460 lines
14 KiB
C++
460 lines
14 KiB
C++
#include "solvespace.h"
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SolveSpace SS;
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void SolveSpace::Init(char *cmdLine) {
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int i;
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// Default list of colors for the model material
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modelColor[0] = CnfThawDWORD(RGB(150, 150, 150), "ModelColor_0");
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modelColor[1] = CnfThawDWORD(RGB(100, 100, 100), "ModelColor_1");
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modelColor[2] = CnfThawDWORD(RGB( 30, 30, 30), "ModelColor_2");
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modelColor[3] = CnfThawDWORD(RGB(150, 0, 0), "ModelColor_3");
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modelColor[4] = CnfThawDWORD(RGB( 0, 100, 0), "ModelColor_4");
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modelColor[5] = CnfThawDWORD(RGB( 0, 80, 80), "ModelColor_5");
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modelColor[6] = CnfThawDWORD(RGB( 0, 0, 130), "ModelColor_6");
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modelColor[7] = CnfThawDWORD(RGB( 80, 0, 80), "ModelColor_7");
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// Light intensities
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lightIntensity[0] = CnfThawFloat(1.0f, "LightIntensity_0");
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lightIntensity[1] = CnfThawFloat(0.5f, "LightIntensity_1");
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// Light positions
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lightDir[0].x = CnfThawFloat(-1.0f, "LightDir_0_Right" );
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lightDir[0].y = CnfThawFloat( 1.0f, "LightDir_0_Up" );
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lightDir[0].z = CnfThawFloat( 0.0f, "LightDir_0_Forward" );
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lightDir[1].x = CnfThawFloat( 1.0f, "LightDir_1_Right" );
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lightDir[1].y = CnfThawFloat( 0.0f, "LightDir_1_Up" );
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lightDir[1].z = CnfThawFloat( 0.0f, "LightDir_1_Forward" );
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// Chord tolerance
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chordTol = CnfThawFloat(2.0f, "ChordTolerance");
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// View units
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viewUnits = (Unit)CnfThawDWORD((DWORD)UNIT_MM, "ViewUnits");
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// Camera tangent (determines perspective)
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cameraTangent = CnfThawFloat(0.0f, "CameraTangent");
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// Color for edges (drawn as lines for emphasis)
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edgeColor = CnfThawDWORD(RGB(0, 0, 0), "EdgeColor");
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// Export scale factor
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exportScale = CnfThawFloat(1.0f, "ExportScale");
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// Recent files menus
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for(i = 0; i < MAX_RECENT; i++) {
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char name[100];
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sprintf(name, "RecentFile_%d", i);
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strcpy(RecentFile[i], "");
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CnfThawString(RecentFile[i], MAX_PATH, name);
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}
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RefreshRecentMenus();
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// Start with either an empty file, or the file specified on the
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// command line.
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NewFile();
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AfterNewFile();
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if(strlen(cmdLine) != 0) {
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if(LoadFromFile(cmdLine)) {
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strcpy(saveFile, cmdLine);
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} else {
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NewFile();
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}
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}
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AfterNewFile();
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}
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void SolveSpace::Exit(void) {
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int i;
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char name[100];
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// Recent files
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for(i = 0; i < MAX_RECENT; i++) {
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sprintf(name, "RecentFile_%d", i);
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CnfFreezeString(RecentFile[i], name);
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}
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// Model colors
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for(i = 0; i < MODEL_COLORS; i++) {
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sprintf(name, "ModelColor_%d", i);
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CnfFreezeDWORD(modelColor[i], name);
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}
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// Light intensities
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CnfFreezeFloat((float)lightIntensity[0], "LightIntensity_0");
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CnfFreezeFloat((float)lightIntensity[1], "LightIntensity_1");
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// Light directions
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CnfFreezeFloat((float)lightDir[0].x, "LightDir_0_Right");
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CnfFreezeFloat((float)lightDir[0].y, "LightDir_0_Up");
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CnfFreezeFloat((float)lightDir[0].z, "LightDir_0_Forward");
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CnfFreezeFloat((float)lightDir[1].x, "LightDir_1_Right");
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CnfFreezeFloat((float)lightDir[1].y, "LightDir_1_Up");
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CnfFreezeFloat((float)lightDir[1].z, "LightDir_1_Forward");
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// Chord tolerance
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CnfFreezeFloat((float)chordTol, "ChordTolerance");
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// Display/entry units
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CnfFreezeDWORD((DWORD)viewUnits, "ViewUnits");
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// Camera tangent (determines perspective)
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CnfFreezeFloat((float)cameraTangent, "CameraTangent");
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// Color for edges (drawn as lines for emphasis)
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CnfFreezeDWORD(edgeColor, "EdgeColor");
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// Export scale (a float, stored as a DWORD)
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CnfFreezeFloat(exportScale, "ExportScale");
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ExitNow();
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}
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void SolveSpace::DoLater(void) {
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if(later.generateAll) GenerateAll();
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if(later.showTW) TW.Show();
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ZERO(&later);
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}
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int SolveSpace::CircleSides(double r) {
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// Let the pwl segment be symmetric about the x axis; then the curve
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// goes out to r, and if there's n segments, then the endpoints are
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// at +/- (2pi/n)/2 = +/- pi/n. So the chord goes to x = r cos pi/n,
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// from x = r, so it's
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// tol = r - r cos pi/n
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// tol = r(1 - cos pi/n)
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// tol ~ r(1 - (1 - (pi/n)^2/2)) (Taylor expansion)
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// tol = r((pi/n)^2/2)
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// 2*tol/r = (pi/n)^2
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// sqrt(2*tol/r) = pi/n
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// n = pi/sqrt(2*tol/r);
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double tol = chordTol/GW.scale;
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int n = 3 + (int)(PI/sqrt(2*tol/r));
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return max(7, min(n, 40));
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}
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char *SolveSpace::MmToString(double v) {
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static int WhichBuf;
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static char Bufs[8][128];
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WhichBuf++;
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if(WhichBuf >= 8 || WhichBuf < 0) WhichBuf = 0;
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char *s = Bufs[WhichBuf];
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if(viewUnits == UNIT_INCHES) {
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sprintf(s, "%.3f", v/25.4);
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} else {
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sprintf(s, "%.2f", v);
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}
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return s;
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}
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double SolveSpace::ExprToMm(Expr *e) {
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if(viewUnits == UNIT_INCHES) {
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return (e->Eval())*25.4;
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} else {
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return e->Eval();
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}
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}
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double SolveSpace::StringToMm(char *str) {
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if(viewUnits == UNIT_INCHES) {
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return atof(str)*25.4;
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} else {
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return atof(str);
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}
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}
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void SolveSpace::AfterNewFile(void) {
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// Clear out the traced point, which is no longer valid
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traced.point = Entity::NO_ENTITY;
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traced.path.l.Clear();
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ReloadAllImported();
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GenerateAll(-1, -1);
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TW.Init();
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GW.Init();
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unsaved = false;
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int w, h;
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GetGraphicsWindowSize(&w, &h);
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GW.width = w;
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GW.height = h;
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// The triangles haven't been generated yet, but zoom to fit the entities
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// roughly in the window, since that sets the mesh tolerance.
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GW.ZoomToFit();
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GenerateAll(0, INT_MAX);
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later.showTW = true;
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// Then zoom to fit again, to fit the triangles
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GW.ZoomToFit();
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UpdateWindowTitle();
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}
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void SolveSpace::RemoveFromRecentList(char *file) {
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int src, dest;
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dest = 0;
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for(src = 0; src < MAX_RECENT; src++) {
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if(strcmp(file, RecentFile[src]) != 0) {
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if(src != dest) strcpy(RecentFile[dest], RecentFile[src]);
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dest++;
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}
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}
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while(dest < MAX_RECENT) strcpy(RecentFile[dest++], "");
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RefreshRecentMenus();
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}
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void SolveSpace::AddToRecentList(char *file) {
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RemoveFromRecentList(file);
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int src;
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for(src = MAX_RECENT - 2; src >= 0; src--) {
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strcpy(RecentFile[src+1], RecentFile[src]);
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}
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strcpy(RecentFile[0], file);
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RefreshRecentMenus();
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}
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bool SolveSpace::GetFilenameAndSave(bool saveAs) {
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char newFile[MAX_PATH];
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strcpy(newFile, saveFile);
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if(saveAs || strlen(newFile)==0) {
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if(!GetSaveFile(newFile, SLVS_EXT, SLVS_PATTERN)) return false;
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}
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if(SaveToFile(newFile)) {
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AddToRecentList(newFile);
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strcpy(saveFile, newFile);
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unsaved = false;
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return true;
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} else {
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return false;
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}
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}
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bool SolveSpace::OkayToStartNewFile(void) {
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if(!unsaved) return true;
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switch(SaveFileYesNoCancel()) {
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case IDYES:
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return GetFilenameAndSave(false);
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case IDNO:
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return true;
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case IDCANCEL:
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return false;
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default: oops();
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}
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}
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void SolveSpace::UpdateWindowTitle(void) {
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if(strlen(saveFile) == 0) {
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SetWindowTitle("SolveSpace - (not yet saved)");
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} else {
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char buf[MAX_PATH+100];
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sprintf(buf, "SolveSpace - %s", saveFile);
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SetWindowTitle(buf);
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}
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}
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void SolveSpace::MenuFile(int id) {
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if(id >= RECENT_OPEN && id < (RECENT_OPEN+MAX_RECENT)) {
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if(!SS.OkayToStartNewFile()) return;
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char newFile[MAX_PATH];
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strcpy(newFile, RecentFile[id-RECENT_OPEN]);
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RemoveFromRecentList(newFile);
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if(SS.LoadFromFile(newFile)) {
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strcpy(SS.saveFile, newFile);
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AddToRecentList(newFile);
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} else {
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strcpy(SS.saveFile, "");
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SS.NewFile();
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}
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SS.AfterNewFile();
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return;
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}
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switch(id) {
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case GraphicsWindow::MNU_NEW:
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if(!SS.OkayToStartNewFile()) break;
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strcpy(SS.saveFile, "");
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SS.NewFile();
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SS.AfterNewFile();
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break;
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case GraphicsWindow::MNU_OPEN: {
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if(!SS.OkayToStartNewFile()) break;
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char newFile[MAX_PATH] = "";
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if(GetOpenFile(newFile, SLVS_EXT, SLVS_PATTERN)) {
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if(SS.LoadFromFile(newFile)) {
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strcpy(SS.saveFile, newFile);
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AddToRecentList(newFile);
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} else {
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strcpy(SS.saveFile, "");
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SS.NewFile();
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}
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SS.AfterNewFile();
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}
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break;
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}
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case GraphicsWindow::MNU_SAVE:
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SS.GetFilenameAndSave(false);
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break;
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case GraphicsWindow::MNU_SAVE_AS:
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SS.GetFilenameAndSave(true);
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break;
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case GraphicsWindow::MNU_EXPORT_PNG: {
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char exportFile[MAX_PATH] = "";
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if(!GetSaveFile(exportFile, PNG_EXT, PNG_PATTERN)) break;
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SS.ExportAsPngTo(exportFile);
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break;
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}
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case GraphicsWindow::MNU_EXPORT_DXF: {
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char exportFile[MAX_PATH] = "";
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if(!GetSaveFile(exportFile, DXF_EXT, DXF_PATTERN)) break;
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SS.ExportDxfTo(exportFile);
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break;
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}
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case GraphicsWindow::MNU_EXPORT_MESH: {
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char exportFile[MAX_PATH] = "";
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if(!GetSaveFile(exportFile, STL_EXT, STL_PATTERN)) break;
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SS.ExportMeshTo(exportFile);
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break;
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}
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case GraphicsWindow::MNU_EXIT:
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if(!SS.OkayToStartNewFile()) break;
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SS.Exit();
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break;
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default: oops();
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}
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SS.UpdateWindowTitle();
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}
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void SolveSpace::MenuAnalyze(int id) {
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SS.GW.GroupSelection();
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#define gs (SS.GW.gs)
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switch(id) {
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case GraphicsWindow::MNU_STEP_DIM:
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if(gs.constraints == 1 && gs.n == 0) {
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Constraint *c = SS.GetConstraint(gs.constraint[0]);
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if(c->HasLabel() && !c->reference) {
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SS.TW.shown.dimFinish = c->valA;
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SS.TW.shown.dimSteps = 10;
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SS.TW.shown.dimIsDistance =
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(c->type != Constraint::ANGLE) &&
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(c->type != Constraint::LENGTH_RATIO);
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SS.TW.shown.constraint = c->h;
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SS.TW.shown.screen = TextWindow::SCREEN_STEP_DIMENSION;
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SS.later.showTW = true;
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SS.GW.ClearSelection();
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} else {
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Error("Constraint must have a label, and must not be "
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"a reference dimension.");
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}
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} else {
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Error("Bad selection for step dimension; select a constraint.");
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}
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break;
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case GraphicsWindow::MNU_VOLUME: {
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SMesh *m = &(SS.GetGroup(SS.GW.activeGroup)->runningMesh);
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double vol = 0;
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int i;
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for(i = 0; i < m->l.n; i++) {
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STriangle tr = m->l.elem[i];
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// Translate to place vertex A at (x, y, 0)
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Vector trans = Vector::From(tr.a.x, tr.a.y, 0);
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tr.a = (tr.a).Minus(trans);
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tr.b = (tr.b).Minus(trans);
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tr.c = (tr.c).Minus(trans);
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// Rotate to place vertex B on the y-axis. Depending on
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// whether the triangle is CW or CCW, C is either to the
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// right or to the left of the y-axis. This handles the
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// sign of our normal.
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Vector u = Vector::From(-tr.b.y, tr.b.x, 0);
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u = u.WithMagnitude(1);
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Vector v = Vector::From(tr.b.x, tr.b.y, 0);
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v = v.WithMagnitude(1);
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Vector n = Vector::From(0, 0, 1);
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tr.a = (tr.a).DotInToCsys(u, v, n);
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tr.b = (tr.b).DotInToCsys(u, v, n);
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tr.c = (tr.c).DotInToCsys(u, v, n);
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n = tr.Normal().WithMagnitude(1);
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// Triangles on edge don't contribute
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if(fabs(n.z) < LENGTH_EPS) continue;
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// The plane has equation p dot n = a dot n
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double d = (tr.a).Dot(n);
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// nx*x + ny*y + nz*z = d
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// nz*z = d - nx*x - ny*y
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double A = -n.x/n.z, B = -n.y/n.z, C = d/n.z;
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double mac = tr.c.y/tr.c.x, mbc = (tr.c.y - tr.b.y)/tr.c.x;
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double xc = tr.c.x, yb = tr.b.y;
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// I asked Maple for
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// int(int(A*x + B*y +C, y=mac*x..(mbc*x + yb)), x=0..xc);
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double integral =
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(1.0/3)*(
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A*(mbc-mac)+
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(1.0/2)*B*(mbc*mbc-mac*mac)
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)*(xc*xc*xc)+
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(1.0/2)*(A*yb+B*yb*mbc+C*(mbc-mac))*xc*xc+
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C*yb*xc+
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(1.0/2)*B*yb*yb*xc;
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vol += integral;
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}
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SS.TW.shown.volume = vol;
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SS.TW.GoToScreen(TextWindow::SCREEN_MESH_VOLUME);
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SS.later.showTW = true;
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break;
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}
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case GraphicsWindow::MNU_TRACE_PT:
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if(gs.points == 1 && gs.n == 1) {
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SS.traced.point = gs.point[0];
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SS.GW.ClearSelection();
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} else {
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Error("Bad selection for trace; select a single point.");
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}
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break;
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case GraphicsWindow::MNU_STOP_TRACING: {
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char exportFile[MAX_PATH] = "";
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if(GetSaveFile(exportFile, CSV_EXT, CSV_PATTERN)) {
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FILE *f = fopen(exportFile, "w");
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if(f) {
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int i;
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SContour *sc = &(SS.traced.path);
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for(i = 0; i < sc->l.n; i++) {
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Vector p = sc->l.elem[i].p;
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double s = SS.exportScale;
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fprintf(f, "%.10f, %.10f, %.10f\n",
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p.x/s, p.y/s, p.z/s);
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}
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fclose(f);
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} else {
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Error("Couldn't write to '%s'", exportFile);
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}
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}
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// Clear the trace, and stop tracing
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SS.traced.point = Entity::NO_ENTITY;
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SS.traced.path.l.Clear();
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InvalidateGraphics();
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break;
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}
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default: oops();
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}
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}
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