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leocad/common/project.cpp
Leonardo Zide 75bee39ea8 Fixed POV-Ray area light export.
2024-12-20 13:14:51 -08:00

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79 KiB
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#include "lc_global.h"
#include "lc_math.h"
#include "lc_mesh.h"
#include <locale.h>
#include "pieceinf.h"
#include "camera.h"
#include "project.h"
#include "lc_instructions.h"
#include "image.h"
#include "light.h"
#include "lc_mainwindow.h"
#include "lc_view.h"
#include "lc_library.h"
#include "lc_application.h"
#include "lc_profile.h"
#include "lc_file.h"
#include "lc_zipfile.h"
#include "lc_qimagedialog.h"
#include "lc_modellistdialog.h"
#include "lc_bricklink.h"
lcHTMLExportOptions::lcHTMLExportOptions(const Project* Project)
{
QString FileName = Project->GetFileName();
if (!FileName.isEmpty())
PathName = QFileInfo(FileName).canonicalPath();
int ImageOptions = lcGetProfileInt(LC_PROFILE_HTML_IMAGE_OPTIONS);
int HTMLOptions = lcGetProfileInt(LC_PROFILE_HTML_OPTIONS);
TransparentImages = (ImageOptions & LC_IMAGE_TRANSPARENT) != 0;
SubModels = (HTMLOptions & (LC_HTML_SUBMODELS)) != 0;
CurrentOnly = (HTMLOptions & LC_HTML_CURRENT_ONLY) != 0;
SinglePage = (HTMLOptions & LC_HTML_SINGLEPAGE) != 0;
IndexPage = (HTMLOptions & LC_HTML_INDEX) != 0;
StepImagesWidth = lcGetProfileInt(LC_PROFILE_HTML_IMAGE_WIDTH);
StepImagesHeight = lcGetProfileInt(LC_PROFILE_HTML_IMAGE_HEIGHT);
PartsListStep = (HTMLOptions & LC_HTML_LISTSTEP) != 0;
PartsListEnd = (HTMLOptions & LC_HTML_LISTEND) != 0;
}
void lcHTMLExportOptions::SaveDefaults()
{
int HTMLOptions = 0;
if (SubModels)
HTMLOptions |= LC_HTML_SUBMODELS;
if (CurrentOnly)
HTMLOptions |= LC_HTML_CURRENT_ONLY;
if (SinglePage)
HTMLOptions |= LC_HTML_SINGLEPAGE;
if (IndexPage)
HTMLOptions |= LC_HTML_INDEX;
if (PartsListStep)
HTMLOptions |= LC_HTML_LISTSTEP;
if (PartsListEnd)
HTMLOptions |= LC_HTML_LISTEND;
lcSetProfileInt(LC_PROFILE_HTML_IMAGE_OPTIONS, TransparentImages ? LC_IMAGE_TRANSPARENT : 0);
lcSetProfileInt(LC_PROFILE_HTML_OPTIONS, HTMLOptions);
lcSetProfileInt(LC_PROFILE_HTML_IMAGE_WIDTH, StepImagesWidth);
lcSetProfileInt(LC_PROFILE_HTML_IMAGE_HEIGHT, StepImagesHeight);
}
Project::Project(bool IsPreview)
: mIsPreview(IsPreview)
{
mModified = false;
mActiveModel = new lcModel(tr(mIsPreview ? "Preview.ldr" : "New Model.ldr"), this, mIsPreview);
mActiveModel->CreatePieceInfo(this);
mActiveModel->SetSaved();
mModels.emplace_back(mActiveModel);
if (!mIsPreview && gMainWindow)
QObject::connect(&mFileWatcher, SIGNAL(fileChanged(const QString&)), gMainWindow, SLOT(ProjectFileChanged(const QString&)));
}
Project::~Project()
{
}
lcModel* Project::GetModel(const QString& FileName) const
{
for (const std::unique_ptr<lcModel>& Model : mModels)
if (Model->GetProperties().mFileName == FileName)
return Model.get();
return nullptr;
}
bool Project::IsModified() const
{
if (mModified)
return true;
for (const std::unique_ptr<lcModel>& Model : mModels)
if (Model->IsModified())
return true;
return false;
}
QString Project::GetTitle() const
{
if (!mFileName.isEmpty())
return QFileInfo(mFileName).fileName();
return mModels.size() == 1 ? tr("New Model.ldr") : tr("New Model.mpd");
}
QString Project::GetImageFileName(bool AllowCurrentFolder) const
{
QString FileName = GetFileName();
if (!FileName.isEmpty())
{
QString Extension = QFileInfo(FileName).suffix();
if (!Extension.isEmpty())
FileName = FileName.left(FileName.length() - Extension.length() - 1);
}
else
{
if (AllowCurrentFolder)
FileName = QLatin1String("image");
else
{
QStringList CachePathList = QStandardPaths::standardLocations(QStandardPaths::DocumentsLocation);
FileName = CachePathList.first();
FileName = QDir(FileName).absoluteFilePath(QLatin1String("image"));
}
}
return QDir::toNativeSeparators(FileName) + lcGetProfileString(LC_PROFILE_IMAGE_EXTENSION);
}
void Project::SetActiveModel(lcModel* ActiveModel)
{
if (!ActiveModel)
return;
for (const std::unique_ptr<lcModel> &Model : mModels)
Model->SetActive(Model.get() == ActiveModel);
std::vector<lcModel*> UpdatedModels;
UpdatedModels.reserve(mModels.size());
for (const std::unique_ptr<lcModel> &Model : mModels)
Model->UpdatePieceInfo(UpdatedModels);
mActiveModel = ActiveModel;
if (!mIsPreview && gMainWindow)
{
gMainWindow->SetCurrentModelTab(mActiveModel);
mActiveModel->UpdateInterface();
}
}
void Project::SetActiveModel(int ModelIndex)
{
if (ModelIndex < 0 || ModelIndex >= static_cast<int>(mModels.size()))
return;
SetActiveModel(mModels[ModelIndex].get());
}
void Project::SetActiveModel(const QString& FileName)
{
for (const std::unique_ptr<lcModel>& Model : mModels)
{
if (FileName.compare(Model->GetFileName(), Qt::CaseInsensitive) == 0)
{
SetActiveModel(Model.get());
return;
}
}
}
QString Project::GetNewModelName(QWidget* ParentWidget, const QString& DialogTitle, const QString& CurrentName, const QStringList& ExistingModels) const
{
QString Name = CurrentName;
if (Name.isEmpty())
{
const QString Prefix = tr("Submodel #");
int Max = 0;
for (int ModelIdx = 0; ModelIdx < ExistingModels.size(); ModelIdx++)
{
const QString& ExistingName = ExistingModels[ModelIdx];
if (ExistingName.startsWith(Prefix))
{
QString NumberString = ExistingName.mid(Prefix.length());
QTextStream Stream(&NumberString);
int Number;
Stream >> Number;
Max = qMax(Max, Number);
}
}
Name = Prefix + QString::number(Max + 1) + ".ldr";
}
for (;;)
{
bool Ok = false;
Name = QInputDialog::getText(ParentWidget, DialogTitle, tr("Submodel Name:"), QLineEdit::Normal, Name, &Ok);
if (!Ok)
return QString();
if (Name.isEmpty())
{
QMessageBox::information(ParentWidget, tr("Empty Name"), tr("The submodel name cannot be empty."));
continue;
}
bool ExtensionValid = false;
if (Name.length() < 5)
ExtensionValid = false;
else
{
QString Extension = Name.right(4);
if (Extension.compare(".dat", Qt::CaseInsensitive) == 0 || Extension.compare(".ldr", Qt::CaseInsensitive) == 0 || Extension.compare(".mpd", Qt::CaseInsensitive) == 0)
ExtensionValid = true;
}
if (!ExtensionValid)
Name += ".ldr";
if (ExistingModels.contains(Name, Qt::CaseInsensitive) && Name != CurrentName)
{
QMessageBox::information(ParentWidget, tr("Duplicate Submodel"), tr("A submodel named '%1' already exists, please enter a unique name.").arg(Name));
continue;
}
break;
}
return Name;
}
lcModel* Project::CreateNewModel(bool ShowModel)
{
QStringList ModelNames;
for (const std::unique_ptr<lcModel> &Model : mModels)
ModelNames.append(Model->GetProperties().mFileName);
QString Name = GetNewModelName(gMainWindow, tr("New Submodel"), QString(), ModelNames);
if (Name.isEmpty())
return nullptr;
mModified = true;
lcModel* Model = new lcModel(Name, this, false);
Model->CreatePieceInfo(this);
Model->SetSaved();
mModels.emplace_back(Model);
if (ShowModel)
{
SetActiveModel(mModels.back().get());
lcView* ActiveView = gMainWindow ? gMainWindow->GetActiveView() : nullptr;
if (ActiveView)
ActiveView->GetCamera()->SetViewpoint(lcViewpoint::Home);
gMainWindow->UpdateTitle();
}
else
SetActiveModel(mActiveModel);
return Model;
}
void Project::ShowModelListDialog()
{
lcModelListDialog Dialog(gMainWindow, mModels);
if (Dialog.exec() != QDialog::Accepted)
return;
std::vector<std::unique_ptr<lcModel>> NewModels;
std::vector<lcModelListDialogEntry> Results = Dialog.GetResults();
for (const lcModelListDialogEntry& Entry : Results)
{
lcModel* Model = Entry.ExistingModel;
if (!Model)
{
const lcModel* Source = Entry.DuplicateSource;
if (!Source)
{
Model = new lcModel(Entry.Name, this, false);
}
else
{
Model = new lcModel(Source->GetProperties().mFileName, this, false);
QByteArray File;
QTextStream SaveStream(&File);
Source->SaveLDraw(SaveStream, false, 0);
SaveStream.flush();
QBuffer Buffer(&File);
Buffer.open(QIODevice::ReadOnly);
Model->LoadLDraw(Buffer, this);
Model->SetFileName(Entry.Name);
Model->CreatePieceInfo(this);
}
Model->CreatePieceInfo(this);
Model->SetSaved();
mModified = true;
}
else if (Model->GetProperties().mFileName != Entry.Name)
{
Model->SetFileName(Entry.Name);
lcGetPiecesLibrary()->RenamePiece(Model->GetPieceInfo(), Entry.Name.toLatin1().constData());
for (const std::unique_ptr<lcModel> &CheckModel : mModels)
CheckModel->RenamePiece(Model->GetPieceInfo());
mModified = true;
}
NewModels.emplace_back(Model);
}
for (std::unique_ptr<lcModel>& Model : mModels)
{
if (std::find(NewModels.begin(), NewModels.end(), Model) != NewModels.end())
Model.release();
else
mModified = true;
}
mModels = std::move(NewModels);
gMainWindow->UpdateTitle();
gMainWindow->UpdateModels();
int ModelIndex = Dialog.GetActiveModelIndex();
if (ModelIndex != -1)
SetActiveModel(ModelIndex);
}
void Project::SetFileName(const QString& FileName)
{
if (mFileName == FileName)
return;
if (!mIsPreview && !mFileName.isEmpty())
mFileWatcher.removePath(mFileName);
if (!mIsPreview && !FileName.isEmpty())
mFileWatcher.addPath(FileName);
mFileName = FileName;
}
bool Project::Load(const QString& FileName, bool ShowErrors)
{
QWidget *parent = nullptr;
if (!mIsPreview)
parent = gMainWindow;
QFile File(FileName);
if (!File.open(QIODevice::ReadOnly))
{
if (ShowErrors)
QMessageBox::warning(parent, tr("Error"), tr("Error reading file '%1':\n%2").arg(FileName, File.errorString()));
return false;
}
mModels.clear();
SetFileName(FileName);
QFileInfo FileInfo(FileName);
QString Extension = FileInfo.suffix().toLower();
QByteArray FileData = File.readAll();
bool LoadDAT;
if (Extension == QLatin1String("dat") || Extension == QLatin1String("ldr") || Extension == QLatin1String("mpd"))
LoadDAT = true;
else if (Extension == QLatin1String("lcd") || Extension == QLatin1String("leocad"))
LoadDAT = false;
else
LoadDAT = FileData.size() > 7 && memcmp(FileData, "LeoCAD ", 7);
if (LoadDAT)
{
QBuffer Buffer(&FileData);
Buffer.open(QIODevice::ReadOnly);
std::vector<std::pair<int, lcModel*>> Models;
while (!Buffer.atEnd())
{
lcModel* Model = new lcModel(QString(), this, mIsPreview);
int Pos = Model->SplitMPD(Buffer);
if (Models.empty() || !Model->GetFileName().isEmpty())
{
auto ModelCompare = [Model](const std::pair<int, lcModel*>& ModelIt)
{
return ModelIt.second->GetFileName().compare(Model->GetFileName(), Qt::CaseInsensitive) == 0;
};
if (std::find_if(Models.begin(), Models.end(), ModelCompare) == Models.end())
{
mModels.emplace_back(Model);
Models.emplace_back(std::make_pair(Pos, Model));
Model->CreatePieceInfo(this);
}
else
delete Model;
}
else
delete Model;
}
for (size_t ModelIdx = 0; ModelIdx < Models.size(); ModelIdx++)
{
Buffer.seek(Models[ModelIdx].first);
lcModel* Model = Models[ModelIdx].second;
Model->LoadLDraw(Buffer, this);
Model->SetSaved();
}
}
else
{
lcMemFile MemFile;
MemFile.WriteBuffer(FileData.constData(), FileData.size());
MemFile.Seek(0, SEEK_SET);
lcModel* Model = new lcModel(QString(), this, mIsPreview);
if (Model->LoadBinary(&MemFile))
{
mModels.emplace_back(Model);
Model->CreatePieceInfo(this);
Model->SetSaved();
}
else
delete Model;
}
if (mModels.empty())
{
if (ShowErrors)
QMessageBox::warning(parent, tr("Error"), tr("Error loading file '%1':\nFile format is not recognized.").arg(FileName));
return false;
}
if (mModels.size() == 1)
{
lcModel* Model = mModels.front().get();
if (Model->GetProperties().mFileName.isEmpty())
{
Model->SetFileName(FileInfo.fileName());
lcGetPiecesLibrary()->RenamePiece(Model->GetPieceInfo(), FileInfo.fileName().toLatin1());
}
}
std::vector<lcModel*> UpdatedModels;
UpdatedModels.reserve(mModels.size());
for (const std::unique_ptr<lcModel>& Model : mModels)
{
Model->UpdateMesh();
Model->UpdatePieceInfo(UpdatedModels);
}
mModified = false;
return true;
}
bool Project::Save(const QString& FileName)
{
SetFileName(QString());
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return false;
}
QTextStream Stream(&File);
bool Success = Save(Stream);
File.close();
if (Success)
{
SetFileName(FileName);
mModified = false;
}
return Success;
}
bool Project::Save(QTextStream& Stream)
{
bool MPD = mModels.size() > 1;
for (const std::unique_ptr<lcModel>& Model : mModels)
{
if (MPD)
Stream << QLatin1String("0 FILE ") << Model->GetProperties().mFileName << QLatin1String("\r\n");
Model->SaveLDraw(Stream, false, 0);
Model->SetSaved();
if (MPD)
Stream << QLatin1String("0 NOFILE\r\n");
}
return true;
}
void Project::Merge(Project* Other)
{
for (std::unique_ptr<lcModel>& Model : Other->mModels)
{
QString FileName = Model->GetProperties().mFileName;
for (;;)
{
bool Duplicate = false;
for (const std::unique_ptr<lcModel>& ExistingModel : mModels)
{
if (ExistingModel->GetProperties().mFileName == FileName)
{
Duplicate = true;
break;
}
}
if (!Duplicate)
break;
FileName = tr("Merged ") + FileName;
Model->SetFileName(FileName);
}
mModels.emplace_back(std::move(Model));
}
Other->mModels.clear();
mModified = true;
}
bool Project::ImportLDD(const QString& FileName)
{
lcZipFile ZipFile;
if (!ZipFile.OpenRead(FileName))
return false;
lcMemFile XMLFile;
if (!ZipFile.ExtractFile("IMAGE100.LXFML", XMLFile))
return false;
QString ModelName = QFileInfo(FileName).completeBaseName();
std::unique_ptr<lcModel> NewModel(new lcModel(ModelName, this, false));
if (!NewModel->LoadLDD(QString::fromUtf8((const char*)XMLFile.mBuffer)))
return false;
NewModel->SetSaved();
mModels.clear();
mModels.emplace_back(std::move(NewModel));
for (const std::unique_ptr<lcModel>& Model : mModels)
Model->CreatePieceInfo(this);
std::vector<lcModel*> UpdatedModels;
UpdatedModels.reserve(mModels.size());
for (const std::unique_ptr<lcModel>& Model : mModels)
Model->UpdatePieceInfo(UpdatedModels);
mModified = false;
return true;
}
bool Project::ImportInventory(const QByteArray& Inventory, const QString& Name, const QString& Description)
{
if (Inventory.isEmpty())
return false;
std::unique_ptr<lcModel> NewModel(new lcModel(Name, this, false));
if (!NewModel->LoadInventory(Inventory))
return false;
NewModel->SetSaved();
NewModel->SetDescription(Description);
mModels.clear();
mModels.emplace_back(std::move(NewModel));
for (const std::unique_ptr<lcModel>& Model : mModels)
Model->CreatePieceInfo(this);
std::vector<lcModel*> UpdatedModels;
UpdatedModels.reserve(mModels.size());
for (const std::unique_ptr<lcModel>& Model : mModels)
Model->UpdatePieceInfo(UpdatedModels);
mModified = false;
return true;
}
std::vector<lcModelPartsEntry> Project::GetModelParts()
{
std::vector<lcModelPartsEntry> ModelParts;
if (mModels.empty())
return ModelParts;
for (const std::unique_ptr<lcModel>& Model : mModels)
Model->CalculateStep(LC_STEP_MAX);
mModels[0]->GetModelParts(lcMatrix44Identity(), gDefaultColor, ModelParts);
SetActiveModel(mActiveModel);
return ModelParts;
}
bool Project::ExportCurrentStep(const QString& FileName)
{
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return false;
}
QStringList Models;
Models.append(lcGetActiveModel()->GetProperties().mFileName);
std::function<void(const QString&)> ParseStepModel = [&](const QString& ModelName)
{
Models.append(ModelName);
for (const std::unique_ptr<lcModel>& Model : mModels)
{
if (Model->GetProperties().mFileName == ModelName)
{
lcPartsList ModelParts;
Model->GetPartsList(gDefaultColor, false, true, ModelParts);
for (const auto& PartIt : ModelParts)
{
const PieceInfo* PartInfo = PartIt.first;
if (PartInfo->IsModel())
{
ParseStepModel(PartInfo->mFileName);
}
else
continue;
}
break;
}
}
};
const lcStep CurrentStep = lcGetActiveModel()->GetCurrentStep();
bool MPD = mModels.size() > 1;
if (MPD)
{
lcPartsList StepParts;
lcGetActiveModel()->GetPartsListForStep(CurrentStep, gDefaultColor, StepParts, true);
if (!StepParts.empty())
{
for (const auto& PartIt : StepParts)
{
const PieceInfo *PartInfo = PartIt.first;
if (PartInfo->IsModel())
{
ParseStepModel(PartInfo->mFileName);
}
else
continue;
}
}
}
QTextStream Stream(&File);
for (const std::unique_ptr<lcModel>& Model : mModels)
{
if (!Models.contains(Model->GetProperties().mFileName))
continue;
const lcStep ModelStep = Model->GetCurrentStep();
if (!Model->IsActive())
Model->SetTemporaryStep(CurrentStep);
if (MPD)
Stream << QLatin1String("0 FILE ") << Model->GetProperties().mFileName << QLatin1String("\r\n");
Model->SaveLDraw(Stream, false, CurrentStep);
if (MPD)
Stream << QLatin1String("0 NOFILE\r\n");
if (!Model->IsActive())
{
Model->SetTemporaryStep(ModelStep);
Model->CalculateStep(LC_STEP_MAX);
}
}
File.close();
lcSetProfileString(LC_PROFILE_PROJECTS_PATH, QFileInfo(FileName).absolutePath());
return true;
}
bool Project::ExportModel(const QString& FileName, lcModel* Model) const
{
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return false;
}
QTextStream Stream(&File);
Model->SaveLDraw(Stream, false, 0);
return true;
}
QString Project::GetExportFileName(const QString& FileName, const QString& DefaultExtension, const QString& DialogTitle, const QString& DialogFilter) const
{
if (!FileName.isEmpty())
return FileName;
QString SaveFileName;
if (!mFileName.isEmpty())
SaveFileName = mFileName;
else
SaveFileName = GetTitle();
QString Extension = QFileInfo(SaveFileName).suffix().toLower();
if (Extension.isEmpty())
SaveFileName += "." + DefaultExtension;
else if (Extension != DefaultExtension && SaveFileName.length() > 4)
{
SaveFileName = SaveFileName.left(SaveFileName.length() - Extension.length() - 1);
SaveFileName += "." + DefaultExtension;
}
return QFileDialog::getSaveFileName(gMainWindow, DialogTitle, SaveFileName, DialogFilter);
}
bool Project::Export3DStudio(const QString& FileName)
{
std::vector<lcModelPartsEntry> ModelParts = GetModelParts();
if (ModelParts.empty())
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Nothing to export."));
return false;
}
QString SaveFileName = GetExportFileName(FileName, "3ds", tr("Export 3D Studio"), tr("3DS Files (*.3ds);;All Files (*.*)"));
if (SaveFileName.isEmpty())
return false;
lcDiskFile File(SaveFileName);
if (!File.Open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Could not open file '%1' for writing.").arg(SaveFileName));
return false;
}
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 (size_t ColorIdx = 0; ColorIdx < gColorList.size(); ColorIdx++)
{
lcColor* Color = &gColorList[ColorIdx];
sprintf(MaterialName, "Material%03d", (int)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((quint8)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((quint8)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((quint8)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((quint8)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((quint8)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((quint8)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);
}
const lcModelProperties& Properties = mModels[0]->GetProperties();
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(Properties.mAmbientColor, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(Properties.mAmbientColor, 3);
File.WriteU16(0x1200); // CHK_SOLID_BGND
File.WriteU32(42);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
const lcPreferences& Preferences = lcGetPreferences();
lcVector3 BackgroundSolidColor = lcVector3FromColor(Preferences.mBackgroundSolidColor);
File.WriteFloats(BackgroundSolidColor, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(BackgroundSolidColor, 3);
File.WriteU16(0x1300); // CHK_V_GRADIENT
File.WriteU32(118);
File.WriteFloat(1.0f);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
const lcVector3 BackgroundGradientColor1 = lcVector3FromColor(Preferences.mBackgroundGradientColorTop);
const lcVector3 BackgroundGradientColor2 = lcVector3FromColor(Preferences.mBackgroundGradientColorBottom);
File.WriteFloats(BackgroundGradientColor1, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(BackgroundGradientColor1, 3);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats((BackgroundGradientColor1 + BackgroundGradientColor2) / 2.0f, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats((BackgroundGradientColor1 + BackgroundGradientColor2) / 2.0f, 3);
File.WriteU16(0x0010); // CHK_COLOR_F
File.WriteU32(18);
File.WriteFloats(BackgroundGradientColor2, 3);
File.WriteU16(0x0013); // CHK_LIN_COLOR_F
File.WriteU32(18);
File.WriteFloats(BackgroundGradientColor2, 3);
if (Preferences.mBackgroundGradient)
{
File.WriteU16(0x1301); // LIB3DS_USE_V_GRADIENT
File.WriteU32(6);
}
else
{
File.WriteU16(0x1201); // LIB3DS_USE_SOLID_BGND
File.WriteU32(6);
}
int NumPieces = 0;
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (!Mesh || 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);
lcVertex* Verts = (lcVertex*)Mesh->mVertexData;
const lcMatrix44& ModelWorld = ModelPart.WorldMatrix;
for (int VertexIdx = 0; VertexIdx < Mesh->mNumVertices; VertexIdx++)
{
lcVector3 Pos = lcMul31(Verts[VertexIdx].Position, 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->mLods[LC_MESH_LOD_HIGH].NumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mLods[LC_MESH_LOD_HIGH].Sections[SectionIdx];
if (Section->PrimitiveType != LC_MESH_TRIANGLES && Section->PrimitiveType != LC_MESH_TEXTURED_TRIANGLES)
continue;
NumTriangles += Section->NumIndices / 3;
}
File.WriteU16(NumTriangles);
for (int SectionIdx = 0; SectionIdx < Mesh->mLods[LC_MESH_LOD_HIGH].NumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mLods[LC_MESH_LOD_HIGH].Sections[SectionIdx];
if (Section->PrimitiveType != LC_MESH_TRIANGLES && Section->PrimitiveType != LC_MESH_TEXTURED_TRIANGLES)
continue;
quint16* Indices = (quint16*)Mesh->mIndexData + Section->IndexOffset / sizeof(quint16);
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->mLods[LC_MESH_LOD_HIGH].NumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mLods[LC_MESH_LOD_HIGH].Sections[SectionIdx];
if (Section->PrimitiveType != LC_MESH_TRIANGLES && Section->PrimitiveType != LC_MESH_TEXTURED_TRIANGLES)
continue;
int MaterialIndex = Section->ColorIndex == gDefaultColor ? ModelPart.ColorIndex : 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);
return true;
}
void Project::ExportBrickLink()
{
lcPartsList PartsList;
if (!mModels.empty())
mModels[0]->GetPartsList(gDefaultColor, true, false, PartsList);
if (PartsList.empty())
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Nothing to export."));
return;
}
QString SaveFileName = GetExportFileName(QString(), "xml", tr("Export BrickLink"), tr("XML Files (*.xml);;All Files (*.*)"));
if (SaveFileName.isEmpty())
return;
lcExportBrickLink(SaveFileName, PartsList);
}
bool Project::ExportCOLLADA(const QString& FileName)
{
std::vector<lcModelPartsEntry> ModelParts = GetModelParts();
if (ModelParts.empty())
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Nothing to export."));
return false;
}
QString SaveFileName = GetExportFileName(FileName, "dae", tr("Export COLLADA"), tr("COLLADA Files (*.dae);;All Files (*.*)"));
if (SaveFileName.isEmpty())
return false;
QFile File(SaveFileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Could not open file '%1' for writing.").arg(SaveFileName));
return false;
}
QTextStream Stream(&File);
Stream << "<?xml version=\"1.0\" encoding=\"utf-8\"?>\r\n";
Stream << "<COLLADA xmlns=\"http://www.collada.org/2005/11/COLLADASchema\" version=\"1.4.1\">\r\n";
Stream << "<asset>\r\n";
Stream << "\t<created>" << QDateTime::currentDateTime().toString(Qt::ISODate) << "</created>\r\n";
Stream << "\t<modified>" << QDateTime::currentDateTime().toString(Qt::ISODate) << "</modified>\r\n";
Stream << "<unit name=\"LeoCAD\" meter=\"0.0004\" />\r\n";
Stream << "\t<up_axis>Z_UP</up_axis>\r\n";
Stream << "</asset>\r\n";
Stream << "<library_effects>\r\n";
for (const lcColor& Color : gColorList)
{
const char* ColorName = Color.SafeName;
Stream << QString("\t<effect id=\"%1-phong\">\r\n").arg(ColorName);
Stream << "\t\t<profile_COMMON>\r\n";
Stream << "\t\t\t<technique sid=\"phong1\">\r\n";
Stream << "\t\t\t\t<phong>\r\n";
Stream << "\t\t\t\t\t<emission>\r\n";
Stream << "\t\t\t\t\t\t<color>0.0 0.0 0.0 0.0</color>\r\n";
Stream << "\t\t\t\t\t</emission>\r\n";
Stream << "\t\t\t\t\t<ambient>\r\n";
Stream << QString("\t\t\t\t\t\t<color>%1 %2 %3 1.0</color>\r\n").arg(QString::number(Color.Value[0]), QString::number(Color.Value[1]), QString::number(Color.Value[2]));
Stream << "\t\t\t\t\t</ambient>\r\n";
Stream << "\t\t\t\t\t<diffuse>\r\n";
Stream << QString("\t\t\t\t\t\t<color>%1 %2 %3 1.0</color>\r\n").arg(QString::number(Color.Value[0]), QString::number(Color.Value[1]), QString::number(Color.Value[2]));
Stream << "\t\t\t\t\t</diffuse>\r\n";
Stream << "\t\t\t\t\t<specular>\r\n";
Stream << "\t\t\t\t\t\t<color>0.9 0.9 0.9 1.0</color>\r\n";
Stream << "\t\t\t\t\t</specular>\r\n";
Stream << "\t\t\t\t\t<shininess>\r\n";
Stream << "\t\t\t\t\t\t<float>20.0</float>\r\n";
Stream << "\t\t\t\t\t</shininess>\r\n";
Stream << "\t\t\t\t\t<transparent>\r\n";
Stream << QString("\t\t\t\t\t\t<color>%1 %2 %3 %4</color>\r\n").arg(QString::number(Color.Value[0]), QString::number(Color.Value[1]), QString::number(Color.Value[2]), QString::number(Color.Value[3]));
Stream << "\t\t\t\t\t</transparent>\r\n";
Stream << "\t\t\t\t\t<transparency>\r\n";
Stream << "\t\t\t\t\t\t<float>1.0</float>\r\n";
Stream << "\t\t\t\t\t</transparency>\r\n";
Stream << "\t\t\t\t</phong>\r\n";
Stream << "\t\t\t</technique>\r\n";
Stream << "\t\t</profile_COMMON>\r\n";
Stream << "\t</effect>\r\n";
}
Stream << "</library_effects>\r\n";
Stream << "<library_materials>\r\n";
for (const lcColor& Color : gColorList)
{
const char* ColorName = Color.SafeName;
Stream << QString("\t<material id=\"%1-material\">\r\n").arg(ColorName);
Stream << QString("\t\t<instance_effect url=\"#%1-phong\" />\r\n").arg(ColorName);
Stream << "\t</material>\r\n";
}
Stream << "</library_materials>\r\n";
Stream << "<library_geometries>\r\n";
std::set<lcMesh*> AddedMeshes;
auto GetMeshID = [](const lcModelPartsEntry& ModelPart)
{
const PieceInfo* Info = ModelPart.Info;
QString ID = QString(Info->mFileName).replace('.', '_');
if (ModelPart.Mesh)
ID += "_" + QString::number((quintptr)ModelPart.Mesh, 16);
return ID;
};
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (!AddedMeshes.insert(Mesh).second)
continue;
QString ID = GetMeshID(ModelPart);
if (!Mesh)
continue;
Stream << QString("\t<geometry id=\"%1\">\r\n").arg(ID);
Stream << "\t\t<mesh>\r\n";
Stream << QString("\t\t\t<source id=\"%1-pos\">\r\n").arg(ID);
Stream << QString("\t\t\t\t<float_array id=\"%1-pos-array\" count=\"%2\">\r\n").arg(ID, QString::number(Mesh->mNumVertices));
lcVertex* Verts = (lcVertex*)Mesh->mVertexData;
for (int VertexIdx = 0; VertexIdx < Mesh->mNumVertices; VertexIdx++)
{
lcVector3& Position = Verts[VertexIdx].Position;
Stream << QString("\t\t\t\t\t%1 %2 %3\r\n").arg(QString::number(Position.x), QString::number(Position.y), QString::number(Position.z));
}
Stream << "\t\t\t\t</float_array>\r\n";
Stream << "\t\t\t\t<technique_common>\r\n";
Stream << QString("\t\t\t\t\t<accessor source=\"#%1-pos-array\" count=\"%2\" stride=\"3\">\r\n").arg(ID, QString::number(Mesh->mNumVertices));
Stream << "\t\t\t\t\t\t<param name=\"X\" type=\"float\" />\r\n";
Stream << "\t\t\t\t\t\t<param name=\"Y\" type=\"float\" />\r\n";
Stream << "\t\t\t\t\t\t<param name=\"Z\" type=\"float\" />\r\n";
Stream << "\t\t\t\t\t</accessor>\r\n";
Stream << "\t\t\t\t</technique_common>\r\n";
Stream << "\t\t\t</source>\r\n";
Stream << QString("\t\t\t<source id=\"%1-normal\">\r\n").arg(ID);
Stream << QString("\t\t\t\t<float_array id=\"%1-normal-array\" count=\"%2\">\r\n").arg(ID, QString::number(Mesh->mNumVertices));
for (int VertexIdx = 0; VertexIdx < Mesh->mNumVertices; VertexIdx++)
{
lcVector3 Normal = lcUnpackNormal(Verts[VertexIdx].Normal);
Stream << QString("\t\t\t\t\t%1 %2 %3\r\n").arg(QString::number(Normal.x), QString::number(Normal.y), QString::number(Normal.z));
}
Stream << "\t\t\t\t</float_array>\r\n";
Stream << "\t\t\t\t<technique_common>\r\n";
Stream << QString("\t\t\t\t\t<accessor source=\"#%1-normal-array\" count=\"%2\" stride=\"3\">\r\n").arg(ID, QString::number(Mesh->mNumVertices));
Stream << "\t\t\t\t\t\t<param name=\"X\" type=\"float\" />\r\n";
Stream << "\t\t\t\t\t\t<param name=\"Y\" type=\"float\" />\r\n";
Stream << "\t\t\t\t\t\t<param name=\"Z\" type=\"float\" />\r\n";
Stream << "\t\t\t\t\t</accessor>\r\n";
Stream << "\t\t\t\t</technique_common>\r\n";
Stream << "\t\t\t</source>\r\n";
Stream << QString("\t\t\t<vertices id=\"%1-vertices\">\r\n").arg(ID);
Stream << QString("\t\t\t\t<input semantic=\"POSITION\" source=\"#%1-pos\"/>\r\n").arg(ID);
Stream << "\t\t\t</vertices>\r\n";
for (int SectionIdx = 0; SectionIdx < Mesh->mLods[LC_MESH_LOD_HIGH].NumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mLods[LC_MESH_LOD_HIGH].Sections[SectionIdx];
if (Section->PrimitiveType != LC_MESH_TRIANGLES && Section->PrimitiveType != LC_MESH_TEXTURED_TRIANGLES)
continue;
const char* ColorName = gColorList[Section->ColorIndex].SafeName;
if (Mesh->mIndexType == GL_UNSIGNED_SHORT)
{
quint16* Indices = (quint16*)Mesh->mIndexData + Section->IndexOffset / sizeof(quint16);
Stream << QString("\t\t\t<triangles count=\"%1\" material=\"%2\">\r\n").arg(QString::number(Section->NumIndices / 3), ColorName);
Stream << QString("\t\t\t<input semantic=\"VERTEX\" source=\"#%1-vertices\" offset=\"0\" />\r\n").arg(ID);
Stream << QString("\t\t\t<input semantic=\"NORMAL\" source=\"#%1-normal\" offset=\"0\" />\r\n").arg(ID);
Stream << "\t\t\t<p>\r\n";
for (int Idx = 0; Idx < Section->NumIndices; Idx += 3)
{
QString idx1 = QString::number(Indices[Idx + 0]);
QString idx2 = QString::number(Indices[Idx + 1]);
QString idx3 = QString::number(Indices[Idx + 2]);
Stream << QString("\t\t\t\t %1 %2 %3\r\n").arg(idx1, idx2, idx3);
}
}
else
{
quint32* Indices = (quint32*)Mesh->mIndexData + Section->IndexOffset / sizeof(quint32);
Stream << QString("\t\t\t<triangles count=\"%1\" material=\"%2\">\r\n").arg(QString::number(Section->NumIndices / 3), ColorName);
Stream << QString("\t\t\t<input semantic=\"VERTEX\" source=\"#%1-vertices\" offset=\"0\" />\r\n").arg(ID);
Stream << QString("\t\t\t<input semantic=\"NORMAL\" source=\"#%1-normal\" offset=\"0\" />\r\n").arg(ID);
Stream << "\t\t\t<p>\r\n";
for (int Idx = 0; Idx < Section->NumIndices; Idx += 3)
{
QString idx1 = QString::number(Indices[Idx + 0]);
QString idx2 = QString::number(Indices[Idx + 1]);
QString idx3 = QString::number(Indices[Idx + 2]);
Stream << QString("\t\t\t\t %1 %2 %3\r\n").arg(idx1, idx2, idx3);
}
}
Stream << "\t\t\t\t</p>\r\n";
Stream << "\t\t\t</triangles>\r\n";
}
Stream << "\t\t</mesh>\r\n";
Stream << "\t</geometry>\r\n";
}
Stream << "</library_geometries>\r\n";
Stream << "<library_visual_scenes>\r\n";
Stream << "\t<visual_scene id=\"DefaultScene\">\r\n";
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (!Mesh)
continue;
QString ID = GetMeshID(ModelPart);
Stream << "\t\t<node>\r\n";
Stream << "\t\t\t<matrix>\r\n";
const lcMatrix44& Matrix = ModelPart.WorldMatrix;
Stream << QString("\t\t\t\t%1 %2 %3 %4\r\n").arg(QString::number(Matrix[0][0]), QString::number(Matrix[1][0]), QString::number(Matrix[2][0]), QString::number(Matrix[3][0]));
Stream << QString("\t\t\t\t%1 %2 %3 %4\r\n").arg(QString::number(Matrix[0][1]), QString::number(Matrix[1][1]), QString::number(Matrix[2][1]), QString::number(Matrix[3][1]));
Stream << QString("\t\t\t\t%1 %2 %3 %4\r\n").arg(QString::number(Matrix[0][2]), QString::number(Matrix[1][2]), QString::number(Matrix[2][2]), QString::number(Matrix[3][2]));
Stream << QString("\t\t\t\t%1 %2 %3 %4\r\n").arg(QString::number(Matrix[0][3]), QString::number(Matrix[1][3]), QString::number(Matrix[2][3]), QString::number(Matrix[3][3]));
Stream << "\t\t\t</matrix>\r\n";
Stream << QString("\t\t\t<instance_geometry url=\"#%1\">\r\n").arg(ID);
Stream << "\t\t\t\t<bind_material>\r\n";
Stream << "\t\t\t\t\t<technique_common>\r\n";
for (int SectionIdx = 0; SectionIdx < Mesh->mLods[LC_MESH_LOD_HIGH].NumSections; SectionIdx++)
{
lcMeshSection* Section = &Mesh->mLods[LC_MESH_LOD_HIGH].Sections[SectionIdx];
if (Section->PrimitiveType != LC_MESH_TRIANGLES && Section->PrimitiveType != LC_MESH_TEXTURED_TRIANGLES)
continue;
const char* SourceColorName = gColorList[Section->ColorIndex].SafeName;
const char* TargetColorName;
if (Section->ColorIndex == gDefaultColor)
TargetColorName = gColorList[ModelPart.ColorIndex].SafeName;
else
TargetColorName = gColorList[Section->ColorIndex].SafeName;
Stream << QString("\t\t\t\t\t\t<instance_material symbol=\"%1\" target=\"#%2-material\"/>\r\n").arg(SourceColorName, TargetColorName);
}
Stream << "\t\t\t\t\t</technique_common>\r\n";
Stream << "\t\t\t\t</bind_material>\r\n";
Stream << "\t\t\t</instance_geometry>\r\n";
Stream << "\t\t</node>\r\n";
}
Stream << "\t</visual_scene>\r\n";
Stream << "</library_visual_scenes>\r\n";
Stream << "<scene>\r\n";
Stream << "\t<instance_visual_scene url=\"#DefaultScene\"/>\r\n";
Stream << "</scene>\r\n";
Stream << "</COLLADA>\r\n";
return true;
}
bool Project::ExportCSV(const QString& FileName)
{
lcPartsList PartsList;
if (!mModels.empty())
mModels[0]->GetPartsList(gDefaultColor, true, false, PartsList);
if (PartsList.empty())
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Nothing to export."));
return false;
}
QString SaveFileName = GetExportFileName(FileName, "csv", tr("Export CSV"), tr("CSV Files (*.csv);;All Files (*.*)"));
if (SaveFileName.isEmpty())
return false;
lcDiskFile CSVFile(SaveFileName);
char Line[1024];
if (!CSVFile.Open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Could not open file '%1' for writing.").arg(SaveFileName));
return false;
}
CSVFile.WriteLine("Part Name,Color,Quantity,Part ID,Color Code\n");
for (const auto& PartIt : PartsList)
{
const PieceInfo* Info = PartIt.first;
for (const auto& ColorIt : PartIt.second)
{
std::string Description = Info->m_strDescription;
Description.erase(std::remove(Description.begin(), Description.end(), ','), Description.end());
sprintf(Line, "\"%s\",\"%s\",%d,%s,%d\n", Description.c_str(), gColorList[ColorIt.first].Name, ColorIt.second, Info->mFileName, gColorList[ColorIt.first].Code);
CSVFile.WriteLine(Line);
}
}
return true;
}
lcInstructions* Project::GetInstructions()
{
mInstructions.reset();
mInstructions = std::unique_ptr<lcInstructions>(new lcInstructions(this));
return mInstructions.get();
}
void Project::ExportHTML(const lcHTMLExportOptions& Options)
{
QDir Dir(Options.PathName);
Dir.mkpath(QLatin1String("."));
std::set<lcModel*> Models;
if (Options.CurrentOnly)
Models.insert(mActiveModel);
else if (Options.SubModels)
{
Models.insert(mActiveModel);
mActiveModel->GetSubModels(Models);
}
else
{
for (const std::unique_ptr<lcModel>& Model : mModels)
Models.insert(Model.get());
}
QString ProjectTitle = GetTitle();
auto AddPartsListImage = [&Dir](QTextStream& Stream, lcModel* Model, lcStep Step, const QString& BaseName)
{
QImage Image = Model->GetPartsListImage(1024, Step, LC_RGBA(255, 255, 255, 0), QFont("Arial", 16, QFont::Bold), Qt::black);
if (!Image.isNull())
{
QString ImageName = BaseName + QLatin1String("-parts.png");
QString FileName = QFileInfo(Dir, ImageName).absoluteFilePath();
Image.save(FileName);
Stream << QString::fromLatin1("<p><IMG SRC=\"%1\" /></p><br><br>\r\n").arg(ImageName);
}
};
for (lcModel* Model : Models)
{
QString BaseName = ProjectTitle.left(ProjectTitle.length() - QFileInfo(ProjectTitle).suffix().length() - 1);
lcStep LastStep = Model->GetLastStep();
QString PageTitle;
if (Models.size() > 1)
{
BaseName += '-' + Model->GetProperties().mFileName;
PageTitle = Model->GetProperties().mFileName;
}
else
PageTitle = ProjectTitle;
BaseName.replace('#', '_');
if (Options.SinglePage)
{
QString FileName = QFileInfo(Dir, BaseName + QLatin1String(".html")).absoluteFilePath();
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return;
}
QTextStream Stream(&File);
Stream << QString::fromLatin1("<HTML>\r\n<HEAD>\r\n<TITLE>Instructions for %1</TITLE>\r\n</HEAD>\r\n<BR>\r\n<CENTER>\r\n").arg(PageTitle);
for (lcStep Step = 1; Step <= LastStep; Step++)
{
QString StepString = QString::fromLatin1("%1").arg(Step, 2, 10, QLatin1Char('0'));
Stream << QString::fromLatin1("<p><IMG SRC=\"%1-%2.png\" ALT=\"Step %3\" WIDTH=%4 HEIGHT=%5></p><BR><BR>\r\n").arg(BaseName, StepString, StepString, QString::number(Options.StepImagesWidth), QString::number(Options.StepImagesHeight));
if (Options.PartsListStep)
AddPartsListImage(Stream, Model, Step, QString("%1-%2").arg(BaseName, StepString));
}
if (Options.PartsListEnd)
AddPartsListImage(Stream, Model, 0, BaseName);
Stream << QLatin1String("</CENTER>\r\n<BR><HR><BR><B><I>Created by <A HREF=\"https://www.leocad.org\">LeoCAD</A></I></B><BR></HTML>\r\n");
}
else
{
if (Options.IndexPage)
{
QString FileName = QFileInfo(Dir, BaseName + QLatin1String("-index.html")).absoluteFilePath();
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return;
}
QTextStream Stream(&File);
Stream << QString::fromLatin1("<HTML>\r\n<HEAD>\r\n<TITLE>Instructions for %1</TITLE>\r\n</HEAD>\r\n<BR>\r\n<CENTER>\r\n").arg(PageTitle);
for (lcStep Step = 1; Step <= LastStep; Step++)
Stream << QString::fromLatin1("<A HREF=\"%1-%2.html\">Step %3<BR>\r\n</A>").arg(BaseName, QString("%1").arg(Step, 2, 10, QLatin1Char('0')), QString::number(Step));
if (Options.PartsListEnd)
Stream << QString::fromLatin1("<A HREF=\"%1-pieces.html\">Pieces Used</A><BR>\r\n").arg(BaseName);
Stream << QLatin1String("</CENTER>\r\n<BR><HR><BR><B><I>Created by <A HREF=\"https://www.leocad.org\">LeoCAD</A></B></I><BR></HTML>\r\n");
}
for (lcStep Step = 1; Step <= LastStep; Step++)
{
QString StepString = QString::fromLatin1("%1").arg(Step, 2, 10, QLatin1Char('0'));
QString FileName = QFileInfo(Dir, QString("%1-%2.html").arg(BaseName, StepString)).absoluteFilePath();
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return;
}
QTextStream Stream(&File);
Stream << QString::fromLatin1("<HTML>\r\n<HEAD>\r\n<TITLE>%1 - Step %2</TITLE>\r\n</HEAD>\r\n<BR>\r\n<CENTER>\r\n").arg(PageTitle, QString::number(Step));
Stream << QString::fromLatin1("<IMG SRC=\"%1-%2.png\" ALT=\"Step %3\" WIDTH=%4 HEIGHT=%5><BR><BR>\r\n").arg(BaseName, StepString, StepString, QString::number(Options.StepImagesWidth), QString::number(Options.StepImagesHeight));
if (Options.PartsListStep)
AddPartsListImage(Stream, Model, Step, QString("%1-%2").arg(BaseName, StepString));
Stream << QLatin1String("</CENTER>\r\n<BR><HR><BR>");
if (Step != 1)
Stream << QString::fromLatin1("<A HREF=\"%1-%2.html\">Previous</A> ").arg(BaseName, QString("%1").arg(Step - 1, 2, 10, QLatin1Char('0')));
if (Options.IndexPage)
Stream << QString::fromLatin1("<A HREF=\"%1-index.html\">Index</A> ").arg(BaseName);
if (Step != LastStep)
Stream << QString::fromLatin1("<A HREF=\"%1-%2.html\">Next</A>").arg(BaseName, QString("%1").arg(Step + 1, 2, 10, QLatin1Char('0')));
else if (Options.PartsListEnd)
Stream << QString::fromLatin1("<A HREF=\"%1-pieces.html\">Pieces Used</A>").arg(BaseName);
Stream << QLatin1String("<BR></HTML>\r\n");
}
if (Options.PartsListEnd)
{
QString FileName = QFileInfo(Dir, BaseName + QLatin1String("-pieces.html")).absoluteFilePath();
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return;
}
QTextStream Stream(&File);
Stream << QString::fromLatin1("<HTML>\r\n<HEAD>\r\n<TITLE>Pieces used by %1</TITLE>\r\n</HEAD>\r\n<BR>\r\n<CENTER>\n").arg(PageTitle);
AddPartsListImage(Stream, Model, 0, BaseName);
Stream << QLatin1String("</CENTER>\r\n<BR><HR><BR>");
Stream << QString::fromLatin1("<A HREF=\"%1-%2.html\">Previous</A> ").arg(BaseName, QString("%1").arg(LastStep, 2, 10, QLatin1Char('0')));
if (Options.IndexPage)
Stream << QString::fromLatin1("<A HREF=\"%1-index.html\">Index</A> ").arg(BaseName);
Stream << QLatin1String("<BR></HTML>\r\n");
}
}
QString StepImageBaseName = QFileInfo(Dir, BaseName + QLatin1String("-%1.png")).absoluteFilePath();
Model->SaveStepImages(StepImageBaseName, true, false, Options.StepImagesWidth, Options.StepImagesHeight, 1, LastStep);
}
if (Models.size() > 1)
{
QString BaseName = ProjectTitle.left(ProjectTitle.length() - QFileInfo(ProjectTitle).suffix().length() - 1);
QString FileName = QFileInfo(Dir, BaseName + QLatin1String("-index.html")).absoluteFilePath();
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("Error"), tr("Error writing to file '%1':\n%2").arg(FileName, File.errorString()));
return;
}
QTextStream Stream(&File);
Stream << QString::fromLatin1("<HTML>\r\n<HEAD>\r\n<TITLE>Instructions for %1</TITLE>\r\n</HEAD>\r\n<BR>\r\n<CENTER>\r\n").arg(ProjectTitle);
for (const lcModel* Model : Models)
{
BaseName = ProjectTitle.left(ProjectTitle.length() - QFileInfo(ProjectTitle).suffix().length() - 1) + '-' + Model->GetProperties().mFileName;
BaseName.replace('#', '_');
if (Options.SinglePage)
{
FileName = BaseName + QLatin1String(".html");
Stream << QString::fromLatin1("<p><a href=\"%1\">%2</a>").arg(FileName, Model->GetProperties().mFileName);
}
else if (Options.IndexPage)
{
FileName = BaseName + QLatin1String("-index.html");
Stream << QString::fromLatin1("<p><a href=\"%1\">%2</a>").arg(FileName, Model->GetProperties().mFileName);
}
else
{
lcStep LastStep = Model->GetLastStep();
Stream << QString::fromLatin1("<p>%1</p>").arg(Model->GetProperties().mFileName);
for (lcStep Step = 1; Step <= LastStep; Step++)
Stream << QString::fromLatin1("<A HREF=\"%1-%2.html\">Step %3<BR>\r\n</A>").arg(BaseName, QString("%1").arg(Step, 2, 10, QLatin1Char('0')), QString::number(Step));
if (Options.PartsListEnd)
Stream << QString::fromLatin1("<A HREF=\"%1-pieces.html\">Pieces Used</A><BR>\r\n").arg(BaseName);
}
}
Stream << QLatin1String("</CENTER>\r\n<BR><HR><BR><B><I>Created by <A HREF=\"https://www.leocad.org\">LeoCAD</A></B></I><BR></HTML>\r\n");
}
}
bool Project::ExportPOVRay(const QString& FileName)
{
std::vector<lcModelPartsEntry> ModelParts = GetModelParts();
if (ModelParts.empty())
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Nothing to export."));
return false;
}
QString SaveFileName = GetExportFileName(FileName, QLatin1String("pov"), tr("Export POV-Ray"), tr("POV-Ray Files (*.pov);;All Files (*.*)"));
if (SaveFileName.isEmpty())
return false;
lcDiskFile POVFile(SaveFileName);
if (!POVFile.Open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Could not open file '%1' for writing.").arg(SaveFileName));
return false;
}
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 Line[2048];
sprintf(Line, "// Generated By: LeoCAD %s\n// LDraw File: %s\n// Date: %s\n\n",
LC_VERSION_TEXT,
mModels[0]->GetProperties().mFileName.toLatin1().constData(),
QDateTime::currentDateTime().toString(Qt::ISODate).toLatin1().constData());
POVFile.WriteLine(Line);
POVFile.WriteLine("#version 3.7;\n\n");
POVFile.WriteLine("global_settings { assumed_gamma 1.0 }\n\n");
lcPiecesLibrary* Library = lcGetPiecesLibrary();
std::map<const PieceInfo*, std::pair<char[LC_PIECE_NAME_LEN + 1], int>> PieceTable;
size_t NumColors = gColorList.size();
std::vector<std::array<char, LC_MAX_COLOR_NAME>> LgeoColorTable(NumColors);
std::vector<std::array<char, LC_MAX_COLOR_NAME>> ColorTable(NumColors);
const std::vector<std::unique_ptr<lcLight>>& Lights = gMainWindow->GetActiveModel()->GetLights();
const lcCamera* Camera = gMainWindow->GetActiveView()->GetCamera();
const QString CameraName = QString(Camera->GetName()).replace(" ","_");
const lcVector3& Position = Camera->mPosition;
const lcVector3& Target = Camera->mTargetPosition;
const lcVector3& Up = Camera->mUpVector;
const lcVector3 BackgroundColor = lcVector3FromColor(lcGetPreferences().mBackgroundSolidColor);
const lcPOVRayOptions& POVRayOptions = mModels[0]->GetPOVRayOptions();
const QString TopModelName = QString("LC_%1").arg(QString(mModels[0]->GetFileName()).replace(" ","_").replace(".","_dot_"));
const QString LGEOPath = lcGetProfileString(LC_PROFILE_POVRAY_LGEO_PATH);
const bool UseLGEO = POVRayOptions.UseLGEO && !LGEOPath.isEmpty();
const int TopModelColorCode = 7;
QStringList ColorMacros, MaterialColors;
lcVector3 Min(FLT_MAX, FLT_MAX, FLT_MAX);
lcVector3 Max(-FLT_MAX, -FLT_MAX, -FLT_MAX);
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcVector3 Points[8];
lcGetBoxCorners(ModelPart.Info->GetBoundingBox(), Points);
for (int PointIdx = 0; PointIdx < 8; PointIdx++)
{
lcVector3 Point = lcMul31(Points[PointIdx], ModelPart.WorldMatrix);
Min = lcMin(Point, Min);
Max = lcMax(Point, Max);
}
}
lcVector3 Center = (Min + Max) / 2.0f;
float Radius = (Max - Center).Length() / 25.0f;
Center = lcVector3(Center[1], Center[0], Center[2]) / 25.0f;
lcVector3 FloorColor = POVRayOptions.FloorColor;
float FloorAmbient = POVRayOptions.FloorAmbient;
float FloorDiffuse = POVRayOptions.FloorDiffuse;
char FloorLocation[32];
char FloorAxis[16];
if (POVRayOptions.FloorAxis == 0)
{
sprintf(FloorAxis, "x");
sprintf(FloorLocation, "MaxX");
}
else if (POVRayOptions.FloorAxis == 1)
{
sprintf(FloorAxis, "y");
sprintf(FloorLocation, "MaxY");
}
else
{
sprintf(FloorAxis, "z");
sprintf(FloorLocation, "MaxZ");
}
for (const std::unique_ptr<lcLight>& Light : Lights)
{
if (Light->GetLightType() == lcLightType::Area)
{
if (FloorColor == lcVector3(0.8f,0.8f,0.8f))
FloorColor = {1.0f,1.0f,1.0f};
if (FloorAmbient == 0.4f)
FloorAmbient = 0.0f;
if (FloorDiffuse == 0.4f)
FloorDiffuse = 0.9f;
break;
}
}
if (!POVRayOptions.HeaderIncludeFile.isEmpty())
{
sprintf(Line, "#include \"%s\"\n\n", POVRayOptions.HeaderIncludeFile.toLatin1().constData());
POVFile.WriteLine(Line);
}
sprintf(Line,
"#ifndef (MinX) #declare MinX = %g; #end\n"
"#ifndef (MinY) #declare MinY = %g; #end\n"
"#ifndef (MinZ) #declare MinZ = %g; #end\n"
"#ifndef (MaxX) #declare MaxX = %g; #end\n"
"#ifndef (MaxY) #declare MaxY = %g; #end\n"
"#ifndef (MaxZ) #declare MaxZ = %g; #end\n"
"#ifndef (CenterX) #declare CenterX = %g; #end\n"
"#ifndef (CenterY) #declare CenterY = %g; #end\n"
"#ifndef (CenterZ) #declare CenterZ = %g; #end\n"
"#ifndef (Center) #declare Center = <CenterX,CenterY,CenterZ>; #end\n"
"#ifndef (Radius) #declare Radius = %g; #end\n",
Min[0], Min[1], Min[2], Max[0], -Max[1], Max[2], Center[0], Center[1], Center[2], Radius);
POVFile.WriteLine(Line);
sprintf(Line,
"#ifndef (CameraSky) #declare CameraSky = <%g,%g,%g>; #end\n"
"#ifndef (CameraLocation) #declare CameraLocation = <%g, %g, %g>; #end\n"
"#ifndef (CameraTarget) #declare CameraTarget = <%g, %g, %g>; #end\n"
"#ifndef (CameraAngle) #declare CameraAngle = %g; #end\n",
Up[1], Up[0], 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,
"#ifndef (BackgroundColor) #declare BackgroundColor = <%1g, %1g, %1g>; #end\n"
"#ifndef (Background) #declare Background = %s; #end\n",
BackgroundColor[0], BackgroundColor[1], BackgroundColor[2], (POVRayOptions.ExcludeBackground ? "false" : "true"));
POVFile.WriteLine(Line);
sprintf(Line,
"#ifndef (FloorAxis) #declare FloorAxis = %s; #end\n"
"#ifndef (FloorLocation) #declare FloorLocation = %s; #end\n"
"#ifndef (FloorColor) #declare FloorColor = <%1g, %1g, %1g>; #end\n"
"#ifndef (FloorAmbient) #declare FloorAmbient = %1g; #end\n"
"#ifndef (FloorDiffuse) #declare FloorDiffuse = %1g; #end\n"
"#ifndef (Floor) #declare Floor = %s; #end\n",
FloorAxis, FloorLocation, FloorColor[0], FloorColor[1], FloorColor[2], FloorAmbient, FloorDiffuse, (POVRayOptions.ExcludeFloor ? "false" : "true"));
POVFile.WriteLine(Line);
sprintf(Line,
"#ifndef (Ambient) #declare Ambient = 0.4; #end\n"
"#ifndef (Diffuse) #declare Diffuse = 0.4; #end\n"
"#ifndef (Reflection) #declare Reflection = 0.08; #end\n"
"#ifndef (Phong) #declare Phong = 0.5; #end\n"
"#ifndef (PhongSize) #declare PhongSize = 40; #end\n"
"#ifndef (TransReflection) #declare TransReflection = 0.2; #end\n"
"#ifndef (TransFilter) #declare TransFilter = 0.85; #end\n"
"#ifndef (TransIoR) #declare TransIoR = 1.25; #end\n"
"#ifndef (RubberReflection) #declare RubberReflection = 0; #end\n"
"#ifndef (RubberPhong) #declare RubberPhong = 0.1; #end\n"
"#ifndef (RubberPhongS) #declare RubberPhongS = 10; #end\n"
"#ifndef (ChromeReflection) #declare ChromeReflection = 0.85; #end\n"
"#ifndef (ChromeBrilliance) #declare ChromeBrilliance = 5; #end\n"
"#ifndef (ChromeSpecular) #declare ChromeSpecular = 0.8; #end\n"
"#ifndef (ChromeRough) #declare ChromeRough = 0.01; #end\n"
"#ifndef (OpaqueNormal) #declare OpaqueNormal = normal { bumps 0.001 scale 0.5 }; #end\n"
"#ifndef (TransNormal) #declare TransNormal = normal { bumps 0.001 scale 0.5 }; #end\n");
POVFile.WriteLine(Line);
sprintf(Line,
"#ifndef (Quality) #declare Quality = 3; #end\n"
"#ifndef (Studs) #declare Studs = 1; #end\n"
"#ifndef (LgeoLibrary) #declare LgeoLibrary = %s; #end\n"
"#ifndef (ModelReflection) #declare ModelReflection = %i; #end\n"
"#ifndef (ModelShadow) #declare ModelShadow = %i; #end\n\n",
(POVRayOptions.UseLGEO ? "true" : "false"), (POVRayOptions.NoReflection ? 0 : 1), (POVRayOptions.NoShadow ? 0 : 1));
POVFile.WriteLine(Line);
sprintf(Line,
"#ifndef (SkipWriteLightMacro)\n"
"#macro WriteLight(Type, Shadowless, Location, Target, Color, Power, FadeDistance, FadePower, SpotRadius, SpotFalloff, SpotTightness, AreaCircle, AreaWidth, AreaHeight, AreaRows, AreaColumns)\n"
" #local PointLight = %i;\n"
" #local Spotlight = %i;\n"
" #local DirectionalLight = %i;\n"
" #local AreaLight = %i;\n"
" light_source {\n"
" Location\n"
" color rgb Color*Power\n"
" #if (Shadowless > 0)\n"
" shadowless\n"
" #end\n"
" #if (FadeDistance > 0)\n"
" fade_distance FadeDistance\n"
" #end\n"
" #if (FadePower > 0)\n"
" fade_power FadePower\n"
" #end\n"
" #if (Type = Spotlight)\n"
" spotlight\n"
" radius SpotRadius\n"
" falloff SpotFalloff\n"
" tightness SpotTightness\n"
" point_at Target\n"
" #elseif (Type = DirectionalLight)\n"
" parallel\n"
" point_at Target\n"
" #elseif (Type = AreaLight)\n"
" area_light AreaWidth, AreaHeight, AreaRows, AreaColumns\n"
" jitter\n"
" #if (AreaCircle > 0 & AreaRows > 1 & AreaColumns > 1)\n"
" circular \n"
" #if (AreaWidth = AreaHeight & AreaRows = AreaColumns)\n"
" orient\n"
" #end\n"
" #end\n"
" #end\n"
" }\n"
"#end\n"
"#end\n\n",
static_cast<int>(lcLightType::Point), static_cast<int>(lcLightType::Spot), static_cast<int>(lcLightType::Directional), static_cast<int>(lcLightType::Area));
POVFile.WriteLine(Line);
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
int ColorIdx = ModelPart.ColorIndex;
if (lcIsColorTranslucent(ColorIdx))
{
if (!ColorMacros.contains("TranslucentColor"))
{
sprintf(Line,
"#ifndef (SkipTranslucentColorMacro)\n"
"#macro TranslucentColor(r, g, b, f)\n"
" material {\n"
" texture {\n"
" pigment { srgbf <r,g,b,f> }\n"
" finish { emission 0 ambient Ambient diffuse Diffuse }\n"
" finish { phong Phong phong_size PhongSize reflection TransReflection }\n"
" normal { TransNormal }\n"
" }\n"
" interior { ior TransIoR }\n"
" }\n"
"#end\n"
"#end\n\n");
POVFile.WriteLine(Line);
ColorMacros.append("TranslucentColor");
}
}
else if (lcIsColorChrome(ColorIdx))
{
if (!ColorMacros.contains("ChromeColor"))
{
sprintf(Line,
"#ifndef (SkipChromeColorMacro)\n"
"#macro ChromeColor(r, g, b)\n"
"#if (LgeoLibrary) material { #end\n"
" texture {\n"
" pigment { srgbf <r,g,b,0> }\n"
" finish { emission 0 ambient Ambient diffuse Diffuse }\n"
" finish { phong Phong phong_size PhongSize reflection ChromeReflection brilliance ChromeBrilliance metallic specular ChromeSpecular roughness ChromeRough }\n"
" }\n"
"#if (LgeoLibrary) } #end\n"
"#end\n"
"#end\n\n");
POVFile.WriteLine(Line);
ColorMacros.append("ChromeColor");
}
}
else if (lcIsColorRubber(ColorIdx))
{
if (!ColorMacros.contains("RubberColor"))
{
sprintf(Line,
"#ifndef (SkipRubberColorMacro)\n"
"#macro RubberColor(r, g, b)\n"
"#if (LgeoLibrary) material { #end\n"
" texture {\n"
" pigment { srgbf <r,g,b,0> }\n"
" finish { emission 0 ambient Ambient diffuse Diffuse }\n"
" finish { phong RubberPhong phong_size RubberPhongS reflection RubberReflection }\n"
" }\n"
"#if (LgeoLibrary) } #end\n"
"#end\n"
"#end\n\n");
POVFile.WriteLine(Line);
ColorMacros.append("RubberColor");
}
}
else
{
if (!ColorMacros.contains("OpaqueColor"))
{
sprintf(Line,
"#ifndef (SkipOpaqueColorMacro)\n"
"#macro OpaqueColor(r, g, b)\n"
"#if (LgeoLibrary) material { #end\n"
" texture {\n"
" pigment { srgbf <r,g,b,0> }\n"
" finish { emission 0 ambient Ambient diffuse Diffuse }\n"
" finish { phong Phong phong_size PhongSize reflection Reflection }\n"
" normal { OpaqueNormal }\n"
" }\n"
"#if (LgeoLibrary) } #end\n"
"#end\n"
"#end\n\n");
POVFile.WriteLine(Line);
ColorMacros.append("OpaqueColor");
}
}
}
sprintf(Line, "#if (Background)\n background {\n color rgb BackgroundColor\n }\n#end\n\n");
POVFile.WriteLine(Line);
sprintf(Line, "#ifndef (Skip%s)\n camera {\n perspective\n right x * image_width / image_height\n sky CameraSky\n location CameraLocation\n look_at CameraTarget\n angle CameraAngle * image_width / image_height\n }\n#end\n\n",
(CameraName.isEmpty() ? "Camera" : CameraName.toLatin1().constData()));
POVFile.WriteLine(Line);
lcVector3 AreaX(1.0f, 0.0f, 0.0f), AreaY(0.0f, 1.0f, 0.0f);
lcVector2i AreaGrid(1, 1);
int AreaCircle = 0, Shadowless = 0;
lcLightType LightType = lcLightType::Area;
float Power = 0.0f, FadeDistance = 0.0f, FadePower = 0.0f, SpotRadius = 0.0f, SpotFalloff = 0.0f, SpotTightness = 0.0f;
if (Lights.empty())
{
const lcVector3 LightTarget(0.0f, 0.0f, 0.0f), LightColor(1.0f, 1.0f, 1.0f);
lcVector3 Location[4];
Location[0] = {0.0f * Radius + Center[0], -1.5f * Radius + Center[1], -1.5f * Radius + Center[2]};
Location[1] = {1.5f * Radius + Center[0], -1.0f * Radius + Center[1], 0.866026f * Radius + Center[2]};
Location[2] = {0.0f * Radius + Center[0], -2.0f * Radius + Center[1], 0.0f * Radius + Center[2]};
Location[3] = {2.0f * Radius + Center[0], 0.0f * Radius + Center[1], -2.0f * Radius + Center[2]};
for (int Idx = 0; Idx < 4; Idx++)
{
Power = Idx < 2 ? 0.75f : 0.5f;
sprintf(Line,"#ifndef (SkipLight%i)\nWriteLight(%i, %i, <%g, %g, %g>, <%g, %g, %g>, <%g, %g, %g>, %g, %g, %g, %g, %g, %g, %i, <%g, %g, %g>, <%g, %g, %g>, %i, %i)\n#end\n\n",
Idx,
static_cast<int>(LightType),
Shadowless,
Location[Idx][0], Location[Idx][1], Location[Idx][2],
LightTarget[0], LightTarget[1], LightTarget[2],
LightColor[0], LightColor[1], LightColor[2],
Power,
FadeDistance, FadePower,
SpotRadius, SpotFalloff, SpotTightness,
AreaCircle, AreaX[0], AreaX[1], AreaX[2], AreaY[0], AreaY[1], AreaY[2], AreaGrid.x, AreaGrid.y);
POVFile.WriteLine(Line);
}
}
else
{
for (const std::unique_ptr<lcLight>& Light : Lights)
{
const lcVector3 LightPosition = Light->GetPosition();
const lcVector3 LightTarget = LightPosition + Light->GetDirection();
const lcVector3 LightColor = Light->GetColor();
const QString LightName = QString(Light->GetName()).replace(" ", "_");
LightType = Light->GetLightType();
Shadowless = Light->GetCastShadow() ? 0 : 1;
Power = Light->GetPOVRayPower();
FadeDistance = Light->GetPOVRayFadeDistance();
FadePower = Light->GetPOVRayFadePower();
SpotFalloff = Light->GetSpotConeAngle() / 2.0f;
SpotRadius = SpotFalloff - Light->GetSpotPenumbraAngle();
SpotTightness = Light->GetSpotPOVRayTightness();
AreaCircle = (Light->GetAreaShape() == lcLightAreaShape::Disk || Light->GetAreaShape() == lcLightAreaShape::Ellipse) ? 1 : 0;
AreaX = lcVector3(Light->GetWorldMatrix()[0]) * Light->GetAreaSizeX();
AreaY = lcVector3(Light->GetWorldMatrix()[1]) * Light->GetAreaSizeY();
AreaGrid = lcVector2i(Light->GetAreaPOVRayGridX(), Light->GetAreaPOVRayGridY());
sprintf(Line,"#ifndef (Skip%s)\n WriteLight(%i, %i, <%g, %g, %g>, <%g, %g, %g>, <%g, %g, %g>, %g, %g, %g, %g, %g, %g, %i, <%g, %g, %g>, <%g, %g, %g>, %i, %i)\n#end\n\n",
LightName.toLatin1().constData(),
static_cast<int>(LightType),
Shadowless,
LightPosition[1], LightPosition[0], LightPosition[2],
LightTarget[1], LightTarget[0], LightTarget[2],
LightColor[0], LightColor[1], LightColor[2],
Power,
FadeDistance, FadePower,
SpotRadius, SpotFalloff, SpotTightness,
AreaCircle, AreaX[0], AreaX[1], AreaX[2], AreaY[0], AreaY[1], AreaY[2], AreaGrid.x, AreaGrid.y);
POVFile.WriteLine(Line);
}
}
POVFile.WriteLine("#ifndef (lg_quality) #declare lg_quality = Quality; #end\n\n");
if (UseLGEO)
{
memset(Line, 0, 1024);
POVFile.WriteLine("#ifndef (lg_studs) #declare lg_studs = Studs; #end\n\n");
POVFile.WriteLine("#if (lg_quality = 3) #declare lg_quality = 4; #end\n\n");
POVFile.WriteLine("#include \"lg_defs.inc\"\n\n#include \"lg_color.inc\"\n\n");
lcDiskFile TableFile(QFileInfo(QDir(LGEOPath), QLatin1String("lg_elements.lst")).absoluteFilePath());
if (!TableFile.Open(QIODevice::ReadOnly))
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Could not find LGEO files in folder '%1'.").arg(LGEOPath));
return false;
}
while (TableFile.ReadLine(Line, sizeof(Line)))
{
char Src[129], Dst[129], Flags[11];
if (*Line == ';')
continue;
if (sscanf(Line,"%128s%128s%10s", Src, Dst, Flags) != 3)
continue;
strncat(Src, ".dat", 4);
PieceInfo* Info = Library->FindPiece(Src, nullptr, false, false);
if (!Info)
continue;
bool LgeoPartFound = false;
if ((LgeoPartFound = strchr(Flags, 'L')))
{
std::pair<char[LC_PIECE_NAME_LEN + 1], int>& Entry = PieceTable[Info];
Entry.second |= LGEO_PIECE_LGEO;
sprintf(Entry.first, "lg_%s", Dst);
}
if (strchr(Flags, 'A') && !LgeoPartFound)
{
std::pair<char[LC_PIECE_NAME_LEN + 1], int>& Entry = PieceTable[Info];
Entry.second |= LGEO_PIECE_AR;
sprintf(Entry.first, "ar_%s", Dst);
}
if (strchr(Flags, 'S'))
{
std::pair<char[LC_PIECE_NAME_LEN + 1], int>& Entry = PieceTable[Info];
Entry.second |= LGEO_PIECE_SLOPE;
Entry.first[0] = 0;
}
}
lcDiskFile LgeoColorFile(QFileInfo(QDir(LGEOPath), QLatin1String("lg_colors.lst")).absoluteFilePath());
if (!LgeoColorFile.Open(QIODevice::ReadOnly))
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Could not find LGEO files in folder '%1'.").arg(LGEOPath));
return false;
}
while (LgeoColorFile.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;
size_t ColorIdx = lcGetColorIndex(Code);
if (ColorIdx >= NumColors)
continue;
strncpy(LgeoColorTable[ColorIdx].data(), Name, LC_MAX_COLOR_NAME);
}
}
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
size_t ColorIdx = ModelPart.ColorIndex;
if (!ColorTable[ColorIdx][0])
{
lcColor* Color = &gColorList[ColorIdx];
if (!LgeoColorTable[ColorIdx][0])
{
sprintf(ColorTable[ColorIdx].data(), "lc_%s", Color->SafeName);
if (lcIsColorTranslucent(ColorIdx))
{
if (!UseLGEO && !MaterialColors.contains(ColorTable[ColorIdx].data()))
MaterialColors.append(ColorTable[ColorIdx].data());
sprintf(Line, "#ifndef (lc_%s)\n#declare lc_%s = TranslucentColor(%g, %g, %g, TransFilter)\n#end\n\n",
Color->SafeName, Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]);
}
else
{
char MacroName[LC_MAX_COLOR_NAME];
if (lcIsColorChrome(ColorIdx))
sprintf(MacroName, "Chrome");
else if (lcIsColorRubber(ColorIdx))
sprintf(MacroName, "Rubber");
else
sprintf(MacroName, "Opaque");
sprintf(Line, "#ifndef (lc_%s)\n#declare lc_%s = %sColor(%g, %g, %g)\n#end\n\n",
Color->SafeName, Color->SafeName, MacroName, Color->Value[0], Color->Value[1], Color->Value[2]);
}
}
else
{
sprintf(ColorTable[ColorIdx].data(), "LDXColor%i", Color->Code);
sprintf(Line,"#ifndef (LDXColor%i) // %s\n#declare LDXColor%i = material { texture { %s } }\n#end\n\n",
Color->Code, Color->Name, Color->Code, LgeoColorTable[ColorIdx].data());
}
POVFile.WriteLine(Line);
}
}
if (!ColorTable[lcGetColorIndex(TopModelColorCode)][0])
{
size_t ColorIdx = lcGetColorIndex(TopModelColorCode);
lcColor* Color = &gColorList[ColorIdx];
sprintf(ColorTable[ColorIdx].data(), "LDXColor%i", Color->Code);
if (!LgeoColorTable[ColorIdx][0])
sprintf(Line, "#ifndef (lc_%s)\n#declare lc_%s = OpaqueColor(%g, %g, %g)\n#end\n\n",
Color->SafeName, Color->SafeName, Color->Value[0], Color->Value[1], Color->Value[2]);
else
sprintf(Line,"#ifndef (LDXColor%i) // %s\n#declare LDXColor%i = material { texture { %s } }\n#end\n\n",
Color->Code, Color->Name, Color->Code, LgeoColorTable[ColorIdx].data());
POVFile.WriteLine(Line);
}
std::set<lcMesh*> AddedMeshes;
if (UseLGEO)
{
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
if (ModelPart.Mesh)
continue;
auto Search = PieceTable.find(ModelPart.Info);
if (Search == PieceTable.end())
continue;
lcMesh* Mesh = ModelPart.Info->GetMesh();
if (!Mesh)
continue;
if (!AddedMeshes.insert(Mesh).second)
continue;
const std::pair<char[LC_PIECE_NAME_LEN + 1], int>& Entry = Search->second;
if (Entry.first[0])
{
sprintf(Line, "#include \"%s.inc\" // %s\n", Entry.first, ModelPart.Info->m_strDescription);
POVFile.WriteLine(Line);
}
}
POVFile.WriteLine("\n");
}
std::vector<const char*> ColorTablePointer;
ColorTablePointer.resize(NumColors);
for (size_t ColorIdx = 0; ColorIdx < NumColors; ColorIdx++)
ColorTablePointer[ColorIdx] = ColorTable[ColorIdx].data();
auto GetMeshName = [](const lcModelPartsEntry& ModelPart, char (&Name)[LC_PIECE_NAME_LEN])
{
strncpy(Name, ModelPart.Info->mFileName, sizeof(Name));
for (char* c = Name; *c; c++)
if (*c == '-' || *c == '.')
*c = '_';
if (ModelPart.Mesh)
{
char Suffix[32];
sprintf(Suffix, "_%p", ModelPart.Mesh);
strncat(Name, Suffix, sizeof(Name) - strlen(Name) - 1);
Name[sizeof(Name) - 1] = 0;
}
};
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (!AddedMeshes.insert(Mesh).second)
continue;
if (!Mesh)
continue;
char Name[LC_PIECE_NAME_LEN];
GetMeshName(ModelPart, Name);
if (!ModelPart.Mesh)
{
std::pair<char[LC_PIECE_NAME_LEN + 1], int>& Entry = PieceTable[ModelPart.Info];
strncpy(Entry.first, "lc_", 3);
strncat(Entry.first, Name, sizeof(Entry.first) - 1);
Entry.first[sizeof(Entry.first) - 1] = 0;
}
Mesh->ExportPOVRay(POVFile, Name, &ColorTablePointer[0]);
sprintf(Line, "#declare lc_%s_clear = lc_%s\n\n", Name, Name);
POVFile.WriteLine(Line);
}
sprintf(Line, "#declare %s = union {\n", TopModelName.toLatin1().constData());
POVFile.WriteLine(Line);
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
int ColorIdx = ModelPart.ColorIndex;
const char* Suffix = lcIsColorTranslucent(ColorIdx) ? "_clear" : "";
const float* f = ModelPart.WorldMatrix;
char Modifier[32];
if (UseLGEO || MaterialColors.contains(ColorTable[ColorIdx].data()))
sprintf(Modifier, "material");
else
sprintf(Modifier, "texture");
if (!ModelPart.Mesh)
{
std::pair<char[LC_PIECE_NAME_LEN + 1], int>& Entry = PieceTable[ModelPart.Info];
if (Entry.second & LGEO_PIECE_SLOPE)
{
sprintf(Line,
" merge {\n object {\n %s%s\n %s { %s }\n }\n"
" object {\n %s_slope\n texture {\n %s normal { bumps 0.3 scale 0.02 }\n }\n }\n"
" matrix <%g, %g, %g, %g, %g, %g, %g, %g, %g, %g, %g, %g>\n }\n",
Entry.first, Suffix, Modifier, ColorTable[ColorIdx].data(), Entry.first, ColorTable[ColorIdx].data(),
-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
{
if (!ModelPart.Info || !ModelPart.Info->GetMesh())
continue;
sprintf(Line, " object {\n %s%s\n %s { %s }\n matrix <%g, %g, %g, %g, %g, %g, %g, %g, %g, %g, %g, %g>\n }\n",
Entry.first, Suffix, Modifier, ColorTable[ColorIdx].data(), -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
{
char Name[LC_PIECE_NAME_LEN];
GetMeshName(ModelPart, Name);
sprintf(Line, " object {\n lc_%s%s\n %s { %s }\n matrix <%g, %g, %g, %g, %g, %g, %g, %g, %g, %g, %g, %g>\n }\n",
Name, Suffix, Modifier, ColorTable[ColorIdx].data(), -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);
}
sprintf(Line, "\n #if (ModelReflection = 0)\n no_reflection\n #end\n #if (ModelShadow = 0)\n no_shadow\n #end\n}\n\n");
POVFile.WriteLine(Line);
sprintf(Line, "object {\n %s\n %s { %s }\n}\n\n",
TopModelName.toLatin1().constData(), (UseLGEO ? "material" : "texture"), ColorTable[lcGetColorIndex(TopModelColorCode)].data());
POVFile.WriteLine(Line);
sprintf(Line, "#if (Floor)\n object {\n plane { FloorAxis, FloorLocation hollow }\n texture {\n pigment { color srgb FloorColor }\n finish { emission 0 ambient FloorAmbient diffuse FloorDiffuse }\n }\n }\n#end\n");
POVFile.WriteLine(Line);
if (!POVRayOptions.FooterIncludeFile.isEmpty())
{
sprintf(Line, "\n#include \"%s\"\n", POVRayOptions.FooterIncludeFile.toLatin1().constData());
POVFile.WriteLine(Line);
}
return true;
}
bool Project::ExportWavefront(const QString& FileName)
{
std::vector<lcModelPartsEntry> ModelParts = GetModelParts();
if (ModelParts.empty())
{
QMessageBox::information(gMainWindow, tr("LeoCAD"), tr("Nothing to export."));
return false;
}
QString SaveFileName = GetExportFileName(FileName, QLatin1String("obj"), tr("Export Wavefront"), tr("Wavefront Files (*.obj);;All Files (*.*)"));
if (SaveFileName.isEmpty())
return false;
lcDiskFile OBJFile(SaveFileName);
char Line[1024];
if (!OBJFile.Open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Could not open file '%1' for writing.").arg(SaveFileName));
return false;
}
quint32 vert = 1;
OBJFile.WriteLine("# Model exported from LeoCAD\n");
QFileInfo SaveInfo(SaveFileName);
QString MaterialFileName = QDir(SaveInfo.absolutePath()).absoluteFilePath(SaveInfo.completeBaseName() + QLatin1String(".mtl"));
sprintf(Line, "#\n\nmtllib %s\n\n", QFileInfo(MaterialFileName).fileName().toLatin1().constData());
OBJFile.WriteLine(Line);
lcDiskFile MaterialFile(MaterialFileName);
if (!MaterialFile.Open(QIODevice::WriteOnly))
{
QMessageBox::warning(gMainWindow, tr("LeoCAD"), tr("Could not open file '%1' for writing.").arg(MaterialFileName));
return false;
}
MaterialFile.WriteLine("# Colors used by LeoCAD\n\n");
for (const lcColor& Color : gColorList)
{
if (Color.Translucent)
sprintf(Line, "newmtl %s\nKd %.2f %.2f %.2f\nD %.2f\n\n", Color.SafeName, Color.Value[0], Color.Value[1], Color.Value[2], Color.Value[3]);
else
sprintf(Line, "newmtl %s\nKd %.2f %.2f %.2f\n\n", Color.SafeName, Color.Value[0], Color.Value[1], Color.Value[2]);
MaterialFile.WriteLine(Line);
}
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (!Mesh)
continue;
const lcMatrix44& ModelWorld = ModelPart.WorldMatrix;
lcVertex* Verts = (lcVertex*)Mesh->mVertexData;
for (int VertexIdx = 0; VertexIdx < Mesh->mNumVertices; VertexIdx++)
{
lcVector3 Vertex = lcMul31(Verts[VertexIdx].Position, ModelWorld);
sprintf(Line, "v %.2f %.2f %.2f\n", Vertex[0], Vertex[1], Vertex[2]);
OBJFile.WriteLine(Line);
}
OBJFile.WriteLine("#\n\n");
}
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (!Mesh)
continue;
const lcMatrix44& ModelWorld = ModelPart.WorldMatrix;
lcVertex* Verts = (lcVertex*)Mesh->mVertexData;
for (int VertexIdx = 0; VertexIdx < Mesh->mNumVertices; VertexIdx++)
{
lcVector3 Normal = lcMul30(lcUnpackNormal(Verts[VertexIdx].Normal), ModelWorld);
sprintf(Line, "vn %.2f %.2f %.2f\n", Normal[0], Normal[1], Normal[2]);
OBJFile.WriteLine(Line);
}
OBJFile.WriteLine("#\n\n");
}
int NumPieces = 0;
for (const lcModelPartsEntry& ModelPart : ModelParts)
{
sprintf(Line, "g Piece%.3d\n", NumPieces++);
OBJFile.WriteLine(Line);
lcMesh* Mesh = !ModelPart.Mesh ? ModelPart.Info->GetMesh() : ModelPart.Mesh;
if (Mesh)
{
Mesh->ExportWavefrontIndices(OBJFile, ModelPart.ColorIndex, vert);
vert += Mesh->mNumVertices;
}
}
return true;
}
void Project::SaveImage()
{
lcQImageDialog Dialog(gMainWindow);
if (Dialog.exec() != QDialog::Accepted)
return;
QString Extension = QFileInfo(Dialog.mFileName).suffix();
if (!Extension.isEmpty())
lcSetProfileString(LC_PROFILE_IMAGE_EXTENSION, Dialog.mFileName.right(Extension.length() + 1));
if (Dialog.mStart != Dialog.mEnd)
Dialog.mFileName = Dialog.mFileName.insert(Dialog.mFileName.length() - Extension.length() - 1, QLatin1String("%1"));
mActiveModel->SaveStepImages(Dialog.mFileName, Dialog.mStart != Dialog.mEnd, false, Dialog.mWidth, Dialog.mHeight, Dialog.mStart, Dialog.mEnd);
}
void Project::UpdatePieceInfo(PieceInfo* Info) const
{
if (!mModels.empty())
{
std::vector<lcModel*> UpdatedModels;
mModels[0]->UpdatePieceInfo(UpdatedModels);
lcBoundingBox BoundingBox = mModels[0]->GetPieceInfo()->GetBoundingBox();
Info->SetBoundingBox(BoundingBox.Min, BoundingBox.Max);
}
}
void Project::MarkAsModified()
{
mModified = true;
}
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