Merge with develop

code/nel/src/3d/ps_util.cpp

@@ -271,7 +271,6 @@ void CPSUtil::displayBasis(IDriver *driver, const CMatrix &modelMat, const NLMIS
 void CPSUtil::print(IDriver *driver, const std::string &text, CFontGenerator &fg, CFontManager &fm, const CVector &pos, float size, NLMISC::CRGBA col /*= NLMISC::CRGBA::White*/)
 {
 	NL_PS_FUNC(CPSUtil_print)
-	nlassert((&fg) && (&fm));
 	CComputedString cptedString;
 	fm.computeString ( text,
 						&fg,

code/nel/src/gui/lua_ihm.cpp

@@ -1537,7 +1537,7 @@ namespace NLGUI
 		for (uint e=0 ; e<__num__ ; e++) \
 		{ \
 			std::string str = __toStringFunc__((__enum__)e); \
-			std::string temp = __name__ + toString(".") + __toStringFunc__((__enum__)e) + " = " + toString("%d;", e); \
+			std::string temp = __name__ + toString(".") + __toStringFunc__((__enum__)e) + " = " + toString("%u;", e); \
 			ls.executeScript(temp); \
 		} \
 

code/nel/tools/3d/build_interface/main.cpp

@@ -268,7 +268,11 @@ int main(int nNbArg, char **ppArgs)
 
 			uint8 colors = pBtmp->load(inFile);
 
-			if (colors != 32) throw NLMISC::Exception(AllMapNames[i] + " is using " + toString(colors) + " bits colors, only 32 bit supported!");
+			if (pBtmp->getPixelFormat() != CBitmap::RGBA)
+			{
+				nlwarning("Converting %s to RGBA (32 bits), originally using %u bits...", AllMapNames[i].c_str(), (uint)colors);
+				pBtmp->convertToType(CBitmap::RGBA);
+			}
 
 			AllMaps[i] = pBtmp;
 		}

code/nel/tools/3d/panoply_maker/panoply_maker.cpp

@@ -670,8 +670,8 @@ static void BuildColoredVersionForOneBitmap(const CBuildInfo &bi, const std::str
 				{
 					uint8 value = 0;
 
-					// texture can be converted if all alphas are 0 or 255
-					if (srcBitmap.isAlphaUniform(&value) && (value == 255 || value == 0))
+					// texture can be converted if all alphas are 255
+					if (srcBitmap.isAlphaUniform(&value) && value == 255)
 					{
 						if (bi.OptimizeTextures > 1)
 						{

code/nel/tools/3d/textures_optimizer/main.cpp

@@ -29,8 +29,10 @@ void writeInstructions()
 	std::cout << "  By default, it only make checks and display if texture can optimized or not" << std::endl;
 	std::cout << std::endl;
 	std::cout << "with" << std::endl;
-	std::cout << "-a : Remove alpha channel if useless" << std::endl;
+	std::cout << "-a : Remove alpha channel if useless (255)" << std::endl;
 	std::cout << "-g : Convert to grayscale if all pixels are gray" << std::endl;
+	std::cout << "-t : Apply texture optimizations (same as -a -g)" << std::endl;
+	std::cout << "-m : Apply mask optimizations (convert to grayscale using red value and remove alpha)" << std::endl;
 	std::cout << std::endl;
 	std::cout << "-h or -? for this help" << std::endl;
 	std::cout << std::endl;
@@ -38,6 +40,8 @@ void writeInstructions()
 
 bool FixAlpha = false;
 bool FixGrayscale = false;
+bool TextureOptimizations = false;
+bool MaskOptimizations = false;
 
 std::vector<std::string> InputFilenames;
 
@@ -74,6 +78,18 @@ bool parseOptions(int argc, char **argv)
 				{
 					FixGrayscale = true;
 				}
+				// Texture optimizations
+				else if (option == "t")
+				{
+					TextureOptimizations = true;
+					FixAlpha = true;
+					FixGrayscale = true;
+				}
+				// Mask optimizations
+				else if (option == "m")
+				{
+					MaskOptimizations = true;
+				}
 				else if (option == "h" || option == "?")
 				{
 					return false;
@@ -168,35 +184,74 @@ int main(int argc, char **argv)
 			isGrayscale = true;
 		}
 
-		if (!isGrayscale && bitmap.isGrayscale())
+		if (MaskOptimizations && (!isGrayscale || hasAlpha))
 		{
-			std::cout << InputFilenames[i] << " (grayscale image with RGB colors)" << std::endl;
+			std::cout << InputFilenames[i] << " (mask with wrong format)" << std::endl;
 
-			if (FixGrayscale)
+			if (!isGrayscale)
 			{
-				if (!bitmap.convertToType(hasAlpha ? NLMISC::CBitmap::AlphaLuminance:NLMISC::CBitmap::Luminance))
+				// get a pointer on original RGBA data
+				uint32 size = bitmap.getPixels().size();
+				uint32 *data = (uint32*)bitmap.getPixels().getPtr();
+				uint32 *endData = (uint32*)((uint8*)data + size);
+
+				NLMISC::CRGBA *color = NULL;
+
+				// process all pixels
+				while(data < endData)
 				{
-					std::cerr << "Unable to convert to Luminance" << std::endl;
-					return 1;
+					color = (NLMISC::CRGBA*)data;
+
+					// copy red value to green and blue,
+					// because only red is used for mask
+					color->B = color->G = color->R;
+
+					// make opaque
+					color->A = 255;
+
+					++data;
 				}
-
-				isGrayscale = true;
-				modified = true;
 			}
+
+			// already in grayscale, just remove alpha
+			bitmap.convertToType(NLMISC::CBitmap::Luminance);
+
+			isGrayscale = true;
+			hasAlpha = false;
+			modified = true;
 		}
-
-		uint8 alpha = 0;
-
-		if (hasAlpha && bitmap.isAlphaUniform(&alpha))
+		else
 		{
-			std::cout << InputFilenames[i] << " (image with uniform alpha channel " << (sint)alpha << ")" << std::endl;
-
-			if (FixAlpha && (alpha == 0 || alpha == 255))
+			if (!isGrayscale && bitmap.isGrayscale())
 			{
-				bitmap.makeOpaque();
+				std::cout << InputFilenames[i] << " (grayscale image with RGB colors)" << std::endl;
 
-				hasAlpha = false;
-				modified = true;
+				if (FixGrayscale)
+				{
+					if (!bitmap.convertToType(hasAlpha ? NLMISC::CBitmap::AlphaLuminance:NLMISC::CBitmap::Luminance))
+					{
+						std::cerr << "Unable to convert to Luminance" << std::endl;
+						return 1;
+					}
+
+					isGrayscale = true;
+					modified = true;
+				}
+			}
+
+			uint8 alpha = 0;
+
+			if (hasAlpha && bitmap.isAlphaUniform(&alpha))
+			{
+				std::cout << InputFilenames[i] << " (image with uniform alpha channel " << (sint)alpha << ")" << std::endl;
+
+				if (FixAlpha && alpha == 255)
+				{
+					bitmap.makeOpaque();
+
+					hasAlpha = false;
+					modified = true;
+				}
 			}
 		}
 

code/ryzom/tools/client/r2_islands_textures/screenshot_islands.cpp

@@ -49,6 +49,7 @@
 #include <nel/3d/material.h>
 
 #include <math.h>
+#include <limits>
 
 using namespace NLMISC;
 using namespace NL3D;
@@ -70,8 +71,8 @@ UMaterial sceneMaterial;
 namespace R2
 {
 
-const TBufferEntry InteriorValue= (TBufferEntry)(~0u-1);
-const TBufferEntry ValueBorder= (TBufferEntry)(~0u-2);
+const TBufferEntry InteriorValue = std::numeric_limits<TBufferEntry>::max()-1;
+const TBufferEntry ValueBorder = std::numeric_limits<TBufferEntry>::max()-2;
 const uint32 BigValue= 15*5;
 const float limitValue = 200.0;
 
@@ -1957,7 +1958,7 @@ void CProximityMapBuffer::load(const std::string& name)
 				}
 			}
 			// setup the next pixel in the output buffers...
-			_Buffer[y*_ScanWidth+x]= (isAccessible? 0: (TBufferEntry)~0u);
+			_Buffer[y*_ScanWidth+x]= (isAccessible? 0:std::numeric_limits<TBufferEntry>::max());
 		}
 	}
 }
@@ -2044,7 +2045,7 @@ void CProximityMapBuffer::_prepareBufferForZoneProximityMap(const CProximityZone
 	uint32 zoneWidth= zone.getZoneWidth();
 	uint32 zoneHeight= zone.getZoneHeight();
 	zoneBuffer.clear();
-	zoneBuffer.resize(zoneWidth*zoneHeight,(TBufferEntry)~0u);
+	zoneBuffer.resize(zoneWidth*zoneHeight, std::numeric_limits<TBufferEntry>::max());
 
 	// setup the buffer's accessible points and prime vects[0] with the set of accessible points in the zone buffer
 	for (uint32 i=0;i<zone.getOffsets().size();++i)
@@ -2073,11 +2074,11 @@ void CProximityMapBuffer::_prepareBufferForZoneProximityMap(const CProximityZone
 			{
 				zoneBuffer[offset]= InteriorValue;
 
-				if(offset-1>=startOffset && zoneBuffer[offset-1]==(TBufferEntry)~0u)
+				if(offset-1>=startOffset && zoneBuffer[offset-1] == std::numeric_limits<TBufferEntry>::max())
 				{
 					zoneBuffer[offset-1] = ValueBorder;
 				}
-				if(offset+1<=endOffset && zoneBuffer[offset+1]==(TBufferEntry)~0u)
+				if(offset+1<=endOffset && zoneBuffer[offset+1] == std::numeric_limits<TBufferEntry>::max())
 				{
 					zoneBuffer[offset+1] = ValueBorder;
 				}
@@ -2105,11 +2106,11 @@ void CProximityMapBuffer::_prepareBufferForZoneProximityMap(const CProximityZone
 			{
 				zoneBuffer[offset]= InteriorValue;
 
-				if(offset>zoneWidth && zoneBuffer[offset-zoneWidth]==(TBufferEntry)~0u)
+				if(offset>zoneWidth && zoneBuffer[offset-zoneWidth] == std::numeric_limits<TBufferEntry>::max())
 				{
 					zoneBuffer[offset-zoneWidth] = ValueBorder;
 				}
-				if(offset+zoneWidth<zoneHeight*zoneWidth && zoneBuffer[offset+zoneWidth]==(TBufferEntry)~0u)
+				if(offset+zoneWidth<zoneHeight*zoneWidth && zoneBuffer[offset+zoneWidth] == std::numeric_limits<TBufferEntry>::max())
 				{
 					zoneBuffer[offset+zoneWidth] = ValueBorder;
 				}
@@ -2154,19 +2155,19 @@ void CProximityMapBuffer::generateZoneProximityMap(const CProximityZone& zone,TB
 			zoneBuffer[val]=dist;
 
 			// decompose into x and y in order to manage identification of neighbour cells correctly
-			uint32 x= val% zoneWidth;
-			uint32 y= val/ zoneWidth;
+			uint32 x= val % zoneWidth;
+			uint32 y= val / zoneWidth;
 
 			#define TEST_MOVE(xoffs,yoffs,newDist)\
 				{\
-					if (((uint32)(x+(xoffs))<zoneWidth) && ((uint32)(y+(yoffs))<zoneHeight))\
+					if (((uint32)(x+xoffs)<zoneWidth) && ((uint32)(y+yoffs)<zoneHeight))\
 					{\
-						uint32 newVal= val+(xoffs)+((yoffs)*zoneWidth);\
-						bool isInterior= ((zoneBuffer[newVal]==InteriorValue && newDist > BigValue) || (zoneBuffer[newVal]==ValueBorder && newDist > BigValue));\
-						if (zoneBuffer[newVal]>(newDist) && !isInterior)\
+						uint32 newVal= val+xoffs+(yoffs*zoneWidth);\
+						bool isInterior = ((zoneBuffer[newVal] == InteriorValue && newDist > BigValue) || (zoneBuffer[newVal] == ValueBorder && newDist > BigValue));\
+						if (zoneBuffer[newVal] > newDist && !isInterior)\
 						{\
-							zoneBuffer[newVal]=(newDist);\
-							vects[(newDist)&15].push_back(newVal);\
+							zoneBuffer[newVal] = newDist;\
+							vects[newDist & 15].push_back(newVal);\
 							++entriesToTreat;\
 						}\
 					}\
@@ -2239,8 +2240,8 @@ CProximityZone::CProximityZone(uint32 scanWidth,uint32 scanHeight,sint32 xOffset
 
 	_MaxOffset	= scanWidth * scanHeight -1;
 
-	_XMin = ~0u;
-	_YMin = ~0u;
+	_XMin = std::numeric_limits<uint32>::max();
+	_YMin = std::numeric_limits<uint32>::max();
 	_XMax = 0;
 	_YMax = 0;
 

code/ryzom/tools/leveldesign/mission_compiler_lib/mission_compiler.h

@@ -190,8 +190,9 @@ public:
 
 		TParamInfo(const std::string &name, STRING_MANAGER::TParamType type, const std::string &compilerParam = "")
 			: ParamName(name),
-			ParamType(type),
-			CompilerParam(compilerParam)
+			CompilerParam(compilerParam),
+			ParamType(type)
+			
 		{
 		}
 	};
@@ -328,7 +329,7 @@ private:
 	std::string genPreRequisites();
 
 	// forbidden copy constructor !
-	CMissionData(const CMissionData &other)
+	CMissionData(const CMissionData &other):NLMISC::CRefCount()
 	{
 		nlstop;
 	}

code/ryzom/tools/leveldesign/mission_compiler_lib/steps.cpp

@@ -255,8 +255,8 @@ public:
 
 	CStepObjective(CMissionData &md, IPrimitive *prim, const std::string &prefix = "")
 		: CStep(md, prim),
-		_HideObj(false),
-		_Prefix(prefix)
+		_Prefix(prefix),
+		_HideObj(false)
 	{
 	}
 

code/ryzom/tools/translation_tools/extract_new_sheet_names.cpp

@@ -206,7 +206,7 @@ void	extractNewWords(string workSheetFileName, string columnId, IWordListBuilder
 		return;
 	}
 	// get the name column index
-	uint	nameColIndex;
+	uint	nameColIndex = 0;
 	if(!workSheet.findCol(ucstring("name"), nameColIndex))
 	{
 		nlwarning("Error: Don't find the column 'name'. '%s' Aborted", workSheetFileName.c_str());