gl::Error VertexDataManager::storeAttribute(TranslatedAttribute *translated, GLint start, GLsizei count, GLsizei instances) { const gl::VertexAttribute &attrib = *translated->attribute; gl::Buffer *buffer = attrib.buffer.get(); ASSERT(buffer || attrib.pointer); ASSERT(attrib.enabled); BufferD3D *storage = buffer ? GetImplAs<BufferD3D>(buffer) : NULL; StaticVertexBufferInterface *staticBuffer = storage ? storage->getStaticVertexBuffer(attrib) : NULL; VertexBufferInterface *vertexBuffer = staticBuffer ? staticBuffer : static_cast<VertexBufferInterface*>(mStreamingBuffer); bool directStorage = vertexBuffer->directStoragePossible(attrib, translated->currentValueType); // Instanced vertices do not apply the 'start' offset GLint firstVertexIndex = (instances > 0 && attrib.divisor > 0 ? 0 : start); translated->vertexBuffer = vertexBuffer->getVertexBuffer(); if (directStorage) { translated->storage = storage; translated->serial = storage->getSerial(); translated->stride = static_cast<unsigned int>(ComputeVertexAttributeStride(attrib)); translated->offset = static_cast<unsigned int>(attrib.offset + translated->stride * firstVertexIndex); return gl::Error(GL_NO_ERROR); } // Compute source data pointer const uint8_t *sourceData = nullptr; if (buffer) { gl::Error error = storage->getData(&sourceData); if (error.isError()) { return error; } sourceData += static_cast<int>(attrib.offset); } else { sourceData = static_cast<const uint8_t*>(attrib.pointer); } unsigned int streamOffset = 0; unsigned int outputElementSize = 0; if (staticBuffer) { gl::Error error = staticBuffer->getVertexBuffer()->getSpaceRequired(attrib, 1, 0, &outputElementSize); if (error.isError()) { return error; } if (!staticBuffer->lookupAttribute(attrib, &streamOffset)) { // Convert the entire buffer int totalCount = ElementsInBuffer(attrib, static_cast<unsigned int>(storage->getSize())); int startIndex = static_cast<int>(attrib.offset) / static_cast<int>(ComputeVertexAttributeStride(attrib)); error = staticBuffer->storeVertexAttributes(attrib, translated->currentValueType, -startIndex, totalCount, 0, &streamOffset, sourceData); if (error.isError()) { return error; } } unsigned int firstElementOffset = (static_cast<unsigned int>(attrib.offset) / static_cast<unsigned int>(ComputeVertexAttributeStride(attrib))) * outputElementSize; unsigned int startOffset = (instances == 0 || attrib.divisor == 0) ? firstVertexIndex * outputElementSize : 0; if (streamOffset + firstElementOffset + startOffset < streamOffset) { return gl::Error(GL_OUT_OF_MEMORY); } streamOffset += firstElementOffset + startOffset; } else { size_t totalCount = ComputeVertexAttributeElementCount(attrib, count, instances); gl::Error error = mStreamingBuffer->getVertexBuffer()->getSpaceRequired(attrib, 1, 0, &outputElementSize); if (error.isError()) { return error; } error = mStreamingBuffer->storeVertexAttributes( attrib, translated->currentValueType, firstVertexIndex, static_cast<GLsizei>(totalCount), instances, &streamOffset, sourceData); if (error.isError()) { return error; } } translated->storage = nullptr; translated->serial = vertexBuffer->getSerial(); translated->stride = outputElementSize; translated->offset = streamOffset; return gl::Error(GL_NO_ERROR); }
gl::Error IndexDataManager::prepareIndexData(GLenum type, GLsizei count, gl::Buffer *buffer, const GLvoid *indices, TranslatedIndexData *translated) { const gl::Type &typeInfo = gl::GetTypeInfo(type); GLenum destinationIndexType = (type == GL_UNSIGNED_INT) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT; unsigned int offset = 0; bool alignedOffset = false; BufferD3D *storage = NULL; if (buffer != NULL) { offset = static_cast<unsigned int>(reinterpret_cast<uintptr_t>(indices)); storage = GetImplAs<BufferD3D>(buffer); switch (type) { case GL_UNSIGNED_BYTE: alignedOffset = (offset % sizeof(GLubyte) == 0); break; case GL_UNSIGNED_SHORT: alignedOffset = (offset % sizeof(GLushort) == 0); break; case GL_UNSIGNED_INT: alignedOffset = (offset % sizeof(GLuint) == 0); break; default: UNREACHABLE(); alignedOffset = false; } ASSERT(typeInfo.bytes * static_cast<unsigned int>(count) + offset <= storage->getSize()); const uint8_t *bufferData = NULL; gl::Error error = storage->getData(&bufferData); if (error.isError()) { return error; } indices = bufferData + offset; } StaticIndexBufferInterface *staticBuffer = storage ? storage->getStaticIndexBuffer() : NULL; IndexBufferInterface *indexBuffer = NULL; bool directStorage = alignedOffset && storage && storage->supportsDirectBinding() && destinationIndexType == type; unsigned int streamOffset = 0; if (directStorage) { streamOffset = offset; if (!buffer->getIndexRangeCache()->findRange(type, offset, count, NULL, NULL)) { buffer->getIndexRangeCache()->addRange(type, offset, count, translated->indexRange, offset); } } else if (staticBuffer && staticBuffer->getBufferSize() != 0 && staticBuffer->getIndexType() == type && alignedOffset) { indexBuffer = staticBuffer; if (!staticBuffer->getIndexRangeCache()->findRange(type, offset, count, NULL, &streamOffset)) { streamOffset = (offset / typeInfo.bytes) * gl::GetTypeInfo(destinationIndexType).bytes; staticBuffer->getIndexRangeCache()->addRange(type, offset, count, translated->indexRange, streamOffset); } } // Avoid D3D11's primitive restart index value // see http://msdn.microsoft.com/en-us/library/windows/desktop/bb205124(v=vs.85).aspx if (translated->indexRange.end == 0xFFFF && type == GL_UNSIGNED_SHORT && mRenderer->getMajorShaderModel() > 3) { destinationIndexType = GL_UNSIGNED_INT; directStorage = false; indexBuffer = NULL; } const gl::Type &destTypeInfo = gl::GetTypeInfo(destinationIndexType); if (!directStorage && !indexBuffer) { gl::Error error = getStreamingIndexBuffer(destinationIndexType, &indexBuffer); if (error.isError()) { return error; } unsigned int convertCount = count; if (staticBuffer) { if (staticBuffer->getBufferSize() == 0 && alignedOffset) { indexBuffer = staticBuffer; convertCount = storage->getSize() / typeInfo.bytes; } else { storage->invalidateStaticData(); staticBuffer = NULL; } } ASSERT(indexBuffer); if (convertCount > std::numeric_limits<unsigned int>::max() / destTypeInfo.bytes) { return gl::Error(GL_OUT_OF_MEMORY, "Reserving %u indices of %u bytes each exceeds the maximum buffer size.", convertCount, destTypeInfo.bytes); } unsigned int bufferSizeRequired = convertCount * destTypeInfo.bytes; error = indexBuffer->reserveBufferSpace(bufferSizeRequired, type); if (error.isError()) { return error; } void* output = NULL; error = indexBuffer->mapBuffer(bufferSizeRequired, &output, &streamOffset); if (error.isError()) { return error; } const uint8_t *dataPointer = reinterpret_cast<const uint8_t*>(indices); if (staticBuffer) { error = storage->getData(&dataPointer); if (error.isError()) { return error; } } ConvertIndices(type, destinationIndexType, dataPointer, convertCount, output); error = indexBuffer->unmapBuffer(); if (error.isError()) { return error; } if (staticBuffer) { streamOffset = (offset / typeInfo.bytes) * destTypeInfo.bytes; staticBuffer->getIndexRangeCache()->addRange(type, offset, count, translated->indexRange, streamOffset); } } translated->storage = directStorage ? storage : NULL; translated->indexBuffer = indexBuffer ? indexBuffer->getIndexBuffer() : NULL; translated->serial = directStorage ? storage->getSerial() : indexBuffer->getSerial(); translated->startIndex = streamOffset / destTypeInfo.bytes; translated->startOffset = streamOffset; translated->indexType = destinationIndexType; if (storage) { storage->promoteStaticUsage(count * typeInfo.bytes); } return gl::Error(GL_NO_ERROR); }
gl::Error VertexDataManager::storeAttribute(const gl::VertexAttribute &attrib, const gl::VertexAttribCurrentValueData ¤tValue, TranslatedAttribute *translated, GLint start, GLsizei count, GLsizei instances) { gl::Buffer *buffer = attrib.buffer.get(); ASSERT(buffer || attrib.pointer); BufferD3D *storage = buffer ? BufferD3D::makeBufferD3D(buffer->getImplementation()) : NULL; StaticVertexBufferInterface *staticBuffer = storage ? storage->getStaticVertexBuffer() : NULL; VertexBufferInterface *vertexBuffer = staticBuffer ? staticBuffer : static_cast<VertexBufferInterface*>(mStreamingBuffer); bool directStorage = vertexBuffer->directStoragePossible(attrib, currentValue); unsigned int streamOffset = 0; unsigned int outputElementSize = 0; if (directStorage) { outputElementSize = ComputeVertexAttributeStride(attrib); streamOffset = attrib.offset + outputElementSize * start; } else if (staticBuffer) { gl::Error error = staticBuffer->getVertexBuffer()->getSpaceRequired(attrib, 1, 0, &outputElementSize); if (error.isError()) { return error; } if (!staticBuffer->lookupAttribute(attrib, &streamOffset)) { // Convert the entire buffer int totalCount = ElementsInBuffer(attrib, storage->getSize()); int startIndex = attrib.offset / ComputeVertexAttributeStride(attrib); gl::Error error = staticBuffer->storeVertexAttributes(attrib, currentValue, -startIndex, totalCount, 0, &streamOffset); if (error.isError()) { return error; } } unsigned int firstElementOffset = (attrib.offset / ComputeVertexAttributeStride(attrib)) * outputElementSize; unsigned int startOffset = (instances == 0 || attrib.divisor == 0) ? start * outputElementSize : 0; if (streamOffset + firstElementOffset + startOffset < streamOffset) { return gl::Error(GL_OUT_OF_MEMORY); } streamOffset += firstElementOffset + startOffset; } else { int totalCount = StreamingBufferElementCount(attrib, count, instances); gl::Error error = mStreamingBuffer->getVertexBuffer()->getSpaceRequired(attrib, 1, 0, &outputElementSize); if (error.isError()) { return error; } error = mStreamingBuffer->storeVertexAttributes(attrib, currentValue, start, totalCount, instances, &streamOffset); if (error.isError()) { return error; } } translated->storage = directStorage ? storage : NULL; translated->vertexBuffer = vertexBuffer->getVertexBuffer(); translated->serial = directStorage ? storage->getSerial() : vertexBuffer->getSerial(); translated->divisor = attrib.divisor; translated->attribute = &attrib; translated->currentValueType = currentValue.Type; translated->stride = outputElementSize; translated->offset = streamOffset; return gl::Error(GL_NO_ERROR); }
GLenum IndexDataManager::prepareIndexData(GLenum type, GLsizei count, gl::Buffer *buffer, const GLvoid *indices, TranslatedIndexData *translated) { if (!mStreamingBufferShort) { return GL_OUT_OF_MEMORY; } GLenum destinationIndexType = (type == GL_UNSIGNED_INT) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT; unsigned int offset = 0; bool alignedOffset = false; BufferD3D *storage = NULL; if (buffer != NULL) { if (reinterpret_cast<uintptr_t>(indices) > std::numeric_limits<unsigned int>::max()) { return GL_OUT_OF_MEMORY; } offset = static_cast<unsigned int>(reinterpret_cast<uintptr_t>(indices)); storage = BufferD3D::makeBufferD3D(buffer->getImplementation()); switch (type) { case GL_UNSIGNED_BYTE: alignedOffset = (offset % sizeof(GLubyte) == 0); break; case GL_UNSIGNED_SHORT: alignedOffset = (offset % sizeof(GLushort) == 0); break; case GL_UNSIGNED_INT: alignedOffset = (offset % sizeof(GLuint) == 0); break; default: UNREACHABLE(); alignedOffset = false; } unsigned int typeSize = gl::GetTypeBytes(type); // check for integer overflows if (static_cast<unsigned int>(count) > (std::numeric_limits<unsigned int>::max() / typeSize) || typeSize * static_cast<unsigned int>(count) + offset < offset) { return GL_OUT_OF_MEMORY; } if (typeSize * static_cast<unsigned int>(count) + offset > storage->getSize()) { return GL_INVALID_OPERATION; } indices = static_cast<const GLubyte*>(storage->getData()) + offset; } StreamingIndexBufferInterface *streamingBuffer = (type == GL_UNSIGNED_INT) ? mStreamingBufferInt : mStreamingBufferShort; StaticIndexBufferInterface *staticBuffer = storage ? storage->getStaticIndexBuffer() : NULL; IndexBufferInterface *indexBuffer = streamingBuffer; bool directStorage = alignedOffset && storage && storage->supportsDirectBinding() && destinationIndexType == type; unsigned int streamOffset = 0; if (directStorage) { indexBuffer = streamingBuffer; streamOffset = offset; if (!storage->getIndexRangeCache()->findRange(type, offset, count, &translated->minIndex, &translated->maxIndex, NULL)) { computeRange(type, indices, count, &translated->minIndex, &translated->maxIndex); storage->getIndexRangeCache()->addRange(type, offset, count, translated->minIndex, translated->maxIndex, offset); } } else if (staticBuffer && staticBuffer->getBufferSize() != 0 && staticBuffer->getIndexType() == type && alignedOffset) { indexBuffer = staticBuffer; if (!staticBuffer->getIndexRangeCache()->findRange(type, offset, count, &translated->minIndex, &translated->maxIndex, &streamOffset)) { streamOffset = (offset / gl::GetTypeBytes(type)) * gl::GetTypeBytes(destinationIndexType); computeRange(type, indices, count, &translated->minIndex, &translated->maxIndex); staticBuffer->getIndexRangeCache()->addRange(type, offset, count, translated->minIndex, translated->maxIndex, streamOffset); } } else { unsigned int convertCount = count; if (staticBuffer) { if (staticBuffer->getBufferSize() == 0 && alignedOffset) { indexBuffer = staticBuffer; convertCount = storage->getSize() / gl::GetTypeBytes(type); } else { storage->invalidateStaticData(); staticBuffer = NULL; } } if (!indexBuffer) { ERR("No valid index buffer."); return GL_INVALID_OPERATION; } unsigned int indexTypeSize = gl::GetTypeBytes(destinationIndexType); if (convertCount > std::numeric_limits<unsigned int>::max() / indexTypeSize) { ERR("Reserving %u indicies of %u bytes each exceeds the maximum buffer size.", convertCount, indexTypeSize); return GL_OUT_OF_MEMORY; } unsigned int bufferSizeRequired = convertCount * indexTypeSize; if (!indexBuffer->reserveBufferSpace(bufferSizeRequired, type)) { ERR("Failed to reserve %u bytes in an index buffer.", bufferSizeRequired); return GL_OUT_OF_MEMORY; } void* output = NULL; if (!indexBuffer->mapBuffer(bufferSizeRequired, &output, &streamOffset)) { ERR("Failed to map index buffer."); return GL_OUT_OF_MEMORY; } convertIndices(type, staticBuffer ? storage->getData() : indices, convertCount, output); if (!indexBuffer->unmapBuffer()) { ERR("Failed to unmap index buffer."); return GL_OUT_OF_MEMORY; } computeRange(type, indices, count, &translated->minIndex, &translated->maxIndex); if (staticBuffer) { streamOffset = (offset / gl::GetTypeBytes(type)) * gl::GetTypeBytes(destinationIndexType); staticBuffer->getIndexRangeCache()->addRange(type, offset, count, translated->minIndex, translated->maxIndex, streamOffset); } } translated->storage = directStorage ? storage : NULL; translated->indexBuffer = indexBuffer->getIndexBuffer(); translated->serial = directStorage ? storage->getSerial() : indexBuffer->getSerial(); translated->startIndex = streamOffset / gl::GetTypeBytes(destinationIndexType); translated->startOffset = streamOffset; if (storage) { storage->promoteStaticUsage(count * gl::GetTypeBytes(type)); } return GL_NO_ERROR; }
gl::Error VertexDataManager::storeAttribute(const gl::VertexAttribute &attrib, const gl::VertexAttribCurrentValueData ¤tValue, TranslatedAttribute *translated, GLint start, GLsizei count, GLsizei instances) { gl::Buffer *buffer = attrib.buffer.get(); ASSERT(buffer || attrib.pointer); BufferD3D *storage = buffer ? GetImplAs<BufferD3D>(buffer) : NULL; StaticVertexBufferInterface *staticBuffer = storage ? storage->getStaticVertexBufferForAttribute(attrib) : NULL; VertexBufferInterface *vertexBuffer = staticBuffer ? staticBuffer : static_cast<VertexBufferInterface*>(mStreamingBuffer); bool directStorage = vertexBuffer->directStoragePossible(attrib, currentValue); unsigned int streamOffset = 0; unsigned int outputElementSize = 0; // Instanced vertices do not apply the 'start' offset GLint firstVertexIndex = (instances > 0 && attrib.divisor > 0 ? 0 : start); if (directStorage) { outputElementSize = ComputeVertexAttributeStride(attrib); streamOffset = static_cast<unsigned int>(attrib.offset + outputElementSize * firstVertexIndex); } else if (staticBuffer) { gl::Error error = staticBuffer->getVertexBuffer()->getSpaceRequired(attrib, 1, 0, &outputElementSize); if (error.isError()) { return error; } if (!staticBuffer->lookupAttribute(attrib, &streamOffset)) { // Convert the entire buffer int totalCount = ElementsInBuffer(attrib, storage->getSize()); int startIndex = attrib.offset / ComputeVertexAttributeStride(attrib); error = staticBuffer->storeVertexAttributes(attrib, currentValue, -startIndex, totalCount, 0, &streamOffset); // Each staticBuffer only contains the data for one attribute, so we know that it won't be modified again. // We can therefore safely unmap it here without hurting perf. staticBuffer->getVertexBuffer()->hintUnmapResource(); if (error.isError()) { return error; } } unsigned int firstElementOffset = (attrib.offset / ComputeVertexAttributeStride(attrib)) * outputElementSize; unsigned int startOffset = (instances == 0 || attrib.divisor == 0) ? firstVertexIndex * outputElementSize : 0; if (streamOffset + firstElementOffset + startOffset < streamOffset) { return gl::Error(GL_OUT_OF_MEMORY); } streamOffset += firstElementOffset + startOffset; } else { int totalCount = StreamingBufferElementCount(attrib, count, instances); gl::Error error = mStreamingBuffer->getVertexBuffer()->getSpaceRequired(attrib, 1, 0, &outputElementSize); if (error.isError()) { return error; } error = mStreamingBuffer->storeVertexAttributes(attrib, currentValue, firstVertexIndex, totalCount, instances, &streamOffset); if (error.isError()) { return error; } } translated->storage = directStorage ? storage : NULL; translated->vertexBuffer = vertexBuffer->getVertexBuffer(); translated->serial = directStorage ? storage->getSerial() : vertexBuffer->getSerial(); translated->divisor = attrib.divisor; translated->attribute = &attrib; translated->currentValueType = currentValue.Type; translated->stride = outputElementSize; translated->offset = streamOffset; return gl::Error(GL_NO_ERROR); }