#include "solvespace.h" #define VERSION_STRING "±²³SolveSpaceREVa" hGroup SolveSpace::CreateDefaultDrawingGroup(void) { Group g; ZERO(&g); // And an empty group, for the first stuff the user draws. g.visible = true; g.type = Group::DRAWING_WORKPLANE; g.subtype = Group::WORKPLANE_BY_POINT_ORTHO; g.predef.q = Quaternion::From(1, 0, 0, 0); hRequest hr = Request::HREQUEST_REFERENCE_XY; g.predef.origin = hr.entity(1); g.name.strcpy("draw-in-plane"); group.AddAndAssignId(&g); SS.GetGroup(g.h)->activeWorkplane = g.h.entity(0); return g.h; } void SolveSpace::NewFile(void) { UndoClearStack(&redo); UndoClearStack(&undo); constraint.Clear(); request.Clear(); group.Clear(); entity.Clear(); param.Clear(); // Our initial group, that contains the references. Group g; memset(&g, 0, sizeof(g)); g.visible = true; g.name.strcpy("#references"); g.type = Group::DRAWING_3D; g.h = Group::HGROUP_REFERENCES; group.Add(&g); // Let's create three two-d coordinate systems, for the coordinate // planes; these are our references, present in every sketch. Request r; ZERO(&r); r.type = Request::WORKPLANE; r.group = Group::HGROUP_REFERENCES; r.workplane = Entity::FREE_IN_3D; r.h = Request::HREQUEST_REFERENCE_XY; request.Add(&r); r.h = Request::HREQUEST_REFERENCE_YZ; request.Add(&r); r.h = Request::HREQUEST_REFERENCE_ZX; request.Add(&r); CreateDefaultDrawingGroup(); } const SolveSpace::SaveTable SolveSpace::SAVED[] = { { 'g', "Group.h.v", 'x', &(SS.sv.g.h.v) }, { 'g', "Group.type", 'd', &(SS.sv.g.type) }, { 'g', "Group.name", 'N', &(SS.sv.g.name) }, { 'g', "Group.activeWorkplane.v", 'x', &(SS.sv.g.activeWorkplane.v) }, { 'g', "Group.opA.v", 'x', &(SS.sv.g.opA.v) }, { 'g', "Group.valA", 'f', &(SS.sv.g.valA) }, { 'g', "Group.color", 'x', &(SS.sv.g.color) }, { 'g', "Group.subtype", 'd', &(SS.sv.g.subtype) }, { 'g', "Group.skipFirst", 'b', &(SS.sv.g.skipFirst) }, { 'g', "Group.meshCombine", 'd', &(SS.sv.g.meshCombine) }, { 'g', "Group.predef.q.w", 'f', &(SS.sv.g.predef.q.w) }, { 'g', "Group.predef.q.vx", 'f', &(SS.sv.g.predef.q.vx) }, { 'g', "Group.predef.q.vy", 'f', &(SS.sv.g.predef.q.vy) }, { 'g', "Group.predef.q.vz", 'f', &(SS.sv.g.predef.q.vz) }, { 'g', "Group.predef.origin.v", 'x', &(SS.sv.g.predef.origin.v) }, { 'g', "Group.predef.entityB.v", 'x', &(SS.sv.g.predef.entityB.v) }, { 'g', "Group.predef.entityC.v", 'x', &(SS.sv.g.predef.entityC.v) }, { 'g', "Group.predef.swapUV", 'b', &(SS.sv.g.predef.swapUV) }, { 'g', "Group.predef.negateU", 'b', &(SS.sv.g.predef.negateU) }, { 'g', "Group.predef.negateV", 'b', &(SS.sv.g.predef.negateV) }, { 'g', "Group.visible", 'b', &(SS.sv.g.visible) }, { 'g', "Group.remap", 'M', &(SS.sv.g.remap) }, { 'g', "Group.impFile", 'P', &(SS.sv.g.impFile) }, { 'p', "Param.h.v.", 'x', &(SS.sv.p.h.v) }, { 'p', "Param.val", 'f', &(SS.sv.p.val) }, { 'r', "Request.h.v", 'x', &(SS.sv.r.h.v) }, { 'r', "Request.type", 'd', &(SS.sv.r.type) }, { 'r', "Request.workplane.v", 'x', &(SS.sv.r.workplane.v) }, { 'r', "Request.group.v", 'x', &(SS.sv.r.group.v) }, { 'r', "Request.construction", 'b', &(SS.sv.r.construction) }, { 'e', "Entity.h.v", 'x', &(SS.sv.e.h.v) }, { 'e', "Entity.type", 'd', &(SS.sv.e.type) }, { 'e', "Entity.construction", 'b', &(SS.sv.e.construction) }, { 'e', "Entity.point[0].v", 'x', &(SS.sv.e.point[0].v) }, { 'e', "Entity.point[1].v", 'x', &(SS.sv.e.point[1].v) }, { 'e', "Entity.point[2].v", 'x', &(SS.sv.e.point[2].v) }, { 'e', "Entity.point[3].v", 'x', &(SS.sv.e.point[3].v) }, { 'e', "Entity.normal.v", 'x', &(SS.sv.e.normal.v) }, { 'e', "Entity.distance.v", 'x', &(SS.sv.e.distance.v) }, { 'e', "Entity.workplane.v", 'x', &(SS.sv.e.workplane.v) }, { 'e', "Entity.actPoint.x", 'f', &(SS.sv.e.actPoint.x) }, { 'e', "Entity.actPoint.y", 'f', &(SS.sv.e.actPoint.y) }, { 'e', "Entity.actPoint.z", 'f', &(SS.sv.e.actPoint.z) }, { 'e', "Entity.actNormal.w", 'f', &(SS.sv.e.actNormal.w) }, { 'e', "Entity.actNormal.vx", 'f', &(SS.sv.e.actNormal.vx) }, { 'e', "Entity.actNormal.vy", 'f', &(SS.sv.e.actNormal.vy) }, { 'e', "Entity.actNormal.vz", 'f', &(SS.sv.e.actNormal.vz) }, { 'e', "Entity.actDistance", 'f', &(SS.sv.e.actDistance) }, { 'e', "Entity.actVisible", 'b', &(SS.sv.e.actVisible), }, { 'c', "Constraint.h.v", 'x', &(SS.sv.c.h.v) }, { 'c', "Constraint.type", 'd', &(SS.sv.c.type) }, { 'c', "Constraint.group.v", 'x', &(SS.sv.c.group.v) }, { 'c', "Constraint.workplane.v", 'x', &(SS.sv.c.workplane.v) }, { 'c', "Constraint.valA", 'f', &(SS.sv.c.valA) }, { 'c', "Constraint.ptA.v", 'x', &(SS.sv.c.ptA.v) }, { 'c', "Constraint.ptB.v", 'x', &(SS.sv.c.ptB.v) }, { 'c', "Constraint.ptC.v", 'x', &(SS.sv.c.ptC.v) }, { 'c', "Constraint.entityA.v", 'x', &(SS.sv.c.entityA.v) }, { 'c', "Constraint.entityB.v", 'x', &(SS.sv.c.entityB.v) }, { 'c', "Constraint.otherAngle", 'b', &(SS.sv.c.otherAngle) }, { 'c', "Constraint.reference", 'b', &(SS.sv.c.reference) }, { 'c', "Constraint.comment", 'N', &(SS.sv.c.comment) }, { 'c', "Constraint.disp.offset.x", 'f', &(SS.sv.c.disp.offset.x) }, { 'c', "Constraint.disp.offset.y", 'f', &(SS.sv.c.disp.offset.y) }, { 'c', "Constraint.disp.offset.z", 'f', &(SS.sv.c.disp.offset.z) }, { 0, NULL, NULL, NULL }, }; void SolveSpace::SaveUsingTable(int type) { int i; for(i = 0; SAVED[i].type != 0; i++) { if(SAVED[i].type != type) continue; int fmt = SAVED[i].fmt; void *p = SAVED[i].ptr; // Any items that aren't specified are assumed to be zero if(fmt == 'd' && *((int *)p) == 0) continue; if(fmt == 'x' && *((DWORD *)p) == 0) continue; if(fmt == 'f' && *((double *)p) == 0.0) continue; fprintf(fh, "%s=", SAVED[i].desc); switch(fmt) { case 'd': fprintf(fh, "%d", *((int *)p)); break; case 'b': fprintf(fh, "%d", *((bool *)p) ? 1 : 0); break; case 'x': fprintf(fh, "%08x", *((DWORD *)p)); break; case 'f': fprintf(fh, "%.20f", *((double *)p)); break; case 'N': fprintf(fh, "%s", ((NameStr *)p)->str); break; case 'P': fprintf(fh, "%s", (char *)p); break; case 'M': { int j; fprintf(fh, "{\n"); IdList *m = (IdList *)p; for(j = 0; j < m->n; j++) { EntityMap *em = &(m->elem[j]); fprintf(fh, " %d %08x %d\n", em->h.v, em->input.v, em->copyNumber); } fprintf(fh, "}"); break; } default: oops(); } fprintf(fh, "\n"); } } bool SolveSpace::SaveToFile(char *filename) { // Make sure all the entities are regenerated up to date, since they // will be exported. SS.GenerateAll(0, INT_MAX); fh = fopen(filename, "w"); if(!fh) { Error("Couldn't write to file '%s'", filename); return false; } fprintf(fh, "%s\n\n\n", VERSION_STRING); int i; for(i = 0; i < group.n; i++) { sv.g = group.elem[i]; SaveUsingTable('g'); fprintf(fh, "AddGroup\n\n"); } for(i = 0; i < param.n; i++) { sv.p = param.elem[i]; SaveUsingTable('p'); fprintf(fh, "AddParam\n\n"); } for(i = 0; i < request.n; i++) { sv.r = request.elem[i]; SaveUsingTable('r'); fprintf(fh, "AddRequest\n\n"); } for(i = 0; i < entity.n; i++) { (entity.elem[i]).CalculateNumerical(true); sv.e = entity.elem[i]; SaveUsingTable('e'); fprintf(fh, "AddEntity\n\n"); } for(i = 0; i < constraint.n; i++) { sv.c = constraint.elem[i]; SaveUsingTable('c'); fprintf(fh, "AddConstraint\n\n"); } SMesh *m = &(group.elem[group.n-1].mesh); for(i = 0; i < m->l.n; i++) { STriangle *tr = &(m->l.elem[i]); fprintf(fh, "Triangle %08x %08x " "%.20f %.20f %.20f %.20f %.20f %.20f %.20f %.20f %.20f\n", tr->meta.face, tr->meta.color, CO(tr->a), CO(tr->b), CO(tr->c)); } fclose(fh); return true; } void SolveSpace::LoadUsingTable(char *key, char *val) { int i; for(i = 0; SAVED[i].type != 0; i++) { if(strcmp(SAVED[i].desc, key)==0) { void *p = SAVED[i].ptr; switch(SAVED[i].fmt) { case 'd': *((int *)p) = atoi(val); break; case 'b': *((bool *)p) = (atoi(val) != 0); break; case 'x': sscanf(val, "%x", (DWORD *)p); break; case 'f': *((double *)p) = atof(val); break; case 'N': ((NameStr *)p)->strcpy(val); break; case 'P': if(strlen(val)+1 < MAX_PATH) strcpy((char *)p, val); break; case 'M': { IdList *m = (IdList *)p; // Don't clear this list! When the group gets added, it // makes a shallow copy, so that would result in us // freeing memory that we want to keep around. Just // zero it out so that new memory is allocated. memset(m, 0, sizeof(*m)); for(;;) { EntityMap em; char line2[1024]; fgets(line2, sizeof(line2), fh); if(sscanf(line2, "%d %x %d", &(em.h.v), &(em.input.v), &(em.copyNumber)) == 3) { m->Add(&em); } else { break; } } break; } default: oops(); } break; } } if(SAVED[i].type == 0) oops(); } bool SolveSpace::LoadFromFile(char *filename) { fh = fopen(filename, "r"); if(!fh) { Error("Couldn't read from file '%s'", filename); return false; } UndoClearStack(&redo); UndoClearStack(&undo); constraint.Clear(); request.Clear(); group.Clear(); entity.Clear(); param.Clear(); memset(&sv, 0, sizeof(sv)); char line[1024]; while(fgets(line, sizeof(line), fh)) { char *s = strchr(line, '\n'); if(s) *s = '\0'; if(*line == '\0') continue; char *e = strchr(line, '='); if(e) { *e = '\0'; char *key = line, *val = e+1; LoadUsingTable(key, val); } else if(strcmp(line, "AddGroup")==0) { SS.group.Add(&(sv.g)); memset(&(sv.g), 0, sizeof(sv.g)); } else if(strcmp(line, "AddParam")==0) { // params are regenerated, but we want to preload the values // for initial guesses SS.param.Add(&(sv.p)); memset(&(sv.p), 0, sizeof(sv.p)); } else if(strcmp(line, "AddEntity")==0) { // entities are regenerated } else if(strcmp(line, "AddRequest")==0) { SS.request.Add(&(sv.r)); memset(&(sv.r), 0, sizeof(sv.r)); } else if(strcmp(line, "AddConstraint")==0) { SS.constraint.Add(&(sv.c)); memset(&(sv.c), 0, sizeof(sv.c)); } else if(strcmp(line, VERSION_STRING)==0) { // do nothing, version string } else if(memcmp(line, "Triangle", 8)==0) { // likewise ignore the triangles; we generate those } else { oops(); } } fclose(fh); return true; } bool SolveSpace::LoadEntitiesFromFile(char *file, EntityList *le, SMesh *m) { fh = fopen(file, "r"); if(!fh) return false; le->Clear(); memset(&sv, 0, sizeof(sv)); char line[1024]; while(fgets(line, sizeof(line), fh)) { char *s = strchr(line, '\n'); if(s) *s = '\0'; if(*line == '\0') continue; char *e = strchr(line, '='); if(e) { *e = '\0'; char *key = line, *val = e+1; LoadUsingTable(key, val); } else if(strcmp(line, "AddGroup")==0) { // Don't leak memory; these get allocated whether we want them // or not. sv.g.remap.Clear(); } else if(strcmp(line, "AddParam")==0) { } else if(strcmp(line, "AddEntity")==0) { le->Add(&(sv.e)); memset(&(sv.e), 0, sizeof(sv.e)); } else if(strcmp(line, "AddRequest")==0) { } else if(strcmp(line, "AddConstraint")==0) { } else if(strcmp(line, VERSION_STRING)==0) { } else if(memcmp(line, "Triangle", 8)==0) { STriangle tr; ZERO(&tr); if(sscanf(line, "Triangle %x %x " "%lf %lf %lf %lf %lf %lf %lf %lf %lf", &(tr.meta.face), &(tr.meta.color), &(tr.a.x), &(tr.a.y), &(tr.a.z), &(tr.b.x), &(tr.b.y), &(tr.b.z), &(tr.c.x), &(tr.c.y), &(tr.c.z)) != 11) { oops(); } m->AddTriangle(&tr); } else { oops(); } } fclose(fh); return true; } void SolveSpace::ReloadAllImported(void) { int i; for(i = 0; i < group.n; i++) { Group *g = &(group.elem[i]); if(g->type != Group::IMPORTED) continue; g->impEntity.Clear(); g->impMesh.Clear(); if(!LoadEntitiesFromFile(g->impFile, &(g->impEntity), &(g->impMesh))) { oops(); } } }