/* * Copyright (C) 2008 Cary R. (cygcary@yahoo.com) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #ifdef HAVE_MALLOC_H # include #endif #include #include #include #include #include #include "sys_priv.h" /* Once we have real string objects replace this with a dynamic string. */ #define MAX_STRING_RESULT 1024 /* * Check that the routines are called with the correct arguments. */ static PLI_INT32 simparam_compiletf(PLI_BYTE8 *name_ext) { vpiHandle callh, argv, arg; callh = vpi_handle(vpiSysTfCall, 0); assert(callh != 0); argv = vpi_iterate(vpiArgument, callh); /* We must have at least one argument. */ if (argv == 0) { vpi_printf("ERROR: %s:%d: ", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); vpi_printf("$simparam%s requires a string argument.\n", name_ext); vpi_control(vpiFinish, 1); return 0; } /* The first argument must be a string. */ arg = vpi_scan(argv); if (! is_string_obj(arg)) { vpi_printf("ERROR: %s:%d: ", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); vpi_printf("The first argument to $simparam%s must be a string.\n", name_ext); vpi_control(vpiFinish, 1); } /* The second argument (default value) is optional. */ arg = vpi_scan(argv); if (arg == 0) return 0; /* For the string version the default must also be a string. */ if (strcmp(name_ext, "$str") == 0) { if (! is_string_obj(arg)) { vpi_printf("ERROR: %s:%d: ", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); vpi_printf("When provided, the second argument to $simparam%s" "must be a string.\n", name_ext); vpi_control(vpiFinish, 1); } /* For the rest the default must be numeric. */ } else { if (! is_numeric_obj(arg)) { vpi_printf("ERROR: %s:%d: ", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); vpi_printf("When provided, the second argument to $simparam%s" "must be numeric.\n", name_ext); vpi_control(vpiFinish, 1); } } /* We can have a maximum of two arguments. */ if (vpi_scan(argv) != 0) { char msg [64]; unsigned argc; snprintf(msg, 64, "ERROR: %s:%d:", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); argc = 1; while (vpi_scan(argv)) argc += 1; vpi_printf("%s $simparam%s takes at most two arguments.\n", msg, name_ext); vpi_printf("%*s Found %u extra argument%s.\n", (int) strlen(msg), " ", argc, argc == 1 ? "" : "s"); vpi_control(vpiFinish, 1); } return 0; } static PLI_INT32 simparam_calltf(PLI_BYTE8 *name_ext) { vpiHandle callh = vpi_handle(vpiSysTfCall, 0); vpiHandle argv = vpi_iterate(vpiArgument, callh); vpiHandle arg; s_vpi_value val; char *param; unsigned have_def_val = 0; double retval, defval = 0.0; /* Get the parameter we are looking for. */ arg = vpi_scan(argv); val.format = vpiStringVal; vpi_get_value(arg, &val); param = strdup(val.value.str); /* See if there is a default value. */ arg = vpi_scan(argv); if (arg != 0) { vpi_free_object(argv); have_def_val = 1; val.format = vpiRealVal; vpi_get_value(arg, &val); defval = val.value.real; } /* Now check the various things we can return. */ if (strcmp(param, "gdev") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "gmin") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "imax") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "imelt") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "iteration") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "scale") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "shrink") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "simulatorSubversion") == 0) { retval = 0.0; } else if (strcmp(param, "simulatorVersion") == 0) { retval = 0.9; } else if (strcmp(param, "sourceScaleFactor") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "tnom") == 0) { retval = 0.0; /* Nothing for now. */ } else if (strcmp(param, "timeUnit") == 0) { retval = pow(10, vpi_get(vpiTimeUnit, sys_func_module(callh))); } else if (strcmp(param, "timePrecision") == 0) { retval = pow(10, vpi_get(vpiTimePrecision, sys_func_module(callh))); } else if (strcmp(param, "CPUWordSize") == 0) { retval = 8.0*sizeof(long); } else { if (! have_def_val) { vpi_printf("ERROR: %s:%d: ", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); vpi_printf("$simparam%s unknown parameter name \"%s\".\n", name_ext, param); } retval = defval; } free(param); /* Return the value to the system. */ val.format = vpiRealVal; val.value.real = retval; vpi_put_value(callh, &val, 0, vpiNoDelay); return 0; } static PLI_INT32 simparam_str_calltf(PLI_BYTE8 *name_ext) { vpiHandle callh = vpi_handle(vpiSysTfCall, 0); vpiHandle argv = vpi_iterate(vpiArgument, callh); vpiHandle arg; s_vpi_value val; char *param; char *retval, *defval = NULL; /* Get the parameter we are looking for. */ arg = vpi_scan(argv); val.format = vpiStringVal; vpi_get_value(arg, &val); param = strdup(val.value.str); /* See if there is a default value. */ arg = vpi_scan(argv); if (arg != 0) { vpi_free_object(argv); val.format = vpiStringVal; vpi_get_value(arg, &val); defval = strdup(val.value.str); } /* Now check the various things we can return. */ /* For now we limit the result to 1024 characters. */ if (strcmp(param, "analysis_name") == 0) { retval = strdup("N/A"); /* Nothing for now. */ } else if (strcmp(param, "analysis_type") == 0) { retval = strdup("N/A"); /* Nothing for now. */ } else if (strcmp(param, "cwd") == 0) { char path [MAX_STRING_RESULT]; char *ptr = getcwd(path, MAX_STRING_RESULT); if (ptr == NULL) { ptr = strcpy(path, ""); } retval = strdup(path); } else if (strcmp(param, "module") == 0) { retval = strdup(vpi_get_str(vpiDefName, sys_func_module(callh))); } else if (strcmp(param, "instance") == 0) { retval = strdup(vpi_get_str(vpiFullName, sys_func_module(callh))); } else if (strcmp(param, "path") == 0) { retval = strdup(vpi_get_str(vpiFullName, vpi_handle(vpiScope,callh))); } else { if (defval == 0) { vpi_printf("ERROR: %s:%d: ", vpi_get_str(vpiFile, callh), (int)vpi_get(vpiLineNo, callh)); vpi_printf("$simparam%s unknown parameter name \"%s\".\n", name_ext, param); defval = strdup(""); } retval = defval; } free(param); /* Return the value to the system. */ val.format = vpiStringVal; val.value.str = retval; vpi_put_value(callh, &val, 0, vpiNoDelay); free(retval); return 0; } static PLI_INT32 simparam_str_sizetf(PLI_BYTE8 *name_ext) { (void) name_ext; /* Not used! */ return MAX_STRING_RESULT; /* 128 characters max! */ } /* * Register the function with Verilog. */ void vams_simparam_register(void) { s_vpi_systf_data tf_data; tf_data.type = vpiSysFunc; tf_data.sysfunctype = vpiRealFunc; tf_data.calltf = simparam_calltf; tf_data.compiletf = simparam_compiletf; tf_data.sizetf = 0; tf_data.tfname = "$simparam"; tf_data.user_data = ""; vpi_register_systf(&tf_data); tf_data.type = vpiSysFunc; tf_data.sysfunctype = vpiSizedFunc; /* What should this be? */ tf_data.calltf = simparam_str_calltf; tf_data.compiletf = simparam_compiletf; tf_data.sizetf = simparam_str_sizetf; /* Only 128 characters! */ tf_data.tfname = "$simparam$str"; tf_data.user_data = "$str"; vpi_register_systf(&tf_data); }