8 namespace Autoscheduler {
10 #define user_assert(c) _halide_internal_assertion(c, Halide::Internal::ErrorReport::User) 11 #define EXPECT_EQ(expected, actual) expect_eq(__LINE__, expected, actual) 12 #define APPROX_EQ(expected, actual, epsilon) approx_eq(__LINE__, expected, actual, epsilon) 13 #define EXPECT(expected) expect(__LINE__, expected) 15 template<
typename A,
typename B>
16 void expect_eq(
int line,
const A &expected,
const B &actual) {
18 <<
"Assert failed on line " << line <<
"." 19 <<
"\nExpected value = " << expected
20 <<
"\nActual value = " << actual;
23 template<
typename A,
typename B>
24 void approx_eq(
int line,
const A &expected,
const B &actual,
float epsilon) {
26 <<
"Assert failed on line " << line <<
"." 27 <<
"\nExpected value = " << expected
28 <<
"\nActual value = " << actual;
32 void expect(
int line,
const A &expected) {
34 <<
"Assert failed on line " << line <<
"." 35 <<
"\nExpected value to be true\n";
This file defines the class FunctionDAG, which is our representation of a Halide pipeline, and contains methods to using Halide's bounds tools to query properties of it.
void expect(int line, const A &expected)
Expr abs(Expr a)
Returns the absolute value of a signed integer or floating-point expression.
Not visible externally, similar to 'static' linkage in C.
void expect_eq(int line, const A &expected, const B &actual)
void approx_eq(int line, const A &expected, const B &actual, float epsilon)