//-----------------------------------------------------------------------------
void HardwarePixelBuffer::blit(const HardwarePixelBufferSharedPtr &src)
{
blit(src,
Box(0,0,0,src->getWidth(),src->getHeight(),src->getDepth()),
Box(0,0,0,mWidth,mHeight,mDepth)
);
}
void Sample_VolumeTex::generate()
{
/* Evaluate julia fractal for each point */
Julia julia(global_real, global_imag, global_theta);
const float scale = 2.5;
const float vcut = 29.0f;
const float vscale = 1.0f/vcut;
HardwarePixelBufferSharedPtr buffer = ptex->getBuffer(0, 0);
Ogre::StringStream d;
d << "HardwarePixelBuffer " << buffer->getWidth() << " " << buffer->getHeight() << " " << buffer->getDepth();
LogManager::getSingleton().logMessage(d.str());
buffer->lock(HardwareBuffer::HBL_NORMAL);
const PixelBox &pb = buffer->getCurrentLock();
d.str("");
d << "PixelBox " << pb.getWidth() << " " << pb.getHeight() << " " << pb.getDepth() << " " << pb.rowPitch << " " << pb.slicePitch << " " << pb.data << " " << PixelUtil::getFormatName(pb.format);
LogManager::getSingleton().logMessage(d.str());
Ogre::uint32 *pbptr = static_cast<Ogre::uint32*>(pb.data);
for(size_t z=pb.front; z<pb.back; z++)
{
for(size_t y=pb.top; y<pb.bottom; y++)
{
for(size_t x=pb.left; x<pb.right; x++)
{
if(z==pb.front || z==(pb.back-1) || y==pb.top|| y==(pb.bottom-1) ||
x==pb.left || x==(pb.right-1))
{
// On border, must be zero
pbptr[x] = 0;
}
else
{
float val = julia.eval(((float)x/pb.getWidth()-0.5f) * scale,
((float)y/pb.getHeight()-0.5f) * scale,
((float)z/pb.getDepth()-0.5f) * scale);
if(val > vcut)
val = vcut;
PixelUtil::packColour((float)x/pb.getWidth(), (float)y/pb.getHeight(), (float)z/pb.getDepth(), (1.0f-(val*vscale))*0.7f, PF_A8R8G8B8, &pbptr[x]);
}
}
pbptr += pb.rowPitch;
}
pbptr += pb.getSliceSkip();
}
buffer->unlock();
}
Terrain* SnowTerrain::getTerrain()
{
if(!mTerrainGroup) return NULL;
Terrain *t = mTerrainGroup->getTerrain(0,0);
return t;
TerrainGroup::TerrainIterator ti = mTerrainGroup->getTerrainIterator();
while (ti.hasMoreElements())
{
Ogre::uint32 tkey = ti.peekNextKey();
TerrainGroup::TerrainSlot* ts = ti.getNext();
if (ts->instance && ts->instance->isLoaded())
{
float* heights = ts->instance->getHeightData();
//PixelBox* pBox = ts->instance->calculateNormals());
TexturePtr texturePtr = ts->instance->getTerrainNormalMap();
HardwarePixelBufferSharedPtr buf = texturePtr->getBuffer();
size_t bytes = buf->getSizeInBytes();
size_t h = buf->getHeight();
size_t w = buf->getWidth();
size_t d = buf->getDepth();
PixelFormat f = PF_BYTE_RGB;//buf->getFormat();
uint8* tmpData = (uint8*)OGRE_MALLOC(w * h * 3, MEMCATEGORY_GENERAL);
memset(tmpData,0,w*h*3);
PixelBox pBox(w, h, d, f, tmpData);
buf->blitToMemory(pBox);
OGRE_FREE(tmpData, MEMCATEGORY_GENERAL);
}
}
return NULL;
}
//--------------------------------------------------------------------------
void Texture::_loadImages( const ConstImagePtrList& images )
{
if(images.size() < 1)
OGRE_EXCEPT(Exception::ERR_INVALIDPARAMS, "Cannot load empty vector of images",
"Texture::loadImages");
// Set desired texture size and properties from images[0]
mSrcWidth = mWidth = images[0]->getWidth();
mSrcHeight = mHeight = images[0]->getHeight();
mSrcDepth = mDepth = images[0]->getDepth();
// Get source image format and adjust if required
mSrcFormat = images[0]->getFormat();
if (mTreatLuminanceAsAlpha && mSrcFormat == PF_L8)
{
mSrcFormat = PF_A8;
}
if (mDesiredFormat != PF_UNKNOWN)
{
// If have desired format, use it
mFormat = mDesiredFormat;
}
else
{
// Get the format according with desired bit depth
mFormat = PixelUtil::getFormatForBitDepths(mSrcFormat, mDesiredIntegerBitDepth, mDesiredFloatBitDepth);
}
// The custom mipmaps in the image have priority over everything
size_t imageMips = images[0]->getNumMipmaps();
if(imageMips > 0) {
mNumMipmaps = mNumRequestedMipmaps = images[0]->getNumMipmaps();
// Disable flag for auto mip generation
mUsage &= ~TU_AUTOMIPMAP;
}
// Create the texture
createInternalResources();
// Check if we're loading one image with multiple faces
// or a vector of images representing the faces
size_t faces;
bool multiImage; // Load from multiple images?
if(images.size() > 1)
{
faces = images.size();
multiImage = true;
}
else
{
faces = images[0]->getNumFaces();
multiImage = false;
}
// Check wether number of faces in images exceeds number of faces
// in this texture. If so, clamp it.
if(faces > getNumFaces())
faces = getNumFaces();
if (TextureManager::getSingleton().getVerbose()) {
// Say what we're doing
StringUtil::StrStreamType str;
str << "Texture: " << mName << ": Loading " << faces << " faces"
<< "(" << PixelUtil::getFormatName(images[0]->getFormat()) << "," <<
images[0]->getWidth() << "x" << images[0]->getHeight() << "x" << images[0]->getDepth() <<
") with ";
if (!(mMipmapsHardwareGenerated && mNumMipmaps == 0))
str << mNumMipmaps;
if(mUsage & TU_AUTOMIPMAP)
{
if (mMipmapsHardwareGenerated)
str << " hardware";
str << " generated mipmaps";
}
else
{
str << " custom mipmaps";
}
if(multiImage)
str << " from multiple Images.";
else
str << " from Image.";
// Scoped
{
// Print data about first destination surface
HardwarePixelBufferSharedPtr buf = getBuffer(0, 0);
str << " Internal format is " << PixelUtil::getFormatName(buf->getFormat()) <<
"," << buf->getWidth() << "x" << buf->getHeight() << "x" << buf->getDepth() << ".";
}
LogManager::getSingleton().logMessage(
LML_NORMAL, str.str());
}
// Main loading loop
// imageMips == 0 if the image has no custom mipmaps, otherwise contains the number of custom mips
for(size_t mip = 0; mip<=imageMips; ++mip)
{
for(size_t i = 0; i < faces; ++i)
{
PixelBox src;
if(multiImage)
{
// Load from multiple images
src = images[i]->getPixelBox(0, mip);
}
else
{
// Load from faces of images[0]
src = images[0]->getPixelBox(i, mip);
}
// Sets to treated format in case is difference
src.format = mSrcFormat;
if(mGamma != 1.0f) {
// Apply gamma correction
// Do not overwrite original image but do gamma correction in temporary buffer
MemoryDataStreamPtr buf; // for scoped deletion of conversion buffer
buf.bind(OGRE_NEW MemoryDataStream(
PixelUtil::getMemorySize(
src.getWidth(), src.getHeight(), src.getDepth(), src.format)));
PixelBox corrected = PixelBox(src.getWidth(), src.getHeight(), src.getDepth(), src.format, buf->getPtr());
PixelUtil::bulkPixelConversion(src, corrected);
Image::applyGamma(static_cast<uint8*>(corrected.data), mGamma, corrected.getConsecutiveSize(),
static_cast<uchar>(PixelUtil::getNumElemBits(src.format)));
// Destination: entire texture. blitFromMemory does the scaling to
// a power of two for us when needed
getBuffer(i, mip)->blitFromMemory(corrected);
}
else
{
// Destination: entire texture. blitFromMemory does the scaling to
// a power of two for us when needed
getBuffer(i, mip)->blitFromMemory(src);
}
}
}
// Update size (the final size, not including temp space)
mSize = getNumFaces() * PixelUtil::getMemorySize(mWidth, mHeight, mDepth, mFormat);
}
void WriteToTexture(const String &str, TexturePtr destTexture, Image::Box destRectangle, Font* font, const ColourValue &color, char justify, bool wordwrap)
{
using namespace Ogre;
if (destTexture->getHeight() < destRectangle.bottom)
destRectangle.bottom = destTexture->getHeight();
if (destTexture->getWidth() < destRectangle.right)
destRectangle.right = destTexture->getWidth();
if (!font->isLoaded())
font->load();
TexturePtr fontTexture = (TexturePtr) TextureManager::getSingleton().getByName(font->getMaterial()->getTechnique(0)->getPass(0)->getTextureUnitState(0)->getTextureName());
HardwarePixelBufferSharedPtr fontBuffer = fontTexture->getBuffer();
HardwarePixelBufferSharedPtr destBuffer = destTexture->getBuffer();
PixelBox destPb = destBuffer->lock(destRectangle,HardwareBuffer::HBL_NORMAL);
// The font texture buffer was created write only...so we cannot read it back :o). One solution is to copy the buffer instead of locking it. (Maybe there is a way to create a font texture which is not write_only ?)
// create a buffer
size_t nBuffSize = fontBuffer->getSizeInBytes();
unsigned char* buffer = (unsigned char*)calloc(nBuffSize, sizeof(unsigned char));
// create pixel box using the copy of the buffer
PixelBox fontPb(fontBuffer->getWidth(), fontBuffer->getHeight(),fontBuffer->getDepth(), fontBuffer->getFormat(), buffer);
fontBuffer->blitToMemory(fontPb);
unsigned char* fontData = static_cast<unsigned char*>( fontPb.data );
unsigned char* destData = static_cast<unsigned char*>( destPb.data );
const size_t fontPixelSize = PixelUtil::getNumElemBytes(fontPb.format);
const size_t destPixelSize = PixelUtil::getNumElemBytes(destPb.format);
const size_t fontRowPitchBytes = fontPb.rowPitch * fontPixelSize;
const size_t destRowPitchBytes = destPb.rowPitch * destPixelSize;
Box *GlyphTexCoords;
GlyphTexCoords = new Box[str.size()];
Font::UVRect glypheTexRect;
size_t charheight = 0;
size_t charwidth = 0;
for (unsigned int i = 0; i < str.size(); i++)
{
if ((str[i] != '\t') && (str[i] != '\n') && (str[i] != ' '))
{
glypheTexRect = font->getGlyphTexCoords(str[i]);
GlyphTexCoords[i].left = glypheTexRect.left * fontTexture->getSrcWidth();
GlyphTexCoords[i].top = glypheTexRect.top * fontTexture->getSrcHeight();
GlyphTexCoords[i].right = glypheTexRect.right * fontTexture->getSrcWidth();
GlyphTexCoords[i].bottom = glypheTexRect.bottom * fontTexture->getSrcHeight();
if (GlyphTexCoords[i].getHeight() > charheight)
charheight = GlyphTexCoords[i].getHeight();
if (GlyphTexCoords[i].getWidth() > charwidth)
charwidth = GlyphTexCoords[i].getWidth();
}
}
size_t cursorX = 0;
size_t cursorY = 0;
size_t lineend = destRectangle.getWidth();
bool carriagreturn = true;
for (unsigned int strindex = 0; strindex < str.size(); strindex++)
{
switch(str[strindex])
{
case ' ':
cursorX += charwidth;
break;
case '\t':
cursorX += charwidth * 3;
break;
case '\n':
cursorY += charheight;
carriagreturn = true;
break;
default:
{
//wrapping
if ((cursorX + GlyphTexCoords[strindex].getWidth()> lineend) && !carriagreturn )
{
cursorY += charheight;
carriagreturn = true;
}
//justify
if (carriagreturn)
{
size_t l = strindex;
size_t textwidth = 0;
size_t wordwidth = 0;
while( (l < str.size() ) && (str[l] != '\n'))
{
wordwidth = 0;
switch (str[l])
{
case ' ':
wordwidth = charwidth;
++l;
break;
case '\t':
wordwidth = charwidth *3;
++l;
break;
case '\n':
l = str.size();
}
if (wordwrap)
while((l < str.size()) && (str[l] != ' ') && (str[l] != '\t') && (str[l] != '\n'))
{
wordwidth += GlyphTexCoords[l].getWidth();
++l;
}
else
{
wordwidth += GlyphTexCoords[l].getWidth();
l++;
}
if ((textwidth + wordwidth) <= destRectangle.getWidth())
textwidth += (wordwidth);
else
break;
}
if ((textwidth == 0) && (wordwidth > destRectangle.getWidth()))
textwidth = destRectangle.getWidth();
switch (justify)
{
case 'c':
cursorX = (destRectangle.getWidth() - textwidth)/2;
lineend = destRectangle.getWidth() - cursorX;
break;
case 'r':
cursorX = (destRectangle.getWidth() - textwidth);
lineend = destRectangle.getWidth();
break;
default:
cursorX = 0;
lineend = textwidth;
break;
}
carriagreturn = false;
}
//abort - net enough space to draw
if ((cursorY + charheight) > destRectangle.getHeight())
goto stop;
//draw pixel by pixel
for (size_t i = 0; i < GlyphTexCoords[strindex].getHeight(); i++ )
for (size_t j = 0; j < GlyphTexCoords[strindex].getWidth(); j++)
{
float alpha = color.a * (fontData[(i + GlyphTexCoords[strindex].top) * fontRowPitchBytes + (j + GlyphTexCoords[strindex].left) * fontPixelSize +1 ] / 255.0);
float invalpha = 1.0 - alpha;
size_t offset = (i + cursorY) * destRowPitchBytes + (j + cursorX) * destPixelSize;
ColourValue pix;
PixelUtil::unpackColour(&pix,destPb.format,&destData[offset]);
pix = (pix * invalpha) + (color * alpha);
PixelUtil::packColour(pix,destPb.format,&destData[offset]);
}
cursorX += GlyphTexCoords[strindex].getWidth();
}//default
}//switch
}//for
stop:
delete[] GlyphTexCoords;
destBuffer->unlock();
// Free the memory allocated for the buffer
free(buffer);
buffer = 0;
}
