This commit is contained in:
Matt Raykowski 2010-05-13 15:44:29 -05:00
parent 7e4bbe3256
commit 1c69a5fe0a
244 changed files with 770 additions and 763 deletions

View file

@ -103,7 +103,7 @@ public:
*/
uint getNumAnimation () const
{
return _Animation.size();
return (uint)_Animation.size();
}
/**
@ -138,7 +138,7 @@ public:
*/
uint getNumSkeletonWeight () const
{
return _SkeletonWeight.size();
return (uint)_SkeletonWeight.size();
}
/**

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@ -111,7 +111,7 @@ public:
void link (CPortal* portal);
void unlink (CPortal* portal);
uint32 getNbPortals() {return _Portals.size();}
uint32 getNbPortals() {return (uint32)_Portals.size();}
CPortal* getPortal(uint32 pos) {return _Portals[pos];}
/// Serial

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@ -98,7 +98,7 @@ public:
uint size() const
{
return _indexedColors.size();
return (uint)_indexedColors.size();
}
uint getIndex(uint i) const

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@ -84,7 +84,7 @@ public:
/// Get the head on the array of elements. NULL if none
void **begin() { if(_Elements.empty()) return NULL; else return &_Elements[0];}
/// get the number of elements
uint size() const {return _Elements.size();}
uint size() const {return (uint)_Elements.size();}
bool empty() const {return _Elements.empty();}
/// clear the list

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@ -78,7 +78,7 @@ public:
void addMask(const NLMISC::CBitmap &bmp, uint threshold= 15);
/// get num of masks
uint getNumMasks() const {return _Masks.size();}
uint getNumMasks() const {return (uint)_Masks.size();}
/** build a texture with a HLS Color Delta
* \param colDelta array of delta to apply to the bitmap (must be of numMasks entries)

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@ -58,7 +58,7 @@ public:
bool buildTexture(sint textId, NLMISC::CBitmap &out) const;
/// Texture name access
uint getNumTextures() const {return _Instances.size();}
uint getNumTextures() const {return (uint)_Instances.size();}
const char *getTextureName(uint i) const;
private:

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@ -178,7 +178,7 @@ public:
uint getNumTriangles() const {return _NumTriangles;}
/// get the number of bones
uint getNumBones() const {return _Bones.size();}
uint getNumBones() const {return (uint)_Bones.size();}
/// get a bone id, according to its name. -1 if not found
sint getBoneIdByName(const std::string &name) const;

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@ -392,12 +392,12 @@ public:
const CVertexBuffer &getVertexBuffer() const { return _VBuffer ; }
/// get the number of matrix block
uint getNbMatrixBlock() const { return _MatrixBlocks.size() ; }
uint getNbMatrixBlock() const { return (uint)_MatrixBlocks.size() ; }
/** get the number of rendering pass for a given matrix block
* \param matrixBlockIndex the index of the matrix block the rendering passes belong to
*/
uint getNbRdrPass(uint matrixBlockIndex) const { return _MatrixBlocks[matrixBlockIndex].RdrPass.size() ; }
uint getNbRdrPass(uint matrixBlockIndex) const { return (uint)_MatrixBlocks[matrixBlockIndex].RdrPass.size() ; }
/** get the primitive block associated with a rendering pass of a matrix block
* \param matrixBlockIndex the index of the matrix block the renderin pass belong to
@ -418,7 +418,7 @@ public:
}
/// get the number of BlendShapes
uint getNbBlendShapes() const { if(_MeshMorpher) return _MeshMorpher->BlendShapes.size(); return 0; }
uint getNbBlendShapes() const { if(_MeshMorpher) return (uint)_MeshMorpher->BlendShapes.size(); return 0; }
/** Tool function to retrieve vector geometry only of the mesh.
* return false if the vbuffer cannot be read (resident)

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@ -185,7 +185,7 @@ public:
/// Get the number of materials in the mesh
uint getNbMaterial() const
{
return _Materials.size();
return (uint)_Materials.size();
}
/// Get a material

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@ -175,13 +175,13 @@ public:
/** get the number of LOD.
*/
uint getNbLod() const { return _Lods.size() ; }
uint getNbLod() const { return (uint)_Lods.size() ; }
/** get the number of rendering pass of a LOD.
* \param lodId the id of the LOD.
*/
uint getNbRdrPass(uint lodId) const { return _Lods[lodId].RdrPass.size() ; }
uint getNbRdrPass(uint lodId) const { return (uint)_Lods[lodId].RdrPass.size() ; }
/** get the primitive block associated with a rendering pass of a LOD.
@ -211,7 +211,7 @@ public:
}
/// get the number of BlendShapes
uint getNbBlendShapes() const { return _MeshMorpher.BlendShapes.size(); }
uint getNbBlendShapes() const { return (uint)_MeshMorpher.BlendShapes.size(); }
/** Build a geometry copy for the given Lod. The VBuffer/IndexBuffer must not be resident. false if bad lodId
* The process ensure there is no hole in the resulting vertices array. Hence VB num Verts != vertices.size().

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@ -152,13 +152,13 @@ public:
/** get the number of LOD.
*/
uint getNbLod() const { return _Lods.size() ; }
uint getNbLod() const { return (uint)_Lods.size() ; }
/** get the number of rendering pass of a LOD.
* \param lodId the id of the LOD.
*/
uint getNbRdrPass(uint lodId) const { return _Lods[lodId].RdrPass.size() ; }
uint getNbRdrPass(uint lodId) const { return (uint)_Lods[lodId].RdrPass.size() ; }
/** get the primitive block associated with a rendering pass of a LOD.
@ -294,7 +294,7 @@ private:
// Get num triangle
uint getNumTriangle () const
{
return PBlock.size()/3;
return (uint)PBlock.size()/3;
}
};
@ -476,7 +476,7 @@ public:
// Acces it
uint getNumVertices() const
{
return _PackedBuffer.size();
return (uint)_PackedBuffer.size();
}
// Decompact position

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@ -142,7 +142,7 @@ public:
/// Get slot mesh count.
uint getNumSlotMesh () const
{
return _MeshVector.size();
return (uint)_MeshVector.size();
}
/// Get a slot mesh.

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@ -263,7 +263,7 @@ public:
void remove(CParticleSystemProcess *process);
/// get the number of process that are attached to the system
uint32 getNbProcess(void) const { return _ProcessVect.size(); }
uint32 getNbProcess(void) const { return (uint32)_ProcessVect.size(); }
/**
* Get a pointer to the nth process.

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@ -131,7 +131,7 @@ public:
bool isShared() const { return _Sharing; }
// Get the number of cached textures
uint getNumCachedTextures() const { return _CachedTex.size(); }
uint getNumCachedTextures() const { return (uint)_CachedTex.size(); }
// Get a cached texture
ITexture *getCachedTexture(uint index) const { return _CachedTex[index]; }

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@ -294,7 +294,7 @@ public:
void resize(uint32 nbInstances);
/// return the number of instance in the container
uint32 getSize(void) const { return _Tab.size(); }
uint32 getSize(void) const { return (uint32)_Tab.size(); }
/// return the max number of instance in the container
uint32 getMaxSize(void) const { return _MaxSize; }
@ -411,7 +411,7 @@ sint32 CPSAttrib<T>::insert(const T &t)
return -1;
}
_Tab.push_back(t);
return _Tab.size() - 1;
return (sint32)_Tab.size() - 1;
}
@ -455,7 +455,7 @@ void CPSAttrib<T>::serial(NLMISC::IStream &f) throw(NLMISC::EStream)
}
else
{
uint32 size = _Tab.size();
uint32 size = (uint32)_Tab.size();
f.serial(size);
f.serial(_MaxSize);
f.serial(size);
@ -537,7 +537,7 @@ void CPSAttrib<T>::serial(NLMISC::IStream &f) throw(NLMISC::EStream)
}
else
{
uint32 size = _Tab.size(), capacity = _Tab.capacity();
uint32 size = (uint32)_Tab.size(), capacity = (uint32)_Tab.capacity();
if (ver == 3)
{
f.serial(size, capacity);

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@ -466,7 +466,7 @@ void CPSValueGradientFunc<T>::setValues(const T *valueTab, uint32 numValues, uin
computeGradient(valueTab, numValues, nbStages, _Tab, _MinValue, _MaxValue);
//
_NbStages = nbStages;
_NbValues = _Tab.size() - 1;
_NbValues = (uint32)_Tab.size() - 1;
}

View file

@ -104,7 +104,7 @@ public:
{
min = _MinAngularVelocity;
max = _MaxAngularVelocity;
return _PrecompBasis.size();
return (uint32)_PrecompBasis.size();
}
/// from CPSParticle : return true if there are lightable faces in the object

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@ -121,7 +121,7 @@ class CPSFloatCurveFunctor
void addControlPoint(const CCtrlPoint &ctrlPoint);
/// retrieve the number of control points
uint getNumCtrlPoints(void) const { return _CtrlPoints.size(); }
uint getNumCtrlPoints(void) const { return (uint)_CtrlPoints.size(); }
/** get a control point.
* \return a <date, value> std::pair

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@ -151,7 +151,7 @@ public:
/**
* count the number of bound objects
*/
uint32 getNbBoundObjects(void) const { NL_PS_FUNC(getNbBoundObjects); return _LocatedBoundCont.size(); }
uint32 getNbBoundObjects(void) const { NL_PS_FUNC(getNbBoundObjects); return (uint32)_LocatedBoundCont.size(); }
/**
* get a pointer to a bound object (const version)
@ -989,7 +989,7 @@ public:
*/
virtual void releaseAllRef();
/// return the number of targets
uint32 getNbTargets(void) const { return _Targets.size(); }
uint32 getNbTargets(void) const { return (uint32)_Targets.size(); }
/// Return a ptr on a target. Invalid range -> nlassert
CPSLocated *getTarget(uint32 index)
{

View file

@ -266,7 +266,7 @@ public:
{
min = _MinAngularVelocity;
max = _MaxAngularVelocity;
return _PrecompBasis.size();
return (uint32)_PrecompBasis.size();
}

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@ -132,7 +132,7 @@ public:
// See if shape is in brace mode (rather then in closed loop mode)
bool getBraceMode() const { return _BraceMode; }
/// get the number of vertice in the shape used for ribbons
uint32 getNbVerticesInShape(void) const { return _Shape.size(); }
uint32 getNbVerticesInShape(void) const { return (uint32)_Shape.size(); }
/** Get a copy of the shape used for ribbon
* \param dest a table of cvector that has the right size, it will be filled with vertices

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@ -802,7 +802,7 @@ template<class T> void CQuadGrid<T>::buildSelectionShape(TSelectionShape &dest,
{
dest.clear();
sint minY;
uint numVerts = poly.Vertices.size();
uint numVerts = (uint)poly.Vertices.size();
_ScaledPoly.Vertices.resize(numVerts);
nlassert(_EltSize != 0.f);
float invScale = 1.f / _EltSize;
@ -814,7 +814,7 @@ template<class T> void CQuadGrid<T>::buildSelectionShape(TSelectionShape &dest,
_ScaledPoly.computeOuterBorders(_PolyBorders, minY);
if (_PolyBorders.empty()) return;
initSelectStamps();
sint numSegs = _PolyBorders.size();
sint numSegs = (sint)_PolyBorders.size();
for (sint y = 0; y < numSegs; ++y)
{
sint currIndex = ((minY + y) & (_Size - 1)) << _SizePower;

View file

@ -419,7 +419,7 @@ public:
/// get the number of light group.
uint getNumLightGroup () const
{
return _LightGroupColor.size ();
return (uint)_LightGroupColor.size ();
}
/// get the color of a lightmap group.
NLMISC::CRGBA getLightmapGroupColor(uint lightGroup) const

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@ -341,7 +341,7 @@ public:
const std::vector<CPointLightNamed> &getPointLightList() const {return _PointLightArray.getPointLights();}
/// Get the number of point lights
uint getNumPointLights() const { return _PointLightArray.getPointLights().size(); }
uint getNumPointLights() const { return (uint)_PointLightArray.getPointLights().size(); }
/// Get a mutable ref on a point light named
CPointLightNamed &getPointLightNamed(uint index)

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@ -97,7 +97,7 @@ public:
*/
void setNumCorners(uint numCorners);
// get the number of corners
uint32 getNumCorners() const { return _Corners.size(); }
uint32 getNumCorners() const { return (uint32)_Corners.size(); }
// Set a corner
void setCorner(uint corner, const NLMISC::CVector &value);
// Get a corner

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@ -199,7 +199,7 @@ public:
bool forceComputeBone(uint boneId);
/// return the number of bones currently animated/computed (because of bindSkin()/stickObject() / Lod system).
uint getNumBoneComputed() const {return _BoneToCompute.size();}
uint getNumBoneComputed() const {return (uint)_BoneToCompute.size();}
/** change the Lod Bone interpolation distance (in meters). If 0, interpolation is disabled.
* The smaller this value is, the more Lod skeleton system will "pop". Default is 0.5 meters.

View file

@ -108,7 +108,7 @@ public:
/// get lod information.
const CLod &getLod(uint lod) const {return _Lods[lod];}
uint getNumLods() const {return _Lods.size();}
uint getNumLods() const {return (uint)_Lods.size();}
// ***************************
private:

View file

@ -51,7 +51,7 @@ public:
*/
void setFileName(uint index, const char *);
//
uint getNumFileName() const { return _FileNames.size(); }
uint getNumFileName() const { return (uint)_FileNames.size(); }
/**
* get the name of the file containing the texture for the given index
* \return name of the file

View file

@ -331,7 +331,7 @@ public:
}
sint getNumTile256 () const
{
return _Tile256.size();
return (sint)_Tile256.size();
}
sint32 getTile128 (sint index) const
{
@ -494,40 +494,40 @@ public:
// Get
sint getLandCount () const
{
return _LandVector.size();
};
return (sint)_LandVector.size();
}
const CTileLand* getLand (int landIndex) const
{
return &_LandVector[landIndex];
};
}
CTileLand* getLand (int landIndex)
{
return &_LandVector[landIndex];
};
}
sint getTileSetCount () const
{
return _TileSetVector.size();
};
return (sint)_TileSetVector.size();
}
const CTileSet* getTileSet (int tileIndex) const
{
return &_TileSetVector[tileIndex];
};
}
CTileSet* getTileSet (int tileIndex)
{
return &_TileSetVector[tileIndex];
};
}
sint getTileCount () const
{
return _TileVector.size();
};
return (sint)_TileVector.size();
}
const CTile* getTile (int tileIndex) const
{
return &_TileVector[tileIndex];
};
}
CTile* getTile (int tileIndex)
{
return &_TileVector[tileIndex];
};
}
sint addLand (const std::string& name);
void removeLand (sint landIndex);
sint addTileSet (const std::string& name);

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@ -79,7 +79,7 @@ public:
/// Return the pixel array size. Should be 0 for empty, 64 for a 128x128 tile and 256 for a 256x256 tile.
uint getSize (TFarType type, TFarOrder order) const
{
return _Pixels[type][order].size();
return (uint)_Pixels[type][order].size();
}
/// Set the pixel array of a far Tile

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@ -155,7 +155,7 @@ protected:
ITrackKeyFramer<CKeyBezierQuat>::compile();
// makeclosest quaternions, Tangents Precompute.
sint nKeys= _MapKey.size();
sint nKeys= (sint)_MapKey.size();
if(nKeys<=1)
return;

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@ -246,7 +246,7 @@ protected:
// Tangents Precompute.
sint nKeys= this->_MapKey.size();
sint nKeys= (sint)this->_MapKey.size();
if(nKeys<=1)
return;
@ -458,7 +458,7 @@ public:
}
// Tangents Precompute.
sint nKeys= _MapKey.size();
sint nKeys= (sint)_MapKey.size();
if(nKeys<=1)
return;

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@ -236,7 +236,7 @@ public:
// unlink from all parent clip
void clipUnlinkFromAll();
// get Parents links. NB: indices are no more valid after a clipDelChild()
uint clipGetNumParents() const {return _ClipParents.size();}
uint clipGetNumParents() const {return (uint)_ClipParents.size();}
CTransform *clipGetParent(uint index) const;
// get Sons links. NB: indices are no more valid after a clipDelChild()
uint clipGetNumChildren() const {return _ClipSons.size();}

View file

@ -490,7 +490,7 @@ public:
float getPatchScale() const {return PatchScale;}
bool compiled() const {return Compiled;}
uint16 getZoneId() const {return ZoneId;}
sint getNumPatchs() const {return Patchs.size();}
sint getNumPatchs() const {return (sint)Patchs.size();}
// Return the Bounding Box of the zone.
const CAABBoxExt &getZoneBB() const {return ZoneBB;}

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@ -331,7 +331,7 @@ public:
void addWaterShape(CWaterShape *shape, const NLMISC::CMatrix &MT);
/// get the number of water shapes added
uint getNumWaterShape() const {return _WaterShapes.size();}
uint getNumWaterShape() const {return (uint)_WaterShapes.size();}
/// check whether a shape is lightable.
static bool isLightableShape(IShape &shape);

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@ -363,8 +363,8 @@ void loadForm (const std::vector<std::string> &sheetFilters, const std::string &
{
uint dicIndex;
// add a new dictionnary entry
dicIndex = dictionnary.size();
dictionnaryIndex.insert(std::make_pair(filename, dictionnary.size()));
dicIndex = (uint)dictionnary.size();
dictionnaryIndex.insert(std::make_pair(filename, (uint)dictionnary.size()));
dictionnary.push_back(filename);
// add the dependecy index
@ -430,7 +430,7 @@ void loadForm (const std::vector<std::string> &sheetFilters, const std::string &
ofile.serialCont(dictionnary);
// write the dependencies data
uint32 depSize = dependencies.size();
uint32 depSize = (uint32)dependencies.size();
ofile.serial(depSize);
std::map<NLMISC::CSheetId, std::vector<uint32> >::iterator first(dependencies.begin()), last(dependencies.end());
for (; first != last; ++first)
@ -448,7 +448,7 @@ void loadForm (const std::vector<std::string> &sheetFilters, const std::string &
ofile.seek(endBlockSize, NLMISC::IStream::begin);
// write the sheet data
uint32 nbEntries = sheetIds.size();
uint32 nbEntries = (uint32)sheetIds.size();
uint32 ver = T::getVersion ();
ofile.serial (nbEntries);
ofile.serial (ver);
@ -1086,8 +1086,8 @@ void loadForm (const std::vector<std::string> &sheetFilters, const std::string &
if (dictionnaryIndex.find(filename) == dictionnaryIndex.end())
{
// add a new dictionnary entry
dicIndex = dictionnary.size();
dictionnaryIndex.insert(std::make_pair(filename, dictionnary.size()));
dicIndex = (uint)dictionnary.size();
dictionnaryIndex.insert(std::make_pair(filename, (uint)dictionnary.size()));
dictionnary.push_back(filename);
}
else
@ -1157,7 +1157,7 @@ void loadForm (const std::vector<std::string> &sheetFilters, const std::string &
ofile.serialCont(dictionnary);
// write the dependencies data
uint32 depSize = dependencies.size();
uint32 depSize = (uint32)dependencies.size();
ofile.serial(depSize);
std::map<std::string, std::vector<uint32> >::iterator first(dependencies.begin()), last(dependencies.end());
for (; first != last; ++first)
@ -1175,7 +1175,7 @@ void loadForm (const std::vector<std::string> &sheetFilters, const std::string &
ofile.seek(endBlockSize, NLMISC::IStream::begin);
// write the sheet data
uint32 nbEntries = sheetNames.size();
uint32 nbEntries = (uint32)sheetNames.size();
uint32 ver = T::getVersion ();
ofile.serial (nbEntries);
ofile.serial (ver);

View file

@ -211,7 +211,7 @@ public:
/** Get the children primitive count */
uint getNumChildren () const
{
return _Children.size ();
return (uint)_Children.size ();
}
/** Get a child primitive */

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@ -127,7 +127,7 @@ uint searchLowerBound(const T *array, uint arraySize, const T &key)
template<class T>
uint searchLowerBound(const std::vector<T> &array, const T &key)
{
uint size= array.size();
uint size= (uint)array.size();
if(size==0)
return 0;
else

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@ -71,7 +71,7 @@ public:
{
_BlockSize= other._BlockSize;
// if other block is rebinded, don't copy its rebinded size.
_EltSize= std::max(sizeof(T), sizeof(void*));
_EltSize= (uint)std::max(sizeof(T), sizeof(void*));
// No elts allocated
_NextFreeElt= NULL;
_NAllocatedElts= 0;

View file

@ -68,7 +68,7 @@ public:
~CBufFIFO ();
/// Push 'buffer' in the head of the FIFO
void push (const std::vector<uint8> &buffer) { push (&buffer[0], buffer.size()); }
void push (const std::vector<uint8> &buffer) { push (&buffer[0], (uint32)buffer.size()); }
void push (const NLMISC::CMemStream &buffer) { push (buffer.buffer(), buffer.length()); }

View file

@ -298,7 +298,7 @@ void nlSleep( uint32 ms );
#endif
/// Returns Thread Id (note: on Linux, Process Id is the same as the Thread Id)
uint getThreadId();
size_t getThreadId();
/// Returns a readable string from a vector of bytes. unprintable char are replaced by '?'
std::string stringFromVector( const std::vector<uint8>& v, bool limited = true );

View file

@ -374,19 +374,19 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
// Linux set of asserts is reduced due to that there is no message box displayer
#define nlassert(exp) \
{ \
do { \
if (!(exp)) { \
NLMISC::createDebug (); \
NLMISC::INelContext::getInstance().getAssertLog()->setPosition (__LINE__, __FILE__, __FUNCTION__); \
NLMISC::INelContext::getInstance().getAssertLog()->displayNL ("\"%s\" ", #exp); \
NLMISC_BREAKPOINT; \
} \
}
} while(0)
#define nlassertonce(exp) nlassert(exp)
#define nlassertex(exp, str) \
{ \
do { \
if (!(exp)) { \
NLMISC::createDebug (); \
NLMISC::INelContext::getInstance().getAssertLog()->setPosition (__LINE__, __FILE__, __FUNCTION__); \
@ -394,7 +394,7 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
NLMISC::INelContext::getInstance().getAssertLog()->displayRawNL str; \
NLMISC_BREAKPOINT; \
} \
}
} while(0)
#define nlverify(exp) nlassert(exp)
#define nlverifyonce(exp) nlassert(exp)
@ -403,7 +403,7 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
# else // NL_OS_UNIX
#define nlassert(exp) \
{ \
do { \
static bool ignoreNextTime = false; \
bool _expResult_ = (exp) ? true : false; \
if (!ignoreNextTime && !_expResult_) { \
@ -411,20 +411,20 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
NLMISC_BREAKPOINT; \
} \
ASSERT_THROW_EXCEPTION_CODE_EX(_expResult_, #exp) \
}
} while(0)
#define nlassertonce(exp) \
{ \
do { \
static bool ignoreNextTime = false; \
if (!ignoreNextTime && !(exp)) { \
ignoreNextTime = true; \
if(NLMISC::_assert_stop(ignoreNextTime, __LINE__, __FILE__, __FUNCTION__, #exp)) \
NLMISC_BREAKPOINT; \
} \
}
} while(0)
#define nlassertex(exp, str) \
{ \
do { \
static bool ignoreNextTime = false; \
bool _expResult_ = (exp) ? true : false; \
if (!ignoreNextTime && !_expResult_) { \
@ -434,10 +434,10 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
NLMISC_BREAKPOINT; \
} \
ASSERT_THROW_EXCEPTION_CODE_EX(_expResult_, #exp) \
}
} while(0)
#define nlverify(exp) \
{ \
do { \
static bool ignoreNextTime = false; \
bool _expResult_ = (exp) ? true : false; \
if (!_expResult_ && !ignoreNextTime) { \
@ -445,10 +445,10 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
NLMISC_BREAKPOINT; \
} \
ASSERT_THROW_EXCEPTION_CODE_EX(_expResult_, #exp) \
}
} while(0)
#define nlverifyonce(exp) \
{ \
do { \
static bool ignoreNextTime = false; \
bool _expResult_ = (exp) ? true : false; \
if (!_expResult_ && !ignoreNextTime) { \
@ -456,10 +456,10 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
if(NLMISC::_assert_stop(ignoreNextTime, __LINE__, __FILE__, __FUNCTION__, #exp)) \
NLMISC_BREAKPOINT; \
} \
}
} while(0)
#define nlverifyex(exp, str) \
{ \
do { \
static bool ignoreNextTime = false; \
bool _expResult_ = (exp) ? true : false; \
if (!_expResult_ && !ignoreNextTime) { \
@ -469,7 +469,7 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
NLMISC_BREAKPOINT; \
} \
ASSERT_THROW_EXCEPTION_CODE_EX(_expResult_, #exp) \
}
} while(0)
# endif // NL_OS_UNIX
@ -478,28 +478,28 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
#define nlunreferenced(identifier) (identifier)
#define nlstop \
{ \
do { \
static bool ignoreNextTime = false; \
if (!ignoreNextTime) { \
if(NLMISC::_assert_stop(ignoreNextTime, __LINE__, __FILE__, __FUNCTION__, NULL)) \
NLMISC_BREAKPOINT; \
} \
ASSERT_THROW_EXCEPTION_CODE(false) \
}
} while(0)
#define nlstoponce \
{ \
do { \
static bool ignoreNextTime = false; \
if (!ignoreNextTime) { \
ignoreNextTime = true; \
if(NLMISC::_assert_stop(ignoreNextTime, __LINE__, __FILE__, __FUNCTION__, NULL)) \
NLMISC_BREAKPOINT; \
} \
}
} while(0)
#define nlstopex(str) \
{ \
do { \
static bool ignoreNextTime = false; \
if (!ignoreNextTime) { \
NLMISC::_assertex_stop_0(ignoreNextTime, __LINE__, __FILE__, __FUNCTION__, NULL); \
@ -507,7 +507,7 @@ extern bool _assertex_stop_1(bool &ignoreNextTime);
if(NLMISC::_assertex_stop_1(ignoreNextTime)) \
NLMISC_BREAKPOINT; \
} \
}
} while(0)
struct EFatalError : public Exception

View file

@ -145,7 +145,7 @@ namespace STRING_MANAGER
uint size() const
{
return Data.size();
return (uint)Data.size();
}
void insertColumn(uint colIndex)
@ -230,7 +230,7 @@ namespace STRING_MANAGER
// Return the first column for which the title does not begin with '*'
if ( columnTitle[0] != '*' )
{
colIndex = (it - Data[0].begin());
colIndex = (uint)(it - Data[0].begin());
return true;
}
}
@ -246,7 +246,7 @@ namespace STRING_MANAGER
if (it == Data[0].end())
return false;
colIndex = it - Data[0].begin();
colIndex = (uint)(it - Data[0].begin());
return true;
}
@ -261,7 +261,7 @@ namespace STRING_MANAGER
// resize the rows
void resize(uint numRows)
{
uint oldSize= Data.size();
uint oldSize= (uint)Data.size();
Data.resize(numRows);
// alloc good Column count for new lines
for(uint i= oldSize;i<Data.size();i++)
@ -278,7 +278,7 @@ namespace STRING_MANAGER
{
if (first->operator[](colIndex) == colValue)
{
rowIndex = first - Data.begin();
rowIndex = (uint)(first - Data.begin());
return true;
}
@ -497,7 +497,7 @@ namespace STRING_MANAGER
else
{
// nlassert(it != context.Reference.begin()+refCount);
uint index = find_if(context.Reference.begin(), context.Reference.end(), TestItem(getIdentifier(context.Addition, addCount))) - context.Reference.begin();
uint index = (uint)(find_if(context.Reference.begin(), context.Reference.end(), TestItem(getIdentifier(context.Addition, addCount))) - context.Reference.begin());
// callback->onSwap(it - context.Reference.begin(), refCount, context);
callback->onSwap(index, refCount, context);

View file

@ -41,7 +41,7 @@ public:
/// test whether e is in the emitter list
bool isEmitter(IEventEmitter *e) const;
// Get the number of registered emitters
uint getNumEmitters() const { return _Emitters.size(); }
uint getNumEmitters() const { return (uint)_Emitters.size(); }
// Get an emitter
IEventEmitter *getEmitter(uint index);
const IEventEmitter *getEmitter(uint index) const;

View file

@ -46,7 +46,7 @@ public:
// Set number of entries in the historic. Oldest entries are removed
inline void setMaxSize(uint maxSize);
// Get current size of historic
uint getSize() const { return _Historic.size(); }
uint getSize() const { return (uint)_Historic.size(); }
// Access to an element in history, 0 being the oldest, size - 1 being the lastest added element
const T &operator[](uint index) const { return _Historic[index]; /* let STL do out of range check */ }
// Clear historic

View file

@ -43,7 +43,7 @@ public:
/// remove a device from this server (but does not delete it).
void removeDevice(IInputDevice *device);
// returns the number of registered devices
uint getNumDevices() const { return _Devices.size(); }
uint getNumDevices() const { return (uint)_Devices.size(); }
// return a device
IInputDevice *getDevice(uint index) { return _Devices[index]; }
/// Test whether the given device is handled by this server.

View file

@ -53,7 +53,7 @@ public:
time_t Date;
TLogType LogType;
std::string ProcessName;
uint ThreadId;
size_t ThreadId;
const char *FileName;
sint Line;
const char *FuncName;

View file

@ -570,7 +570,7 @@ protected:
#define writenumber(src,format,digits) \
char number_as_cstring [digits+1]; \
sprintf( number_as_cstring, format, src ); \
serialSeparatedBufferOut( (uint8*)number_as_cstring, strlen(number_as_cstring) );
serialSeparatedBufferOut( (uint8*)number_as_cstring, (uint)strlen(number_as_cstring) );
/*
* atoihex

View file

@ -52,7 +52,7 @@ public:
/// Constructor. Init with a triangle.
CPolygon(const CVector &a, const CVector &b, const CVector &c);
sint getNumVertices() const {return Vertices.size();}
sint getNumVertices() const {return (sint)Vertices.size();}
// build a triangle fan from this polygon, appending resulting tris to 'dest'
void toTriFan(std::vector<NLMISC::CTriangle> &dest) const;

View file

@ -1057,7 +1057,7 @@ private:
}
else
{
len= cont.size();
len= (sint32)cont.size();
serial(len);
}
@ -1116,7 +1116,7 @@ protected:
}
else
{
len= cont.size();
len = (sint32)cont.size();
serial(len);
// Close the node header
@ -1238,7 +1238,7 @@ private:
}
else
{
len= cont.size();
len= (sint32)cont.size();
serial(len);
}
@ -1393,7 +1393,7 @@ private:
}
else
{
len= cont.size();
len= (sint32)cont.size();
serial(len);
}
@ -1587,7 +1587,7 @@ private:
}
else
{
len= cont.size();
len= (sint32)cont.size();
serial(len);
__iterator it= cont.begin();

View file

@ -97,7 +97,7 @@ public:
const std::string &toString(const TDestType &value) const;
// nb of pairs in the map
inline uint16 getNbPairs() const { return _String2DestType.size(); }
inline uint16 getNbPairs() const { return (uint16)_String2DestType.size(); }
// Check a value against the list a value, return true if the value exist in the container
bool isValid(const DestType &value) const;

View file

@ -71,7 +71,7 @@ public:
nlassert (!str.empty());
// add at the end
addString (str, _StringArray.size ());
addString (str, (TStringId)_StringArray.size ());
}
/** Returns the id associated to string str. If the id is not found, the string will be added in
@ -138,7 +138,7 @@ public:
/// Returns the size of the _StringArray
TStringId size () const
{
return _StringArray.size ();
return (TStringId)_StringArray.size ();
}
/// Returns all string in the _NeedToAskStringArray

View file

@ -87,7 +87,7 @@ public:
_CurFrame++;
// _CurFrame%=_LastFrames.size();
if (_CurFrame >= _LastFrames.size())
_CurFrame -= _LastFrames.size();
_CurFrame -= (uint)_LastFrames.size();
// update the number of frames added.
_NumFrame++;

View file

@ -420,7 +420,7 @@ public:
uint nb;
{
NLMISC::CSynchronized<CConnections>::CAccessor connectionssync( &_Connections );
nb = connectionssync.value().size();
nb = (uint)connectionssync.value().size();
}
return nb;
}

View file

@ -237,9 +237,9 @@ public:
/// Return the names of the sounds (call this method after loadSounds())
virtual void getSoundNames( std::vector<NLMISC::TStringId> &names ) const;
/// Return the number of mixing tracks (voices)
virtual uint getPolyphony() const { return _Tracks.size(); }
virtual uint getPolyphony() const { return (uint)_Tracks.size(); }
/// Return the number of sources instance.
virtual uint getSourcesInstanceCount() const { return _Sources.size(); }
virtual uint getSourcesInstanceCount() const { return (uint)_Sources.size(); }
/// Return the number of playing sources (slow)
virtual uint getPlayingSourcesCount() const;
/// Return the number of available tracks

View file

@ -54,7 +54,7 @@ public:
/** Return the number of markers in this track
*/
virtual uint32 countMarkers() { return _Markers.size(); }
virtual uint32 countMarkers() { return (uint32)_Markers.size(); }
/** Return a marker of this track given its index */
virtual CSoundAnimMarker* getMarker(uint32 i) { return _Markers[i]; }

View file

@ -189,7 +189,7 @@ TAnimationTime CAnimation::getBeginTime () const
if (_BeginTimeTouched)
{
// Track count
uint trackCount=_TrackVector.size();
uint trackCount=(uint)_TrackVector.size();
// Track count empty ?
if (trackCount==0)
@ -220,7 +220,7 @@ TAnimationTime CAnimation::getEndTime () const
if (_EndTimeTouched)
{
// Track count
uint trackCount=_TrackVector.size();
uint trackCount=(uint)_TrackVector.size();
// Track count empty ?
if (trackCount==0)
@ -254,7 +254,7 @@ bool CAnimation::allTrackLoop() const
if(_AnimLoopTouched)
{
// Track count
uint trackCount=_TrackVector.size();
uint trackCount=(uint)_TrackVector.size();
// Default is true
_AnimLoop= true;
@ -393,7 +393,7 @@ void CAnimation::applyTrackQuatHeaderCompression()
_TrackSamplePack= new CTrackSamplePack;
// just copy the built track headers
_TrackSamplePack->TrackHeaders.resize(sampleCounter.TrackHeaders.size());
_TrackSamplePack->TrackHeaders.resize((uint32)sampleCounter.TrackHeaders.size());
for(i=0;i<_TrackSamplePack->TrackHeaders.size();i++)
{
_TrackSamplePack->TrackHeaders[i]= sampleCounter.TrackHeaders[i];

View file

@ -319,7 +319,7 @@ void CAnimationOptimizer::sampleQuatTrack(const ITrack *trackIn, float beginTim
// ***************************************************************************
bool CAnimationOptimizer::testConstantQuatTrack()
{
uint numSamples= _QuatKeyList.size();
uint numSamples= (uint)_QuatKeyList.size();
nlassert(numSamples>0);
// Get the first sample as the reference quaternion, and test others from this one.
@ -339,7 +339,7 @@ bool CAnimationOptimizer::testConstantQuatTrack()
// ***************************************************************************
void CAnimationOptimizer::optimizeQuatTrack()
{
uint numSamples= _QuatKeyList.size();
uint numSamples= (uint)_QuatKeyList.size();
nlassert(numSamples>0);
// <=2 key? => no opt possible..
@ -477,7 +477,7 @@ void CAnimationOptimizer::sampleVectorTrack(const ITrack *trackIn, float beginT
// ***************************************************************************
bool CAnimationOptimizer::testConstantVectorTrack()
{
uint numSamples= _VectorKeyList.size();
uint numSamples= (uint)_VectorKeyList.size();
nlassert(numSamples>0);
// Get the first sample as the reference Vectorer, and test others from this one.
@ -497,7 +497,7 @@ bool CAnimationOptimizer::testConstantVectorTrack()
// ***************************************************************************
void CAnimationOptimizer::optimizeVectorTrack()
{
uint numSamples= _VectorKeyList.size();
uint numSamples= (uint)_VectorKeyList.size();
nlassert(numSamples>0);
// <=2 key? => no opt possible..

View file

@ -54,7 +54,7 @@ CAnimationSet::~CAnimationSet ()
// ***************************************************************************
uint CAnimationSet::getNumChannelId () const
{
return _ChannelIdByName.size ();
return (uint)_ChannelIdByName.size ();
}
// ***************************************************************************
@ -76,10 +76,10 @@ uint CAnimationSet::addAnimation (const char* name, CAnimation* animation)
_AnimationName.push_back (name);
// Add an entry name / animation
_AnimationIdByName.insert (std::map <std::string, uint32>::value_type (name, _Animation.size()-1));
_AnimationIdByName.insert (std::map <std::string, uint32>::value_type (name, (uint32)_Animation.size()-1));
// Return animation id
return _Animation.size()-1;
return (uint)_Animation.size()-1;
}
// ***************************************************************************
@ -90,10 +90,10 @@ uint CAnimationSet::addSkeletonWeight (const char* name, CSkeletonWeight* skelet
_SkeletonWeightName.push_back (name);
// Add an entry name / animation
_SkeletonWeightIdByName.insert (std::map <std::string, uint32>::value_type (name, _SkeletonWeight.size()-1));
_SkeletonWeightIdByName.insert (std::map <std::string, uint32>::value_type (name, (uint32)_SkeletonWeight.size()-1));
// Return animation id
return _SkeletonWeight.size()-1;
return (uint)_SkeletonWeight.size()-1;
}
// ***************************************************************************

View file

@ -157,7 +157,7 @@ uint CAsyncTextureManager::addTextureRef(const string &textNameNotLwr, CMeshBa
if(it==_TextureEntryMap.end())
{
// search a free id.
uint i= _TextureEntries.size();
uint i= (uint)_TextureEntries.size();
if(!_FreeTextureIds.empty())
{
i= _FreeTextureIds.back();
@ -301,7 +301,7 @@ void CAsyncTextureManager::releaseTexture(uint id, CMeshBaseInstance *instance
// find an instance in this texture an remove it.
CTextureEntry *text= _TextureEntries[id];
uint instSize= text->Instances.size();
uint instSize= (uint)text->Instances.size();
for(uint i=0;i<instSize;i++)
{
if(text->Instances[i]== instance)
@ -701,7 +701,7 @@ void CAsyncTextureManager::updateTextureLodSystem(IDriver *pDriver)
uint pivot= 0;
uint currentWantedSize= currentBaseSize;
uint currentLoadedSize= currentBaseSize;
for(i=lodArray.size()-1;i>=0;i--)
for(i=(sint)lodArray.size()-1;i>=0;i--)
{
uint lodSize= lodArray[i].Lod->ExtraSize;
currentWantedSize+= lodSize;
@ -731,7 +731,7 @@ void CAsyncTextureManager::updateTextureLodSystem(IDriver *pDriver)
{
unload= false;
// search from end of the list to pivot (included), the first LOD (ie the most important) to load.
for(i=lodArray.size()-1;i>=(sint)pivot;i--)
for(i=(sint)lodArray.size()-1;i>=(sint)pivot;i--)
{
if(!lodArray[i].Lod->UpLoaded)
{

View file

@ -187,7 +187,7 @@ void CChannelMixer::eval (bool detail, uint64 evalDetailDate)
uint numChans;
if(detail)
{
numChans= _DetailListToEval.size();
numChans= (uint)_DetailListToEval.size();
if(numChans)
channelArrayPtr= &_DetailListToEval[0];
else
@ -195,7 +195,7 @@ void CChannelMixer::eval (bool detail, uint64 evalDetailDate)
}
else
{
numChans= _GlobalListToEval.size();
numChans= (uint)_GlobalListToEval.size();
if(numChans)
channelArrayPtr= &_GlobalListToEval[0];
else

View file

@ -35,7 +35,7 @@ bool CCoarseMeshBuild::build (const std::vector<CCoarseMeshDesc>& coarseMeshes,
return false;
// 2. remap coordinates
remapCoordinates (coarseMeshes, desc, bitmaps.size ());
remapCoordinates (coarseMeshes, desc, (uint)bitmaps.size ());
// 3. ok
return true;

View file

@ -134,7 +134,7 @@ void CDeform2d::doDeform(const TPoint2DVect &surf, IDriver *drv, IPerturbUV *uvp
/** setup the whole vertex buffer
* we don't share vertices here, as we work with unaligned quads
*/
vb.setNumVertices(dest.size() << 2);
vb.setNumVertices((uint32)dest.size() << 2);
mat.setTexture(0, _Tex);
{
CVertexBufferReadWrite vba;
@ -173,7 +173,7 @@ void CDeform2d::doDeform(const TPoint2DVect &surf, IDriver *drv, IPerturbUV *uvp
}
drv->activeVertexBuffer(vb);
drv->renderRawQuads(mat, 0, dest.size());
drv->renderRawQuads(mat, 0, (uint32)dest.size());
}
} // NL3D

View file

@ -3187,7 +3187,7 @@ IOcclusionQuery::TOcclusionType COcclusionQueryD3D::getOcclusionType()
H_AUTO_D3D(COcclusionQueryD3D_getOcclusionType);
nlassert(Driver);
nlassert(Query);
nlassert(Driver->_CurrentOcclusionQuery != this) // can't query result between a begin/end pair!
nlassert(Driver->_CurrentOcclusionQuery != this); // can't query result between a begin/end pair!
if (OcclusionType == NotAvailable)
{
DWORD numPix;
@ -3207,7 +3207,7 @@ uint COcclusionQueryD3D::getVisibleCount()
H_AUTO_D3D(COcclusionQueryD3D_getVisibleCount);
nlassert(Driver);
nlassert(Query);
nlassert(Driver->_CurrentOcclusionQuery != this) // can't query result between a begin/end pair!
nlassert(Driver->_CurrentOcclusionQuery != this); // can't query result between a begin/end pair!
if (getOcclusionType() == NotAvailable) return 0;
return VisibleCount;
}

View file

@ -1401,7 +1401,7 @@ bool CDriverD3D::needsConstants (uint &numConstant, uint &firstConstant, uint &s
alphaPipe[0].clear();
}
add(rgbPipe[0], alphaPipe[0]);
numConstant = rgbPipe[0].size();
numConstant = (uint)rgbPipe[0].size();
if (numConstant)
{
firstConstant = *(rgbPipe[0].begin());
@ -1919,7 +1919,7 @@ IDirect3DPixelShader9 *CDriverD3D::buildPixelShader (const CNormalShaderDesc &no
// Assemble and create the shader
LPD3DXBUFFER pShader;
LPD3DXBUFFER pErrorMsgs;
if (D3DXAssembleShader (shaderText.c_str(), shaderText.size(), NULL, NULL, 0, &pShader, &pErrorMsgs) == D3D_OK)
if (D3DXAssembleShader (shaderText.c_str(), (UINT)shaderText.size(), NULL, NULL, 0, &pShader, &pErrorMsgs) == D3D_OK)
{
IDirect3DPixelShader9 *shader;
if (_DeviceInterface->CreatePixelShader((DWORD*)pShader->GetBufferPointer(), &shader) == D3D_OK)

View file

@ -167,7 +167,7 @@ HRESULT CDriverD3D::SetTexture (DWORD Stage, LPDIRECT3DBASETEXTURE9 pTexture)
H_AUTO_D3D(CDriverD3D_SetTexture )
// Look for the current texture
uint i;
const uint count = _CurrentShaderTextures.size();
const uint count = (uint)_CurrentShaderTextures.size();
for (i=0; i<count; i++)
{
const CTextureRef &ref = _CurrentShaderTextures[i];
@ -355,7 +355,7 @@ bool CDriverD3D::activeShader(CShader *shd)
// Assemble the shader
LPD3DXBUFFER pErrorMsgs;
if (D3DXCreateEffect(_DeviceInterface, shd->getText(), strlen(shd->getText())+1, NULL, NULL, 0, NULL, &(shaderInfo->Effect), &pErrorMsgs)
if (D3DXCreateEffect(_DeviceInterface, shd->getText(), (UINT)strlen(shd->getText())+1, NULL, NULL, 0, NULL, &(shaderInfo->Effect), &pErrorMsgs)
== D3D_OK)
{
// Get the texture handle
@ -3713,7 +3713,7 @@ HRESULT STDMETHODCALLTYPE CFXPassRecorder::SetTexture(DWORD Stage, LPDIRECT3DBAS
nlassert(Target);
// Look for the current texture
uint i;
const uint count = Driver->getCurrentShaderTextures().size();
const uint count = (uint)Driver->getCurrentShaderTextures().size();
for (i=0; i<count; i++)
{
const CDriverD3D::CTextureRef &ref = Driver->getCurrentShaderTextures()[i];

View file

@ -334,7 +334,7 @@ bool CDriverD3D::activeVertexProgram (CVertexProgram *program)
LPD3DXBUFFER pShader;
LPD3DXBUFFER pErrorMsgs;
if (D3DXAssembleShader (dest.c_str(), dest.size(), NULL, NULL, 0, &pShader, &pErrorMsgs) == D3D_OK)
if (D3DXAssembleShader (dest.c_str(), (UINT)dest.size(), NULL, NULL, 0, &pShader, &pErrorMsgs) == D3D_OK)
{
if (_DeviceInterface->CreateVertexShader((DWORD*)pShader->GetBufferPointer(), &(getVertexProgramD3D(*program)->Shader)) != D3D_OK)
return false;

View file

@ -4231,7 +4231,7 @@ IOcclusionQuery::TOcclusionType COcclusionQueryGL::getOcclusionType()
H_AUTO_OGL(COcclusionQueryGL_getOcclusionType)
nlassert(Driver);
nlassert(ID);
nlassert(Driver->_CurrentOcclusionQuery != this) // can't query result between a begin/end pair!
nlassert(Driver->_CurrentOcclusionQuery != this); // can't query result between a begin/end pair!
if (OcclusionType == NotAvailable)
{
GLuint result;
@ -4254,7 +4254,7 @@ uint COcclusionQueryGL::getVisibleCount()
H_AUTO_OGL(COcclusionQueryGL_getVisibleCount)
nlassert(Driver);
nlassert(ID);
nlassert(Driver->_CurrentOcclusionQuery != this) // can't query result between a begin/end pair!
nlassert(Driver->_CurrentOcclusionQuery != this); // can't query result between a begin/end pair!
if (getOcclusionType() == NotAvailable) return 0;
return VisibleCount;
}

View file

@ -923,7 +923,7 @@ void CDriverGLStates::enableVertexAttribArrayForEXTVertexShader(uint glIndex, bo
nglDisableVariantClientStateEXT(variants[CDriverGL::EVSPaletteSkinVariant]);
break;
case 7: // empty
nlstop
nlstop;
break;
case 8:
case 9:

View file

@ -1413,7 +1413,7 @@ void CDriverGL::setupGlArraysForEXTVertexShader(CVertexBufferInfo &vb)
}
break;
case CVertexBuffer::Empty: // empty
nlstop
nlstop;
break;
case CVertexBuffer::TexCoord0:
case CVertexBuffer::TexCoord1:
@ -1483,7 +1483,7 @@ void CDriverGL::setupGlArraysForEXTVertexShader(CVertexBufferInfo &vb)
}
break;
case CVertexBuffer::Empty: // empty
nlstop
nlstop;
break;
case CVertexBuffer::TexCoord0:
case CVertexBuffer::TexCoord1:

View file

@ -120,7 +120,7 @@ bool CDriverGL::activeNVVertexProgram (CVertexProgram *program)
program->_DrvInfo=drvInfo;
// Compile the program
nglLoadProgramNV (GL_VERTEX_PROGRAM_NV, drvInfo->ID, program->getProgram().length(), (const GLubyte*)program->getProgram().c_str());
nglLoadProgramNV (GL_VERTEX_PROGRAM_NV, drvInfo->ID, (GLsizei)program->getProgram().length(), (const GLubyte*)program->getProgram().c_str());
// Get loading error code
GLint errorOff;
@ -130,7 +130,7 @@ bool CDriverGL::activeNVVertexProgram (CVertexProgram *program)
if (errorOff>=0)
{
// String length
uint length = program->getProgram ().length();
uint length = (uint)program->getProgram ().length();
const char* sString= program->getProgram ().c_str();
// Line count and char count
@ -1392,7 +1392,7 @@ bool CDriverGL::setupARBVertexProgram (const CVPParser::TProgram &inParsedProgra
//
nglBindProgramARB( GL_VERTEX_PROGRAM_ARB, id);
glGetError();
nglProgramStringARB( GL_VERTEX_PROGRAM_ARB, GL_PROGRAM_FORMAT_ASCII_ARB, code.size(), code.c_str() );
nglProgramStringARB( GL_VERTEX_PROGRAM_ARB, GL_PROGRAM_FORMAT_ASCII_ARB, (GLsizei)code.size(), code.c_str() );
GLenum err = glGetError();
if (err != GL_NO_ERROR)
{
@ -1400,7 +1400,7 @@ bool CDriverGL::setupARBVertexProgram (const CVPParser::TProgram &inParsedProgra
{
GLint position;
glGetIntegerv(GL_PROGRAM_ERROR_POSITION_ARB, &position);
nlassert(position != -1) // there was an error..
nlassert(position != -1); // there was an error..
nlassert(position < (GLint) code.size());
uint line = 0;
const char *lineStart = code.c_str();

View file

@ -861,7 +861,7 @@ void CDriverUser::drawQuads(const std::vector<NLMISC::CQuadColorUV> &q, UMater
H_AUTO2;
const CQuadColorUV *qptr = &(q[0]);
drawQuads(qptr , q.size(), mat);
drawQuads(qptr , (uint32)q.size(), mat);
}
// ***************************************************************************
@ -870,7 +870,7 @@ void CDriverUser::drawQuads(const std::vector<NLMISC::CQuadColorUV2> &q, UMate
H_AUTO2;
const CQuadColorUV2 *qptr = &(q[0]);
drawQuads(qptr , q.size(), mat);
drawQuads(qptr , (uint32)q.size(), mat);
}
// ***************************************************************************

View file

@ -490,7 +490,7 @@ void CDRU::drawTrianglesUnlit(const std::vector<NLMISC::CTriangleUV> &trilist,
if(trilist.size()==0)
return;
CDRU::drawTrianglesUnlit( &(*trilist.begin()), trilist.size(), mat, driver);
CDRU::drawTrianglesUnlit( &(*trilist.begin()), (uint)trilist.size(), mat, driver);
}
@ -529,7 +529,7 @@ void CDRU::drawLinesUnlit(const std::vector<NLMISC::CLine> &linelist, CMateria
{
if(linelist.size()==0)
return;
CDRU::drawLinesUnlit( &(*linelist.begin()), linelist.size(), mat, driver);
CDRU::drawLinesUnlit( &(*linelist.begin()), (sint)linelist.size(), mat, driver);
}
// ***************************************************************************
void CDRU::drawLine(const CVector &a, const CVector &b, CRGBA color, IDriver& driver)

View file

@ -71,7 +71,7 @@ void CFastPtrListBase::insert(void *element, CFastPtrListNode *node)
_Elements.push_back(element);
_Nodes.push_back(node);
node->_Owner= this;
node->_IndexInOwner= _Nodes.size()-1;
node->_IndexInOwner= (uint32)_Nodes.size()-1;
}
// ***************************************************************************
@ -83,7 +83,7 @@ void CFastPtrListBase::erase(CFastPtrListNode *node)
// Take the indexes,
uint nodeIndex= node->_IndexInOwner;
uint lastIndex= _Nodes.size()-1;
uint lastIndex= (uint)_Nodes.size()-1;
// swap the last element and the erased one.
swap(_Elements[nodeIndex], _Elements[lastIndex]);

View file

@ -100,7 +100,7 @@ void CFontManager::computeString (const ucstring &s,
}
// Setting vertices format
output.Vertices.setNumVertices (4 * s.size());
output.Vertices.setNumVertices (4 * (uint32)s.size());
// 1 character <-> 1 quad
sint32 penx = 0, dx;

View file

@ -47,7 +47,7 @@ void CHLSTextureBank::reset()
uint32 CHLSTextureBank::addColorTexture(const CHLSColorTexture &tex)
{
_ColorTextures.push_back(tex);
return _ColorTextures.size()-1;
return (uint32)_ColorTextures.size()-1;
}
// ***************************************************************************
void CHLSTextureBank::addTextureInstance(const std::string &name, uint32 colorTextureId, const vector<CHLSColorDelta> &cols)
@ -62,14 +62,14 @@ void CHLSTextureBank::addTextureInstance(const std::string &name, uint32 color
// new instance
CTextureInstance textInst;
textInst._ColorTextureId= colorTextureId;
textInst._DataIndex= _TextureInstanceData.size();
textInst._DataIndex= (uint32)_TextureInstanceData.size();
// leave ptrs undefined
textInst._DataPtr= NULL;
textInst._ColorTexturePtr= NULL;
// allocate/fill data
uint32 nameSize= (nameLwr.size()+1);
uint32 colSize= cols.size()*sizeof(CHLSColorDelta);
uint32 nameSize= (uint32)(nameLwr.size()+1);
uint32 colSize= (uint32)cols.size()*sizeof(CHLSColorDelta);
_TextureInstanceData.resize(_TextureInstanceData.size() + nameSize + colSize);
// copy name
memcpy(&_TextureInstanceData[textInst._DataIndex], nameLwr.c_str(), nameSize);
@ -176,7 +176,7 @@ bool CHLSTextureBank::CTextureInstance::sameName(const char *str)
void CHLSTextureBank::CTextureInstance::buildColorVersion(NLMISC::CBitmap &out)
{
// get ptr to color deltas.
uint nameSize= strlen((const char*)_DataPtr)+1;
uint nameSize= (uint)strlen((const char*)_DataPtr)+1;
CHLSColorDelta *colDeltas= (CHLSColorDelta*)(_DataPtr + nameSize);
// build the texture.

View file

@ -51,7 +51,7 @@ void CIGSurfaceLightBuild::buildSunDebugMesh(CMesh::CMeshBuild &meshBuild,
// Resize vector.
uint wVert= surface.Width;
uint hVert= surface.Height;
uint vId0= meshBuild.Vertices.size();
uint vId0= (uint)meshBuild.Vertices.size();
// Allocate vertices / colors
meshBuild.Vertices.resize(vId0 + wVert*hVert);
vector<CRGBA> colors;
@ -98,7 +98,7 @@ void CIGSurfaceLightBuild::buildPLDebugMesh(CMesh::CMeshBuild &meshBuild, CMes
meshBuild.VertexFlags= CVertexBuffer::PositionFlag | CVertexBuffer::PrimaryColorFlag;
// Get the number of lights in Ig.
uint numLight= igOut.getPointLightList().size();
uint numLight= (uint)igOut.getPointLightList().size();
numLight= raiseToNextPowerOf2(numLight);
uint idMultiplier= 256/ numLight;
@ -132,7 +132,7 @@ void CIGSurfaceLightBuild::buildPLDebugMesh(CMesh::CMeshBuild &meshBuild, CMes
// Resize vector.
uint wVert= surface.Width;
uint hVert= surface.Height;
uint vId0= meshBuild.Vertices.size();
uint vId0= (uint)meshBuild.Vertices.size();
// Allocate vertices / colors
meshBuild.Vertices.resize(vId0 + wVert*hVert);
vector<CRGBA> colors;

View file

@ -83,7 +83,7 @@ void CInstanceLighter::addTriangles (CLandscape &landscape, std::vector<uint> &l
landscape.getTessellationLeaves(leaves);
// Number of leaves
uint leavesCount=leaves.size();
uint leavesCount=(uint)leaves.size();
// Reserve the array
triangleArray.reserve (triangleArray.size()+leavesCount);
@ -332,7 +332,7 @@ void CInstanceLighter::light (const CInstanceGroup &igIn, CInstanceGroup &igOut,
// For all retrievers Infos in _IGSurfaceLightBuild
while(itSrc!=_IGSurfaceLightBuild->RetrieverGridMap.end())
{
uint numSurfaces= itSrc->second.Grids.size();
uint numSurfaces= (uint)itSrc->second.Grids.size();
// If !empty retriever.
if(numSurfaces>0)
{
@ -355,7 +355,7 @@ void CInstanceLighter::light (const CInstanceGroup &igIn, CInstanceGroup &igOut,
surfDst.Origin= surfSrc.Origin;
surfDst.Width= surfSrc.Width;
surfDst.Height= surfSrc.Height;
surfDst.Cells.resize(surfSrc.Cells.size());
surfDst.Cells.resize((uint32)surfSrc.Cells.size());
surfDst.Cells.fill(defaultCellCorner);
// The grid must be valid an not empty
nlassert( surfDst.Cells.size() == surfDst.Width*surfDst.Height );
@ -1050,7 +1050,7 @@ void CInstanceLighter::compilePointLightRT(uint gridSize, float gridCellSize,
// ===========
CQuadGrid<CTriangle*> obstacleGrid;
obstacleGrid.create(gridSize, gridCellSize);
uint size= obstacles.size();
uint size= (uint)obstacles.size();
for(i=0; i<size; i++)
{
// bbox of triangle

View file

@ -2260,7 +2260,7 @@ CPatchRdrPass* CLandscape::getFarRenderPass(CPatch* pPatch, uint farIndex, float
// If no one found, must allocate a new render pass.
if(bestRdrPass==-1)
{
bestRdrPass= _TextureFars.size();
bestRdrPass= (sint)_TextureFars.size();
// add a new render pass
CPatchRdrPass *pass=new CPatchRdrPass;
@ -3809,7 +3809,7 @@ void CLandscape::initAnimatedLightIndex(const CScene &scene)
void CLandscape::releaseAllTiles()
{
nlassert(Zones.empty());
releaseTiles (0, TileInfos.size());
releaseTiles (0, (uint32)TileInfos.size());
}

View file

@ -81,7 +81,7 @@ TLandscapeIndexType *CLandscapeFaceVectorManager::createFaceVector(uint numTri)
// Allocate a block of max tris. +1 is for the NumTris entry at index 0.
uint numTriMax= 1<<blockId;
// allocate max of (sizeof(uint32*), (numTriMax*3+1)*sizeof(uint32));
uint sizeInByteToAllocate= max(sizeof(TLandscapeIndexType*), (numTriMax*3 + 1)*sizeof(TLandscapeIndexType));
uint sizeInByteToAllocate= (uint)max(sizeof(TLandscapeIndexType*), (numTriMax*3 + 1)*sizeof(TLandscapeIndexType));
_Blocks[blockId]= new TLandscapeIndexType[(sizeInByteToAllocate + (sizeof(TLandscapeIndexType) - 1)) /sizeof(TLandscapeIndexType)];
// Init it as a free faceVector, with no Next.
*(TLandscapeIndexType**)_Blocks[blockId]= NULL;

View file

@ -61,7 +61,7 @@ void CLightInfluenceInterpolator::interpolate(std::vector<CPointLightInfluence>
{
// append a PointLightInfluence
pointLightList.push_back(CPointLightInfluence());
sint id= pointLightList.size()-1;
sint id= (sint)pointLightList.size()-1;
// setup the PointLightInfluence
corner.Lights[0]->_IdInInfluenceList= id;
pointLightList[id].PointLight= corner.Lights[0];
@ -82,7 +82,7 @@ void CLightInfluenceInterpolator::interpolate(std::vector<CPointLightInfluence>
{
// append a PointLightInfluence
pointLightList.push_back(CPointLightInfluence());
sint id= pointLightList.size()-1;
sint id= (sint)pointLightList.size()-1;
// setup the PointLightInfluence
corner.Lights[1]->_IdInInfluenceList= id;
pointLightList[id].PointLight= corner.Lights[1];

View file

@ -189,7 +189,7 @@ void CLodCharacterBuilder::addAnim(const char *animName, CAnimation *animation
// ***************************************************************************
void CLodCharacterBuilder::applySkin(CSkeletonModel *skeleton, CVector *dstVertices)
{
uint numVerts= _LodBuild->Vertices.size();
uint numVerts= (uint)_LodBuild->Vertices.size();
// for all vertices.
for(uint i=0; i<numVerts; i++)

View file

@ -139,7 +139,7 @@ uint32 CLodCharacterManager::createShapeBank()
// no free entrey, resize array.
_ShapeBankArray.push_back(new CLodCharacterShapeBank);
return _ShapeBankArray.size()-1;
return (uint32)_ShapeBankArray.size()-1;
}
// ***************************************************************************

View file

@ -347,7 +347,7 @@ CLodCharacterShape::CLodCharacterShape()
// ***************************************************************************
void CLodCharacterShape::buildMesh(const std::string &name, const CLodCharacterShapeBuild &lodBuild)
{
uint numVertices= lodBuild.Vertices.size();
uint numVertices= (uint)lodBuild.Vertices.size();
const vector<uint32> &triangleIndices= lodBuild.TriangleIndices;
const vector<CMesh::CSkinWeight> &skinWeights= lodBuild.SkinWeights;
const vector<CUV> &uvs= lodBuild.UVs;
@ -372,7 +372,7 @@ void CLodCharacterShape::buildMesh(const std::string &name, const CLodCharacte
// Copy data.
_Name= name;
_NumVertices= numVertices;
_NumTriangles= triangleIndices.size()/3;
_NumTriangles= (uint32)triangleIndices.size()/3;
#ifdef NL_LOD_CHARACTER_INDEX16
_TriangleIndices.resize(triangleIndices.size());
for(uint k = 0; k < triangleIndices.size(); ++k)
@ -492,7 +492,7 @@ bool CLodCharacterShape::addAnim(const CAnimBuild &animBuild)
// Add the anim to the array, and add an entry to the map
_Anims.push_back(dstAnim);
_AnimMap.insert(make_pair(dstAnim.Name, _Anims.size()-1));
_AnimMap.insert(make_pair(dstAnim.Name, (uint32)_Anims.size()-1));
return true;
}

View file

@ -46,7 +46,7 @@ uint32 CLodCharacterShapeBank::addShape()
// Alloc a new shape
_ShapeArray.resize(_ShapeArray.size()+1);
return _ShapeArray.size()-1;
return (uint32)_ShapeArray.size()-1;
}
// ***************************************************************************
@ -105,7 +105,7 @@ bool CLodCharacterShapeBank::compile()
// ***************************************************************************
uint CLodCharacterShapeBank::getNumShapes() const
{
return _ShapeArray.size();
return (uint)_ShapeArray.size();
}
// ***************************************************************************

View file

@ -226,7 +226,7 @@ void CMaterial::serial(NLMISC::IStream &f)
}
else
{
n = _LightMaps.size();
n = (uint32)_LightMaps.size();
f.serial(n);
}
for (uint32 i = 0; i < n; ++i)

View file

@ -290,7 +290,7 @@ void CMeshGeom::build (CMesh::CMeshBuild &m, uint numMaxMaterial)
TCornerSet corners;
const CFaceTmp *pFace= &(*tmpFaces.begin());
uint32 nFaceMB = 0;
sint N= tmpFaces.size();
sint N= (sint)tmpFaces.size();
sint currentVBIndex=0;
m.VertLink.clear ();
@ -336,7 +336,7 @@ void CMeshGeom::build (CMesh::CMeshBuild &m, uint numMaxMaterial)
/// 4. Then, for all faces, build the RdrPass PBlock.
//===================================================
pFace= &(*tmpFaces.begin());
N= tmpFaces.size();
N= (sint)tmpFaces.size();
for(;N>0;N--, pFace++)
{
sint mbId= pFace->MatrixBlockId;
@ -1302,7 +1302,7 @@ void CMeshGeom::buildSkin(CMesh::CMeshBuild &m, std::vector<CFaceTmp> &tmpFaces)
}
// to Which matrixblock this face is inserted.
face.MatrixBlockId= _MatrixBlocks.size()-1;
face.MatrixBlockId= (sint)_MatrixBlocks.size()-1;
// remove the face from remain face list.
itFace= remainingFaces.erase(itFace);
@ -1450,13 +1450,13 @@ float CMeshGeom::getNumTriangles (float distance)
uint32 triCount=0;
// For each matrix block
uint mbCount=_MatrixBlocks.size();
uint mbCount=(uint)_MatrixBlocks.size();
for (uint mb=0; mb<mbCount; mb++)
{
CMatrixBlock &block=_MatrixBlocks[mb];
// Count of primitive block
uint pCount=block.RdrPass.size();
uint pCount=(uint)block.RdrPass.size();
for (uint pb=0; pb<pCount; pb++)
{
// Ref on the primitive block
@ -1797,7 +1797,7 @@ void CMeshGeom::applySkin(CSkeletonModel *skeleton)
skinType= SkinWithTgSpace;
// Get VB src/dst info/ptrs.
uint numVertices= _OriginalSkinVertices.size();
uint numVertices= (uint)_OriginalSkinVertices.size();
uint dstStride= _VBuffer.getVertexSize();
// Get dst TgSpace.
uint tgSpaceStage = 0;
@ -2208,12 +2208,12 @@ bool CMeshGeom::sortPerMaterial() const
// ***************************************************************************
uint CMeshGeom::getNumRdrPassesForMesh() const
{
return _MatrixBlocks[0].RdrPass.size();
return (uint)_MatrixBlocks[0].RdrPass.size();
}
// ***************************************************************************
uint CMeshGeom::getNumRdrPassesForInstance(CMeshBaseInstance *inst) const
{
return _MatrixBlocks[0].RdrPass.size();
return (uint)_MatrixBlocks[0].RdrPass.size();
}
// ***************************************************************************
void CMeshGeom::beginMesh(CMeshGeomRenderContext &rdrCtx)
@ -2502,7 +2502,7 @@ void CMesh::build (CMeshBase::CMeshBaseBuild &mbase, CMeshBuild &m)
CMeshBase::buildMeshBase (mbase);
// build the geometry.
_MeshGeom->build (m, mbase.Materials.size());
_MeshGeom->build (m, (uint)mbase.Materials.size());
// compile some stuff
compileRunTime();

View file

@ -396,7 +396,7 @@ void CMeshBase::applyMaterialUsageOptim(const std::vector<bool> &materialUsed, s
}
// apply the remap to LightMaps infos
const uint count = _LightInfos.size ();
const uint count = (uint)_LightInfos.size ();
for (i=0; i<count; i++)
{
CLightMapInfoList &mapInfoList = _LightInfos[i];
@ -425,7 +425,7 @@ void CMeshBase::applyMaterialUsageOptim(const std::vector<bool> &materialUsed, s
void CMeshBase::flushTextures(IDriver &driver, uint selectedTexture)
{
// Mat count
uint matCount=_Materials.size();
uint matCount=(uint)_Materials.size();
// Flush each material textures
for (uint mat=0; mat<matCount; mat++)
@ -443,7 +443,7 @@ void CMeshBase::computeIsLightable()
_IsLightable= false;
// Mat count
uint matCount=_Materials.size();
uint matCount=(uint)_Materials.size();
// for each material
for (uint mat=0; mat<matCount; mat++)

View file

@ -117,7 +117,7 @@ ITrack* CMeshBaseInstance::getDefaultTrack (uint valueId)
uint32 CMeshBaseInstance::getNbLightMap()
{
CMeshBase* pMesh=(CMeshBase*)(IShape*)Shape;
return pMesh->_LightInfos.size();
return (uint32)pMesh->_LightInfos.size();
}
// ***************************************************************************
@ -132,7 +132,7 @@ void CMeshBaseInstance::getLightMapName( uint32 nLightMapNb, std::string &LightM
// ***************************************************************************
uint32 CMeshBaseInstance::getNbBlendShape()
{
return _AnimatedMorphFactor.size();
return (uint32)_AnimatedMorphFactor.size();
}
// ***************************************************************************
@ -228,8 +228,8 @@ void CMeshBaseInstance::traverseAnimDetail()
// Lightmap automatic animation
// Animated lightmap must have the same size than shape info lightmap.
const uint count0 = _AnimatedLightmap.size();
const uint count1 = mb->_LightInfos.size ();
const uint count0 = (uint)_AnimatedLightmap.size();
const uint count1 = (uint)mb->_LightInfos.size ();
nlassert (count0 == count1);
if (count0 == count1)
{
@ -316,7 +316,7 @@ void CMeshBaseInstance::initAnimatedLightIndex (const CScene &scene)
// For each lightmap in the shape
CMeshBase *pMB = static_cast<CMeshBase*> (static_cast<IShape*> (Shape));
const uint count = pMB->_LightInfos.size ();
const uint count = (uint)pMB->_LightInfos.size ();
uint i;
// Resize the index array
@ -339,7 +339,7 @@ void CMeshBaseInstance::initAnimatedLightIndex (const CScene &scene)
// ***************************************************************************
uint CMeshBaseInstance::getNumMaterial () const
{
return Materials.size ();
return (uint)Materials.size ();
}

View file

@ -94,7 +94,7 @@ void CMeshBlockManager::addInstance(IMeshGeom *meshGeom, CMeshBaseInstance *in
// link to the head of the list.
instInfo.NextInstance= meshGeom->_RootInstanceId;
meshGeom->_RootInstanceId= hb->RdrInstances.size();
meshGeom->_RootInstanceId= (sint32)hb->RdrInstances.size();
// add this instance
hb->RdrInstances.push_back(instInfo);
@ -311,7 +311,7 @@ void CMeshBlockManager::allocateMeshVBHeap(IMeshGeom *mesh)
// else, must add to the array
else
{
meshId= vbHeapBlock->AllocatedMeshGeoms.size();
meshId= (uint)vbHeapBlock->AllocatedMeshGeoms.size();
vbHeapBlock->AllocatedMeshGeoms.push_back(mesh);
}
@ -414,7 +414,7 @@ bool CMeshBlockManager::addVBHeap(IDriver *drv, uint vertexFormat, uint maxVer
// add an entry to the array, and the map.
_VBHeapBlocks.push_back(hb);
_VBHeapMap[vertexFormat]= _VBHeapBlocks.size()-1;
_VBHeapMap[vertexFormat]= (uint)_VBHeapBlocks.size()-1;
return true;
}

View file

@ -405,7 +405,7 @@ void CMeshMorpher::updateRawSkin (CVertexBuffer *vbOri,
if (rFactor != 0.0f)
{
rFactor*= 0.01f;
uint32 numVertices= rBS.VertRefs.size();
uint32 numVertices= (uint32)rBS.VertRefs.size();
// don't know why, but cases happen where deltaNorm not empty while deltaPos is
bool hasPos= rBS.deltaPos.size()>0;
bool hasNorm= rBS.deltaNorm.size()>0;

View file

@ -107,7 +107,7 @@ void CMeshMRMGeom::CLod::buildSkinVertexBlocks()
uint i;
for(i=0;i<NL3D_MESH_SKINNING_MAX_MATRIX;i++)
{
uint nInf= InfluencedVertices[i].size();
uint nInf= (uint)InfluencedVertices[i].size();
if( nInf==0 )
continue;
uint32 *infPtr= &(InfluencedVertices[i][0]);
@ -299,7 +299,7 @@ void CMeshMRMGeom::build(CMesh::CMeshBuild &m, std::vector<CMesh::CMeshBuild*>
// LodOffset is filled in serial() when stream is input.
}
// After build, all lods are present in memory.
_NbLodLoaded= _Lods.size();
_NbLodLoaded= (uint)_Lods.size();
// For load balancing.
@ -549,7 +549,7 @@ void CMeshMRMGeom::applyGeomorphWithVBHardPtr(std::vector<CMRMWedgeGeom> &geoms
// For all geomorphs.
uint nGeoms= geoms.size();
uint nGeoms= (uint)geoms.size();
CMRMWedgeGeom *ptrGeom= &(geoms[0]);
uint8 *destPtr= vertexDestPtr;
/* NB: optimisation: lot of "if" in this Loop, but because of BTB, they always cost nothing (prediction is good).
@ -751,7 +751,7 @@ void CMeshMRMGeom::applyGeomorphWithVBHardPtr(std::vector<CMRMWedgeGeom> &geoms
// For all stages after 4.
for(i=4;i<CVertexBuffer::MaxStage;i++)
{
uint nGeoms= geoms.size();
uint nGeoms= (uint)geoms.size();
CMRMWedgeGeom *ptrGeom= &(geoms[0]);
uint8 *destPtr= vertexDestPtr;
@ -793,7 +793,7 @@ void CMeshMRMGeom::applyGeomorphPosNormalUV0(std::vector<CMRMWedgeGeom> &geoms,
// For all geomorphs.
uint nGeoms= geoms.size();
uint nGeoms= (uint)geoms.size();
CMRMWedgeGeom *ptrGeom= &(geoms[0]);
uint8 *destPtr= vertexDestPtr;
for(; nGeoms>0; nGeoms--, ptrGeom++, destPtr+= vertexSize )
@ -1355,7 +1355,7 @@ sint CMeshMRMGeom::renderSkinGroupGeom(CMeshMRMInstance *mi, float alphaMRM, uin
applyRawSkinWithNormal (lod, *(mi->_RawSkinCache), skeleton, vbDest, alphaLod);
// Vertices are packed in RawSkin mode (ie no holes due to MRM!)
return mi->_RawSkinCache->Geomorphs.size() +
return (sint)mi->_RawSkinCache->Geomorphs.size() +
mi->_RawSkinCache->TotalSoftVertices +
mi->_RawSkinCache->TotalHardVertices;
}
@ -1519,7 +1519,7 @@ void CMeshMRMGeom::updateShiftedTriangleCache(CMeshMRMInstance *mi, sint curLodI
}
// Build RdrPass
mi->_ShiftedTriangleCache->RdrPass.resize(pbList.size());
mi->_ShiftedTriangleCache->RdrPass.resize((uint32)pbList.size());
// First pass, count number of triangles, and fill header info
uint totalTri= 0;
@ -1764,7 +1764,7 @@ void CMeshMRMGeom::load(NLMISC::IStream &f) throw(NLMISC::EStream)
}
// Now, all lods are loaded.
_NbLodLoaded= _Lods.size();
_NbLodLoaded= (uint)_Lods.size();
// If version doen't have boneNames, must build BoneId now.
if(verHeader <= 2)
@ -1951,7 +1951,7 @@ void CMeshMRMGeom::loadFirstLod(NLMISC::IStream &f)
*/
uint numLodToLoad;
if(verHeader<4)
numLodToLoad= _LodInfos.size();
numLodToLoad= (uint)_LodInfos.size();
else
numLodToLoad= 1;
@ -2152,7 +2152,7 @@ void CMeshMRMGeom::restoreOriginalSkinPart(CLod &lod)
//===========================
for(uint i=0;i<NL3D_MESH_SKINNING_MAX_MATRIX;i++)
{
uint nInf= lod.InfluencedVertices[i].size();
uint nInf= (uint)lod.InfluencedVertices[i].size();
if( nInf==0 )
continue;
uint32 *infPtr= &(lod.InfluencedVertices[i][0]);
@ -2588,7 +2588,7 @@ bool CMeshMRMGeom::buildGeometryForLod(uint lodId, std::vector<CVector> &vertice
// **** count number of vertices really used (skip geomorphs)
uint numUsedVertices=0;
for(i=geomorphs.size();i<vertexRemap.size();i++)
for(i=(uint)geomorphs.size();i<vertexRemap.size();i++)
{
if(vertexRemap[i]>=0)
numUsedVertices++;
@ -2607,13 +2607,13 @@ bool CMeshMRMGeom::buildGeometryForLod(uint lodId, std::vector<CVector> &vertice
_VBufferFinal.lock(vba);
// get the start vert, beginning at end of geomorphs
const uint8 *pSrcVert= (const uint8*)vba.getVertexCoordPointer(geomorphs.size());
const uint8 *pSrcVert= (const uint8*)vba.getVertexCoordPointer((uint)geomorphs.size());
uint32 vertSize= _VBufferFinal.getVertexSize();
CVector *pDstVert= &vertices[0];
uint dstIndex= 0;
// Then run all input vertices (skip geomorphs)
for(i=geomorphs.size();i<vertexRemap.size();i++)
for(i=(uint)geomorphs.size();i<vertexRemap.size();i++)
{
// if the vertex is used
if(vertexRemap[i]>=0)
@ -2710,7 +2710,7 @@ uint CMeshMRMGeom::getNumRdrPassesForMesh() const
// ***************************************************************************
uint CMeshMRMGeom::getNumRdrPassesForInstance(CMeshBaseInstance *inst) const
{
return _Lods[_MBRCurrentLodId].RdrPass.size();
return (uint)_Lods[_MBRCurrentLodId].RdrPass.size();
}
// ***************************************************************************
void CMeshMRMGeom::beginMesh(CMeshGeomRenderContext &rdrCtx)
@ -2884,7 +2884,7 @@ void CMeshMRM::build (CMeshBase::CMeshBaseBuild &mBase, CMesh::CMeshBuild &m,
CMeshBase::buildMeshBase (mBase);
// Then build the geom.
_MeshMRMGeom.build (m, listBS, mBase.Materials.size(), params);
_MeshMRMGeom.build (m, listBS, (uint)mBase.Materials.size(), params);
}
// ***************************************************************************
void CMeshMRM::build (CMeshBase::CMeshBaseBuild &m, const CMeshMRMGeom &mgeom)
@ -3196,10 +3196,10 @@ void CMeshMRMGeom::updateRawSkinNormal(bool enabled, CMeshMRMInstance *mi, sint
// Resize the dest array.
skinLod.Vertices1.resize(lod.InfluencedVertices[0].size());
skinLod.Vertices2.resize(lod.InfluencedVertices[1].size());
skinLod.Vertices3.resize(lod.InfluencedVertices[2].size());
skinLod.Vertices4.resize(lod.InfluencedVertices[3].size());
skinLod.Vertices1.resize((uint32)lod.InfluencedVertices[0].size());
skinLod.Vertices2.resize((uint32)lod.InfluencedVertices[1].size());
skinLod.Vertices3.resize((uint32)lod.InfluencedVertices[2].size());
skinLod.Vertices4.resize((uint32)lod.InfluencedVertices[3].size());
// Remap for BlendShape. Lasts 2 bits tells what RawSkin Array to seek (1 to 4),
// low Bits indicate the number in them. 0xFFFFFFFF is a special value indicating "NotUsed in this lod"
@ -3308,7 +3308,7 @@ void CMeshMRMGeom::updateRawSkinNormal(bool enabled, CMeshMRMInstance *mi, sint
// Remap Geomorphs.
//========
uint numGeoms= lod.Geomorphs.size();
uint numGeoms= (uint)lod.Geomorphs.size();
skinLod.Geomorphs.resize( numGeoms );
for(i=0;i<numGeoms;i++)
{
@ -3369,7 +3369,7 @@ void CMeshMRMGeom::updateRawSkinNormal(bool enabled, CMeshMRMInstance *mi, sint
//========
if(_MeshMorpher.BlendShapes.size()>0)
{
skinLod.VertexRemap.resize(vertexFinalRemap.size());
skinLod.VertexRemap.resize((uint32)vertexFinalRemap.size());
for(i=0;i<vertexFinalRemap.size();i++)
{
@ -3424,13 +3424,13 @@ void CMeshMRMGeom::setShadowMesh(const std::vector<CShadowVertex> &shadowVerti
// ***************************************************************************
uint CMeshMRMGeom::getNumShadowSkinVertices() const
{
return _ShadowSkin.Vertices.size();
return (uint)_ShadowSkin.Vertices.size();
}
// ***************************************************************************
sint CMeshMRMGeom::renderShadowSkinGeom(CMeshMRMInstance *mi, uint remainingVertices, uint8 *vbDest)
{
uint numVerts= _ShadowSkin.Vertices.size();
uint numVerts= (uint)_ShadowSkin.Vertices.size();
// if no verts, no draw
if(numVerts==0)
@ -3496,7 +3496,7 @@ void CMeshMRMGeom::renderShadowSkinPrimitives(CMeshMRMInstance *mi, CMaterial
if(shiftedTris.getNumIndexes()<_ShadowSkin.Triangles.size())
{
shiftedTris.setFormat(NL_MESH_MRM_INDEX_FORMAT);
shiftedTris.setNumIndexes(_ShadowSkin.Triangles.size());
shiftedTris.setNumIndexes((uint32)_ShadowSkin.Triangles.size());
}
shiftedTris.setPreferredMemory(CIndexBuffer::RAMVolatile, false);
{
@ -3504,7 +3504,7 @@ void CMeshMRMGeom::renderShadowSkinPrimitives(CMeshMRMInstance *mi, CMaterial
shiftedTris.lock(iba);
const uint32 *src= &_ShadowSkin.Triangles[0];
TMeshMRMIndexType *dst= (TMeshMRMIndexType *) iba.getPtr();
for(uint n= _ShadowSkin.Triangles.size();n>0;n--, src++, dst++)
for(uint n= (uint)_ShadowSkin.Triangles.size();n>0;n--, src++, dst++)
{
*dst= (TMeshMRMIndexType)(*src + baseVertex);
}
@ -3513,7 +3513,7 @@ void CMeshMRMGeom::renderShadowSkinPrimitives(CMeshMRMInstance *mi, CMaterial
// Render Triangles with cache
//===========
uint numTris= _ShadowSkin.Triangles.size()/3;
uint numTris= (uint)_ShadowSkin.Triangles.size()/3;
// Render with the Materials of the MeshInstance.
drv->activeIndexBuffer(shiftedTris);

View file

@ -204,7 +204,7 @@ void CMeshMRMGeom::applySkin(CLod &lod, const CSkeletonModel *skeleton)
nlassert(NL3D_MESH_SKINNING_MAX_MATRIX==4);
for(uint i=0;i<NL3D_MESH_SKINNING_MAX_MATRIX;i++)
{
uint nInf= lod.InfluencedVertices[i].size();
uint nInf= (uint)lod.InfluencedVertices[i].size();
if( nInf==0 )
continue;
uint32 *infPtr= &(lod.InfluencedVertices[i][0]);

View file

@ -390,7 +390,7 @@ void CMeshMRMGeom::applySkinWithNormal(CLod &lod, const CSkeletonModel *skeleton
nlassert(NL3D_MESH_SKINNING_MAX_MATRIX==4);
for(uint i=0;i<NL3D_MESH_SKINNING_MAX_MATRIX;i++)
{
uint nInf= lod.InfluencedVertices[i].size();
uint nInf= (uint)lod.InfluencedVertices[i].size();
if( nInf==0 )
continue;
uint32 *infPtr= &(lod.InfluencedVertices[i][0]);
@ -462,7 +462,7 @@ void CMeshMRMGeom::applySkinWithTangentSpace(CLod &lod, const CSkeletonModel *sk
nlassert(NL3D_MESH_SKINNING_MAX_MATRIX==4);
for(uint i=0;i<NL3D_MESH_SKINNING_MAX_MATRIX;i++)
{
uint nInf= lod.InfluencedVertices[i].size();
uint nInf= (uint)lod.InfluencedVertices[i].size();
if( nInf==0 )
continue;
uint32 *infPtr= &(lod.InfluencedVertices[i][0]);

View file

@ -445,7 +445,7 @@ void CMeshMRMSkinnedGeom::applyGeomorphPosNormalUV0(std::vector<CMRMWedgeGeom>
// For all geomorphs.
uint nGeoms= geoms.size();
uint nGeoms= (uint)geoms.size();
CMRMWedgeGeom *ptrGeom= &(geoms[0]);
uint8 *destPtr= vertexDestPtr;
for(; nGeoms>0; nGeoms--, ptrGeom++, destPtr+= vertexSize )
@ -472,7 +472,7 @@ void CMeshMRMSkinnedGeom::applyGeomorphPosNormalUV0(std::vector<CMRMWedgeGeom>
void CMeshMRMSkinnedGeom::applyGeomorphPosNormalUV0Int(std::vector<CMRMWedgeGeom> &geoms, uint8 *vertexPtr, uint8 *vertexDestPtr, sint32 vertexSize, sint a, sint a1)
{
// For all geomorphs.
uint nGeoms= geoms.size();
uint nGeoms= (uint)geoms.size();
CMRMWedgeGeom *ptrGeom= &(geoms[0]);
uint8 *destPtr= vertexDestPtr;
for(; nGeoms>0; nGeoms--, ptrGeom++, destPtr+= vertexSize )
@ -567,7 +567,7 @@ inline sint CMeshMRMSkinnedGeom::chooseLod(float alphaMRM, float &alphaLod)
/// Ensure numLod is correct
if(numLod>=(sint)_Lods.size())
{
numLod= _Lods.size()-1;
numLod= (sint)_Lods.size()-1;
alphaLod= 1;
}
@ -799,7 +799,7 @@ sint CMeshMRMSkinnedGeom::renderSkinGroupGeom(CMeshMRMSkinnedInstance *mi, float
applyRawSkinWithNormal (lod, *(mi->_RawSkinCache), skeleton, vbDest, alphaLod);
// Vertices are packed in RawSkin mode (ie no holes due to MRM!)
return mi->_RawSkinCache->Geomorphs.size() +
return (sint)mi->_RawSkinCache->Geomorphs.size() +
mi->_RawSkinCache->TotalSoftVertices +
mi->_RawSkinCache->TotalHardVertices;
}
@ -951,7 +951,7 @@ void CMeshMRMSkinnedGeom::updateShiftedTriangleCache(CMeshMRMSkinnedInstance *mi
}
// Build RdrPass
mi->_ShiftedTriangleCache->RdrPass.resize(pbList.size());
mi->_ShiftedTriangleCache->RdrPass.resize((uint32)pbList.size());
// First pass, count number of triangles, and fill header info
uint totalTri= 0;
@ -1463,7 +1463,7 @@ void CMeshMRMSkinned::build (CMeshBase::CMeshBaseBuild &mBase, CMesh::CMeshBui
CMeshBase::buildMeshBase (mBase);
// Then build the geom.
_MeshMRMGeom.build (m, mBase.Materials.size(), params);
_MeshMRMGeom.build (m, (uint)mBase.Materials.size(), params);
}
// ***************************************************************************
void CMeshMRMSkinned::build (CMeshBase::CMeshBaseBuild &m, const CMeshMRMSkinnedGeom &mgeom)
@ -1736,10 +1736,10 @@ void CMeshMRMSkinnedGeom::updateRawSkinNormal(bool enabled, CMeshMRMSkinnedInst
// Resize the dest array.
skinLod.Vertices1.resize(lod.InfluencedVertices[0].size());
skinLod.Vertices2.resize(lod.InfluencedVertices[1].size());
skinLod.Vertices3.resize(lod.InfluencedVertices[2].size());
skinLod.Vertices4.resize(lod.InfluencedVertices[3].size());
skinLod.Vertices1.resize((uint32)lod.InfluencedVertices[0].size());
skinLod.Vertices2.resize((uint32)lod.InfluencedVertices[1].size());
skinLod.Vertices3.resize((uint32)lod.InfluencedVertices[2].size());
skinLod.Vertices4.resize((uint32)lod.InfluencedVertices[3].size());
// Vertex buffer pointers
const CPackedVertexBuffer::CPackedVertex *vertices = _VBufferFinal.getPackedVertices();
@ -1846,7 +1846,7 @@ void CMeshMRMSkinnedGeom::updateRawSkinNormal(bool enabled, CMeshMRMSkinnedInst
// Remap Geomorphs.
//========
uint numGeoms= lod.Geomorphs.size();
uint numGeoms= (uint)lod.Geomorphs.size();
skinLod.Geomorphs.resize( numGeoms );
for(i=0;i<numGeoms;i++)
{
@ -1882,7 +1882,7 @@ void CMeshMRMSkinnedGeom::updateRawSkinNormal(bool enabled, CMeshMRMSkinnedInst
#else
nlassert(ibaWrite.getFormat() == CIndexBuffer::Indices16);
uint16 *dstTriPtr= (uint16 *) ibaWrite.getPtr();
uint32 numIndices= lod.RdrPass[i].PBlock.size();
uint32 numIndices= (uint32)lod.RdrPass[i].PBlock.size();
for(uint j=0;j<numIndices;j++, srcTriPtr++, dstTriPtr++)
{
uint vid= (uint)*srcTriPtr;
@ -1920,13 +1920,13 @@ void CMeshMRMSkinnedGeom::setShadowMesh(const std::vector<CShadowVertex> &shad
// ***************************************************************************
uint CMeshMRMSkinnedGeom::getNumShadowSkinVertices() const
{
return _ShadowSkin.Vertices.size();
return (uint)_ShadowSkin.Vertices.size();
}
// ***************************************************************************
sint CMeshMRMSkinnedGeom::renderShadowSkinGeom(CMeshMRMSkinnedInstance *mi, uint remainingVertices, uint8 *vbDest)
{
uint numVerts= _ShadowSkin.Vertices.size();
uint numVerts= (uint)_ShadowSkin.Vertices.size();
// if no verts, no draw
if(numVerts==0)
@ -1991,14 +1991,14 @@ void CMeshMRMSkinnedGeom::renderShadowSkinPrimitives(CMeshMRMSkinnedInstance *
//if(shiftedTris.getNumIndexes()<_ShadowSkin.Triangles.size())
//{
shiftedTris.setFormat(NL_SKINNED_MESH_MRM_INDEX_FORMAT);
shiftedTris.setNumIndexes(_ShadowSkin.Triangles.size());
shiftedTris.setNumIndexes((uint32)_ShadowSkin.Triangles.size());
//}
{
CIndexBufferReadWrite iba;
shiftedTris.lock(iba);
const uint32 *src= &_ShadowSkin.Triangles[0];
TSkinnedMeshMRMIndexType *dst= (TSkinnedMeshMRMIndexType*) iba.getPtr();
for(uint n= _ShadowSkin.Triangles.size();n>0;n--, src++, dst++)
for(uint n= (uint)_ShadowSkin.Triangles.size();n>0;n--, src++, dst++)
{
*dst= (TSkinnedMeshMRMIndexType)(*src + baseVertex);
}
@ -2007,7 +2007,7 @@ void CMeshMRMSkinnedGeom::renderShadowSkinPrimitives(CMeshMRMSkinnedInstance *
// Render Triangles with cache
//===========
uint numTris= _ShadowSkin.Triangles.size()/3;
uint numTris= (uint)_ShadowSkin.Triangles.size()/3;
// Render with the Materials of the MeshInstance.
drv->activeIndexBuffer(shiftedTris);

View file

@ -115,7 +115,7 @@ void CMeshMultiLod::build(CMeshMultiLodBuild &mbuild)
}
// Sort the slot by the distance...
for (int i=mbuild.LodMeshes.size()-1; i>0; i--)
for (int i=(uint)mbuild.LodMeshes.size()-1; i>0; i--)
for (int j=0; j<i; j++)
{
// Bad sort ?
@ -204,7 +204,7 @@ CTransformShape *CMeshMultiLod::createInstance(CScene &scene)
bool CMeshMultiLod::clip(const std::vector<CPlane> &pyramid, const CMatrix &worldMatrix)
{
// Look for the biggest mesh
uint meshCount=_MeshVector.size();
uint meshCount=(uint)_MeshVector.size();
for (uint i=0; i<meshCount; i++)
{
// Ref on slot
@ -315,7 +315,7 @@ void CMeshMultiLod::serial(NLMISC::IStream &f) throw(NLMISC::EStream)
float CMeshMultiLod::getNumTrianglesWithCoarsestDist(float distance, float coarsestMeshDist) const
{
// Look in the table for good distances..
uint meshCount=_MeshVector.size();
uint meshCount=(uint)_MeshVector.size();
// At least on mesh
if (meshCount>0)
@ -378,7 +378,7 @@ float CMeshMultiLod::getNumTrianglesWithCoarsestDist(float distance, float coars
void CMeshMultiLod::getAABBox(NLMISC::CAABBox &bbox) const
{
// Get count
uint count=_MeshVector.size();
uint count=(uint)_MeshVector.size();
for (uint slot=0; slot<count; slot++)
{
// Shape ?

View file

@ -97,7 +97,7 @@ void CMeshMultiLodInstance::traverseLoadBalancing()
float polygonCount= getNumTrianglesAfterLoadBalancing ();
// Look for the good slot
uint meshCount=shape->_MeshVector.size();
uint meshCount=(uint)shape->_MeshVector.size();
Lod0=0;
if (meshCount>1)
{

View file

@ -137,7 +137,7 @@ float CMRMBuilder::getDeltaFaceNormals(sint numvertex)
CMRMVertex &vert= TmpVertices[numvertex];
float delta=0;
CVector refNormal;
sint nfaces=vert.SharedFaces.size();
sint nfaces=(sint)vert.SharedFaces.size();
for(sint i=0;i<nfaces;i++)
{
CVector normal;
@ -815,7 +815,7 @@ sint CMRMBuilder::collapseEdge(const CMRMEdge &edge)
Vertex2.SharedFaces.end());
return deletedFaces.size();
return (sint)deletedFaces.size();
}
@ -937,7 +937,7 @@ void CMRMBuilder::collapseEdges(sint nWantedFaces)
{
ItEdgeMap EdgeIt;
sint nCurrentFaces=TmpFaces.size();
sint nCurrentFaces=(sint)TmpFaces.size();
sint bug0=0,bug2=0,bug3=0;
while(nCurrentFaces>nWantedFaces)
@ -1278,7 +1278,7 @@ void CMRMBuilder::makeFromMesh(const CMRMMesh &baseMesh, CMRMMeshGeom &lodMesh,
void CMRMBuilder::buildAllLods(const CMRMMesh &baseMesh, std::vector<CMRMMeshGeom> &lodMeshs,
uint nWantedLods, uint divisor)
{
sint nFaces= baseMesh.Faces.size();
sint nFaces= (sint)baseMesh.Faces.size();
sint nBaseFaces;
sint i;
CMRMMesh srcMesh = baseMesh;
@ -1328,7 +1328,7 @@ void CMRMBuilder::buildFinalMRM(std::vector<CMRMMeshGeom> &lodMeshs, CMRMMeshFin
{
sint i,j;
sint lodId, attId;
sint nLods= lodMeshs.size();
sint nLods= (sint)lodMeshs.size();
// Init.
// ===============
@ -1401,7 +1401,7 @@ void CMRMBuilder::buildFinalMRM(std::vector<CMRMMeshGeom> &lodMeshs, CMRMMeshFin
}
// Here, the number of wedge indicate the max number of wedge this LOD needs.
finalMRM.Lods[lodId].NWedges= finalMRM.Wedges.size();
finalMRM.Lods[lodId].NWedges= (sint)finalMRM.Wedges.size();
}
@ -1647,7 +1647,7 @@ sint CMRMBuilder::findInsertAttributeInBaseMesh(CMRMMesh &baseMesh, sint attId
// if attribute not found in the map, then insert a new one.
if(it==_AttributeMap[attId].end())
{
sint idx= baseMesh.Attributes[attId].size();
sint idx= (sint)baseMesh.Attributes[attId].size();
// insert into the array.
baseMesh.Attributes[attId].push_back(att);
// insert into the map.
@ -1779,7 +1779,7 @@ uint32 CMRMBuilder::buildMrmBaseMesh(const CMesh::CMeshBuild &mbuild, CMRMMesh
if(_HasMeshInterfaces)
baseMesh.InterfaceLinks= mbuild.InterfaceLinks;
// Resize faces.
nFaces= mbuild.Faces.size();
nFaces= (sint)mbuild.Faces.size();
baseMesh.Faces.resize(nFaces);
for(i=0; i<nFaces; i++)
{
@ -1985,7 +1985,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMGeo
// Setup the VertexBuffer.
// ========================
// resize the VB.
mbuild.VBuffer.setNumVertices(finalMRM.Wedges.size());
mbuild.VBuffer.setNumVertices((uint32)finalMRM.Wedges.size());
// Setup SkinWeights.
if(_Skinned)
mbuild.SkinWeights.resize(finalMRM.Wedges.size());
@ -2098,7 +2098,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMGeo
else
{
// map material to rdrPass.
sint idRdrPass= destLod.RdrPass.size();
sint idRdrPass= (sint)destLod.RdrPass.size();
rdrPassIndex[j]= idRdrPass;
// create a rdrPass.
destLod.RdrPass.push_back(CMeshMRMGeom::CRdrPass());
@ -2217,7 +2217,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMGeo
map<uint, uint>::iterator it= matrixInfMap.find(matId);
if( it==matrixInfMap.end() )
{
uint matInfId= destLod.MatrixInfluences.size();
uint matInfId= (uint)destLod.MatrixInfluences.size();
matrixInfMap.insert( make_pair(matId, matInfId) );
// create the new MatrixInfluence.
destLod.MatrixInfluences.push_back(matId);
@ -2244,7 +2244,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMGeo
for (k = 0; k < (sint)mbuild.BlendShapes.size(); ++k)
{
CBlendShape &rBS = mbuild.BlendShapes[k];
sint32 nNbVertVB = finalMRM.Wedges.size();
sint32 nNbVertVB = (sint32)finalMRM.Wedges.size();
bool bIsDeltaPos = false;
rBS.deltaPos.resize (nNbVertVB, CVector(0.0f,0.0f,0.0f));
bool bIsDeltaNorm = false;
@ -2489,7 +2489,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMSki
// Setup the VertexBuffer.
// ========================
// resize the VB.
mbuild.VBuffer.setNumVertices(finalMRM.Wedges.size());
mbuild.VBuffer.setNumVertices((uint32)finalMRM.Wedges.size());
CVertexBufferReadWrite vba;
mbuild.VBuffer.lock (vba);
@ -2603,7 +2603,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMSki
else
{
// map material to rdrPass.
sint idRdrPass= destLod.RdrPass.size();
sint idRdrPass= (sint)destLod.RdrPass.size();
rdrPassIndex[j]= idRdrPass;
// create a rdrPass.
destLod.RdrPass.push_back(CMeshMRMSkinnedGeom::CRdrPass());
@ -2719,7 +2719,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMSki
map<uint, uint>::iterator it= matrixInfMap.find(matId);
if( it==matrixInfMap.end() )
{
uint matInfId= destLod.MatrixInfluences.size();
uint matInfId= (uint)destLod.MatrixInfluences.size();
matrixInfMap.insert( make_pair(matId, matInfId) );
// create the new MatrixInfluence.
destLod.MatrixInfluences.push_back(matId);
@ -2746,7 +2746,7 @@ void CMRMBuilder::buildMeshBuildMrm(const CMRMMeshFinal &finalMRM, CMeshMRMSki
for (k = 0; k < (sint)mbuild.BlendShapes.size(); ++k)
{
CBlendShape &rBS = mbuild.BlendShapes[k];
sint32 nNbVertVB = finalMRM.Wedges.size();
sint32 nNbVertVB = (sint32)finalMRM.Wedges.size();
bool bIsDeltaPos = false;
rBS.deltaPos.resize (nNbVertVB, CVector(0.0f,0.0f,0.0f));
bool bIsDeltaNorm = false;

View file

@ -50,7 +50,7 @@ sint CMRMSewingMesh::mustCollapseEdge(uint lod, const CMRMEdge &edge, uint &vert
sint CMRMSewingMesh::getNumCollapseEdge(uint lod) const
{
nlassert(lod<_Lods.size());
return _Lods[lod].EdgeToCollapse.size();
return (sint)_Lods[lod].EdgeToCollapse.size();
}
@ -65,7 +65,7 @@ void CMRMSewingMesh::build(const CMesh::CInterface &meshInt, uint nWantedLods, u
// build edge list
std::vector<CMRMEdge> edgeList;
uint nMaxEdges= meshInt.Vertices.size();
uint nMaxEdges= (uint)meshInt.Vertices.size();
edgeList.resize(nMaxEdges);
for(uint i=0;i<nMaxEdges;i++)
{
@ -92,7 +92,7 @@ void CMRMSewingMesh::build(const CMesh::CInterface &meshInt, uint nWantedLods, u
uint bestEdgeId= 0;
for(uint j=0;j<edgeList.size();j++)
{
uint precEdgeId= (j + edgeList.size() -1) % edgeList.size();
uint precEdgeId= (uint)((j + edgeList.size() -1) % edgeList.size());
CVector edgeDelta= (meshInt.Vertices[edgeList[j].v1].Pos - meshInt.Vertices[edgeList[j].v0].Pos);
// compute dist between 2 verts
@ -127,7 +127,7 @@ void CMRMSewingMesh::build(const CMesh::CInterface &meshInt, uint nWantedLods, u
// mark as remove it
_Lods[lod].EdgeToCollapse.push_back(edgeList[bestEdgeId]);
// changes vert ids of the prec edge. eg: edge(12) is deleted=> 01 12 23... becomes 02 23 (NB: 1 is collapsed to 2)
uint precEdgeId= (bestEdgeId+edgeList.size()-1)%edgeList.size();
uint precEdgeId= (uint)((bestEdgeId+edgeList.size()-1)%edgeList.size());
edgeList[precEdgeId].v1= edgeList[bestEdgeId].v1;
// and erase the edge from the current list
edgeList.erase( edgeList.begin()+bestEdgeId );

View file

@ -48,7 +48,7 @@ sint CMRMMeshFinal::findInsertWedge(const CWedge &w)
// if not found, must add it.
if(it==_WedgeMap.end())
{
ret= Wedges.size();
ret= (sint)Wedges.size();
// insert into the map, with good id.
_WedgeMap.insert(make_pair(w, ret));
// add it to the array.

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