RetroArch/gfx/common/d3d10_common.h

1149 lines
42 KiB
C

/* RetroArch - A frontend for libretro.
* Copyright (C) 2014-2018 - Ali Bouhlel
*
* RetroArch is free software: you can redistribute it and/or modify it under the terms
* of the GNU General Public License as published by the Free Software Found-
* ation, either version 3 of the License, or (at your option) any later version.
*
* RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with RetroArch.
* If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#ifdef __MINGW32__
#define __REQUIRED_RPCNDR_H_VERSION__ 475
#define _In_
#define _In_opt_
#define _Null_
#define _Out_writes_bytes_opt_(s)
#define _Inout_opt_bytecount_(s)
#endif
#define CINTERFACE
#define COBJMACROS
#if 0
#ifdef __GNUC__
#define WIDL_C_INLINE_WRAPPERS
#include <_mingw.h>
#undef __forceinline
#define __forceinline inline __attribute__((__always_inline__))
#endif
#endif
#include <d3d10.h>
#include "dxgi_common.h"
#ifndef countof
#define countof(a) (sizeof(a) / sizeof(*a))
#endif
#ifndef __uuidof
#define __uuidof(type) & IID_##type
#endif
#ifndef COM_RELEASE_DECLARED
#define COM_RELEASE_DECLARED
#if defined(__cplusplus) && !defined(CINTERFACE)
static inline ULONG Release(IUnknown* object)
{
if (object)
return object->Release();
return 0;
}
#else
static inline ULONG Release(void* object)
{
if (object)
return ((IUnknown*)object)->lpVtbl->Release(object);
return 0;
}
#endif
#endif
typedef ID3D10InputLayout* D3D10InputLayout;
typedef ID3D10RasterizerState* D3D10RasterizerState;
typedef ID3D10DepthStencilState* D3D10DepthStencilState;
typedef ID3D10BlendState* D3D10BlendState;
typedef ID3D10PixelShader* D3D10PixelShader;
typedef ID3D10SamplerState* D3D10SamplerState;
typedef ID3D10VertexShader* D3D10VertexShader;
typedef ID3D10GeometryShader* D3D10GeometryShader;
/* auto-generated */
typedef ID3DDestructionNotifier* D3DDestructionNotifier;
typedef ID3D10Resource* D3D10Resource;
typedef ID3D10Buffer* D3D10Buffer;
typedef ID3D10Texture1D* D3D10Texture1D;
typedef ID3D10Texture2D* D3D10Texture2D;
typedef ID3D10Texture3D* D3D10Texture3D;
typedef ID3D10View* D3D10View;
typedef ID3D10ShaderResourceView* D3D10ShaderResourceView;
typedef ID3D10RenderTargetView* D3D10RenderTargetView;
typedef ID3D10DepthStencilView* D3D10DepthStencilView;
typedef ID3D10Asynchronous* D3D10Asynchronous;
typedef ID3D10Query* D3D10Query;
typedef ID3D10Predicate* D3D10Predicate;
typedef ID3D10Counter* D3D10Counter;
typedef ID3D10Device* D3D10Device;
typedef ID3D10Multithread* D3D10Multithread;
typedef ID3D10Debug* D3D10Debug;
typedef ID3D10SwitchToRef* D3D10SwitchToRef;
typedef ID3D10InfoQueue* D3D10InfoQueue;
static inline void D3D10SetResourceEvictionPriority(D3D10Resource resource, UINT eviction_priority)
{
resource->lpVtbl->SetEvictionPriority(resource, eviction_priority);
}
static inline UINT D3D10GetResourceEvictionPriority(D3D10Resource resource)
{
return resource->lpVtbl->GetEvictionPriority(resource);
}
static inline void D3D10SetBufferEvictionPriority(D3D10Buffer buffer, UINT eviction_priority)
{
buffer->lpVtbl->SetEvictionPriority(buffer, eviction_priority);
}
static inline UINT D3D10GetBufferEvictionPriority(D3D10Buffer buffer)
{
return buffer->lpVtbl->GetEvictionPriority(buffer);
}
static inline HRESULT
D3D10MapBuffer(D3D10Buffer buffer, D3D10_MAP map_type, UINT map_flags, void** data)
{
return buffer->lpVtbl->Map(buffer, map_type, map_flags, data);
}
static inline void D3D10UnmapBuffer(D3D10Buffer buffer) { buffer->lpVtbl->Unmap(buffer); }
static inline void
D3D10SetTexture1DEvictionPriority(D3D10Texture1D texture1d, UINT eviction_priority)
{
texture1d->lpVtbl->SetEvictionPriority(texture1d, eviction_priority);
}
static inline UINT D3D10GetTexture1DEvictionPriority(D3D10Texture1D texture1d)
{
return texture1d->lpVtbl->GetEvictionPriority(texture1d);
}
static inline HRESULT D3D10MapTexture1D(
D3D10Texture1D texture1d, UINT subresource, D3D10_MAP map_type, UINT map_flags, void** data)
{
return texture1d->lpVtbl->Map(texture1d, subresource, map_type, map_flags, data);
}
static inline void D3D10UnmapTexture1D(D3D10Texture1D texture1d, UINT subresource)
{
texture1d->lpVtbl->Unmap(texture1d, subresource);
}
static inline void
D3D10SetTexture2DEvictionPriority(D3D10Texture2D texture2d, UINT eviction_priority)
{
texture2d->lpVtbl->SetEvictionPriority(texture2d, eviction_priority);
}
static inline UINT D3D10GetTexture2DEvictionPriority(D3D10Texture2D texture2d)
{
return texture2d->lpVtbl->GetEvictionPriority(texture2d);
}
static inline HRESULT D3D10MapTexture2D(
D3D10Texture2D texture2d,
UINT subresource,
D3D10_MAP map_type,
UINT map_flags,
D3D10_MAPPED_TEXTURE2D* mapped_tex2d)
{
return texture2d->lpVtbl->Map(texture2d, subresource, map_type, map_flags, mapped_tex2d);
}
static inline void D3D10UnmapTexture2D(D3D10Texture2D texture2d, UINT subresource)
{
texture2d->lpVtbl->Unmap(texture2d, subresource);
}
static inline void
D3D10SetTexture3DEvictionPriority(D3D10Texture3D texture3d, UINT eviction_priority)
{
texture3d->lpVtbl->SetEvictionPriority(texture3d, eviction_priority);
}
static inline UINT D3D10GetTexture3DEvictionPriority(D3D10Texture3D texture3d)
{
return texture3d->lpVtbl->GetEvictionPriority(texture3d);
}
static inline HRESULT D3D10MapTexture3D(
D3D10Texture3D texture3d,
UINT subresource,
D3D10_MAP map_type,
UINT map_flags,
D3D10_MAPPED_TEXTURE3D* mapped_tex3d)
{
return texture3d->lpVtbl->Map(texture3d, subresource, map_type, map_flags, mapped_tex3d);
}
static inline void D3D10UnmapTexture3D(D3D10Texture3D texture3d, UINT subresource)
{
texture3d->lpVtbl->Unmap(texture3d, subresource);
}
static inline void D3D10GetViewResource(D3D10View view, D3D10Resource* resource)
{
view->lpVtbl->GetResource(view, resource);
}
static inline void D3D10GetShaderResourceViewResource(
D3D10ShaderResourceView shader_resource_view, D3D10Resource* resource)
{
shader_resource_view->lpVtbl->GetResource(shader_resource_view, resource);
}
static inline void
D3D10GetRenderTargetViewResource(D3D10RenderTargetView render_target_view, D3D10Resource* resource)
{
render_target_view->lpVtbl->GetResource(render_target_view, resource);
}
static inline void
D3D10GetDepthStencilViewResource(D3D10DepthStencilView depth_stencil_view, D3D10Resource* resource)
{
depth_stencil_view->lpVtbl->GetResource(depth_stencil_view, resource);
}
static inline void D3D10BeginAsynchronous(D3D10Asynchronous asynchronous)
{
asynchronous->lpVtbl->Begin(asynchronous);
}
static inline void D3D10EndAsynchronous(D3D10Asynchronous asynchronous)
{
asynchronous->lpVtbl->End(asynchronous);
}
static inline HRESULT D3D10GetAsynchronousData(
D3D10Asynchronous asynchronous, void* data, UINT data_size, UINT get_data_flags)
{
return asynchronous->lpVtbl->GetData(asynchronous, data, data_size, get_data_flags);
}
static inline UINT D3D10GetAsynchronousDataSize(D3D10Asynchronous asynchronous)
{
return asynchronous->lpVtbl->GetDataSize(asynchronous);
}
static inline void D3D10BeginQuery(D3D10Query query) { query->lpVtbl->Begin(query); }
static inline void D3D10EndQuery(D3D10Query query) { query->lpVtbl->End(query); }
static inline HRESULT
D3D10GetQueryData(D3D10Query query, void* data, UINT data_size, UINT get_data_flags)
{
return query->lpVtbl->GetData(query, data, data_size, get_data_flags);
}
static inline UINT D3D10GetQueryDataSize(D3D10Query query)
{
return query->lpVtbl->GetDataSize(query);
}
static inline void D3D10BeginPredicate(D3D10Predicate predicate)
{
predicate->lpVtbl->Begin(predicate);
}
static inline void D3D10EndPredicate(D3D10Predicate predicate)
{
predicate->lpVtbl->End(predicate);
}
static inline HRESULT
D3D10GetPredicateData(D3D10Predicate predicate, void* data, UINT data_size, UINT get_data_flags)
{
return predicate->lpVtbl->GetData(predicate, data, data_size, get_data_flags);
}
static inline UINT D3D10GetPredicateDataSize(D3D10Predicate predicate)
{
return predicate->lpVtbl->GetDataSize(predicate);
}
static inline void D3D10BeginCounter(D3D10Counter counter) { counter->lpVtbl->Begin(counter); }
static inline void D3D10EndCounter(D3D10Counter counter) { counter->lpVtbl->End(counter); }
static inline HRESULT
D3D10GetCounterData(D3D10Counter counter, void* data, UINT data_size, UINT get_data_flags)
{
return counter->lpVtbl->GetData(counter, data, data_size, get_data_flags);
}
static inline UINT D3D10GetCounterDataSize(D3D10Counter counter)
{
return counter->lpVtbl->GetDataSize(counter);
}
static inline void D3D10SetVShaderConstantBuffers(
D3D10Device device, UINT start_slot, UINT num_buffers, D3D10Buffer* const constant_buffers)
{
device->lpVtbl->VSSetConstantBuffers(device, start_slot, num_buffers, constant_buffers);
}
static inline void D3D10SetPShaderResources(
D3D10Device device,
UINT start_slot,
UINT num_views,
D3D10ShaderResourceView* const shader_resource_views)
{
device->lpVtbl->PSSetShaderResources(device, start_slot, num_views, shader_resource_views);
}
static inline void D3D10SetPShader(D3D10Device device, D3D10PixelShader pixel_shader)
{
device->lpVtbl->PSSetShader(device, pixel_shader);
}
static inline void D3D10SetPShaderSamplers(
D3D10Device device, UINT start_slot, UINT num_samplers, D3D10SamplerState* const samplers)
{
device->lpVtbl->PSSetSamplers(device, start_slot, num_samplers, samplers);
}
static inline void D3D10SetVShader(D3D10Device device, D3D10VertexShader vertex_shader)
{
device->lpVtbl->VSSetShader(device, vertex_shader);
}
static inline void D3D10DrawIndexed(
D3D10Device device, UINT index_count, UINT start_index_location, INT base_vertex_location)
{
device->lpVtbl->DrawIndexed(device, index_count, start_index_location, base_vertex_location);
}
static inline void D3D10Draw(D3D10Device device, UINT vertex_count, UINT start_vertex_location)
{
device->lpVtbl->Draw(device, vertex_count, start_vertex_location);
}
static inline void D3D10SetPShaderConstantBuffers(
D3D10Device device, UINT start_slot, UINT num_buffers, D3D10Buffer* const constant_buffers)
{
device->lpVtbl->PSSetConstantBuffers(device, start_slot, num_buffers, constant_buffers);
}
static inline void D3D10SetInputLayout(D3D10Device device, D3D10InputLayout input_layout)
{
device->lpVtbl->IASetInputLayout(device, input_layout);
}
static inline void D3D10SetVertexBuffers(
D3D10Device device,
UINT start_slot,
UINT num_buffers,
D3D10Buffer* const vertex_buffers,
UINT* strides,
UINT* offsets)
{
device->lpVtbl->IASetVertexBuffers(
device, start_slot, num_buffers, vertex_buffers, strides, offsets);
}
static inline void
D3D10SetIndexBuffer(D3D10Device device, D3D10Buffer index_buffer, DXGI_FORMAT format, UINT offset)
{
device->lpVtbl->IASetIndexBuffer(device, index_buffer, format, offset);
}
static inline void D3D10DrawIndexedInstanced(
D3D10Device device,
UINT index_count_per_instance,
UINT instance_count,
UINT start_index_location,
INT base_vertex_location,
UINT start_instance_location)
{
device->lpVtbl->DrawIndexedInstanced(
device, index_count_per_instance, instance_count, start_index_location,
base_vertex_location, start_instance_location);
}
static inline void D3D10DrawInstanced(
D3D10Device device,
UINT vertex_count_per_instance,
UINT instance_count,
UINT start_vertex_location,
UINT start_instance_location)
{
device->lpVtbl->DrawInstanced(
device, vertex_count_per_instance, instance_count, start_vertex_location,
start_instance_location);
}
static inline void D3D10SetGShaderConstantBuffers(
D3D10Device device, UINT start_slot, UINT num_buffers, D3D10Buffer* const constant_buffers)
{
device->lpVtbl->GSSetConstantBuffers(device, start_slot, num_buffers, constant_buffers);
}
static inline void D3D10SetGShader(D3D10Device device, D3D10GeometryShader shader)
{
device->lpVtbl->GSSetShader(device, shader);
}
static inline void D3D10SetPrimitiveTopology(D3D10Device device, D3D10_PRIMITIVE_TOPOLOGY topology)
{
device->lpVtbl->IASetPrimitiveTopology(device, topology);
}
static inline void D3D10SetVShaderResources(
D3D10Device device,
UINT start_slot,
UINT num_views,
D3D10ShaderResourceView* const shader_resource_views)
{
device->lpVtbl->VSSetShaderResources(device, start_slot, num_views, shader_resource_views);
}
static inline void D3D10SetVShaderSamplers(
D3D10Device device, UINT start_slot, UINT num_samplers, D3D10SamplerState* const samplers)
{
device->lpVtbl->VSSetSamplers(device, start_slot, num_samplers, samplers);
}
static inline void
D3D10SetPredication(D3D10Device device, D3D10Predicate predicate, BOOL predicate_value)
{
device->lpVtbl->SetPredication(device, predicate, predicate_value);
}
static inline void D3D10SetGShaderResources(
D3D10Device device,
UINT start_slot,
UINT num_views,
D3D10ShaderResourceView* const shader_resource_views)
{
device->lpVtbl->GSSetShaderResources(device, start_slot, num_views, shader_resource_views);
}
static inline void D3D10SetGShaderSamplers(
D3D10Device device, UINT start_slot, UINT num_samplers, D3D10SamplerState* const samplers)
{
device->lpVtbl->GSSetSamplers(device, start_slot, num_samplers, samplers);
}
static inline void D3D10SetRenderTargets(
D3D10Device device,
UINT num_views,
D3D10RenderTargetView* const render_target_views,
D3D10DepthStencilView depth_stencil_view)
{
device->lpVtbl->OMSetRenderTargets(device, num_views, render_target_views, depth_stencil_view);
}
static inline void D3D10SetBlendState(
D3D10Device device, D3D10BlendState blend_state, FLOAT blend_factor[4], UINT sample_mask)
{
device->lpVtbl->OMSetBlendState(device, blend_state, blend_factor, sample_mask);
}
static inline void D3D10SetDepthStencilState(
D3D10Device device, D3D10DepthStencilState depth_stencil_state, UINT stencil_ref)
{
device->lpVtbl->OMSetDepthStencilState(device, depth_stencil_state, stencil_ref);
}
static inline void
D3D10SOSetTargets(D3D10Device device, UINT num_buffers, D3D10Buffer* const sotargets, UINT* offsets)
{
device->lpVtbl->SOSetTargets(device, num_buffers, sotargets, offsets);
}
static inline void D3D10DrawAuto(D3D10Device device) { device->lpVtbl->DrawAuto(device); }
static inline void D3D10SetState(D3D10Device device, D3D10RasterizerState rasterizer_state)
{
device->lpVtbl->RSSetState(device, rasterizer_state);
}
static inline void
D3D10SetViewports(D3D10Device device, UINT num_viewports, D3D10_VIEWPORT* viewports)
{
device->lpVtbl->RSSetViewports(device, num_viewports, viewports);
}
static inline void D3D10SetScissorRects(D3D10Device device, UINT num_rects, D3D10_RECT* rects)
{
device->lpVtbl->RSSetScissorRects(device, num_rects, rects);
}
static inline void D3D10CopySubresourceRegionDevice(
D3D10Device device,
D3D10Resource dst_resource,
UINT dst_subresource,
UINT dst_x,
UINT dst_y,
UINT dst_z,
D3D10Resource src_resource,
UINT src_subresource,
D3D10_BOX* src_box)
{
device->lpVtbl->CopySubresourceRegion(
device, dst_resource, dst_subresource, dst_x, dst_y, dst_z, src_resource, src_subresource,
src_box);
}
static inline void
D3D10CopyResource(D3D10Device device, D3D10Resource dst_resource, D3D10Resource src_resource)
{
device->lpVtbl->CopyResource(device, dst_resource, src_resource);
}
static inline void D3D10UpdateSubresource(
D3D10Device device,
D3D10Resource dst_resource,
UINT dst_subresource,
D3D10_BOX* dst_box,
void* src_data,
UINT src_row_pitch,
UINT src_depth_pitch)
{
device->lpVtbl->UpdateSubresource(
device, dst_resource, dst_subresource, dst_box, src_data, src_row_pitch, src_depth_pitch);
}
static inline void D3D10ClearRenderTargetView(
D3D10Device device, D3D10RenderTargetView render_target_view, FLOAT color_rgba[4])
{
device->lpVtbl->ClearRenderTargetView(device, render_target_view, color_rgba);
}
static inline void D3D10ClearDepthStencilView(
D3D10Device device,
D3D10DepthStencilView depth_stencil_view,
UINT clear_flags,
FLOAT depth,
UINT8 stencil)
{
device->lpVtbl->ClearDepthStencilView(device, depth_stencil_view, clear_flags, depth, stencil);
}
static inline void
D3D10GenerateMips(D3D10Device device, D3D10ShaderResourceView shader_resource_view)
{
device->lpVtbl->GenerateMips(device, shader_resource_view);
}
static inline void D3D10ResolveSubresource(
D3D10Device device,
D3D10Resource dst_resource,
UINT dst_subresource,
D3D10Resource src_resource,
UINT src_subresource,
DXGI_FORMAT format)
{
device->lpVtbl->ResolveSubresource(
device, dst_resource, dst_subresource, src_resource, src_subresource, format);
}
static inline void D3D10GetVShaderConstantBuffers(
D3D10Device device, UINT start_slot, UINT num_buffers, D3D10Buffer* constant_buffers)
{
device->lpVtbl->VSGetConstantBuffers(device, start_slot, num_buffers, constant_buffers);
}
static inline void D3D10GetPShaderResources(
D3D10Device device,
UINT start_slot,
UINT num_views,
D3D10ShaderResourceView* shader_resource_views)
{
device->lpVtbl->PSGetShaderResources(device, start_slot, num_views, shader_resource_views);
}
static inline void D3D10GetPShader(D3D10Device device, D3D10PixelShader* pixel_shader)
{
device->lpVtbl->PSGetShader(device, pixel_shader);
}
static inline void D3D10GetPShaderSamplers(
D3D10Device device, UINT start_slot, UINT num_samplers, D3D10SamplerState* samplers)
{
device->lpVtbl->PSGetSamplers(device, start_slot, num_samplers, samplers);
}
static inline void D3D10GetVShader(D3D10Device device, D3D10VertexShader* vertex_shader)
{
device->lpVtbl->VSGetShader(device, vertex_shader);
}
static inline void D3D10GetPShaderConstantBuffers(
D3D10Device device, UINT start_slot, UINT num_buffers, D3D10Buffer* constant_buffers)
{
device->lpVtbl->PSGetConstantBuffers(device, start_slot, num_buffers, constant_buffers);
}
static inline void D3D10GetInputLayout(D3D10Device device, D3D10InputLayout* input_layout)
{
device->lpVtbl->IAGetInputLayout(device, input_layout);
}
static inline void D3D10GetVertexBuffers(
D3D10Device device,
UINT start_slot,
UINT num_buffers,
D3D10Buffer* vertex_buffers,
UINT* strides,
UINT* offsets)
{
device->lpVtbl->IAGetVertexBuffers(
device, start_slot, num_buffers, vertex_buffers, strides, offsets);
}
static inline void D3D10GetIndexBuffer(
D3D10Device device, D3D10Buffer* index_buffer, DXGI_FORMAT* format, UINT* offset)
{
device->lpVtbl->IAGetIndexBuffer(device, index_buffer, format, offset);
}
static inline void D3D10GetGShaderConstantBuffers(
D3D10Device device, UINT start_slot, UINT num_buffers, D3D10Buffer* constant_buffers)
{
device->lpVtbl->GSGetConstantBuffers(device, start_slot, num_buffers, constant_buffers);
}
static inline void D3D10GetGShader(D3D10Device device, D3D10GeometryShader* geometry_shader)
{
device->lpVtbl->GSGetShader(device, geometry_shader);
}
static inline void D3D10GetPrimitiveTopology(D3D10Device device, D3D10_PRIMITIVE_TOPOLOGY* topology)
{
device->lpVtbl->IAGetPrimitiveTopology(device, topology);
}
static inline void D3D10GetVShaderResources(
D3D10Device device,
UINT start_slot,
UINT num_views,
D3D10ShaderResourceView* shader_resource_views)
{
device->lpVtbl->VSGetShaderResources(device, start_slot, num_views, shader_resource_views);
}
static inline void D3D10GetVShaderSamplers(
D3D10Device device, UINT start_slot, UINT num_samplers, D3D10SamplerState* samplers)
{
device->lpVtbl->VSGetSamplers(device, start_slot, num_samplers, samplers);
}
static inline void
D3D10GetPredication(D3D10Device device, D3D10Predicate* predicate, BOOL* predicate_value)
{
device->lpVtbl->GetPredication(device, predicate, predicate_value);
}
static inline void D3D10GetGShaderResources(
D3D10Device device,
UINT start_slot,
UINT num_views,
D3D10ShaderResourceView* shader_resource_views)
{
device->lpVtbl->GSGetShaderResources(device, start_slot, num_views, shader_resource_views);
}
static inline void D3D10GetGShaderSamplers(
D3D10Device device, UINT start_slot, UINT num_samplers, D3D10SamplerState* samplers)
{
device->lpVtbl->GSGetSamplers(device, start_slot, num_samplers, samplers);
}
static inline void D3D10GetRenderTargets(
D3D10Device device,
UINT num_views,
D3D10RenderTargetView* render_target_views,
D3D10DepthStencilView* depth_stencil_view)
{
device->lpVtbl->OMGetRenderTargets(device, num_views, render_target_views, depth_stencil_view);
}
static inline void D3D10GetBlendState(
D3D10Device device, D3D10BlendState* blend_state, FLOAT blend_factor[4], UINT* sample_mask)
{
device->lpVtbl->OMGetBlendState(device, blend_state, blend_factor, sample_mask);
}
static inline void D3D10GetDepthStencilState(
D3D10Device device, D3D10DepthStencilState* depth_stencil_state, UINT* stencil_ref)
{
device->lpVtbl->OMGetDepthStencilState(device, depth_stencil_state, stencil_ref);
}
static inline void
D3D10SOGetTargets(D3D10Device device, UINT num_buffers, D3D10Buffer* sotargets, UINT* offsets)
{
device->lpVtbl->SOGetTargets(device, num_buffers, sotargets, offsets);
}
static inline void D3D10GetState(D3D10Device device, D3D10RasterizerState* rasterizer_state)
{
device->lpVtbl->RSGetState(device, rasterizer_state);
}
static inline void
D3D10GetViewports(D3D10Device device, UINT* num_viewports, D3D10_VIEWPORT* viewports)
{
device->lpVtbl->RSGetViewports(device, num_viewports, viewports);
}
static inline void D3D10GetScissorRects(D3D10Device device, UINT* num_rects, D3D10_RECT* rects)
{
device->lpVtbl->RSGetScissorRects(device, num_rects, rects);
}
static inline HRESULT D3D10GetDeviceRemovedReason(D3D10Device device)
{
return device->lpVtbl->GetDeviceRemovedReason(device);
}
static inline HRESULT D3D10SetExceptionMode(D3D10Device device, UINT raise_flags)
{
return device->lpVtbl->SetExceptionMode(device, raise_flags);
}
static inline UINT D3D10GetExceptionMode(D3D10Device device)
{
return device->lpVtbl->GetExceptionMode(device);
}
static inline void D3D10ClearState(D3D10Device device) { device->lpVtbl->ClearState(device); }
static inline void D3D10Flush(D3D10Device device) { device->lpVtbl->Flush(device); }
static inline HRESULT D3D10CreateBuffer(
D3D10Device device,
D3D10_BUFFER_DESC* desc,
D3D10_SUBRESOURCE_DATA* initial_data,
D3D10Buffer* buffer)
{
return device->lpVtbl->CreateBuffer(device, desc, initial_data, buffer);
}
static inline HRESULT D3D10CreateTexture1D(
D3D10Device device,
D3D10_TEXTURE1D_DESC* desc,
D3D10_SUBRESOURCE_DATA* initial_data,
D3D10Texture1D* texture1d)
{
return device->lpVtbl->CreateTexture1D(device, desc, initial_data, texture1d);
}
static inline HRESULT D3D10CreateTexture2D(
D3D10Device device,
D3D10_TEXTURE2D_DESC* desc,
D3D10_SUBRESOURCE_DATA* initial_data,
D3D10Texture2D* texture2d)
{
return device->lpVtbl->CreateTexture2D(device, desc, initial_data, texture2d);
}
static inline HRESULT D3D10CreateTexture3D(
D3D10Device device,
D3D10_TEXTURE3D_DESC* desc,
D3D10_SUBRESOURCE_DATA* initial_data,
D3D10Texture3D* texture3d)
{
return device->lpVtbl->CreateTexture3D(device, desc, initial_data, texture3d);
}
static inline HRESULT D3D10CreateShaderResourceViewDevice(
D3D10Device device,
D3D10Resource resource,
D3D10_SHADER_RESOURCE_VIEW_DESC* desc,
D3D10ShaderResourceView* srview)
{
return device->lpVtbl->CreateShaderResourceView(device, resource, desc, srview);
}
static inline HRESULT D3D10CreateRenderTargetViewDevice(
D3D10Device device,
D3D10Resource resource,
D3D10_RENDER_TARGET_VIEW_DESC* desc,
D3D10RenderTargetView* rtview)
{
return device->lpVtbl->CreateRenderTargetView(device, resource, desc, rtview);
}
static inline HRESULT D3D10CreateDepthStencilView(
D3D10Device device,
D3D10Resource resource,
D3D10_DEPTH_STENCIL_VIEW_DESC* desc,
D3D10DepthStencilView* depth_stencil_view)
{
return device->lpVtbl->CreateDepthStencilView(device, resource, desc, depth_stencil_view);
}
static inline HRESULT D3D10CreateInputLayout(
D3D10Device device,
D3D10_INPUT_ELEMENT_DESC* input_element_descs,
UINT num_elements,
void* shader_bytecode_with_input_signature,
SIZE_T bytecode_length,
D3D10InputLayout* input_layout)
{
return device->lpVtbl->CreateInputLayout(
device, input_element_descs, num_elements, shader_bytecode_with_input_signature,
bytecode_length, input_layout);
}
static inline HRESULT D3D10CreateVertexShader(
D3D10Device device,
void* shader_bytecode,
SIZE_T bytecode_length,
D3D10VertexShader* vertex_shader)
{
return device->lpVtbl->CreateVertexShader(
device, shader_bytecode, bytecode_length, vertex_shader);
}
static inline HRESULT D3D10CreateGeometryShader(
D3D10Device device,
void* shader_bytecode,
SIZE_T bytecode_length,
D3D10GeometryShader* geometry_shader)
{
return device->lpVtbl->CreateGeometryShader(
device, shader_bytecode, bytecode_length, geometry_shader);
}
static inline HRESULT D3D10CreateGeometryShaderWithStreamOutput(
D3D10Device device,
void* shader_bytecode,
SIZE_T bytecode_length,
D3D10_SO_DECLARATION_ENTRY* sodeclaration,
UINT num_entries,
UINT output_stream_stride,
D3D10GeometryShader* geometry_shader)
{
return device->lpVtbl->CreateGeometryShaderWithStreamOutput(
device, shader_bytecode, bytecode_length, sodeclaration, num_entries, output_stream_stride,
geometry_shader);
}
static inline HRESULT D3D10CreatePixelShader(
D3D10Device device,
void* shader_bytecode,
SIZE_T bytecode_length,
D3D10PixelShader* pixel_shader)
{
return device->lpVtbl->CreatePixelShader(device, shader_bytecode, bytecode_length, pixel_shader);
}
static inline HRESULT D3D10CreateBlendState(
D3D10Device device, D3D10_BLEND_DESC* blend_state_desc, D3D10BlendState* blend_state)
{
return device->lpVtbl->CreateBlendState(device, blend_state_desc, blend_state);
}
static inline HRESULT D3D10CreateDepthStencilState(
D3D10Device device,
D3D10_DEPTH_STENCIL_DESC* depth_stencil_desc,
D3D10DepthStencilState* depth_stencil_state)
{
return device->lpVtbl->CreateDepthStencilState(device, depth_stencil_desc, depth_stencil_state);
}
static inline HRESULT D3D10CreateRasterizerState(
D3D10Device device,
D3D10_RASTERIZER_DESC* rasterizer_desc,
D3D10RasterizerState* rasterizer_state)
{
return device->lpVtbl->CreateRasterizerState(device, rasterizer_desc, rasterizer_state);
}
static inline HRESULT D3D10CreateSamplerState(
D3D10Device device, D3D10_SAMPLER_DESC* sampler_desc, D3D10SamplerState* sampler_state)
{
return device->lpVtbl->CreateSamplerState(device, sampler_desc, sampler_state);
}
static inline HRESULT
D3D10CreateQuery(D3D10Device device, D3D10_QUERY_DESC* query_desc, D3D10Query* query)
{
return device->lpVtbl->CreateQuery(device, query_desc, query);
}
static inline HRESULT D3D10CreatePredicate(
D3D10Device device, D3D10_QUERY_DESC* predicate_desc, D3D10Predicate* predicate)
{
return device->lpVtbl->CreatePredicate(device, predicate_desc, predicate);
}
static inline HRESULT
D3D10CreateCounter(D3D10Device device, D3D10_COUNTER_DESC* counter_desc, D3D10Counter* counter)
{
return device->lpVtbl->CreateCounter(device, counter_desc, counter);
}
static inline HRESULT
D3D10CheckFormatSupport(D3D10Device device, DXGI_FORMAT format, UINT* format_support)
{
return device->lpVtbl->CheckFormatSupport(device, format, format_support);
}
static inline HRESULT D3D10CheckMultisampleQualityLevels(
D3D10Device device, DXGI_FORMAT format, UINT sample_count, UINT* num_quality_levels)
{
return device->lpVtbl->CheckMultisampleQualityLevels(
device, format, sample_count, num_quality_levels);
}
static inline void D3D10CheckCounterInfo(D3D10Device device, D3D10_COUNTER_INFO* counter_info)
{
device->lpVtbl->CheckCounterInfo(device, counter_info);
}
static inline HRESULT D3D10CheckCounter(
D3D10Device device,
D3D10_COUNTER_DESC* desc,
D3D10_COUNTER_TYPE* type,
UINT* active_counters,
LPSTR sz_name,
UINT* name_length,
LPSTR sz_units,
UINT* units_length,
LPSTR sz_description,
UINT* description_length)
{
return device->lpVtbl->CheckCounter(
device, desc, type, active_counters, sz_name, name_length, sz_units, units_length,
sz_description, description_length);
}
static inline UINT D3D10GetCreationFlags(D3D10Device device)
{
return device->lpVtbl->GetCreationFlags(device);
}
static inline HRESULT
D3D10OpenSharedResource(D3D10Device device, HANDLE h_resource, ID3D10Resource** out)
{
return device->lpVtbl->OpenSharedResource(
device, h_resource, __uuidof(ID3D10Resource), (void**)out);
}
static inline void D3D10SetTextFilterSize(D3D10Device device, UINT width, UINT height)
{
device->lpVtbl->SetTextFilterSize(device, width, height);
}
static inline void D3D10GetTextFilterSize(D3D10Device device, UINT* width, UINT* height)
{
device->lpVtbl->GetTextFilterSize(device, width, height);
}
static inline void D3D10Enter(D3D10Multithread multithread)
{
multithread->lpVtbl->Enter(multithread);
}
static inline void D3D10Leave(D3D10Multithread multithread)
{
multithread->lpVtbl->Leave(multithread);
}
static inline BOOL D3D10SetMultithreadProtected(D3D10Multithread multithread, BOOL mtprotect)
{
return multithread->lpVtbl->SetMultithreadProtected(multithread, mtprotect);
}
static inline BOOL D3D10GetMultithreadProtected(D3D10Multithread multithread)
{
return multithread->lpVtbl->GetMultithreadProtected(multithread);
}
static inline HRESULT D3D10SetDebugFeatureMask(D3D10Debug debug, UINT mask)
{
return debug->lpVtbl->SetFeatureMask(debug, mask);
}
static inline UINT D3D10GetDebugFeatureMask(D3D10Debug debug)
{
return debug->lpVtbl->GetFeatureMask(debug);
}
static inline HRESULT D3D10SetPresentPerRenderOpDelay(D3D10Debug debug, UINT milliseconds)
{
return debug->lpVtbl->SetPresentPerRenderOpDelay(debug, milliseconds);
}
static inline UINT D3D10GetPresentPerRenderOpDelay(D3D10Debug debug)
{
return debug->lpVtbl->GetPresentPerRenderOpDelay(debug);
}
static inline HRESULT D3D10SetSwapChain(D3D10Debug debug, IDXGISwapChain* swap_chain)
{
return debug->lpVtbl->SetSwapChain(debug, (IDXGISwapChain*)swap_chain);
}
static inline HRESULT D3D10GetSwapChain(D3D10Debug debug, IDXGISwapChain** swap_chain)
{
return debug->lpVtbl->GetSwapChain(debug, (IDXGISwapChain**)swap_chain);
}
static inline HRESULT D3D10Validate(D3D10Debug debug) { return debug->lpVtbl->Validate(debug); }
static inline BOOL D3D10SetUseRef(D3D10SwitchToRef switch_to_ref, BOOL use_ref)
{
return switch_to_ref->lpVtbl->SetUseRef(switch_to_ref, use_ref);
}
static inline BOOL D3D10GetUseRef(D3D10SwitchToRef switch_to_ref)
{
return switch_to_ref->lpVtbl->GetUseRef(switch_to_ref);
}
static inline HRESULT
D3D10SetMessageCountLimit(D3D10InfoQueue info_queue, UINT64 message_count_limit)
{
return info_queue->lpVtbl->SetMessageCountLimit(info_queue, message_count_limit);
}
static inline void D3D10ClearStoredMessages(D3D10InfoQueue info_queue)
{
info_queue->lpVtbl->ClearStoredMessages(info_queue);
}
static inline HRESULT D3D10GetMessageA(
D3D10InfoQueue info_queue,
UINT64 message_index,
D3D10_MESSAGE* message,
SIZE_T* message_byte_length)
{
return info_queue->lpVtbl->GetMessageA(info_queue, message_index, message, message_byte_length);
}
static inline UINT64 D3D10GetNumMessagesAllowedByStorageFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetNumMessagesAllowedByStorageFilter(info_queue);
}
static inline UINT64 D3D10GetNumMessagesDeniedByStorageFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetNumMessagesDeniedByStorageFilter(info_queue);
}
static inline UINT64 D3D10GetNumStoredMessages(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetNumStoredMessages(info_queue);
}
static inline UINT64 D3D10GetNumStoredMessagesAllowedByRetrievalFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetNumStoredMessagesAllowedByRetrievalFilter(info_queue);
}
static inline UINT64 D3D10GetNumMessagesDiscardedByMessageCountLimit(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetNumMessagesDiscardedByMessageCountLimit(info_queue);
}
static inline UINT64 D3D10GetMessageCountLimit(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetMessageCountLimit(info_queue);
}
static inline HRESULT
D3D10AddStorageFilterEntries(D3D10InfoQueue info_queue, D3D10_INFO_QUEUE_FILTER* filter)
{
return info_queue->lpVtbl->AddStorageFilterEntries(info_queue, filter);
}
static inline HRESULT D3D10GetStorageFilter(
D3D10InfoQueue info_queue, D3D10_INFO_QUEUE_FILTER* filter, SIZE_T* filter_byte_length)
{
return info_queue->lpVtbl->GetStorageFilter(info_queue, filter, filter_byte_length);
}
static inline void D3D10ClearStorageFilter(D3D10InfoQueue info_queue)
{
info_queue->lpVtbl->ClearStorageFilter(info_queue);
}
static inline HRESULT D3D10PushEmptyStorageFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->PushEmptyStorageFilter(info_queue);
}
static inline HRESULT D3D10PushCopyOfStorageFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->PushCopyOfStorageFilter(info_queue);
}
static inline HRESULT
D3D10PushStorageFilter(D3D10InfoQueue info_queue, D3D10_INFO_QUEUE_FILTER* filter)
{
return info_queue->lpVtbl->PushStorageFilter(info_queue, filter);
}
static inline void D3D10PopStorageFilter(D3D10InfoQueue info_queue)
{
info_queue->lpVtbl->PopStorageFilter(info_queue);
}
static inline UINT D3D10GetStorageFilterStackSize(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetStorageFilterStackSize(info_queue);
}
static inline HRESULT
D3D10AddRetrievalFilterEntries(D3D10InfoQueue info_queue, D3D10_INFO_QUEUE_FILTER* filter)
{
return info_queue->lpVtbl->AddRetrievalFilterEntries(info_queue, filter);
}
static inline HRESULT D3D10GetRetrievalFilter(
D3D10InfoQueue info_queue, D3D10_INFO_QUEUE_FILTER* filter, SIZE_T* filter_byte_length)
{
return info_queue->lpVtbl->GetRetrievalFilter(info_queue, filter, filter_byte_length);
}
static inline void D3D10ClearRetrievalFilter(D3D10InfoQueue info_queue)
{
info_queue->lpVtbl->ClearRetrievalFilter(info_queue);
}
static inline HRESULT D3D10PushEmptyRetrievalFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->PushEmptyRetrievalFilter(info_queue);
}
static inline HRESULT D3D10PushCopyOfRetrievalFilter(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->PushCopyOfRetrievalFilter(info_queue);
}
static inline HRESULT
D3D10PushRetrievalFilter(D3D10InfoQueue info_queue, D3D10_INFO_QUEUE_FILTER* filter)
{
return info_queue->lpVtbl->PushRetrievalFilter(info_queue, filter);
}
static inline void D3D10PopRetrievalFilter(D3D10InfoQueue info_queue)
{
info_queue->lpVtbl->PopRetrievalFilter(info_queue);
}
static inline UINT D3D10GetRetrievalFilterStackSize(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetRetrievalFilterStackSize(info_queue);
}
static inline HRESULT D3D10AddMessage(
D3D10InfoQueue info_queue,
D3D10_MESSAGE_CATEGORY category,
D3D10_MESSAGE_SEVERITY severity,
D3D10_MESSAGE_ID id,
LPCSTR description)
{
return info_queue->lpVtbl->AddMessage(info_queue, category, severity, id, description);
}
static inline HRESULT D3D10AddApplicationMessage(
D3D10InfoQueue info_queue, D3D10_MESSAGE_SEVERITY severity, LPCSTR description)
{
return info_queue->lpVtbl->AddApplicationMessage(info_queue, severity, description);
}
static inline HRESULT
D3D10SetBreakOnCategory(D3D10InfoQueue info_queue, D3D10_MESSAGE_CATEGORY category, BOOL enable)
{
return info_queue->lpVtbl->SetBreakOnCategory(info_queue, category, enable);
}
static inline HRESULT
D3D10SetBreakOnSeverity(D3D10InfoQueue info_queue, D3D10_MESSAGE_SEVERITY severity, BOOL enable)
{
return info_queue->lpVtbl->SetBreakOnSeverity(info_queue, severity, enable);
}
static inline HRESULT D3D10SetBreakOnID(D3D10InfoQueue info_queue, D3D10_MESSAGE_ID id, BOOL enable)
{
return info_queue->lpVtbl->SetBreakOnID(info_queue, id, enable);
}
static inline BOOL
D3D10GetBreakOnCategory(D3D10InfoQueue info_queue, D3D10_MESSAGE_CATEGORY category)
{
return info_queue->lpVtbl->GetBreakOnCategory(info_queue, category);
}
static inline BOOL
D3D10GetBreakOnSeverity(D3D10InfoQueue info_queue, D3D10_MESSAGE_SEVERITY severity)
{
return info_queue->lpVtbl->GetBreakOnSeverity(info_queue, severity);
}
static inline BOOL D3D10GetBreakOnID(D3D10InfoQueue info_queue, D3D10_MESSAGE_ID id)
{
return info_queue->lpVtbl->GetBreakOnID(info_queue, id);
}
static inline void D3D10SetMuteDebugOutput(D3D10InfoQueue info_queue, BOOL mute)
{
info_queue->lpVtbl->SetMuteDebugOutput(info_queue, mute);
}
static inline BOOL D3D10GetMuteDebugOutput(D3D10InfoQueue info_queue)
{
return info_queue->lpVtbl->GetMuteDebugOutput(info_queue);
}
/* end of auto-generated */
static inline HRESULT
DXGIGetSwapChainBufferD3D10(DXGISwapChain swap_chain, UINT buffer, D3D10Texture2D* out)
{
return swap_chain->lpVtbl->GetBuffer(swap_chain, buffer, __uuidof(ID3D10Texture2D), (void**)out);
}
static inline void D3D10CopyTexture2DSubresourceRegion(
D3D10Device device,
D3D10Texture2D dst_texture,
UINT dst_subresource,
UINT dst_x,
UINT dst_y,
UINT dst_z,
D3D10Texture2D src_texture,
UINT src_subresource,
D3D10_BOX* src_box)
{
device->lpVtbl->CopySubresourceRegion(
device, (D3D10Resource)dst_texture, dst_subresource, dst_x, dst_y, dst_z,
(D3D10Resource)src_texture, src_subresource, src_box);
}
static inline HRESULT D3D10CreateTexture2DRenderTargetView(
D3D10Device device,
D3D10Texture2D texture,
D3D10_RENDER_TARGET_VIEW_DESC* desc,
D3D10RenderTargetView* rtview)
{
return device->lpVtbl->CreateRenderTargetView(device, (D3D10Resource)texture, desc, rtview);
}
static inline HRESULT D3D10CreateTexture2DShaderResourceView(
D3D10Device device,
D3D10Texture2D texture,
D3D10_SHADER_RESOURCE_VIEW_DESC* desc,
D3D10ShaderResourceView* srview)
{
return device->lpVtbl->CreateShaderResourceView(device, (D3D10Resource)texture, desc, srview);
}
/* internal */
#include <stdbool.h>
typedef struct d3d10_vertex_t
{
float position[2];
float texcoord[2];
float color[4];
} d3d10_vertex_t;
typedef struct
{
D3D10Texture2D handle;
D3D10Texture2D staging;
D3D10_TEXTURE2D_DESC desc;
D3D10ShaderResourceView view;
bool dirty;
bool ignore_alpha;
} d3d10_texture_t;
typedef struct
{
unsigned cur_mon_id;
DXGISwapChain swapChain;
D3D10Device device;
D3D10RenderTargetView renderTargetView;
D3D10InputLayout layout;
D3D10VertexShader vs;
D3D10PixelShader ps;
D3D10SamplerState sampler_nearest;
D3D10SamplerState sampler_linear;
D3D10BlendState blend_enable;
D3D10BlendState blend_disable;
float clearcolor[4];
struct
{
d3d10_texture_t texture;
D3D10Buffer vbo;
D3D10SamplerState sampler;
bool enabled;
bool fullscreen;
} menu;
struct
{
d3d10_texture_t texture;
D3D10Buffer vbo;
D3D10SamplerState sampler;
} frame;
DXGI_FORMAT format;
bool vsync;
bool need_resize;
} d3d10_video_t;
void d3d10_init_texture(D3D10Device device, d3d10_texture_t* texture);
void d3d10_update_texture(
int width,
int height,
int pitch,
DXGI_FORMAT format,
const void* data,
d3d10_texture_t* texture);
DXGI_FORMAT d3d10_get_closest_match(
D3D10Device device, DXGI_FORMAT desired_format, UINT desired_format_support);
static inline DXGI_FORMAT
d3d10_get_closest_match_texture2D(D3D10Device device, DXGI_FORMAT desired_format)
{
return d3d10_get_closest_match(
device, desired_format,
D3D10_FORMAT_SUPPORT_TEXTURE2D | D3D10_FORMAT_SUPPORT_SHADER_SAMPLE);
}