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// DESCRIPTION: Verilator: Verilog Test module
//
// This file ONLY is placed under the Creative Commons Public Domain, for
// any use, without warranty, 2003 by Wilson Snyder.
// SPDX-License-Identifier: CC0-1.0
`ifdef WRITEMEM_BIN
`define READMEMX $readmemb
`define WRITEMEMX $writememb
`else
`define READMEMX $readmemh
`define WRITEMEMX $writememh
`endif
module t;
// verilator lint_off LITENDIAN
reg [5:0] binary_string [2:15];
reg [5:0] binary_nostart [2:15];
reg [5:0] binary_start [0:15];
reg [175:0] hex [0:15];
reg [(32*6)-1:0] hex_align [0:15];
string fns;
`ifdef WRITEMEM_READ_BACK
reg [5:0] binary_string_tmp [2:15];
reg [5:0] binary_nostart_tmp [2:15];
reg [5:0] binary_start_tmp [0:15];
reg [175:0] hex_tmp [0:15];
reg [(32*6)-1:0] hex_align_tmp [0:15];
string fns_tmp;
`endif
// verilator lint_on LITENDIAN
integer i;
initial begin
begin
// Initialize memories to zero,
// avoid differences between 2-state and 4-state.
for (i=0; i<16; i=i+1) begin
binary_start[i] = 6'h0;
hex[i] = 176'h0;
hex_align[i] = {32*6{1'b0}};
`ifdef WRITEMEM_READ_BACK
binary_start_tmp[i] = 6'h0;
hex_tmp[i] = 176'h0;
hex_align_tmp[i] = {32*6{1'b0}};
`endif
end
for (i=2; i<16; i=i+1) begin
binary_string[i] = 6'h0;
binary_nostart[i] = 6'h0;
`ifdef WRITEMEM_READ_BACK
binary_string_tmp[i] = 6'h0;
binary_nostart_tmp[i] = 6'h0;
`endif
end
end
begin
`ifdef WRITEMEM_READ_BACK
$readmemb("t/t_sys_readmem_b.mem", binary_nostart_tmp);
// Do a round-trip $writememh(b) and $readmemh(b) cycle.
// This covers $writememh and ensures we can read our
// own memh output file.
// If WRITEMEM_BIN is also defined, use $writememb and
// $readmemb, otherwise use $writememh and $readmemh.
`ifdef TEST_VERBOSE
$display("-Writing %s", `OUT_TMP1);
`endif
`WRITEMEMX(`OUT_TMP1, binary_nostart_tmp);
`READMEMX(`OUT_TMP1, binary_nostart);
`else
$readmemb("t/t_sys_readmem_b.mem", binary_nostart);
`endif
`ifdef TEST_VERBOSE
for (i=0; i<16; i=i+1) $write(" @%x = %x\n", i, binary_nostart[i]);
`endif
if (binary_nostart['h2] != 6'h02) $stop;
if (binary_nostart['h3] != 6'h03) $stop;
if (binary_nostart['h4] != 6'h04) $stop;
if (binary_nostart['h5] != 6'h05) $stop;
if (binary_nostart['h6] != 6'h06) $stop;
if (binary_nostart['h7] != 6'h07) $stop;
if (binary_nostart['h8] != 6'h10) $stop;
if (binary_nostart['hc] != 6'h14) $stop;
if (binary_nostart['hd] != 6'h15) $stop;
end
begin
binary_start['h0c] = 6'h3f; // Not in read range
//
`ifdef WRITEMEM_READ_BACK
$readmemb("t/t_sys_readmem_b_8.mem", binary_start_tmp, 4, 4+7);
`ifdef TEST_VERBOSE
$display("-Writing %s", `OUT_TMP2);
`endif
`WRITEMEMX(`OUT_TMP2, binary_start_tmp, 4, 4+7);
`READMEMX(`OUT_TMP2, binary_start, 4, 4+7);
`else
$readmemb("t/t_sys_readmem_b_8.mem", binary_start, 4, 4+7); // 4-11
`endif
`ifdef TEST_VERBOSE
for (i=0; i<16; i=i+1) $write(" @%x = %x\n", i, binary_start[i]);
`endif
if (binary_start['h04] != 6'h10) $stop;
if (binary_start['h05] != 6'h11) $stop;
if (binary_start['h06] != 6'h12) $stop;
if (binary_start['h07] != 6'h13) $stop;
if (binary_start['h08] != 6'h14) $stop;
if (binary_start['h09] != 6'h15) $stop;
if (binary_start['h0a] != 6'h16) $stop;
if (binary_start['h0b] != 6'h17) $stop;
//
if (binary_start['h0c] != 6'h3f) $stop;
end
begin
// The 'hex' array is a non-exact multiple of word size
// (possible corner case)
`ifdef WRITEMEM_READ_BACK
$readmemh("t/t_sys_readmem_h.mem", hex_tmp, 0);
`ifdef TEST_VERBOSE
$display("-Writing %s", `OUT_TMP3);
`endif
`WRITEMEMX(`OUT_TMP3, hex_tmp, 0);
`READMEMX(`OUT_TMP3, hex, 0);
`else
$readmemh("t/t_sys_readmem_h.mem", hex, 0);
`endif
`ifdef TEST_VERBOSE
for (i=0; i<16; i=i+1) $write(" @%x = %x\n", i, hex[i]);
`endif
if (hex['h04] != 176'h400437654321276543211765432107654321abcdef10) $stop;
if (hex['h0a] != 176'h400a37654321276543211765432107654321abcdef11) $stop;
if (hex['h0b] != 176'h400b37654321276543211765432107654321abcdef12) $stop;
if (hex['h0c] != 176'h400c37654321276543211765432107654321abcdef13) $stop;
end
begin
// The 'hex align' array is similar to 'hex', but it is an
// exact multiple of word size -- another possible corner case.
`ifdef WRITEMEM_READ_BACK
$readmemh("t/t_sys_readmem_align_h.mem", hex_align_tmp, 0);
`ifdef TEST_VERBOSE
$display("-Writing %s", `OUT_TMP4);
`endif
`WRITEMEMX(`OUT_TMP4, hex_align_tmp, 0);
`READMEMX(`OUT_TMP4, hex_align, 0);
`else
$readmemh("t/t_sys_readmem_align_h.mem", hex_align, 0);
`endif
`ifdef TEST_VERBOSE
for (i=0; i<16; i=i+1) $write(" @%x = %x\n", i, hex_align[i]);
`endif
if (hex_align['h04] != 192'h77554004_37654321_27654321_17654321_07654321_abcdef10) $stop;
if (hex_align['h0a] != 192'h7755400a_37654321_27654321_17654321_07654321_abcdef11) $stop;
if (hex_align['h0b] != 192'h7755400b_37654321_27654321_17654321_07654321_abcdef12) $stop;
if (hex_align['h0c] != 192'h7755400c_37654321_27654321_17654321_07654321_abcdef13) $stop;
end
begin
fns = "t/t_sys_readmem_b.mem";
`ifdef WRITEMEM_READ_BACK
fns_tmp = `OUT_TMP5;
$readmemb(fns, binary_string_tmp);
`ifdef TEST_VERBOSE
$display("-Writing %s", `OUT_TMP5);
`endif
`WRITEMEMX(fns_tmp, binary_string_tmp);
`READMEMX(fns_tmp, binary_string);
`else
$readmemb(fns, binary_string);
`endif
`ifdef TEST_VERBOSE
for (i=0; i<16; i=i+1) $write(" @%x = %x\n", i, binary_string[i]);
`endif
if (binary_string['h2] != 6'h02) $stop;
end
$write("*-* All Finished *-*\n");
$finish;
end
endmodule
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