/* File: in_memory_undo.c * * This file is part of XSCHEM, * a schematic capture and Spice/Vhdl/Verilog netlisting tool for circuit * simulation. * Copyright (C) 1998-2022 Stefan Frederik Schippers * * 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 "xschem.h" static void free_undo_lines(int slot) { int i, c; for(c = 0;cuslot[slot].lines[c]; i++) { my_free(783, &xctx->uslot[slot].lptr[c][i].prop_ptr); } my_free(784, &xctx->uslot[slot].lptr[c]); xctx->uslot[slot].lines[c] = 0; } } static void free_undo_rects(int slot) { int i, c; for(c = 0;cuslot[slot].rects[c]; i++) { my_free(785, &xctx->uslot[slot].bptr[c][i].prop_ptr); } my_free(786, &xctx->uslot[slot].bptr[c]); xctx->uslot[slot].rects[c] = 0; } } static void free_undo_polygons(int slot) { int i, c; for(c = 0;cuslot[slot].polygons[c]; i++) { my_free(787, &xctx->uslot[slot].pptr[c][i].prop_ptr); my_free(788, &xctx->uslot[slot].pptr[c][i].x); my_free(789, &xctx->uslot[slot].pptr[c][i].y); my_free(790, &xctx->uslot[slot].pptr[c][i].selected_point); } my_free(791, &xctx->uslot[slot].pptr[c]); xctx->uslot[slot].polygons[c] = 0; } } static void free_undo_arcs(int slot) { int i, c; for(c = 0;cuslot[slot].arcs[c]; i++) { my_free(792, &xctx->uslot[slot].aptr[c][i].prop_ptr); } my_free(793, &xctx->uslot[slot].aptr[c]); xctx->uslot[slot].arcs[c] = 0; } } static void free_undo_wires(int slot) { int i; for(i = 0;iuslot[slot].wires; i++) { my_free(794, &xctx->uslot[slot].wptr[i].prop_ptr); } my_free(795, &xctx->uslot[slot].wptr); xctx->uslot[slot].wires = 0; } static void free_undo_texts(int slot) { int i; for(i = 0;iuslot[slot].texts; i++) { my_free(796, &xctx->uslot[slot].tptr[i].prop_ptr); my_free(797, &xctx->uslot[slot].tptr[i].txt_ptr); my_free(798, &xctx->uslot[slot].tptr[i].font); } my_free(799, &xctx->uslot[slot].tptr); xctx->uslot[slot].texts = 0; } static void free_undo_instances(int slot) { int i; for(i = 0;iuslot[slot].instances; i++) { my_free(800, &xctx->uslot[slot].iptr[i].name); my_free(801, &xctx->uslot[slot].iptr[i].prop_ptr); my_free(802, &xctx->uslot[slot].iptr[i].instname); my_free(104, &xctx->uslot[slot].iptr[i].lab); } my_free(803, &xctx->uslot[slot].iptr); xctx->uslot[slot].instances = 0; } static void free_undo_symbols(int slot) { int i, j, c, symbols; xSymbol *sym; symbols = xctx->uslot[slot].symbols; for(i = 0;i < symbols; i++) { sym = &xctx->uslot[slot].symptr[i]; my_free(354, &sym->name); my_free(355, &sym->prop_ptr); my_free(373, &sym->type); my_free(660, &sym->templ); for(c = 0;cpolygons[c];j++) { if(sym->poly[c][j].prop_ptr != NULL) { my_free(892, &sym->poly[c][j].prop_ptr); } my_free(914, &sym->poly[c][j].x); my_free(915, &sym->poly[c][j].y); my_free(918, &sym->poly[c][j].selected_point); } my_free(1137, &sym->poly[c]); sym->polygons[c] = 0; for(j = 0;jlines[c];j++) { if(sym->line[c][j].prop_ptr != NULL) { my_free(1142, &sym->line[c][j].prop_ptr); } } my_free(1290, &sym->line[c]); sym->lines[c] = 0; for(j = 0;jarcs[c];j++) { if(sym->arc[c][j].prop_ptr != NULL) { my_free(1291, &sym->arc[c][j].prop_ptr); } } my_free(1292, &sym->arc[c]); sym->arcs[c] = 0; for(j = 0;jrects[c];j++) { if(sym->rect[c][j].prop_ptr != NULL) { my_free(1293, &sym->rect[c][j].prop_ptr); } } my_free(1294, &sym->rect[c]); sym->rects[c] = 0; } for(j = 0;jtexts;j++) { if(sym->text[j].prop_ptr != NULL) { my_free(1297, &sym->text[j].prop_ptr); } if(sym->text[j].txt_ptr != NULL) { my_free(1298, &sym->text[j].txt_ptr); } if(sym->text[j].font != NULL) { my_free(1299, &sym->text[j].font); } } my_free(1300, &sym->text); sym->texts = 0; my_free(1301, &sym->line); my_free(1302, &sym->rect); my_free(1303, &sym->poly); my_free(1304, &sym->arc); my_free(1305, &sym->lines); my_free(1306, &sym->rects); my_free(1307, &sym->polygons); my_free(1308, &sym->arcs); } my_free(48, &xctx->uslot[slot].symptr); xctx->uslot[slot].symbols = 0; } static void mem_init_undo(void) { int slot; dbg(1, "mem_init_undo(): undo_initialized = %d\n", xctx->undo_initialized); if(!xctx->undo_initialized) { for(slot = 0;slotuslot[slot].lines = my_calloc(165, cadlayers, sizeof(int)); xctx->uslot[slot].rects = my_calloc(166, cadlayers, sizeof(int)); xctx->uslot[slot].arcs = my_calloc(167, cadlayers, sizeof(int)); xctx->uslot[slot].polygons = my_calloc(168, cadlayers, sizeof(int)); xctx->uslot[slot].lptr = my_calloc(169, cadlayers, sizeof(xLine *)); xctx->uslot[slot].bptr = my_calloc(170, cadlayers, sizeof(xRect *)); xctx->uslot[slot].aptr = my_calloc(171, cadlayers, sizeof(xArc *)); xctx->uslot[slot].pptr = my_calloc(172, cadlayers, sizeof(xPoly *)); } xctx->undo_initialized = 1; } } /* called when program resets undo stack (for example when loading a new file */ void mem_clear_undo(void) { int slot; dbg(1, "mem_clear_undo(): undo_initialized = %d\n", xctx->undo_initialized); xctx->cur_undo_ptr = 0; xctx->tail_undo_ptr = 0; xctx->head_undo_ptr = 0; if(!xctx->undo_initialized) return; for(slot = 0; slotundo_initialized); if(!xctx->undo_initialized) return; mem_clear_undo(); for(slot = 0;slotuslot[slot].lines); my_free(805, &xctx->uslot[slot].rects); my_free(806, &xctx->uslot[slot].arcs); my_free(807, &xctx->uslot[slot].polygons); my_free(808, &xctx->uslot[slot].lptr); my_free(809, &xctx->uslot[slot].bptr); my_free(810, &xctx->uslot[slot].aptr); my_free(811, &xctx->uslot[slot].pptr); } xctx->undo_initialized = 0; } void mem_push_undo(void) { int slot, i, c; xSymbol *sym; int j; if(xctx->no_undo)return; mem_init_undo(); slot = xctx->cur_undo_ptr%MAX_UNDO; my_strdup(173, &xctx->uslot[slot].gptr, xctx->schvhdlprop); my_strdup(174, &xctx->uslot[slot].vptr, xctx->schverilogprop); my_strdup(175, &xctx->uslot[slot].sptr, xctx->schprop); my_strdup(359, &xctx->uslot[slot].kptr, xctx->schsymbolprop); my_strdup(176, &xctx->uslot[slot].eptr, xctx->schtedaxprop); free_undo_lines(slot); free_undo_rects(slot); free_undo_polygons(slot); free_undo_arcs(slot); free_undo_wires(slot); free_undo_texts(slot); free_undo_instances(slot); free_undo_symbols(slot); memcpy(xctx->uslot[slot].lines, xctx->lines, sizeof(xctx->lines[0]) * cadlayers); memcpy(xctx->uslot[slot].rects, xctx->rects, sizeof(xctx->rects[0]) * cadlayers); memcpy(xctx->uslot[slot].arcs, xctx->arcs, sizeof(xctx->arcs[0]) * cadlayers); memcpy(xctx->uslot[slot].polygons, xctx->polygons, sizeof(xctx->polygons[0]) * cadlayers); for(c = 0;cuslot[slot].lptr[c] = my_calloc(177, xctx->lines[c], sizeof(xLine)); xctx->uslot[slot].bptr[c] = my_calloc(178, xctx->rects[c], sizeof(xRect)); xctx->uslot[slot].pptr[c] = my_calloc(179, xctx->polygons[c], sizeof(xPoly)); xctx->uslot[slot].aptr[c] = my_calloc(180, xctx->arcs[c], sizeof(xArc)); } xctx->uslot[slot].wptr = my_calloc(181, xctx->wires, sizeof(xWire)); xctx->uslot[slot].tptr = my_calloc(182, xctx->texts, sizeof(xText)); xctx->uslot[slot].iptr = my_calloc(183, xctx->instances, sizeof(xInstance)); xctx->uslot[slot].symptr = my_calloc(353, xctx->symbols, sizeof(xSymbol)); xctx->uslot[slot].texts = xctx->texts; xctx->uslot[slot].instances = xctx->instances; xctx->uslot[slot].symbols = xctx->symbols; xctx->uslot[slot].wires = xctx->wires; for(c = 0;clines[c];i++) { xctx->uslot[slot].lptr[c][i] = xctx->line[c][i]; xctx->uslot[slot].lptr[c][i].prop_ptr = NULL; my_strdup(184, &xctx->uslot[slot].lptr[c][i].prop_ptr, xctx->line[c][i].prop_ptr); } /* rects */ for(i = 0;irects[c];i++) { xctx->uslot[slot].bptr[c][i] = xctx->rect[c][i]; xctx->uslot[slot].bptr[c][i].prop_ptr = NULL; xctx->uslot[slot].bptr[c][i].extraptr = NULL; my_strdup(185, &xctx->uslot[slot].bptr[c][i].prop_ptr, xctx->rect[c][i].prop_ptr); } /* arcs */ for(i = 0;iarcs[c];i++) { xctx->uslot[slot].aptr[c][i] = xctx->arc[c][i]; xctx->uslot[slot].aptr[c][i].prop_ptr = NULL; my_strdup(186, &xctx->uslot[slot].aptr[c][i].prop_ptr, xctx->arc[c][i].prop_ptr); } /*polygons */ for(i = 0;ipolygons[c];i++) { int points = xctx->poly[c][i].points; xctx->uslot[slot].pptr[c][i] = xctx->poly[c][i]; xctx->uslot[slot].pptr[c][i].prop_ptr = NULL; xctx->uslot[slot].pptr[c][i].x = my_malloc(187, points * sizeof(double)); xctx->uslot[slot].pptr[c][i].y = my_malloc(188, points * sizeof(double)); xctx->uslot[slot].pptr[c][i].selected_point = my_malloc(189, points * sizeof(unsigned short)); memcpy(xctx->uslot[slot].pptr[c][i].x, xctx->poly[c][i].x, points * sizeof(double)); memcpy(xctx->uslot[slot].pptr[c][i].y, xctx->poly[c][i].y, points * sizeof(double)); memcpy(xctx->uslot[slot].pptr[c][i].selected_point, xctx->poly[c][i].selected_point, points * sizeof(unsigned short)); my_strdup(190, &xctx->uslot[slot].pptr[c][i].prop_ptr, xctx->poly[c][i].prop_ptr); } } /* instances */ for(i = 0;iinstances;i++) { xctx->uslot[slot].iptr[i] = xctx->inst[i]; xctx->uslot[slot].iptr[i].prop_ptr = NULL; xctx->uslot[slot].iptr[i].name = NULL; xctx->uslot[slot].iptr[i].instname = NULL; xctx->uslot[slot].iptr[i].lab = NULL; xctx->uslot[slot].iptr[i].node = NULL; my_strdup(330, &xctx->uslot[slot].iptr[i].lab, xctx->inst[i].lab); my_strdup2(191, &xctx->uslot[slot].iptr[i].instname, xctx->inst[i].instname); my_strdup(192, &xctx->uslot[slot].iptr[i].prop_ptr, xctx->inst[i].prop_ptr); my_strdup2(193, &xctx->uslot[slot].iptr[i].name, xctx->inst[i].name); } /* symbols */ for(i = 0;isymbols;i++) { sym = &xctx->uslot[slot].symptr[i]; xctx->uslot[slot].symptr[i] = xctx->sym[i]; sym->name = NULL; sym->prop_ptr = NULL; sym->type = NULL; sym->templ = NULL; my_strdup2(1316, &sym->name, xctx->sym[i].name); my_strdup2(1317, &sym->type, xctx->sym[i].type); my_strdup2(1318, &sym->templ, xctx->sym[i].templ); my_strdup2(1319, &sym->prop_ptr, xctx->sym[i].prop_ptr); sym->line = my_calloc(1309, cadlayers, sizeof(xLine *)); sym->poly = my_calloc(1324, cadlayers, sizeof(xPoly *)); sym->arc = my_calloc(1310, cadlayers, sizeof(xArc *)); sym->rect = my_calloc(1311, cadlayers, sizeof(xRect *)); sym->lines = my_calloc(1312, cadlayers, sizeof(int)); sym->rects = my_calloc(1313, cadlayers, sizeof(int)); sym->arcs = my_calloc(1314, cadlayers, sizeof(int)); sym->polygons = my_calloc(1315, cadlayers, sizeof(int)); sym->text = my_calloc(1320, xctx->sym[i].texts, sizeof(xText)); memcpy(sym->lines, xctx->sym[i].lines, sizeof(sym->lines[0]) * cadlayers); memcpy(sym->rects, xctx->sym[i].rects, sizeof(sym->rects[0]) * cadlayers); memcpy(sym->arcs, xctx->sym[i].arcs, sizeof(sym->arcs[0]) * cadlayers); memcpy(sym->polygons, xctx->sym[i].polygons, sizeof(sym->polygons[0]) * cadlayers); for(c = 0;cline[c] = my_calloc(1359, xctx->sym[i].lines[c], sizeof(xLine)); for(j = 0; j < xctx->sym[i].lines[c]; j++) { sym->line[c][j] = xctx->sym[i].line[c][j]; sym->line[c][j].prop_ptr = NULL; my_strdup(1358, &sym->line[c][j].prop_ptr, xctx->sym[i].line[c][j].prop_ptr); } /* symbol rects */ sym->rect[c] = my_calloc(1360, xctx->sym[i].rects[c], sizeof(xRect)); for(j = 0; j < xctx->sym[i].rects[c]; j++) { sym->rect[c][j] = xctx->sym[i].rect[c][j]; sym->rect[c][j].prop_ptr = NULL; sym->rect[c][j].extraptr = NULL; my_strdup(1362, &sym->rect[c][j].prop_ptr, xctx->sym[i].rect[c][j].prop_ptr); } /* symbol arcs */ sym->arc[c] = my_calloc(1361, xctx->sym[i].arcs[c], sizeof(xArc)); for(j = 0; j < xctx->sym[i].arcs[c]; j++) { sym->arc[c][j] = xctx->sym[i].arc[c][j]; sym->arc[c][j].prop_ptr = NULL; my_strdup(1375, &sym->arc[c][j].prop_ptr, xctx->sym[i].arc[c][j].prop_ptr); } /* symbol polygons */ sym->poly[c] = my_calloc(1363, xctx->sym[i].polygons[c], sizeof(xPoly)); for(j = 0; j < xctx->sym[i].polygons[c]; j++) { int points = xctx->sym[i].poly[c][j].points; sym->poly[c][j] = xctx->sym[i].poly[c][j]; sym->poly[c][j].prop_ptr = NULL; sym->poly[c][j].x = my_malloc(1365, points * sizeof(double)); sym->poly[c][j].y = my_malloc(1366, points * sizeof(double)); sym->poly[c][j].selected_point = my_malloc(1367, points * sizeof(unsigned short)); my_strdup(1364, &sym->poly[c][j].prop_ptr, xctx->sym[i].poly[c][j].prop_ptr); memcpy(sym->poly[c][j].x, xctx->sym[i].poly[c][j].x, points * sizeof(double)); memcpy(sym->poly[c][j].y, xctx->sym[i].poly[c][j].y, points * sizeof(double)); memcpy(sym->poly[c][j].selected_point, xctx->sym[i].poly[c][j].selected_point, points * sizeof(unsigned short)); } } /* symbol texts */ for(j = 0; j < xctx->sym[i].texts; j++) { sym->text[j] = xctx->sym[i].text[j]; sym->text[j].prop_ptr = NULL; sym->text[j].txt_ptr = NULL; sym->text[j].font = NULL; my_strdup(1321, &sym->text[j].prop_ptr, xctx->sym[i].text[j].prop_ptr); my_strdup(1322, &sym->text[j].txt_ptr, xctx->sym[i].text[j].txt_ptr); my_strdup(1323, &sym->text[j].font, xctx->sym[i].text[j].font); } } /* texts */ for(i = 0;itexts;i++) { xctx->uslot[slot].tptr[i] = xctx->text[i]; xctx->uslot[slot].tptr[i].prop_ptr = NULL; xctx->uslot[slot].tptr[i].txt_ptr = NULL; xctx->uslot[slot].tptr[i].font = NULL; my_strdup(194, &xctx->uslot[slot].tptr[i].prop_ptr, xctx->text[i].prop_ptr); my_strdup(195, &xctx->uslot[slot].tptr[i].txt_ptr, xctx->text[i].txt_ptr); my_strdup(196, &xctx->uslot[slot].tptr[i].font, xctx->text[i].font); } /* wires */ for(i = 0;iwires;i++) { xctx->uslot[slot].wptr[i] = xctx->wire[i]; xctx->uslot[slot].wptr[i].prop_ptr = NULL; xctx->uslot[slot].wptr[i].node = NULL; my_strdup(197, &xctx->uslot[slot].wptr[i].prop_ptr, xctx->wire[i].prop_ptr); } xctx->cur_undo_ptr++; xctx->head_undo_ptr = xctx->cur_undo_ptr; xctx->tail_undo_ptr = xctx->head_undo_ptr <= MAX_UNDO? 0: xctx->head_undo_ptr-MAX_UNDO; } /* redo: * 0: undo (with push current state for allowing following redo) * 1: redo * 2: read top data from undo stack without changing undo stack */ void mem_pop_undo(int redo, int set_modify_status) { int slot, i, c; xSymbol *sym; int j; if(xctx->no_undo)return; if(redo == 1) { if(xctx->cur_undo_ptr < xctx->head_undo_ptr) { xctx->cur_undo_ptr++; } else { return; } } else if(redo == 0) { /* undo */ if(xctx->cur_undo_ptr == xctx->tail_undo_ptr) return; if(xctx->head_undo_ptr == xctx->cur_undo_ptr) { xctx->push_undo(); xctx->head_undo_ptr--; xctx->cur_undo_ptr--; } if(xctx->cur_undo_ptr<= 0) return; /* check undo tail */ xctx->cur_undo_ptr--; } else { /* redo == 2, get data without changing undo stack */ if(xctx->cur_undo_ptr<= 0) return; /* check undo tail */ xctx->cur_undo_ptr--; /* will be restored at end */ } slot = xctx->cur_undo_ptr%MAX_UNDO; clear_drawing(); unselect_all(1); my_free(1345, &xctx->wire); my_free(1346, &xctx->text); my_free(1347, &xctx->inst); for(i = 0;irect[i]); my_free(1342, &xctx->line[i]); my_free(1343, &xctx->poly[i]); my_free(1344, &xctx->arc[i]); } remove_symbols(); for(i = 0;imaxs;i++) { my_free(1349, &xctx->sym[i].line); my_free(1350, &xctx->sym[i].rect); my_free(1351, &xctx->sym[i].arc); my_free(1352, &xctx->sym[i].poly); my_free(1353, &xctx->sym[i].lines); my_free(1354, &xctx->sym[i].polygons); my_free(1355, &xctx->sym[i].arcs); my_free(1356, &xctx->sym[i].rects); } my_free(0, &xctx->sym); my_strdup(198, &xctx->schvhdlprop, xctx->uslot[slot].gptr); my_strdup(199, &xctx->schverilogprop, xctx->uslot[slot].vptr); my_strdup(200, &xctx->schprop, xctx->uslot[slot].sptr); my_strdup(389, &xctx->schsymbolprop, xctx->uslot[slot].kptr); my_strdup(201, &xctx->schtedaxprop, xctx->uslot[slot].eptr); for(c = 0;cmaxl[c] = xctx->lines[c] = xctx->uslot[slot].lines[c]; xctx->line[c] = my_calloc(202, xctx->lines[c], sizeof(xLine)); for(i = 0;ilines[c];i++) { xctx->line[c][i] = xctx->uslot[slot].lptr[c][i]; xctx->line[c][i].prop_ptr = NULL; my_strdup(203, &xctx->line[c][i].prop_ptr, xctx->uslot[slot].lptr[c][i].prop_ptr); } /* rects */ xctx->maxr[c] = xctx->rects[c] = xctx->uslot[slot].rects[c]; xctx->rect[c] = my_calloc(204, xctx->rects[c], sizeof(xRect)); for(i = 0;irects[c];i++) { xctx->rect[c][i] = xctx->uslot[slot].bptr[c][i]; xctx->rect[c][i].prop_ptr = NULL; xctx->rect[c][i].extraptr = NULL; my_strdup(205, &xctx->rect[c][i].prop_ptr, xctx->uslot[slot].bptr[c][i].prop_ptr); } /* arcs */ xctx->maxa[c] = xctx->arcs[c] = xctx->uslot[slot].arcs[c]; xctx->arc[c] = my_calloc(206, xctx->arcs[c], sizeof(xArc)); for(i = 0;iarcs[c];i++) { xctx->arc[c][i] = xctx->uslot[slot].aptr[c][i]; xctx->arc[c][i].prop_ptr = NULL; my_strdup(207, &xctx->arc[c][i].prop_ptr, xctx->uslot[slot].aptr[c][i].prop_ptr); } /* polygons */ xctx->maxp[c] = xctx->polygons[c] = xctx->uslot[slot].polygons[c]; xctx->poly[c] = my_calloc(208, xctx->polygons[c], sizeof(xPoly)); for(i = 0;ipolygons[c];i++) { int points = xctx->uslot[slot].pptr[c][i].points; xctx->poly[c][i] = xctx->uslot[slot].pptr[c][i]; xctx->poly[c][i].prop_ptr = NULL; my_strdup(209, &xctx->poly[c][i].prop_ptr, xctx->uslot[slot].pptr[c][i].prop_ptr); xctx->poly[c][i].x = my_malloc(210, points * sizeof(double)); xctx->poly[c][i].y = my_malloc(211, points * sizeof(double)); xctx->poly[c][i].selected_point = my_malloc(212, points * sizeof(unsigned short)); memcpy(xctx->poly[c][i].x, xctx->uslot[slot].pptr[c][i].x, points * sizeof(double)); memcpy(xctx->poly[c][i].y, xctx->uslot[slot].pptr[c][i].y, points * sizeof(double)); memcpy(xctx->poly[c][i].selected_point, xctx->uslot[slot].pptr[c][i].selected_point, points * sizeof(unsigned short)); } } /* instances */ xctx->maxi = xctx->instances = xctx->uslot[slot].instances; xctx->inst = my_calloc(213, xctx->instances, sizeof(xInstance)); for(i = 0;iinstances;i++) { xctx->inst[i] = xctx->uslot[slot].iptr[i]; xctx->inst[i].prop_ptr = NULL; xctx->inst[i].name = NULL; xctx->inst[i].instname = NULL; xctx->inst[i].lab = NULL; my_strdup(214, &xctx->inst[i].prop_ptr, xctx->uslot[slot].iptr[i].prop_ptr); my_strdup2(215, &xctx->inst[i].name, xctx->uslot[slot].iptr[i].name); my_strdup2(216, &xctx->inst[i].instname, xctx->uslot[slot].iptr[i].instname); my_strdup(766, &xctx->inst[i].lab, xctx->uslot[slot].iptr[i].lab); } /* symbols */ xctx->maxs = xctx->symbols = xctx->uslot[slot].symbols; xctx->sym = my_calloc(1325, xctx->symbols, sizeof(xSymbol)); for(i = 0;isymbols;i++) { sym = &xctx->uslot[slot].symptr[i]; xctx->sym[i] = *sym; xctx->sym[i].name = NULL; xctx->sym[i].prop_ptr = NULL; xctx->sym[i].type = NULL; xctx->sym[i].templ = NULL; my_strdup2(1326, &xctx->sym[i].name, sym->name); my_strdup2(1327, &xctx->sym[i].type, sym->type); my_strdup2(1328, &xctx->sym[i].templ, sym->templ); my_strdup2(1329, &xctx->sym[i].prop_ptr, sym->prop_ptr); xctx->sym[i].line = my_calloc(1330, cadlayers, sizeof(xLine *)); xctx->sym[i].poly = my_calloc(1331, cadlayers, sizeof(xPoly *)); xctx->sym[i].arc = my_calloc(1332, cadlayers, sizeof(xArc *)); xctx->sym[i].rect = my_calloc(1333, cadlayers, sizeof(xRect *)); xctx->sym[i].lines = my_calloc(1334, cadlayers, sizeof(int)); xctx->sym[i].rects = my_calloc(1335, cadlayers, sizeof(int)); xctx->sym[i].arcs = my_calloc(1336, cadlayers, sizeof(int)); xctx->sym[i].polygons = my_calloc(1337, cadlayers, sizeof(int)); xctx->sym[i].text = my_calloc(1338, xctx->sym[i].texts, sizeof(xText)); memcpy(xctx->sym[i].lines, sym->lines, sizeof(sym->lines[0]) * cadlayers); memcpy(xctx->sym[i].rects, sym->rects, sizeof(sym->rects[0]) * cadlayers); memcpy(xctx->sym[i].arcs, sym->arcs, sizeof(sym->arcs[0]) * cadlayers); memcpy(xctx->sym[i].polygons, sym->polygons, sizeof(sym->polygons[0]) * cadlayers); for(c = 0;csym[i].line[c] = my_calloc(1371, sym->lines[c], sizeof(xLine)); for(j = 0; j < xctx->sym[i].lines[c]; j++) { xctx->sym[i].line[c][j] = sym->line[c][j]; xctx->sym[i].line[c][j].prop_ptr = NULL; my_strdup(1368, & xctx->sym[i].line[c][j].prop_ptr, sym->line[c][j].prop_ptr); } /* symbol rects */ xctx->sym[i].rect[c] = my_calloc(1372, sym->rects[c], sizeof(xRect)); for(j = 0; j < xctx->sym[i].rects[c]; j++) { xctx->sym[i].rect[c][j] = sym->rect[c][j]; xctx->sym[i].rect[c][j].prop_ptr = NULL; xctx->sym[i].rect[c][j].extraptr = NULL; my_strdup(1369, & xctx->sym[i].rect[c][j].prop_ptr, sym->rect[c][j].prop_ptr); } /* symbol arcs */ xctx->sym[i].arc[c] = my_calloc(1373, sym->arcs[c], sizeof(xArc)); for(j = 0; j < xctx->sym[i].arcs[c]; j++) { xctx->sym[i].arc[c][j] = sym->arc[c][j]; xctx->sym[i].arc[c][j].prop_ptr = NULL; my_strdup(1370, & xctx->sym[i].arc[c][j].prop_ptr, sym->arc[c][j].prop_ptr); } /* symbol polygons */ xctx->sym[i].poly[c] = my_calloc(1374, sym->polygons[c], sizeof(xPoly)); for(j = 0; j < xctx->sym[i].polygons[c]; j++) { int points = sym->poly[c][j].points; xctx->sym[i].poly[c][j] = sym->poly[c][j]; xctx->sym[i].poly[c][j].prop_ptr = NULL; xctx->sym[i].poly[c][j].x = my_malloc(1376, points * sizeof(double)); xctx->sym[i].poly[c][j].y = my_malloc(1377, points * sizeof(double)); xctx->sym[i].poly[c][j].selected_point = my_malloc(1378, points * sizeof(unsigned short)); memcpy(xctx->sym[i].poly[c][j].x, sym->poly[c][j].x, points * sizeof(double)); memcpy(xctx->sym[i].poly[c][j].y, sym->poly[c][j].y, points * sizeof(double)); memcpy(xctx->sym[i].poly[c][j].selected_point, sym->poly[c][j].selected_point, points * sizeof(unsigned short)); my_strdup(1357, & xctx->sym[i].poly[c][j].prop_ptr, sym->poly[c][j].prop_ptr); } } /* symbol texts */ for(j = 0; j < xctx->sym[i].texts; j++) { xctx->sym[i].text[j] = sym->text[j]; xctx->sym[i].text[j].prop_ptr = NULL; xctx->sym[i].text[j].txt_ptr = NULL; xctx->sym[i].text[j].font = NULL; my_strdup(1339, &xctx->sym[i].text[j].prop_ptr, sym->text[j].prop_ptr); my_strdup(1340, &xctx->sym[i].text[j].txt_ptr, sym->text[j].txt_ptr); my_strdup(1341, &xctx->sym[i].text[j].font, sym->text[j].font); } } /* texts */ xctx->maxt = xctx->texts = xctx->uslot[slot].texts; xctx->text = my_calloc(217, xctx->texts, sizeof(xText)); for(i = 0;itexts;i++) { xctx->text[i] = xctx->uslot[slot].tptr[i]; xctx->text[i].txt_ptr = NULL; xctx->text[i].font = NULL; xctx->text[i].prop_ptr = NULL; my_strdup(218, &xctx->text[i].prop_ptr, xctx->uslot[slot].tptr[i].prop_ptr); my_strdup(219, &xctx->text[i].txt_ptr, xctx->uslot[slot].tptr[i].txt_ptr); my_strdup(220, &xctx->text[i].font, xctx->uslot[slot].tptr[i].font); } /* wires */ xctx->maxw = xctx->wires = xctx->uslot[slot].wires; xctx->wire = my_calloc(221, xctx->wires, sizeof(xWire)); for(i = 0;iwires;i++) { xctx->wire[i] = xctx->uslot[slot].wptr[i]; xctx->wire[i].prop_ptr = NULL; xctx->wire[i].node = NULL; my_strdup(222, &xctx->wire[i].prop_ptr, xctx->uslot[slot].wptr[i].prop_ptr); } /* unnecessary since in_memory_undo saves all symbols */ /* link_symbols_to_instances(-1); */ if(redo == 2) xctx->cur_undo_ptr++; /* restore undo stack pointer */ if(set_modify_status) set_modify(1); xctx->prep_hash_inst = 0; xctx->prep_hash_wires = 0; xctx->prep_net_structs = 0; xctx->prep_hi_structs = 0; update_conn_cues(WIRELAYER, 0, 0); }