/* * Copyright (c) 1999-2000 Picture Elements, Inc. * Stephen Williams (steve@picturel.com) * Copyright (c) 2001 Stephan Boettcher * * 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. In order to redistribute the software in * binary form, you will need a Picture Elements Binary Software * License. * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA * --- * You should also have recieved a copy of the Picture Elements * Binary Software License offer along with the source. This offer * allows you to obtain the right to redistribute the software in * binary (compiled) form. If you have not received it, contact * Picture Elements, Inc., 777 Panoramic Way, Berkeley, CA 94704. */ #if !defined(WINNT) && !defined(macintosh) #ident "$Id: vpi_memory.cc,v 1.1 2001/05/08 23:59:33 steve Exp $" #endif # include "vpi_priv.h" # include "memory.h" # include # include struct __vpiMemoryWord { struct __vpiHandle base; struct __vpiMemory*mem; int index; }; struct __vpiMemory { struct __vpiHandle base; /* The signal has a name (this points to static memory.) */ struct __vpiMemoryWord word; vvp_memory_t mem; }; static int vpi_memory_get(int code, vpiHandle ref) { struct __vpiMemory*rfp = (struct __vpiMemory*)ref; assert(ref->vpi_type->type_code==vpiMemory); switch (code) { case vpiSize: return (int)memory_size(rfp->mem); default: return 0; } } static char* memory_get_str(int code, vpiHandle ref) { struct __vpiMemory*rfp = (struct __vpiMemory*)ref; assert(ref->vpi_type->type_code==vpiMemory); switch (code) { case vpiFullName: return memory_name(rfp->mem); } return 0; } static vpiHandle memory_scan(vpiHandle ref, int) { struct __vpiIterator*hp = (struct __vpiIterator*)ref; assert(ref->vpi_type->type_code == vpiIterator); struct __vpiMemory*rfp = (struct __vpiMemory*)hp->args; assert(rfp->base.vpi_type->type_code==vpiMemory); if (hp->next >= hp->nargs) { vpi_free_object(ref); return 0; } rfp->word.index = hp->next++; return &rfp->word.base; } static const struct __vpirt vpip_mem_iter_rt = { vpiIterator, 0, 0, 0, 0, 0, 0, memory_scan, }; static vpiHandle memory_iterate(int code, vpiHandle ref) { struct __vpiMemory*rfp = (struct __vpiMemory*)ref; assert(ref->vpi_type->type_code==vpiMemory); switch (code) { case vpiMemoryWord: { struct __vpiIterator*res = (struct __vpiIterator*) calloc(1, sizeof(struct __vpiIterator)); assert(res); res->base.vpi_type = &vpip_mem_iter_rt; res->args = (vpiHandle *)&rfp->base; res->nargs = memory_size(rfp->mem); res->next = 0; return &(res->base); } } return 0; } static vpiHandle memory_index(vpiHandle ref, int index) { struct __vpiMemory*rfp = (struct __vpiMemory*)ref; assert(ref->vpi_type->type_code==vpiMemory); index -= memory_root(rfp->mem); if (index >= (int)memory_size(rfp->mem)) return 0; if (index < 0) return 0; rfp->word.index = index; return &rfp->word.base; } static int memory_word_get(int code, vpiHandle ref) { struct __vpiMemoryWord*rfp = (struct __vpiMemoryWord*)ref; assert(ref->vpi_type->type_code==vpiMemoryWord); switch (code) { case vpiSize: return memory_data_width(rfp->mem->mem); default: return 0; } } static vpiHandle memory_word_put(vpiHandle ref, p_vpi_value val, p_vpi_time tim, int flags) { struct __vpiMemoryWord*rfp = (struct __vpiMemoryWord*)ref; assert(ref->vpi_type->type_code==vpiMemoryWord); assert(val->format == vpiVectorVal); unsigned width = memory_data_width(rfp->mem->mem); unsigned bidx = rfp->index * ((width+3)&~3); for (unsigned widx = 0; widx < width; widx += 32) { p_vpi_vecval cur = val->value.vector + (widx/32); for (unsigned idx = widx; idx < width && idx < widx+32; idx++) { int aval = (cur->aval >> (idx%32)) & 1; int bval = (cur->bval >> (idx%32)) & 1; unsigned char val = (bval<<1) | (aval^bval); memory_set(rfp->mem->mem, bidx+idx, val); } } return 0; } static void memory_word_get_value(vpiHandle ref, s_vpi_value*vp) { struct __vpiMemoryWord*rfp = (struct __vpiMemoryWord*)ref; assert(rfp->base.vpi_type->type_code==vpiMemoryWord); assert(0 && "sorry, not yet"); } static const struct __vpirt vpip_memory_rt = { vpiMemory, vpi_memory_get, memory_get_str, 0, 0, 0, memory_iterate, memory_index, }; static const struct __vpirt vpip_memory_word_rt = { vpiMemoryWord, memory_word_get, 0, memory_word_get_value, memory_word_put, 0, 0, 0, }; vpiHandle vpip_make_memory(vvp_memory_t mem) { struct __vpiMemory*obj = (struct __vpiMemory*) malloc(sizeof(struct __vpiMemory)); obj->base.vpi_type = &vpip_memory_rt; obj->word.base.vpi_type = &vpip_memory_word_rt; obj->mem = mem; obj->word.mem = obj; return &(obj->base); } /* * $Log: vpi_memory.cc,v $ * Revision 1.1 2001/05/08 23:59:33 steve * Add ivl and vvp.tgt support for memories in * expressions and l-values. (Stephan Boettcher) * */