leocad/common/lc_library.cpp

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#include "lc_global.h"
#include "lc_library.h"
#include "lc_zipfile.h"
#include "lc_file.h"
#include "pieceinf.h"
#include "lc_colors.h"
#include "lc_texture.h"
#include "lc_category.h"
#include "lc_application.h"
#include "lc_context.h"
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#include "lc_glextensions.h"
#include "lc_synth.h"
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#include "project.h"
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#include <ctype.h>
#include <locale.h>
#include <zlib.h>
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#if (QT_VERSION >= QT_VERSION_CHECK(5, 0, 0))
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#include <QtConcurrent>
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#endif
#if MAX_MEM_LEVEL >= 8
# define DEF_MEM_LEVEL 8
#else
# define DEF_MEM_LEVEL MAX_MEM_LEVEL
#endif
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#define LC_LIBRARY_CACHE_VERSION 0x0105
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#define LC_LIBRARY_CACHE_ARCHIVE 0x0001
#define LC_LIBRARY_CACHE_DIRECTORY 0x0002
lcPiecesLibrary::lcPiecesLibrary()
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: mLoadMutex(QMutex::Recursive)
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{
#if (QT_VERSION >= QT_VERSION_CHECK(5, 0, 0))
QStringList cachePathList = QStandardPaths::standardLocations(QStandardPaths::CacheLocation);
mCachePath = cachePathList.first();
#else
mCachePath = QDesktopServices::storageLocation(QDesktopServices::CacheLocation);
#endif
QDir Dir;
Dir.mkpath(mCachePath);
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mNumOfficialPieces = 0;
mLibraryPath[0] = 0;
mLibraryFileName[0] = 0;
mUnofficialFileName[0] = 0;
mZipFiles[LC_ZIPFILE_OFFICIAL] = NULL;
mZipFiles[LC_ZIPFILE_UNOFFICIAL] = NULL;
mBuffersDirty = false;
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}
lcPiecesLibrary::~lcPiecesLibrary()
{
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mLoadMutex.lock();
mLoadQueue.clear();
mLoadMutex.unlock();
WaitForLoadQueue();
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Unload();
}
void lcPiecesLibrary::Unload()
{
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
delete mPieces[PieceIdx];
mPieces.RemoveAll();
for (int PrimitiveIdx = 0; PrimitiveIdx < mPrimitives.GetSize(); PrimitiveIdx++)
delete mPrimitives[PrimitiveIdx];
mPrimitives.RemoveAll();
for (int TextureIdx = 0; TextureIdx < mTextures.GetSize(); TextureIdx++)
delete mTextures[TextureIdx];
mTextures.RemoveAll();
mNumOfficialPieces = 0;
delete mZipFiles[LC_ZIPFILE_OFFICIAL];
mZipFiles[LC_ZIPFILE_OFFICIAL] = NULL;
delete mZipFiles[LC_ZIPFILE_UNOFFICIAL];
mZipFiles[LC_ZIPFILE_UNOFFICIAL] = NULL;
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}
void lcPiecesLibrary::RemoveTemporaryPieces()
{
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QMutexLocker LoadLock(&mLoadMutex);
for (int PieceIdx = mPieces.GetSize() - 1; PieceIdx >= 0; PieceIdx--)
{
PieceInfo* Info = mPieces[PieceIdx];
if (!Info->IsTemporary())
break;
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if (Info->GetRefCount() == 0)
{
mPieces.RemoveIndex(PieceIdx);
delete Info;
}
}
}
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void lcPiecesLibrary::RemovePiece(PieceInfo* Info)
{
mPieces.Remove(Info);
delete Info;
}
PieceInfo* lcPiecesLibrary::FindPiece(const char* PieceName, Project* CurrentProject, bool CreatePlaceholder, bool SearchProjectFolder)
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{
QString ProjectPath;
if (SearchProjectFolder)
{
QString FileName = CurrentProject->GetFileName();
if (!FileName.isEmpty())
ProjectPath = QFileInfo(FileName).absolutePath();
}
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for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
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{
PieceInfo* Info = mPieces[PieceIdx];
if (strcmp(PieceName, Info->m_strName))
continue;
if (CurrentProject && Info->IsModel() && CurrentProject->GetModels().FindIndex(Info->GetModel()) == -1)
continue;
if (ProjectPath.isEmpty() && Info->IsProject())
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continue;
return Info;
}
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if (!ProjectPath.isEmpty())
{
QFileInfo ProjectFile = QFileInfo(ProjectPath + QDir::separator() + PieceName);
if (ProjectFile.isFile())
{
Project* NewProject = new Project();
if (NewProject->Load(ProjectFile.absoluteFilePath()))
{
PieceInfo* Info = new PieceInfo();
Info->SetProject(NewProject, PieceName);
mPieces.Add(Info);
return Info;
}
else
delete NewProject;
}
}
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if (CreatePlaceholder)
{
PieceInfo* Info = new PieceInfo();
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Info->CreatePlaceholder(PieceName);
mPieces.Add(Info);
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return Info;
}
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return NULL;
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}
lcTexture* lcPiecesLibrary::FindTexture(const char* TextureName)
{
for (int TextureIdx = 0; TextureIdx < mTextures.GetSize(); TextureIdx++)
if (!strcmp(TextureName, mTextures[TextureIdx]->mName))
return mTextures[TextureIdx];
return NULL;
}
bool lcPiecesLibrary::Load(const char* LibraryPath)
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{
Unload();
if (OpenArchive(LibraryPath, LC_ZIPFILE_OFFICIAL))
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{
lcMemFile ColorFile;
if (!mZipFiles[LC_ZIPFILE_OFFICIAL]->ExtractFile("ldraw/ldconfig.ldr", ColorFile) || !lcLoadColorFile(ColorFile))
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lcLoadDefaultColors();
strcpy(mLibraryPath, LibraryPath);
char* Slash = lcMax(strrchr(mLibraryPath, '/'), strrchr(mLibraryPath, '\\'));
if (*Slash)
*(Slash + 1) = 0;
char UnofficialFileName[LC_MAXPATH];
strcpy(UnofficialFileName, mLibraryPath);
strcat(UnofficialFileName, "/ldrawunf.zip");
if (!OpenArchive(UnofficialFileName, LC_ZIPFILE_UNOFFICIAL))
UnofficialFileName[0] = 0;
ReadArchiveDescriptions(LibraryPath, UnofficialFileName);
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}
else
{
strcpy(mLibraryPath, LibraryPath);
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size_t i = strlen(mLibraryPath) - 1;
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if ((mLibraryPath[i] != '\\') && (mLibraryPath[i] != '/'))
strcat(mLibraryPath, "/");
if (OpenDirectory(mLibraryPath))
{
char FileName[LC_MAXPATH];
lcDiskFile ColorFile;
sprintf(FileName, "%sldconfig.ldr", mLibraryPath);
if (!ColorFile.Open(FileName, "rt") || !lcLoadColorFile(ColorFile))
lcLoadDefaultColors();
}
else
return false;
}
lcLoadDefaultCategories();
lcSynthInit();
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return true;
}
bool lcPiecesLibrary::OpenArchive(const char* FileName, lcZipFileType ZipFileType)
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{
lcDiskFile* File = new lcDiskFile();
if (!File->Open(FileName, "rb") || !OpenArchive(File, FileName, ZipFileType))
{
delete File;
return false;
}
return true;
}
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static int lcPrimitiveCompare(lcLibraryPrimitive* const& a, lcLibraryPrimitive* const& b)
{
return strcmp(a->mName, b->mName);
}
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bool lcPiecesLibrary::OpenArchive(lcFile* File, const char* FileName, lcZipFileType ZipFileType)
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{
lcZipFile* ZipFile = new lcZipFile();
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if (!ZipFile->OpenRead(File))
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{
delete ZipFile;
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return false;
}
mZipFiles[ZipFileType] = ZipFile;
if (ZipFileType == LC_ZIPFILE_OFFICIAL)
strcpy(mLibraryFileName, FileName);
else
strcpy(mUnofficialFileName, FileName);
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for (int FileIdx = 0; FileIdx < ZipFile->mFiles.GetSize(); FileIdx++)
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{
lcZipFileInfo& FileInfo = ZipFile->mFiles[FileIdx];
char NameBuffer[LC_PIECE_NAME_LEN];
char* Name = NameBuffer;
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const char* Src = FileInfo.file_name;
char* Dst = Name;
while (*Src && Dst - Name < LC_PIECE_NAME_LEN)
{
if (*Src >= 'a' && *Src <= 'z')
*Dst = *Src + 'A' - 'a';
else if (*Src == '\\')
*Dst = '/';
else
*Dst = *Src;
Src++;
Dst++;
}
if (Dst - Name <= 4)
continue;
Dst -= 4;
if (memcmp(Dst, ".DAT", 4))
{
if (!memcmp(Dst, ".PNG", 4) && !memcmp(Name, "LDRAW/PARTS/TEXTURES/", 21))
{
lcTexture* Texture = new lcTexture();
mTextures.Add(Texture);
*Dst = 0;
strncpy(Texture->mName, Name + 21, sizeof(Texture->mName));
Texture->mName[sizeof(Texture->mName) - 1] = 0;
}
continue;
}
*Dst = 0;
if (ZipFileType == LC_ZIPFILE_OFFICIAL)
{
if (memcmp(Name, "LDRAW/", 6))
continue;
Name += 6;
}
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if (!memcmp(Name, "PARTS/", 6))
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{
Name += 6;
if (memcmp(Name, "S/", 2))
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{
PieceInfo* Info = FindPiece(Name, NULL, false, false);
if (!Info)
{
Info = new PieceInfo();
mPieces.Add(Info);
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strncpy(Info->m_strName, Name, sizeof(Info->m_strName));
Info->m_strName[sizeof(Info->m_strName) - 1] = 0;
}
Info->SetZipFile(ZipFileType, FileIdx);
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}
else
{
int PrimitiveIndex = FindPrimitiveIndex(Name);
if (PrimitiveIndex == -1)
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mPrimitives.AddSorted(new lcLibraryPrimitive(Name, ZipFileType, FileIdx, false, true), lcPrimitiveCompare);
else
mPrimitives[PrimitiveIndex]->SetZipFile(ZipFileType, FileIdx);
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}
}
else if (!memcmp(Name, "P/", 2))
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{
Name += 2;
int PrimitiveIndex = FindPrimitiveIndex(Name);
if (PrimitiveIndex == -1)
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mPrimitives.AddSorted(new lcLibraryPrimitive(Name, ZipFileType, FileIdx, (memcmp(Name, "STU", 3) == 0), false), lcPrimitiveCompare);
else
mPrimitives[PrimitiveIndex]->SetZipFile(ZipFileType, FileIdx);
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}
}
return true;
}
void lcPiecesLibrary::ReadArchiveDescriptions(const QString& OfficialFileName, const QString& UnofficialFileName)
{
QFileInfo OfficialInfo(OfficialFileName);
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QFileInfo UnofficialInfo(UnofficialFileName);
mArchiveCheckSum[0] = OfficialInfo.size();
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#if (QT_VERSION >= QT_VERSION_CHECK(4, 7, 0))
mArchiveCheckSum[1] = OfficialInfo.lastModified().toMSecsSinceEpoch();
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#else
mArchiveCheckSum[1] = OfficialInfo.lastModified().toTime_t();
#endif
if (!UnofficialFileName.isEmpty())
{
mArchiveCheckSum[2] = UnofficialInfo.size();
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#if (QT_VERSION >= QT_VERSION_CHECK(4, 7, 0))
mArchiveCheckSum[3] = UnofficialInfo.lastModified().toMSecsSinceEpoch();
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#else
mArchiveCheckSum[3] = UnofficialInfo.lastModified().toTime_t();
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#endif
}
else
{
mArchiveCheckSum[2] = 0;
mArchiveCheckSum[3] = 0;
}
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QString IndexFileName = QFileInfo(QDir(mCachePath), QLatin1String("index")).absoluteFilePath();
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if (!LoadCacheIndex(IndexFileName))
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{
lcMemFile PieceFile;
for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
{
PieceInfo* Info = mPieces[PieceInfoIndex];
mZipFiles[Info->mZipFileType]->ExtractFile(Info->mZipFileIndex, PieceFile, 256);
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PieceFile.Seek(0, SEEK_END);
PieceFile.WriteU8(0);
char* Src = (char*)PieceFile.mBuffer + 2;
char* Dst = Info->m_strDescription;
for (;;)
{
if (*Src != '\r' && *Src != '\n' && *Src && Dst - Info->m_strDescription < (int)sizeof(Info->m_strDescription) - 1)
{
*Dst++ = *Src++;
continue;
}
*Dst = 0;
break;
}
}
SaveCacheIndex(IndexFileName);
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}
}
bool lcPiecesLibrary::OpenDirectory(const char* Path)
{
char FileName[LC_MAXPATH];
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lcArray<String> FileList;
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strcpy(FileName, Path);
strcat(FileName, "parts.lst");
lcDiskFile PartsList;
if (PartsList.Open(FileName, "rt"))
{
char Line[1024];
while (PartsList.ReadLine(Line, sizeof(Line)))
{
char* Chr = Line;
char* Ext = NULL;
while (*Chr)
{
if (*Chr >= 'a' && *Chr <= 'z')
*Chr = *Chr + 'A' - 'a';
else if (*Chr == '.')
Ext = Chr;
else if (isspace(*Chr))
{
*Chr++ = 0;
break;
}
Chr++;
}
if (Ext && !strcmp(Ext, ".DAT"))
*Ext = 0;
while (*Chr && isspace(*Chr))
Chr++;
char* Description = Chr;
while (*Chr)
{
if (*Chr == '\r' || *Chr == '\n')
{
*Chr = 0;
break;
}
Chr++;
}
if (!*Line || !*Description)
continue;
PieceInfo* Info = new PieceInfo();
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mPieces.Add(Info);
strncpy(Info->m_strName, Line, sizeof(Info->m_strName));
Info->m_strName[sizeof(Info->m_strName) - 1] = 0;
strncpy(Info->m_strDescription, Description, sizeof(Info->m_strDescription));
Info->m_strDescription[sizeof(Info->m_strDescription) - 1] = 0;
}
}
if (!mPieces.GetSize())
{
strcpy(FileName, Path);
strcat(FileName, "parts/");
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size_t PathLength = strlen(FileName);
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g_App->GetFileList(FileName, FileList);
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mPieces.AllocGrow(FileList.GetSize());
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for (int FileIdx = 0; FileIdx < FileList.GetSize(); FileIdx++)
{
char Name[LC_PIECE_NAME_LEN];
const char* Src = (const char*)FileList[FileIdx] + PathLength;
char* Dst = Name;
while (*Src && Dst - Name < (int)sizeof(Name))
{
if (*Src >= 'a' && *Src <= 'z')
*Dst = *Src + 'A' - 'a';
else if (*Src == '\\')
*Dst = '/';
else
*Dst = *Src;
Src++;
Dst++;
}
if (Dst - Name <= 4)
continue;
Dst -= 4;
if (memcmp(Dst, ".DAT", 4))
continue;
*Dst = 0;
lcDiskFile PieceFile;
if (!PieceFile.Open(FileList[FileIdx], "rt"))
continue;
char Line[1024];
if (!PieceFile.ReadLine(Line, sizeof(Line)))
continue;
PieceInfo* Info = new PieceInfo();
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mPieces.Add(Info);
Src = (char*)Line + 2;
Dst = Info->m_strDescription;
for (;;)
{
if (*Src != '\r' && *Src != '\n' && *Src && Dst - Info->m_strDescription < (int)sizeof(Info->m_strDescription) - 1)
{
*Dst++ = *Src++;
continue;
}
*Dst = 0;
break;
}
strncpy(Info->m_strName, Name, sizeof(Info->m_strName));
Info->m_strName[sizeof(Info->m_strName) - 1] = 0;
}
}
if (!mPieces.GetSize())
return false;
const char* PrimitiveDirectories[] = { "p/", "p/48/", "parts/s/" };
bool SubFileDirectories[] = { false, false, true };
for (int DirectoryIdx = 0; DirectoryIdx < (int)(sizeof(PrimitiveDirectories) / sizeof(PrimitiveDirectories[0])); DirectoryIdx++)
{
strcpy(FileName, Path);
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size_t PathLength = strlen(FileName);
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strcat(FileName, PrimitiveDirectories[DirectoryIdx]);
PathLength += strchr(PrimitiveDirectories[DirectoryIdx], '/') - PrimitiveDirectories[DirectoryIdx] + 1;
g_App->GetFileList(FileName, FileList);
for (int FileIdx = 0; FileIdx < FileList.GetSize(); FileIdx++)
{
char Name[LC_PIECE_NAME_LEN];
const char* Src = (const char*)FileList[FileIdx] + PathLength;
char* Dst = Name;
while (*Src && Dst - Name < (int)sizeof(Name))
{
if (*Src >= 'a' && *Src <= 'z')
*Dst = *Src + 'A' - 'a';
else if (*Src == '\\')
*Dst = '/';
else
*Dst = *Src;
Src++;
Dst++;
}
if (Dst - Name <= 4)
continue;
Dst -= 4;
if (memcmp(Dst, ".DAT", 4))
continue;
*Dst = 0;
bool SubFile = SubFileDirectories[DirectoryIdx];
lcLibraryPrimitive* Prim = new lcLibraryPrimitive(Name, LC_NUM_ZIPFILES, 0, !SubFile && (memcmp(Name, "STU", 3) == 0), SubFile);
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mPrimitives.AddSorted(Prim, lcPrimitiveCompare);
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}
}
strcpy(FileName, Path);
strcat(FileName, "parts/textures/");
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size_t PathLength = strlen(FileName);
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g_App->GetFileList(FileName, FileList);
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mTextures.AllocGrow(FileList.GetSize());
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for (int FileIdx = 0; FileIdx < FileList.GetSize(); FileIdx++)
{
char Name[LC_MAXPATH];
const char* Src = (const char*)FileList[FileIdx] + PathLength;
char* Dst = Name;
while (*Src && Dst - Name < (int)sizeof(Name))
{
if (*Src >= 'a' && *Src <= 'z')
*Dst = *Src + 'A' - 'a';
else if (*Src == '\\')
*Dst = '/';
else
*Dst = *Src;
Src++;
Dst++;
}
if (Dst - Name <= 4)
continue;
Dst -= 4;
if (memcmp(Dst, ".PNG", 4))
continue;
*Dst = 0;
lcTexture* Texture = new lcTexture();
mTextures.Add(Texture);
strncpy(Texture->mName, Name, sizeof(Texture->mName));
Texture->mName[sizeof(Texture->mName) - 1] = 0;
}
return true;
}
bool lcPiecesLibrary::ReadCacheFile(const QString& FileName, lcMemFile& CacheFile)
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{
QFile File(FileName);
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if (!File.open(QIODevice::ReadOnly))
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return false;
quint32 CacheVersion, CacheFlags;
if (File.read((char*)&CacheVersion, sizeof(CacheVersion)) == -1 || CacheVersion != LC_LIBRARY_CACHE_VERSION)
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return false;
if (File.read((char*)&CacheFlags, sizeof(CacheFlags)) == -1 || CacheFlags != LC_LIBRARY_CACHE_ARCHIVE)
return false;
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qint64 CacheCheckSum[4];
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if (File.read((char*)&CacheCheckSum, sizeof(CacheCheckSum)) == -1 || memcmp(CacheCheckSum, mArchiveCheckSum, sizeof(CacheCheckSum)))
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return false;
quint32 UncompressedSize;
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if (File.read((char*)&UncompressedSize, sizeof(UncompressedSize)) == -1)
return false;
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QByteArray CompressedData = File.readAll();
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CacheFile.SetLength(UncompressedSize);
CacheFile.Seek(0, SEEK_SET);
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const int CHUNK = 16384;
int ret;
unsigned have;
z_stream strm;
unsigned char in[CHUNK];
unsigned char out[CHUNK];
int pos;
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strm.zalloc = Z_NULL;
strm.zfree = Z_NULL;
strm.opaque = Z_NULL;
strm.avail_in = 0;
strm.next_in = Z_NULL;
pos = 0;
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ret = inflateInit2(&strm, -MAX_WBITS);
if (ret != Z_OK)
return ret;
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do
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{
strm.avail_in = lcMin(CompressedData.size() - pos, CHUNK);
strm.next_in = in;
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if (strm.avail_in == 0)
break;
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memcpy(in, CompressedData.constData() + pos, strm.avail_in);
pos += strm.avail_in;
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do
{
strm.avail_out = CHUNK;
strm.next_out = out;
ret = inflate(&strm, Z_NO_FLUSH);
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switch (ret)
{
case Z_NEED_DICT:
ret = Z_DATA_ERROR;
case Z_DATA_ERROR:
case Z_MEM_ERROR:
(void)inflateEnd(&strm);
return ret;
}
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have = CHUNK - strm.avail_out;
CacheFile.WriteBuffer(out, have);
} while (strm.avail_out == 0);
} while (ret != Z_STREAM_END);
(void)inflateEnd(&strm);
CacheFile.Seek(0, SEEK_SET);
return ret == Z_STREAM_END;
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}
bool lcPiecesLibrary::WriteCacheFile(const QString& FileName, lcMemFile& CacheFile)
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{
QFile File(FileName);
if (!File.open(QIODevice::WriteOnly))
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return false;
quint32 CacheVersion = LC_LIBRARY_CACHE_VERSION;
quint32 CacheFlags = LC_LIBRARY_CACHE_ARCHIVE;
if (File.write((char*)&CacheVersion, sizeof(CacheVersion)) == -1)
return false;
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if (File.write((char*)&CacheFlags, sizeof(CacheFlags)) == -1)
return false;
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if (File.write((char*)&mArchiveCheckSum, sizeof(mArchiveCheckSum)) == -1)
return false;
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quint32 UncompressedSize = (quint32)CacheFile.GetLength();
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if (File.write((char*)&UncompressedSize, sizeof(UncompressedSize)) == -1)
return false;
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const size_t BufferSize = 16384;
char WriteBuffer[BufferSize];
z_stream Stream;
lcuint32 Crc32 = 0;
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CacheFile.Seek(0, SEEK_SET);
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Stream.zalloc = (alloc_func)0;
Stream.zfree = (free_func)0;
Stream.opaque = (voidpf)0;
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if (deflateInit2(&Stream, Z_DEFAULT_COMPRESSION, Z_DEFLATED, -MAX_WBITS, DEF_MEM_LEVEL, Z_DEFAULT_STRATEGY) != Z_OK)
return false;
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Bytef* BufferIn = CacheFile.mBuffer;
int FlushMode;
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do
{
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uInt Read = (uInt)lcMin(CacheFile.GetLength() - (BufferIn - CacheFile.mBuffer), BufferSize);
Stream.avail_in = Read;
Stream.next_in = BufferIn;
Crc32 = crc32(Crc32, BufferIn, Read);
BufferIn += Read;
FlushMode = (BufferIn >= CacheFile.mBuffer + CacheFile.GetLength()) ? Z_FINISH : Z_NO_FLUSH;
do
{
Stream.avail_out = BufferSize;
Stream.next_out = (Bytef*)WriteBuffer;
deflate(&Stream, FlushMode);
File.write(WriteBuffer, BufferSize - Stream.avail_out);
} while (Stream.avail_out == 0);
} while (FlushMode != Z_FINISH);
deflateEnd(&Stream);
return true;
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}
bool lcPiecesLibrary::LoadCacheIndex(const QString& FileName)
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{
lcMemFile IndexFile;
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if (!ReadCacheFile(FileName, IndexFile))
return false;
qint32 NumFiles;
if (IndexFile.ReadBuffer((char*)&NumFiles, sizeof(NumFiles)) == 0 || NumFiles != mPieces.GetSize())
return false;
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for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
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{
PieceInfo* Info = mPieces[PieceInfoIndex];
quint8 Length;
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if (IndexFile.ReadBuffer((char*)&Length, sizeof(Length)) == 0 || Length >= sizeof(Info->m_strDescription))
return false;
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if (IndexFile.ReadBuffer((char*)Info->m_strDescription, Length) == 0 || IndexFile.ReadBuffer((char*)&Info->mFlags, sizeof(Info->mFlags)) == 0)
return false;
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Info->m_strDescription[Length] = 0;
}
return true;
}
bool lcPiecesLibrary::SaveCacheIndex(const QString& FileName)
{
lcMemFile IndexFile;
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qint32 NumFiles = mPieces.GetSize();
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if (IndexFile.WriteBuffer((char*)&NumFiles, sizeof(NumFiles)) == 0)
return false;
for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
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{
PieceInfo* Info = mPieces[PieceInfoIndex];
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quint8 Length = (quint8)strlen(Info->m_strDescription);
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if (IndexFile.WriteBuffer((char*)&Length, sizeof(Length)) == 0)
return false;
if (IndexFile.WriteBuffer((char*)Info->m_strDescription, Length) == 0 || IndexFile.WriteBuffer((char*)&Info->mFlags, sizeof(Info->mFlags)) == 0)
return false;
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}
return WriteCacheFile(FileName, IndexFile);
}
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bool lcPiecesLibrary::LoadCachePiece(PieceInfo* Info)
{
QString FileName = QFileInfo(QDir(mCachePath), QString::fromLatin1(Info->m_strName)).absoluteFilePath();
lcMemFile MeshData;
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if (!ReadCacheFile(FileName, MeshData))
return false;
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quint32 Flags;
if (MeshData.ReadBuffer((char*)&Flags, sizeof(Flags)) == 0)
return false;
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Info->mFlags = Flags;
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lcMesh* Mesh = new lcMesh;
if (Mesh->FileLoad(MeshData))
{
Info->SetMesh(Mesh);
return true;
}
else
{
delete Mesh;
return false;
}
}
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bool lcPiecesLibrary::SaveCachePiece(PieceInfo* Info)
{
lcMemFile MeshData;
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quint32 Flags = Info->mFlags;
if (MeshData.WriteBuffer((char*)&Flags, sizeof(Flags)) == 0)
return false;
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if (!Info->GetMesh()->FileSave(MeshData))
return false;
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QString FileName = QFileInfo(QDir(mCachePath), QString::fromLatin1(Info->m_strName)).absoluteFilePath();
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return WriteCacheFile(FileName, MeshData);
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}
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static void lcLoadPieceFuture(lcPiecesLibrary* Library)
{
Library->LoadQueuedPiece();
}
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class lcSleeper : public QThread
{
public:
static void msleep(unsigned long Msecs)
{
QThread::msleep(Msecs);
}
};
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void lcPiecesLibrary::LoadPieceInfo(PieceInfo* Info, bool Wait, bool Priority)
{
QMutexLocker LoadLock(&mLoadMutex);
if (Wait)
{
if (Info->AddRef() == 1)
Info->Load();
else
{
if (Info->mState == LC_PIECEINFO_UNLOADED)
{
Info->Load();
emit PartLoaded(Info);
}
else
{
LoadLock.unlock();
while (Info->mState != LC_PIECEINFO_LOADED)
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lcSleeper::msleep(10);
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}
}
}
else
{
if (Info->AddRef() == 1)
{
if (Priority)
mLoadQueue.prepend(Info);
else
mLoadQueue.append(Info);
mLoadFutures.append(QtConcurrent::run(lcLoadPieceFuture, this));
}
}
}
void lcPiecesLibrary::ReleasePieceInfo(PieceInfo* Info)
{
QMutexLocker LoadLock(&mLoadMutex);
if (Info->GetRefCount() == 0 || Info->Release() == 0)
Info->Unload();
}
void lcPiecesLibrary::LoadQueuedPiece()
{
mLoadMutex.lock();
PieceInfo* Info = NULL;
while (!mLoadQueue.isEmpty())
{
Info = mLoadQueue.takeFirst();
if (Info->mState == LC_PIECEINFO_UNLOADED && Info->GetRefCount() > 0)
{
Info->mState = LC_PIECEINFO_LOADING;
break;
}
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Info = NULL;
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}
mLoadMutex.unlock();
if (Info)
Info->Load();
emit PartLoaded(Info);
}
void lcPiecesLibrary::WaitForLoadQueue()
{
for (QFuture<void>& Future : mLoadFutures)
Future.waitForFinished();
mLoadFutures.clear();
}
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struct lcMergeSection
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{
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lcLibraryMeshSection* Shared;
lcLibraryMeshSection* Lod;
};
static int LibraryMeshSectionCompare(lcMergeSection const& First, lcMergeSection const& Second)
{
lcLibraryMeshSection* a = First.Lod ? First.Lod : First.Shared;
lcLibraryMeshSection* b = Second.Lod ? Second.Lod : Second.Shared;
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if (a->mPrimitiveType != b->mPrimitiveType)
{
int PrimitiveOrder[LC_MESH_NUM_PRIMITIVE_TYPES] =
{
LC_MESH_TRIANGLES,
LC_MESH_TEXTURED_TRIANGLES,
LC_MESH_LINES,
LC_MESH_TEXTURED_LINES,
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LC_MESH_CONDITIONAL_LINES
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};
for (int PrimitiveType = 0; PrimitiveType < LC_MESH_NUM_PRIMITIVE_TYPES; PrimitiveType++)
{
int Primitive = PrimitiveOrder[PrimitiveType];
if (a->mPrimitiveType == Primitive)
return -1;
if (b->mPrimitiveType == Primitive)
return 1;
}
}
bool TranslucentA = lcIsColorTranslucent(a->mColor);
bool TranslucentB = lcIsColorTranslucent(b->mColor);
if (TranslucentA != TranslucentB)
return TranslucentA ? 1 : -1;
return a->mColor > b->mColor ? -1 : 1;
}
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bool lcPiecesLibrary::LoadPieceData(PieceInfo* Info)
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{
lcLibraryMeshData MeshData;
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lcArray<lcLibraryTextureMap> TextureStack;
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bool Loaded = false;
bool SaveCache = false;
if (Info->mZipFileType != LC_NUM_ZIPFILES && mZipFiles[Info->mZipFileType])
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{
if (LoadCachePiece(Info))
return true;
lcMemFile PieceFile;
if (mZipFiles[Info->mZipFileType]->ExtractFile(Info->mZipFileIndex, PieceFile))
Loaded = ReadMeshData(PieceFile, lcMatrix44Identity(), 16, TextureStack, MeshData, LC_MESHDATA_SHARED, true);
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SaveCache = Loaded && (Info->mZipFileType == LC_ZIPFILE_OFFICIAL);
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}
else
{
char Name[LC_PIECE_NAME_LEN];
strcpy(Name, Info->m_strName);
strlwr(Name);
char FileName[LC_MAXPATH];
lcDiskFile PieceFile;
sprintf(FileName, "%sparts/%s.dat", mLibraryPath, Name);
if (PieceFile.Open(FileName, "rt"))
Loaded = ReadMeshData(PieceFile, lcMatrix44Identity(), 16, TextureStack, MeshData, LC_MESHDATA_SHARED, true);
}
if (!Loaded)
return false;
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CreateMesh(Info, MeshData);
if (SaveCache)
SaveCachePiece(Info);
return true;
}
lcMesh* lcPiecesLibrary::CreateMesh(PieceInfo* Info, lcLibraryMeshData& MeshData)
{
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lcMesh* Mesh = new lcMesh();
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int BaseVertices[LC_NUM_MESHDATA_TYPES];
int BaseTexturedVertices[LC_NUM_MESHDATA_TYPES];
int NumVertices = 0;
int NumTexturedVertices = 0;
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for (int MeshDataIdx = 0; MeshDataIdx < LC_NUM_MESHDATA_TYPES; MeshDataIdx++)
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{
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lcArray<lcLibraryMeshSection*>& Sections = MeshData.mSections[MeshDataIdx];
for (int SectionIdx = 0; SectionIdx < Sections.GetSize(); SectionIdx++)
{
lcLibraryMeshSection* Section = Sections[SectionIdx];
Section->mColor = lcGetColorIndex(Section->mColor);
}
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BaseVertices[MeshDataIdx] = NumVertices;
NumVertices += MeshData.mVertices[MeshDataIdx].GetSize();
BaseTexturedVertices[MeshDataIdx] = NumTexturedVertices;
NumTexturedVertices += MeshData.mTexturedVertices[MeshDataIdx].GetSize();
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}
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lcuint16 NumSections[LC_NUM_MESH_LODS];
int NumIndices = 0;
lcArray<lcMergeSection> MergeSections[LC_NUM_MESH_LODS];
for (int LodIdx = 0; LodIdx < LC_NUM_MESH_LODS; LodIdx++)
{
const lcArray<lcLibraryMeshSection*>& SharedSections = MeshData.mSections[LC_MESHDATA_SHARED];
const lcArray<lcLibraryMeshSection*>& Sections = MeshData.mSections[LodIdx];
for (int SharedSectionIdx = 0; SharedSectionIdx < SharedSections.GetSize(); SharedSectionIdx++)
{
lcLibraryMeshSection* SharedSection = SharedSections[SharedSectionIdx];
NumIndices += SharedSection->mIndices.GetSize();
lcMergeSection& MergeSection = MergeSections[LodIdx].Add();
MergeSection.Shared = SharedSection;
MergeSection.Lod = NULL;
}
for (int SectionIdx = 0; SectionIdx < Sections.GetSize(); SectionIdx++)
{
lcLibraryMeshSection* Section = Sections[SectionIdx];
bool Found = false;
NumIndices += Section->mIndices.GetSize();
for (int SharedSectionIdx = 0; SharedSectionIdx < SharedSections.GetSize(); SharedSectionIdx++)
{
lcLibraryMeshSection* SharedSection = SharedSections[SharedSectionIdx];
if (SharedSection->mColor == Section->mColor && SharedSection->mPrimitiveType == Section->mPrimitiveType && SharedSection->mTexture == Section->mTexture)
{
lcMergeSection& MergeSection = MergeSections[LodIdx][SharedSectionIdx];
MergeSection.Lod = Section;
Found = true;
break;
}
}
if (!Found)
{
lcMergeSection& MergeSection = MergeSections[LodIdx].Add();
MergeSection.Shared = NULL;
MergeSection.Lod = Section;
}
}
NumSections[LodIdx] = MergeSections[LodIdx].GetSize();
MergeSections[LodIdx].Sort(LibraryMeshSectionCompare);
}
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Mesh->Create(NumSections, NumVertices, NumTexturedVertices, NumIndices);
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lcVertex* DstVerts = (lcVertex*)Mesh->mVertexData;
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lcVector3 Min(FLT_MAX, FLT_MAX, FLT_MAX), Max(-FLT_MAX, -FLT_MAX, -FLT_MAX);
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for (int MeshDataIdx = 0; MeshDataIdx < LC_NUM_MESHDATA_TYPES; MeshDataIdx++)
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{
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const lcArray<lcVertex>& Vertices = MeshData.mVertices[MeshDataIdx];
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for (int VertexIdx = 0; VertexIdx < Vertices.GetSize(); VertexIdx++)
{
lcVertex& DstVertex = *DstVerts++;
const lcVector3& SrcPosition = Vertices[VertexIdx].Position;
lcVector3& DstPosition = DstVertex.Position;
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DstPosition = lcVector3(SrcPosition.x, SrcPosition.z, -SrcPosition.y);
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Min = lcMin(Min, DstPosition);
Max = lcMax(Max, DstPosition);
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}
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}
lcVertexTextured* DstTexturedVerts = (lcVertexTextured*)DstVerts;
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for (int MeshDataIdx = 0; MeshDataIdx < LC_NUM_MESHDATA_TYPES; MeshDataIdx++)
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{
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const lcArray<lcVertexTextured>& TexturedVertices = MeshData.mTexturedVertices[MeshDataIdx];
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for (int VertexIdx = 0; VertexIdx < TexturedVertices.GetSize(); VertexIdx++)
{
lcVertexTextured& DstVertex = *DstTexturedVerts++;
const lcVertexTextured& SrcVertex = TexturedVertices[VertexIdx];
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const lcVector3& SrcPosition = SrcVertex.Position;
lcVector3& DstPosition = DstVertex.Position;
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DstPosition = lcVector3(SrcPosition.x, SrcPosition.z, -SrcPosition.y);
DstVertex.TexCoord = SrcVertex.TexCoord;
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Min = lcMin(Min, DstPosition);
Max = lcMax(Max, DstPosition);
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}
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}
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Mesh->mBoundingBox.Max = Max;
Mesh->mBoundingBox.Min = Min;
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Mesh->mRadius = lcLength((Max - Min) / 2.0f);
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NumIndices = 0;
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for (int LodIdx = 0; LodIdx < LC_NUM_MESH_LODS; LodIdx++)
{
for (int SectionIdx = 0; SectionIdx < MergeSections[LodIdx].GetSize(); SectionIdx++)
{
lcMergeSection& MergeSection = MergeSections[LodIdx][SectionIdx];
lcMeshSection& DstSection = Mesh->mLods[LodIdx].Sections[SectionIdx];
lcLibraryMeshSection* SetupSection = MergeSection.Shared ? MergeSection.Shared : MergeSection.Lod;
DstSection.ColorIndex = SetupSection->mColor;
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DstSection.PrimitiveType = SetupSection->mPrimitiveType;
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DstSection.NumIndices = 0;
DstSection.Texture = SetupSection->mTexture;
if (DstSection.Texture)
DstSection.Texture->AddRef();
if (Mesh->mNumVertices < 0x10000)
{
DstSection.IndexOffset = NumIndices * 2;
lcuint16* Index = (lcuint16*)Mesh->mIndexData + NumIndices;
if (MergeSection.Shared)
{
lcuint16 BaseVertex = DstSection.Texture ? BaseTexturedVertices[LC_MESHDATA_SHARED] : BaseVertices[LC_MESHDATA_SHARED];
lcLibraryMeshSection* SrcSection = MergeSection.Shared;
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
*Index++ = BaseVertex + SrcSection->mIndices[IndexIdx];
DstSection.NumIndices += SrcSection->mIndices.GetSize();
}
if (MergeSection.Lod)
{
lcuint16 BaseVertex = DstSection.Texture ? BaseTexturedVertices[LodIdx] : BaseVertices[LodIdx];
lcLibraryMeshSection* SrcSection = MergeSection.Lod;
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
*Index++ = BaseVertex + SrcSection->mIndices[IndexIdx];
DstSection.NumIndices += SrcSection->mIndices.GetSize();
}
}
else
{
DstSection.IndexOffset = NumIndices * 4;
lcuint32* Index = (lcuint32*)Mesh->mIndexData + NumIndices;
if (MergeSection.Shared)
{
lcuint32 BaseVertex = DstSection.Texture ? BaseTexturedVertices[LC_MESHDATA_SHARED] : BaseVertices[LC_MESHDATA_SHARED];
lcLibraryMeshSection* SrcSection = MergeSection.Shared;
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
*Index++ = BaseVertex + SrcSection->mIndices[IndexIdx];
DstSection.NumIndices += SrcSection->mIndices.GetSize();
}
if (MergeSection.Lod)
{
lcuint32 BaseVertex = DstSection.Texture ? BaseTexturedVertices[LodIdx] : BaseVertices[LodIdx];
lcLibraryMeshSection* SrcSection = MergeSection.Lod;
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for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
*Index++ = BaseVertex + SrcSection->mIndices[IndexIdx];
DstSection.NumIndices += SrcSection->mIndices.GetSize();
}
}
if (Info)
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{
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if (DstSection.PrimitiveType == LC_MESH_TRIANGLES || DstSection.PrimitiveType == LC_MESH_TEXTURED_TRIANGLES)
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{
if (DstSection.ColorIndex == gDefaultColor)
Info->mFlags |= LC_PIECE_HAS_DEFAULT;
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else
{
if (lcIsColorTranslucent(DstSection.ColorIndex))
Info->mFlags |= LC_PIECE_HAS_TRANSLUCENT;
else
Info->mFlags |= LC_PIECE_HAS_SOLID;
}
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}
else
Info->mFlags |= LC_PIECE_HAS_LINES;
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}
NumIndices += DstSection.NumIndices;
}
}
/*
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for (int SectionIdx = 0; SectionIdx < MeshData.mSections.GetSize(); SectionIdx++)
{
lcMeshSection& DstSection = Mesh->mSections[SectionIdx];
lcLibraryMeshSection* SrcSection = MeshData.mSections[SectionIdx];
DstSection.ColorIndex = SrcSection->mColor;
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DstSection.PrimitiveType = SrcSection->mPrimitiveType;
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DstSection.NumIndices = SrcSection->mIndices.GetSize();
DstSection.Texture = SrcSection->mTexture;
if (DstSection.Texture)
DstSection.Texture->AddRef();
if (Mesh->mNumVertices < 0x10000)
{
DstSection.IndexOffset = NumIndices * 2;
lcuint16* Index = (lcuint16*)Mesh->mIndexData + NumIndices;
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for (int IndexIdx = 0; IndexIdx < DstSection.NumIndices; IndexIdx++)
*Index++ = SrcSection->mIndices[IndexIdx];
}
else
{
DstSection.IndexOffset = NumIndices * 4;
lcuint32* Index = (lcuint32*)Mesh->mIndexData + NumIndices;
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for (int IndexIdx = 0; IndexIdx < DstSection.NumIndices; IndexIdx++)
*Index++ = SrcSection->mIndices[IndexIdx];
}
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if (DstSection.PrimitiveType == LC_MESH_TRIANGLES || DstSection.PrimitiveType == LC_MESH_TEXTURED_TRIANGLES)
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{
if (DstSection.ColorIndex == gDefaultColor)
Info->mFlags |= LC_PIECE_HAS_DEFAULT;
else
{
if (lcIsColorTranslucent(DstSection.ColorIndex))
Info->mFlags |= LC_PIECE_HAS_TRANSLUCENT;
else
Info->mFlags |= LC_PIECE_HAS_SOLID;
}
}
else
Info->mFlags |= LC_PIECE_HAS_LINES;
NumIndices += DstSection.NumIndices;
}
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*/
if (Info)
Info->SetMesh(Mesh);
return Mesh;
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}
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void lcPiecesLibrary::ReleaseBuffers(lcContext* Context)
{
Context->DestroyVertexBuffer(mVertexBuffer);
Context->DestroyIndexBuffer(mIndexBuffer);
mBuffersDirty = true;
}
void lcPiecesLibrary::UpdateBuffers(lcContext* Context)
{
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if (!gSupportsVertexBufferObject || !mBuffersDirty)
return;
int VertexDataSize = 0;
int IndexDataSize = 0;
for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
{
PieceInfo* Info = mPieces[PieceInfoIndex];
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lcMesh* Mesh = Info->IsPlaceholder() ? gPlaceholderMesh : Info->GetMesh();
if (!Mesh)
continue;
if (Mesh->mVertexDataSize > 16 * 1024 * 1024 || Mesh->mIndexDataSize > 16 * 1024 * 1024)
continue;
VertexDataSize += Mesh->mVertexDataSize;
IndexDataSize += Mesh->mIndexDataSize;
}
Context->DestroyVertexBuffer(mVertexBuffer);
Context->DestroyIndexBuffer(mIndexBuffer);
if (!VertexDataSize || !IndexDataSize)
return;
void* VertexData = malloc(VertexDataSize);
void* IndexData = malloc(IndexDataSize);
VertexDataSize = 0;
IndexDataSize = 0;
for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
{
PieceInfo* Info = mPieces[PieceInfoIndex];
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lcMesh* Mesh = Info->IsPlaceholder() ? gPlaceholderMesh : Info->GetMesh();
if (!Mesh)
continue;
if (Mesh->mVertexDataSize > 16 * 1024 * 1024 || Mesh->mIndexDataSize > 16 * 1024 * 1024)
continue;
Mesh->mVertexCacheOffset = VertexDataSize;
Mesh->mIndexCacheOffset = IndexDataSize;
memcpy((char*)VertexData + VertexDataSize, Mesh->mVertexData, Mesh->mVertexDataSize);
memcpy((char*)IndexData + IndexDataSize, Mesh->mIndexData, Mesh->mIndexDataSize);
VertexDataSize += Mesh->mVertexDataSize;
IndexDataSize += Mesh->mIndexDataSize;
}
mVertexBuffer = Context->CreateVertexBuffer(VertexDataSize, VertexData);
mIndexBuffer = Context->CreateIndexBuffer(IndexDataSize, IndexData);
mBuffersDirty = false;
free(VertexData);
free(IndexData);
}
void lcPiecesLibrary::UnloadUnusedParts()
{
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QMutexLocker LoadLock(&mLoadMutex);
for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
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{
PieceInfo* Info = mPieces[PieceInfoIndex];
if (Info->GetRefCount() == 0 && Info->mState != LC_PIECEINFO_UNLOADED)
ReleasePieceInfo(Info);
}
}
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bool lcPiecesLibrary::LoadTexture(lcTexture* Texture)
{
char Name[LC_MAXPATH], FileName[LC_MAXPATH];
strcpy(Name, Texture->mName);
strlwr(Name);
if (mZipFiles[LC_ZIPFILE_OFFICIAL])
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{
lcMemFile TextureFile;
sprintf(FileName, "ldraw/parts/textures/%s.png", Name);
if (!mZipFiles[LC_ZIPFILE_UNOFFICIAL] || !mZipFiles[LC_ZIPFILE_UNOFFICIAL]->ExtractFile(FileName, TextureFile))
if (!mZipFiles[LC_ZIPFILE_OFFICIAL]->ExtractFile(FileName, TextureFile))
return false;
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if (!Texture->Load(TextureFile))
return false;
}
else
{
sprintf(FileName, "%sparts/textures/%s.png", mLibraryPath, Name);
if (!Texture->Load(FileName))
return false;
}
return true;
}
int lcPiecesLibrary::FindPrimitiveIndex(const char* Name) const
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{
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int Count = mPrimitives.GetSize();
int Begin = 0;
int Middle;
if (Count == 0)
return -1;
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while (Count > 0)
{
int Half = Count >> 1;
Middle = Begin + Half;
if (strcmp(mPrimitives[Middle]->mName, Name) < 0)
{
Begin = Middle + 1;
Count -= Half + 1;
}
else
{
Count = Half;
}
}
if (Begin != mPrimitives.GetSize() && !strcmp(mPrimitives[Begin]->mName, Name))
return Begin;
else
return -1;
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}
bool lcPiecesLibrary::LoadPrimitive(int PrimitiveIndex)
{
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QMutexLocker LoadLock(&mLoadMutex);
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lcLibraryPrimitive* Primitive = mPrimitives[PrimitiveIndex];
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lcArray<lcLibraryTextureMap> TextureStack;
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if (mZipFiles[LC_ZIPFILE_OFFICIAL])
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{
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int LowPrimitiveIndex = -1;
if (Primitive->mStud && strncmp(Primitive->mName, "8/", 2))
{
char Name[LC_PIECE_NAME_LEN];
strcpy(Name, "8/");
strcat(Name, Primitive->mName);
LowPrimitiveIndex = FindPrimitiveIndex(Name);
}
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lcMemFile PrimFile;
if (!mZipFiles[Primitive->mZipFileType]->ExtractFile(Primitive->mZipFileIndex, PrimFile))
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return false;
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if (LowPrimitiveIndex == -1)
{
if (!ReadMeshData(PrimFile, lcMatrix44Identity(), 16, TextureStack, Primitive->mMeshData, LC_MESHDATA_SHARED, true))
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return false;
}
else
{
if (!ReadMeshData(PrimFile, lcMatrix44Identity(), 16, TextureStack, Primitive->mMeshData, LC_MESHDATA_HIGH, true))
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return false;
lcLibraryPrimitive* LowPrimitive = mPrimitives[LowPrimitiveIndex];
if (!mZipFiles[LowPrimitive->mZipFileType]->ExtractFile(LowPrimitive->mZipFileIndex, PrimFile))
return false;
TextureStack.RemoveAll();
if (!ReadMeshData(PrimFile, lcMatrix44Identity(), 16, TextureStack, Primitive->mMeshData, LC_MESHDATA_LOW, true))
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return false;
}
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}
else
{
char Name[LC_PIECE_NAME_LEN];
strcpy(Name, Primitive->mName);
strlwr(Name);
char FileName[LC_MAXPATH];
lcDiskFile PrimFile;
if (Primitive->mSubFile)
sprintf(FileName, "%sparts/%s.dat", mLibraryPath, Name);
else
sprintf(FileName, "%sp/%s.dat", mLibraryPath, Name);
if (!PrimFile.Open(FileName, "rt"))
return false;
if (!ReadMeshData(PrimFile, lcMatrix44Identity(), 16, TextureStack, Primitive->mMeshData, LC_MESHDATA_SHARED, true))
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return false;
}
Primitive->mLoaded = true;
return true;
}
bool lcPiecesLibrary::ReadMeshData(lcFile& File, const lcMatrix44& CurrentTransform, lcuint32 CurrentColorCode, lcArray<lcLibraryTextureMap>& TextureStack, lcLibraryMeshData& MeshData, lcMeshDataType MeshDataType, bool Optimize)
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{
char Buffer[1024];
char* Line;
while (File.ReadLine(Buffer, sizeof(Buffer)))
{
lcuint32 ColorCode, ColorCodeHex;
int LineType;
Line = Buffer;
if (sscanf(Line, "%d", &LineType) != 1)
continue;
if (LineType == 0)
{
char* Token = Line;
while (*Token && *Token <= 32)
Token++;
Token++;
while (*Token && *Token <= 32)
Token++;
char* End = Token;
while (*End && *End > 32)
End++;
*End = 0;
if (!strcmp(Token, "!TEXMAP"))
{
Token += 8;
while (*Token && *Token <= 32)
Token++;
End = Token;
while (*End && *End > 32)
End++;
*End = 0;
bool Start = false;
bool Next = false;
if (!strcmp(Token, "START"))
{
Token += 6;
Start = true;
}
else if (!strcmp(Token, "NEXT"))
{
Token += 5;
Next = true;
}
if (Start || Next)
{
while (*Token && *Token <= 32)
Token++;
End = Token;
while (*End && *End > 32)
End++;
*End = 0;
if (!strcmp(Token, "PLANAR"))
{
Token += 7;
char FileName[LC_MAXPATH];
lcVector3 Points[3];
sscanf(Token, "%f %f %f %f %f %f %f %f %f %s", &Points[0].x, &Points[0].y, &Points[0].z, &Points[1].x, &Points[1].y, &Points[1].z, &Points[2].x, &Points[2].y, &Points[2].z, FileName);
char* Ch;
for (Ch = FileName; *Ch; Ch++)
{
if (*Ch >= 'a' && *Ch <= 'z')
*Ch = *Ch + 'A' - 'a';
else if (*Ch == '\\')
*Ch = '/';
}
if (Ch - FileName > 4)
{
Ch -= 4;
if (!memcmp(Ch, ".PNG", 4))
*Ch = 0;
}
lcLibraryTextureMap& Map = TextureStack.Add();
Map.Next = false;
Map.Fallback = false;
Map.Texture = FindTexture(FileName);
for (int EdgeIdx = 0; EdgeIdx < 2; EdgeIdx++)
{
lcVector3 Normal = Points[EdgeIdx + 1] - Points[0];
float Length = lcLength(Normal);
Normal /= Length;
Map.Params[EdgeIdx].x = Normal.x / Length;
Map.Params[EdgeIdx].y = Normal.y / Length;
Map.Params[EdgeIdx].z = Normal.z / Length;
Map.Params[EdgeIdx].w = -lcDot(Normal, Points[0]) / Length;
}
}
}
else if (!strcmp(Token, "FALLBACK"))
{
if (TextureStack.GetSize())
TextureStack[TextureStack.GetSize() - 1].Fallback = true;
}
else if (!strcmp(Token, "END"))
{
if (TextureStack.GetSize())
TextureStack.RemoveIndex(TextureStack.GetSize() - 1);
}
continue;
}
else if (!strcmp(Token, "!:"))
{
Token += 3;
Line = Token;
if (!TextureStack.GetSize())
continue;
}
else
continue;
}
if (sscanf(Line, "%d %d", &LineType, &ColorCode) != 2)
continue;
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if (LineType < 1 || LineType > 5)
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continue;
if (ColorCode == 0)
{
sscanf(Line, "%d %i", &LineType, &ColorCodeHex);
if (ColorCode != ColorCodeHex)
ColorCode = ColorCodeHex | LC_COLOR_DIRECT;
}
if (ColorCode == 16)
ColorCode = CurrentColorCode;
lcLibraryTextureMap* TextureMap = NULL;
if (TextureStack.GetSize())
{
TextureMap = &TextureStack[TextureStack.GetSize() - 1];
if (TextureMap->Fallback)
continue;
}
int Dummy;
lcVector3 Points[4];
switch (LineType)
{
case 1:
{
char OriginalFileName[LC_MAXPATH];
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float fm[12];
sscanf(Line, "%d %i %f %f %f %f %f %f %f %f %f %f %f %f %s", &LineType, &Dummy, &fm[0], &fm[1], &fm[2], &fm[3], &fm[4], &fm[5], &fm[6], &fm[7], &fm[8], &fm[9], &fm[10], &fm[11], OriginalFileName);
char FileName[LC_MAXPATH];
strcpy(FileName, OriginalFileName);
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char* Ch;
for (Ch = FileName; *Ch; Ch++)
{
if (*Ch >= 'a' && *Ch <= 'z')
*Ch = *Ch + 'A' - 'a';
else if (*Ch == '\\')
*Ch = '/';
}
if (Ch - FileName > 4)
{
Ch -= 4;
if (!memcmp(Ch, ".DAT", 4))
*Ch = 0;
}
int PrimitiveIndex = FindPrimitiveIndex(FileName);
lcMatrix44 IncludeTransform(lcVector4(fm[3], fm[6], fm[9], 0.0f), lcVector4(fm[4], fm[7], fm[10], 0.0f), lcVector4(fm[5], fm[8], fm[11], 0.0f), lcVector4(fm[0], fm[1], fm[2], 1.0f));
IncludeTransform = lcMul(IncludeTransform, CurrentTransform);
if (PrimitiveIndex != -1)
{
lcLibraryPrimitive* Primitive = mPrimitives[PrimitiveIndex];
if (!Primitive->mLoaded && !LoadPrimitive(PrimitiveIndex))
continue;
if (Primitive->mStud)
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MeshData.AddMeshDataNoDuplicateCheck(Primitive->mMeshData, IncludeTransform, ColorCode, TextureMap, MeshDataType);
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else if (!Primitive->mSubFile)
{
if (Optimize)
MeshData.AddMeshData(Primitive->mMeshData, IncludeTransform, ColorCode, TextureMap, MeshDataType);
else
MeshData.AddMeshDataNoDuplicateCheck(Primitive->mMeshData, IncludeTransform, ColorCode, TextureMap, MeshDataType);
}
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else
{
if (mZipFiles[LC_ZIPFILE_OFFICIAL])
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{
lcMemFile IncludeFile;
if (!mZipFiles[Primitive->mZipFileType]->ExtractFile(Primitive->mZipFileIndex, IncludeFile))
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continue;
if (!ReadMeshData(IncludeFile, IncludeTransform, ColorCode, TextureStack, MeshData, MeshDataType, Optimize))
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continue;
}
else
{
char Name[LC_PIECE_NAME_LEN];
strcpy(Name, Primitive->mName);
strlwr(Name);
lcDiskFile IncludeFile;
if (Primitive->mSubFile)
sprintf(FileName, "%sparts/%s.dat", mLibraryPath, Name);
else
sprintf(FileName, "%sp/%s.dat", mLibraryPath, Name);
if (!IncludeFile.Open(FileName, "rt"))
continue;
if (!ReadMeshData(IncludeFile, IncludeTransform, ColorCode, TextureStack, MeshData, MeshDataType, Optimize))
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continue;
}
}
}
else
{
for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
{
PieceInfo* Info = mPieces[PieceInfoIndex];
if (strcmp(Info->m_strName, FileName))
continue;
if (mZipFiles[LC_ZIPFILE_OFFICIAL] && Info->mZipFileType != LC_NUM_ZIPFILES)
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{
lcMemFile IncludeFile;
if (mZipFiles[Info->mZipFileType]->ExtractFile(Info->mZipFileIndex, IncludeFile))
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ReadMeshData(IncludeFile, IncludeTransform, ColorCode, TextureStack, MeshData, MeshDataType, Optimize);
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}
else
{
char Name[LC_PIECE_NAME_LEN];
strcpy(Name, Info->m_strName);
strlwr(Name);
lcDiskFile IncludeFile;
sprintf(FileName, "%sparts/%s.dat", mLibraryPath, Name);
if (IncludeFile.Open(FileName, "rt"))
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ReadMeshData(IncludeFile, IncludeTransform, ColorCode, TextureStack, MeshData, MeshDataType, Optimize);
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}
break;
}
}
} break;
case 2:
{
sscanf(Line, "%d %i %f %f %f %f %f %f", &LineType, &Dummy, &Points[0].x, &Points[0].y, &Points[0].z, &Points[1].x, &Points[1].y, &Points[1].z);
Points[0] = lcMul31(Points[0], CurrentTransform);
Points[1] = lcMul31(Points[1], CurrentTransform);
if (TextureMap)
{
MeshData.AddTexturedLine(MeshDataType, LineType, ColorCode, *TextureMap, Points, Optimize);
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if (TextureMap->Next)
TextureStack.RemoveIndex(TextureStack.GetSize() - 1);
}
else
MeshData.AddLine(MeshDataType, LineType, ColorCode, Points, Optimize);
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} break;
case 3:
{
sscanf(Line, "%d %i %f %f %f %f %f %f %f %f %f", &LineType, &Dummy, &Points[0].x, &Points[0].y, &Points[0].z,
&Points[1].x, &Points[1].y, &Points[1].z, &Points[2].x, &Points[2].y, &Points[2].z);
Points[0] = lcMul31(Points[0], CurrentTransform);
Points[1] = lcMul31(Points[1], CurrentTransform);
Points[2] = lcMul31(Points[2], CurrentTransform);
if (TextureMap)
{
MeshData.AddTexturedLine(MeshDataType, LineType, ColorCode, *TextureMap, Points, Optimize);
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if (TextureMap->Next)
TextureStack.RemoveIndex(TextureStack.GetSize() - 1);
}
else
MeshData.AddLine(MeshDataType, LineType, ColorCode, Points, Optimize);
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} break;
case 4:
{
sscanf(Line, "%d %i %f %f %f %f %f %f %f %f %f %f %f %f", &LineType, &Dummy, &Points[0].x, &Points[0].y, &Points[0].z,
&Points[1].x, &Points[1].y, &Points[1].z, &Points[2].x, &Points[2].y, &Points[2].z, &Points[3].x, &Points[3].y, &Points[3].z);
Points[0] = lcMul31(Points[0], CurrentTransform);
Points[1] = lcMul31(Points[1], CurrentTransform);
Points[2] = lcMul31(Points[2], CurrentTransform);
Points[3] = lcMul31(Points[3], CurrentTransform);
if (TextureMap)
{
MeshData.AddTexturedLine(MeshDataType, LineType, ColorCode, *TextureMap, Points, Optimize);
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if (TextureMap->Next)
TextureStack.RemoveIndex(TextureStack.GetSize() - 1);
}
else
MeshData.AddLine(MeshDataType, LineType, ColorCode, Points, Optimize);
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} break;
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case 5:
{
sscanf(Line, "%d %i %f %f %f %f %f %f %f %f %f %f %f %f", &LineType, &Dummy, &Points[0].x, &Points[0].y, &Points[0].z,
&Points[1].x, &Points[1].y, &Points[1].z, &Points[2].x, &Points[2].y, &Points[2].z, &Points[3].x, &Points[3].y, &Points[3].z);
Points[0] = lcMul31(Points[0], CurrentTransform);
Points[1] = lcMul31(Points[1], CurrentTransform);
Points[2] = lcMul31(Points[2], CurrentTransform);
Points[3] = lcMul31(Points[3], CurrentTransform);
MeshData.AddLine(MeshDataType, LineType, ColorCode, Points, Optimize);
} break;
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}
}
return true;
}
void lcLibraryMeshData::ResequenceQuad(int* Indices, int a, int b, int c, int d)
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{
Indices[0] = a;
Indices[1] = b;
Indices[2] = c;
Indices[3] = d;
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}
void lcLibraryMeshData::TestQuad(int* QuadIndices, const lcVector3* Vertices)
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{
lcVector3 v01 = Vertices[1] - Vertices[0];
lcVector3 v02 = Vertices[2] - Vertices[0];
lcVector3 v03 = Vertices[3] - Vertices[0];
lcVector3 cp1 = lcCross(v01, v02);
lcVector3 cp2 = lcCross(v02, v03);
if (lcDot(cp1, cp2) > 0.0f)
return;
lcVector3 v12 = Vertices[2] - Vertices[1];
lcVector3 v13 = Vertices[3] - Vertices[1];
lcVector3 v23 = Vertices[3] - Vertices[2];
if (lcDot(lcCross(v12, v01), lcCross(v01, v13)) > 0.0f)
{
if (-lcDot(lcCross(v02, v12), lcCross(v12, v23)) > 0.0f)
ResequenceQuad(QuadIndices, 1, 2, 3, 0);
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else
ResequenceQuad(QuadIndices, 0, 3, 1, 2);
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}
else
{
if (-lcDot(lcCross(v02, v12), lcCross(v12, v23)) > 0.0f)
ResequenceQuad(QuadIndices, 0, 1, 3, 2);
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else
ResequenceQuad(QuadIndices, 1, 2, 3, 0);
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}
}
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lcLibraryMeshSection* lcLibraryMeshData::AddSection(lcMeshDataType MeshDataType, lcMeshPrimitiveType PrimitiveType, lcuint32 ColorCode, lcTexture* Texture)
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{
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lcArray<lcLibraryMeshSection*>& Sections = mSections[MeshDataType];
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lcLibraryMeshSection* Section;
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for (int SectionIdx = 0; SectionIdx < Sections.GetSize(); SectionIdx++)
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{
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Section = Sections[SectionIdx];
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if (Section->mColor == ColorCode && Section->mPrimitiveType == PrimitiveType && Section->mTexture == Texture)
return Section;
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}
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Section = new lcLibraryMeshSection(PrimitiveType, ColorCode, Texture);
Sections.Add(Section);
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return Section;
}
void lcLibraryMeshData::AddVertices(lcMeshDataType MeshDataType, int VertexCount, int* BaseVertex, lcVertex** VertexBuffer)
{
lcArray<lcVertex>& Vertices = mVertices[MeshDataType];
int CurrentSize = Vertices.GetSize();
Vertices.SetSize(CurrentSize + VertexCount);
*BaseVertex = CurrentSize;
*VertexBuffer = &Vertices[CurrentSize];
}
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void lcLibraryMeshData::AddIndices(lcMeshDataType MeshDataType, lcMeshPrimitiveType PrimitiveType, lcuint32 ColorCode, int IndexCount, lcuint32** IndexBuffer)
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{
lcLibraryMeshSection* Section = AddSection(MeshDataType, PrimitiveType, ColorCode, NULL);
lcArray<lcuint32>& Indices = Section->mIndices;
int CurrentSize = Indices.GetSize();
Indices.SetSize(CurrentSize + IndexCount);
*IndexBuffer = &Indices[CurrentSize];
}
void lcLibraryMeshData::AddLine(lcMeshDataType MeshDataType, int LineType, lcuint32 ColorCode, const lcVector3* Vertices, bool Optimize)
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{
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lcMeshPrimitiveType PrimitiveTypes[4] = { LC_MESH_LINES, LC_MESH_TRIANGLES, LC_MESH_TRIANGLES, LC_MESH_CONDITIONAL_LINES };
lcMeshPrimitiveType PrimitiveType = PrimitiveTypes[LineType - 2];
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lcLibraryMeshSection* Section = AddSection(MeshDataType, PrimitiveType, ColorCode, NULL);
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int QuadIndices[4] = { 0, 1, 2, 3 };
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if (LineType == 4)
TestQuad(QuadIndices, Vertices);
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int Indices[4] = { -1, -1, -1, -1 };
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for (int IndexIdx = 0; IndexIdx < lcMin(LineType, 4); IndexIdx++)
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{
const lcVector3& Position = Vertices[QuadIndices[IndexIdx]];
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lcArray<lcVertex>& VertexArray = mVertices[MeshDataType];
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if (Optimize)
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{
for (int VertexIdx = VertexArray.GetSize() - 1; VertexIdx >= 0; VertexIdx--)
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{
lcVertex& DstVertex = VertexArray[VertexIdx];
if (Position == DstVertex.Position)
{
Indices[IndexIdx] = VertexIdx;
break;
}
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}
}
if (Indices[IndexIdx] == -1)
{
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Indices[IndexIdx] = VertexArray.GetSize();
lcVertex& DstVertex = VertexArray.Add();
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DstVertex.Position = Position;
}
}
switch (LineType)
{
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case 5:
if (Indices[0] != Indices[1] && Indices[0] != Indices[2] && Indices[0] != Indices[3] && Indices[1] != Indices[2] && Indices[1] != Indices[3] && Indices[2] != Indices[3])
{
Section->mIndices.Add(Indices[0]);
Section->mIndices.Add(Indices[1]);
Section->mIndices.Add(Indices[2]);
Section->mIndices.Add(Indices[3]);
}
break;
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case 4:
if (Indices[0] != Indices[2] && Indices[0] != Indices[3] && Indices[2] != Indices[3])
{
Section->mIndices.Add(Indices[2]);
Section->mIndices.Add(Indices[3]);
Section->mIndices.Add(Indices[0]);
}
case 3:
if (Indices[0] != Indices[1] && Indices[0] != Indices[2] && Indices[1] != Indices[2])
{
Section->mIndices.Add(Indices[0]);
Section->mIndices.Add(Indices[1]);
Section->mIndices.Add(Indices[2]);
}
break;
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case 2:
if (Indices[0] != Indices[1])
{
Section->mIndices.Add(Indices[0]);
Section->mIndices.Add(Indices[1]);
}
break;
}
}
void lcLibraryMeshData::AddTexturedLine(lcMeshDataType MeshDataType, int LineType, lcuint32 ColorCode, const lcLibraryTextureMap& Map, const lcVector3* Vertices, bool Optimize)
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{
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lcMeshPrimitiveType PrimitiveType = (LineType == 2) ? LC_MESH_TEXTURED_LINES : LC_MESH_TEXTURED_TRIANGLES;
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lcLibraryMeshSection* Section = AddSection(MeshDataType, PrimitiveType, ColorCode, Map.Texture);
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int QuadIndices[4] = { 0, 1, 2, 3 };
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if (LineType == 4)
TestQuad(QuadIndices, Vertices);
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int Indices[4] = { -1, -1, -1, -1 };
for (int IndexIdx = 0; IndexIdx < LineType; IndexIdx++)
{
const lcVector3& Position = Vertices[QuadIndices[IndexIdx]];
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lcVector2 TexCoord(lcDot3(lcVector3(Position.x, Position.y, Position.z), Map.Params[0]) + Map.Params[0].w,
lcDot3(lcVector3(Position.x, Position.y, Position.z), Map.Params[1]) + Map.Params[1].w);
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lcArray<lcVertexTextured>& VertexArray = mTexturedVertices[MeshDataType];
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if (Optimize)
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{
for (int VertexIdx = VertexArray.GetSize() - 1; VertexIdx >= 0; VertexIdx--)
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{
lcVertexTextured& DstVertex = VertexArray[VertexIdx];
if (Position == DstVertex.Position && TexCoord == DstVertex.TexCoord)
{
Indices[IndexIdx] = VertexIdx;
break;
}
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}
}
if (Indices[IndexIdx] == -1)
{
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Indices[IndexIdx] = VertexArray.GetSize();
lcVertexTextured& DstVertex = VertexArray.Add();
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DstVertex.Position = Position;
DstVertex.TexCoord = TexCoord;
}
}
switch (LineType)
{
case 4:
if (Indices[0] != Indices[2] && Indices[0] != Indices[3] && Indices[2] != Indices[3])
{
Section->mIndices.Add(Indices[2]);
Section->mIndices.Add(Indices[3]);
Section->mIndices.Add(Indices[0]);
}
case 3:
if (Indices[0] != Indices[1] && Indices[0] != Indices[2] && Indices[1] != Indices[2])
{
Section->mIndices.Add(Indices[0]);
Section->mIndices.Add(Indices[1]);
Section->mIndices.Add(Indices[2]);
}
break;
case 2:
if (Indices[0] != Indices[1])
{
Section->mIndices.Add(Indices[0]);
Section->mIndices.Add(Indices[1]);
}
break;
}
}
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void lcLibraryMeshData::AddMeshData(const lcLibraryMeshData& Data, const lcMatrix44& Transform, lcuint32 CurrentColorCode, lcLibraryTextureMap* TextureMap, lcMeshDataType OverrideDestIndex)
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{
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for (int MeshDataIdx = 0; MeshDataIdx < LC_NUM_MESHDATA_TYPES; MeshDataIdx++)
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{
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int DestIndex = OverrideDestIndex == LC_MESHDATA_SHARED ? MeshDataIdx : OverrideDestIndex;
const lcArray<lcVertex>& DataVertices = Data.mVertices[MeshDataIdx];
lcArray<lcVertex>& Vertices = mVertices[DestIndex];
lcArray<lcVertexTextured>& TexturedVertices = mTexturedVertices[DestIndex];
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int VertexCount = DataVertices.GetSize();
lcArray<lcuint32> IndexRemap(VertexCount);
const float DistanceEpsilon = 0.05f;
if (!TextureMap)
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{
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Vertices.AllocGrow(VertexCount);
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for (int SrcVertexIdx = 0; SrcVertexIdx < VertexCount; SrcVertexIdx++)
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{
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lcVector3 Position = lcMul31(DataVertices[SrcVertexIdx].Position, Transform);
int Index = -1;
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for (int DstVertexIdx = Vertices.GetSize() - 1; DstVertexIdx >= 0; DstVertexIdx--)
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{
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lcVertex& DstVertex = Vertices[DstVertexIdx];
// if (Vertex == Vertices[DstVertexIdx])
if (fabsf(Position.x - DstVertex.Position.x) < DistanceEpsilon && fabsf(Position.y - DstVertex.Position.y) < DistanceEpsilon && fabsf(Position.z - DstVertex.Position.z) < DistanceEpsilon)
{
Index = DstVertexIdx;
break;
}
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}
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if (Index == -1)
{
Index = Vertices.GetSize();
lcVertex& DstVertex = Vertices.Add();
DstVertex.Position = Position;
}
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IndexRemap.Add(Index);
}
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}
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else
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{
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TexturedVertices.AllocGrow(VertexCount);
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for (int SrcVertexIdx = 0; SrcVertexIdx < VertexCount; SrcVertexIdx++)
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{
const lcVertex& SrcVertex = DataVertices[SrcVertexIdx];
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lcVector3 Position = lcMul31(SrcVertex.Position, Transform);
lcVector2 TexCoord(lcDot3(lcVector3(Position.x, Position.y, Position.z), TextureMap->Params[0]) + TextureMap->Params[0].w,
lcDot3(lcVector3(Position.x, Position.y, Position.z), TextureMap->Params[1]) + TextureMap->Params[1].w);
int Index = -1;
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for (int DstVertexIdx = TexturedVertices.GetSize() - 1; DstVertexIdx >= 0; DstVertexIdx--)
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{
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lcVertexTextured& DstVertex = TexturedVertices[DstVertexIdx];
// if (Vertex == mTexturedVertices[DstVertexIdx])
if (fabsf(Position.x - DstVertex.Position.x) < DistanceEpsilon && fabsf(Position.y - DstVertex.Position.y) < DistanceEpsilon && fabsf(Position.z - DstVertex.Position.z) < DistanceEpsilon &&
fabsf(TexCoord.x - DstVertex.TexCoord.x) < 0.01f && fabsf(TexCoord.y - DstVertex.TexCoord.y) < 0.01f)
{
Index = DstVertexIdx;
break;
}
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}
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if (Index == -1)
{
Index = TexturedVertices.GetSize();
lcVertexTextured& DstVertex = TexturedVertices.Add();
DstVertex.Position = Position;
DstVertex.TexCoord = TexCoord;
}
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IndexRemap.Add(Index);
}
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}
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const lcArray<lcVertexTextured>& DataTexturedVertices = Data.mTexturedVertices[MeshDataIdx];
int TexturedVertexCount = DataTexturedVertices.GetSize();
lcArray<lcuint32> TexturedIndexRemap(TexturedVertexCount);
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if (TexturedVertexCount)
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{
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TexturedVertices.AllocGrow(TexturedVertexCount);
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for (int SrcVertexIdx = 0; SrcVertexIdx < TexturedVertexCount; SrcVertexIdx++)
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{
const lcVertexTextured& SrcVertex = DataTexturedVertices[SrcVertexIdx];
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lcVector3 Position = lcMul31(SrcVertex.Position, Transform);
int Index = -1;
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for (int DstVertexIdx = TexturedVertices.GetSize() - 1; DstVertexIdx >= 0; DstVertexIdx--)
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{
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lcVertexTextured& DstVertex = TexturedVertices[DstVertexIdx];
// if (Vertex == mTexturedVertices[DstVertexIdx])
if (fabsf(Position.x - DstVertex.Position.x) < 0.1f && fabsf(Position.y - DstVertex.Position.y) < 0.1f && fabsf(Position.z - DstVertex.Position.z) < 0.1f &&
fabsf(SrcVertex.TexCoord.x - DstVertex.TexCoord.x) < 0.01f && fabsf(SrcVertex.TexCoord.y - DstVertex.TexCoord.y) < 0.01f)
{
Index = DstVertexIdx;
break;
}
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}
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if (Index == -1)
{
Index = TexturedVertices.GetSize();
lcVertexTextured& DstVertex = TexturedVertices.Add();
DstVertex.Position = Position;
DstVertex.TexCoord = SrcVertex.TexCoord;
}
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TexturedIndexRemap.Add(Index);
}
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}
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const lcArray<lcLibraryMeshSection*>& DataSections = Data.mSections[MeshDataIdx];
lcArray<lcLibraryMeshSection*>& Sections = mSections[DestIndex];
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for (int SrcSectionIdx = 0; SrcSectionIdx < DataSections.GetSize(); SrcSectionIdx++)
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{
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lcLibraryMeshSection* SrcSection = DataSections[SrcSectionIdx];
lcLibraryMeshSection* DstSection = NULL;
lcuint32 ColorCode = SrcSection->mColor == 16 ? CurrentColorCode : SrcSection->mColor;
lcTexture* Texture;
if (SrcSection->mTexture)
Texture = SrcSection->mTexture;
else if (TextureMap)
Texture = TextureMap->Texture;
else
Texture = NULL;
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for (int DstSectionIdx = 0; DstSectionIdx < Sections.GetSize(); DstSectionIdx++)
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{
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lcLibraryMeshSection* Section = Sections[DstSectionIdx];
if (Section->mColor == ColorCode && Section->mPrimitiveType == SrcSection->mPrimitiveType && Section->mTexture == Texture)
{
DstSection = Section;
break;
}
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}
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if (!DstSection)
{
DstSection = new lcLibraryMeshSection(SrcSection->mPrimitiveType, ColorCode, Texture);
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Sections.Add(DstSection);
}
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DstSection->mIndices.AllocGrow(SrcSection->mIndices.GetSize());
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if (!SrcSection->mTexture)
{
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
DstSection->mIndices.Add(IndexRemap[SrcSection->mIndices[IndexIdx]]);
}
else
{
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
DstSection->mIndices.Add(TexturedIndexRemap[SrcSection->mIndices[IndexIdx]]);
}
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}
}
}
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void lcLibraryMeshData::AddMeshDataNoDuplicateCheck(const lcLibraryMeshData& Data, const lcMatrix44& Transform, lcuint32 CurrentColorCode, lcLibraryTextureMap* TextureMap, lcMeshDataType OverrideDestIndex)
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{
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for (int MeshDataIdx = 0; MeshDataIdx < LC_NUM_MESHDATA_TYPES; MeshDataIdx++)
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{
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int DestIndex = OverrideDestIndex == LC_MESHDATA_SHARED ? MeshDataIdx : OverrideDestIndex;
const lcArray<lcVertex>& DataVertices = Data.mVertices[MeshDataIdx];
lcArray<lcVertex>& Vertices = mVertices[DestIndex];
lcArray<lcVertexTextured>& TexturedVertices = mTexturedVertices[DestIndex];
lcuint32 BaseIndex;
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if (!TextureMap)
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{
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BaseIndex = Vertices.GetSize();
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Vertices.SetGrow(lcMin(Vertices.GetSize(), 8 * 1024 * 1024));
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Vertices.AllocGrow(DataVertices.GetSize());
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for (int SrcVertexIdx = 0; SrcVertexIdx < DataVertices.GetSize(); SrcVertexIdx++)
{
lcVertex& Vertex = Vertices.Add();
Vertex.Position = lcMul31(DataVertices[SrcVertexIdx].Position, Transform);
}
}
else
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{
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BaseIndex = TexturedVertices.GetSize();
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TexturedVertices.AllocGrow(DataVertices.GetSize());
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for (int SrcVertexIdx = 0; SrcVertexIdx < DataVertices.GetSize(); SrcVertexIdx++)
{
const lcVertex& SrcVertex = DataVertices[SrcVertexIdx];
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lcVertexTextured& DstVertex = TexturedVertices.Add();
lcVector3 Position = lcMul31(SrcVertex.Position, Transform);
lcVector2 TexCoord(lcDot3(lcVector3(Position.x, Position.y, Position.z), TextureMap->Params[0]) + TextureMap->Params[0].w,
lcDot3(lcVector3(Position.x, Position.y, Position.z), TextureMap->Params[1]) + TextureMap->Params[1].w);
DstVertex.Position = Position;
DstVertex.TexCoord = TexCoord;
}
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}
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const lcArray<lcVertexTextured>& DataTexturedVertices = Data.mTexturedVertices[MeshDataIdx];
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int TexturedVertexCount = DataTexturedVertices.GetSize();
lcuint32 BaseTexturedIndex = TexturedVertices.GetSize();
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if (TexturedVertexCount)
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{
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TexturedVertices.AllocGrow(TexturedVertexCount);
for (int SrcVertexIdx = 0; SrcVertexIdx < TexturedVertexCount; SrcVertexIdx++)
{
const lcVertexTextured& SrcVertex = DataTexturedVertices[SrcVertexIdx];
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lcVertexTextured& DstVertex = TexturedVertices.Add();
DstVertex.Position = lcMul31(SrcVertex.Position, Transform);
DstVertex.TexCoord = SrcVertex.TexCoord;
}
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}
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const lcArray<lcLibraryMeshSection*>& DataSections = Data.mSections[MeshDataIdx];
lcArray<lcLibraryMeshSection*>& Sections = mSections[DestIndex];
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for (int SrcSectionIdx = 0; SrcSectionIdx < DataSections.GetSize(); SrcSectionIdx++)
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{
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lcLibraryMeshSection* SrcSection = DataSections[SrcSectionIdx];
lcLibraryMeshSection* DstSection = NULL;
lcuint32 ColorCode = SrcSection->mColor == 16 ? CurrentColorCode : SrcSection->mColor;
lcTexture* Texture;
if (SrcSection->mTexture)
Texture = SrcSection->mTexture;
else if (TextureMap)
Texture = TextureMap->Texture;
else
Texture = NULL;
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for (int DstSectionIdx = 0; DstSectionIdx < Sections.GetSize(); DstSectionIdx++)
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{
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lcLibraryMeshSection* Section = Sections[DstSectionIdx];
if (Section->mColor == ColorCode && Section->mPrimitiveType == SrcSection->mPrimitiveType && Section->mTexture == Texture)
{
DstSection = Section;
break;
}
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}
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if (!DstSection)
{
DstSection = new lcLibraryMeshSection(SrcSection->mPrimitiveType, ColorCode, Texture);
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Sections.Add(DstSection);
}
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DstSection->mIndices.SetGrow(lcMin(DstSection->mIndices.GetSize(), 8 * 1024 * 1024));
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DstSection->mIndices.AllocGrow(SrcSection->mIndices.GetSize());
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if (!SrcSection->mTexture)
{
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
DstSection->mIndices.Add(BaseIndex + SrcSection->mIndices[IndexIdx]);
}
else
{
for (int IndexIdx = 0; IndexIdx < SrcSection->mIndices.GetSize(); IndexIdx++)
DstSection->mIndices.Add(BaseTexturedIndex + SrcSection->mIndices[IndexIdx]);
}
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}
}
}
bool lcPiecesLibrary::PieceInCategory(PieceInfo* Info, const String& CategoryKeywords) const
{
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if (Info->IsTemporary())
return false;
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String PieceName;
if (Info->m_strDescription[0] == '~' || Info->m_strDescription[0] == '_')
PieceName = Info->m_strDescription + 1;
else
PieceName = Info->m_strDescription;
PieceName.MakeLower();
String Keywords = CategoryKeywords;
Keywords.MakeLower();
return PieceName.Match(Keywords);
}
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void lcPiecesLibrary::GetCategoryEntries(int CategoryIndex, bool GroupPieces, lcArray<PieceInfo*>& SinglePieces, lcArray<PieceInfo*>& GroupedPieces)
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{
if (CategoryIndex >= 0 && CategoryIndex < gCategories.GetSize())
GetCategoryEntries(gCategories[CategoryIndex].Keywords, GroupPieces, SinglePieces, GroupedPieces);
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}
void lcPiecesLibrary::GetCategoryEntries(const String& CategoryKeywords, bool GroupPieces, lcArray<PieceInfo*>& SinglePieces, lcArray<PieceInfo*>& GroupedPieces)
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{
SinglePieces.RemoveAll();
GroupedPieces.RemoveAll();
for (int i = 0; i < mPieces.GetSize(); i++)
{
PieceInfo* Info = mPieces[i];
if (!PieceInCategory(Info, CategoryKeywords))
continue;
if (!GroupPieces)
{
SinglePieces.Add(Info);
continue;
}
// Check if it's a patterned piece.
if (Info->IsPatterned())
{
PieceInfo* Parent;
// Find the parent of this patterned piece.
char ParentName[LC_PIECE_NAME_LEN];
strcpy(ParentName, Info->m_strName);
*strchr(ParentName, 'P') = '\0';
Parent = FindPiece(ParentName, NULL, false, false);
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if (Parent)
{
// Check if the parent was added as a single piece.
int Index = SinglePieces.FindIndex(Parent);
if (Index != -1)
SinglePieces.RemoveIndex(Index);
Index = GroupedPieces.FindIndex(Parent);
if (Index == -1)
GroupedPieces.Add(Parent);
}
else
{
// Patterned pieces should have a parent but in case they don't just add them anyway.
SinglePieces.Add(Info);
}
}
else
{
// Check if this piece has already been added to this category by one of its children.
int Index = GroupedPieces.FindIndex(Info);
if (Index == -1)
SinglePieces.Add(Info);
}
}
}
void lcPiecesLibrary::SearchPieces(const char* Keyword, lcArray<PieceInfo*>& Pieces) const
{
Pieces.RemoveAll();
String LowerKeyword = Keyword;
LowerKeyword.MakeLower();
for (int PieceIdx = 0; PieceIdx < mPieces.GetSize(); PieceIdx++)
{
PieceInfo* Info = mPieces[PieceIdx];
char LowerName[sizeof(Info->m_strName)];
strcpy(LowerName, Info->m_strName);
strlwr(LowerName);
if (strstr(LowerName, LowerKeyword))
{
Pieces.Add(Info);
continue;
}
char LowerDescription[sizeof(Info->m_strDescription)];
strcpy(LowerDescription, Info->m_strDescription);
strlwr(LowerDescription);
if (strstr(LowerDescription, LowerKeyword))
Pieces.Add(Info);
}
}
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void lcPiecesLibrary::GetPatternedPieces(PieceInfo* Parent, lcArray<PieceInfo*>& Pieces) const
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{
char Name[LC_PIECE_NAME_LEN];
strcpy(Name, Parent->m_strName);
strcat(Name, "P");
Pieces.RemoveAll();
for (int i = 0; i < mPieces.GetSize(); i++)
{
PieceInfo* Info = mPieces[i];
if (strncmp(Name, Info->m_strName, strlen(Name)) == 0)
Pieces.Add(Info);
}
// Sometimes pieces with A and B versions don't follow the same convention (for example, 3040Pxx instead of 3040BPxx).
if (Pieces.GetSize() == 0)
{
strcpy(Name, Parent->m_strName);
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size_t Len = strlen(Name);
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if (Name[Len-1] < '0' || Name[Len-1] > '9')
Name[Len-1] = 'P';
for (int i = 0; i < mPieces.GetSize(); i++)
{
PieceInfo* Info = mPieces[i];
if (strncmp(Name, Info->m_strName, strlen(Name)) == 0)
Pieces.Add(Info);
}
}
}
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void lcPiecesLibrary::GetParts(lcArray<PieceInfo*>& Parts)
{
Parts = mPieces;
}
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bool lcPiecesLibrary::LoadBuiltinPieces()
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{
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QResource Resource(":/resources/library.zip");
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if (!Resource.isValid())
return false;
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lcMemFile* File = new lcMemFile();
File->WriteBuffer(Resource.data(), Resource.size());
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if (!OpenArchive(File, "builtin", LC_ZIPFILE_OFFICIAL))
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{
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delete File;
return false;
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}
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lcMemFile PieceFile;
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for (int PieceInfoIndex = 0; PieceInfoIndex < mPieces.GetSize(); PieceInfoIndex++)
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{
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PieceInfo* Info = mPieces[PieceInfoIndex];
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mZipFiles[Info->mZipFileType]->ExtractFile(Info->mZipFileIndex, PieceFile, 256);
PieceFile.Seek(0, SEEK_END);
PieceFile.WriteU8(0);
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char* Src = (char*)PieceFile.mBuffer + 2;
char* Dst = Info->m_strDescription;
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for (;;)
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{
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if (*Src != '\r' && *Src != '\n' && *Src && Dst - Info->m_strDescription < (int)sizeof(Info->m_strDescription) - 1)
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{
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*Dst++ = *Src++;
continue;
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}
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*Dst = 0;
break;
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}
}
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lcLoadDefaultColors();
lcLoadDefaultCategories(true);
lcSynthInit();
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return true;
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}