gl::Error TextureGL::setCompressedSubImage(GLenum target, size_t level, const gl::Box &area, GLenum format,
const gl::PixelUnpackState &unpack, size_t imageSize, const uint8_t *pixels)
{
ASSERT(CompatibleTextureTarget(mState.mTarget, target));
nativegl::CompressedTexSubImageFormat compressedTexSubImageFormat =
nativegl::GetCompressedSubTexImageFormat(mFunctions, mWorkarounds, format);
mStateManager->bindTexture(mState.mTarget, mTextureID);
if (UseTexImage2D(mState.mTarget))
{
ASSERT(area.z == 0 && area.depth == 1);
mFunctions->compressedTexSubImage2D(
target, static_cast<GLint>(level), area.x, area.y, area.width, area.height,
compressedTexSubImageFormat.format, static_cast<GLsizei>(imageSize), pixels);
}
else if (UseTexImage3D(mState.mTarget))
{
mFunctions->compressedTexSubImage3D(target, static_cast<GLint>(level), area.x, area.y,
area.z, area.width, area.height, area.depth,
compressedTexSubImageFormat.format,
static_cast<GLsizei>(imageSize), pixels);
}
else
{
UNREACHABLE();
}
ASSERT(!mLevelInfo[level].lumaWorkaround.enabled &&
!GetLevelInfo(format, compressedTexSubImageFormat.format).lumaWorkaround.enabled);
return gl::Error(GL_NO_ERROR);
}
gl::Error TextureGL::setCompressedImage(GLenum target, size_t level, GLenum internalFormat, const gl::Extents &size,
const gl::PixelUnpackState &unpack, size_t imageSize, const uint8_t *pixels)
{
ASSERT(CompatibleTextureTarget(mState.mTarget, target));
nativegl::CompressedTexImageFormat compressedTexImageFormat =
nativegl::GetCompressedTexImageFormat(mFunctions, mWorkarounds, internalFormat);
mStateManager->bindTexture(mState.mTarget, mTextureID);
if (UseTexImage2D(mState.mTarget))
{
ASSERT(size.depth == 1);
mFunctions->compressedTexImage2D(target, static_cast<GLint>(level),
compressedTexImageFormat.internalFormat, size.width,
size.height, 0, static_cast<GLsizei>(imageSize), pixels);
}
else if (UseTexImage3D(mState.mTarget))
{
mFunctions->compressedTexImage3D(
target, static_cast<GLint>(level), compressedTexImageFormat.internalFormat, size.width,
size.height, size.depth, 0, static_cast<GLsizei>(imageSize), pixels);
}
else
{
UNREACHABLE();
}
mLevelInfo[level] = GetLevelInfo(internalFormat, compressedTexImageFormat.internalFormat);
ASSERT(!mLevelInfo[level].lumaWorkaround.enabled);
return gl::Error(GL_NO_ERROR);
}
gl::Error TextureGL::copySubImage(GLenum target, size_t level, const gl::Offset &destOffset, const gl::Rectangle &sourceArea,
const gl::Framebuffer *source)
{
const FramebufferGL *sourceFramebufferGL = GetImplAs<FramebufferGL>(source);
mStateManager->bindTexture(mTextureType, mTextureID);
mStateManager->bindFramebuffer(GL_READ_FRAMEBUFFER, sourceFramebufferGL->getFramebufferID());
if (UseTexImage2D(mTextureType))
{
ASSERT(destOffset.z == 0);
mFunctions->copyTexSubImage2D(target, static_cast<GLint>(level), destOffset.x, destOffset.y,
sourceArea.x, sourceArea.y, sourceArea.width,
sourceArea.height);
}
else if (UseTexImage3D(mTextureType))
{
mFunctions->copyTexSubImage3D(target, static_cast<GLint>(level), destOffset.x, destOffset.y,
destOffset.z, sourceArea.x, sourceArea.y, sourceArea.width,
sourceArea.height);
}
else
{
UNREACHABLE();
}
return gl::Error(GL_NO_ERROR);
}
gl::Error TextureGL::setSubImage(GLenum target, size_t level, const gl::Box &area, GLenum format, GLenum type,
const gl::PixelUnpackState &unpack, const uint8_t *pixels)
{
ASSERT(CompatibleTextureTarget(mTextureType, target));
nativegl::TexSubImageFormat texSubImageFormat =
nativegl::GetTexSubImageFormat(mFunctions, mWorkarounds, format, type);
mStateManager->bindTexture(mTextureType, mTextureID);
if (UseTexImage2D(mTextureType))
{
ASSERT(area.z == 0 && area.depth == 1);
mFunctions->texSubImage2D(target, static_cast<GLint>(level), area.x, area.y, area.width,
area.height, texSubImageFormat.format, texSubImageFormat.type,
pixels);
}
else if (UseTexImage3D(mTextureType))
{
mFunctions->texSubImage3D(target, static_cast<GLint>(level), area.x, area.y, area.z,
area.width, area.height, area.depth, texSubImageFormat.format,
texSubImageFormat.type, pixels);
}
else
{
UNREACHABLE();
}
return gl::Error(GL_NO_ERROR);
}
gl::Error TextureGL::copySubImage(GLenum target, size_t level, const gl::Offset &destOffset, const gl::Rectangle &sourceArea,
const gl::Framebuffer *source)
{
const FramebufferGL *sourceFramebufferGL = GetImplAs<FramebufferGL>(source);
mStateManager->bindTexture(mState.mTarget, mTextureID);
mStateManager->bindFramebuffer(GL_READ_FRAMEBUFFER, sourceFramebufferGL->getFramebufferID());
const LevelInfoGL &levelInfo = mLevelInfo[level];
if (levelInfo.lumaWorkaround.enabled)
{
gl::Error error = mBlitter->copySubImageToLUMAWorkaroundTexture(
mTextureID, mState.mTarget, target, levelInfo.sourceFormat, level, destOffset,
sourceArea, source);
if (error.isError())
{
return error;
}
}
else
{
if (UseTexImage2D(mState.mTarget))
{
ASSERT(destOffset.z == 0);
mFunctions->copyTexSubImage2D(target, static_cast<GLint>(level), destOffset.x,
destOffset.y, sourceArea.x, sourceArea.y,
sourceArea.width, sourceArea.height);
}
else if (UseTexImage3D(mState.mTarget))
{
mFunctions->copyTexSubImage3D(target, static_cast<GLint>(level), destOffset.x,
destOffset.y, destOffset.z, sourceArea.x, sourceArea.y,
sourceArea.width, sourceArea.height);
}
else
{
UNREACHABLE();
}
}
return gl::Error(GL_NO_ERROR);
}
gl::Error TextureGL::setSubImage(GLenum target, size_t level, const gl::Box &area, GLenum format, GLenum type,
const gl::PixelUnpackState &unpack, const uint8_t *pixels)
{
ASSERT(CompatibleTextureTarget(mState.mTarget, target));
nativegl::TexSubImageFormat texSubImageFormat =
nativegl::GetTexSubImageFormat(mFunctions, mWorkarounds, format, type);
mStateManager->bindTexture(mState.mTarget, mTextureID);
if (mWorkarounds.unpackOverlappingRowsSeparatelyUnpackBuffer && unpack.pixelBuffer.get() &&
unpack.rowLength != 0 && unpack.rowLength < area.width)
{
ANGLE_TRY(setSubImageRowByRowWorkaround(target, level, area, format, type, unpack, pixels));
}
else if (UseTexImage2D(mState.mTarget))
{
ASSERT(area.z == 0 && area.depth == 1);
mFunctions->texSubImage2D(target, static_cast<GLint>(level), area.x, area.y, area.width,
area.height, texSubImageFormat.format, texSubImageFormat.type,
pixels);
}
else if (UseTexImage3D(mState.mTarget))
{
mFunctions->texSubImage3D(target, static_cast<GLint>(level), area.x, area.y, area.z,
area.width, area.height, area.depth, texSubImageFormat.format,
texSubImageFormat.type, pixels);
}
else
{
UNREACHABLE();
}
ASSERT(mLevelInfo[level].lumaWorkaround.enabled ==
GetLevelInfo(format, texSubImageFormat.format).lumaWorkaround.enabled);
return gl::Error(GL_NO_ERROR);
}
gl::Error TextureGL::setSubImageRowByRowWorkaround(GLenum target,
size_t level,
const gl::Box &area,
GLenum format,
GLenum type,
const gl::PixelUnpackState &unpack,
const uint8_t *pixels)
{
gl::PixelUnpackState unpackToUse;
unpackToUse.pixelBuffer = unpack.pixelBuffer;
mStateManager->setPixelUnpackState(unpackToUse);
unpackToUse.pixelBuffer.set(nullptr);
GLenum sizedFormat =
gl::GetSizedInternalFormat(mState.getImageDesc(mState.mTarget, level).internalFormat, type);
const gl::InternalFormat &formatInfo = gl::GetInternalFormatInfo(sizedFormat);
GLuint rowBytes = 0;
ANGLE_TRY_RESULT(
formatInfo.computeRowPitch(GL_NONE, area.width, unpack.alignment, unpack.rowLength),
rowBytes);
GLuint imageBytes = 0;
ANGLE_TRY_RESULT(
formatInfo.computeDepthPitch(GL_NONE, area.width, area.height, unpack.alignment,
unpack.rowLength, unpack.imageHeight),
imageBytes);
bool useTexImage3D = UseTexImage3D(mState.mTarget);
GLuint skipBytes = 0;
ANGLE_TRY_RESULT(formatInfo.computeSkipBytes(rowBytes, imageBytes, unpack.skipImages,
unpack.skipRows, unpack.skipPixels, useTexImage3D),
skipBytes);
const uint8_t *pixelsWithSkip = pixels + skipBytes;
if (useTexImage3D)
{
for (GLint image = 0; image < area.depth; ++image)
{
GLint imageByteOffset = image * imageBytes;
for (GLint row = 0; row < area.height; ++row)
{
GLint byteOffset = imageByteOffset + row * rowBytes;
const GLubyte *rowPixels = pixelsWithSkip + byteOffset;
mFunctions->texSubImage3D(target, static_cast<GLint>(level), area.x, row + area.y,
image + area.z, area.width, 1, 1, format, type,
rowPixels);
}
}
}
else if (UseTexImage2D(mState.mTarget))
{
for (GLint row = 0; row < area.height; ++row)
{
GLint byteOffset = row * rowBytes;
const GLubyte *rowPixels = pixelsWithSkip + byteOffset;
mFunctions->texSubImage2D(target, static_cast<GLint>(level), area.x, row + area.y,
area.width, 1, format, type, rowPixels);
}
}
else
{
UNREACHABLE();
}
return gl::NoError();
}
