//----------------------------------------------------------------------------- // Routines to write and read our .slvs file format. // // Copyright 2008-2013 Jonathan Westhues. //----------------------------------------------------------------------------- #include "solvespace.h" #define VERSION_STRING "\261\262\263" "SolveSpaceREVa" static int StrStartsWith(const char *str, const char *start) { return memcmp(str, start, strlen(start)) == 0; } //----------------------------------------------------------------------------- // Clear and free all the dynamic memory associated with our currently-loaded // sketch. This does not leave the program in an acceptable state (with the // references created, and so on), so anyone calling this must fix that later. //----------------------------------------------------------------------------- void SolveSpaceUI::ClearExisting() { UndoClearStack(&redo); UndoClearStack(&undo); for(int i = 0; i < SK.groupOrder.n; i++) { Group *g = SK.GetGroup(SK.groupOrder.elem[i]); g->Clear(); } SK.constraint.Clear(); SK.request.Clear(); SK.group.Clear(); SK.groupOrder.Clear(); SK.style.Clear(); SK.entity.Clear(); SK.param.Clear(); } hGroup SolveSpaceUI::CreateDefaultDrawingGroup() { Group g = {}; // And an empty group, for the first stuff the user draws. g.visible = true; g.name = "sketch-in-plane"; g.type = Group::Type::DRAWING_WORKPLANE; g.subtype = Group::Subtype::WORKPLANE_BY_POINT_ORTHO; g.order = 1; g.predef.q = Quaternion::From(1, 0, 0, 0); hRequest hr = Request::HREQUEST_REFERENCE_XY; g.predef.origin = hr.entity(1); SK.group.AddAndAssignId(&g); SK.GetGroup(g.h)->activeWorkplane = g.h.entity(0); return g.h; } void SolveSpaceUI::NewFile() { ClearExisting(); // Our initial group, that contains the references. Group g = {}; g.visible = true; g.name = "#references"; g.type = Group::Type::DRAWING_3D; g.order = 0; g.h = Group::HGROUP_REFERENCES; SK.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 = {}; r.type = Request::Type::WORKPLANE; r.group = Group::HGROUP_REFERENCES; r.workplane = Entity::FREE_IN_3D; r.h = Request::HREQUEST_REFERENCE_XY; SK.request.Add(&r); r.h = Request::HREQUEST_REFERENCE_YZ; SK.request.Add(&r); r.h = Request::HREQUEST_REFERENCE_ZX; SK.request.Add(&r); CreateDefaultDrawingGroup(); } const SolveSpaceUI::SaveTable SolveSpaceUI::SAVED[] = { { 'g', "Group.h.v", 'x', &(SS.sv.g.h.v) }, { 'g', "Group.type", 'd', &(SS.sv.g.type) }, { 'g', "Group.order", 'd', &(SS.sv.g.order) }, { 'g', "Group.name", 'S', &(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.opB.v", 'x', &(SS.sv.g.opB.v) }, { 'g', "Group.valA", 'f', &(SS.sv.g.valA) }, { 'g', "Group.valB", 'f', &(SS.sv.g.valB) }, { 'g', "Group.valC", 'f', &(SS.sv.g.valB) }, { 'g', "Group.color", 'c', &(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.forceToMesh", 'd', &(SS.sv.g.forceToMesh) }, { '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.suppress", 'b', &(SS.sv.g.suppress) }, { 'g', "Group.relaxConstraints", 'b', &(SS.sv.g.relaxConstraints) }, { 'g', "Group.allowRedundant", 'b', &(SS.sv.g.allowRedundant) }, { 'g', "Group.allDimsReference", 'b', &(SS.sv.g.allDimsReference) }, { 'g', "Group.scale", 'f', &(SS.sv.g.scale) }, { 'g', "Group.remap", 'M', &(SS.sv.g.remap) }, { 'g', "Group.impFile", 'S', &(SS.sv.g.linkFile) }, { 'g', "Group.impFileRel", 'S', &(SS.sv.g.linkFileRel) }, { '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.extraPoints", 'd', &(SS.sv.r.extraPoints) }, { '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) }, { 'r', "Request.style", 'x', &(SS.sv.r.style) }, { 'r', "Request.str", 'S', &(SS.sv.r.str) }, { 'r', "Request.font", 'S', &(SS.sv.r.font) }, { 'r', "Request.aspectRatio", 'f', &(SS.sv.r.aspectRatio) }, { '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.style", 'x', &(SS.sv.e.style) }, { 'e', "Entity.str", 'S', &(SS.sv.e.str) }, { 'e', "Entity.font", 'S', &(SS.sv.e.font) }, { '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.point[4].v", 'x', &(SS.sv.e.point[4].v) }, { 'e', "Entity.point[5].v", 'x', &(SS.sv.e.point[5].v) }, { 'e', "Entity.point[6].v", 'x', &(SS.sv.e.point[6].v) }, { 'e', "Entity.point[7].v", 'x', &(SS.sv.e.point[7].v) }, { 'e', "Entity.point[8].v", 'x', &(SS.sv.e.point[8].v) }, { 'e', "Entity.point[9].v", 'x', &(SS.sv.e.point[9].v) }, { 'e', "Entity.point[10].v", 'x', &(SS.sv.e.point[10].v) }, { 'e', "Entity.point[11].v", 'x', &(SS.sv.e.point[11].v) }, { 'e', "Entity.extraPoints", 'd', &(SS.sv.e.extraPoints) }, { '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.entityA.v", 'x', &(SS.sv.c.entityA.v) }, { 'c', "Constraint.entityB.v", 'x', &(SS.sv.c.entityB.v) }, { 'c', "Constraint.entityC.v", 'x', &(SS.sv.c.entityC.v) }, { 'c', "Constraint.entityD.v", 'x', &(SS.sv.c.entityD.v) }, { 'c', "Constraint.other", 'b', &(SS.sv.c.other) }, { 'c', "Constraint.other2", 'b', &(SS.sv.c.other2) }, { 'c', "Constraint.reference", 'b', &(SS.sv.c.reference) }, { 'c', "Constraint.comment", 'S', &(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) }, { 'c', "Constraint.disp.style", 'x', &(SS.sv.c.disp.style) }, { 's', "Style.h.v", 'x', &(SS.sv.s.h.v) }, { 's', "Style.name", 'S', &(SS.sv.s.name) }, { 's', "Style.width", 'f', &(SS.sv.s.width) }, { 's', "Style.widthAs", 'd', &(SS.sv.s.widthAs) }, { 's', "Style.textHeight", 'f', &(SS.sv.s.textHeight) }, { 's', "Style.textHeightAs", 'd', &(SS.sv.s.textHeightAs) }, { 's', "Style.textAngle", 'f', &(SS.sv.s.textAngle) }, { 's', "Style.textOrigin", 'x', &(SS.sv.s.textOrigin) }, { 's', "Style.color", 'c', &(SS.sv.s.color) }, { 's', "Style.fillColor", 'c', &(SS.sv.s.fillColor) }, { 's', "Style.filled", 'b', &(SS.sv.s.filled) }, { 's', "Style.visible", 'b', &(SS.sv.s.visible) }, { 's', "Style.exportable", 'b', &(SS.sv.s.exportable) }, { 's', "Style.stippleType", 'd', &(SS.sv.s.stippleType) }, { 's', "Style.stippleScale", 'f', &(SS.sv.s.stippleScale) }, { 0, NULL, 0, NULL } }; struct SAVEDptr { IdList &M() { return *((IdList *)this); } std::string &S() { return *((std::string *)this); } bool &b() { return *((bool *)this); } RgbaColor &c() { return *((RgbaColor *)this); } int &d() { return *((int *)this); } double &f() { return *((double *)this); } uint32_t &x() { return *((uint32_t *)this); } }; void SolveSpaceUI::SaveUsingTable(int type) { int i; for(i = 0; SAVED[i].type != 0; i++) { if(SAVED[i].type != type) continue; int fmt = SAVED[i].fmt; SAVEDptr *p = (SAVEDptr *)SAVED[i].ptr; // Any items that aren't specified are assumed to be zero if(fmt == 'S' && p->S().empty()) continue; if(fmt == 'd' && p->d() == 0) continue; if(fmt == 'f' && EXACT(p->f() == 0.0)) continue; if(fmt == 'x' && p->x() == 0) continue; fprintf(fh, "%s=", SAVED[i].desc); switch(fmt) { case 'S': fprintf(fh, "%s", p->S().c_str()); break; case 'b': fprintf(fh, "%d", p->b() ? 1 : 0); break; case 'c': fprintf(fh, "%08x", p->c().ToPackedInt()); break; case 'd': fprintf(fh, "%d", p->d()); break; case 'f': fprintf(fh, "%.20f", p->f()); break; case 'x': fprintf(fh, "%08x", p->x()); break; case 'M': { int j; fprintf(fh, "{\n"); for(j = 0; j < p->M().n; j++) { EntityMap *em = &(p->M().elem[j]); fprintf(fh, " %d %08x %d\n", em->h.v, em->input.v, em->copyNumber); } fprintf(fh, "}"); break; } default: ssassert(false, "Unexpected value format"); } fprintf(fh, "\n"); } } bool SolveSpaceUI::SaveToFile(const std::string &filename) { // Make sure all the entities are regenerated up to date, since they // will be exported. We reload the linked files because that rewrites // the linkFileRel for our possibly-new filename. SS.ScheduleShowTW(); SS.ReloadAllImported(); SS.GenerateAll(SolveSpaceUI::Generate::ALL); fh = ssfopen(filename, "wb"); if(!fh) { Error("Couldn't write to file '%s'", filename.c_str()); return false; } fprintf(fh, "%s\n\n\n", VERSION_STRING); int i, j; for(i = 0; i < SK.group.n; i++) { sv.g = SK.group.elem[i]; SaveUsingTable('g'); fprintf(fh, "AddGroup\n\n"); } for(i = 0; i < SK.param.n; i++) { sv.p = SK.param.elem[i]; SaveUsingTable('p'); fprintf(fh, "AddParam\n\n"); } for(i = 0; i < SK.request.n; i++) { sv.r = SK.request.elem[i]; SaveUsingTable('r'); fprintf(fh, "AddRequest\n\n"); } for(i = 0; i < SK.entity.n; i++) { (SK.entity.elem[i]).CalculateNumerical(/*forExport=*/true); sv.e = SK.entity.elem[i]; SaveUsingTable('e'); fprintf(fh, "AddEntity\n\n"); } for(i = 0; i < SK.constraint.n; i++) { sv.c = SK.constraint.elem[i]; SaveUsingTable('c'); fprintf(fh, "AddConstraint\n\n"); } for(i = 0; i < SK.style.n; i++) { sv.s = SK.style.elem[i]; if(sv.s.h.v >= Style::FIRST_CUSTOM) { SaveUsingTable('s'); fprintf(fh, "AddStyle\n\n"); } } // A group will have either a mesh or a shell, but not both; but the code // to print either of those just does nothing if the mesh/shell is empty. Group *g = SK.GetGroup(SK.groupOrder.elem[SK.groupOrder.n - 1]); SMesh *m = &g->runningMesh; 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.ToPackedInt(), CO(tr->a), CO(tr->b), CO(tr->c)); } SShell *s = &g->runningShell; SSurface *srf; for(srf = s->surface.First(); srf; srf = s->surface.NextAfter(srf)) { fprintf(fh, "Surface %08x %08x %08x %d %d\n", srf->h.v, srf->color.ToPackedInt(), srf->face, srf->degm, srf->degn); for(i = 0; i <= srf->degm; i++) { for(j = 0; j <= srf->degn; j++) { fprintf(fh, "SCtrl %d %d %.20f %.20f %.20f Weight %20.20f\n", i, j, CO(srf->ctrl[i][j]), srf->weight[i][j]); } } STrimBy *stb; for(stb = srf->trim.First(); stb; stb = srf->trim.NextAfter(stb)) { fprintf(fh, "TrimBy %08x %d %.20f %.20f %.20f %.20f %.20f %.20f\n", stb->curve.v, stb->backwards ? 1 : 0, CO(stb->start), CO(stb->finish)); } fprintf(fh, "AddSurface\n"); } SCurve *sc; for(sc = s->curve.First(); sc; sc = s->curve.NextAfter(sc)) { fprintf(fh, "Curve %08x %d %d %08x %08x\n", sc->h.v, sc->isExact ? 1 : 0, sc->exact.deg, sc->surfA.v, sc->surfB.v); if(sc->isExact) { for(i = 0; i <= sc->exact.deg; i++) { fprintf(fh, "CCtrl %d %.20f %.20f %.20f Weight %.20f\n", i, CO(sc->exact.ctrl[i]), sc->exact.weight[i]); } } SCurvePt *scpt; for(scpt = sc->pts.First(); scpt; scpt = sc->pts.NextAfter(scpt)) { fprintf(fh, "CurvePt %d %.20f %.20f %.20f\n", scpt->vertex ? 1 : 0, CO(scpt->p)); } fprintf(fh, "AddCurve\n"); } fclose(fh); return true; } void SolveSpaceUI::LoadUsingTable(char *key, char *val) { int i; for(i = 0; SAVED[i].type != 0; i++) { if(strcmp(SAVED[i].desc, key)==0) { SAVEDptr *p = (SAVEDptr *)SAVED[i].ptr; unsigned int u = 0; switch(SAVED[i].fmt) { case 'S': p->S() = val; break; case 'b': p->b() = (atoi(val) != 0); break; case 'd': p->d() = atoi(val); break; case 'f': p->f() = atof(val); break; case 'x': sscanf(val, "%x", &u); p->x()= u; break; case 'c': sscanf(val, "%x", &u); p->c() = RgbaColor::FromPackedInt(u); break; case 'P': p->S() = val; break; case 'M': { // 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. p->M() = {}; for(;;) { EntityMap em; char line2[1024]; if (fgets(line2, (int)sizeof(line2), fh) == NULL) break; if(sscanf(line2, "%d %x %d", &(em.h.v), &(em.input.v), &(em.copyNumber)) == 3) { p->M().Add(&em); } else { break; } } break; } default: ssassert(false, "Unexpected value format"); } break; } } if(SAVED[i].type == 0) { fileLoadError = true; } } bool SolveSpaceUI::LoadFromFile(const std::string &filename) { allConsistent = false; fileLoadError = false; fh = ssfopen(filename, "rb"); if(!fh) { Error("Couldn't read from file '%s'", filename.c_str()); return false; } ClearExisting(); sv = {}; sv.g.scale = 1; // default is 1, not 0; so legacy files need this Style::FillDefaultStyle(&sv.s); char line[1024]; while(fgets(line, (int)sizeof(line), fh)) { char *s = strchr(line, '\n'); if(s) *s = '\0'; // We should never get files with \r characters in them, but mailers // will sometimes mangle attachments. s = strchr(line, '\r'); 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) { // legacy files have a spurious dependency between linked groups // and their parent groups, remove if(sv.g.type == Group::Type::LINKED) sv.g.opA.v = 0; SK.group.Add(&(sv.g)); sv.g = {}; sv.g.scale = 1; // default is 1, not 0; so legacy files need this } else if(strcmp(line, "AddParam")==0) { // params are regenerated, but we want to preload the values // for initial guesses SK.param.Add(&(sv.p)); sv.p = {}; } else if(strcmp(line, "AddEntity")==0) { // entities are regenerated } else if(strcmp(line, "AddRequest")==0) { SK.request.Add(&(sv.r)); sv.r = {}; } else if(strcmp(line, "AddConstraint")==0) { SK.constraint.Add(&(sv.c)); sv.c = {}; } else if(strcmp(line, "AddStyle")==0) { SK.style.Add(&(sv.s)); sv.s = {}; Style::FillDefaultStyle(&sv.s); } else if(strcmp(line, VERSION_STRING)==0) { // do nothing, version string } else if(StrStartsWith(line, "Triangle ") || StrStartsWith(line, "Surface ") || StrStartsWith(line, "SCtrl ") || StrStartsWith(line, "TrimBy ") || StrStartsWith(line, "Curve ") || StrStartsWith(line, "CCtrl ") || StrStartsWith(line, "CurvePt ") || strcmp(line, "AddSurface")==0 || strcmp(line, "AddCurve")==0) { // ignore the mesh or shell, since we regenerate that } else { fileLoadError = true; } } fclose(fh); if(fileLoadError) { Error("Unrecognized data in file. This file may be corrupt, or " "from a new version of the program."); // At least leave the program in a non-crashing state. if(SK.group.n == 0) { NewFile(); } } UpgradeLegacyData(); return true; } void SolveSpaceUI::UpgradeLegacyData() { for(Request &r : SK.request) { switch(r.type) { // TTF text requests saved in versions prior to 3.0 only have two // reference points (origin and origin plus v); version 3.0 adds two // more points, and if we don't do anything, then they will appear // at workplane origin, and the solver will mess up the sketch if // it is not fully constrained. case Request::Type::TTF_TEXT: { IdList entity = {}; IdList param = {}; r.Generate(&entity, ¶m); // If we didn't load all of the entities and params that this // request would generate, then add them now, so that we can // force them to their appropriate positions. for(Param &p : param) { if(SK.param.FindByIdNoOops(p.h) != NULL) continue; SK.param.Add(&p); } bool allPointsExist = true; for(Entity &e : entity) { if(SK.entity.FindByIdNoOops(e.h) != NULL) continue; SK.entity.Add(&e); allPointsExist = false; } if(!allPointsExist) { Entity *text = entity.FindById(r.h.entity(0)); Entity *b = entity.FindById(text->point[2]); Entity *c = entity.FindById(text->point[3]); ExprVector bex, cex; text->TtfTextGetPointsExprs(&bex, &cex); b->PointForceParamTo(bex.Eval()); c->PointForceParamTo(cex.Eval()); } entity.Clear(); param.Clear(); } default: break; } } } bool SolveSpaceUI::LoadEntitiesFromFile(const std::string &filename, EntityList *le, SMesh *m, SShell *sh) { SSurface srf = {}; SCurve crv = {}; fh = ssfopen(filename, "rb"); if(!fh) return false; le->Clear(); sv = {}; char line[1024]; while(fgets(line, (int)sizeof(line), fh)) { char *s = strchr(line, '\n'); if(s) *s = '\0'; // We should never get files with \r characters in them, but mailers // will sometimes mangle attachments. s = strchr(line, '\r'); 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)); sv.e = {}; } else if(strcmp(line, "AddRequest")==0) { } else if(strcmp(line, "AddConstraint")==0) { } else if(strcmp(line, "AddStyle")==0) { } else if(strcmp(line, VERSION_STRING)==0) { } else if(StrStartsWith(line, "Triangle ")) { STriangle tr = {}; unsigned int rgba = 0; if(sscanf(line, "Triangle %x %x " "%lf %lf %lf %lf %lf %lf %lf %lf %lf", &(tr.meta.face), &rgba, &(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) { ssassert(false, "Unexpected Triangle format"); } tr.meta.color = RgbaColor::FromPackedInt((uint32_t)rgba); m->AddTriangle(&tr); } else if(StrStartsWith(line, "Surface ")) { unsigned int rgba = 0; if(sscanf(line, "Surface %x %x %x %d %d", &(srf.h.v), &rgba, &(srf.face), &(srf.degm), &(srf.degn)) != 5) { ssassert(false, "Unexpected Surface format"); } srf.color = RgbaColor::FromPackedInt((uint32_t)rgba); } else if(StrStartsWith(line, "SCtrl ")) { int i, j; Vector c; double w; if(sscanf(line, "SCtrl %d %d %lf %lf %lf Weight %lf", &i, &j, &(c.x), &(c.y), &(c.z), &w) != 6) { ssassert(false, "Unexpected SCtrl format"); } srf.ctrl[i][j] = c; srf.weight[i][j] = w; } else if(StrStartsWith(line, "TrimBy ")) { STrimBy stb = {}; int backwards; if(sscanf(line, "TrimBy %x %d %lf %lf %lf %lf %lf %lf", &(stb.curve.v), &backwards, &(stb.start.x), &(stb.start.y), &(stb.start.z), &(stb.finish.x), &(stb.finish.y), &(stb.finish.z)) != 8) { ssassert(false, "Unexpected TrimBy format"); } stb.backwards = (backwards != 0); srf.trim.Add(&stb); } else if(strcmp(line, "AddSurface")==0) { sh->surface.Add(&srf); srf = {}; } else if(StrStartsWith(line, "Curve ")) { int isExact; if(sscanf(line, "Curve %x %d %d %x %x", &(crv.h.v), &(isExact), &(crv.exact.deg), &(crv.surfA.v), &(crv.surfB.v)) != 5) { ssassert(false, "Unexpected Curve format"); } crv.isExact = (isExact != 0); } else if(StrStartsWith(line, "CCtrl ")) { int i; Vector c; double w; if(sscanf(line, "CCtrl %d %lf %lf %lf Weight %lf", &i, &(c.x), &(c.y), &(c.z), &w) != 5) { ssassert(false, "Unexpected CCtrl format"); } crv.exact.ctrl[i] = c; crv.exact.weight[i] = w; } else if(StrStartsWith(line, "CurvePt ")) { SCurvePt scpt; int vertex; if(sscanf(line, "CurvePt %d %lf %lf %lf", &vertex, &(scpt.p.x), &(scpt.p.y), &(scpt.p.z)) != 4) { ssassert(false, "Unexpected CurvePt format"); } scpt.vertex = (vertex != 0); crv.pts.Add(&scpt); } else if(strcmp(line, "AddCurve")==0) { sh->curve.Add(&crv); crv = {}; } else ssassert(false, "Unexpected operation"); } fclose(fh); return true; } //----------------------------------------------------------------------------- // Handling of the relative-absolute path transformations for links //----------------------------------------------------------------------------- static std::vector Split(const std::string &haystack, const std::string &needle) { std::vector result; size_t oldpos = 0, pos = 0; while(true) { oldpos = pos; pos = haystack.find(needle, pos); if(pos == std::string::npos) break; result.push_back(haystack.substr(oldpos, pos - oldpos)); pos += needle.length(); } if(oldpos != haystack.length() - 1) result.push_back(haystack.substr(oldpos)); return result; } static std::string Join(const std::vector &parts, const std::string &separator) { bool first = true; std::string result; for(auto &part : parts) { if(!first) result += separator; result += part; first = false; } return result; } static std::string MakePathRelative(const std::string &base, const std::string &path) { std::vector baseParts = Split(base, PATH_SEP), pathParts = Split(path, PATH_SEP), resultParts; baseParts.pop_back(); size_t common; for(common = 0; common < baseParts.size() && common < pathParts.size(); common++) { if(!PathEqual(baseParts[common], pathParts[common])) break; } for(size_t i = common; i < baseParts.size(); i++) resultParts.push_back(".."); resultParts.insert(resultParts.end(), pathParts.begin() + common, pathParts.end()); return Join(resultParts, PATH_SEP); } static std::string MakePathAbsolute(const std::string &base, const std::string &path) { std::vector resultParts = Split(base, PATH_SEP), pathParts = Split(path, PATH_SEP); resultParts.pop_back(); for(auto &part : pathParts) { if(part == ".") { /* do nothing */ } else if(part == "..") { ssassert(!resultParts.empty(), "Relative path pointing outside of root directory"); resultParts.pop_back(); } else { resultParts.push_back(part); } } return Join(resultParts, PATH_SEP); } static void PathSepNormalize(std::string &filename) { for(size_t i = 0; i < filename.length(); i++) { if(filename[i] == '\\') filename[i] = '/'; } } bool SolveSpaceUI::ReloadAllImported(bool canCancel) { std::map linkMap; allConsistent = false; int i; for(i = 0; i < SK.group.n; i++) { Group *g = &(SK.group.elem[i]); if(g->type != Group::Type::LINKED) continue; if(isalpha(g->linkFile[0]) && g->linkFile[1] == ':') { // Make sure that g->linkFileRel always contains a relative path // in an UNIX format, even after we load an old file which had // the path in Windows format PathSepNormalize(g->linkFileRel); } g->impEntity.Clear(); g->impMesh.Clear(); g->impShell.Clear(); if(linkMap.count(g->linkFile)) { std::string newPath = linkMap[g->linkFile]; if(!newPath.empty()) g->linkFile = newPath; } // In a newly created group we only have an absolute path. if(!g->linkFileRel.empty()) { std::string rel = PathSepUnixToPlatform(g->linkFileRel); std::string fromRel = MakePathAbsolute(SS.saveFile, rel); FILE *test = ssfopen(fromRel, "rb"); if(test) { fclose(test); // Okay, exists; update the absolute path. g->linkFile = fromRel; } else { // It doesn't exist. Perhaps the file was moved but the tree wasn't, and we // can use the absolute filename to get us back. The relative path will be // updated below. } } try_load_file: if(LoadEntitiesFromFile(g->linkFile, &(g->impEntity), &(g->impMesh), &(g->impShell))) { if(!SS.saveFile.empty()) { // Record the linked file's name relative to our filename; // if the entire tree moves, then everything will still work std::string rel = MakePathRelative(SS.saveFile, g->linkFile); g->linkFileRel = PathSepPlatformToUnix(rel); } else { // We're not yet saved, so can't make it absolute. // This will only be used for display purposes, as SS.saveFile // is always nonempty when we are actually writing anything. g->linkFileRel = g->linkFile; } } else if(!linkMap.count(g->linkFile)) { switch(LocateImportedFileYesNoCancel(g->linkFileRel, canCancel)) { case DIALOG_YES: { std::string oldImpFile = g->linkFile; if(!GetOpenFile(&g->linkFile, "", SlvsFileFilter)) { if(canCancel) return false; break; } else { linkMap[oldImpFile] = g->linkFile; goto try_load_file; } } case DIALOG_NO: linkMap[g->linkFile] = ""; /* Geometry will be pruned by GenerateAll(). */ break; case DIALOG_CANCEL: return false; } } else { // User was already asked to and refused to locate a missing // linked file. } } return true; }