/********************************************** _ _ Cook Darwin __

_ descript: author : Cook.Darwin Version: VERA.0.0 creaded: madified: ***********************************************/ `timescale 1ns/1ps

module tb_data_c_m2s_inf_20201103;

import AxiBfmPkg::*; localparam DSIZE = 8; logic clock; logic rst_n;

clock_rst_verb #(

.ACTIVE                 (0                      ),
.PERIOD_CNT             (0                      ),
.RST_HOLD               (5                      ),
.FreqM                  (100            )

)clock_rst_pixel(

.clock                  (clock          ),
.rst_x                  (rst_n          )

);

axi_stream_inf #(DSIZE) axis_slaver_inf [7:0](clock,rst_n,1'b1); axi_stream_inf #(DSIZE) axis_master_inf (clock,rst_n,1'b1);

data_inf_c #(DSIZE+1) slaver_inf (clock,rst_n); data_inf_c #(DSIZE+1) master_inf (clock,rst_n);

generate for(genvar KK=0;KK<8;KK++)begin axis_to_data_inf #(

.CONTAIN_LAST   ("ON")

)axis_to_data_inf_head_inst( /* axi_stream_inf.slaver */ .axis_in (axis_slaver_inf ), /* data_inf_c.master */ .data_out_inf (slaver_inf ) ); end endgenerate

// data_c_pipe_inf data_c_pipe_inf_inst( // /* data_inf_c.slaver */ .slaver (slaver_inf ), // /* data_inf_c.master */ .master (master_inf ) // );

data_c_pipe_intc_M2S_robin#(

.NUM    (8)

)data_c_pipe_intc_M2S_robin_inst( /* data_inf_c.slaver */ .s00 (slaver_inf ),//[NUM-1:0], /* data_inf_c.master */ .m00 (master_inf ) );

data_to_axis_inf_A1 data_to_axis_inf_A1_inst( /* input */ .last_flag (master_inf.data ), /* data_inf_c.slaver */ .data_slaver (master_inf ), /* axi_stream_inf.master */ .axis_master (axis_master_inf ) );

AxiStreamMasterBfm_c #(DSIZE) master_bfm0 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm1 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm2 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm3 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm4 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm5 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm6 = new(axis_slaver_inf); AxiStreamMasterBfm_c #(DSIZE) master_bfm7 = new(axis_slaver_inf);

AxiStreamSlaverBfm_c #(DSIZE) slaver_bfm = new(axis_master_inf);

initial begin

repeat(10000)
    slaver_bfm.get_data($urandom_range(10,100));

end

initial begin

repeat(10) begin
    rand_stream_tk0($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4));
end

end

initial begin

repeat(100) begin
    rand_stream_tk1($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4));
end

end

initial begin

repeat(10) begin
    rand_stream_tk2($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4));
end

end

// initial begin // repeat(1000) begin // rand_stream_tk3($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4)); // end // end

initial begin

repeat(10) begin
    rand_stream_tk4($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4));
end

end

// initial begin // repeat(1000) begin // rand_stream_tk5($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4)); // end // end

// initial begin // repeat(1000) begin // rand_stream_tk6($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4)); // end // end

initial begin

repeat(1000) begin
    rand_stream_tk7($urandom_range(10,100),1+$urandom_range(1,10)*$urandom_range(0,4));
end

end

task automatic rand_stream_tk0(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(0,9);
master_bfm0.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk0

task automatic rand_stream_tk1(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(10,19);
master_bfm1.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk1

task automatic rand_stream_tk2(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(20,29);
master_bfm2.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk2

task automatic rand_stream_tk3(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(30,39);
master_bfm3.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk3

task automatic rand_stream_tk4(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(40,49);
master_bfm4.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk4

task automatic rand_stream_tk5(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(50,59);
master_bfm5.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk5

task automatic rand_stream_tk6(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(60,69);
master_bfm6.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk6

task automatic rand_stream_tk7(int send_rate,int len); logic [7:0] s00_data [$];

// #(10us);
for(int CC=0;CC<len;CC++)
    s00_data[CC]    = $urandom_range(70,79);
master_bfm7.gen_axi_stream(0,send_rate,s00_data);

endtask:rand_stream_tk7

//—>> TRACK <<———————— logic last_data; logic curr_data; mailbox in_datas = new(100);

generate

for(genvar KK=0;KK<8;KK++)begin 
    always@(negedge axis_slaver_inf[KK].aclk)begin 
        if(axis_slaver_inf[KK].axis_tvalid && axis_slaver_inf[KK].axis_tready)begin 
            last_data   = axis_slaver_inf[KK].axis_tdata;
            in_datas.put(last_data);
        end
    end

end

endgenerate

always@(negedge axis_master_inf.aclk)begin

if(axis_master_inf.axis_tvalid && axis_master_inf.axis_tready)begin 
    in_datas.get(curr_data);
    if(curr_data != axis_master_inf.axis_tdata)begin 
        $error("%t, in<%d> != out<%d>",$time,curr_data,axis_master_inf.axis_tdata);
        $stop;
    end 
end

end

// assign curr_data = axis_master_inf.axis_tdata;

// always@(posedge clock,negedge rst_n)begin // if(~rst_n) last_data <= 8'd70; // else begin // if(axis_master_inf.axis_tvalid && axis_master_inf.axis_tready) // last_data <= curr_data; // else last_data <= last_data; // end // end

// always@(posedge clock) begin // if(axis_master_inf.axis_tvalid && axis_master_inf.axis_tready)begin // if(last_data>= 70 && last_data < 80)begin // if(!(curr_data>=0 && curr_data<10)) // $stop(); // end else begin // if(!( (curr_data - last_data)>0 && (curr_data - last_data)<20) ) // $stop(); // end // end // end

// //—<< TRACK >>———————— endmodule