/* * Copyright (c) 2002-2014 Michael Ruff (mruff at chiaro.com) * * This source code is free software; you can redistribute it * and/or modify it in source code form 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 #include #include #include #include "config.h" #include "priv.h" #include /* * some TF time routines implemented using VPI interface */ // On some platforms (e.g. MinGW), pow() may not always generate an // exact integer result when supplied with integer operands. Converting // the result to an integer before we use it seems to be enough to work // round this issue. static ivl_u64_t pow10u(PLI_INT32 val) { return (ivl_u64_t)pow(10, val); } static ivl_u64_t scale(int high, int low, void*obj) { ivl_u64_t scaled; vpiHandle use_obj = obj; if (use_obj == 0) { /* If object is not passed in, then use current scope. */ vpiHandle hand = vpi_handle(vpiScope, vpi_handle(vpiSysTfCall,0)); use_obj = hand; } else { /* If object IS passed in, make sure it is a scope. If it is not, then get the scope of the object. We need a scope handle to go on. */ switch (vpi_get(vpiType,use_obj)) { case vpiModule: case vpiGenScope: case vpiFunction: case vpiTask: case vpiNamedBegin: case vpiNamedFork: break; default: use_obj = vpi_handle(vpiScope, use_obj); break; } } scaled = high; scaled = (scaled << 32) | low; scaled /= pow10u(vpi_get(vpiTimeUnit, use_obj) - vpi_get(vpiTimePrecision,0)); return scaled; } PLI_INT32 tf_gettime(void) { s_vpi_time timerec; timerec.type = vpiSimTime; vpi_get_time (0, &timerec); return scale(timerec.high, timerec.low, 0) & 0xffffffff; } char *tf_strgettime(void) { static char buf[32]; s_vpi_time timerec; timerec.type = vpiSimTime; vpi_get_time (0, &timerec); if (timerec.high) snprintf(buf, sizeof(buf)-1, "%u%08u", (unsigned int)timerec.high, (unsigned int)timerec.low); else snprintf(buf, sizeof(buf)-1, "%u", (unsigned int)timerec.low); return buf; } PLI_INT32 tf_igetlongtime(PLI_INT32 *high, void*obj) { s_vpi_time timerec; ivl_u64_t scaled; timerec.type = vpiSimTime; vpi_get_time ((vpiHandle)obj, &timerec); scaled = scale(timerec.high, timerec.low, obj); *high = (scaled >> 32) & 0xffffffff; return scaled & 0xffffffff; } PLI_INT32 tf_getlongtime(PLI_INT32 *high) { return tf_igetlongtime(high, 0); } /* * This function is not defined in the IEEE standard, but is provided for * compatibility with other simulators. On platforms that support this, * make it a weak symbol just in case the user has defined their own * function for this. */ #if !defined(__CYGWIN__) && !defined(__MINGW32__) PLI_INT32 tf_getlongsimtime(PLI_INT32 *high) __attribute__ ((weak)); #endif PLI_INT32 tf_getlongsimtime(PLI_INT32 *high) { s_vpi_time timerec; timerec.type = vpiSimTime; vpi_get_time (0, &timerec); *high = timerec.high; return timerec.low; } void tf_scale_longdelay(void*obj, PLI_INT32 low, PLI_INT32 high, PLI_INT32 *alow, PLI_INT32 *ahigh) { ivl_u64_t scaled = scale(high, low, obj); *ahigh = (scaled >> 32) & 0xffffffff; *alow = scaled & 0xffffffff; } void tf_unscale_longdelay(void*obj, PLI_INT32 low, PLI_INT32 high, PLI_INT32 *alow, PLI_INT32 *ahigh) { ivl_u64_t unscaled; vpiHandle hand = vpi_handle(vpiScope, vpi_handle(vpiSysTfCall,0)); (void)obj; /* Parameter is not used. */ unscaled = high; unscaled = (unscaled << 32) | low; unscaled *= pow(10, vpi_get(vpiTimeUnit, hand) - vpi_get(vpiTimePrecision, 0)); *ahigh = (unscaled >> 32) & 0xffffffff; *alow = unscaled & 0xffffffff; } void tf_scale_realdelay(void*obj, double real, double *areal) { vpiHandle hand = vpi_handle(vpiScope, vpi_handle(vpiSysTfCall,0)); (void)obj; /* Parameter is not used. */ *areal = real / pow(10, vpi_get(vpiTimeUnit, hand) - vpi_get(vpiTimePrecision, 0)); } void tf_unscale_realdelay(void*obj, double real, double *areal) { vpiHandle hand = vpi_handle(vpiScope, vpi_handle(vpiSysTfCall,0)); (void)obj; /* Parameter is not used. */ *areal = real * pow(10, vpi_get(vpiTimeUnit, hand) - vpi_get(vpiTimePrecision, 0)); } PLI_INT32 tf_gettimeprecision(void) { PLI_INT32 rc; vpiHandle hand; vpiHandle sys = vpi_handle(vpiSysTfCall,0); assert(sys); hand = vpi_handle(vpiScope, sys); rc = vpi_get(vpiTimePrecision, hand); if (pli_trace) fprintf(pli_trace, "tf_gettimeprecision(<%s>) --> %d\n", vpi_get_str(vpiName, sys), (int)rc); return rc; } PLI_INT32 tf_igettimeprecision(void*obj) { PLI_INT32 rc; if (obj == 0) { /* If the obj pointer is null, then get the simulation time precision. */ rc = vpi_get(vpiTimePrecision, 0); } else { vpiHandle scope = vpi_handle(vpiScope, (vpiHandle)obj); assert(scope); rc = vpi_get(vpiTimePrecision, scope); } if (pli_trace) fprintf(pli_trace, "tf_igettimeprecision(<%s>) --> %d\n", obj? vpi_get_str(vpiName, obj) : ".", (int)rc); return rc; } PLI_INT32 tf_gettimeunit() { vpiHandle hand = vpi_handle(vpiScope, vpi_handle(vpiSysTfCall,0)); return vpi_get(vpiTimeUnit, hand); } PLI_INT32 tf_igettimeunit(void*obj) { return vpi_get(!obj ? vpiTimePrecision : vpiTimeUnit, (vpiHandle)obj); }