leocad/common/lc_model.cpp

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#include "lc_global.h"
#include "lc_model.h"
#include "piece.h"
#include "camera.h"
#include "light.h"
#include "group.h"
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#include "lc_mainwindow.h"
#include "lc_profile.h"
#include "lc_library.h"
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#include "lc_texture.h"
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#include "pieceinf.h"
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#include "view.h"
#include "preview.h"
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void lcModelProperties::LoadDefaults()
{
mAuthor = lcGetProfileString(LC_PROFILE_DEFAULT_AUTHOR_NAME);
mBackgroundType = (lcBackgroundType)lcGetProfileInt(LC_PROFILE_DEFAULT_BACKGROUND_TYPE);
mBackgroundSolidColor = lcVector3FromColor(lcGetProfileInt(LC_PROFILE_DEFAULT_BACKGROUND_COLOR));
mBackgroundGradientColor1 = lcVector3FromColor(lcGetProfileInt(LC_PROFILE_DEFAULT_GRADIENT_COLOR1));
mBackgroundGradientColor2 = lcVector3FromColor(lcGetProfileInt(LC_PROFILE_DEFAULT_GRADIENT_COLOR2));
mBackgroundImage = lcGetProfileString(LC_PROFILE_DEFAULT_BACKGROUND_TEXTURE);
mBackgroundImageTile = lcGetProfileInt(LC_PROFILE_DEFAULT_BACKGROUND_TILE);
mFogEnabled = lcGetProfileInt(LC_PROFILE_DEFAULT_FOG_ENABLED);
mFogDensity = lcGetProfileFloat(LC_PROFILE_DEFAULT_FOG_DENSITY);
mFogColor = lcVector3FromColor(lcGetProfileInt(LC_PROFILE_DEFAULT_FOG_COLOR));
mAmbientColor = lcVector3FromColor(lcGetProfileInt(LC_PROFILE_DEFAULT_AMBIENT_COLOR));
}
void lcModelProperties::SaveDefaults()
{
lcSetProfileInt(LC_PROFILE_DEFAULT_BACKGROUND_TYPE, mBackgroundType);
lcSetProfileInt(LC_PROFILE_DEFAULT_BACKGROUND_COLOR, lcColorFromVector3(mBackgroundSolidColor));
lcSetProfileInt(LC_PROFILE_DEFAULT_GRADIENT_COLOR1, lcColorFromVector3(mBackgroundGradientColor1));
lcSetProfileInt(LC_PROFILE_DEFAULT_GRADIENT_COLOR2, lcColorFromVector3(mBackgroundGradientColor2));
lcSetProfileString(LC_PROFILE_DEFAULT_BACKGROUND_TEXTURE, mBackgroundImage);
lcSetProfileInt(LC_PROFILE_DEFAULT_BACKGROUND_TILE, mBackgroundImageTile);
lcSetProfileInt(LC_PROFILE_DEFAULT_FOG_ENABLED, mFogEnabled);
lcSetProfileFloat(LC_PROFILE_DEFAULT_FOG_DENSITY, mFogDensity);
lcSetProfileInt(LC_PROFILE_DEFAULT_FOG_COLOR, lcColorFromVector3(mFogColor));
lcSetProfileInt(LC_PROFILE_DEFAULT_AMBIENT_COLOR, lcColorFromVector3(mAmbientColor));
}
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void lcModelProperties::SaveLDraw(QTextStream& Stream) const
{
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QLatin1String LineEnding("\r\n");
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if (!mName.isEmpty())
Stream << QLatin1String("0 !LEOCAD MODEL NAME ") << mName << LineEnding;
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if (!mAuthor.isEmpty())
Stream << QLatin1String("0 !LEOCAD MODEL AUTHOR ") << mAuthor << LineEnding;
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if (!mDescription.isEmpty())
Stream << QLatin1String("0 !LEOCAD MODEL DESCRIPTION ") << mDescription << LineEnding;
if (!mComments.isEmpty())
{
QStringList Comments = mComments.split('\n');
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foreach (const QString& Comment, Comments)
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Stream << QLatin1String("0 !LEOCAD MODEL COMMENT ") << Comment << LineEnding;
}
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for (int BackgroundIdx = 0; BackgroundIdx < LC_NUM_BACKGROUND_TYPES; BackgroundIdx++)
{
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switch ((mBackgroundType + 1 + BackgroundIdx) % LC_NUM_BACKGROUND_TYPES)
{
case LC_BACKGROUND_SOLID:
Stream << QLatin1String("0 !LEOCAD MODEL BACKGROUND COLOR ") << mBackgroundSolidColor[0] << ' ' << mBackgroundSolidColor[1] << ' ' << mBackgroundSolidColor[2] << LineEnding;
break;
case LC_BACKGROUND_GRADIENT:
Stream << QLatin1String("0 !LEOCAD MODEL BACKGROUND GRADIENT ") << mBackgroundGradientColor1[0] << ' ' << mBackgroundGradientColor1[1] << ' ' << mBackgroundGradientColor1[2] << ' ' << mBackgroundGradientColor2[0] << ' ' << mBackgroundGradientColor2[1] << ' ' << mBackgroundGradientColor2[2] << LineEnding;
break;
case LC_BACKGROUND_IMAGE:
if (!mBackgroundImage.isEmpty())
{
Stream << QLatin1String("0 !LEOCAD MODEL BACKGROUND IMAGE ");
if (mBackgroundImageTile)
Stream << QLatin1String("TILE ");
Stream << QLatin1String("NAME ") << mBackgroundImage << LineEnding;
}
break;
}
}
// bool mFogEnabled;
// float mFogDensity;
// lcVector3 mFogColor;
// lcVector3 mAmbientColor;
}
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void lcModelProperties::ParseLDrawLine(QTextStream& Stream)
{
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QString Token;
Stream >> Token;
if (Token == QLatin1String("NAME"))
Stream >> mName;
else if (Token == QLatin1String("AUTHOR"))
Stream >> mAuthor;
else if (Token == QLatin1String("DESCRIPTION"))
Stream >> mDescription;
else if (Token == QLatin1String("COMMENT"))
{
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QString Comment;
Stream >> Comment;
if (!mComments.isEmpty())
mComments += '\n';
mComments += Comment;
}
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else if (Token == QLatin1String("BACKGROUND"))
{
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Stream >> Token;
if (Token == QLatin1String("COLOR"))
{
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mBackgroundType = LC_BACKGROUND_SOLID;
Stream >> mBackgroundSolidColor[0] >> mBackgroundSolidColor[1] >> mBackgroundSolidColor[2];
}
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else if (Token == QLatin1String("GRADIENT"))
{
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mBackgroundType = LC_BACKGROUND_GRADIENT;
Stream >> mBackgroundGradientColor1[0] >> mBackgroundGradientColor1[1] >> mBackgroundGradientColor1[2] >> mBackgroundGradientColor2[0] >> mBackgroundGradientColor2[1] >> mBackgroundGradientColor2[2];
}
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else if (Token == QLatin1String("IMAGE"))
{
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Stream >> Token;
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if (Token == QLatin1String("TILE"))
{
mBackgroundImageTile = true;
Stream >> Token;
}
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if (Token == QLatin1String("NAME"))
mBackgroundImage = Stream.readLine();
}
}
}
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lcModel::lcModel()
{
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mBackgroundTexture = NULL;
mSavedHistory = NULL;
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}
lcModel::~lcModel()
{
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DeleteModel();
DeleteHistory();
}
void lcModel::DeleteHistory()
{
mUndoHistory.DeleteAll();
mRedoHistory.DeleteAll();
}
void lcModel::DeleteModel()
{
lcReleaseTexture(mBackgroundTexture);
mBackgroundTexture = NULL;
const lcArray<View*> Views = gMainWindow->GetViews();
for (int ViewIdx = 0; ViewIdx < Views.GetSize(); ViewIdx++)
{
View* View = Views[ViewIdx];
lcCamera* Camera = View->mCamera;
if (!Camera->IsSimple())
View->SetCamera(Camera, true);
}
mPieces.DeleteAll();
mCameras.DeleteAll();
mLights.DeleteAll();
mGroups.DeleteAll();
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}
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void lcModel::SaveLDraw(QTextStream& Stream) const
{
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QLatin1String LineEnding("\r\n");
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mProperties.SaveLDraw(Stream);
lcStep LastStep = GetLastStep();
if (mCurrentStep != LastStep)
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Stream << QLatin1String("0 !LEOCAD MODEL CURRENT_STEP") << mCurrentStep << LineEnding;
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lcArray<lcGroup*> CurrentGroups;
for (lcStep Step = 1; Step <= LastStep; Step++)
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
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if (Piece->GetStepShow() != Step)
continue;
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lcGroup* PieceGroup = Piece->GetGroup();
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if (PieceGroup)
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{
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if (CurrentGroups.IsEmpty() || (!CurrentGroups.IsEmpty() && PieceGroup != CurrentGroups[CurrentGroups.GetSize() - 1]))
{
lcArray<lcGroup*> PieceParents;
for (lcGroup* Group = PieceGroup; Group; Group = Group->mGroup)
PieceParents.InsertAt(0, Group);
int FoundParent = -1;
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while (!CurrentGroups.IsEmpty())
{
lcGroup* Group = CurrentGroups[CurrentGroups.GetSize() - 1];
int Index = PieceParents.FindIndex(Group);
if (Index == -1)
{
CurrentGroups.RemoveIndex(CurrentGroups.GetSize() - 1);
Stream << QLatin1String("0 !LEOCAD GROUP END\r\n");
}
else
{
FoundParent = Index;
break;
}
}
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for (int ParentIdx = FoundParent + 1; ParentIdx < PieceParents.GetSize(); ParentIdx++)
{
lcGroup* Group = PieceParents[ParentIdx];
CurrentGroups.Add(Group);
Stream << QLatin1String("0 !LEOCAD GROUP BEGIN ") << Group->m_strName << LineEnding;
}
}
}
else
{
while (CurrentGroups.GetSize())
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{
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CurrentGroups.RemoveIndex(CurrentGroups.GetSize() - 1);
Stream << QLatin1String("0 !LEOCAD GROUP END\r\n");
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}
}
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Piece->SaveLDraw(Stream);
}
if (Step != LastStep)
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Stream << QLatin1String("0 STEP\r\n");
}
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while (CurrentGroups.GetSize())
{
CurrentGroups.RemoveIndex(CurrentGroups.GetSize() - 1);
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Stream << QLatin1String("0 !LEOCAD GROUP END\r\n");
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}
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for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
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mCameras[CameraIdx]->SaveLDraw(Stream);
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
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mLights[LightIdx]->SaveLDraw(Stream);
}
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void lcModel::LoadLDraw(QTextStream& Stream)
{
lcPiece* Piece = NULL;
lcCamera* Camera = NULL;
lcLight* Light = NULL;
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lcArray<lcGroup*> CurrentGroups;
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int CurrentStep = 1;
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while (!Stream.atEnd())
{
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QString Line = Stream.readLine().trimmed();
QTextStream LineStream(&Line, QIODevice::ReadOnly);
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QString Token;
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LineStream >> Token;
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if (Token == QLatin1String("0"))
{
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LineStream >> Token;
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if (Token == QLatin1String("STEP"))
{
CurrentStep++;
continue;
}
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if (Token != QLatin1String("!LEOCAD"))
continue;
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LineStream >> Token;
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if (Token == QLatin1String("MODEL"))
{
// if (!strcmp(Tokens[3], "CURRENT_STEP") && Tokens[4])
// mCurrentStep = atoi(Tokens[4]);
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mProperties.ParseLDrawLine(LineStream);
}
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else if (Token == QLatin1String("PIECE"))
{
if (!Piece)
Piece = new lcPiece(NULL);
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Piece->ParseLDrawLine(LineStream);
}
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else if (Token == QLatin1String("CAMERA"))
{
if (!Camera)
Camera = new lcCamera(false);
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if (Camera->ParseLDrawLine(LineStream))
{
Camera->CreateName(mCameras);
mCameras.Add(Camera);
Camera = NULL;
}
}
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else if (Token == QLatin1String("LIGHT"))
{
}
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else if (Token == QLatin1String("GROUP"))
{
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LineStream >> Token;
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if (Token == QLatin1String("BEGIN"))
{
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QString Name = LineStream.readAll().trimmed();
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QByteArray NameUtf = Name.toUtf8(); // todo: replace with qstring
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lcGroup* Group = GetGroup(NameUtf.constData(), true);
if (!CurrentGroups.IsEmpty())
Group->mGroup = CurrentGroups[CurrentGroups.GetSize() - 1];
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else
Group->mGroup = NULL;
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CurrentGroups.Add(Group);
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}
else if (Token == QLatin1String("END"))
{
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if (!CurrentGroups.IsEmpty())
CurrentGroups.RemoveIndex(CurrentGroups.GetSize() - 1);
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}
}
continue;
}
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else if (Token == QLatin1String("1"))
{
int ColorCode;
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LineStream >> ColorCode;
float Matrix[12];
for (int TokenIdx = 0; TokenIdx < 12; TokenIdx++)
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LineStream >> Matrix[TokenIdx];
lcMatrix44 IncludeTransform(lcVector4(Matrix[3], Matrix[6], Matrix[9], 0.0f), lcVector4(Matrix[4], Matrix[7], Matrix[10], 0.0f),
lcVector4(Matrix[5], Matrix[8], Matrix[11], 0.0f), lcVector4(Matrix[0], Matrix[1], Matrix[2], 1.0f));
QString File;
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LineStream >> File;
QString PartID = File.toUpper();
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if (PartID.endsWith(QLatin1String(".DAT")))
PartID = PartID.left(PartID.size() - 4);
if (!Piece)
Piece = new lcPiece(NULL);
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if (!CurrentGroups.IsEmpty())
Piece->SetGroup(CurrentGroups[CurrentGroups.GetSize() - 1]);
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PieceInfo* Info = lcGetPiecesLibrary()->FindPiece(PartID.toLatin1().constData(), false);
if (Info != NULL)
{
float* Matrix = IncludeTransform;
lcMatrix44 Transform(lcVector4(Matrix[0], Matrix[2], -Matrix[1], 0.0f), lcVector4(Matrix[8], Matrix[10], -Matrix[9], 0.0f),
lcVector4(-Matrix[4], -Matrix[6], Matrix[5], 0.0f), lcVector4(0.0f, 0.0f, 0.0f, 1.0f));
lcVector4 AxisAngle = lcMatrix44ToAxisAngle(Transform);
AxisAngle[3] *= LC_RTOD;
Piece->SetPieceInfo(Info);
Piece->Initialize(lcVector3(IncludeTransform[3].x, IncludeTransform[3].z, -IncludeTransform[3].y), AxisAngle, CurrentStep);
Piece->SetColorCode(ColorCode);
Piece->CreateName(mPieces);
mPieces.Add(Piece);
Piece = NULL;
continue;
}
// todo: mpd
// todo: load from disk
Info = lcGetPiecesLibrary()->FindPiece(PartID.toLatin1().constData(), true);
if (Info != NULL)
{
float* Matrix = IncludeTransform;
lcMatrix44 Transform(lcVector4(Matrix[0], Matrix[2], -Matrix[1], 0.0f), lcVector4(Matrix[8], Matrix[10], -Matrix[9], 0.0f),
lcVector4(-Matrix[4], -Matrix[6], Matrix[5], 0.0f), lcVector4(0.0f, 0.0f, 0.0f, 1.0f));
lcVector4 AxisAngle = lcMatrix44ToAxisAngle(Transform);
AxisAngle[3] *= LC_RTOD;
Piece->SetPieceInfo(Info);
Piece->Initialize(lcVector3(IncludeTransform[3].x, IncludeTransform[3].z, -IncludeTransform[3].y), AxisAngle, CurrentStep);
Piece->SetColorCode(ColorCode);
Piece->CreateName(mPieces);
mPieces.Add(Piece);
Piece = NULL;
continue;
}
}
}
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CalculateStep();
UpdateBackgroundTexture();
delete Piece;
delete Camera;
delete Light;
}
void lcModel::DrawBackground(lcContext* Context)
{
if (mProperties.mBackgroundType == LC_BACKGROUND_SOLID)
{
glClearColor(mProperties.mBackgroundSolidColor[0], mProperties.mBackgroundSolidColor[1], mProperties.mBackgroundSolidColor[2], 0.0f);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
return;
}
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
glDepthMask(GL_FALSE);
glDisable(GL_DEPTH_TEST);
glDisable(GL_LIGHTING);
float ViewWidth = (float)Context->GetViewportWidth();
float ViewHeight = (float)Context->GetViewportHeight();
Context->SetProjectionMatrix(lcMatrix44Ortho(0.0f, ViewWidth, 0.0f, ViewHeight, -1.0f, 1.0f));
Context->SetWorldViewMatrix(lcMatrix44Translation(lcVector3(0.375f, 0.375f, 0.0f)));
if (mProperties.mBackgroundType == LC_BACKGROUND_GRADIENT)
{
glShadeModel(GL_SMOOTH);
const lcVector3& Color1 = mProperties.mBackgroundGradientColor1;
const lcVector3& Color2 = mProperties.mBackgroundGradientColor2;
float Verts[] =
{
ViewWidth, ViewHeight, Color1[0], Color1[1], Color1[2], 1.0f,
0.0f, ViewHeight, Color1[0], Color1[1], Color1[2], 1.0f,
0.0f, 0.0f, Color2[0], Color2[1], Color2[2], 1.0f,
ViewWidth, 0.0f, Color2[0], Color2[1], Color2[2], 1.0f
};
glVertexPointer(2, GL_FLOAT, 6 * sizeof(float), Verts);
glEnableClientState(GL_COLOR_ARRAY);
glColorPointer(4, GL_FLOAT, 6 * sizeof(float), Verts + 2);
glDrawArrays(GL_TRIANGLE_FAN, 0, 4);
glDisableClientState(GL_COLOR_ARRAY);
glShadeModel(GL_FLAT);
}
if (mProperties.mBackgroundType == LC_BACKGROUND_IMAGE)
{
glEnable(GL_TEXTURE_2D);
glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE);
glBindTexture(GL_TEXTURE_2D, mBackgroundTexture->mTexture);
float TileWidth = 1.0f, TileHeight = 1.0f;
if (mProperties.mBackgroundImageTile)
{
TileWidth = ViewWidth / mBackgroundTexture->mWidth;
TileHeight = ViewHeight / mBackgroundTexture->mHeight;
}
float Verts[] =
{
0.0f, ViewHeight, 0.0f, 0.0f,
ViewWidth, ViewHeight, TileWidth, 0.0f,
ViewWidth, 0.0f, TileWidth, TileHeight,
0.0f, 0.0f, 0.0f, TileHeight
};
glVertexPointer(2, GL_FLOAT, 4 * sizeof(float), Verts);
glEnableClientState(GL_TEXTURE_COORD_ARRAY);
glTexCoordPointer(2, GL_FLOAT, 4 * sizeof(float), Verts + 2);
glDrawArrays(GL_TRIANGLE_FAN, 0, 4);
glDisableClientState(GL_TEXTURE_COORD_ARRAY);
glDisable(GL_TEXTURE_2D);
}
glEnable(GL_DEPTH_TEST);
glDepthMask(GL_TRUE);
}
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void lcModel::UpdateBackgroundTexture()
{
lcReleaseTexture(mBackgroundTexture);
mBackgroundTexture = NULL;
if (mProperties.mBackgroundType == LC_BACKGROUND_IMAGE)
{
mBackgroundTexture = lcLoadTexture(mProperties.mBackgroundImage, LC_TEXTURE_WRAPU | LC_TEXTURE_WRAPV);
if (!mBackgroundTexture)
mProperties.mBackgroundType = LC_BACKGROUND_SOLID;
}
}
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void lcModel::RayTest(lcObjectRayTest& ObjectRayTest) const
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsVisible(mCurrentStep))
Piece->RayTest(ObjectRayTest);
}
if (ObjectRayTest.PiecesOnly)
return;
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
{
lcCamera* Camera = mCameras[CameraIdx];
if (Camera != ObjectRayTest.ViewCamera && Camera->IsVisible())
Camera->RayTest(ObjectRayTest);
}
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
if (mLights[LightIdx]->IsVisible())
mLights[LightIdx]->RayTest(ObjectRayTest);
}
void lcModel::BoxTest(lcObjectBoxTest& ObjectBoxTest) const
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsVisible(mCurrentStep))
Piece->BoxTest(ObjectBoxTest);
}
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
{
lcCamera* Camera = mCameras[CameraIdx];
if (Camera != ObjectBoxTest.ViewCamera && Camera->IsVisible())
Camera->BoxTest(ObjectBoxTest);
}
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
if (mLights[LightIdx]->IsVisible())
mLights[LightIdx]->BoxTest(ObjectBoxTest);
}
void lcModel::SaveCheckpoint(const QString& Description)
{
lcModelHistoryEntry* ModelHistoryEntry = new lcModelHistoryEntry();
ModelHistoryEntry->Description = Description;
QTextStream Stream(&ModelHistoryEntry->File);
SaveLDraw(Stream);
mUndoHistory.InsertAt(0, ModelHistoryEntry);
mRedoHistory.DeleteAll();
gMainWindow->UpdateModified(IsModified());
gMainWindow->UpdateUndoRedo(mUndoHistory.GetSize() > 1 ? mUndoHistory[0]->Description : QString(), !mRedoHistory.IsEmpty() ? mRedoHistory[0]->Description : QString());
}
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void lcModel::LoadCheckPoint(lcModelHistoryEntry* CheckPoint)
{
DeleteModel();
QTextStream Stream(CheckPoint->File, QIODevice::ReadOnly);
LoadLDraw(Stream);
gMainWindow->UpdateFocusObject(GetFocusObject());
gMainWindow->UpdateCameraMenu();
UpdateSelection();
gMainWindow->UpdateCurrentStep();
gMainWindow->UpdateAllViews();
}
void lcModel::CalculateStep()
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
Piece->UpdatePosition(mCurrentStep);
if (Piece->IsSelected())
{
if (!Piece->IsVisible(mCurrentStep))
Piece->SetSelected(false);
else
SelectGroup(Piece->GetTopGroup(), true);
}
}
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
mCameras[CameraIdx]->UpdatePosition(mCurrentStep);
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
mLights[LightIdx]->UpdatePosition(mCurrentStep);
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}
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lcStep lcModel::GetLastStep() const
{
lcStep Step = 1;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
Step = lcMax(Step, mPieces[PieceIdx]->GetStepShow());
return Step;
}
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lcGroup* lcModel::GetGroup(const char* Name, bool CreateIfMissing)
{
for (int GroupIdx = 0; GroupIdx < mGroups.GetSize(); GroupIdx++)
{
lcGroup* Group = mGroups[GroupIdx];
if (!strcmp(Group->m_strName, Name))
return Group;
}
if (CreateIfMissing)
{
lcGroup* Group = new lcGroup();
mGroups.Add(Group);
strncpy(Group->m_strName, Name, sizeof(Group->m_strName));
Group->m_strName[sizeof(Group->m_strName) - 1] = 0;
return Group;
}
return NULL;
}
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void lcModel::RemoveEmptyGroups()
{
bool Removed;
do
{
Removed = false;
for (int GroupIdx = 0; GroupIdx < mGroups.GetSize();)
{
lcGroup* Group = mGroups[GroupIdx];
int Ref = 0;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
if (mPieces[PieceIdx]->GetGroup() == Group)
Ref++;
for (int ParentIdx = 0; ParentIdx < mGroups.GetSize(); ParentIdx++)
if (mGroups[ParentIdx]->mGroup == Group)
Ref++;
if (Ref > 1)
{
GroupIdx++;
continue;
}
if (Ref != 0)
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->GetGroup() == Group)
{
Piece->SetGroup(Group->mGroup);
break;
}
}
for (int ParentIdx = 0; ParentIdx < mGroups.GetSize(); ParentIdx++)
{
if (mGroups[ParentIdx]->mGroup == Group)
{
mGroups[ParentIdx]->mGroup = Group->mGroup;
break;
}
}
}
mGroups.RemoveIndex(GroupIdx);
delete Group;
Removed = true;
}
}
while (Removed);
}
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lcVector3 lcModel::LockVector(const lcVector3& Vector) const
{
lcVector3 NewVector(Vector);
if (gMainWindow->GetLockX())
NewVector[0] = 0;
if (gMainWindow->GetLockY())
NewVector[1] = 0;
if (gMainWindow->GetLockZ())
NewVector[2] = 0;
return NewVector;
}
lcVector3 lcModel::SnapPosition(const lcVector3& Distance) const
{
lcVector3 NewDistance(Distance);
if (gMainWindow->GetMoveXYSnap())
{
float SnapXY = (float)gMainWindow->GetMoveXYSnap();
int i = (int)(NewDistance[0] / SnapXY);
float Leftover = NewDistance[0] - (SnapXY * i);
if (Leftover > SnapXY / 2)
{
Leftover -= SnapXY;
i++;
}
else if (Leftover < -SnapXY / 2)
{
Leftover += SnapXY;
i--;
}
NewDistance[0] = SnapXY * i;
i = (int)(NewDistance[1] / SnapXY);
Leftover = NewDistance[1] - (SnapXY * i);
if (Leftover > SnapXY / 2)
{
Leftover -= SnapXY;
i++;
}
else if (Leftover < -SnapXY / 2)
{
Leftover += SnapXY;
i--;
}
NewDistance[1] = SnapXY * i;
}
if (gMainWindow->GetMoveZSnap())
{
float SnapZ = (float)gMainWindow->GetMoveZSnap();
int i = (int)(NewDistance[2] / SnapZ);
float Leftover = NewDistance[2] - (SnapZ * i);
if (Leftover > SnapZ / 2)
{
Leftover -= SnapZ;
i++;
}
else if (Leftover < -SnapZ / 2)
{
Leftover += SnapZ;
i--;
}
NewDistance[2] = SnapZ * i;
}
return NewDistance;
}
lcVector3 lcModel::SnapRotation(const lcVector3& Angles) const
{
int AngleSnap = gMainWindow->GetAngleSnap();
lcVector3 NewAngles(Angles);
if (AngleSnap)
{
int Snap[3];
for (int i = 0; i < 3; i++)
Snap[i] = (int)(Angles[i] / (float)AngleSnap);
NewAngles = lcVector3((float)(AngleSnap * Snap[0]), (float)(AngleSnap * Snap[1]), (float)(AngleSnap * Snap[2]));
}
return NewAngles;
}
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lcMatrix44 lcModel::GetRelativeRotation() const
{
const lcPreferences& Preferences = lcGetPreferences();
if (!Preferences.mForceGlobalTransforms)
{
lcObject* Focus = GetFocusObject();
if ((Focus != NULL) && Focus->IsPiece())
{
lcMatrix44 WorldMatrix = ((lcPiece*)Focus)->mModelWorld;
WorldMatrix.SetTranslation(lcVector3(0.0f, 0.0f, 0.0f));
return WorldMatrix;
}
}
return lcMatrix44Identity();
}
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bool lcModel::RemoveSelectedObjects()
{
bool RemovedPiece = false;
bool RemovedCamera = false;
bool RemovedLight = false;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); )
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsSelected())
{
RemovedPiece = true;
mPieces.Remove(Piece);
delete Piece;
}
else
PieceIdx++;
}
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); )
{
lcCamera* Camera = mCameras[CameraIdx];
if (Camera->IsSelected())
{
const lcArray<View*> Views = gMainWindow->GetViews();
for (int ViewIdx = 0; ViewIdx < Views.GetSize(); ViewIdx++)
{
View* View = Views[ViewIdx];
if (Camera == View->mCamera)
View->SetCamera(Camera, true);
}
RemovedCamera = true;
mCameras.RemoveIndex(CameraIdx);
delete Camera;
}
else
CameraIdx++;
}
if (RemovedCamera)
gMainWindow->UpdateCameraMenu();
for (int LightIdx = 0; LightIdx < mLights.GetSize(); )
{
lcLight* Light = mLights[LightIdx];
if (Light->IsSelected())
{
RemovedLight = true;
mLights.RemoveIndex(LightIdx);
delete Light;
}
else
LightIdx++;
}
RemoveEmptyGroups();
return RemovedPiece || RemovedCamera || RemovedLight;
}
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bool lcModel::MoveSelectedObjects(const lcVector3& PieceDistance, const lcVector3& ObjectDistance)
{
lcMatrix44 RelativeRotation = GetRelativeRotation();
bool Moved = false;
if (PieceDistance.LengthSquared() >= 0.001f)
{
lcVector3 TransformedPieceDistance = lcMul30(PieceDistance, RelativeRotation);
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsSelected())
{
Piece->Move(mCurrentStep, gMainWindow->GetAddKeys(), TransformedPieceDistance);
Piece->UpdatePosition(mCurrentStep);
Moved = true;
}
}
}
if (ObjectDistance.LengthSquared() >= 0.001f)
{
lcVector3 TransformedObjectDistance = lcMul30(ObjectDistance, RelativeRotation);
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
{
lcCamera* Camera = mCameras[CameraIdx];
if (Camera->IsSelected())
{
Camera->Move(mCurrentStep, gMainWindow->GetAddKeys(), TransformedObjectDistance);
Camera->UpdatePosition(mCurrentStep);
Moved = true;
}
}
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
{
lcLight* Light = mLights[LightIdx];
if (Light->IsSelected())
{
Light->Move(mCurrentStep, gMainWindow->GetAddKeys(), TransformedObjectDistance);
Light->UpdatePosition(mCurrentStep);
Moved = true;
}
}
}
return Moved;
}
bool lcModel::RotateSelectedPieces(const lcVector3& Angles)
{
if (Angles.LengthSquared() < 0.001f)
return false;
float Bounds[6] = { FLT_MAX, FLT_MAX, FLT_MAX, -FLT_MAX, -FLT_MAX, -FLT_MAX };
lcPiece* Focus = NULL;
int SelectedCount = 0;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsSelected())
{
if (Piece->IsFocused())
Focus = Piece;
Piece->CompareBoundingBox(Bounds);
SelectedCount++;
}
}
lcVector3 Center;
if (Focus)
Center = Focus->mPosition;
else
Center = lcVector3((Bounds[0] + Bounds[3]) / 2.0f, (Bounds[1] + Bounds[4]) / 2.0f, (Bounds[2] + Bounds[5]) / 2.0f);
lcVector4 RotationQuaternion(0, 0, 0, 1);
lcVector4 WorldToFocusQuaternion, FocusToWorldQuaternion;
if (Angles[0] != 0.0f)
{
lcVector4 q = lcQuaternionRotationX(Angles[0] * LC_DTOR);
RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion);
}
if (Angles[1] != 0.0f)
{
lcVector4 q = lcQuaternionRotationY(Angles[1] * LC_DTOR);
RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion);
}
if (Angles[2] != 0.0f)
{
lcVector4 q = lcQuaternionRotationZ(Angles[2] * LC_DTOR);
RotationQuaternion = lcQuaternionMultiply(q, RotationQuaternion);
}
const lcPreferences& Preferences = lcGetPreferences();
if (Preferences.mForceGlobalTransforms)
Focus = NULL;
if (Focus)
{
const lcVector4& Rotation = Focus->mRotation;
WorldToFocusQuaternion = lcQuaternionFromAxisAngle(lcVector4(Rotation[0], Rotation[1], Rotation[2], -Rotation[3] * LC_DTOR));
FocusToWorldQuaternion = lcQuaternionFromAxisAngle(lcVector4(Rotation[0], Rotation[1], Rotation[2], Rotation[3] * LC_DTOR));
RotationQuaternion = lcQuaternionMultiply(FocusToWorldQuaternion, RotationQuaternion);
}
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (!Piece->IsSelected())
continue;
const lcVector4& Rotation = Piece->mRotation;
lcVector3 Distance = Piece->mPosition - Center;
lcVector4 LocalToWorldQuaternion = lcQuaternionFromAxisAngle(lcVector4(Rotation[0], Rotation[1], Rotation[2], Rotation[3] * LC_DTOR));
lcVector4 NewRotation, NewLocalToWorldQuaternion;
if (Focus)
{
lcVector4 LocalToFocusQuaternion = lcQuaternionMultiply(WorldToFocusQuaternion, LocalToWorldQuaternion);
NewLocalToWorldQuaternion = lcQuaternionMultiply(RotationQuaternion, LocalToFocusQuaternion);
lcVector4 WorldToLocalQuaternion = lcQuaternionFromAxisAngle(lcVector4(Rotation[0], Rotation[1], Rotation[2], -Rotation[3] * LC_DTOR));
Distance = lcQuaternionMul(Distance, WorldToLocalQuaternion);
Distance = lcQuaternionMul(Distance, NewLocalToWorldQuaternion);
}
else
{
NewLocalToWorldQuaternion = lcQuaternionMultiply(RotationQuaternion, LocalToWorldQuaternion);
Distance = lcQuaternionMul(Distance, RotationQuaternion);
}
NewRotation = lcQuaternionToAxisAngle(NewLocalToWorldQuaternion);
NewRotation[3] *= LC_RTOD;
Piece->SetPosition(Center + Distance, mCurrentStep, gMainWindow->GetAddKeys());
Piece->SetRotation(NewRotation, mCurrentStep, gMainWindow->GetAddKeys());
Piece->UpdatePosition(mCurrentStep);
}
return true;
}
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bool lcModel::AnyPiecesSelected() const
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
if (mPieces[PieceIdx]->IsSelected())
return true;
return false;
}
bool lcModel::AnyObjectsSelected() const
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
if (mPieces[PieceIdx]->IsSelected())
return true;
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
if (mCameras[CameraIdx]->IsSelected())
return true;
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
if (mLights[LightIdx]->IsSelected())
return true;
return false;
}
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lcObject* lcModel::GetFocusObject() const
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsFocused())
return Piece;
}
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
{
lcCamera* Camera = mCameras[CameraIdx];
if (Camera->IsFocused())
return Camera;
}
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
{
lcLight* Light = mLights[LightIdx];
if (Light->IsFocused())
return Light;
}
return NULL;
}
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lcVector3 lcModel::GetFocusOrSelectionCenter() const
{
lcVector3 Center;
if (GetFocusPosition(Center))
return Center;
GetSelectionCenter(Center);
return Center;
}
bool lcModel::GetFocusPosition(lcVector3& Position) const
{
lcObject* FocusObject = GetFocusObject();
if (FocusObject)
{
Position = FocusObject->GetSectionPosition(FocusObject->GetFocusSection());
return true;
}
else
{
Position = lcVector3(0.0f, 0.0f, 0.0f);
return false;
}
}
2014-10-05 07:21:51 +02:00
bool lcModel::GetSelectionCenter(lcVector3& Center) const
{
float Bounds[6] = { FLT_MAX, FLT_MAX, FLT_MAX, -FLT_MAX, -FLT_MAX, -FLT_MAX };
bool Selected = false;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsSelected())
{
Piece->CompareBoundingBox(Bounds);
Selected = true;
}
}
Center = lcVector3((Bounds[0] + Bounds[3]) * 0.5f, (Bounds[1] + Bounds[4]) * 0.5f, (Bounds[2] + Bounds[5]) * 0.5f);
return Selected;
}
bool lcModel::GetPiecesBoundingBox(float BoundingBox[6]) const
{
if (mPieces.IsEmpty())
return false;
BoundingBox[0] = FLT_MAX;
BoundingBox[1] = FLT_MAX;
BoundingBox[2] = FLT_MAX;
BoundingBox[3] = -FLT_MAX;
BoundingBox[4] = -FLT_MAX;
BoundingBox[5] = -FLT_MAX;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsVisible(mCurrentStep))
Piece->CompareBoundingBox(BoundingBox);
}
return true;
}
2014-10-11 01:53:08 +02:00
void lcModel::GetPartsList(lcArray<lcPartsListEntry>& PartsList) const
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->mPieceInfo->m_strDescription[0] == '~')
continue;
int UsedIdx;
for (UsedIdx = 0; UsedIdx < PartsList.GetSize(); UsedIdx++)
{
if (PartsList[UsedIdx].Info != Piece->mPieceInfo || PartsList[UsedIdx].ColorIndex != Piece->mColorIndex)
continue;
PartsList[UsedIdx].Count++;
break;
}
if (UsedIdx == PartsList.GetSize())
{
lcPartsListEntry& Entry = PartsList.Add();
Entry.Info = Piece->mPieceInfo;
Entry.ColorIndex = Piece->mColorIndex;
Entry.Count = 1;
}
}
}
2014-08-17 22:44:12 +02:00
void lcModel::UpdateSelection() const
{
int Flags = 0;
int SelectedCount = 0;
lcObject* Focus = NULL;
if (mPieces.IsEmpty())
Flags |= LC_SEL_NO_PIECES;
else
{
lcGroup* pGroup = NULL;
bool first = true;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsSelected())
{
SelectedCount++;
if (Piece->IsFocused())
Focus = Piece;
Flags |= LC_SEL_PIECE | LC_SEL_SELECTED;
if (Piece->GetGroup() != NULL)
{
Flags |= LC_SEL_GROUPED;
if (Piece->IsFocused())
Flags |= LC_SEL_FOCUS_GROUPED;
}
if (first)
{
pGroup = Piece->GetGroup();
first = false;
}
else
{
if (pGroup != Piece->GetGroup())
Flags |= LC_SEL_CAN_GROUP;
else
if (pGroup == NULL)
Flags |= LC_SEL_CAN_GROUP;
}
}
else
{
Flags |= LC_SEL_UNSELECTED;
if (Piece->IsHidden())
Flags |= LC_SEL_HIDDEN;
}
}
}
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
{
lcCamera* Camera = mCameras[CameraIdx];
if (Camera->IsSelected())
{
Flags |= LC_SEL_SELECTED;
SelectedCount++;
if (Camera->IsFocused())
Focus = Camera;
}
}
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
{
lcLight* Light = mLights[LightIdx];
if (Light->IsSelected())
{
Flags |= LC_SEL_SELECTED;
SelectedCount++;
if (Light->IsFocused())
Focus = Light;
}
}
gMainWindow->UpdateSelectedObjects(Flags, SelectedCount, Focus);
}
void lcModel::ClearSelection(bool UpdateInterface)
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
mPieces[PieceIdx]->SetSelected(false);
for (int CameraIdx = 0; CameraIdx < mCameras.GetSize(); CameraIdx++)
mCameras[CameraIdx]->SetSelected(false);
for (int LightIdx = 0; LightIdx < mLights.GetSize(); LightIdx++)
mLights[LightIdx]->SetSelected(false);
if (UpdateInterface)
{
UpdateSelection();
gMainWindow->UpdateAllViews();
gMainWindow->UpdateFocusObject(NULL);
}
}
void lcModel::SelectGroup(lcGroup* TopGroup, bool Select)
{
if (!TopGroup)
return;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (!Piece->IsSelected() && Piece->IsVisible(mCurrentStep) && (Piece->GetTopGroup() == TopGroup))
Piece->SetSelected(Select);
}
}
void lcModel::FocusOrDeselectObject(const lcObjectSection& ObjectSection)
{
lcObject* FocusObject = GetFocusObject();
lcObject* Object = ObjectSection.Object;
lcuint32 Section = ObjectSection.Section;
if (Object)
{
bool WasSelected = Object->IsSelected();
if (!Object->IsFocused(Section))
{
if (FocusObject)
FocusObject->SetFocused(FocusObject->GetFocusSection(), false);
Object->SetFocused(Section, true);
}
else
Object->SetSelected(Section, false);
bool IsSelected = Object->IsSelected();
if (Object->IsPiece() && (WasSelected != IsSelected))
SelectGroup(((lcPiece*)Object)->GetTopGroup(), IsSelected);
}
else
{
if (FocusObject)
FocusObject->SetFocused(FocusObject->GetFocusSection(), false);
}
UpdateSelection();
gMainWindow->UpdateAllViews();
gMainWindow->UpdateFocusObject(GetFocusObject());
}
void lcModel::ClearSelectionAndSetFocus(lcObject* Object, lcuint32 Section)
{
ClearSelection(false);
if (Object)
{
Object->SetFocused(Section, true);
if (Object->IsPiece())
SelectGroup(((lcPiece*)Object)->GetTopGroup(), true);
}
UpdateSelection();
gMainWindow->UpdateAllViews();
gMainWindow->UpdateFocusObject(Object);
}
void lcModel::ClearSelectionAndSetFocus(const lcObjectSection& ObjectSection)
{
ClearSelectionAndSetFocus(ObjectSection.Object, ObjectSection.Section);
}
void lcModel::SetSelection(const lcArray<lcObjectSection>& ObjectSections)
{
ClearSelection(false);
AddToSelection(ObjectSections);
}
void lcModel::AddToSelection(const lcArray<lcObjectSection>& ObjectSections)
{
for (int ObjectIdx = 0; ObjectIdx < ObjectSections.GetSize(); ObjectIdx++)
{
lcObject* Object = ObjectSections[ObjectIdx].Object;
bool WasSelected = Object->IsSelected();
Object->SetSelected(ObjectSections[ObjectIdx].Section, true);
if (!WasSelected && Object->GetType() == LC_OBJECT_PIECE)
SelectGroup(((lcPiece*)Object)->GetTopGroup(), true);
}
UpdateSelection();
gMainWindow->UpdateAllViews();
gMainWindow->UpdateFocusObject(GetFocusObject());
}
2014-09-21 03:31:01 +02:00
void lcModel::FindPiece(bool FindFirst, bool SearchForward)
{
if (mPieces.IsEmpty())
return;
int StartIdx = mPieces.GetSize() - 1;
if (!FindFirst)
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
if (Piece->IsFocused() && Piece->IsVisible(mCurrentStep))
{
StartIdx = PieceIdx;
break;
}
}
}
int CurrentIdx = StartIdx;
lcObject* Focus = NULL;
const lcSearchOptions& SearchOptions = gMainWindow->mSearchOptions;
for (;;)
{
if (SearchForward)
CurrentIdx++;
else
CurrentIdx--;
if (CurrentIdx < 0)
CurrentIdx = mPieces.GetSize() - 1;
else if (CurrentIdx >= mPieces.GetSize())
CurrentIdx = 0;
if (CurrentIdx == StartIdx)
break;
lcPiece* Current = mPieces[CurrentIdx];
if (!Current->IsVisible(mCurrentStep))
continue;
if ((!SearchOptions.MatchInfo || Current->mPieceInfo == SearchOptions.Info) &&
(!SearchOptions.MatchColor || Current->mColorIndex == SearchOptions.ColorIndex) &&
(!SearchOptions.MatchName || strcasestr(Current->GetName(), SearchOptions.Name)))
{
Focus = Current;
break;
}
}
ClearSelectionAndSetFocus(Focus, LC_PIECE_SECTION_POSITION);
}
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void lcModel::BeginMouseTool()
{
mMouseToolDistance = lcVector3(0.0f, 0.0f, 0.0f);
}
void lcModel::EndMouseTool(lcTool Tool, bool Accept)
{
if (!Accept)
{
LoadCheckPoint(mUndoHistory[0]);
return;
}
switch (Tool)
{
case LC_TOOL_INSERT:
case LC_TOOL_LIGHT:
break;
case LC_TOOL_SPOTLIGHT:
SaveCheckpoint(tr("New SpotLight"));
break;
case LC_TOOL_CAMERA:
gMainWindow->UpdateCameraMenu();
SaveCheckpoint(tr("New Camera"));
break;
case LC_TOOL_SELECT:
break;
case LC_TOOL_MOVE:
SaveCheckpoint(tr("Move"));
break;
case LC_TOOL_ROTATE:
SaveCheckpoint(tr("Rotate"));
break;
case LC_TOOL_ERASER:
case LC_TOOL_PAINT:
break;
case LC_TOOL_ZOOM:
if (!gMainWindow->GetActiveView()->mCamera->IsSimple())
SaveCheckpoint(tr("Zoom"));
break;
case LC_TOOL_PAN:
if (!gMainWindow->GetActiveView()->mCamera->IsSimple())
SaveCheckpoint(tr("Pan"));
break;
case LC_TOOL_ROTATE_VIEW:
if (!gMainWindow->GetActiveView()->mCamera->IsSimple())
SaveCheckpoint(tr("Orbit"));
break;
case LC_TOOL_ROLL:
if (!gMainWindow->GetActiveView()->mCamera->IsSimple())
SaveCheckpoint(tr("Roll"));
break;
case LC_TOOL_ZOOM_REGION:
break;
}
}
void lcModel::InsertPieceToolClicked(const lcVector3& Position, const lcVector4& Rotation)
{
lcPiece* Piece = new lcPiece(gMainWindow->mPreviewWidget->GetCurrentPiece());
Piece->Initialize(Position, Rotation, mCurrentStep);
Piece->SetColorIndex(gMainWindow->mColorIndex);
Piece->UpdatePosition(mCurrentStep);
Piece->CreateName(mPieces);
mPieces.Add(Piece);
ClearSelectionAndSetFocus(Piece, LC_PIECE_SECTION_POSITION);
SaveCheckpoint(tr("Insert"));
}
void lcModel::PointLightToolClicked(const lcVector3& Position)
{
lcLight* Light = new lcLight(Position[0], Position[1], Position[2]);
Light->CreateName(mLights);
mLights.Add(Light);
ClearSelectionAndSetFocus(Light, LC_LIGHT_SECTION_POSITION);
SaveCheckpoint(tr("New Light"));
}
void lcModel::BeginSpotLightTool(const lcVector3& Position, const lcVector3& Target)
{
lcLight* Light = new lcLight(Position[0], Position[1], Position[2], Target[0], Target[1], Target[2]);
mLights.Add(Light);
ClearSelectionAndSetFocus(Light, LC_LIGHT_SECTION_TARGET);
}
void lcModel::UpdateSpotLightTool(const lcVector3& Target)
{
lcLight* Light = mLights[mLights.GetSize() - 1];
Light->Move(1, false, Target);
Light->UpdatePosition(1);
gMainWindow->UpdateFocusObject(Light);
gMainWindow->UpdateAllViews();
}
void lcModel::BeginCameraTool(const lcVector3& Position, const lcVector3& Target)
{
lcCamera* Camera = new lcCamera(Position[0], Position[1], Position[2], Target[0], Target[1], Target[2]);
Camera->CreateName(mCameras);
mCameras.Add(Camera);
ClearSelectionAndSetFocus(Camera, LC_CAMERA_SECTION_TARGET);
}
void lcModel::UpdateCameraTool(const lcVector3& Target)
{
lcCamera* Camera = mCameras[mCameras.GetSize() - 1];
Camera->Move(1, false, Target);
Camera->UpdatePosition(1);
gMainWindow->UpdateFocusObject(Camera);
gMainWindow->UpdateAllViews();
}
void lcModel::UpdateMoveTool(const lcVector3& Distance)
{
2014-10-05 07:42:38 +02:00
lcVector3 PieceDistance = LockVector(SnapPosition(Distance) - SnapPosition(mMouseToolDistance));
2014-10-05 07:21:51 +02:00
lcVector3 ObjectDistance = Distance - mMouseToolDistance;
MoveSelectedObjects(PieceDistance, ObjectDistance);
mMouseToolDistance = Distance;
gMainWindow->UpdateFocusObject(GetFocusObject());
gMainWindow->UpdateAllViews();
}
void lcModel::UpdateRotateTool(const lcVector3& Angles)
{
2014-10-05 07:42:38 +02:00
lcVector3 Delta = LockVector(SnapRotation(Angles) - SnapRotation(mMouseToolDistance));
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RotateSelectedPieces(Delta);
mMouseToolDistance = Angles;
gMainWindow->UpdateFocusObject(GetFocusObject());
gMainWindow->UpdateAllViews();
}
void lcModel::EraserToolClicked(lcObject* Object)
{
if (!Object)
return;
switch (Object->GetType())
{
case LC_OBJECT_PIECE:
mPieces.Remove((lcPiece*)Object);
RemoveEmptyGroups();
break;
case LC_OBJECT_CAMERA:
{
const lcArray<View*> Views = gMainWindow->GetViews();
for (int ViewIdx = 0; ViewIdx < Views.GetSize(); ViewIdx++)
{
View* View = Views[ViewIdx];
lcCamera* Camera = View->mCamera;
if (Camera == Object)
View->SetCamera(Camera, true);
}
mCameras.Remove((lcCamera*)Object);
gMainWindow->UpdateCameraMenu();
}
break;
case LC_OBJECT_LIGHT:
mLights.Remove((lcLight*)Object);
break;
}
delete Object;
gMainWindow->UpdateFocusObject(GetFocusObject());
UpdateSelection();
gMainWindow->UpdateAllViews();
SaveCheckpoint(tr("Deleting"));
}
void lcModel::PaintToolClicked(lcObject* Object)
{
if (!Object || Object->GetType() != LC_OBJECT_PIECE)
return;
lcPiece* Piece = (lcPiece*)Object;
if (Piece->mColorIndex != gMainWindow->mColorIndex)
{
Piece->SetColorIndex(gMainWindow->mColorIndex);
SaveCheckpoint(tr("Painting"));
gMainWindow->UpdateFocusObject(GetFocusObject());
gMainWindow->UpdateAllViews();
}
}
void lcModel::UpdateZoomTool(lcCamera* Camera, float Mouse)
{
Camera->Zoom(Mouse - mMouseToolDistance.x, mCurrentStep, gMainWindow->GetAddKeys());
mMouseToolDistance.x = Mouse;
gMainWindow->UpdateAllViews();
}
void lcModel::UpdatePanTool(lcCamera* Camera, float MouseX, float MouseY)
{
Camera->Pan(MouseX - mMouseToolDistance.x, MouseY - mMouseToolDistance.y, mCurrentStep, gMainWindow->GetAddKeys());
mMouseToolDistance.x = MouseX;
mMouseToolDistance.y = MouseY;
gMainWindow->UpdateAllViews();
}
void lcModel::UpdateOrbitTool(lcCamera* Camera, float MouseX, float MouseY)
{
lcVector3 Center;
GetSelectionCenter(Center);
Camera->Orbit(MouseX - mMouseToolDistance.x, MouseY - mMouseToolDistance.y, Center, mCurrentStep, gMainWindow->GetAddKeys());
mMouseToolDistance.x = MouseX;
mMouseToolDistance.y = MouseY;
gMainWindow->UpdateAllViews();
}
void lcModel::UpdateRollTool(lcCamera* Camera, float Mouse)
{
Camera->Roll(Mouse - mMouseToolDistance.x, mCurrentStep, gMainWindow->GetAddKeys());
mMouseToolDistance.x = Mouse;
gMainWindow->UpdateAllViews();
}
void lcModel::ZoomRegionToolClicked(lcCamera* Camera, const lcVector3* Points, float RatioX, float RatioY)
{
Camera->ZoomRegion(Points, RatioX, RatioY, mCurrentStep, gMainWindow->GetAddKeys());
gMainWindow->UpdateFocusObject(GetFocusObject());
gMainWindow->UpdateAllViews();
if (!Camera->IsSimple())
SaveCheckpoint(tr("Zoom"));
}
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void lcModel::Export3DStudio() const
{
if (mPieces.IsEmpty())
{
gMainWindow->DoMessageBox("Nothing to export.", LC_MB_OK | LC_MB_ICONINFORMATION);
return;
}
char FileName[LC_MAXPATH];
memset(FileName, 0, sizeof(FileName));
if (!gMainWindow->DoDialog(LC_DIALOG_EXPORT_3DSTUDIO, FileName))
return;
lcDiskFile File;
if (!File.Open(FileName, "wb"))
{
gMainWindow->DoMessageBox("Could not open file for writing.", LC_MB_OK | LC_MB_ICONERROR);
return;
}
long M3DStart = File.GetPosition();
File.WriteU16(0x4D4D); // CHK_M3DMAGIC
File.WriteU32(0);
File.WriteU16(0x0002); // CHK_M3D_VERSION
File.WriteU32(10);
File.WriteU32(3);
long MDataStart = File.GetPosition();
File.WriteU16(0x3D3D); // CHK_MDATA
File.WriteU32(0);
File.WriteU16(0x3D3E); // CHK_MESH_VERSION
File.WriteU32(10);
File.WriteU32(3);
const int MaterialNameLength = 11;
char MaterialName[32];
for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++)
{
lcColor* Color = &gColorList[ColorIdx];
sprintf(MaterialName, "Material%03d", ColorIdx);
long MaterialStart = File.GetPosition();
File.WriteU16(0xAFFF); // CHK_MAT_ENTRY
File.WriteU32(0);
File.WriteU16(0xA000); // CHK_MAT_NAME
File.WriteU32(6 + MaterialNameLength + 1);
File.WriteBuffer(MaterialName, MaterialNameLength + 1);
File.WriteU16(0xA010); // CHK_MAT_AMBIENT
File.WriteU32(24);
File.WriteU16(0x0011); // CHK_COLOR_24
File.WriteU32(9);
File.WriteU8(floor(255.0 * Color->Value[0] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[1] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[2] + 0.5));
File.WriteU16(0x0012); // CHK_LIN_COLOR_24
File.WriteU32(9);
File.WriteU8(floor(255.0 * Color->Value[0] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[1] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[2] + 0.5));
File.WriteU16(0xA020); // CHK_MAT_AMBIENT
File.WriteU32(24);
File.WriteU16(0x0011); // CHK_COLOR_24
File.WriteU32(9);
File.WriteU8(floor(255.0 * Color->Value[0] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[1] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[2] + 0.5));
File.WriteU16(0x0012); // CHK_LIN_COLOR_24
File.WriteU32(9);
File.WriteU8(floor(255.0 * Color->Value[0] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[1] + 0.5));
File.WriteU8(floor(255.0 * Color->Value[2] + 0.5));
File.WriteU16(0xA030); // CHK_MAT_SPECULAR
File.WriteU32(24);
File.WriteU16(0x0011); // CHK_COLOR_24
File.WriteU32(9);
File.WriteU8(floor(255.0 * 0.9f + 0.5));
File.WriteU8(floor(255.0 * 0.9f + 0.5));
File.WriteU8(floor(255.0 * 0.9f + 0.5));
File.WriteU16(0x0012); // CHK_LIN_COLOR_24
File.WriteU32(9);
File.WriteU8(floor(255.0 * 0.9f + 0.5));
File.WriteU8(floor(255.0 * 0.9f + 0.5));
File.WriteU8(floor(255.0 * 0.9f + 0.5));
File.WriteU16(0xA040); // CHK_MAT_SHININESS
File.WriteU32(14);
File.WriteU16(0x0030); // CHK_INT_PERCENTAGE
File.WriteU32(8);
File.WriteS16((lcuint8)floor(100.0 * 0.25 + 0.5));
File.WriteU16(0xA041); // CHK_MAT_SHIN2PCT
File.WriteU32(14);
File.WriteU16(0x0030); // CHK_INT_PERCENTAGE
File.WriteU32(8);
File.WriteS16((lcuint8)floor(100.0 * 0.05 + 0.5));
File.WriteU16(0xA050); // CHK_MAT_TRANSPARENCY
File.WriteU32(14);
File.WriteU16(0x0030); // CHK_INT_PERCENTAGE
File.WriteU32(8);
File.WriteS16((lcuint8)floor(100.0 * (1.0f - Color->Value[3]) + 0.5));
File.WriteU16(0xA052); // CHK_MAT_XPFALL
File.WriteU32(14);
File.WriteU16(0x0030); // CHK_INT_PERCENTAGE
File.WriteU32(8);
File.WriteS16((lcuint8)floor(100.0 * 0.0 + 0.5));
File.WriteU16(0xA053); // CHK_MAT_REFBLUR
File.WriteU32(14);
File.WriteU16(0x0030); // CHK_INT_PERCENTAGE
File.WriteU32(8);
File.WriteS16((lcuint8)floor(100.0 * 0.2 + 0.5));
File.WriteU16(0xA100); // CHK_MAT_SHADING
File.WriteU32(8);
File.WriteS16(3);
File.WriteU16(0xA084); // CHK_MAT_SELF_ILPCT
File.WriteU32(14);
File.WriteU16(0x0030); // CHK_INT_PERCENTAGE
File.WriteU32(8);
File.WriteS16((lcuint8)floor(100.0 * 0.0 + 0.5));
File.WriteU16(0xA081); // CHK_MAT_TWO_SIDE
File.WriteU32(6);
File.WriteU16(0xA087); // CHK_MAT_WIRE_SIZE
File.WriteU32(10);
File.WriteFloat(1.0f);
long MaterialEnd = File.GetPosition();
File.Seek(MaterialStart + 2, SEEK_SET);
File.WriteU32(MaterialEnd - MaterialStart);
File.Seek(MaterialEnd, SEEK_SET);
}
File.WriteU16(0x0100); // CHK_MASTER_SCALE
File.WriteU32(10);
File.WriteFloat(1.0f);
File.WriteU16(0x1400); // CHK_LO_SHADOW_BIAS
File.WriteU32(10);
File.WriteFloat(1.0f);
File.WriteU16(0x1420); // CHK_SHADOW_MAP_SIZE
File.WriteU32(8);
File.WriteS16(512);
File.WriteU16(0x1450); // CHK_SHADOW_FILTER
File.WriteU32(10);
File.WriteFloat(3.0f);
File.WriteU16(0x1460); // CHK_RAY_BIAS
File.WriteU32(10);
File.WriteFloat(1.0f);
File.WriteU16(0x1500); // CHK_O_CONSTS
File.WriteU32(18);
File.WriteFloat(0.0f);
File.WriteFloat(0.0f);
File.WriteFloat(0.0f);
File.WriteU16(0x2100); // CHK_AMBIENT_LIGHT
File.WriteU32(42);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mAmbientColor, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mAmbientColor, 3);
File.WriteU16(0x1200); // CHK_SOLID_BGND
File.WriteU32(42);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mBackgroundSolidColor, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mBackgroundSolidColor, 3);
File.WriteU16(0x1100); // CHK_BIT_MAP
QByteArray BackgroundImage = mProperties.mBackgroundImage.toLatin1();
File.WriteU32(6 + 1 + strlen(BackgroundImage.constData()));
File.WriteBuffer(BackgroundImage.constData(), strlen(BackgroundImage.constData()) + 1);
File.WriteU16(0x1300); // CHK_V_GRADIENT
File.WriteU32(118);
File.WriteFloat(1.0f);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mBackgroundGradientColor1, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mBackgroundGradientColor1, 3);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats((mProperties.mBackgroundGradientColor1 + mProperties.mBackgroundGradientColor2) / 2.0f, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats((mProperties.mBackgroundGradientColor1 + mProperties.mBackgroundGradientColor2) / 2.0f, 3);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mBackgroundGradientColor2, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mBackgroundGradientColor2, 3);
if (mProperties.mBackgroundType == LC_BACKGROUND_GRADIENT)
{
File.WriteU16(0x1301); // LIB3DS_USE_V_GRADIENT
File.WriteU32(6);
}
else if (mProperties.mBackgroundType == LC_BACKGROUND_IMAGE)
{
File.WriteU16(0x1101); // LIB3DS_USE_BIT_MAP
File.WriteU32(6);
}
else
{
File.WriteU16(0x1201); // LIB3DS_USE_SOLID_BGND
File.WriteU32(6);
}
File.WriteU16(0x2200); // CHK_FOG
File.WriteU32(46);
File.WriteFloat(0.0f);
File.WriteFloat(0.0f);
File.WriteFloat(1000.0f);
File.WriteFloat(100.0f);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mFogColor, 3);
File.WriteU16(0x2210); // CHK_FOG_BGND
File.WriteU32(6);
File.WriteU16(0x2302); // CHK_LAYER_FOG
File.WriteU32(40);
File.WriteFloat(0.0f);
File.WriteFloat(100.0f);
File.WriteFloat(50.0f);
File.WriteU32(0x00100000);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(mProperties.mFogColor, 3);
File.WriteU16(0x2300); // CHK_DISTANCE_CUE
File.WriteU32(28);
File.WriteFloat(0.0f);
File.WriteFloat(0.0f);
File.WriteFloat(1000.0f);
File.WriteFloat(100.0f);
File.WriteU16(0x2310); // CHK_DICHK_DCUE_BGNDSTANCE_CUE
File.WriteU32(6);
int NumPieces = 0;
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* piece = mPieces[PieceIdx];
PieceInfo* Info = piece->mPieceInfo;
lcMesh* Mesh = Info->mMesh;
if (Mesh->mIndexType == GL_UNSIGNED_INT)
continue;
long NamedObjectStart = File.GetPosition();
File.WriteU16(0x4000); // CHK_NAMED_OBJECT
File.WriteU32(0);
char Name[32];
sprintf(Name, "Piece%.3d", NumPieces);
NumPieces++;
File.WriteBuffer(Name, strlen(Name) + 1);
long TriObjectStart = File.GetPosition();
File.WriteU16(0x4100); // CHK_N_TRI_OBJECT
File.WriteU32(0);
File.WriteU16(0x4110); // CHK_POINT_ARRAY
File.WriteU32(8 + 12 * Mesh->mNumVertices);
File.WriteU16(Mesh->mNumVertices);
float* Verts = (float*)Mesh->mVertexBuffer.mData;
const lcMatrix44& ModelWorld = piece->mModelWorld;
for (int VertexIdx = 0; VertexIdx < Mesh->mNumVertices; VertexIdx++)
{
lcVector3 Pos(Verts[VertexIdx * 3], Verts[VertexIdx * 3 + 1], Verts[VertexIdx * 3 + 2]);
Pos = lcMul31(Pos, ModelWorld);
File.WriteFloat(Pos[0]);
File.WriteFloat(Pos[1]);
File.WriteFloat(Pos[2]);
}
File.WriteU16(0x4160); // CHK_MESH_MATRIX
File.WriteU32(54);
lcMatrix44 Matrix = lcMatrix44Identity();
File.WriteFloats(Matrix[0], 3);
File.WriteFloats(Matrix[1], 3);
File.WriteFloats(Matrix[2], 3);
File.WriteFloats(Matrix[3], 3);
File.WriteU16(0x4165); // CHK_MESH_COLOR
File.WriteU32(7);
File.WriteU8(0);
long FaceArrayStart = File.GetPosition();
File.WriteU16(0x4120); // CHK_FACE_ARRAY
File.WriteU32(0);
int NumTriangles = 0;
for (int SectionIdx = 0; SectionIdx < Mesh->mNumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mSections[SectionIdx];
if (Section->PrimitiveType != GL_TRIANGLES)
continue;
NumTriangles += Section->NumIndices / 3;
}
File.WriteU16(NumTriangles);
for (int SectionIdx = 0; SectionIdx < Mesh->mNumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mSections[SectionIdx];
if (Section->PrimitiveType != GL_TRIANGLES)
continue;
lcuint16* Indices = (lcuint16*)Mesh->mIndexBuffer.mData + Section->IndexOffset / sizeof(lcuint16);
for (int IndexIdx = 0; IndexIdx < Section->NumIndices; IndexIdx += 3)
{
File.WriteU16(Indices[IndexIdx + 0]);
File.WriteU16(Indices[IndexIdx + 1]);
File.WriteU16(Indices[IndexIdx + 2]);
File.WriteU16(7);
}
}
NumTriangles = 0;
for (int SectionIdx = 0; SectionIdx < Mesh->mNumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mSections[SectionIdx];
if (Section->PrimitiveType != GL_TRIANGLES)
continue;
int MaterialIndex = Section->ColorIndex == gDefaultColor ? piece->mColorIndex : Section->ColorIndex;
File.WriteU16(0x4130); // CHK_MSH_MAT_GROUP
File.WriteU32(6 + MaterialNameLength + 1 + 2 + 2 * Section->NumIndices / 3);
sprintf(MaterialName, "Material%03d", MaterialIndex);
File.WriteBuffer(MaterialName, MaterialNameLength + 1);
File.WriteU16(Section->NumIndices / 3);
for (int IndexIdx = 0; IndexIdx < Section->NumIndices; IndexIdx += 3)
File.WriteU16(NumTriangles++);
}
long FaceArrayEnd = File.GetPosition();
File.Seek(FaceArrayStart + 2, SEEK_SET);
File.WriteU32(FaceArrayEnd - FaceArrayStart);
File.Seek(FaceArrayEnd, SEEK_SET);
long TriObjectEnd = File.GetPosition();
File.Seek(TriObjectStart + 2, SEEK_SET);
File.WriteU32(TriObjectEnd - TriObjectStart);
File.Seek(TriObjectEnd, SEEK_SET);
long NamedObjectEnd = File.GetPosition();
File.Seek(NamedObjectStart + 2, SEEK_SET);
File.WriteU32(NamedObjectEnd - NamedObjectStart);
File.Seek(NamedObjectEnd, SEEK_SET);
}
long MDataEnd = File.GetPosition();
File.Seek(MDataStart + 2, SEEK_SET);
File.WriteU32(MDataEnd - MDataStart);
File.Seek(MDataEnd, SEEK_SET);
long KFDataStart = File.GetPosition();
File.WriteU16(0xB000); // CHK_KFDATA
File.WriteU32(0);
File.WriteU16(0xB00A); // LIB3DS_KFHDR
File.WriteU32(6 + 2 + 1 + 4);
File.WriteS16(5);
File.WriteU8(0);
File.WriteS32(100);
long KFDataEnd = File.GetPosition();
File.Seek(KFDataStart + 2, SEEK_SET);
File.WriteU32(KFDataEnd - KFDataStart);
File.Seek(KFDataEnd, SEEK_SET);
long M3DEnd = File.GetPosition();
File.Seek(M3DStart + 2, SEEK_SET);
File.WriteU32(M3DEnd - M3DStart);
File.Seek(M3DEnd, SEEK_SET);
}
void lcModel::ExportBrickLink() const
{
if (mPieces.IsEmpty())
{
gMainWindow->DoMessageBox("Nothing to export.", LC_MB_OK | LC_MB_ICONINFORMATION);
return;
}
char FileName[LC_MAXPATH];
memset(FileName, 0, sizeof(FileName));
if (!gMainWindow->DoDialog(LC_DIALOG_EXPORT_BRICKLINK, FileName))
return;
lcDiskFile BrickLinkFile;
char Line[1024];
if (!BrickLinkFile.Open(FileName, "wt"))
{
gMainWindow->DoMessageBox("Could not open file for writing.", LC_MB_OK | LC_MB_ICONERROR);
return;
}
lcArray<lcPartsListEntry> PartsList;
GetPartsList(PartsList);
const char* OldLocale = setlocale(LC_NUMERIC, "C");
BrickLinkFile.WriteLine("<INVENTORY>\n");
for (int PieceIdx = 0; PieceIdx < PartsList.GetSize(); PieceIdx++)
{
BrickLinkFile.WriteLine(" <ITEM>\n");
BrickLinkFile.WriteLine(" <ITEMTYPE>P</ITEMTYPE>\n");
sprintf(Line, " <ITEMID>%s</ITEMID>\n", PartsList[PieceIdx].Info->m_strName);
BrickLinkFile.WriteLine(Line);
int Count = PartsList[PieceIdx].Count;
if (Count > 1)
{
sprintf(Line, " <MINQTY>%d</MINQTY>\n", Count);
BrickLinkFile.WriteLine(Line);
}
int Color = lcGetBrickLinkColor(PartsList[PieceIdx].ColorIndex);
if (Color)
{
sprintf(Line, " <COLOR>%d</COLOR>\n", Color);
BrickLinkFile.WriteLine(Line);
}
BrickLinkFile.WriteLine(" </ITEM>\n");
}
BrickLinkFile.WriteLine("</INVENTORY>\n");
setlocale(LC_NUMERIC, OldLocale);
}
void lcModel::ExportCSV() const
{
if (mPieces.IsEmpty())
{
gMainWindow->DoMessageBox("Nothing to export.", LC_MB_OK | LC_MB_ICONINFORMATION);
return;
}
char FileName[LC_MAXPATH];
memset(FileName, 0, sizeof(FileName));
if (!gMainWindow->DoDialog(LC_DIALOG_EXPORT_CSV, FileName))
return;
lcDiskFile CSVFile;
char Line[1024];
if (!CSVFile.Open(FileName, "wt"))
{
gMainWindow->DoMessageBox("Could not open file for writing.", LC_MB_OK | LC_MB_ICONERROR);
return;
}
lcArray<lcPartsListEntry> PartsList;
GetPartsList(PartsList);
const char* OldLocale = setlocale(LC_NUMERIC, "C");
CSVFile.WriteLine("Part Name,Color,Quantity,Part ID,Color Code\n");
for (int PieceIdx = 0; PieceIdx < PartsList.GetSize(); PieceIdx++)
{
sprintf(Line, "\"%s\",\"%s\",%d,%s,%d\n", PartsList[PieceIdx].Info->m_strDescription, gColorList[PartsList[PieceIdx].ColorIndex].Name,
PartsList[PieceIdx].Count, PartsList[PieceIdx].Info->m_strName, gColorList[PartsList[PieceIdx].ColorIndex].Code);
CSVFile.WriteLine(Line);
}
setlocale(LC_NUMERIC, OldLocale);
}
void lcModel::ExportPOVRay() const
{
lcPOVRayDialogOptions Options;
memset(Options.FileName, 0, sizeof(Options.FileName));
strcpy(Options.POVRayPath, lcGetProfileString(LC_PROFILE_POVRAY_PATH));
strcpy(Options.LGEOPath, lcGetProfileString(LC_PROFILE_POVRAY_LGEO_PATH));
Options.Render = lcGetProfileInt(LC_PROFILE_POVRAY_RENDER);
if (!gMainWindow->DoDialog(LC_DIALOG_EXPORT_POVRAY, &Options))
return;
lcSetProfileString(LC_PROFILE_POVRAY_PATH, Options.POVRayPath);
lcSetProfileString(LC_PROFILE_POVRAY_LGEO_PATH, Options.LGEOPath);
lcSetProfileInt(LC_PROFILE_POVRAY_RENDER, Options.Render);
lcDiskFile POVFile;
if (!POVFile.Open(Options.FileName, "wt"))
{
gMainWindow->DoMessageBox("Could not open file for writing.", LC_MB_OK|LC_MB_ICONERROR);
return;
}
char Line[1024];
lcPiecesLibrary* Library = lcGetPiecesLibrary();
char* PieceTable = new char[Library->mPieces.GetSize() * LC_PIECE_NAME_LEN];
int* PieceFlags = new int[Library->mPieces.GetSize()];
int NumColors = gColorList.GetSize();
char* ColorTable = new char[NumColors * LC_MAX_COLOR_NAME];
memset(PieceTable, 0, Library->mPieces.GetSize() * LC_PIECE_NAME_LEN);
memset(PieceFlags, 0, Library->mPieces.GetSize() * sizeof(int));
memset(ColorTable, 0, NumColors * LC_MAX_COLOR_NAME);
enum
{
LGEO_PIECE_LGEO = 0x01,
LGEO_PIECE_AR = 0x02,
LGEO_PIECE_SLOPE = 0x04
};
enum
{
LGEO_COLOR_SOLID = 0x01,
LGEO_COLOR_TRANSPARENT = 0x02,
LGEO_COLOR_CHROME = 0x04,
LGEO_COLOR_PEARL = 0x08,
LGEO_COLOR_METALLIC = 0x10,
LGEO_COLOR_RUBBER = 0x20,
LGEO_COLOR_GLITTER = 0x40
};
char LGEOPath[LC_MAXPATH];
strcpy(LGEOPath, lcGetProfileString(LC_PROFILE_POVRAY_LGEO_PATH));
if (LGEOPath[0])
{
lcDiskFile TableFile, ColorFile;
char Filename[LC_MAXPATH];
int Length = strlen(LGEOPath);
if ((LGEOPath[Length - 1] != '\\') && (LGEOPath[Length - 1] != '/'))
strcat(LGEOPath, "/");
strcpy(Filename, LGEOPath);
strcat(Filename, "lg_elements.lst");
if (!TableFile.Open(Filename, "rt"))
{
delete[] PieceTable;
delete[] PieceFlags;
gMainWindow->DoMessageBox("Could not find LGEO files.", LC_MB_OK | LC_MB_ICONERROR);
return;
}
while (TableFile.ReadLine(Line, sizeof(Line)))
{
char Src[1024], Dst[1024], Flags[1024];
if (*Line == ';')
continue;
if (sscanf(Line,"%s%s%s", Src, Dst, Flags) != 3)
continue;
strupr(Src);
PieceInfo* Info = Library->FindPiece(Src, false);
if (!Info)
continue;
int Index = Library->mPieces.FindIndex(Info);
if (strchr(Flags, 'L'))
{
PieceFlags[Index] |= LGEO_PIECE_LGEO;
sprintf(PieceTable + Index * LC_PIECE_NAME_LEN, "lg_%s", Dst);
}
if (strchr(Flags, 'A'))
{
PieceFlags[Index] |= LGEO_PIECE_AR;
sprintf(PieceTable + Index * LC_PIECE_NAME_LEN, "ar_%s", Dst);
}
if (strchr(Flags, 'S'))
PieceFlags[Index] |= LGEO_PIECE_SLOPE;
}
strcpy(Filename, LGEOPath);
strcat(Filename, "lg_colors.lst");
if (!ColorFile.Open(Filename, "rt"))
{
delete[] PieceTable;
delete[] PieceFlags;
gMainWindow->DoMessageBox("Could not find LGEO files.", LC_MB_OK | LC_MB_ICONERROR);
return;
}
while (ColorFile.ReadLine(Line, sizeof(Line)))
{
char Name[1024], Flags[1024];
int Code;
if (*Line == ';')
continue;
if (sscanf(Line,"%d%s%s", &Code, Name, Flags) != 3)
continue;
int Color = lcGetColorIndex(Code);
if (Color >= NumColors)
continue;
strcpy(&ColorTable[Color * LC_MAX_COLOR_NAME], Name);
}
}
const char* OldLocale = setlocale(LC_NUMERIC, "C");
if (LGEOPath[0])
{
POVFile.WriteLine("#include \"lg_defs.inc\"\n#include \"lg_color.inc\"\n\n");
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* piece = mPieces[PieceIdx];
PieceInfo* Info = piece->mPieceInfo;
for (int CheckIdx = 0; CheckIdx < mPieces.GetSize(); CheckIdx++)
{
if (mPieces[CheckIdx]->mPieceInfo != Info)
continue;
if (CheckIdx != PieceIdx)
break;
int Index = Library->mPieces.FindIndex(Info);
if (PieceTable[Index * LC_PIECE_NAME_LEN])
{
sprintf(Line, "#include \"%s.inc\"\n", PieceTable + Index * LC_PIECE_NAME_LEN);
POVFile.WriteLine(Line);
}
break;
}
}
POVFile.WriteLine("\n");
}
else
POVFile.WriteLine("#include \"colors.inc\"\n\n");
for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++)
{
lcColor* Color = &gColorList[ColorIdx];
if (lcIsColorTranslucent(ColorIdx))
{
sprintf(Line, "#declare lc_%s = texture { pigment { rgb <%f, %f, %f> filter 0.9 } finish { ambient 0.3 diffuse 0.2 reflection 0.25 phong 0.3 phong_size 60 } }\n",
Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]);
}
else
{
sprintf(Line, "#declare lc_%s = texture { pigment { rgb <%f, %f, %f> } finish { ambient 0.1 phong 0.2 phong_size 20 } }\n",
Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]);
}
POVFile.WriteLine(Line);
if (!ColorTable[ColorIdx * LC_MAX_COLOR_NAME])
sprintf(&ColorTable[ColorIdx * LC_MAX_COLOR_NAME], "lc_%s", Color->SafeName);
}
POVFile.WriteLine("\n");
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
PieceInfo* Info = Piece->mPieceInfo;
int Index = Library->mPieces.FindIndex(Info);
if (PieceTable[Index * LC_PIECE_NAME_LEN])
continue;
char Name[LC_PIECE_NAME_LEN];
char* Ptr;
strcpy(Name, Info->m_strName);
while ((Ptr = strchr(Name, '-')))
*Ptr = '_';
sprintf(PieceTable + Index * LC_PIECE_NAME_LEN, "lc_%s", Name);
Info->mMesh->ExportPOVRay(POVFile, Name, ColorTable);
POVFile.WriteLine("}\n\n");
sprintf(Line, "#declare lc_%s_clear = lc_%s\n\n", Name, Name);
POVFile.WriteLine(Line);
}
lcCamera* Camera = gMainWindow->GetActiveView()->mCamera;
const lcVector3& Position = Camera->mPosition;
const lcVector3& Target = Camera->mTargetPosition;
const lcVector3& Up = Camera->mUpVector;
sprintf(Line, "camera {\n sky<%1g,%1g,%1g>\n location <%1g, %1g, %1g>\n look_at <%1g, %1g, %1g>\n angle %.0f\n}\n\n",
Up[0], Up[1], Up[2], Position[1] / 25.0f, Position[0] / 25.0f, Position[2] / 25.0f, Target[1] / 25.0f, Target[0] / 25.0f, Target[2] / 25.0f, Camera->m_fovy);
POVFile.WriteLine(Line);
sprintf(Line, "background { color rgb <%1g, %1g, %1g> }\n\nlight_source { <0, 0, 20> White shadowless }\n\n",
mProperties.mBackgroundSolidColor[0], mProperties.mBackgroundSolidColor[1], mProperties.mBackgroundSolidColor[2]);
POVFile.WriteLine(Line);
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
int Index = Library->mPieces.FindIndex(Piece->mPieceInfo);
int Color;
Color = Piece->mColorIndex;
const char* Suffix = lcIsColorTranslucent(Color) ? "_clear" : "";
const float* f = Piece->mModelWorld;
if (PieceFlags[Index] & LGEO_PIECE_SLOPE)
{
sprintf(Line, "merge {\n object {\n %s%s\n texture { %s }\n }\n"
" object {\n %s_slope\n texture { %s normal { bumps 0.3 scale 0.02 } }\n }\n"
" matrix <%.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f>\n}\n",
PieceTable + Index * LC_PIECE_NAME_LEN, Suffix, &ColorTable[Color * LC_MAX_COLOR_NAME], PieceTable + Index * LC_PIECE_NAME_LEN, &ColorTable[Color * LC_MAX_COLOR_NAME],
-f[5], -f[4], -f[6], -f[1], -f[0], -f[2], f[9], f[8], f[10], f[13] / 25.0f, f[12] / 25.0f, f[14] / 25.0f);
}
else
{
sprintf(Line, "object {\n %s%s\n texture { %s }\n matrix <%.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f, %.4f>\n}\n",
PieceTable + Index * LC_PIECE_NAME_LEN, Suffix, &ColorTable[Color * LC_MAX_COLOR_NAME], -f[5], -f[4], -f[6], -f[1], -f[0], -f[2], f[9], f[8], f[10], f[13] / 25.0f, f[12] / 25.0f, f[14] / 25.0f);
}
POVFile.WriteLine(Line);
}
delete[] PieceTable;
delete[] PieceFlags;
setlocale(LC_NUMERIC, OldLocale);
POVFile.Close();
if (Options.Render)
{
lcArray<String> Arguments;
char Argument[LC_MAXPATH + 32];
sprintf(Argument, "+I%s", Options.FileName);
Arguments.Add(Argument);
if (Options.LGEOPath[0])
{
sprintf(Argument, "+L%slg/", Options.LGEOPath);
Arguments.Add(Argument);
sprintf(Argument, "+L%sar/", Options.LGEOPath);
Arguments.Add(Argument);
}
sprintf(Argument, "+o%s", Options.FileName);
char* Slash1 = strrchr(Argument, '\\');
char* Slash2 = strrchr(Argument, '/');
if (Slash1 || Slash2)
{
if (Slash1 > Slash2)
*(Slash1 + 1) = 0;
else
*(Slash2 + 1) = 0;
Arguments.Add(Argument);
}
g_App->RunProcess(Options.POVRayPath, Arguments);
}
}
void lcModel::ExportWavefront() const
{
char FileName[LC_MAXPATH];
memset(FileName, 0, sizeof(FileName));
if (!gMainWindow->DoDialog(LC_DIALOG_EXPORT_WAVEFRONT, FileName))
return;
lcDiskFile OBJFile;
char Line[1024];
if (!OBJFile.Open(FileName, "wt"))
{
gMainWindow->DoMessageBox("Could not open file for writing.", LC_MB_OK|LC_MB_ICONERROR);
return;
}
char buf[LC_MAXPATH], *ptr;
lcuint32 vert = 1;
const char* OldLocale = setlocale(LC_NUMERIC, "C");
OBJFile.WriteLine("# Model exported from LeoCAD\n");
strcpy(buf, FileName);
ptr = strrchr(buf, '.');
if (ptr)
*ptr = 0;
strcat(buf, ".mtl");
ptr = strrchr(buf, '\\');
if (ptr)
ptr++;
else
{
ptr = strrchr(buf, '/');
if (ptr)
ptr++;
else
ptr = buf;
}
sprintf(Line, "#\n\nmtllib %s\n\n", ptr);
OBJFile.WriteLine(Line);
FILE* mat = fopen(buf, "wt");
fputs("# Colors used by LeoCAD\n# You need to add transparency values\n#\n\n", mat);
for (int ColorIdx = 0; ColorIdx < gColorList.GetSize(); ColorIdx++)
{
lcColor* Color = &gColorList[ColorIdx];
fprintf(mat, "newmtl %s\nKd %.2f %.2f %.2f\n\n", Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]);
}
fclose(mat);
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
const lcMatrix44& ModelWorld = Piece->mModelWorld;
PieceInfo* pInfo = Piece->mPieceInfo;
float* Verts = (float*)pInfo->mMesh->mVertexBuffer.mData;
for (int i = 0; i < pInfo->mMesh->mNumVertices * 3; i += 3)
{
lcVector3 Vertex = lcMul31(lcVector3(Verts[i], Verts[i+1], Verts[i+2]), ModelWorld);
sprintf(Line, "v %.2f %.2f %.2f\n", Vertex[0], Vertex[1], Vertex[2]);
OBJFile.WriteLine(Line);
}
OBJFile.WriteLine("#\n\n");
}
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
lcPiece* Piece = mPieces[PieceIdx];
PieceInfo* Info = Piece->mPieceInfo;
strcpy(buf, Piece->GetName());
for (unsigned int i = 0; i < strlen(buf); i++)
if ((buf[i] == '#') || (buf[i] == ' '))
buf[i] = '_';
sprintf(Line, "g %s\n", buf);
OBJFile.WriteLine(Line);
Info->mMesh->ExportWavefrontIndices(OBJFile, Piece->mColorCode, vert);
vert += Info->mMesh->mNumVertices;
}
setlocale(LC_NUMERIC, OldLocale);
}