src/OpenGL/libGLES_CM/Device.cpp - SwiftShader - Git at Google

 // Copyright 2016 The SwiftShader Authors. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "Device.hpp"

 #include "common/Image.hpp"
 #include "Texture.h"

 #include "Renderer/Renderer.hpp"
 #include "Renderer/Clipper.hpp"
 #include "Shader/PixelShader.hpp"
 #include "Shader/VertexShader.hpp"
 #include "Main/Config.hpp"
 #include "Main/FrameBuffer.hpp"
 #include "Common/Math.hpp"
 #include "Common/Configurator.hpp"
 #include "Common/Memory.hpp"
 #include "Common/Timer.hpp"
 #include "../common/debug.h"

 namespace es1
 {
 	using namespace sw;

 	Device::Device(Context *context) : Renderer(context, OpenGL, true), context(context)
 	{
 		renderTarget = nullptr;
 		depthBuffer = nullptr;
 		stencilBuffer = nullptr;

 		setDepthBufferEnable(true);
 		setFillMode(FILL_SOLID);
 		setShadingMode(SHADING_GOURAUD);
 		setDepthWriteEnable(true);
 		setAlphaTestEnable(false);
 		setSourceBlendFactor(BLEND_ONE);
 		setDestBlendFactor(BLEND_ZERO);
 		setCullMode(CULL_COUNTERCLOCKWISE, true);
 		setDepthCompare(DEPTH_LESSEQUAL);
 		setAlphaReference(0.0f);
 		setAlphaCompare(ALPHA_ALWAYS);
 		setAlphaBlendEnable(false);
 		setFogEnable(false);
 		setSpecularEnable(true);
 		setLocalViewer(false);
 		setFogColor(0);
 		setPixelFogMode(FOG_NONE);
 		setFogStart(0.0f);
 		setFogEnd(1.0f);
 		setFogDensity(1.0f);
 		setRangeFogEnable(false);
 		setStencilEnable(false);
 		setStencilFailOperation(OPERATION_KEEP);
 		setStencilZFailOperation(OPERATION_KEEP);
 		setStencilPassOperation(OPERATION_KEEP);
 		setStencilCompare(STENCIL_ALWAYS);
 		setStencilReference(0);
 		setStencilMask(0xFFFFFFFF);
 		setStencilWriteMask(0xFFFFFFFF);
 		setVertexFogMode(FOG_NONE);
 		setClipFlags(0);
 		setPointSize(1.0f);
 		setPointSizeMin(0.125f);
         setPointSizeMax(8192.0f);
 		setColorWriteMask(0, 0x0000000F);
 		setBlendOperation(BLENDOP_ADD);
 		scissorEnable = false;
 		setSlopeDepthBias(0.0f);
 		setTwoSidedStencil(false);
 		setStencilFailOperationCCW(OPERATION_KEEP);
 		setStencilZFailOperationCCW(OPERATION_KEEP);
 		setStencilPassOperationCCW(OPERATION_KEEP);
 		setStencilCompareCCW(STENCIL_ALWAYS);
 		setColorWriteMask(1, 0x0000000F);
 		setColorWriteMask(2, 0x0000000F);
 		setColorWriteMask(3, 0x0000000F);
 		setBlendConstant(0xFFFFFFFF);
 		setWriteSRGB(false);
 		setDepthBias(0.0f);
 		setSeparateAlphaBlendEnable(false);
 		setSourceBlendFactorAlpha(BLEND_ONE);
 		setDestBlendFactorAlpha(BLEND_ZERO);
 		setBlendOperationAlpha(BLENDOP_ADD);
 		setPointSpriteEnable(true);

 		for(int i = 0; i < 16; i++)
 		{
 			setAddressingModeU(sw::SAMPLER_PIXEL, i, ADDRESSING_WRAP);
 			setAddressingModeV(sw::SAMPLER_PIXEL, i, ADDRESSING_WRAP);
 			setAddressingModeW(sw::SAMPLER_PIXEL, i, ADDRESSING_WRAP);
 			setBorderColor(sw::SAMPLER_PIXEL, i, 0x00000000);
 			setTextureFilter(sw::SAMPLER_PIXEL, i, FILTER_POINT);
 			setMipmapFilter(sw::SAMPLER_PIXEL, i, MIPMAP_NONE);
 			setMipmapLOD(sw::SAMPLER_PIXEL, i, 0.0f);
 		}

 		for(int i = 0; i < 4; i++)
 		{
 			setAddressingModeU(sw::SAMPLER_VERTEX, i, ADDRESSING_WRAP);
 			setAddressingModeV(sw::SAMPLER_VERTEX, i, ADDRESSING_WRAP);
 			setAddressingModeW(sw::SAMPLER_VERTEX, i, ADDRESSING_WRAP);
 			setBorderColor(sw::SAMPLER_VERTEX, i, 0x00000000);
 			setTextureFilter(sw::SAMPLER_VERTEX, i, FILTER_POINT);
 			setMipmapFilter(sw::SAMPLER_VERTEX, i, MIPMAP_NONE);
 			setMipmapLOD(sw::SAMPLER_VERTEX, i, 0.0f);
 		}

 		for(int i = 0; i < 6; i++)
 		{
 			float plane[4] = {0, 0, 0, 0};

 			setClipPlane(i, plane);
 		}
 	}

 	Device::~Device()
 	{
 		if(renderTarget)
 		{
 			renderTarget->release();
 			renderTarget = nullptr;
 		}

 		if(depthBuffer)
 		{
 			depthBuffer->release();
 			depthBuffer = nullptr;
 		}

 		if(stencilBuffer)
 		{
 			stencilBuffer->release();
 			stencilBuffer = nullptr;
 		}

 		delete context;
 	}

 	// This object has to be mem aligned
 	void* Device::operator new(size_t size)
 	{
 		ASSERT(size == sizeof(Device)); // This operator can't be called from a derived class
 		return sw::allocate(sizeof(Device), 16);
 	}

 	void Device::operator delete(void * mem)
 	{
 		sw::deallocate(mem);
 	}

 	void Device::clearColor(float red, float green, float blue, float alpha, unsigned int rgbaMask)
 	{
 		if(!renderTarget || !rgbaMask)
 		{
 			return;
 		}

 		float rgba[4];
 		rgba[0] = red;
 		rgba[1] = green;
 		rgba[2] = blue;
 		rgba[3] = alpha;

 		sw::Rect clearRect = renderTarget->getRect();

 		if(scissorEnable)
 		{
 			clearRect.clip(scissorRect.x0, scissorRect.y0, scissorRect.x1, scissorRect.y1);
 		}

 		clear(rgba, FORMAT_A32B32G32R32F, renderTarget, clearRect, rgbaMask);
 	}

 	void Device::clearDepth(float z)
 	{
 		if(!depthBuffer)
 		{
 			return;
 		}

 		z = clamp01(z);
 		sw::Rect clearRect = depthBuffer->getRect();

 		if(scissorEnable)
 		{
 			clearRect.clip(scissorRect.x0, scissorRect.y0, scissorRect.x1, scissorRect.y1);
 		}

 		depthBuffer->clearDepth(z, clearRect.x0, clearRect.y0, clearRect.width(), clearRect.height());
 	}

 	void Device::clearStencil(unsigned int stencil, unsigned int mask)
 	{
 		if(!stencilBuffer)
 		{
 			return;
 		}

 		sw::Rect clearRect = stencilBuffer->getRect();

 		if(scissorEnable)
 		{
 			clearRect.clip(scissorRect.x0, scissorRect.y0, scissorRect.x1, scissorRect.y1);
 		}

 		stencilBuffer->clearStencil(stencil, mask, clearRect.x0, clearRect.y0, clearRect.width(), clearRect.height());
 	}

 	void Device::drawIndexedPrimitive(sw::DrawType type, unsigned int indexOffset, unsigned int primitiveCount)
 	{
 		if(!bindResources() || !primitiveCount)
 		{
 			return;
 		}

 		draw(type, indexOffset, primitiveCount);
 	}

 	void Device::drawPrimitive(sw::DrawType type, unsigned int primitiveCount)
 	{
 		if(!bindResources() || !primitiveCount)
 		{
 			return;
 		}

 		setIndexBuffer(nullptr);

 		draw(type, 0, primitiveCount);
 	}

 	void Device::setScissorEnable(bool enable)
 	{
 		scissorEnable = enable;
 	}

 	void Device::setRenderTarget(int index, egl::Image *renderTarget)
 	{
 		if(renderTarget)
 		{
 			renderTarget->addRef();
 		}

 		if(this->renderTarget)
 		{
 			this->renderTarget->release();
 		}

 		this->renderTarget = renderTarget;

 		Renderer::setRenderTarget(index, renderTarget);
 	}

 	void Device::setDepthBuffer(egl::Image *depthBuffer)
 	{
 		if(this->depthBuffer == depthBuffer)
 		{
 			return;
 		}

 		if(depthBuffer)
 		{
 			depthBuffer->addRef();
 		}

 		if(this->depthBuffer)
 		{
 			this->depthBuffer->release();
 		}

 		this->depthBuffer = depthBuffer;

 		Renderer::setDepthBuffer(depthBuffer);
 	}

 	void Device::setStencilBuffer(egl::Image *stencilBuffer)
 	{
 		if(this->stencilBuffer == stencilBuffer)
 		{
 			return;
 		}

 		if(stencilBuffer)
 		{
 			stencilBuffer->addRef();
 		}

 		if(this->stencilBuffer)
 		{
 			this->stencilBuffer->release();
 		}

 		this->stencilBuffer = stencilBuffer;

 		Renderer::setStencilBuffer(stencilBuffer);
 	}

 	void Device::setScissorRect(const sw::Rect &rect)
 	{
 		scissorRect = rect;
 	}

 	void Device::setViewport(const Viewport &viewport)
 	{
 		this->viewport = viewport;
 	}

 	bool Device::stretchRect(sw::Surface *source, const sw::SliceRect *sourceRect, sw::Surface *dest, const sw::SliceRect *destRect, bool filter)
 	{
 		if(!source || !dest || !validRectangle(sourceRect, source) || !validRectangle(destRect, dest))
 		{
 			ERR("Invalid parameters");
 			return false;
 		}

 		int sWidth = source->getWidth();
 		int sHeight = source->getHeight();
 		int dWidth = dest->getWidth();
 		int dHeight = dest->getHeight();

 		SliceRect sRect;
 		SliceRect dRect;

 		if(sourceRect)
 		{
 			sRect = *sourceRect;
 		}
 		else
 		{
 			sRect.y0 = 0;
 			sRect.x0 = 0;
 			sRect.y1 = sHeight;
 			sRect.x1 = sWidth;
 		}

 		if(destRect)
 		{
 			dRect = *destRect;
 		}
 		else
 		{
 			dRect.y0 = 0;
 			dRect.x0 = 0;
 			dRect.y1 = dHeight;
 			dRect.x1 = dWidth;
 		}

 		bool scaling = (sRect.x1 - sRect.x0 != dRect.x1 - dRect.x0) || (sRect.y1 - sRect.y0 != dRect.y1 - dRect.y0);
 		bool equalFormats = source->getInternalFormat() == dest->getInternalFormat();
 		bool depthStencil = egl::Image::isDepth(source->getInternalFormat()) || egl::Image::isStencil(source->getInternalFormat());
 		bool alpha0xFF = false;

 		if((source->getInternalFormat() == FORMAT_A8R8G8B8 && dest->getInternalFormat() == FORMAT_X8R8G8B8) ||
 		   (source->getInternalFormat() == FORMAT_X8R8G8B8 && dest->getInternalFormat() == FORMAT_A8R8G8B8))
 		{
 			equalFormats = true;
 			alpha0xFF = true;
 		}

 		if(depthStencil)   // Copy entirely, internally   // FIXME: Check
 		{
 			if(source->hasDepth())
 			{
 				sw::byte *sourceBuffer = (sw::byte*)source->lockInternal(0, 0, sRect.slice, LOCK_READONLY, PUBLIC);
 				sw::byte *destBuffer = (sw::byte*)dest->lockInternal(0, 0, dRect.slice, LOCK_DISCARD, PUBLIC);

 				unsigned int width = source->getWidth();
 				unsigned int height = source->getHeight();
 				unsigned int pitch = source->getInternalPitchB();

 				for(unsigned int y = 0; y < height; y++)
 				{
 					memcpy(destBuffer, sourceBuffer, pitch);   // FIXME: Only copy width * bytes

 					sourceBuffer += pitch;
 					destBuffer += pitch;
 				}

 				source->unlockInternal();
 				dest->unlockInternal();
 			}

 			if(source->hasStencil())
 			{
 				sw::byte *sourceBuffer = (sw::byte*)source->lockStencil(0, 0, 0, PUBLIC);
 				sw::byte *destBuffer = (sw::byte*)dest->lockStencil(0, 0, 0, PUBLIC);

 				unsigned int width = source->getWidth();
 				unsigned int height = source->getHeight();
 				unsigned int pitch = source->getStencilPitchB();

 				for(unsigned int y = 0; y < height; y++)
 				{
 					memcpy(destBuffer, sourceBuffer, pitch);   // FIXME: Only copy width * bytes

 					sourceBuffer += pitch;
 					destBuffer += pitch;
 				}

 				source->unlockStencil();
 				dest->unlockStencil();
 			}
 		}
 		else if(!scaling && equalFormats)
 		{
 			unsigned char *sourceBytes = (unsigned char*)source->lockInternal(sRect.x0, sRect.y0, sRect.slice, LOCK_READONLY, PUBLIC);
 			unsigned char *destBytes = (unsigned char*)dest->lockInternal(dRect.x0, dRect.y0, dRect.slice, LOCK_READWRITE, PUBLIC);
 			unsigned int sourcePitch = source->getInternalPitchB();
 			unsigned int destPitch = dest->getInternalPitchB();

 			unsigned int width = dRect.x1 - dRect.x0;
 			unsigned int height = dRect.y1 - dRect.y0;
 			unsigned int bytes = width * egl::Image::bytes(source->getInternalFormat());

 			for(unsigned int y = 0; y < height; y++)
 			{
 				memcpy(destBytes, sourceBytes, bytes);

 				if(alpha0xFF)
 				{
 					for(unsigned int x = 0; x < width; x++)
 					{
 						destBytes[4 * x + 3] = 0xFF;
 					}
 				}

 				sourceBytes += sourcePitch;
 				destBytes += destPitch;
 			}

 			source->unlockInternal();
 			dest->unlockInternal();
 		}
 		else
 		{
 			sw::SliceRectF sRectF((float)sRect.x0, (float)sRect.y0, (float)sRect.x1, (float)sRect.y1, sRect.slice);
 			blit(source, sRectF, dest, dRect, scaling && filter);
 		}

 		return true;
 	}

 	bool Device::bindResources()
 	{
 		if(!bindViewport())
 		{
 			return false;   // Zero-area target region
 		}

 		return true;
 	}

 	bool Device::bindViewport()
 	{
 		if(viewport.width <= 0 || viewport.height <= 0)
 		{
 			return false;
 		}

 		if(scissorEnable)
 		{
 			if(scissorRect.x0 >= scissorRect.x1 || scissorRect.y0 >= scissorRect.y1)
 			{
 				return false;
 			}

 			sw::Rect scissor;
 			scissor.x0 = scissorRect.x0;
 			scissor.x1 = scissorRect.x1;
 			scissor.y0 = scissorRect.y0;
 			scissor.y1 = scissorRect.y1;

 			setScissor(scissor);
 		}
 		else
 		{
 			sw::Rect scissor;
 			scissor.x0 = viewport.x0;
 			scissor.x1 = viewport.x0 + viewport.width;
 			scissor.y0 = viewport.y0;
 			scissor.y1 = viewport.y0 + viewport.height;

 			if(renderTarget)
 			{
 				scissor.x0 = max(scissor.x0, 0);
 				scissor.x1 = min(scissor.x1, renderTarget->getWidth());
 				scissor.y0 = max(scissor.y0, 0);
 				scissor.y1 = min(scissor.y1, renderTarget->getHeight());
 			}

 			if(depthBuffer)
 			{
 				scissor.x0 = max(scissor.x0, 0);
 				scissor.x1 = min(scissor.x1, depthBuffer->getWidth());
 				scissor.y0 = max(scissor.y0, 0);
 				scissor.y1 = min(scissor.y1, depthBuffer->getHeight());
 			}

 			if(stencilBuffer)
 			{
 				scissor.x0 = max(scissor.x0, 0);
 				scissor.x1 = min(scissor.x1, stencilBuffer->getWidth());
 				scissor.y0 = max(scissor.y0, 0);
 				scissor.y1 = min(scissor.y1, stencilBuffer->getHeight());
 			}

 			setScissor(scissor);
 		}

 		sw::Viewport view;
 		view.x0 = (float)viewport.x0;
 		view.y0 = (float)viewport.y0;
 		view.width = (float)viewport.width;
 		view.height = (float)viewport.height;
 		view.minZ = viewport.minZ;
 		view.maxZ = viewport.maxZ;

 		Renderer::setViewport(view);

 		return true;
 	}

 	bool Device::validRectangle(const sw::Rect *rect, sw::Surface *surface)
 	{
 		if(!rect)
 		{
 			return true;
 		}

 		if(rect->x1 <= rect->x0 || rect->y1 <= rect->y0)
 		{
 			return false;
 		}

 		if(rect->x0 < 0 || rect->y0 < 0)
 		{
 			return false;
 		}

 		if(rect->x1 > (int)surface->getWidth() || rect->y1 > (int)surface->getHeight())
 		{
 			return false;
 		}

 		return true;
 	}

 	void Device::finish()
 	{
 		synchronize();
 	}
 }
	// Copyright 2016 The SwiftShader Authors. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "Device.hpp"

	#include "common/Image.hpp"
	#include "Texture.h"

	#include "Renderer/Renderer.hpp"
	#include "Renderer/Clipper.hpp"
	#include "Shader/PixelShader.hpp"
	#include "Shader/VertexShader.hpp"
	#include "Main/Config.hpp"
	#include "Main/FrameBuffer.hpp"
	#include "Common/Math.hpp"
	#include "Common/Configurator.hpp"
	#include "Common/Memory.hpp"
	#include "Common/Timer.hpp"
	#include "../common/debug.h"

	namespace es1
	{
	using namespace sw;

	Device::Device(Context *context) : Renderer(context, OpenGL, true), context(context)
	{
	renderTarget = nullptr;
	depthBuffer = nullptr;
	stencilBuffer = nullptr;

	setDepthBufferEnable(true);
	setFillMode(FILL_SOLID);
	setShadingMode(SHADING_GOURAUD);
	setDepthWriteEnable(true);
	setAlphaTestEnable(false);
	setSourceBlendFactor(BLEND_ONE);
	setDestBlendFactor(BLEND_ZERO);
	setCullMode(CULL_COUNTERCLOCKWISE, true);
	setDepthCompare(DEPTH_LESSEQUAL);
	setAlphaReference(0.0f);
	setAlphaCompare(ALPHA_ALWAYS);
	setAlphaBlendEnable(false);
	setFogEnable(false);
	setSpecularEnable(true);
	setLocalViewer(false);
	setFogColor(0);
	setPixelFogMode(FOG_NONE);
	setFogStart(0.0f);
	setFogEnd(1.0f);
	setFogDensity(1.0f);
	setRangeFogEnable(false);
	setStencilEnable(false);
	setStencilFailOperation(OPERATION_KEEP);
	setStencilZFailOperation(OPERATION_KEEP);
	setStencilPassOperation(OPERATION_KEEP);
	setStencilCompare(STENCIL_ALWAYS);
	setStencilReference(0);
	setStencilMask(0xFFFFFFFF);
	setStencilWriteMask(0xFFFFFFFF);
	setVertexFogMode(FOG_NONE);
	setClipFlags(0);
	setPointSize(1.0f);
	setPointSizeMin(0.125f);
	setPointSizeMax(8192.0f);
	setColorWriteMask(0, 0x0000000F);
	setBlendOperation(BLENDOP_ADD);
	scissorEnable = false;
	setSlopeDepthBias(0.0f);
	setTwoSidedStencil(false);
	setStencilFailOperationCCW(OPERATION_KEEP);
	setStencilZFailOperationCCW(OPERATION_KEEP);
	setStencilPassOperationCCW(OPERATION_KEEP);
	setStencilCompareCCW(STENCIL_ALWAYS);
	setColorWriteMask(1, 0x0000000F);
	setColorWriteMask(2, 0x0000000F);
	setColorWriteMask(3, 0x0000000F);
	setBlendConstant(0xFFFFFFFF);
	setWriteSRGB(false);
	setDepthBias(0.0f);
	setSeparateAlphaBlendEnable(false);
	setSourceBlendFactorAlpha(BLEND_ONE);
	setDestBlendFactorAlpha(BLEND_ZERO);
	setBlendOperationAlpha(BLENDOP_ADD);
	setPointSpriteEnable(true);

	for(int i = 0; i < 16; i++)
	{
	setAddressingModeU(sw::SAMPLER_PIXEL, i, ADDRESSING_WRAP);
	setAddressingModeV(sw::SAMPLER_PIXEL, i, ADDRESSING_WRAP);
	setAddressingModeW(sw::SAMPLER_PIXEL, i, ADDRESSING_WRAP);
	setBorderColor(sw::SAMPLER_PIXEL, i, 0x00000000);
	setTextureFilter(sw::SAMPLER_PIXEL, i, FILTER_POINT);
	setMipmapFilter(sw::SAMPLER_PIXEL, i, MIPMAP_NONE);
	setMipmapLOD(sw::SAMPLER_PIXEL, i, 0.0f);
	}

	for(int i = 0; i < 4; i++)
	{
	setAddressingModeU(sw::SAMPLER_VERTEX, i, ADDRESSING_WRAP);
	setAddressingModeV(sw::SAMPLER_VERTEX, i, ADDRESSING_WRAP);
	setAddressingModeW(sw::SAMPLER_VERTEX, i, ADDRESSING_WRAP);
	setBorderColor(sw::SAMPLER_VERTEX, i, 0x00000000);
	setTextureFilter(sw::SAMPLER_VERTEX, i, FILTER_POINT);
	setMipmapFilter(sw::SAMPLER_VERTEX, i, MIPMAP_NONE);
	setMipmapLOD(sw::SAMPLER_VERTEX, i, 0.0f);
	}

	for(int i = 0; i < 6; i++)
	{
	float plane[4] = {0, 0, 0, 0};

	setClipPlane(i, plane);
	}
	}

	Device::~Device()
	{
	if(renderTarget)
	{
	renderTarget->release();
	renderTarget = nullptr;
	}

	if(depthBuffer)
	{
	depthBuffer->release();
	depthBuffer = nullptr;
	}

	if(stencilBuffer)
	{
	stencilBuffer->release();
	stencilBuffer = nullptr;
	}

	delete context;
	}

	// This object has to be mem aligned
	void* Device::operator new(size_t size)
	{
	ASSERT(size == sizeof(Device)); // This operator can't be called from a derived class
	return sw::allocate(sizeof(Device), 16);
	}

	void Device::operator delete(void * mem)
	{
	sw::deallocate(mem);
	}

	void Device::clearColor(float red, float green, float blue, float alpha, unsigned int rgbaMask)
	{
	if(!renderTarget \|\| !rgbaMask)
	{
	return;
	}

	float rgba[4];
	rgba[0] = red;
	rgba[1] = green;
	rgba[2] = blue;
	rgba[3] = alpha;

	sw::Rect clearRect = renderTarget->getRect();

	if(scissorEnable)
	{
	clearRect.clip(scissorRect.x0, scissorRect.y0, scissorRect.x1, scissorRect.y1);
	}

	clear(rgba, FORMAT_A32B32G32R32F, renderTarget, clearRect, rgbaMask);
	}

	void Device::clearDepth(float z)
	{
	if(!depthBuffer)
	{
	return;
	}

	z = clamp01(z);
	sw::Rect clearRect = depthBuffer->getRect();

	if(scissorEnable)
	{
	clearRect.clip(scissorRect.x0, scissorRect.y0, scissorRect.x1, scissorRect.y1);
	}

	depthBuffer->clearDepth(z, clearRect.x0, clearRect.y0, clearRect.width(), clearRect.height());
	}

	void Device::clearStencil(unsigned int stencil, unsigned int mask)
	{
	if(!stencilBuffer)
	{
	return;
	}

	sw::Rect clearRect = stencilBuffer->getRect();

	if(scissorEnable)
	{
	clearRect.clip(scissorRect.x0, scissorRect.y0, scissorRect.x1, scissorRect.y1);
	}

	stencilBuffer->clearStencil(stencil, mask, clearRect.x0, clearRect.y0, clearRect.width(), clearRect.height());
	}

	void Device::drawIndexedPrimitive(sw::DrawType type, unsigned int indexOffset, unsigned int primitiveCount)
	{
	if(!bindResources() \|\| !primitiveCount)
	{
	return;
	}

	draw(type, indexOffset, primitiveCount);
	}

	void Device::drawPrimitive(sw::DrawType type, unsigned int primitiveCount)
	{
	if(!bindResources() \|\| !primitiveCount)
	{
	return;
	}

	setIndexBuffer(nullptr);

	draw(type, 0, primitiveCount);
	}

	void Device::setScissorEnable(bool enable)
	{
	scissorEnable = enable;
	}

	void Device::setRenderTarget(int index, egl::Image *renderTarget)
	{
	if(renderTarget)
	{
	renderTarget->addRef();
	}

	if(this->renderTarget)
	{
	this->renderTarget->release();
	}

	this->renderTarget = renderTarget;

	Renderer::setRenderTarget(index, renderTarget);
	}

	void Device::setDepthBuffer(egl::Image *depthBuffer)
	{
	if(this->depthBuffer == depthBuffer)
	{
	return;
	}

	if(depthBuffer)
	{
	depthBuffer->addRef();
	}

	if(this->depthBuffer)
	{
	this->depthBuffer->release();
	}

	this->depthBuffer = depthBuffer;

	Renderer::setDepthBuffer(depthBuffer);
	}

	void Device::setStencilBuffer(egl::Image *stencilBuffer)
	{
	if(this->stencilBuffer == stencilBuffer)
	{
	return;
	}

	if(stencilBuffer)
	{
	stencilBuffer->addRef();
	}

	if(this->stencilBuffer)
	{
	this->stencilBuffer->release();
	}

	this->stencilBuffer = stencilBuffer;

	Renderer::setStencilBuffer(stencilBuffer);
	}

	void Device::setScissorRect(const sw::Rect &rect)
	{
	scissorRect = rect;
	}

	void Device::setViewport(const Viewport &viewport)
	{
	this->viewport = viewport;
	}

	bool Device::stretchRect(sw::Surface source, const sw::SliceRect sourceRect, sw::Surface dest, const sw::SliceRect destRect, bool filter)
	{
	if(!source \|\| !dest \|\| !validRectangle(sourceRect, source) \|\| !validRectangle(destRect, dest))
	{
	ERR("Invalid parameters");
	return false;
	}

	int sWidth = source->getWidth();
	int sHeight = source->getHeight();
	int dWidth = dest->getWidth();
	int dHeight = dest->getHeight();

	SliceRect sRect;
	SliceRect dRect;

	if(sourceRect)
	{
	sRect = *sourceRect;
	}
	else
	{
	sRect.y0 = 0;
	sRect.x0 = 0;
	sRect.y1 = sHeight;
	sRect.x1 = sWidth;
	}

	if(destRect)
	{
	dRect = *destRect;
	}
	else
	{
	dRect.y0 = 0;
	dRect.x0 = 0;
	dRect.y1 = dHeight;
	dRect.x1 = dWidth;
	}

	bool scaling = (sRect.x1 - sRect.x0 != dRect.x1 - dRect.x0) \|\| (sRect.y1 - sRect.y0 != dRect.y1 - dRect.y0);
	bool equalFormats = source->getInternalFormat() == dest->getInternalFormat();
	bool depthStencil = egl::Image::isDepth(source->getInternalFormat()) \|\| egl::Image::isStencil(source->getInternalFormat());
	bool alpha0xFF = false;

	if((source->getInternalFormat() == FORMAT_A8R8G8B8 && dest->getInternalFormat() == FORMAT_X8R8G8B8) \|\|
	(source->getInternalFormat() == FORMAT_X8R8G8B8 && dest->getInternalFormat() == FORMAT_A8R8G8B8))
	{
	equalFormats = true;
	alpha0xFF = true;
	}

	if(depthStencil) // Copy entirely, internally // FIXME: Check
	{
	if(source->hasDepth())
	{
	sw::byte sourceBuffer = (sw::byte)source->lockInternal(0, 0, sRect.slice, LOCK_READONLY, PUBLIC);
	sw::byte destBuffer = (sw::byte)dest->lockInternal(0, 0, dRect.slice, LOCK_DISCARD, PUBLIC);

	unsigned int width = source->getWidth();
	unsigned int height = source->getHeight();
	unsigned int pitch = source->getInternalPitchB();

	for(unsigned int y = 0; y < height; y++)
	{
	memcpy(destBuffer, sourceBuffer, pitch); // FIXME: Only copy width * bytes

	sourceBuffer += pitch;
	destBuffer += pitch;
	}

	source->unlockInternal();
	dest->unlockInternal();
	}

	if(source->hasStencil())
	{
	sw::byte sourceBuffer = (sw::byte)source->lockStencil(0, 0, 0, PUBLIC);
	sw::byte destBuffer = (sw::byte)dest->lockStencil(0, 0, 0, PUBLIC);

	unsigned int width = source->getWidth();
	unsigned int height = source->getHeight();
	unsigned int pitch = source->getStencilPitchB();

	for(unsigned int y = 0; y < height; y++)
	{
	memcpy(destBuffer, sourceBuffer, pitch); // FIXME: Only copy width * bytes

	sourceBuffer += pitch;
	destBuffer += pitch;
	}

	source->unlockStencil();
	dest->unlockStencil();
	}
	}
	else if(!scaling && equalFormats)
	{
	unsigned char sourceBytes = (unsigned char)source->lockInternal(sRect.x0, sRect.y0, sRect.slice, LOCK_READONLY, PUBLIC);
	unsigned char destBytes = (unsigned char)dest->lockInternal(dRect.x0, dRect.y0, dRect.slice, LOCK_READWRITE, PUBLIC);
	unsigned int sourcePitch = source->getInternalPitchB();
	unsigned int destPitch = dest->getInternalPitchB();

	unsigned int width = dRect.x1 - dRect.x0;
	unsigned int height = dRect.y1 - dRect.y0;
	unsigned int bytes = width * egl::Image::bytes(source->getInternalFormat());

	for(unsigned int y = 0; y < height; y++)
	{
	memcpy(destBytes, sourceBytes, bytes);

	if(alpha0xFF)
	{
	for(unsigned int x = 0; x < width; x++)
	{
	destBytes[4 * x + 3] = 0xFF;
	}
	}

	sourceBytes += sourcePitch;
	destBytes += destPitch;
	}

	source->unlockInternal();
	dest->unlockInternal();
	}
	else
	{
	sw::SliceRectF sRectF((float)sRect.x0, (float)sRect.y0, (float)sRect.x1, (float)sRect.y1, sRect.slice);
	blit(source, sRectF, dest, dRect, scaling && filter);
	}

	return true;
	}

	bool Device::bindResources()
	{
	if(!bindViewport())
	{
	return false; // Zero-area target region
	}

	return true;
	}

	bool Device::bindViewport()
	{
	if(viewport.width <= 0 \|\| viewport.height <= 0)
	{
	return false;
	}

	if(scissorEnable)
	{
	if(scissorRect.x0 >= scissorRect.x1 \|\| scissorRect.y0 >= scissorRect.y1)
	{
	return false;
	}

	sw::Rect scissor;
	scissor.x0 = scissorRect.x0;
	scissor.x1 = scissorRect.x1;
	scissor.y0 = scissorRect.y0;
	scissor.y1 = scissorRect.y1;

	setScissor(scissor);
	}
	else
	{
	sw::Rect scissor;
	scissor.x0 = viewport.x0;
	scissor.x1 = viewport.x0 + viewport.width;
	scissor.y0 = viewport.y0;
	scissor.y1 = viewport.y0 + viewport.height;

	if(renderTarget)
	{
	scissor.x0 = max(scissor.x0, 0);
	scissor.x1 = min(scissor.x1, renderTarget->getWidth());
	scissor.y0 = max(scissor.y0, 0);
	scissor.y1 = min(scissor.y1, renderTarget->getHeight());
	}

	if(depthBuffer)
	{
	scissor.x0 = max(scissor.x0, 0);
	scissor.x1 = min(scissor.x1, depthBuffer->getWidth());
	scissor.y0 = max(scissor.y0, 0);
	scissor.y1 = min(scissor.y1, depthBuffer->getHeight());
	}

	if(stencilBuffer)
	{
	scissor.x0 = max(scissor.x0, 0);
	scissor.x1 = min(scissor.x1, stencilBuffer->getWidth());
	scissor.y0 = max(scissor.y0, 0);
	scissor.y1 = min(scissor.y1, stencilBuffer->getHeight());
	}

	setScissor(scissor);
	}

	sw::Viewport view;
	view.x0 = (float)viewport.x0;
	view.y0 = (float)viewport.y0;
	view.width = (float)viewport.width;
	view.height = (float)viewport.height;
	view.minZ = viewport.minZ;
	view.maxZ = viewport.maxZ;

	Renderer::setViewport(view);

	return true;
	}

	bool Device::validRectangle(const sw::Rect rect, sw::Surface surface)
	{
	if(!rect)
	{
	return true;
	}

	if(rect->x1 <= rect->x0 \|\| rect->y1 <= rect->y0)
	{
	return false;
	}

	if(rect->x0 < 0 \|\| rect->y0 < 0)
	{
	return false;
	}

	if(rect->x1 > (int)surface->getWidth() \|\| rect->y1 > (int)surface->getHeight())
	{
	return false;
	}

	return true;
	}

	void Device::finish()
	{
	synchronize();
	}
	}