void Texture::SetParameters(const XMLElement& element)
{
XMLElement paramElem = element.GetChild();
while (paramElem)
{
String name = paramElem.GetName();
if (name == "address")
{
String coord = paramElem.GetAttributeLower("coord");
if (coord.Length() >= 1)
{
TextureCoordinate coordIndex = (TextureCoordinate)(coord[0] - 'u');
String mode = paramElem.GetAttributeLower("mode");
SetAddressMode(coordIndex, (TextureAddressMode)GetStringListIndex(mode.CString(), addressModeNames, ADDRESS_WRAP));
}
}
if (name == "border")
SetBorderColor(paramElem.GetColor("color"));
if (name == "filter")
{
String mode = paramElem.GetAttributeLower("mode");
SetFilterMode((TextureFilterMode)GetStringListIndex(mode.CString(), filterModeNames, FILTER_DEFAULT));
}
if (name == "mipmap")
SetNumLevels(paramElem.GetBool("enable") ? 0 : 1);
if (name == "quality")
{
if (paramElem.HasAttribute("low"))
SetMipsToSkip(QUALITY_LOW, paramElem.GetInt("low"));
if (paramElem.HasAttribute("med"))
SetMipsToSkip(QUALITY_MEDIUM, paramElem.GetInt("med"));
if (paramElem.HasAttribute("medium"))
SetMipsToSkip(QUALITY_MEDIUM, paramElem.GetInt("medium"));
if (paramElem.HasAttribute("high"))
SetMipsToSkip(QUALITY_HIGH, paramElem.GetInt("high"));
}
if (name == "srgb")
SetSRGB(paramElem.GetBool("enable"));
paramElem = paramElem.GetNext();
}
}
bool TextureCube::Load(CubeMapFace face, SharedPtr<Image> image, bool useAlpha)
{
if (!image)
{
LOGERROR("Null image, can not load texture");
return false;
}
unsigned memoryUse = 0;
int quality = QUALITY_HIGH;
Renderer* renderer = GetSubsystem<Renderer>();
if (renderer)
quality = renderer->GetTextureQuality();
if (!image->IsCompressed())
{
unsigned char* levelData = image->GetData();
int levelWidth = image->GetWidth();
int levelHeight = image->GetHeight();
unsigned components = image->GetComponents();
unsigned format = 0;
if (levelWidth != levelHeight)
{
LOGERROR("Cube texture width not equal to height");
return false;
}
// Discard unnecessary mip levels
for (unsigned i = 0; i < mipsToSkip_[quality]; ++i)
{
image = image->GetNextLevel();
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
switch (components)
{
case 1:
format = useAlpha ? Graphics::GetAlphaFormat() : Graphics::GetLuminanceFormat();
break;
case 2:
format = Graphics::GetLuminanceAlphaFormat();
break;
case 3:
format = Graphics::GetRGBFormat();
break;
case 4:
format = Graphics::GetRGBAFormat();
break;
}
// Create the texture when face 0 is being loaded, check that rest of the faces are same size & format
if (!face)
{
// If image was previously compressed, reset number of requested levels to avoid error if level count is too high for new size
if (IsCompressed() && requestedLevels_ > 1)
requestedLevels_ = 0;
SetSize(levelWidth, format);
}
else
{
if (!object_)
{
LOGERROR("Cube texture face 0 must be loaded first");
return false;
}
if (levelWidth != width_ || format != format_)
{
LOGERROR("Cube texture face does not match size or format of face 0");
return false;
}
}
for (unsigned i = 0; i < levels_; ++i)
{
SetData(face, i, 0, 0, levelWidth, levelHeight, levelData);
memoryUse += levelWidth * levelHeight * components;
if (i < levels_ - 1)
{
image = image->GetNextLevel();
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
}
}
else
{
int width = image->GetWidth();
int height = image->GetHeight();
unsigned levels = image->GetNumCompressedLevels();
unsigned format = graphics_->GetFormat(image->GetCompressedFormat());
bool needDecompress = false;
if (width != height)
{
LOGERROR("Cube texture width not equal to height");
return false;
}
if (!format)
{
format = Graphics::GetRGBAFormat();
needDecompress = true;
}
unsigned mipsToSkip = mipsToSkip_[quality];
if (mipsToSkip >= levels)
mipsToSkip = levels - 1;
while (mipsToSkip && (width / (1 << mipsToSkip) < 4 || height / (1 << mipsToSkip) < 4))
--mipsToSkip;
width /= (1 << mipsToSkip);
height /= (1 << mipsToSkip);
// Create the texture when face 0 is being loaded, assume rest of the faces are same size & format
if (!face)
{
SetNumLevels(Max((int)(levels - mipsToSkip), 1));
SetSize(width, format);
}
else
{
if (!object_)
{
LOGERROR("Cube texture face 0 must be loaded first");
return false;
}
if (width != width_ || format != format_)
{
LOGERROR("Cube texture face does not match size or format of face 0");
return false;
}
}
for (unsigned i = 0; i < levels_ && i < levels - mipsToSkip; ++i)
{
CompressedLevel level = image->GetCompressedLevel(i + mipsToSkip);
if (!needDecompress)
{
SetData(face, i, 0, 0, level.width_, level.height_, level.data_);
memoryUse += level.rows_ * level.rowSize_;
}
else
{
unsigned char* rgbaData = new unsigned char[level.width_ * level.height_ * 4];
level.Decompress(rgbaData);
SetData(face, i, 0, 0, level.width_, level.height_, rgbaData);
memoryUse += level.width_ * level.height_ * 4;
delete[] rgbaData;
}
}
}
faceMemoryUse_[face] = memoryUse;
unsigned totalMemoryUse = sizeof(TextureCube);
for (unsigned i = 0; i < MAX_CUBEMAP_FACES; ++i)
totalMemoryUse += faceMemoryUse_[i];
SetMemoryUse(totalMemoryUse);
return true;
}
bool Texture2D::SetData(SharedPtr<Image> image, bool useAlpha)
{
if (!image)
{
URHO3D_LOGERROR("Null image, can not set data");
return false;
}
unsigned memoryUse = sizeof(Texture2D);
int quality = QUALITY_HIGH;
Renderer* renderer = GetSubsystem<Renderer>();
if (renderer)
quality = renderer->GetTextureQuality();
if (!image->IsCompressed())
{
// Convert unsuitable formats to RGBA
unsigned components = image->GetComponents();
if (Graphics::GetGL3Support() && ((components == 1 && !useAlpha) || components == 2))
{
image = image->ConvertToRGBA();
if (!image)
return false;
components = image->GetComponents();
}
unsigned char* levelData = image->GetData();
int levelWidth = image->GetWidth();
int levelHeight = image->GetHeight();
unsigned format = 0;
// Discard unnecessary mip levels
for (unsigned i = 0; i < mipsToSkip_[quality]; ++i)
{
image = image->GetNextLevel();
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
switch (components)
{
case 1:
format = useAlpha ? Graphics::GetAlphaFormat() : Graphics::GetLuminanceFormat();
break;
case 2:
format = Graphics::GetLuminanceAlphaFormat();
break;
case 3:
format = Graphics::GetRGBFormat();
break;
case 4:
format = Graphics::GetRGBAFormat();
break;
default:
assert(false); // Should not reach here
break;
}
// If image was previously compressed, reset number of requested levels to avoid error if level count is too high for new size
if (IsCompressed() && requestedLevels_ > 1)
requestedLevels_ = 0;
SetSize(levelWidth, levelHeight, format);
if (!object_)
return false;
for (unsigned i = 0; i < levels_; ++i)
{
SetData(i, 0, 0, levelWidth, levelHeight, levelData);
memoryUse += levelWidth * levelHeight * components;
if (i < levels_ - 1)
{
image = image->GetNextLevel();
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
}
}
else
{
int width = image->GetWidth();
int height = image->GetHeight();
unsigned levels = image->GetNumCompressedLevels();
unsigned format = graphics_->GetFormat(image->GetCompressedFormat());
bool needDecompress = false;
if (!format)
{
format = Graphics::GetRGBAFormat();
needDecompress = true;
}
unsigned mipsToSkip = mipsToSkip_[quality];
if (mipsToSkip >= levels)
mipsToSkip = levels - 1;
while (mipsToSkip && (width / (1 << mipsToSkip) < 4 || height / (1 << mipsToSkip) < 4))
--mipsToSkip;
width /= (1 << mipsToSkip);
height /= (1 << mipsToSkip);
SetNumLevels((unsigned)Max((int)(levels - mipsToSkip), 1));
SetSize(width, height, format);
for (unsigned i = 0; i < levels_ && i < levels - mipsToSkip; ++i)
{
CompressedLevel level = image->GetCompressedLevel(i + mipsToSkip);
if (!needDecompress)
{
SetData(i, 0, 0, level.width_, level.height_, level.data_);
memoryUse += level.rows_ * level.rowSize_;
}
else
{
unsigned char* rgbaData = new unsigned char[level.width_ * level.height_ * 4];
level.Decompress(rgbaData);
SetData(i, 0, 0, level.width_, level.height_, rgbaData);
memoryUse += level.width_ * level.height_ * 4;
delete[] rgbaData;
}
}
}
SetMemoryUse(memoryUse);
return true;
}
bool Texture2DArray::SetData(unsigned layer, Image* image, bool useAlpha)
{
if (!image)
{
URHO3D_LOGERROR("Null image, can not set data");
return false;
}
if (!layers_)
{
URHO3D_LOGERROR("Number of layers in the array must be set first");
return false;
}
if (layer >= layers_)
{
URHO3D_LOGERROR("Illegal layer for setting data");
return false;
}
// Use a shared ptr for managing the temporary mip images created during this function
SharedPtr<Image> mipImage;
unsigned memoryUse = 0;
int quality = QUALITY_HIGH;
Renderer* renderer = GetSubsystem<Renderer>();
if (renderer)
quality = renderer->GetTextureQuality();
if (!image->IsCompressed())
{
unsigned char* levelData = image->GetData();
int levelWidth = image->GetWidth();
int levelHeight = image->GetHeight();
unsigned components = image->GetComponents();
unsigned format = 0;
// Discard unnecessary mip levels
for (unsigned i = 0; i < mipsToSkip_[quality]; ++i)
{
mipImage = image->GetNextLevel(); image = mipImage;
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
switch (components)
{
case 1:
format = Graphics::GetAlphaFormat();
break;
case 4:
format = Graphics::GetRGBAFormat();
break;
default: break;
}
// Create the texture array when layer 0 is being loaded, check that rest of the layers are same size & format
if (!layer)
{
// If image was previously compressed, reset number of requested levels to avoid error if level count is too high for new size
if (IsCompressed() && requestedLevels_ > 1)
requestedLevels_ = 0;
// Create the texture array (the number of layers must have been already set)
SetSize(0, levelWidth, levelHeight, format);
}
else
{
if (!object_.ptr_)
{
// Do not spam this error on D3D9
//URHO3D_LOGERROR("Texture array layer 0 must be loaded first");
return false;
}
if (levelWidth != width_ || levelHeight != height_ || format != format_)
{
URHO3D_LOGERROR("Texture array layer does not match size or format of layer 0");
return false;
}
}
for (unsigned i = 0; i < levels_; ++i)
{
SetData(layer, i, 0, 0, levelWidth, levelHeight, levelData);
memoryUse += levelWidth * levelHeight * components;
if (i < levels_ - 1)
{
mipImage = image->GetNextLevel(); image = mipImage;
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
}
}
else
{
int width = image->GetWidth();
int height = image->GetHeight();
unsigned levels = image->GetNumCompressedLevels();
unsigned format = graphics_->GetFormat(image->GetCompressedFormat());
bool needDecompress = false;
if (!format)
{
format = Graphics::GetRGBAFormat();
needDecompress = true;
}
unsigned mipsToSkip = mipsToSkip_[quality];
if (mipsToSkip >= levels)
mipsToSkip = levels - 1;
while (mipsToSkip && (width / (1 << mipsToSkip) < 4 || height / (1 << mipsToSkip) < 4))
--mipsToSkip;
width /= (1 << mipsToSkip);
height /= (1 << mipsToSkip);
// Create the texture array when layer 0 is being loaded, assume rest of the layers are same size & format
if (!layer)
{
SetNumLevels(Max((levels - mipsToSkip), 1U));
SetSize(0, width, height, format);
}
else
{
if (!object_.ptr_)
{
//URHO3D_LOGERROR("Texture array layer 0 must be loaded first");
return false;
}
if (width != width_ || height != height_ || format != format_)
{
URHO3D_LOGERROR("Texture array layer does not match size or format of layer 0");
return false;
}
}
for (unsigned i = 0; i < levels_ && i < levels - mipsToSkip; ++i)
{
CompressedLevel level = image->GetCompressedLevel(i + mipsToSkip);
if (!needDecompress)
{
SetData(layer, i, 0, 0, level.width_, level.height_, level.data_);
memoryUse += level.rows_ * level.rowSize_;
}
else
{
unsigned char* rgbaData = new unsigned char[level.width_ * level.height_ * 4];
level.Decompress(rgbaData);
SetData(layer, i, 0, 0, level.width_, level.height_, rgbaData);
memoryUse += level.width_ * level.height_ * 4;
delete[] rgbaData;
}
}
}
layerMemoryUse_[layer] = memoryUse;
unsigned totalMemoryUse = sizeof(Texture2DArray) + layerMemoryUse_.Capacity() * sizeof(unsigned);
for (unsigned i = 0; i < layers_; ++i)
totalMemoryUse += layerMemoryUse_[i];
SetMemoryUse(totalMemoryUse);
return true;
}
void CHistogram::AllocateVectors(Ipp32f* ppLevels[4], int pnLevels[4])
{
SetNumLevels(ppLevels, pnLevels);
AllocateVectors();
}
bool Texture2D::Load(SharedPtr<Image> image, bool useAlpha)
{
if (!image)
{
LOGERROR("Null image, can not load texture");
return false;
}
unsigned memoryUse = sizeof(Texture2D);
int quality = QUALITY_HIGH;
Renderer* renderer = GetSubsystem<Renderer>();
if (renderer)
quality = renderer->GetTextureQuality();
if (!image->IsCompressed())
{
unsigned char* levelData = image->GetData();
int levelWidth = image->GetWidth();
int levelHeight = image->GetHeight();
unsigned components = image->GetComponents();
unsigned format = 0;
// Discard unnecessary mip levels
for (unsigned i = 0; i < mipsToSkip_[quality]; ++i)
{
image = image->GetNextLevel();
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
switch (components)
{
case 1:
format = useAlpha ? Graphics::GetAlphaFormat() : Graphics::GetLuminanceFormat();
break;
case 2:
format = Graphics::GetLuminanceAlphaFormat();
break;
case 3:
format = Graphics::GetRGBFormat();
break;
case 4:
format = Graphics::GetRGBAFormat();
break;
}
SetSize(levelWidth, levelHeight, format);
if (!object_)
return false;
for (unsigned i = 0; i < levels_; ++i)
{
SetData(i, 0, 0, levelWidth, levelHeight, levelData);
memoryUse += levelWidth * levelHeight * components;
if (i < levels_ - 1)
{
image = image->GetNextLevel();
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
}
}
else
{
int width = image->GetWidth();
int height = image->GetHeight();
unsigned levels = image->GetNumCompressedLevels();
unsigned format = graphics_->GetFormat(image->GetCompressedFormat());
bool needDecompress = false;
if (!format)
{
format = Graphics::GetRGBAFormat();
needDecompress = true;
}
unsigned mipsToSkip = mipsToSkip_[quality];
if (mipsToSkip >= levels)
mipsToSkip = levels - 1;
while (mipsToSkip && (width / (1 << mipsToSkip) < 4 || height / (1 << mipsToSkip) < 4))
--mipsToSkip;
width /= (1 << mipsToSkip);
height /= (1 << mipsToSkip);
SetNumLevels(Max((int)(levels - mipsToSkip), 1));
SetSize(width, height, format);
for (unsigned i = 0; i < levels_ && i < levels - mipsToSkip; ++i)
{
CompressedLevel level = image->GetCompressedLevel(i + mipsToSkip);
if (!needDecompress)
{
SetData(i, 0, 0, level.width_, level.height_, level.data_);
memoryUse += level.rows_ * level.rowSize_;
}
else
{
unsigned char* rgbaData = new unsigned char[level.width_ * level.height_ * 4];
level.Decompress(rgbaData);
SetData(i, 0, 0, level.width_, level.height_, rgbaData);
memoryUse += level.width_ * level.height_ * 4;
delete[] rgbaData;
}
}
}
SetMemoryUse(memoryUse);
return true;
}
bool TextureCube::SetData(CubeMapFace face, Image* image, bool useAlpha)
{
if (!image)
{
URHO3D_LOGERROR("Null image, can not set face data");
return false;
}
// Use a shared ptr for managing the temporary mip images created during this function
SharedPtr<Image> mipImage;
unsigned memoryUse = 0;
int quality = QUALITY_HIGH;
auto* renderer = GetSubsystem<Renderer>();
if (renderer)
quality = renderer->GetTextureQuality();
if (!image->IsCompressed())
{
// Convert unsuitable formats to RGBA
unsigned components = image->GetComponents();
if (Graphics::GetGL3Support() && ((components == 1 && !useAlpha) || components == 2))
{
mipImage = image->ConvertToRGBA(); image = mipImage;
if (!image)
return false;
components = image->GetComponents();
}
unsigned char* levelData = image->GetData();
int levelWidth = image->GetWidth();
int levelHeight = image->GetHeight();
unsigned format = 0;
if (levelWidth != levelHeight)
{
URHO3D_LOGERROR("Cube texture width not equal to height");
return false;
}
// Discard unnecessary mip levels
for (unsigned i = 0; i < mipsToSkip_[quality]; ++i)
{
mipImage = image->GetNextLevel(); image = mipImage;
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
switch (components)
{
case 1:
format = useAlpha ? Graphics::GetAlphaFormat() : Graphics::GetLuminanceFormat();
break;
case 2:
format = Graphics::GetLuminanceAlphaFormat();
break;
case 3:
format = Graphics::GetRGBFormat();
break;
case 4:
format = Graphics::GetRGBAFormat();
break;
default:
assert(false); // Should not reach here
break;
}
// Create the texture when face 0 is being loaded, check that rest of the faces are same size & format
if (!face)
{
// If image was previously compressed, reset number of requested levels to avoid error if level count is too high for new size
if (IsCompressed() && requestedLevels_ > 1)
requestedLevels_ = 0;
SetSize(levelWidth, format);
}
else
{
if (!object_.name_)
{
URHO3D_LOGERROR("Cube texture face 0 must be loaded first");
return false;
}
if (levelWidth != width_ || format != format_)
{
URHO3D_LOGERROR("Cube texture face does not match size or format of face 0");
return false;
}
}
for (unsigned i = 0; i < levels_; ++i)
{
SetData(face, i, 0, 0, levelWidth, levelHeight, levelData);
memoryUse += levelWidth * levelHeight * components;
if (i < levels_ - 1)
{
mipImage = image->GetNextLevel(); image = mipImage;
levelData = image->GetData();
levelWidth = image->GetWidth();
levelHeight = image->GetHeight();
}
}
}
else
{
int width = image->GetWidth();
int height = image->GetHeight();
unsigned levels = image->GetNumCompressedLevels();
unsigned format = graphics_->GetFormat(image->GetCompressedFormat());
bool needDecompress = false;
if (width != height)
{
URHO3D_LOGERROR("Cube texture width not equal to height");
return false;
}
if (!format)
{
format = Graphics::GetRGBAFormat();
needDecompress = true;
}
unsigned mipsToSkip = mipsToSkip_[quality];
if (mipsToSkip >= levels)
mipsToSkip = levels - 1;
while (mipsToSkip && (width / (1u << mipsToSkip) < 4 || height / (1u << mipsToSkip) < 4))
--mipsToSkip;
width /= (1u << mipsToSkip);
height /= (1u << mipsToSkip);
// Create the texture when face 0 is being loaded, assume rest of the faces are same size & format
if (!face)
{
SetNumLevels(Max((levels - mipsToSkip), 1U));
SetSize(width, format);
}
else
{
if (!object_.name_)
{
URHO3D_LOGERROR("Cube texture face 0 must be loaded first");
return false;
}
if (width != width_ || format != format_)
{
URHO3D_LOGERROR("Cube texture face does not match size or format of face 0");
return false;
}
}
for (unsigned i = 0; i < levels_ && i < levels - mipsToSkip; ++i)
{
CompressedLevel level = image->GetCompressedLevel(i + mipsToSkip);
if (!needDecompress)
{
SetData(face, i, 0, 0, level.width_, level.height_, level.data_);
memoryUse += level.rows_ * level.rowSize_;
}
else
{
auto* rgbaData = new unsigned char[level.width_ * level.height_ * 4];
level.Decompress(rgbaData);
SetData(face, i, 0, 0, level.width_, level.height_, rgbaData);
memoryUse += level.width_ * level.height_ * 4;
delete[] rgbaData;
}
}
}
faceMemoryUse_[face] = memoryUse;
unsigned totalMemoryUse = sizeof(TextureCube);
for (unsigned memoryUse : faceMemoryUse_)
totalMemoryUse += memoryUse;
SetMemoryUse(totalMemoryUse);
return true;
}
