Merge with develop

--HG--
branch : compatibility-develop
This commit is contained in:
kervala 2016-01-04 14:03:11 +01:00
commit b78afa1c4d
9 changed files with 369 additions and 75 deletions

View file

@ -236,6 +236,34 @@ private :
sint32 nDestWidth, sint32 nDestHeight);
/**
* The grayscale resample function
* \param pSrc grayscale 8-bits array
* \param pDest grayscale 8-bits array for storing resampled texture
* \param nSrcWidth original width
* \param nSrcHeight original height
* \param nDestWidth width after resample
* \param nDestHeight height after resample
*/
void resamplePicture8 (const uint8 *pSrc, uint8 *pDest,
sint32 nSrcWidth, sint32 nSrcHeight,
sint32 nDestWidth, sint32 nDestHeight);
/**
* The FAST resample function : works only when reducing the size by two
* and when the image is square
* \param pSrc grayscale 8-bits array
* \param pDest grayscale 8-bits array for storing resampled texture
* \param nSrcWidth original width
* \param nSrcHeight original height
* \param nDestWidth width after resample
* \param nDestHeight height after resample
*/
void resamplePicture8Fast (const uint8 *pSrc, uint8 *pDest,
sint32 nSrcWidth, sint32 nSrcHeight,
sint32 nDestWidth, sint32 nDestHeight);
/**
* Quadratic interpolator
* \return the interpolation in (x,y) of the values (xy**)

View file

@ -43,11 +43,25 @@
// This way we know about _HAS_TR1 and _STLPORT_VERSION
#include <string>
#if defined(HAVE_X86_64)
# define NL_CPU_INTEL
# define NL_CPU_X86_64
// x86_64 CPU always have SSE2 instructions
# ifndef NL_HAS_SSE2
# define NL_HAS_SSE2
# endif
#elif defined(HAVE_X86)
# define NL_CPU_INTEL
# define NL_CPU_X86
#endif
// Operating systems definition
#ifdef _WIN32
# define NL_OS_WINDOWS
# define NL_LITTLE_ENDIAN
# ifndef NL_CPU_INTEL
# define NL_CPU_INTEL
# endif
# ifndef _WIN32_WINNT
# define _WIN32_WINNT 0x0500 // Minimal OS = Windows 2000 (NeL is not supported on Windows 95/98)
# endif
@ -384,10 +398,13 @@ inline void aligned_free(void *ptr) { free(ptr); }
#define NL_DEFAULT_MEMORY_ALIGNMENT 16
#define NL_ALIGN_SSE2 NL_ALIGN(NL_DEFAULT_MEMORY_ALIGNMENT)
#ifndef NL_CPU_X86_64
// on x86_64, new and delete are already aligned on 16 bytes
extern void *operator new(size_t size) throw(std::bad_alloc);
extern void *operator new[](size_t size) throw(std::bad_alloc);
extern void operator delete(void *p) throw();
extern void operator delete[](void *p) throw();
#endif
#else /* NL_HAS_SSE2 */

View file

@ -1785,7 +1785,7 @@ void CBitmap::releaseMipMaps()
\*-------------------------------------------------------------------*/
void CBitmap::resample(sint32 nNewWidth, sint32 nNewHeight)
{
nlassert(PixelFormat == RGBA);
nlassert(PixelFormat == RGBA || PixelFormat == Luminance);
bool needRebuild = false;
// Deleting mipmaps
@ -1804,6 +1804,9 @@ void CBitmap::resample(sint32 nNewWidth, sint32 nNewHeight)
//logResample("Resample: 30");
CObjectVector<uint8> pDestui;
if (PixelFormat == RGBA)
{
pDestui.resize(nNewWidth*nNewHeight*4);
//logResample("Resample: 40");
NLMISC::CRGBA *pDestRgba = (NLMISC::CRGBA*)&pDestui[0];
@ -1811,6 +1814,17 @@ void CBitmap::resample(sint32 nNewWidth, sint32 nNewHeight)
resamplePicture32 ((NLMISC::CRGBA*)&_Data[0][0], pDestRgba, _Width, _Height, nNewWidth, nNewHeight);
//logResample("Resample: 60");
}
else if (PixelFormat == Luminance)
{
pDestui.resize(nNewWidth*nNewHeight);
//logResample("Resample: 40");
uint8 *pDestGray = &pDestui[0];
//logResample("Resample: 50");
resamplePicture8 (&_Data[0][0], pDestGray, _Width, _Height, nNewWidth, nNewHeight);
//logResample("Resample: 60");
}
NLMISC::contReset(_Data[0]); // free memory
//logResample("Resample: 70");
@ -2126,6 +2140,230 @@ void CBitmap::resamplePicture32Fast (const NLMISC::CRGBA *pSrc, NLMISC::CRGBA *p
}
/*-------------------------------------------------------------------*\
resamplePicture32
\*-------------------------------------------------------------------*/
void CBitmap::resamplePicture8 (const uint8 *pSrc, uint8 *pDest,
sint32 nSrcWidth, sint32 nSrcHeight,
sint32 nDestWidth, sint32 nDestHeight)
{
//logResample("RP8: 0 pSrc=%p pDest=%p, Src=%d x %d Dest=%d x %d", pSrc, pDest, nSrcWidth, nSrcHeight, nDestWidth, nDestHeight);
if ((nSrcWidth<=0)||(nSrcHeight<=0)||(nDestHeight<=0)||(nDestHeight<=0))
return;
// If we're reducing it by 2, call the fast resample
if (((nSrcHeight / 2) == nDestHeight) && ((nSrcHeight % 2) == 0) &&
((nSrcWidth / 2) == nDestWidth) && ((nSrcWidth % 2) == 0))
{
resamplePicture8Fast(pSrc, pDest, nSrcWidth, nSrcHeight, nDestWidth, nDestHeight);
return;
}
bool bXMag=(nDestWidth>=nSrcWidth);
bool bYMag=(nDestHeight>=nSrcHeight);
bool bXEq=(nDestWidth==nSrcWidth);
bool bYEq=(nDestHeight==nSrcHeight);
std::vector<float> pIterm (nDestWidth*nSrcHeight);
if (bXMag)
{
float fXdelta=(float)(nSrcWidth)/(float)(nDestWidth);
float *pItermPtr=&*pIterm.begin();
sint32 nY;
for (nY=0; nY<nSrcHeight; nY++)
{
const uint8 *pSrcLine=pSrc;
float fX=0.f;
sint32 nX;
for (nX=0; nX<nDestWidth; nX++)
{
float fVirgule=fX-(float)floor(fX);
nlassert (fVirgule>=0.f);
float vColor;
if (fVirgule>=0.5f)
{
if (fX<(float)(nSrcWidth-1))
{
float vColor1 (pSrcLine[(sint32)floor(fX)]);
float vColor2 (pSrcLine[(sint32)floor(fX)+1]);
vColor=vColor1*(1.5f-fVirgule)+vColor2*(fVirgule-0.5f);
}
else
vColor = float(pSrcLine[(sint32)floor(fX)]);
}
else
{
if (fX>=1.f)
{
float vColor1 (pSrcLine[(sint32)floor(fX)]);
float vColor2 (pSrcLine[(sint32)floor(fX)-1]);
vColor = vColor1*(0.5f+fVirgule)+vColor2*(0.5f-fVirgule);
}
else
vColor = float (pSrcLine[(sint32)floor(fX)]);
}
*(pItermPtr++)=vColor;
fX+=fXdelta;
}
pSrc+=nSrcWidth;
}
}
else if (bXEq)
{
float *pItermPtr=&*pIterm.begin();
for (sint32 nY=0; nY<nSrcHeight; nY++)
{
const uint8 *pSrcLine=pSrc;
sint32 nX;
for (nX=0; nX<nDestWidth; nX++)
*(pItermPtr++) = float (pSrcLine[nX]);
pSrc+=nSrcWidth;
}
}
else
{
double fXdelta=(double)(nSrcWidth)/(double)(nDestWidth);
nlassert (fXdelta>1.f);
float *pItermPtr=&*pIterm.begin();
sint32 nY;
for (nY=0; nY<nSrcHeight; nY++)
{
const uint8 *pSrcLine=pSrc;
double fX=0.f;
sint32 nX;
for (nX=0; nX<nDestWidth; nX++)
{
float vColor = 0.f;
double fFinal=fX+fXdelta;
while ((fX<fFinal)&&((sint32)fX!=nSrcWidth))
{
double fNext=(double)floor (fX)+1.f;
if (fNext>fFinal)
fNext=fFinal;
vColor+=((float)(fNext-fX))* float (pSrcLine[(sint32)floor(fX)]);
fX=fNext;
}
fX = fFinal; // ensure fX == fFinal
vColor/=(float)fXdelta;
*(pItermPtr++)=vColor;
}
pSrc+=nSrcWidth;
}
}
if (bYMag)
{
double fYdelta=(double)(nSrcHeight)/(double)(nDestHeight);
sint32 nX;
for (nX=0; nX<nDestWidth; nX++)
{
double fY=0.f;
sint32 nY;
for (nY=0; nY<nDestHeight; nY++)
{
double fVirgule=fY-(double)floor(fY);
nlassert (fVirgule>=0.f);
float vColor;
if (fVirgule>=0.5f)
{
if (fY<(double)(nSrcHeight-1))
{
float vColor1=pIterm[((sint32)floor(fY))*nDestWidth+nX];
float vColor2=pIterm[(((sint32)floor(fY))+1)*nDestWidth+nX];
vColor=vColor1*(1.5f-(float)fVirgule)+vColor2*((float)fVirgule-0.5f);
}
else
vColor=pIterm[((sint32)floor(fY))*nDestWidth+nX];
}
else
{
if (fY>=1.f)
{
float vColor1=pIterm[((sint32)floor(fY))*nDestWidth+nX];
float vColor2=pIterm[(((sint32)floor(fY))-1)*nDestWidth+nX];
vColor=vColor1*(0.5f+(float)fVirgule)+vColor2*(0.5f-(float)fVirgule);
}
else
vColor=pIterm[((sint32)floor(fY))*nDestWidth+nX];
}
pDest[nX+nY*nDestWidth]=vColor;
fY+=fYdelta;
}
}
}
else if (bYEq)
{
for (sint32 nX=0; nX<nDestWidth; nX++)
{
sint32 nY;
for (nY=0; nY<nDestHeight; nY++)
{
pDest[nX+nY*nDestWidth]=pIterm[nY*nDestWidth+nX];
}
}
}
else
{
double fYdelta=(double)(nSrcHeight)/(double)(nDestHeight);
nlassert (fYdelta>1.f);
sint32 nX;
for (nX=0; nX<nDestWidth; nX++)
{
double fY=0.f;
sint32 nY;
for (nY=0; nY<nDestHeight; nY++)
{
float vColor = 0.f;
double fFinal=fY+fYdelta;
while ((fY<fFinal)&&((sint32)fY!=nSrcHeight))
{
double fNext=(double)floor (fY)+1.f;
if (fNext>fFinal)
fNext=fFinal;
vColor+=((float)(fNext-fY))*pIterm[((sint32)floor(fY))*nDestWidth+nX];
fY=fNext;
}
vColor/=(float)fYdelta;
pDest[nX+nY*nDestWidth]=vColor;
}
}
}
}
/*-------------------------------------------------------------------*\
resamplePicture8Fast
\*-------------------------------------------------------------------*/
void CBitmap::resamplePicture8Fast (const uint8 *pSrc, uint8 *pDest,
sint32 nSrcWidth, sint32 nSrcHeight,
sint32 nDestWidth, sint32 nDestHeight)
{
// the image is divided by two : 1 pixel in dest = 4 pixels in src
// the resulting pixel in dest is an average of the four pixels in src
nlassert(nSrcWidth % 2 == 0);
nlassert(nSrcHeight % 2 == 0);
nlassert(nSrcWidth / 2 == nDestWidth);
nlassert(nSrcHeight / 2 == nDestHeight);
sint32 x, y, twoX, twoSrcWidthByY;
for (y=0 ; y<nDestHeight ; y++)
{
twoSrcWidthByY = 2*nSrcWidth*y;
for (x=0 ; x<nDestWidth ; x++)
{
twoX = 2*x;
pDest[x+y*nDestWidth] = (
(uint)pSrc[twoX + twoSrcWidthByY ]+
(uint)pSrc[twoX + twoSrcWidthByY + nSrcWidth ]+
(uint)pSrc[twoX+1 + twoSrcWidthByY ]+
(uint)pSrc[twoX+1 + twoSrcWidthByY + nSrcWidth ]+1)>>2;
}
}
}
/*-------------------------------------------------------------------*\
readTGA

View file

@ -80,7 +80,7 @@ extern "C" long _ftol2( double dblSource ) { return _ftol( dblSource ); }
#endif // !NL_COMP_MINGW
#ifdef NL_HAS_SSE2
#if defined(NL_HAS_SSE2) && !defined(NL_CPU_X86_64)
void *operator new(size_t size) throw(std::bad_alloc)
{

View file

@ -322,8 +322,7 @@ int main(int argc, char* argv[])
NLMISC::CConfigFile::CVar &bitmap_extensions = cf.getVar ("bitmap_extensions");
for (uint k = 0; k < (uint) bitmap_extensions.size(); ++k)
{
std::string ext = "." + bitmap_extensions.asString(k);
ext = NLMISC::strupr(ext);
std::string ext = "." + NLMISC::toLower(bitmap_extensions.asString(k));
if (std::find(bi.BitmapExtensions.begin(), bi.BitmapExtensions.end(), ext) == bi.BitmapExtensions.end())
{
bi.BitmapExtensions.push_back(ext);
@ -481,7 +480,7 @@ static void BuildColoredVersions(const CBuildInfo &bi)
{
for (uint l = 0; l < bi.BitmapExtensions.size(); ++l)
{
std::string fileExt = "." + NLMISC::strupr(NLMISC::CFile::getExtension(files[k]));
std::string fileExt = "." + NLMISC::toLower(NLMISC::CFile::getExtension(files[k]));
if (fileExt == bi.BitmapExtensions[l])
{
//nlwarning("Processing : %s ", files[k].c_str());
@ -530,7 +529,7 @@ static bool CheckIfNeedRebuildColoredVersionForOneBitmap(const CBuildInfo &bi, c
masks.clear();
std::string fileName = NLMISC::CFile::getFilenameWithoutExtension(fileNameWithExtension);
std::string fileExt = NLMISC::strupr(NLMISC::CFile::getExtension(fileNameWithExtension));
std::string fileExt = NLMISC::toLower(NLMISC::CFile::getExtension(fileNameWithExtension));
for (uint k = 0; k < bi.ColorMasks.size(); ++k)
{
@ -759,7 +758,7 @@ static void BuildColoredVersionForOneBitmap(const CBuildInfo &bi, const std::str
masks.clear();
std::string fileName = NLMISC::CFile::getFilenameWithoutExtension(fileNameWithExtension);
std::string fileExt = NLMISC::strupr(NLMISC::CFile::getExtension(fileNameWithExtension));
std::string fileExt = NLMISC::toLower(NLMISC::CFile::getExtension(fileNameWithExtension));
uint k;
for (k = 0; k < bi.ColorMasks.size(); ++k)
@ -792,16 +791,15 @@ static void BuildColoredVersionForOneBitmap(const CBuildInfo &bi, const std::str
throw NLMISC::Exception("Failed to load mask");
}
// masks can be converted to grayscale files
if (bi.OptimizeTextures > 0 && maskDepth > 8)
// convert color mask to grayscale (red is the new gray value)
if (li.Mask.getPixelFormat() == CBitmap::RGBA)
{
if (!li.Mask.isGrayscale())
// display a warning if checks enabled
if (bi.OptimizeTextures > 0 && !li.Mask.isGrayscale())
{
nlwarning("Mask %s is using colors, results may by incorrect! Use OptimizeTextures = 2 to fix it.", maskFileName.c_str());
}
if (bi.OptimizeTextures > 1)
{
// get a pointer on original data
uint32 size = li.Mask.getPixels().size();
uint32 *data = (uint32*)li.Mask.getPixels().getPtr();
@ -823,15 +821,24 @@ static void BuildColoredVersionForOneBitmap(const CBuildInfo &bi, const std::str
++data;
}
}
// convert image to real grayscale
if (li.Mask.PixelFormat != NLMISC::CBitmap::Luminance)
{
li.Mask.convertToType(NLMISC::CBitmap::Luminance);
}
// masks can be converted to grayscale files
if (bi.OptimizeTextures > 0 && maskDepth > 8)
{
if (bi.OptimizeTextures > 1)
{
NLMISC::COFile os;
if (os.open(maskFileName))
{
std::string ext = CFile::getExtension(maskFileName);
std::string ext = NLMISC::toLower(CFile::getExtension(maskFileName));
nlwarning("Optimizing mask %s...", maskFileName.c_str());
@ -856,11 +863,6 @@ static void BuildColoredVersionForOneBitmap(const CBuildInfo &bi, const std::str
}
}
if (li.Mask.PixelFormat != NLMISC::CBitmap::Luminance)
{
li.Mask.convertToType(NLMISC::CBitmap::Luminance);
}
/// make sure the mask has the same size
if (li.Mask.getWidth() != srcBitmap.getWidth()
|| li.Mask.getHeight() != srcBitmap.getHeight())
@ -937,7 +939,7 @@ static void BuildColoredVersionForOneBitmap(const CBuildInfo &bi, const std::str
nlinfo("Writing %s", outputFileName.c_str());
/// Save the result. We let propagate exceptions (if there's no more space disk it useless to continue...)
{
std::string fullOutputPath = bi.OutputPath + "/" + outputFileName + bi.OutputFormat;
std::string fullOutputPath = bi.OutputPath + outputFileName + bi.OutputFormat;
try
{

View file

@ -48,11 +48,3 @@ NL_DEFAULT_PROPS(crash_report "NeL, Tools, Misc: Crash Report")
NL_ADD_RUNTIME_FLAGS(crash_report)
INSTALL(TARGETS crash_report RUNTIME DESTINATION ${NL_BIN_PREFIX})
IF(WITH_RYZOM_CLIENT AND APPLE)
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET crash_report POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/crash_report" COMMENT "Signing crash_report executable...")
ENDIF()
ADD_CUSTOM_COMMAND(TARGET crash_report POST_BUILD COMMAND cp -p ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/crash_report ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${MACOSX_BUNDLE_BUNDLE_NAME}.app/Contents/MacOS/CrashReport)
ENDIF()

View file

@ -79,8 +79,41 @@ IF(WITH_RYZOM_CLIENT)
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND cp ARGS -RpX ${RYZOM_DATA_DIR} ${RYZOM_RESOURCES_DIR})
ENDIF()
IF(TARGET crash_report)
ADD_DEPENDENCIES(ryzom_client crash_report)
# copy crash_report to bundle
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND cp -p ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/crash_report ${RYZOM_CONTENTS_DIR}/MacOS/CrashReport)
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${RYZOM_OUTPUT_DIR}" COMMENT "Signing bundle...")
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${RYZOM_CONTENTS_DIR}/MacOS/CrashReport" COMMENT "Signing CrashReport executable...")
ENDIF()
ENDIF()
IF(TARGET ryzom_client_patcher)
ADD_DEPENDENCIES(ryzom_client ryzom_client_patcher)
# copy ryzom_client_patcher to bundle
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND cp -p ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/ryzom_client_patcher ${RYZOM_CONTENTS_DIR}/MacOS/RyzomClientPatcher)
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${RYZOM_CONTENTS_DIR}/MacOS/RyzomClientPatcher" COMMENT "Signing RyzomClientPatcher executable...")
ENDIF()
ENDIF()
IF(TARGET ryzom_configuration_qt)
ADD_DEPENDENCIES(ryzom_client ryzom_configuration_qt)
# copy ryzom_configuration_qt to bundle
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND cp -p ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/ryzom_configuration_qt ${RYZOM_CONTENTS_DIR}/MacOS/RyzomConfiguration)
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${RYZOM_CONTENTS_DIR}/MacOS/RyzomConfiguration" COMMENT "Signing RyzomConfiguration executable...")
ENDIF()
ENDIF()
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET ryzom_client POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${RYZOM_OUTPUT_DIR}" COMMENT "Signing Ryzom bundle...")
ENDIF()
IF(WITH_RYZOM_STEAM)

View file

@ -69,11 +69,3 @@ IF(WITH_PCH)
ENDIF()
INSTALL(TARGETS ryzom_configuration_qt RUNTIME DESTINATION ${RYZOM_GAMES_PREFIX} COMPONENT client)
IF(WITH_RYZOM_CLIENT AND APPLE)
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET ryzom_configuration_qt POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/ryzom_configuration_qt" COMMENT "Signing ryzom_configuration_qt executable...")
ENDIF()
ADD_CUSTOM_COMMAND(TARGET ryzom_configuration_qt POST_BUILD COMMAND cp -p ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/ryzom_configuration_qt ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${MACOSX_BUNDLE_BUNDLE_NAME}.app/Contents/MacOS/RyzomConfiguration)
ENDIF()

View file

@ -42,12 +42,4 @@ IF(WITH_PCH)
ADD_NATIVE_PRECOMPILED_HEADER(ryzom_client_patcher ${CMAKE_SOURCE_DIR}/ryzom/client/src/stdpch.h ${CMAKE_SOURCE_DIR}/ryzom/client/src/stdpch.cpp)
ENDIF(WITH_PCH)
INSTALL(TARGETS ryzom_client_patcher RUNTIME DESTINATION ${RYZOM_GAMES_PREFIX} COMPONENT client BUNDLE DESTINATION /Applications)
IF(WITH_RYZOM_CLIENT AND APPLE)
IF(CODESIGN_ALLOCATE AND APPLE_CERTIFICATE)
ADD_CUSTOM_COMMAND(TARGET ryzom_client_patcher POST_BUILD COMMAND CODESIGN_ALLOCATE=${CODESIGN_ALLOCATE} codesign -fs "${APPLE_CERTIFICATE}" "${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/ryzom_client_patcher" COMMENT "Signing ryzom_client_patcher executable...")
ENDIF()
ADD_CUSTOM_COMMAND(TARGET ryzom_client_patcher POST_BUILD COMMAND cp -p ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/ryzom_client_patcher ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${MACOSX_BUNDLE_BUNDLE_NAME}.app/Contents/MacOS/RyzomClientPatcher)
ENDIF()
INSTALL(TARGETS ryzom_client_patcher RUNTIME DESTINATION ${RYZOM_GAMES_PREFIX} COMPONENT client)