| /* |
| * XGL Tests |
| * |
| * Copyright (C) 2014 LunarG, Inc. |
| * |
| * Permission is hereby granted, free of charge, to any person obtaining a |
| * copy of this software and associated documentation files (the "Software"), |
| * to deal in the Software without restriction, including without limitation |
| * the rights to use, copy, modify, merge, publish, distribute, sublicense, |
| * and/or sell copies of the Software, and to permit persons to whom the |
| * Software is furnished to do so, subject to the following conditions: |
| * |
| * The above copyright notice and this permission notice shall be included |
| * in all copies or substantial portions of the Software. |
| * |
| * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR |
| * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, |
| * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL |
| * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER |
| * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING |
| * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER |
| * DEALINGS IN THE SOFTWARE. |
| * |
| * Authors: |
| * Courtney Goeltzenleuchter <courtney@lunarg.com> |
| */ |
| |
| #include "xglrenderframework.h" |
| |
| XglRenderFramework::XglRenderFramework() : |
| m_cmdBuffer( XGL_NULL_HANDLE ), |
| m_stateRaster( XGL_NULL_HANDLE ), |
| m_colorBlend( XGL_NULL_HANDLE ), |
| m_stateViewport( XGL_NULL_HANDLE ), |
| m_stateDepthStencil( XGL_NULL_HANDLE ), |
| m_stateMsaa( XGL_NULL_HANDLE ), |
| m_width( 256.0 ), // default window width |
| m_height( 256.0 ) // default window height |
| { |
| m_renderTargetCount = 1; |
| |
| m_render_target_fmt.channelFormat = XGL_CH_FMT_R8G8B8A8; |
| m_render_target_fmt.numericFormat = XGL_NUM_FMT_UNORM; |
| |
| m_colorBindings[0].view = XGL_NULL_HANDLE; |
| m_depthStencilBinding.view = XGL_NULL_HANDLE; |
| } |
| |
| XglRenderFramework::~XglRenderFramework() |
| { |
| |
| } |
| |
| void XglRenderFramework::InitFramework() |
| { |
| XGL_RESULT err; |
| |
| err = xglInitAndEnumerateGpus(&app_info, NULL, |
| MAX_GPUS, &this->gpu_count, objs); |
| ASSERT_XGL_SUCCESS(err); |
| ASSERT_GE(this->gpu_count, 1) << "No GPU available"; |
| |
| m_device = new XglDevice(0, objs[0]); |
| m_device->get_device_queue(); |
| } |
| |
| void XglRenderFramework::ShutdownFramework() |
| { |
| if (m_colorBlend) xglDestroyObject(m_colorBlend); |
| if (m_stateMsaa) xglDestroyObject(m_stateMsaa); |
| if (m_stateDepthStencil) xglDestroyObject(m_stateDepthStencil); |
| if (m_stateRaster) xglDestroyObject(m_stateRaster); |
| if (m_cmdBuffer) xglDestroyObject(m_cmdBuffer); |
| |
| if (m_stateViewport) { |
| xglDestroyObject(m_stateViewport); |
| } |
| |
| for (XGL_UINT i = 0; i < m_renderTargetCount; i++) { |
| if (m_renderTargets[i]) { |
| // TODO: XglImage should be able to destroy itself |
| // m_renderTarget-> |
| // xglDestroyObject(*m_renderTarget); |
| } |
| } |
| |
| // reset the driver |
| m_device->destroy_device(); |
| xglInitAndEnumerateGpus(&this->app_info, XGL_NULL_HANDLE, 0, &gpu_count, XGL_NULL_HANDLE); |
| } |
| |
| void XglRenderFramework::InitState() |
| { |
| XGL_RESULT err; |
| |
| m_render_target_fmt.channelFormat = XGL_CH_FMT_R8G8B8A8; |
| m_render_target_fmt.numericFormat = XGL_NUM_FMT_UNORM; |
| |
| // create a raster state (solid, back-face culling) |
| XGL_RASTER_STATE_CREATE_INFO raster = {}; |
| raster.sType = XGL_STRUCTURE_TYPE_RASTER_STATE_CREATE_INFO; |
| raster.fillMode = XGL_FILL_SOLID; |
| raster.cullMode = XGL_CULL_NONE; |
| raster.frontFace = XGL_FRONT_FACE_CCW; |
| err = xglCreateRasterState( device(), &raster, &m_stateRaster ); |
| ASSERT_XGL_SUCCESS(err); |
| |
| XGL_COLOR_BLEND_STATE_CREATE_INFO blend = {}; |
| blend.sType = XGL_STRUCTURE_TYPE_COLOR_BLEND_STATE_CREATE_INFO; |
| err = xglCreateColorBlendState(device(), &blend, &m_colorBlend); |
| ASSERT_XGL_SUCCESS( err ); |
| |
| XGL_DEPTH_STENCIL_STATE_CREATE_INFO depthStencil = {}; |
| depthStencil.sType = XGL_STRUCTURE_TYPE_DEPTH_STENCIL_STATE_CREATE_INFO; |
| depthStencil.depthTestEnable = XGL_FALSE; |
| depthStencil.depthWriteEnable = XGL_FALSE; |
| depthStencil.depthFunc = XGL_COMPARE_LESS_EQUAL; |
| depthStencil.depthBoundsEnable = XGL_FALSE; |
| depthStencil.minDepth = 0.f; |
| depthStencil.maxDepth = 1.f; |
| depthStencil.back.stencilDepthFailOp = XGL_STENCIL_OP_KEEP; |
| depthStencil.back.stencilFailOp = XGL_STENCIL_OP_KEEP; |
| depthStencil.back.stencilPassOp = XGL_STENCIL_OP_KEEP; |
| depthStencil.back.stencilRef = 0x00; |
| depthStencil.back.stencilFunc = XGL_COMPARE_ALWAYS; |
| depthStencil.front = depthStencil.back; |
| |
| err = xglCreateDepthStencilState( device(), &depthStencil, &m_stateDepthStencil ); |
| ASSERT_XGL_SUCCESS( err ); |
| |
| XGL_MSAA_STATE_CREATE_INFO msaa = {}; |
| msaa.sType = XGL_STRUCTURE_TYPE_MSAA_STATE_CREATE_INFO; |
| msaa.sampleMask = 1; |
| msaa.samples = 1; |
| |
| err = xglCreateMsaaState( device(), &msaa, &m_stateMsaa ); |
| ASSERT_XGL_SUCCESS( err ); |
| |
| XGL_CMD_BUFFER_CREATE_INFO cmdInfo = {}; |
| |
| cmdInfo.sType = XGL_STRUCTURE_TYPE_CMD_BUFFER_CREATE_INFO; |
| cmdInfo.queueType = XGL_QUEUE_TYPE_GRAPHICS; |
| err = xglCreateCommandBuffer(device(), &cmdInfo, &m_cmdBuffer); |
| ASSERT_XGL_SUCCESS(err) << "xglCreateCommandBuffer failed"; |
| } |
| |
| void XglRenderFramework::InitViewport(float width, float height) |
| { |
| XGL_RESULT err; |
| |
| XGL_VIEWPORT_STATE_CREATE_INFO viewport = {}; |
| viewport.viewportCount = 1; |
| viewport.scissorEnable = XGL_FALSE; |
| viewport.viewports[0].originX = 0; |
| viewport.viewports[0].originY = 0; |
| viewport.viewports[0].width = 1.f * width; |
| viewport.viewports[0].height = 1.f * height; |
| viewport.viewports[0].minDepth = 0.f; |
| viewport.viewports[0].maxDepth = 1.f; |
| |
| err = xglCreateViewportState( device(), &viewport, &m_stateViewport ); |
| ASSERT_XGL_SUCCESS( err ); |
| m_width = width; |
| m_height = height; |
| } |
| |
| void XglRenderFramework::InitViewport() |
| { |
| InitViewport(m_width, m_height); |
| } |
| |
| void XglRenderFramework::InitRenderTarget() |
| { |
| XGL_UINT i; |
| |
| for (i = 0; i < m_renderTargetCount; i++) { |
| m_device->CreateImage(m_width, m_height, m_render_target_fmt, |
| XGL_IMAGE_USAGE_SHADER_ACCESS_WRITE_BIT | |
| XGL_IMAGE_USAGE_COLOR_ATTACHMENT_BIT, |
| &m_renderTargets[i]); |
| } |
| } |
| |
| void XglRenderFramework::GenerateBindRenderTargetCmd() |
| { |
| XGL_UINT i; |
| |
| // bind render target |
| for (i = 0; i < m_renderTargetCount; i++) { |
| m_colorBindings[i].view = m_renderTargets[i]->targetView(); |
| m_colorBindings[i].colorAttachmentState = XGL_IMAGE_STATE_TARGET_RENDER_ACCESS_OPTIMAL; |
| } |
| if (m_depthStencilBinding.view) { |
| xglCmdBindAttachments(m_cmdBuffer, m_renderTargetCount, m_colorBindings, &m_depthStencilBinding ); |
| } else { |
| xglCmdBindAttachments(m_cmdBuffer, m_renderTargetCount, m_colorBindings, XGL_NULL_HANDLE ); |
| } |
| } |
| |
| void XglRenderFramework::GenerateBindStateAndPipelineCmds() |
| { |
| // set all states |
| xglCmdBindStateObject( m_cmdBuffer, XGL_STATE_BIND_RASTER, m_stateRaster ); |
| xglCmdBindStateObject( m_cmdBuffer, XGL_STATE_BIND_VIEWPORT, m_stateViewport ); |
| xglCmdBindStateObject( m_cmdBuffer, XGL_STATE_BIND_COLOR_BLEND, m_colorBlend); |
| xglCmdBindStateObject( m_cmdBuffer, XGL_STATE_BIND_DEPTH_STENCIL, m_stateDepthStencil ); |
| xglCmdBindStateObject( m_cmdBuffer, XGL_STATE_BIND_MSAA, m_stateMsaa ); |
| } |
| |
| void XglRenderFramework::GenerateClearAndPrepareBufferCmds() |
| { |
| XGL_UINT i; |
| |
| // whatever we want to do, we do it to the whole buffer |
| XGL_IMAGE_SUBRESOURCE_RANGE srRange = {}; |
| srRange.aspect = XGL_IMAGE_ASPECT_COLOR; |
| srRange.baseMipLevel = 0; |
| srRange.mipLevels = XGL_LAST_MIP_OR_SLICE; |
| srRange.baseArraySlice = 0; |
| srRange.arraySize = XGL_LAST_MIP_OR_SLICE; |
| |
| // clear the back buffer to dark grey |
| XGL_UINT clearColor[4] = {64, 64, 64, 0}; |
| XGL_IMAGE_STATE_TRANSITION transitionToClear = {}; |
| for (i = 0; i < m_renderTargetCount; i++) { |
| transitionToClear.image = m_renderTargets[i]->image(); |
| transitionToClear.oldState = m_renderTargets[i]->state(); |
| transitionToClear.newState = XGL_IMAGE_STATE_CLEAR; |
| transitionToClear.subresourceRange = srRange; |
| xglCmdPrepareImages( m_cmdBuffer, 1, &transitionToClear ); |
| m_renderTargets[i]->state(( XGL_IMAGE_STATE ) transitionToClear.newState); |
| |
| xglCmdClearColorImageRaw( m_cmdBuffer, m_renderTargets[i]->image(), clearColor, 1, &srRange ); |
| } |
| |
| // prepare back buffer for rendering |
| XGL_IMAGE_STATE_TRANSITION transitionToRender = {}; |
| for (i = 0; i < m_renderTargetCount; i++) { |
| transitionToRender.image = m_renderTargets[i]->image(); |
| transitionToRender.oldState = m_renderTargets[i]->state(); |
| transitionToRender.newState = XGL_IMAGE_STATE_TARGET_RENDER_ACCESS_OPTIMAL; |
| transitionToRender.subresourceRange = srRange; |
| xglCmdPrepareImages( m_cmdBuffer, 1, &transitionToRender ); |
| m_renderTargets[i]->state(( XGL_IMAGE_STATE ) transitionToClear.newState); |
| } |
| } |
| |
| XglDescriptorSetObj::XglDescriptorSetObj(XglDevice *device) |
| { |
| m_device = device; |
| m_nextSlot = 0; |
| |
| } |
| |
| void XglDescriptorSetObj::AttachMemoryView(XglConstantBufferObj *constantBuffer) |
| { |
| m_memoryViews.push_back(&constantBuffer->m_constantBufferView); |
| m_memorySlots.push_back(m_nextSlot); |
| m_nextSlot++; |
| |
| } |
| |
| void XglDescriptorSetObj::AttachSampler(XglSamplerObj *sampler) |
| { |
| m_samplers.push_back(&sampler->m_sampler); |
| m_samplerSlots.push_back(m_nextSlot); |
| m_nextSlot++; |
| |
| } |
| |
| void XglDescriptorSetObj::AttachImageView(XglTextureObj *texture) |
| { |
| m_imageViews.push_back(&texture->m_textureViewInfo); |
| m_imageSlots.push_back(m_nextSlot); |
| m_nextSlot++; |
| |
| } |
| |
| XGL_DESCRIPTOR_SLOT_INFO* XglDescriptorSetObj::GetSlotInfo(vector<int>slots, |
| vector<XGL_DESCRIPTOR_SET_SLOT_TYPE>types, |
| vector<XGL_OBJECT>objs ) |
| { |
| int nSlots = m_memorySlots.size() + m_imageSlots.size() + m_samplerSlots.size(); |
| m_slotInfo = (XGL_DESCRIPTOR_SLOT_INFO*) malloc( nSlots * sizeof(XGL_DESCRIPTOR_SLOT_INFO) ); |
| memset(m_slotInfo,0,nSlots*sizeof(XGL_DESCRIPTOR_SLOT_INFO)); |
| |
| for (int i=0; i<nSlots; i++) |
| { |
| m_slotInfo[i].slotObjectType = XGL_SLOT_UNUSED; |
| } |
| |
| for (int i=0; i<slots.size(); i++) |
| { |
| for (int j=0; j<m_memorySlots.size(); j++) |
| { |
| if ( (XGL_OBJECT) m_memoryViews[j] == objs[i]) |
| { |
| m_slotInfo[m_memorySlots[j]].shaderEntityIndex = slots[i]; |
| m_slotInfo[m_memorySlots[j]].slotObjectType = types[i]; |
| } |
| } |
| for (int j=0; j<m_imageSlots.size(); j++) |
| { |
| if ( (XGL_OBJECT) m_imageViews[j] == objs[i]) |
| { |
| m_slotInfo[m_imageSlots[j]].shaderEntityIndex = slots[i]; |
| m_slotInfo[m_imageSlots[j]].slotObjectType = types[i]; |
| } |
| } |
| for (int j=0; j<m_samplerSlots.size(); j++) |
| { |
| if ( (XGL_OBJECT) m_samplers[j] == objs[i]) |
| { |
| m_slotInfo[m_samplerSlots[j]].shaderEntityIndex = slots[i]; |
| m_slotInfo[m_samplerSlots[j]].slotObjectType = types[i]; |
| } |
| } |
| } |
| |
| // for (int i=0;i<nSlots;i++) |
| // { |
| // printf("SlotInfo[%d]: Index = %d, Type = %d\n",i,m_slotInfo[i].shaderEntityIndex, m_slotInfo[i].slotObjectType); |
| // fflush(stdout); |
| // } |
| |
| return(m_slotInfo); |
| |
| } |
| |
| void XglDescriptorSetObj::BindCommandBuffer(XGL_CMD_BUFFER commandBuffer) |
| { |
| XGL_RESULT err; |
| |
| // Create descriptor set for a uniform resource |
| memset(&m_descriptorInfo,0,sizeof(m_descriptorInfo)); |
| m_descriptorInfo.sType = XGL_STRUCTURE_TYPE_DESCRIPTOR_SET_CREATE_INFO; |
| m_descriptorInfo.slots = m_nextSlot; |
| |
| // Create a descriptor set with requested number of slots |
| err = xglCreateDescriptorSet( m_device->device(), &m_descriptorInfo, &m_rsrcDescSet ); |
| ASSERT_XGL_SUCCESS(err); |
| |
| // Bind memory to the descriptor set |
| err = m_device->AllocAndBindGpuMemory(m_rsrcDescSet, "DescriptorSet", &m_descriptor_set_mem); |
| ASSERT_XGL_SUCCESS(err); |
| |
| xglBeginDescriptorSetUpdate( m_rsrcDescSet ); |
| xglClearDescriptorSetSlots(m_rsrcDescSet, 0, m_nextSlot); |
| for (int i=0; i<m_memoryViews.size();i++) |
| { |
| xglAttachMemoryViewDescriptors( m_rsrcDescSet, m_memorySlots[i], 1, m_memoryViews[i] ); |
| } |
| for (int i=0; i<m_samplers.size();i++) |
| { |
| xglAttachSamplerDescriptors( m_rsrcDescSet, m_samplerSlots[i], 1, m_samplers[i] ); |
| } |
| for (int i=0; i<m_imageViews.size();i++) |
| { |
| xglAttachImageViewDescriptors( m_rsrcDescSet, m_imageSlots[i], 1, m_imageViews[i] ); |
| } |
| xglEndDescriptorSetUpdate( m_rsrcDescSet ); |
| |
| // bind pipeline, vertex buffer (descriptor set) and WVP (dynamic memory view) |
| xglCmdBindDescriptorSet(commandBuffer, XGL_PIPELINE_BIND_POINT_GRAPHICS, 0, m_rsrcDescSet, 0 ); |
| } |
| |
| XglDescriptorSetObj::~XglDescriptorSetObj() |
| { |
| if (m_rsrcDescSet != XGL_NULL_HANDLE) xglDestroyObject(m_rsrcDescSet); |
| } |
| |
| XglTextureObj::XglTextureObj(XglDevice *device): |
| m_texture(XGL_NULL_HANDLE), |
| m_textureMem(XGL_NULL_HANDLE), |
| m_textureView(XGL_NULL_HANDLE) |
| { |
| m_device = device; |
| const XGL_FORMAT tex_format = { XGL_CH_FMT_B8G8R8A8, XGL_NUM_FMT_UNORM }; |
| m_texWidth = 16; |
| m_texHeight = 16; |
| const uint32_t tex_colors[2] = { 0xffff0000, 0xff00ff00 }; |
| XGL_RESULT err; |
| |
| memset(&m_textureViewInfo,0,sizeof(m_textureViewInfo)); |
| |
| m_textureViewInfo.sType = XGL_STRUCTURE_TYPE_IMAGE_VIEW_ATTACH_INFO; |
| |
| const XGL_IMAGE_CREATE_INFO image = { |
| .sType = XGL_STRUCTURE_TYPE_IMAGE_CREATE_INFO, |
| .pNext = NULL, |
| .imageType = XGL_IMAGE_2D, |
| .format = tex_format, |
| .extent = { m_texWidth, m_texHeight, 1 }, |
| .mipLevels = 1, |
| .arraySize = 1, |
| .samples = 1, |
| .tiling = XGL_LINEAR_TILING, |
| .usage = XGL_IMAGE_USAGE_SHADER_ACCESS_READ_BIT, |
| .flags = 0, |
| }; |
| |
| XGL_MEMORY_ALLOC_INFO mem_alloc; |
| mem_alloc.sType = XGL_STRUCTURE_TYPE_MEMORY_ALLOC_INFO; |
| mem_alloc.pNext = NULL; |
| mem_alloc.allocationSize = 0; |
| mem_alloc.alignment = 0; |
| mem_alloc.flags = 0; |
| mem_alloc.heapCount = 0; |
| mem_alloc.memPriority = XGL_MEMORY_PRIORITY_NORMAL; |
| |
| XGL_IMAGE_VIEW_CREATE_INFO view; |
| view.sType = XGL_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO; |
| view.pNext = NULL; |
| view.image = XGL_NULL_HANDLE; |
| view.viewType = XGL_IMAGE_VIEW_2D; |
| view.format = image.format; |
| view.channels.r = XGL_CHANNEL_SWIZZLE_R; |
| view.channels.g = XGL_CHANNEL_SWIZZLE_G; |
| view.channels.b = XGL_CHANNEL_SWIZZLE_B; |
| view.channels.a = XGL_CHANNEL_SWIZZLE_A; |
| view.subresourceRange.aspect = XGL_IMAGE_ASPECT_COLOR; |
| view.subresourceRange.baseMipLevel = 0; |
| view.subresourceRange.mipLevels = 1; |
| view.subresourceRange.baseArraySlice = 0; |
| view.subresourceRange.arraySize = 1; |
| view.minLod = 0.0f; |
| |
| XGL_MEMORY_REQUIREMENTS mem_reqs; |
| XGL_SIZE mem_reqs_size=sizeof(XGL_MEMORY_REQUIREMENTS); |
| |
| /* create image */ |
| err = xglCreateImage(m_device->device(), &image, &m_texture); |
| assert(!err); |
| |
| err = xglGetObjectInfo(m_texture, |
| XGL_INFO_TYPE_MEMORY_REQUIREMENTS, |
| &mem_reqs_size, &mem_reqs); |
| assert(!err && mem_reqs_size == sizeof(mem_reqs)); |
| |
| mem_alloc.allocationSize = mem_reqs.size; |
| mem_alloc.alignment = mem_reqs.alignment; |
| mem_alloc.heapCount = mem_reqs.heapCount; |
| memcpy(mem_alloc.heaps, mem_reqs.heaps, |
| sizeof(mem_reqs.heaps[0]) * mem_reqs.heapCount); |
| |
| /* allocate memory */ |
| err = xglAllocMemory(m_device->device(), &mem_alloc, &m_textureMem); |
| assert(!err); |
| |
| /* bind memory */ |
| err = xglBindObjectMemory(m_texture, m_textureMem, 0); |
| assert(!err); |
| |
| /* create image view */ |
| view.image = m_texture; |
| err = xglCreateImageView(m_device->device(), &view, &m_textureView); |
| assert(!err); |
| |
| |
| const XGL_IMAGE_SUBRESOURCE subres = { |
| .aspect = XGL_IMAGE_ASPECT_COLOR, |
| .mipLevel = 0, |
| .arraySlice = 0, |
| }; |
| XGL_SUBRESOURCE_LAYOUT layout; |
| XGL_SIZE layout_size=sizeof(layout); |
| XGL_VOID *data; |
| XGL_INT x, y; |
| |
| err = xglGetImageSubresourceInfo(m_texture, &subres, |
| XGL_INFO_TYPE_SUBRESOURCE_LAYOUT, &layout_size, &layout); |
| assert(!err && layout_size == sizeof(layout)); |
| m_rowPitch = layout.rowPitch; |
| |
| err = xglMapMemory(m_textureMem, 0, &data); |
| assert(!err); |
| |
| for (y = 0; y < m_texHeight; y++) { |
| uint32_t *row = (uint32_t *) ((char *) data + layout.rowPitch * y); |
| for (x = 0; x < m_texWidth; x++) |
| row[x] = tex_colors[(x & 1) ^ (y & 1)]; |
| } |
| |
| err = xglUnmapMemory(m_textureMem); |
| assert(!err); |
| |
| m_textureViewInfo.view = m_textureView; |
| |
| } |
| |
| XglTextureObj::~XglTextureObj() |
| { |
| if (m_texture != XGL_NULL_HANDLE) xglDestroyObject(m_texture); |
| } |
| |
| void XglTextureObj::ChangeColors(uint32_t color1, uint32_t color2) |
| { |
| XGL_RESULT err; |
| const uint32_t tex_colors[2] = { color1, color2 }; |
| XGL_VOID *data; |
| |
| err = xglMapMemory(m_textureMem, 0, &data); |
| assert(!err); |
| |
| for (int y = 0; y < m_texHeight; y++) { |
| uint32_t *row = (uint32_t *) ((char *) data + m_rowPitch * y); |
| for (int x = 0; x < m_texWidth; x++) |
| row[x] = tex_colors[(x & 1) ^ (y & 1)]; |
| } |
| |
| err = xglUnmapMemory(m_textureMem); |
| assert(!err); |
| } |
| |
| XglSamplerObj::XglSamplerObj(XglDevice *device) |
| { |
| XGL_RESULT err = XGL_SUCCESS; |
| |
| m_device = device; |
| memset(&m_samplerCreateInfo,0,sizeof(m_samplerCreateInfo)); |
| m_samplerCreateInfo.sType = XGL_STRUCTURE_TYPE_SAMPLER_CREATE_INFO; |
| m_samplerCreateInfo.magFilter = XGL_TEX_FILTER_NEAREST; |
| m_samplerCreateInfo.minFilter = XGL_TEX_FILTER_NEAREST; |
| m_samplerCreateInfo.mipMode = XGL_TEX_MIPMAP_BASE; |
| m_samplerCreateInfo.addressU = XGL_TEX_ADDRESS_WRAP; |
| m_samplerCreateInfo.addressV = XGL_TEX_ADDRESS_WRAP; |
| m_samplerCreateInfo.addressW = XGL_TEX_ADDRESS_WRAP; |
| m_samplerCreateInfo.mipLodBias = 0.0; |
| m_samplerCreateInfo.maxAnisotropy = 0.0; |
| m_samplerCreateInfo.compareFunc = XGL_COMPARE_NEVER; |
| m_samplerCreateInfo.minLod = 0.0; |
| m_samplerCreateInfo.maxLod = 0.0; |
| m_samplerCreateInfo.borderColorType = XGL_BORDER_COLOR_OPAQUE_WHITE; |
| |
| err = xglCreateSampler(m_device->device(),&m_samplerCreateInfo, &m_sampler); |
| assert(!err); |
| |
| } |
| |
| XglSamplerObj::~XglSamplerObj() |
| { |
| if (m_sampler != XGL_NULL_HANDLE) xglDestroyObject(m_sampler); |
| } |
| |
| /* |
| * Basic ConstantBuffer constructor. Then use create methods to fill in the details. |
| */ |
| XglConstantBufferObj::XglConstantBufferObj(XglDevice *device) |
| { |
| m_device = device; |
| m_commandBuffer = 0; |
| m_fence = 0; |
| |
| memset(&m_constantBufferView,0,sizeof(m_constantBufferView)); |
| memset(&m_constantBufferMem,0,sizeof(m_constantBufferMem)); |
| } |
| |
| XglConstantBufferObj::XglConstantBufferObj(XglDevice *device, int constantCount, int constantSize, const void* data) |
| { |
| XGL_RESULT err = XGL_SUCCESS; |
| XGL_UINT8 *pData; |
| XGL_MEMORY_ALLOC_INFO alloc_info = {}; |
| m_device = device; |
| m_numVertices = constantCount; |
| m_stride = constantSize; |
| |
| memset(&m_constantBufferView,0,sizeof(m_constantBufferView)); |
| memset(&m_constantBufferMem,0,sizeof(m_constantBufferMem)); |
| m_commandBuffer = 0; |
| m_fence = 0; |
| |
| alloc_info.sType = XGL_STRUCTURE_TYPE_MEMORY_ALLOC_INFO; |
| alloc_info.allocationSize = constantCount * constantSize; |
| alloc_info.alignment = 0; |
| alloc_info.heapCount = 1; |
| alloc_info.heaps[0] = 0; // TODO: Use known existing heap |
| |
| alloc_info.flags = XGL_MEMORY_HEAP_CPU_VISIBLE_BIT; |
| alloc_info.memPriority = XGL_MEMORY_PRIORITY_NORMAL; |
| |
| err = xglAllocMemory(m_device->device(), &alloc_info, &m_constantBufferMem); |
| assert(!err); |
| |
| err = xglMapMemory(m_constantBufferMem, 0, (XGL_VOID **) &pData); |
| assert(!err); |
| |
| memcpy(pData, data, alloc_info.allocationSize); |
| |
| err = xglUnmapMemory(m_constantBufferMem); |
| assert(!err); |
| |
| // set up the memory view for the constant buffer |
| this->m_constantBufferView.stride = 16; |
| this->m_constantBufferView.range = alloc_info.allocationSize; |
| this->m_constantBufferView.offset = 0; |
| this->m_constantBufferView.mem = m_constantBufferMem; |
| this->m_constantBufferView.format.channelFormat = XGL_CH_FMT_R32G32B32A32; |
| this->m_constantBufferView.format.numericFormat = XGL_NUM_FMT_FLOAT; |
| this->m_constantBufferView.state = XGL_MEMORY_STATE_DATA_TRANSFER; |
| } |
| |
| XglConstantBufferObj::~XglConstantBufferObj() |
| { |
| if (m_constantBufferMem != XGL_NULL_HANDLE) xglFreeMemory(m_constantBufferMem); |
| if (m_fence != XGL_NULL_HANDLE) xglDestroyObject(m_fence); |
| } |
| |
| void XglConstantBufferObj::Bind(XGL_CMD_BUFFER cmdBuffer, XGL_GPU_SIZE offset, XGL_UINT binding) |
| { |
| xglCmdBindVertexData(cmdBuffer, this->m_constantBufferMem, offset, binding); |
| } |
| |
| |
| void XglConstantBufferObj::SetMemoryState(XGL_MEMORY_STATE newState) |
| { |
| XGL_RESULT err = XGL_SUCCESS; |
| |
| if (this->m_constantBufferView.state == newState) |
| return; |
| |
| if (!m_commandBuffer) |
| { |
| XGL_FENCE_CREATE_INFO fence_info; |
| memset(&fence_info, 0, sizeof(fence_info)); |
| fence_info.sType = XGL_STRUCTURE_TYPE_FENCE_CREATE_INFO; |
| err = xglCreateFence(m_device->device(), &fence_info, &m_fence); |
| |
| m_commandBuffer = new XglCommandBufferObj(m_device); |
| |
| } |
| else |
| { |
| err = xglWaitForFences(m_device->device(), 1, &m_fence, XGL_TRUE, 0); |
| } |
| |
| // open the command buffer |
| err = m_commandBuffer->BeginCommandBuffer(0); |
| ASSERT_XGL_SUCCESS(err); |
| |
| XGL_MEMORY_STATE_TRANSITION transition = {}; |
| transition.mem = m_constantBufferMem; |
| transition.oldState = XGL_MEMORY_STATE_DATA_TRANSFER; |
| transition.newState = newState; |
| transition.offset = 0; |
| transition.regionSize = m_numVertices * m_stride; |
| |
| // write transition to the command buffer |
| m_commandBuffer->PrepareMemoryRegions(1, &transition); |
| this->m_constantBufferView.state = newState; |
| |
| // finish recording the command buffer |
| err = m_commandBuffer->EndCommandBuffer(); |
| ASSERT_XGL_SUCCESS(err); |
| |
| XGL_UINT32 numMemRefs=1; |
| XGL_MEMORY_REF memRefs; |
| // this command buffer only uses the vertex buffer memory |
| memRefs.flags = 0; |
| memRefs.mem = m_constantBufferMem; |
| |
| // submit the command buffer to the universal queue |
| XGL_CMD_BUFFER bufferArray[1]; |
| bufferArray[0] = m_commandBuffer->GetBufferHandle(); |
| err = xglQueueSubmit( m_device->m_queue, 1, bufferArray, numMemRefs, &memRefs, m_fence ); |
| ASSERT_XGL_SUCCESS(err); |
| } |
| |
| XglIndexBufferObj::XglIndexBufferObj(XglDevice *device) |
| : XglConstantBufferObj(device) |
| { |
| |
| } |
| |
| void XglIndexBufferObj::CreateAndInitBuffer(int numIndexes, XGL_INDEX_TYPE indexType, const void* data) |
| { |
| XGL_RESULT err = XGL_SUCCESS; |
| XGL_UINT8 *pData; |
| XGL_MEMORY_ALLOC_INFO alloc_info = {}; |
| XGL_FORMAT viewFormat; |
| |
| m_numVertices = numIndexes; |
| m_indexType = indexType; |
| viewFormat.numericFormat = XGL_NUM_FMT_UINT; |
| switch (indexType) { |
| case XGL_INDEX_8: |
| m_stride = 1; |
| viewFormat.channelFormat = XGL_CH_FMT_R8; |
| break; |
| case XGL_INDEX_16: |
| m_stride = 2; |
| viewFormat.channelFormat = XGL_CH_FMT_R16; |
| break; |
| case XGL_INDEX_32: |
| m_stride = 4; |
| viewFormat.channelFormat = XGL_CH_FMT_R32; |
| break; |
| default: |
| assert(!"unknown index type"); |
| break; |
| } |
| |
| alloc_info.sType = XGL_STRUCTURE_TYPE_MEMORY_ALLOC_INFO; |
| alloc_info.allocationSize = numIndexes * m_stride; |
| alloc_info.alignment = 0; |
| alloc_info.heapCount = 1; |
| alloc_info.heaps[0] = 0; // TODO: Use known existing heap |
| |
| alloc_info.flags = XGL_MEMORY_HEAP_CPU_VISIBLE_BIT; |
| alloc_info.memPriority = XGL_MEMORY_PRIORITY_NORMAL; |
| |
| err = xglAllocMemory(m_device->device(), &alloc_info, &m_constantBufferMem); |
| ASSERT_XGL_SUCCESS(err); |
| |
| err = xglMapMemory(m_constantBufferMem, 0, (XGL_VOID **) &pData); |
| ASSERT_XGL_SUCCESS(err); |
| |
| memcpy(pData, data, alloc_info.allocationSize); |
| |
| err = xglUnmapMemory(m_constantBufferMem); |
| ASSERT_XGL_SUCCESS(err); |
| |
| // set up the memory view for the constant buffer |
| this->m_constantBufferView.stride = m_stride; |
| this->m_constantBufferView.range = alloc_info.allocationSize; |
| this->m_constantBufferView.offset = 0; |
| this->m_constantBufferView.mem = m_constantBufferMem; |
| this->m_constantBufferView.format.channelFormat = viewFormat.channelFormat; |
| this->m_constantBufferView.format.numericFormat = viewFormat.numericFormat; |
| this->m_constantBufferView.state = XGL_MEMORY_STATE_DATA_TRANSFER; |
| } |
| |
| void XglIndexBufferObj::Bind(XGL_CMD_BUFFER cmdBuffer, XGL_GPU_SIZE offset) |
| { |
| xglCmdBindIndexData(cmdBuffer, this->m_constantBufferMem, offset, m_indexType); |
| } |
| |
| XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* XglShaderObj::GetStageCreateInfo(XglDescriptorSetObj *descriptorSet) |
| { |
| XGL_DESCRIPTOR_SLOT_INFO *slotInfo; |
| XGL_PIPELINE_SHADER_STAGE_CREATE_INFO *stageInfo = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*) calloc( 1,sizeof(XGL_PIPELINE_SHADER_STAGE_CREATE_INFO) ); |
| stageInfo->sType = XGL_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO; |
| stageInfo->shader.stage = m_stage; |
| stageInfo->shader.shader = m_shader; |
| stageInfo->shader.descriptorSetMapping[0].descriptorCount = 0; |
| stageInfo->shader.linkConstBufferCount = 0; |
| stageInfo->shader.pLinkConstBufferInfo = XGL_NULL_HANDLE; |
| stageInfo->shader.dynamicMemoryViewMapping.slotObjectType = XGL_SLOT_UNUSED; |
| stageInfo->shader.dynamicMemoryViewMapping.shaderEntityIndex = 0; |
| |
| stageInfo->shader.descriptorSetMapping[0].descriptorCount = m_memSlots.size() + m_imageSlots.size() + m_samplerSlots.size(); |
| if (stageInfo->shader.descriptorSetMapping[0].descriptorCount) |
| { |
| vector<int> allSlots; |
| vector<XGL_DESCRIPTOR_SET_SLOT_TYPE> allTypes; |
| vector<XGL_OBJECT> allObjs; |
| |
| allSlots.reserve(m_memSlots.size() + m_imageSlots.size() + m_samplerSlots.size()); |
| allTypes.reserve(m_memTypes.size() + m_imageTypes.size() + m_samplerTypes.size()); |
| allObjs.reserve(m_memObjs.size() + m_imageObjs.size() + m_samplerObjs.size()); |
| |
| if (m_memSlots.size()) |
| { |
| allSlots.insert(allSlots.end(), m_memSlots.begin(), m_memSlots.end()); |
| allTypes.insert(allTypes.end(), m_memTypes.begin(), m_memTypes.end()); |
| allObjs.insert(allObjs.end(), m_memObjs.begin(), m_memObjs.end()); |
| } |
| if (m_imageSlots.size()) |
| { |
| allSlots.insert(allSlots.end(), m_imageSlots.begin(), m_imageSlots.end()); |
| allTypes.insert(allTypes.end(), m_imageTypes.begin(), m_imageTypes.end()); |
| allObjs.insert(allObjs.end(), m_imageObjs.begin(), m_imageObjs.end()); |
| } |
| if (m_samplerSlots.size()) |
| { |
| allSlots.insert(allSlots.end(), m_samplerSlots.begin(), m_samplerSlots.end()); |
| allTypes.insert(allTypes.end(), m_samplerTypes.begin(), m_samplerTypes.end()); |
| allObjs.insert(allObjs.end(), m_samplerObjs.begin(), m_samplerObjs.end()); |
| } |
| |
| slotInfo = descriptorSet->GetSlotInfo(allSlots, allTypes, allObjs); |
| stageInfo->shader.descriptorSetMapping[0].pDescriptorInfo = (const XGL_DESCRIPTOR_SLOT_INFO*) slotInfo; |
| } |
| return stageInfo; |
| } |
| |
| void XglShaderObj::BindShaderEntitySlotToMemory(int slot, XGL_DESCRIPTOR_SET_SLOT_TYPE type, XglConstantBufferObj *constantBuffer) |
| { |
| m_memSlots.push_back(slot); |
| m_memTypes.push_back(type); |
| m_memObjs.push_back((XGL_OBJECT) &constantBuffer->m_constantBufferView); |
| |
| } |
| |
| void XglShaderObj::BindShaderEntitySlotToImage(int slot, XGL_DESCRIPTOR_SET_SLOT_TYPE type, XglTextureObj *texture) |
| { |
| m_imageSlots.push_back(slot); |
| m_imageTypes.push_back(type); |
| m_imageObjs.push_back((XGL_OBJECT) &texture->m_textureViewInfo); |
| |
| } |
| |
| void XglShaderObj::BindShaderEntitySlotToSampler(int slot, XglSamplerObj *sampler) |
| { |
| m_samplerSlots.push_back(slot); |
| m_samplerTypes.push_back(XGL_SLOT_SHADER_SAMPLER); |
| m_samplerObjs.push_back(sampler->m_sampler); |
| |
| } |
| |
| XglShaderObj::XglShaderObj(XglDevice *device, const char * shader_code, XGL_PIPELINE_SHADER_STAGE stage, XglRenderFramework *framework) |
| { |
| XGL_RESULT err = XGL_SUCCESS; |
| std::vector<unsigned int> bil; |
| XGL_SHADER_CREATE_INFO createInfo; |
| size_t shader_len; |
| |
| m_stage = stage; |
| m_device = device; |
| |
| createInfo.sType = XGL_STRUCTURE_TYPE_SHADER_CREATE_INFO; |
| createInfo.pNext = NULL; |
| |
| if (!framework->m_use_bil) { |
| |
| shader_len = strlen(shader_code); |
| createInfo.codeSize = 3 * sizeof(uint32_t) + shader_len + 1; |
| createInfo.pCode = malloc(createInfo.codeSize); |
| createInfo.flags = 0; |
| |
| /* try version 0 first: XGL_PIPELINE_SHADER_STAGE followed by GLSL */ |
| ((uint32_t *) createInfo.pCode)[0] = ICD_BIL_MAGIC; |
| ((uint32_t *) createInfo.pCode)[1] = 0; |
| ((uint32_t *) createInfo.pCode)[2] = stage; |
| memcpy(((uint32_t *) createInfo.pCode + 3), shader_code, shader_len + 1); |
| |
| err = xglCreateShader(m_device->device(), &createInfo, &m_shader); |
| if (err) { |
| free((void *) createInfo.pCode); |
| } |
| } |
| |
| if (framework->m_use_bil || err) { |
| std::vector<unsigned int> bil; |
| err = XGL_SUCCESS; |
| |
| // Use Reference GLSL to BIL compiler |
| framework->GLSLtoBIL(stage, shader_code, bil); |
| createInfo.pCode = bil.data(); |
| createInfo.codeSize = bil.size() * sizeof(unsigned int); |
| createInfo.flags = 0; |
| err = xglCreateShader(m_device->device(), &createInfo, &m_shader); |
| assert(!err); |
| } |
| } |
| |
| XglShaderObj::~XglShaderObj() |
| { |
| if (m_shader != XGL_NULL_HANDLE) xglDestroyObject(m_shader); |
| } |
| |
| XglPipelineObj::XglPipelineObj(XglDevice *device) |
| { |
| m_device = device; |
| m_vi_state.attributeCount = m_vi_state.bindingCount = 0; |
| m_vertexBufferCount = 0; |
| |
| m_ia_state.sType = XGL_STRUCTURE_TYPE_PIPELINE_IA_STATE_CREATE_INFO; |
| m_ia_state.pNext = XGL_NULL_HANDLE; |
| m_ia_state.topology = XGL_TOPOLOGY_TRIANGLE_LIST; |
| m_ia_state.disableVertexReuse = XGL_FALSE; |
| m_ia_state.provokingVertex = XGL_PROVOKING_VERTEX_LAST; |
| m_ia_state.primitiveRestartEnable = XGL_FALSE; |
| m_ia_state.primitiveRestartIndex = 0; |
| |
| m_rs_state.sType = XGL_STRUCTURE_TYPE_PIPELINE_RS_STATE_CREATE_INFO; |
| m_rs_state.pNext = &m_ia_state; |
| m_rs_state.depthClipEnable = XGL_FALSE; |
| m_rs_state.rasterizerDiscardEnable = XGL_FALSE; |
| m_rs_state.pointSize = 1.0; |
| |
| memset(&m_cb_state,0,sizeof(m_cb_state)); |
| m_cb_state.sType = XGL_STRUCTURE_TYPE_PIPELINE_CB_STATE_CREATE_INFO; |
| m_cb_state.pNext = &m_rs_state; |
| m_cb_state.alphaToCoverageEnable = XGL_FALSE; |
| m_cb_state.dualSourceBlendEnable = XGL_FALSE; |
| m_cb_state.logicOp = XGL_LOGIC_OP_COPY; |
| |
| m_cb_state.attachment[0].blendEnable = XGL_FALSE; |
| m_cb_state.attachment[0].format.channelFormat = XGL_CH_FMT_R8G8B8A8; |
| m_cb_state.attachment[0].format.numericFormat = XGL_NUM_FMT_UNORM; |
| m_cb_state.attachment[0].channelWriteMask = 0xF; |
| |
| m_db_state.sType = XGL_STRUCTURE_TYPE_PIPELINE_DB_STATE_CREATE_INFO, |
| m_db_state.pNext = &m_cb_state, |
| m_db_state.format.channelFormat = XGL_CH_FMT_R32; |
| m_db_state.format.numericFormat = XGL_NUM_FMT_DS; |
| |
| |
| }; |
| |
| void XglPipelineObj::AddShader(XglShaderObj* shader) |
| { |
| m_shaderObjs.push_back(shader); |
| } |
| |
| void XglPipelineObj::AddVertexInputAttribs(XGL_VERTEX_INPUT_ATTRIBUTE_DESCRIPTION* vi_attrib, int count) |
| { |
| m_vi_state.pVertexAttributeDescriptions = vi_attrib; |
| m_vi_state.attributeCount = count; |
| } |
| |
| void XglPipelineObj::AddVertexInputBindings(XGL_VERTEX_INPUT_BINDING_DESCRIPTION* vi_binding, int count) |
| { |
| m_vi_state.pVertexBindingDescriptions = vi_binding; |
| m_vi_state.bindingCount = count; |
| } |
| |
| void XglPipelineObj::AddVertexDataBuffer(XglConstantBufferObj* vertexDataBuffer, int binding) |
| { |
| m_vertexBufferObjs.push_back(vertexDataBuffer); |
| m_vertexBufferBindings.push_back(binding); |
| m_vertexBufferCount++; |
| } |
| |
| void XglPipelineObj::SetColorAttachment(XGL_UINT binding, const XGL_PIPELINE_CB_ATTACHMENT_STATE *att) |
| { |
| m_cb_state.attachment[binding] = *att; |
| } |
| |
| void XglPipelineObj::BindPipelineCommandBuffer(XGL_CMD_BUFFER m_cmdBuffer, XglDescriptorSetObj *descriptorSet) |
| { |
| XGL_RESULT err; |
| XGL_VOID* head_ptr = &m_db_state; |
| XGL_GRAPHICS_PIPELINE_CREATE_INFO info = {}; |
| |
| XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* shaderCreateInfo; |
| |
| for (int i=0; i<m_shaderObjs.size(); i++) |
| { |
| shaderCreateInfo = m_shaderObjs[i]->GetStageCreateInfo(descriptorSet); |
| shaderCreateInfo->pNext = head_ptr; |
| head_ptr = shaderCreateInfo; |
| } |
| |
| if (m_vi_state.attributeCount && m_vi_state.bindingCount) |
| { |
| m_vi_state.sType = XGL_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_CREATE_INFO; |
| m_vi_state.pNext = head_ptr; |
| head_ptr = &m_vi_state; |
| } |
| |
| info.sType = XGL_STRUCTURE_TYPE_GRAPHICS_PIPELINE_CREATE_INFO; |
| info.pNext = head_ptr; |
| info.flags = 0; |
| |
| err = xglCreateGraphicsPipeline(m_device->device(), &info, &m_pipeline); |
| assert(!err); |
| |
| err = m_device->AllocAndBindGpuMemory(m_pipeline, "Pipeline", &m_pipe_mem); |
| assert(!err); |
| |
| xglCmdBindPipeline( m_cmdBuffer, XGL_PIPELINE_BIND_POINT_GRAPHICS, m_pipeline ); |
| |
| |
| for (int i=0; i < m_vertexBufferCount; i++) |
| { |
| m_vertexBufferObjs[i]->Bind(m_cmdBuffer, m_vertexBufferObjs[i]->m_constantBufferView.offset, m_vertexBufferBindings[i]); |
| } |
| } |
| |
| XglPipelineObj::~XglPipelineObj() |
| { |
| if (m_pipeline != XGL_NULL_HANDLE) xglDestroyObject(m_pipeline); |
| } |
| |
| XglMemoryRefManager::XglMemoryRefManager() { |
| |
| } |
| |
| void XglMemoryRefManager::AddMemoryRef(XglConstantBufferObj *constantBuffer) { |
| m_bufferObjs.push_back(&constantBuffer->m_constantBufferMem); |
| } |
| |
| void XglMemoryRefManager::AddMemoryRef(XglTextureObj *texture) { |
| m_bufferObjs.push_back(&texture->m_textureMem); |
| } |
| |
| XGL_MEMORY_REF* XglMemoryRefManager::GetMemoryRefList() { |
| |
| XGL_MEMORY_REF *localRefs; |
| XGL_UINT32 numRefs=m_bufferObjs.size(); |
| |
| if (numRefs <= 0) |
| return NULL; |
| |
| localRefs = (XGL_MEMORY_REF*) malloc( numRefs * sizeof(XGL_MEMORY_REF) ); |
| for (int i=0; i<numRefs; i++) |
| { |
| localRefs[i].flags = 0; |
| localRefs[i].mem = *m_bufferObjs[i]; |
| } |
| return localRefs; |
| } |
| int XglMemoryRefManager::GetNumRefs() { |
| return m_bufferObjs.size(); |
| } |
| |
| XglCommandBufferObj::XglCommandBufferObj(XglDevice *device) |
| { |
| XGL_RESULT err; |
| |
| memset(&m_cmdInfo,0,sizeof(m_cmdInfo)); |
| |
| m_device = device; |
| m_cmdInfo.sType = XGL_STRUCTURE_TYPE_CMD_BUFFER_CREATE_INFO; |
| m_cmdInfo.queueType = XGL_QUEUE_TYPE_GRAPHICS; |
| err = xglCreateCommandBuffer(m_device->device(), &m_cmdInfo, &m_cmdBuffer); |
| assert(!err); |
| } |
| |
| XGL_CMD_BUFFER XglCommandBufferObj::GetBufferHandle() |
| { |
| return m_cmdBuffer; |
| } |
| |
| XGL_RESULT XglCommandBufferObj::BeginCommandBuffer(XGL_FLAGS flags) |
| { |
| return xglBeginCommandBuffer(m_cmdBuffer, flags); |
| } |
| |
| XGL_RESULT XglCommandBufferObj::EndCommandBuffer() |
| { |
| return xglEndCommandBuffer(m_cmdBuffer); |
| } |
| |
| void XglCommandBufferObj::PrepareMemoryRegions(int transitionCount, XGL_MEMORY_STATE_TRANSITION *transitionPtr) |
| { |
| xglCmdPrepareMemoryRegions(m_cmdBuffer, transitionCount, transitionPtr); |
| } |
| |
| XglCommandBufferObj::~XglCommandBufferObj() |
| { |
| if (m_cmdBuffer != XGL_NULL_HANDLE) xglDestroyObject(m_cmdBuffer); |
| } |