN_NAMESPACE_STD) && !defined(_STLPORT_VERSION) || __GNUC__ && !_STLPORT_VERSION */ #if defined(__CUDACC_RTC__) || defined(__GNUC__) #if defined(__CUDACC_RTC__) || \ (defined(__NV_GLIBCXX_VERSION) && __NV_GLIBCXX_VERSION >= 40800) || \ defined(__ibmxl__) extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int abs(long long int); #endif /* __CUDACC__RTC__ || (defined(__NV_GLIBCXX_VERSION) && __NV_GLIBCXX_VERSION >= 40800) || __ibmxl__ */ #endif /* __CUDACC_RTC__ || __GNUC__ */ #if defined(__CUDACC_RTC__) || \ (!defined(_MSC_VER) || _MSC_VER < 1800) && \ (!defined(_LIBCPP_VERSION) || (_LIBCPP_VERSION < 1101)) /** * \ingroup CUDA_MATH_INT * \brief Calculate the absolute value of the input \p long \p int argument. * * Calculate the absolute value of the input argument \p a. * * \return * Returns the absolute value of the input argument. * - abs(\p LONG_MIN) is \p Undefined */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long int __cdecl abs(long int a); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl abs(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ double __cdecl abs(double); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl fabs(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl ceil(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl floor(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl sqrt(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl pow(float, float); #if !defined(__QNX__) #if defined(__GNUC__) && __cplusplus >= 201103L && !defined(_LIBCPP_VERSION) template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ typename __gnu_cxx::__promote_2<_Tp, _Up>::__type pow(_Tp, _Up); #else /* !(defined(__GNUC__) && __cplusplus >= 201103L && !defined(_LIBCPP_VERSION)) */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl pow(float, int); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ double __cdecl pow(double, int); #endif /* defined(__GNUC__) && __cplusplus >= 201103L && !defined(_LIBCPP_VERSION) */ #endif /* !defined(__QNX__) */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl log(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl log10(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl fmod(float, float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl modf(float, float*); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl exp(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl frexp(float, int*); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl ldexp(float, int); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl asin(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl sin(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl sinh(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl acos(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl cos(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl cosh(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl atan(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl atan2(float, float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl tan(float); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl tanh(float); #else /* __CUDACC_RTC__ || (!defined(_MSC_VER) || _MSC_VER < 1800) && (!defined(_LIBCPP_VERSION) || (_LIBCPP_VERSION < 1101)) */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long int __cdecl abs(long int) throw(); #if defined(_LIBCPP_VERSION) extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ long long int __cdecl abs(long long int) throw(); #endif /* defined(_LIBCPP_VERSION) */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl abs(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ double __cdecl abs(double) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl fabs(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl ceil(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl floor(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl sqrt(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl pow(float, float) throw(); #if defined(_LIBCPP_VERSION) #if (defined (__ANDROID__) || defined(__HORIZON__)) && (_LIBCPP_VERSION >= 9000) template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ #if _LIBCPP_VERSION >= 14000 typename std::__enable_if_t #else /* _LIBCPP_VERSION < 14000 */ typename std::_EnableIf #endif /* _LIBCPP_VERSION >= 14000 */ < std::is_arithmetic<_A1>::value && std::is_arithmetic<_A2>::value, std::__promote<_A1, _A2> >::type pow(_A1 __lcpp_x, _A2 __lcpp_y) __NV_NOEXCEPT; #elif (defined(__APPLE__) && __clang_major__ >= 7) || _LIBCPP_VERSION >= 3800 || defined(__QNX__) template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ #if defined(__QNX__) && (_LIBCPP_VERSION >= 160000) typename std::__enable_if_t < #elif _LIBCPP_VERSION >= 13000 typename std::enable_if < #else /* #defined(__QNX__) && (_LIBCPP_VERSION >= 160000) */ typename std::__lazy_enable_if < #endif /* _LIBCPP_VERSION >= 160000 */ std::is_arithmetic<_Tp>::value && std::is_arithmetic<_Up>::value, std::__promote<_Tp, _Up> >::type pow(_Tp __x, _Up __y) __NV_NOEXCEPT; #else /* !((__APPLE__ && __clang_major__ >= 7) || _LIBCPP_VERSION >= 3800) */ template extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ typename enable_if < std::is_arithmetic<_Tp>::value && std::is_arithmetic<_Up>::value, typename std::__promote<_Tp, _Up>::type >::type pow(_Tp __x, _Up __y) __NV_NOEXCEPT; #endif /* (__APPLE__ && __clang_major__ >= 7) || _LIBCPP_VERSION >= 3800 */ #else /* !defined(_LIBCPP_VERSION) */ #if !(defined(__GNUC__) && __cplusplus >= 201103L) #if (defined(_MSC_VER) && (_MSC_VER >= 1928)) && !(defined __CUDA_INTERNAL_SKIP_CPP_HEADERS__) template && ::std:: is_arithmetic_v<_Ty2>, int> > [[nodiscard]] __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ ::std:: _Common_float_type_t<_Ty1, _Ty2> __cdecl pow(_Ty1 _Left, _Ty2 _Right) noexcept; #else extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl pow(float, int) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ double __cdecl pow(double, int) throw(); #endif /* (defined(_MSC_VER) && (_MSC_VER >= 1928)) && !(defined __CUDA_INTERNAL_SKIP_CPP_HEADERS__) */ #endif /* !(defined(__GNUC__) && __cplusplus >= 201103L) */ #endif /* defined(_LIBCPP_VERSION) */ extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl log(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl log10(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl fmod(float, float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl modf(float, float*) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl exp(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl frexp(float, int*) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl ldexp(float, int) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl asin(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl sin(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl sinh(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl acos(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl cos(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl cosh(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl atan(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl atan2(float, float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl tan(float) throw(); extern __DEVICE_FUNCTIONS_DECL__ __cudart_builtin__ float __cdecl tanh(float) throw(); #endif /* __CUDACC_RTC__ || (!defined(_MSC_VER) || _MSC_VER < 1800) && (!defined(_LIBCPP_VERSION) || (_LIBCPP_VERSION < 1101)) */ #if defined(_LIBCPP_VERSION) && defined(_LIBCPP_END_NAMESPACE_STD) && !defined(_STLPORT_VERSION) #if _LIBCPP_VERSION < 3800 _LIBCPP_END_NAMESPACE_STD #endif /* _LIBCPP_VERSION < 3800 */ #if defined(__clang__) #pragma clang diagnostic pop #endif /* __clang__ */ #elif defined(__GNUC__) && !defined(_STLPORT_VERSION) } #endif /* defined(_LIBCPP_VERSION) && defined(_LIBCPP_BEGIN_NAMESPACE_STD) && !defined(_STLPORT_VERSION) || __GNUC__ && !_STLPORT_VERSION */ #undef __DEVICE_FUNCTIONS_DECL__ #undef __NV_NOEXCEPT #if defined(__CUDACC_RTC__) #define __MATH_FUNCTIONS_DECL__ __host__ __device__ #define __MATH_FUNCTIONS_DEVICE_DECL__ __device__ #else /* __CUDACC_RTC__ */ #define __MATH_FUNCTIONS_DECL__ static inline __host__ __device__ __cudart_builtin__ #define __MATH_FUNCTIONS_DEVICE_DECL__ static inline __device__ __cudart_builtin__ #endif /* __CUDACC_RTC__ */ #if (!defined(_MSC_VER) || _MSC_VER < 1800) #if defined(__QNX__) || (defined(_LIBCPP_VERSION) && _LIBCPP_VERSION >= 3800) #if defined(__QNX__) && (!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 8000) #if defined(_LIBCPP_VERSION) #define __NV_NOEXCEPT _NOEXCEPT _LIBCPP_BEGIN_NAMESPACE_STD #else #define __NV_NOEXCEPT namespace std { __host__ __device__ __cudart_builtin__ int ilogbf(float a); #endif #else /* !(defined(__QNX__) && (!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 8000)) */ #define __NV_NOEXCEPT _NOEXCEPT #endif /* defined(__QNX__) && (!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 8000) */ __host__ __device__ __cudart_builtin__ float logb(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ int ilogb(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float scalbn(float a, int b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float scalbln(float a, long int b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float exp2(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float expm1(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float log2(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float log1p(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float acosh(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float asinh(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float atanh(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float hypot(float a, float b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float cbrt(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float erf(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float erfc(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float lgamma(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float tgamma(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float copysign(float a, float b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float nextafter(float a, float b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float remainder(float a, float b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float remquo(float a, float b, int *quo) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float round(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ long int lround(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ long long int llround(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float trunc(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float rint(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ long int lrint(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ long long int llrint(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float nearbyint(float a) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float fdim(float a, float b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float fma(float a, float b, float c) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float fmax(float a, float b) __NV_NOEXCEPT; __host__ __device__ __cudart_builtin__ float fmin(float a, float b) __NV_NOEXCEPT; #if defined(__QNX__) && (!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 8000) #if defined(_LIBCPP_VERSION) _LIBCPP_END_NAMESPACE_STD using _VSTD::logb; using _VSTD::ilogb; using _VSTD::scalbn; using _VSTD::scalbln; using _VSTD::exp2; using _VSTD::expm1; using _VSTD::log2; using _VSTD::log1p; using _VSTD::acosh; using _VSTD::asinh; using _VSTD::atanh; using _VSTD::hypot; using _VSTD::cbrt; using _VSTD::erf; using _VSTD::erfc; using _VSTD::lgamma; using _VSTD::tgamma; using _VSTD::copysign; using _VSTD::nextafter; using _VSTD::remainder; using _VSTD::remquo; using _VSTD::round; using _VSTD::lround; using _VSTD::llround; using _VSTD::trunc; using _VSTD::rint; using _VSTD::lrint; using _VSTD::llrint; using _VSTD::nearbyint; using _VSTD::fdim; using _VSTD::fma; using _VSTD::fmax; using _VSTD::fmin; #else } #endif #endif /* defined(__QNX__) && (!defined(_LIBCPP_VERSION) || _LIBCPP_VERSION < 8000) */ #undef __NV_NOEXCEPT #else /* !(defined(__QNX__ ) || (defined(_LIBCPP_VERSION) && _LIBCPP_VERSION >= 3800)) */ #if ((defined _GLIBCXX_MATH_H) && _GLIBCXX_MATH_H) && (__cplusplus >= 201103L) namespace std { __host__ __device__ __cudart_builtin__ constexpr float logb(float a); __host__ __device__ __cudart_builtin__ constexpr int ilogb(float a); __host__ __device__ __cudart_builtin__ constexpr float scalbn(float a, int b); __host__ __device__ __cudart_builtin__ constexpr float scalbln(float a, long int b); __host__ __device__ __cudart_builtin__ constexpr float exp2(float a); __host__ __device__ __cudart_builtin__ constexpr float expm1(float a); __host__ __device__ __cudart_builtin__ constexpr float log2(float a); __host__ __device__ __cudart_builtin__ constexpr float log1p(float a); __host__ __device__ __cudart_builtin__ constexpr float acosh(float a); __host__ __device__ __cudart_builtin__ constexpr float asinh(float a); __host__ __device__ __cudart_builtin__ constexpr float atanh(float a); __host__ __device__ __cudart_builtin__ constexpr float hypot(float a, float b); __host__ __device__ __cudart_builtin__ constexpr float cbrt(float a); __host__ __device__ __cudart_builtin__ constexpr float erf(float a); __host__ __device__ __cudart_builtin__ constexpr float erfc(float a); __host__ __device__ __cudart_builtin__ constexpr float lgamma(float a); __host__ __device__ __cudart_builtin__ constexpr float tgamma(float a); __host__ __device__ __cudart_builtin__ constexpr float copysign(float a, float b); __host__ __device__ __cudart_builtin__ constexpr float nextafter(float a, float b); __host__ __device__ __cudart_builtin__ constexpr float remainder(float a, float b); __host__ __device__ __cudart_builtin__ float remquo(float a, float b, int *quo); __host__ __device__ __cudart_builtin__ constexpr float round(float a); __host__ __device__ __cudart_builtin__ constexpr long int lround(float a); __host__ __device__ __cudart_builtin__ constexpr long long int llround(float a); __host__ __device__ __cudart_builtin__ constexpr float trunc(float a); __host__ __device__ __cudart_builtin__ constexpr float rint(float a); __host__ __device__ __cudart_builtin__ constexpr long int lrint(float a); __host__ __device__ __cudart_builtin__ constexpr long long int llrint(float a); __host__ __device__ __cudart_builtin__ constexpr float nearbyint(float a); __host__ __device__ __cudart_builtin__ constexpr float fdim(float a, float b); __host__ __device__ __cudart_builtin__ constexpr float fma(float a, float b, float c); __host__ __device__ __cudart_builtin__ constexpr float fmax(float a, float b); __host__ __device__ __cudart_builtin__ constexpr float fmin(float a, float b); } #else /* !(((defined _GLIBCXX_MATH_H) && _GLIBCXX_MATH_H) && (__cplusplus >= 201103L)) */ __MATH_FUNCTIONS_DECL__ float logb(float a); __MATH_FUNCTIONS_DECL__ int ilogb(float a); __MATH_FUNCTIONS_DECL__ float scalbn(float a, int b); __MATH_FUNCTIONS_DECL__ float scalbln(float a, long int b); __MATH_FUNCTIONS_DECL__ float exp2(float a); __MATH_FUNCTIONS_DECL__ float expm1(float a); __MATH_FUNCTIONS_DECL__ float log2(float a); __MATH_FUNCTIONS_DECL__ float log1p(float a); __MATH_FUNCTIONS_DECL__ float acosh(float a); __MATH_FUNCTIONS_DECL__ float asinh(float a); __MATH_FUNCTIONS_DECL__ float atanh(float a); __MATH_FUNCTIONS_DECL__ float hypot(float a, float b); __MATH_FUNCTIONS_DECL__ float cbrt(float a); __MATH_FUNCTIONS_DECL__ float erf(float a); __MATH_FUNCTIONS_DECL__ float erfc(float a); __MATH_FUNCTIONS_DECL__ float lgamma(float a); __MATH_FUNCTIONS_DECL__ float tgamma(float a); __MATH_FUNCTIONS_DECL__ float copysign(float a, float b); __MATH_FUNCTIONS_DECL__ float nextafter(float a, float b); __MATH_FUNCTIONS_DECL__ float remainder(float a, float b); __MATH_FUNCTIONS_DECL__ float remquo(float a, float b, int *quo); __MATH_FUNCTIONS_DECL__ float round(float a); __MATH_FUNCTIONS_DECL__ long int lround(float a); __MATH_FUNCTIONS_DECL__ long long int llround(float a); __MATH_FUNCTIONS_DECL__ float trunc(float a); __MATH_FUNCTIONS_DECL__ float rint(float a); __MATH_FUNCTIONS_DECL__ long int lrint(float a); __MATH_FUNCTIONS_DECL__ long long int llrint(float a); __MATH_FUNCTIONS_DECL__ float nearbyint(float a); __MATH_FUNCTIONS_DECL__ float fdim(float a, float b); __MATH_FUNCTIONS_DECL__ float fma(float a, float b, float c); __MATH_FUNCTIONS_DECL__ float fmax(float a, float b); __MATH_FUNCTIONS_DECL__ float fmin(float a, float b); #endif /* ((defined _GLIBCXX_MATH_H) && _GLIBCXX_MATH_H) && (__cplusplus >= 201103L) */ #endif /* defined(__QNX__) || (defined(_LIBCPP_VERSION) && _LIBCPP_VERSION >= 3800) */ #else /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ extern __host__ __device__ __cudart_builtin__ float __cdecl logb(float) throw(); extern __host__ __device__ __cudart_builtin__ int __cdecl ilogb(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl scalbn(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl scalbln(float, long int) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl exp2(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl expm1(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl log2(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl log1p(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl acosh(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl asinh(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl atanh(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl hypot(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl cbrt(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl erf(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl erfc(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl lgamma(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl tgamma(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl copysign(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl nextafter(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl remainder(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl remquo(float, float, int *) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl round(float) throw(); extern __host__ __device__ __cudart_builtin__ long int __cdecl lround(float) throw(); extern __host__ __device__ __cudart_builtin__ long long int __cdecl llround(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl trunc(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl rint(float) throw(); extern __host__ __device__ __cudart_builtin__ long int __cdecl lrint(float) throw(); extern __host__ __device__ __cudart_builtin__ long long int __cdecl llrint(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl nearbyint(float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl fdim(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl fma(float, float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl fmax(float, float) throw(); extern __host__ __device__ __cudart_builtin__ float __cdecl fmin(float, float) throw(); #endif /* (!defined(_MSC_VER) || _MSC_VER < 1800) */ __MATH_FUNCTIONS_DECL__ float exp10(const float a); __MATH_FUNCTIONS_DECL__ float rsqrt(const float a); __MATH_FUNCTIONS_DECL__ float rcbrt(const float a); __MATH_FUNCTIONS_DECL__ float sinpi(const float a); __MATH_FUNCTIONS_DECL__ float cospi(const float a); __MATH_FUNCTIONS_DECL__ void sincospi(const float a, float *const sptr, float *const cptr); __MATH_FUNCTIONS_DECL__ void sincos(const float a, float *const sptr, float *const cptr); __MATH_FUNCTIONS_DECL__ float j0(const float a); __MATH_FUNCTIONS_DECL__ float j1(const float a); __MATH_FUNCTIONS_DECL__ float jn(const int n, const float a); __MATH_FUNCTIONS_DECL__ float y0(const float a); __MATH_FUNCTIONS_DECL__ float y1(const float a); __MATH_FUNCTIONS_DECL__ float yn(const int n, const float a); __MATH_FUNCTIONS_DEVICE_DECL__ float cyl_bessel_i0(const float a); __MATH_FUNCTIONS_DEVICE_DECL__ float cyl_bessel_i1(const float a); __MATH_FUNCTIONS_DECL__ float erfinv(const float a); __MATH_FUNCTIONS_DECL__ float erfcinv(const float a); __MATH_FUNCTIONS_DECL__ float normcdfinv(const float a); __MATH_FUNCTIONS_DECL__ float normcdf(const float a); __MATH_FUNCTIONS_DECL__ float erfcx(const float a); __MATH_FUNCTIONS_DECL__ double copysign(const double a, const float b); __MATH_FUNCTIONS_DECL__ double copysign(const float a, const double b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ unsigned int min(const unsigned int a, const unsigned int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p int and \p unsigned \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned int min(const int a, const unsigned int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p int and \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned int min(const unsigned int a, const int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ long int min(const long int a, const long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ unsigned long int min(const unsigned long int a, const unsigned long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p long \p int and \p unsigned \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long int min(const long int a, const unsigned long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p long \p int and \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long int min(const unsigned long int a, const long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p long \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ long long int min(const long long int a, const long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p long \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ unsigned long long int min(const unsigned long long int a, const unsigned long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p long \p long \p int and \p unsigned \p long \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long long int min(const long long int a, const unsigned long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the minimum value of the input \p unsigned \p long \p long \p int and \p long \p long \p int arguments. * * Calculate the minimum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long long int min(const unsigned long long int a, const long long int b); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the minimum value of the input \p float arguments. * * Calculate the minimum value of the arguments \p a and \p b. * Behavior is equivalent to ::fminf() function. * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ float min(const float a, const float b); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the minimum value of the input \p float arguments. * * Calculate the minimum value of the arguments \p a and \p b. * Behavior is equivalent to ::fmin() function. * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ double min(const double a, const double b); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the minimum value of the input \p float and \p double arguments. * * Convert \p float argument \p a to \p double, followed by ::fmin(). * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ double min(const float a, const double b); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the minimum value of the input \p double and \p float arguments. * * Convert \p float argument \p b to \p double, followed by ::fmin(). * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ double min(const double a, const float b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ unsigned int max(const unsigned int a, const unsigned int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p int and \p unsigned \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned int max(const int a, const unsigned int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p int and \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned int max(const unsigned int a, const int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ long int max(const long int a, const long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ unsigned long int max(const unsigned long int a, const unsigned long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p long \p int and \p unsigned \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long int max(const long int a, const unsigned long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p long \p int and \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long int max(const unsigned long int a, const long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p long \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ long long int max(const long long int a, const long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p long \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b. */ __MATH_FUNCTIONS_DECL__ unsigned long long int max(const unsigned long long int a, const unsigned long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p long \p long \p int and \p unsigned \p long \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long long int max(const long long int a, const unsigned long long int b); /** * \ingroup CUDA_MATH_INT * \brief Calculate the maximum value of the input \p unsigned \p long \p long \p int and \p long \p long \p int arguments. * * Calculate the maximum value of the arguments \p a and \p b, perform integer promotion first. */ __MATH_FUNCTIONS_DECL__ unsigned long long int max(const unsigned long long int a, const long long int b); /** * \ingroup CUDA_MATH_SINGLE * \brief Calculate the maximum value of the input \p float arguments. * * Calculate the maximum value of the arguments \p a and \p b. * Behavior is equivalent to ::fmaxf() function. * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ float max(const float a, const float b); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the maximum value of the input \p float arguments. * * Calculate the maximum value of the arguments \p a and \p b. * Behavior is equivalent to ::fmax() function. * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ double max(const double a, const double b); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the maximum value of the input \p float and \p double arguments. * * Convert \p float argument \p a to \p double, followed by ::fmax(). * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ double max(const float a, const double b); /** * \ingroup CUDA_MATH_DOUBLE * \brief Calculate the maximum value of the input \p double and \p float arguments. * * Convert \p float argument \p b to \p double, followed by ::fmax(). * * Note, this is different from \p std:: specification */ __MATH_FUNCTIONS_DECL__ double max(const double a, const float b); #undef __MATH_FUNCTIONS_DECL__ #undef __MATH_FUNCTIONS_DEVICE_DECL__ /******************************************************************************* * * * * * * *******************************************************************************/ #undef EXCLUDE_FROM_RTC extern "C"{ inline __device__ void *__nv_aligned_device_malloc(size_t size, size_t align) { __device__ void *__nv_aligned_device_malloc_impl(size_t, size_t); return __nv_aligned_device_malloc_impl(size, align); } } #endif /* __cplusplus && __CUDACC__ */ #define EXCLUDE_FROM_RTC #if !defined(__CUDACC__) /******************************************************************************* * * * ONLY FOR HOST CODE! NOT FOR DEVICE EXECUTION * * * *******************************************************************************/ #include #if defined(_WIN32) #pragma warning (push) #pragma warning (disable : 4211) #endif /* _WIN32 */ __func__(double rsqrt(double a)); __func__(double rcbrt(double a)); __func__(double sinpi(double a)); __func__(double cospi(double a)); __func__(void sincospi(double a, double *sptr, double *cptr)); __func__(double erfinv(double a)); __func__(double erfcinv(double a)); __func__(double normcdfinv(double a)); __func__(double normcdf(double a)); __func__(double erfcx(double a)); __func__(float rsqrtf(float a)); __func__(float rcbrtf(float a)); __func__(float sinpif(float a)); __func__(float cospif(float a)); __func__(void sincospif(float a, float *sptr, float *cptr)); __func__(float erfinvf(float a)); __func__(float erfcinvf(float a)); __func__(float normcdfinvf(float a)); __func__(float normcdff(float a)); __func__(float erfcxf(float a)); __func__(int min(int a, int b)); __func__(unsigned int umin(unsigned int a, unsigned int b)); __func__(long long int llmin(long long int a, long long int b)); __func__(unsigned long long int ullmin(unsigned long long int a, unsigned long long int b)); __func__(int max(int a, int b)); __func__(unsigned int umax(unsigned int a, unsigned int b)); __func__(long long int llmax(long long int a, long long int b)); __func__(unsigned long long int ullmax(unsigned long long int a, unsigned long long int b)); #if defined(_WIN32) || defined(__APPLE__) || defined (__ANDROID__) __func__(int __isnan(double a)); #endif /* _WIN32 || __APPLE__ || __ANDROID__ */ #if defined(_WIN32) || defined(__APPLE__) || defined (__QNX__) __func__(void sincos(double a, double *sptr, double *cptr)); #endif /* _WIN32 || __APPLE__ || __QNX__ */ #if defined(_WIN32) || defined(__APPLE__) __func__(double exp10(double a)); __func__(float exp10f(float a)); __func__(void sincosf(float a, float *sptr, float *cptr)); __func__(int __isinf(double a)); #endif /* _WIN32 || __APPLE__ */ #if (defined(_WIN32) && (!defined(_MSC_VER) || _MSC_VER < 1800)) || defined (__ANDROID__) __func__(double log2(double a)); #endif /* (_WIN32 && (!defined(_MSC_VER) || _MSC_VER < 1800)) || __ANDROID__ */ #if defined(_WIN32) __func__(int __signbit(double a)); __func__(int __finite(double a)); __func__(int __signbitl(long double a)); __func__(int __signbitf(float a)); __func__(int __finitel(long double a)); __func__(int __finitef(float a)); __func__(int __isinfl(long double a)); __func__(int __isinff(float a)); __func__(int __isnanl(long double a)); __func__(int __isnanf(float a)); #endif /* _WIN32 */ #if defined(_WIN32) && (!defined(_MSC_VER) || _MSC_VER < 1800) __func__(double copysign(double a, double b)); __func__(double fmax(double a, double b)); __func__(double fmin(double a, double b)); __func__(double trunc(double a)); __func__(double round(double a)); __func__(long int lround(double a)); __func__(long long int llround(double a)); __func__(double rint(double a)); __func__(double nearbyint(double a)); __func__(long int lrint(double a)); __func__(long long int llrint(double a)); __func__(double fdim(double a, double b)); __func__(double scalbn(double a, int b)); __func__(double scalbln(double a, long int b)); __func__(double exp2(double a)); __func__(double log1p(double a)); __func__(double expm1(double a)); __func__(double cbrt(double a)); __func__(double acosh(double a)); __func__(double asinh(double a)); __func__(double atanh(double a)); __func__(int ilogb(double a)); __func__(double logb(double a)); __func__(double remquo(double a, double b, int *quo)); __func__(double remainder(double a, double b)); __func__(double fma (double a, double b, double c)); __func__(double nextafter(double a, double b)); __func__(double erf(double a)); __func__(double erfc(double a)); __func__(double lgamma(double a)); __func__(unsigned long long int __internal_host_nan_kernel(const char *s)); __func__(double nan(const char *tagp)); __func__(double __host_tgamma_kernel(double a)); __func__(double __host_stirling_poly(double a)); __func__(double __host_tgamma_stirling(double a)); __func__(double tgamma(double a)); __func__(float fmaxf(float a, float b)); __func__(float fminf(float a, float b)); __func__(float roundf(float a)); __func__(long int lroundf(float a)); __func__(long long int llroundf(float a)); __func__(float truncf(float a)); __func__(float rintf(float a)); __func__(float nearbyintf(float a)); __func__(long int lrintf(float a)); __func__(long long int llrintf(float a)); __func__(float logbf(float a)); __func__(float scalblnf(float a, long int b)); __func__(float log2f(float a)); __func__(float exp2f(float a)); __func__(float acoshf(float a)); __func__(float asinhf(float a)); __func__(float atanhf(float a)); __func__(float cbrtf(float a)); __func__(float expm1f(float a)); __func__(float fdimf(float a, float b)); __func__(float log1pf(float a)); __func__(float scalbnf(float a, int b)); __func__(float fmaf(float a, float b, float c)); __func__(int ilogbf(float a)); __func__(float erff(float a)); __func__(float erfcf(float a)); __func__(float lgammaf(float a)); __func__(float tgammaf(float a)); __func__(float remquof(float a, float b, int *quo)); __func__(float remainderf(float a, float b)); __func__(float copysignf(float a, float b)); __func__(float nextafterf(float a, float b)); __func__(float nanf(const char *tagp)); #endif /* _WIN32 && (!defined(_MSC_VER) || _MSC_VER < 1800) */ #if defined(_WIN32) #pragma warning (pop) #endif /* _WIN32 */ #endif /* !__CUDACC__ */ #undef EXCLUDE_FROM_RTC #if !defined(__CUDACC_RTC__) #include "math_functions.hpp" #endif /* !__CUDACC_RTC__ */ #endif /* !__MATH_FUNCTIONS_H__ */ #if defined(__UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_MATH_FUNCTIONS_H__) #undef __CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__ #undef __UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_MATH_FUNCTIONS_H__ #endif /* * Copyright 1993-2018 NVIDIA Corporation. All rights reserved. * * NOTICE TO LICENSEE: * * This source code and/or documentation ("Licensed Deliverables") are * subject to NVIDIA intellectual property rights under U.S. and * international Copyright laws. * * These Licensed Deliverables contained herein is PROPRIETARY and * CONFIDENTIAL to NVIDIA and is being provided under the terms and * conditions of a form of NVIDIA software license agreement by and * between NVIDIA and Licensee ("License Agreement") or electronically * accepted by Licensee. Notwithstanding any terms or conditions to * the contrary in the License Agreement, reproduction or disclosure * of the Licensed Deliverables to any third party without the express * written consent of NVIDIA is prohibited. * * NOTWITHSTANDING ANY TERMS OR CONDITIONS TO THE CONTRARY IN THE * LICENSE AGREEMENT, NVIDIA MAKES NO REPRESENTATION ABOUT THE * SUITABILITY OF THESE LICENSED DELIVERABLES FOR ANY PURPOSE. IT IS * PROVIDED "AS IS" WITHOUT EXPRESS OR IMPLIED WARRANTY OF ANY KIND. * NVIDIA DISCLAIMS ALL WARRANTIES WITH REGARD TO THESE LICENSED * DELIVERABLES, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY, * NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE. * NOTWITHSTANDING ANY TERMS OR CONDITIONS TO THE CONTRARY IN THE * LICENSE AGREEMENT, IN NO EVENT SHALL NVIDIA BE LIABLE FOR ANY * SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, OR ANY * DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE * OF THESE LICENSED DELIVERABLES. * * U.S. Government End Users. These Licensed Deliverables are a * "commercial item" as that term is defined at 48 C.F.R. 2.101 (OCT * 1995), consisting of "commercial computer software" and "commercial * computer software documentation" as such terms are used in 48 * C.F.R. 12.212 (SEPT 1995) and is provided to the U.S. Government * only as a commercial end item. Consistent with 48 C.F.R.12.212 and * 48 C.F.R. 227.7202-1 through 227.7202-4 (JUNE 1995), all * U.S. Government End Users acquire the Licensed Deliverables with * only those rights set forth herein. * * Any use of the Licensed Deliverables in individual and commercial * software must include, in the user documentation and internal * comments to the code, the above Disclaimer and U.S. Government End * Users Notice. */ #if !defined(__CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__) #if defined(_MSC_VER) #pragma message("math_functions.h is an internal header file and must not be used directly. This file will be removed in a future CUDA release. Please use cuda_runtime_api.h or cuda_runtime.h instead.") #else #warning "math_functions.h is an internal header file and must not be used directly. This file will be removed in a future CUDA release. Please use cuda_runtime_api.h or cuda_runtime.h instead." #endif #define __CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__ #define __UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_MATH_FUNCTIONS_H_WRAPPER__ #endif #include "crt/math_functions.h" #if defined(__UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_MATH_FUNCTIONS_H_WRAPPER__) #undef __CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS__ #undef __UNDEF_CUDA_INCLUDE_COMPILER_INTERNAL_HEADERS_MATH_FUNCTIONS_H_WRAPPER__ #endif Hmm... Looks like a unified diff to me... The text leading up to this was: -------------------------- |diff '--color=auto' -ur a/cuda/targets/sbsa-linux/include/crt/math_functions.h b/cuda/targets/sbsa-linux/include/crt/math_functions.h |--- a/cuda/targets/sbsa-linux/include/crt/math_functions.h 2024-08-23 00:25:39.000000000 +0200 |+++ b/cuda/targets/sbsa-linux/include/crt/math_functions.h 2025-02-17 01:19:44.270292640 +0100 -------------------------- patching file targets/sbsa-linux/include/crt/math_functions.h Hunk #1 FAILED at 594. Hunk #2 succeeded at 618. Hunk #3 succeeded at 2553 with fuzz 1. Hunk #4 succeeded at 2576 with fuzz 1. Hunk #5 succeeded at 2598 with fuzz 1. Hunk #6 succeeded at 2620 with fuzz 1. 1 out of 6 hunks FAILED -- saving rejects to file targets/sbsa-linux/include/crt/math_functions.h.rej done RPM build warnings: RPM build errors: + patch -p2 --backup --directory=/builddir/build/BUILD/Sunshine-0.0.4353-build/cuda --verbose error: Bad exit status from /var/tmp/rpm-tmp.4YQ3LV (%build) %source_date_epoch_from_changelog is set, but %changelog has no entries to take a date from Bad exit status from /var/tmp/rpm-tmp.4YQ3LV (%build) Finish: rpmbuild Sunshine-0.0.4353-1.fc43.src.rpm Finish: build phase for Sunshine-0.0.4353-1.fc43.src.rpm INFO: chroot_scan: 1 files copied to /var/lib/copr-rpmbuild/results/chroot_scan INFO: /var/lib/mock/fedora-43-aarch64-1761352438.160069/root/var/log/dnf5.log INFO: chroot_scan: creating tarball /var/lib/copr-rpmbuild/results/chroot_scan.tar.gz /bin/tar: Removing leading `/' from member names ERROR: Exception(/var/lib/copr-rpmbuild/results/Sunshine-0.0.4353-1.fc43.src.rpm) Config(fedora-43-aarch64) 9 minutes 13 seconds INFO: Results and/or logs in: /var/lib/copr-rpmbuild/results INFO: Cleaning up build root ('cleanup_on_failure=True') Start: clean chroot INFO: unmounting tmpfs. Finish: clean chroot ERROR: Command failed: # /usr/bin/systemd-nspawn -q -M e09efed5e83f4f11b71a2af7cdbcc53e -D /var/lib/mock/fedora-43-aarch64-1761352438.160069/root -a -u mockbuild --capability=cap_ipc_lock --capability=cap_ipc_lock --bind=/tmp/mock-resolv.oqze6vhy:/etc/resolv.conf --bind=/dev/btrfs-control --bind=/dev/mapper/control --bind=/dev/fuse --bind=/dev/loop-control --bind=/dev/loop0 --bind=/dev/loop1 --bind=/dev/loop2 --bind=/dev/loop3 --bind=/dev/loop4 --bind=/dev/loop5 --bind=/dev/loop6 --bind=/dev/loop7 --bind=/dev/loop8 --bind=/dev/loop9 --bind=/dev/loop10 --bind=/dev/loop11 --console=pipe --setenv=TERM=vt100 --setenv=SHELL=/bin/bash --setenv=HOME=/builddir --setenv=HOSTNAME=mock --setenv=PATH=/usr/bin:/bin:/usr/sbin:/sbin '--setenv=PROMPT_COMMAND=printf "\033]0;\007"' '--setenv=PS1= \s-\v\$ ' --setenv=LANG=C.UTF-8 --resolv-conf=off bash --login -c '/usr/bin/rpmbuild -bb --target aarch64 --nodeps /builddir/build/originals/Sunshine.spec' Copr build error: Build failed