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// -*- mode: C++; c-file-style: "cc-mode" -*-
//*************************************************************************
//
// Copyright 2010-2011 by Wilson Snyder. This program is free software; you can
// redistribute it and/or modify it under the terms of either the GNU
// Lesser General Public License Version 3 or the Perl Artistic License.
// Version 2.0.
//
// Verilator is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
//*************************************************************************
#ifdef IS_VPI
#include "vpi_user.h"
#include <cstdlib>
#else
#include "Vt_vpi_memory.h"
#include "verilated.h"
#include "svdpi.h"
#include "Vt_vpi_memory__Dpi.h"
#include "verilated_vpi.h"
#include "verilated_vpi.cpp"
#include "verilated_vcd_c.h"
#endif
#include <cstdio>
#include <cstring>
#include <iostream>
using namespace std;
#include "TestSimulator.h"
#include "TestVpi.h"
// __FILE__ is too long
#define FILENM "t_vpi_memory.cpp"
#define DEBUG if (0) printf
unsigned int main_time = false;
//======================================================================
#define CHECK_RESULT_VH(got, exp) \
if ((got) != (exp)) { \
printf("%%Error: %s:%d: GOT = %p EXP = %p\n", \
FILENM,__LINE__, (got), (exp)); \
return __LINE__; \
}
#define CHECK_RESULT_NZ(got) \
if (!(got)) { \
printf("%%Error: %s:%d: GOT = NULL EXP = !NULL\n", FILENM,__LINE__); \
return __LINE__; \
}
// Use cout to avoid issues with %d/%lx etc
#define CHECK_RESULT(got, exp) \
if ((got != exp)) { \
cout<<dec<<"%Error: "<<FILENM<<":"<<__LINE__ \
<<": GOT = "<<(got)<<" EXP = "<<(exp)<<endl; \
return __LINE__; \
}
#define CHECK_RESULT_HEX(got, exp) \
if ((got != exp)) { \
cout<<dec<<"%Error: "<<FILENM<<":"<<__LINE__<<hex \
<<": GOT = "<<(got)<<" EXP = "<<(exp)<<endl; \
return __LINE__; \
}
#define CHECK_RESULT_CSTR(got, exp) \
if (strcmp((got),(exp))) { \
printf("%%Error: %s:%d: GOT = '%s' EXP = '%s'\n", \
FILENM,__LINE__, (got)?(got):"<null>", (exp)?(exp):"<null>"); \
return __LINE__; \
}
#define CHECK_RESULT_CSTR_STRIP(got, exp) \
CHECK_RESULT_CSTR(got+strspn(got, " "), exp)
int _mon_check_range(TestVpiHandle& handle, int size, int left, int right) {
TestVpiHandle iter_h, left_h, right_h;
s_vpi_value value = {
vpiIntVal
};
// check size of object
int vpisize = vpi_get(vpiSize, handle);
CHECK_RESULT(vpisize, size);
// check size of range
vpisize = vpi_get(vpiSize, handle);
CHECK_RESULT(vpisize, size);
// check left hand side of range
left_h = vpi_handle(vpiLeftRange, handle);
CHECK_RESULT_NZ(left_h);
vpi_get_value(left_h, &value);
CHECK_RESULT(value.value.integer, left);
int coherency = value.value.integer;
// check right hand side of range
right_h = vpi_handle(vpiRightRange, handle);
CHECK_RESULT_NZ(right_h);
vpi_get_value(right_h, &value);
CHECK_RESULT(value.value.integer, right);
coherency -= value.value.integer;
// calculate size & check
coherency = abs(coherency) + 1;
CHECK_RESULT(coherency, size);
return 0; // Ok
}
int _mon_check_memory() {
int cnt;
TestVpiHandle mem_h, lcl_h;
vpiHandle iter_h; // icarus does not like auto free of iterator handles
s_vpi_value value = {
vpiIntVal
};
vpi_printf((PLI_BYTE8*)"Check memory vpi ...\n");
mem_h = vpi_handle_by_name((PLI_BYTE8*)TestSimulator::rooted("mem0"), NULL);
CHECK_RESULT_NZ(mem_h);
// check type
int vpitype = vpi_get(vpiType, mem_h);
CHECK_RESULT(vpitype, vpiMemory);
if (int status = _mon_check_range(mem_h, 16, 16, 1)) return status;
// iterate and store
iter_h = vpi_iterate(vpiMemoryWord, mem_h);
cnt = 0;
while ((lcl_h = vpi_scan(iter_h))) {
value.value.integer = ++cnt;
vpi_put_value(lcl_h, &value, NULL, vpiNoDelay);
// check size and range
if (int status = _mon_check_range(lcl_h, 32, 31, 0)) return status;
}
CHECK_RESULT(cnt, 16); // should be 16 addresses
// iterate and accumulate
iter_h = vpi_iterate(vpiMemoryWord, mem_h);
cnt = 0;
while ((lcl_h = vpi_scan(iter_h))) {
++cnt;
vpi_get_value(lcl_h, &value);
CHECK_RESULT(value.value.integer, cnt);
}
CHECK_RESULT(cnt, 16); // should be 16 addresses
// don't care for non verilator
// (crashes on Icarus)
if (TestSimulator::is_icarus()) {
vpi_printf((PLI_BYTE8*)"Skipping property checks for simulator %s\n", TestSimulator::get_info().product);
return 0; // Ok
}
// make sure trying to get properties that don't exist
// doesn't crash
int should_be_0 = vpi_get(vpiSize, iter_h);
CHECK_RESULT(should_be_0, 0);
should_be_0 = vpi_get(vpiIndex, iter_h);
CHECK_RESULT(should_be_0, 0);
vpiHandle should_be_NULL = vpi_handle(vpiLeftRange, iter_h);
CHECK_RESULT(should_be_NULL, 0);
should_be_NULL = vpi_handle(vpiRightRange, iter_h);
CHECK_RESULT(should_be_NULL, 0);
should_be_NULL = vpi_handle(vpiScope, iter_h);
CHECK_RESULT(should_be_NULL, 0);
return 0; // Ok
}
int mon_check() {
// Callback from initial block in monitor
if (int status = _mon_check_memory()) return status;
return 0; // Ok
}
//======================================================================
#ifdef IS_VPI
static int mon_check_vpi() {
vpiHandle href = vpi_handle(vpiSysTfCall, 0);
s_vpi_value vpi_value;
vpi_value.format = vpiIntVal;
vpi_value.value.integer = mon_check();
vpi_put_value(href, &vpi_value, NULL, vpiNoDelay);
return 0;
}
static s_vpi_systf_data vpi_systf_data[] = {
{vpiSysFunc, vpiIntFunc, (PLI_BYTE8*)"$mon_check", (PLI_INT32(*)(PLI_BYTE8*))mon_check_vpi, 0, 0, 0},
0
};
// cver entry
void vpi_compat_bootstrap(void) {
p_vpi_systf_data systf_data_p;
systf_data_p = &(vpi_systf_data[0]);
while (systf_data_p->type != 0) vpi_register_systf(systf_data_p++);
}
// icarus entry
void (*vlog_startup_routines[])() = {
vpi_compat_bootstrap,
0
};
#else
double sc_time_stamp () {
return main_time;
}
int main(int argc, char **argv, char **env) {
double sim_time = 1100;
Verilated::commandArgs(argc, argv);
Verilated::debug(0);
Verilated::fatalOnVpiError(0); // we're going to be checking for these errors do don't crash out
VM_PREFIX* topp = new VM_PREFIX (""); // Note null name - we're flattening it out
#ifdef VERILATOR
# ifdef TEST_VERBOSE
Verilated::scopesDump();
# endif
#endif
Verilated::traceEverOn(true);
VerilatedVcdC* tfp = new VerilatedVcdC;
#if VM_TRACE
VL_PRINTF("Enabling waves...\n");
topp->trace (tfp, 99);
tfp->open ("obj_dir/t_vpi_var/simx.vcd");
#endif
topp->eval();
topp->clk = 0;
main_time += 10;
while (sc_time_stamp() < sim_time && !Verilated::gotFinish()) {
main_time += 1;
topp->eval();
VerilatedVpi::callValueCbs();
topp->clk = !topp->clk;
//mon_do();
#if VM_TRACE
if (tfp) tfp->dump (main_time);
#endif
}
if (!Verilated::gotFinish()) {
vl_fatal(FILENM,__LINE__,"main", "%Error: Timeout; never got a $finish");
}
topp->final();
#if VM_TRACE
if (tfp) tfp->close();
#endif
delete topp; topp=NULL;
exit(0L);
}
#endif
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