Windows-Server-2003/public/oak/inc/d3dnthal.h

1454 lines
56 KiB
C

/*==========================================================================
*
* Copyright (C) Microsoft Corporation. All Rights Reserved.
*
* File: d3dnthal.h
* Content: Direct3D HAL include file for NT
*
***************************************************************************/
#ifndef _D3DNTHAL_H_
#define _D3DNTHAL_H_
#include <ddrawint.h>
#ifndef _WINDOWS_
#define _WINDOWS_
#include <d3dtypes.h>
#include <d3dcaps.h>
#undef _WINDOWS_
#else
#include <d3dtypes.h>
#include <d3dcaps.h>
#endif
/*
* If the HAL driver does not implement clipping, it must reserve at least
* this much space at the end of the LocalVertexBuffer for use by the HEL
* clipping. I.e. the vertex buffer contain dwNumVertices+dwNumClipVertices
* vertices. No extra space is needed by the HEL clipping in the
* LocalHVertexBuffer.
*/
#define D3DNTHAL_NUMCLIPVERTICES 20
/*
* If no dwNumVertices is given, this is what will be used.
*/
#define D3DNTHAL_DEFAULT_TL_NUM ((32 * 1024) / sizeof (D3DTLVERTEX))
#define D3DNTHAL_DEFAULT_H_NUM ((32 * 1024) / sizeof (D3DHVERTEX))
/*
* Description for a device.
* This is used to describe a device that is to be created or to query
* the current device.
*
* For DX5 and subsequent runtimes, D3DNTDEVICEDESC is a user-visible
* structure that is not seen by the device drivers. The runtime
* stitches a D3DNTDEVICEDESC together using the D3DNTDEVICEDESC_V1
* embedded in the GLOBALDRIVERDATA and the extended caps queried
* from the driver using GetDriverInfo.
*/
typedef struct _D3DNTHALDeviceDesc_V1 {
DWORD dwSize; // Size of D3DNTHALDEVICEDESC_V1 structure
DWORD dwFlags; // Indicates which fields have valid data
D3DCOLORMODEL dcmColorModel; // Color model of device
DWORD dwDevCaps; // Capabilities of device
D3DTRANSFORMCAPS dtcTransformCaps; // Capabilities of transform
BOOL bClipping; // Device can do 3D clipping
D3DLIGHTINGCAPS dlcLightingCaps; // Capabilities of lighting
D3DPRIMCAPS dpcLineCaps;
D3DPRIMCAPS dpcTriCaps;
DWORD dwDeviceRenderBitDepth; // One of DDBB_8, 16, etc..
DWORD dwDeviceZBufferBitDepth; // One of DDBD_16, 32, etc..
DWORD dwMaxBufferSize; // Maximum execute buffer size
DWORD dwMaxVertexCount; // Maximum vertex count
} D3DNTHALDEVICEDESC_V1, *LPD3DNTHALDEVICEDESC_V1;
#define D3DNTHALDEVICEDESCSIZE_V1 (sizeof(D3DNTHALDEVICEDESC_V1))
/*
* This is equivalent to the D3DNTDEVICEDESC understood by DX5, available only
* from DX6. It is the same as D3DNTDEVICEDESC structure in DX5.
* D3DNTDEVICEDESC is still the user-visible structure that is not seen by the
* device drivers. The runtime stitches a D3DNTDEVICEDESC together using the
* D3DNTDEVICEDESC_V1 embedded in the GLOBALDRIVERDATA and the extended caps
* queried from the driver using GetDriverInfo.
*/
typedef struct _D3DNTHALDeviceDesc_V2 {
DWORD dwSize; // Size of D3DNTDEVICEDESC structure
DWORD dwFlags; // Indicates which fields have valid data
D3DCOLORMODEL dcmColorModel; // Color model of device
DWORD dwDevCaps; // Capabilities of device
D3DTRANSFORMCAPS dtcTransformCaps; // Capabilities of transform
BOOL bClipping; // Device can do 3D clipping
D3DLIGHTINGCAPS dlcLightingCaps; // Capabilities of lighting
D3DPRIMCAPS dpcLineCaps;
D3DPRIMCAPS dpcTriCaps;
DWORD dwDeviceRenderBitDepth; // One of DDBD_16, etc..
DWORD dwDeviceZBufferBitDepth; // One of DDBD_16, 32, etc..
DWORD dwMaxBufferSize; // Maximum execute buffer size
DWORD dwMaxVertexCount; // Maximum vertex count
DWORD dwMinTextureWidth, dwMinTextureHeight;
DWORD dwMaxTextureWidth, dwMaxTextureHeight;
DWORD dwMinStippleWidth, dwMaxStippleWidth;
DWORD dwMinStippleHeight, dwMaxStippleHeight;
} D3DNTHALDEVICEDESC_V2, *LPD3DNTHALDEVICEDESC_V2;
#define D3DNTHALDEVICEDESCSIZE_V2 (sizeof(D3DNTHALDEVICEDESC_V2))
#if(DIRECT3D_VERSION >= 0x0700)
/*
* This is equivalent to the D3DNTDEVICEDESC understood by DX6, available only
* from DX6. It is the same as D3DNTDEVICEDESC structure in DX6.
* D3DNTDEVICEDESC is still the user-visible structure that is not seen by the
* device drivers. The runtime stitches a D3DNTDEVICEDESC together using the
* D3DNTDEVICEDESC_V1 embedded in the GLOBALDRIVERDATA and the extended caps
* queried from the driver using GetDriverInfo.
*/
typedef struct _D3DNTDeviceDesc_V3 {
DWORD dwSize; // Size of D3DNTDEVICEDESC structure
DWORD dwFlags; // Indicates which fields have valid data
D3DCOLORMODEL dcmColorModel; // Color model of device
DWORD dwDevCaps; // Capabilities of device
D3DTRANSFORMCAPS dtcTransformCaps; // Capabilities of transform
BOOL bClipping; // Device can do 3D clipping
D3DLIGHTINGCAPS dlcLightingCaps; // Capabilities of lighting
D3DPRIMCAPS dpcLineCaps;
D3DPRIMCAPS dpcTriCaps;
DWORD dwDeviceRenderBitDepth; // One of DDBD_16, etc..
DWORD dwDeviceZBufferBitDepth; // One of DDBD_16, 32, etc..
DWORD dwMaxBufferSize; // Maximum execute buffer size
DWORD dwMaxVertexCount; // Maximum vertex count
DWORD dwMinTextureWidth, dwMinTextureHeight;
DWORD dwMaxTextureWidth, dwMaxTextureHeight;
DWORD dwMinStippleWidth, dwMaxStippleWidth;
DWORD dwMinStippleHeight, dwMaxStippleHeight;
DWORD dwMaxTextureRepeat;
DWORD dwMaxTextureAspectRatio;
DWORD dwMaxAnisotropy;
D3DVALUE dvGuardBandLeft;
D3DVALUE dvGuardBandTop;
D3DVALUE dvGuardBandRight;
D3DVALUE dvGuardBandBottom;
D3DVALUE dvExtentsAdjust;
DWORD dwStencilCaps;
DWORD dwFVFCaps; // low 4 bits: 0 implies TLVERTEX only, 1..8 imply FVF aware
DWORD dwTextureOpCaps;
WORD wMaxTextureBlendStages;
WORD wMaxSimultaneousTextures;
} D3DNTDEVICEDESC_V3, *LPD3DNTDEVICEDESC_V3;
#define D3DNTDEVICEDESCSIZE_V3 (sizeof(D3DNTDEVICEDESC_V3))
#endif /* DIRECT3D_VERSION >= 0x0700 */
/* --------------------------------------------------------------
* Instantiated by the HAL driver on driver connection.
*
* Regarding dwNumVertices, specify 0 if you are relying on the HEL to do
* everything and you do not need the resultant TLVertex buffer to reside
* in device memory.
* The HAL driver will be asked to allocate dwNumVertices + dwNumClipVertices
* in the case described above.
*/
typedef struct _D3DNTHAL_GLOBALDRIVERDATA {
DWORD dwSize; // Size of this structure
D3DNTHALDEVICEDESC_V1 hwCaps; // Capabilities of the hardware
DWORD dwNumVertices; // see following comment
DWORD dwNumClipVertices; // see following comment
DWORD dwNumTextureFormats; // Number of texture formats
LPDDSURFACEDESC lpTextureFormats; // Pointer to texture formats
} D3DNTHAL_GLOBALDRIVERDATA;
typedef D3DNTHAL_GLOBALDRIVERDATA *LPD3DNTHAL_GLOBALDRIVERDATA;
#define D3DNTHAL_GLOBALDRIVERDATASIZE (sizeof(D3DNTHAL_GLOBALDRIVERDATA))
#if(DIRECT3D_VERSION >= 0x0700)
/* --------------------------------------------------------------
* Extended caps introduced with DX5 and queried with
* GetDriverInfo (GUID_D3DExtendedCaps).
*/
typedef struct _D3DNTHAL_D3DDX6EXTENDEDCAPS {
DWORD dwSize; // Size of this structure
DWORD dwMinTextureWidth, dwMaxTextureWidth;
DWORD dwMinTextureHeight, dwMaxTextureHeight;
DWORD dwMinStippleWidth, dwMaxStippleWidth;
DWORD dwMinStippleHeight, dwMaxStippleHeight;
// Fields added for DX6
DWORD dwMaxTextureRepeat;
DWORD dwMaxTextureAspectRatio;
DWORD dwMaxAnisotropy;
D3DVALUE dvGuardBandLeft;
D3DVALUE dvGuardBandTop;
D3DVALUE dvGuardBandRight;
D3DVALUE dvGuardBandBottom;
D3DVALUE dvExtentsAdjust;
DWORD dwStencilCaps;
DWORD dwFVFCaps; // low 4 bits: 0 implies TLVERTEX only, 1..8 imply FVF aware
DWORD dwTextureOpCaps;
WORD wMaxTextureBlendStages;
WORD wMaxSimultaneousTextures;
} D3DNTHAL_D3DDX6EXTENDEDCAPS;
#endif /* DIRECT3D_VERSION >= 0x0700 */
/* --------------------------------------------------------------
* Extended caps introduced with DX5 and queried with
* GetDriverInfo (GUID_D3DExtendedCaps).
*/
typedef struct _D3DNTHAL_D3DEXTENDEDCAPS {
DWORD dwSize; // Size of this structure
DWORD dwMinTextureWidth, dwMaxTextureWidth;
DWORD dwMinTextureHeight, dwMaxTextureHeight;
DWORD dwMinStippleWidth, dwMaxStippleWidth;
DWORD dwMinStippleHeight, dwMaxStippleHeight;
// Fields added for DX6
DWORD dwMaxTextureRepeat;
DWORD dwMaxTextureAspectRatio;
DWORD dwMaxAnisotropy;
D3DVALUE dvGuardBandLeft;
D3DVALUE dvGuardBandTop;
D3DVALUE dvGuardBandRight;
D3DVALUE dvGuardBandBottom;
D3DVALUE dvExtentsAdjust;
DWORD dwStencilCaps;
DWORD dwFVFCaps; // 0 implies TLVERTEX only, 1..8 imply full FVF aware
DWORD dwTextureOpCaps;
WORD wMaxTextureBlendStages;
WORD wMaxSimultaneousTextures;
#if(DIRECT3D_VERSION >= 0x0700)
// Fields added for DX7
DWORD dwMaxActiveLights;
D3DVALUE dvMaxVertexW;
WORD wMaxUserClipPlanes;
WORD wMaxVertexBlendMatrices;
DWORD dwVertexProcessingCaps;
DWORD dwReserved1;
DWORD dwReserved2;
DWORD dwReserved3;
DWORD dwReserved4;
#endif /* DIRECT3D_VERSION >= 0x0700 */
} D3DNTHAL_D3DEXTENDEDCAPS;
typedef D3DNTHAL_D3DEXTENDEDCAPS *LPD3DNTHAL_D3DEXTENDEDCAPS;
#define D3DNTHAL_D3DEXTENDEDCAPSSIZE (sizeof(D3DNTHAL_D3DEXTENDEDCAPS))
// This is a temporary fix to make older NT drivers to compile
#define dvVertexProcessingCaps dwVertexProcessingCaps
#if(DIRECT3D_VERSION >= 0x0700)
typedef D3DNTHAL_D3DDX6EXTENDEDCAPS *LPD3DNTHAL_D3DDX6EXTENDEDCAPS;
#define D3DNTHAL_D3DDX6EXTENDEDCAPSSIZE (sizeof(D3DNTHAL_D3DDX6EXTENDEDCAPS))
#endif /* DIRECT3D_VERSION >= 0x0700 */
/* --------------------------------------------------------------
* Argument to the HAL functions.
*/
typedef ULONG_PTR D3DINTHAL_BUFFERHANDLE, *LPD3DINTHAL_BUFFERHANDLE;
typedef struct _D3DNTHAL_CONTEXTCREATEDATA {
union
{
PDD_DIRECTDRAW_GLOBAL lpDDGbl; // in: obsolete
PDD_DIRECTDRAW_LOCAL lpDDLcl; // in: Driver struct
};
union
{
PDD_SURFACE_LOCAL lpDDS; // in: obsolete
PDD_SURFACE_LOCAL lpDDSLcl; // in: Surface to be used as target
};
union
{
PDD_SURFACE_LOCAL lpDDSZ; // in: obsolete
PDD_SURFACE_LOCAL lpDDSZLcl; // in: Surface to be used as Z
};
DWORD dwPID; // in: Current process id
ULONG_PTR dwhContext; // in/out: Context handle
HRESULT ddrval; // out: Return value
} D3DNTHAL_CONTEXTCREATEDATA;
typedef D3DNTHAL_CONTEXTCREATEDATA *LPD3DNTHAL_CONTEXTCREATEDATA;
typedef struct _D3DNTHAL_CONTEXTDESTROYDATA {
ULONG_PTR dwhContext; // in: Context handle
HRESULT ddrval; // out: Return value
} D3DNTHAL_CONTEXTDESTROYDATA;
typedef D3DNTHAL_CONTEXTDESTROYDATA *LPD3DNTHAL_CONTEXTDESTROYDATA;
typedef struct _D3DNTHAL_CONTEXTDESTROYALLDATA {
DWORD dwPID; // in: Process id to destroy contexts for
HRESULT ddrval; // out: Return value
} D3DNTHAL_CONTEXTDESTROYALLDATA;
typedef D3DNTHAL_CONTEXTDESTROYALLDATA *LPD3DNTHAL_CONTEXTDESTROYALLDATA;
typedef struct _D3DNTHAL_SCENECAPTUREDATA {
ULONG_PTR dwhContext; // in: Context handle
DWORD dwFlag; // in: Indicates beginning or end
HRESULT ddrval; // out: Return value
} D3DNTHAL_SCENECAPTUREDATA;
typedef D3DNTHAL_SCENECAPTUREDATA *LPD3DNTHAL_SCENECAPTUREDATA;
typedef struct _D3DNTHAL_TEXTURECREATEDATA {
ULONG_PTR dwhContext; // in: Context handle
HANDLE hDDS; // in: Handle to surface object
ULONG_PTR dwHandle; // out: Handle to texture
HRESULT ddrval; // out: Return value
} D3DNTHAL_TEXTURECREATEDATA;
typedef D3DNTHAL_TEXTURECREATEDATA *LPD3DNTHAL_TEXTURECREATEDATA;
typedef struct _D3DNTHAL_TEXTUREDESTROYDATA {
ULONG_PTR dwhContext; // in: Context handle
ULONG_PTR dwHandle; // in: Handle to texture
HRESULT ddrval; // out: Return value
} D3DNTHAL_TEXTUREDESTROYDATA;
typedef D3DNTHAL_TEXTUREDESTROYDATA *LPD3DNTHAL_TEXTUREDESTROYDATA;
typedef struct _D3DNTHAL_TEXTURESWAPDATA {
ULONG_PTR dwhContext; // in: Context handle
ULONG_PTR dwHandle1; // in: Handle to texture 1
ULONG_PTR dwHandle2; // in: Handle to texture 2
HRESULT ddrval; // out: Return value
} D3DNTHAL_TEXTURESWAPDATA;
typedef D3DNTHAL_TEXTURESWAPDATA *LPD3DNTHAL_TEXTURESWAPDATA;
typedef struct _D3DNTHAL_TEXTUREGETSURFDATA {
ULONG_PTR dwhContext; // in: Context handle
HANDLE hDDS; // out: Handle to surface object
ULONG_PTR dwHandle; // in: Handle to texture
HRESULT ddrval; // out: Return value
} D3DNTHAL_TEXTUREGETSURFDATA;
typedef D3DNTHAL_TEXTUREGETSURFDATA *LPD3DNTHAL_TEXTUREGETSURFDATA;
/* --------------------------------------------------------------
* Flags for the data parameters.
*/
/*
* SceneCapture()
* This is used as an indication to the driver that a scene is about to
* start or end, and that it should capture data if required.
*/
#define D3DNTHAL_SCENE_CAPTURE_START 0x00000000L
#define D3DNTHAL_SCENE_CAPTURE_END 0x00000001L
/* --------------------------------------------------------------
* Return values from HAL functions.
*/
/*
* The context passed in was bad.
*/
#define D3DNTHAL_CONTEXT_BAD 0x000000200L
/*
* No more contexts left.
*/
#define D3DNTHAL_OUTOFCONTEXTS 0x000000201L
/* --------------------------------------------------------------
* Direct3D HAL Table.
* Instantiated by the HAL driver on connection.
*
* Calls take the form of:
* retcode = HalCall(HalCallData* lpData);
*/
typedef DWORD (APIENTRY *LPD3DNTHAL_CONTEXTCREATECB) (LPD3DNTHAL_CONTEXTCREATEDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_CONTEXTDESTROYCB) (LPD3DNTHAL_CONTEXTDESTROYDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_CONTEXTDESTROYALLCB) (LPD3DNTHAL_CONTEXTDESTROYALLDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_SCENECAPTURECB) (LPD3DNTHAL_SCENECAPTUREDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_TEXTURECREATECB) (LPD3DNTHAL_TEXTURECREATEDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_TEXTUREDESTROYCB) (LPD3DNTHAL_TEXTUREDESTROYDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_TEXTURESWAPCB) (LPD3DNTHAL_TEXTURESWAPDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_TEXTUREGETSURFCB) (LPD3DNTHAL_TEXTUREGETSURFDATA);
typedef struct _D3DNTHAL_CALLBACKS {
DWORD dwSize;
// Device context
LPD3DNTHAL_CONTEXTCREATECB ContextCreate;
LPD3DNTHAL_CONTEXTDESTROYCB ContextDestroy;
LPD3DNTHAL_CONTEXTDESTROYALLCB ContextDestroyAll;
// Scene Capture
LPD3DNTHAL_SCENECAPTURECB SceneCapture;
// Execution
LPVOID dwReserved10; // Must be zero (was Execute)
LPVOID dwReserved11; // Must be zero (was ExecuteClipped)
LPVOID dwReserved22; // Must be zero (was RenderState)
LPVOID dwReserved23; // Must be zero (was RenderPrimitive)
ULONG_PTR dwReserved; // Must be zero
// Textures
LPD3DNTHAL_TEXTURECREATECB TextureCreate;
LPD3DNTHAL_TEXTUREDESTROYCB TextureDestroy;
LPD3DNTHAL_TEXTURESWAPCB TextureSwap;
LPD3DNTHAL_TEXTUREGETSURFCB TextureGetSurf;
LPVOID dwReserved12; // Must be zero
LPVOID dwReserved13; // Must be zero
LPVOID dwReserved14; // Must be zero
LPVOID dwReserved15; // Must be zero
LPVOID dwReserved16; // Must be zero
LPVOID dwReserved17; // Must be zero
LPVOID dwReserved18; // Must be zero
LPVOID dwReserved19; // Must be zero
LPVOID dwReserved20; // Must be zero
LPVOID dwReserved21; // Must be zero
// Pipeline state
LPVOID dwReserved24; // Was GetState;
ULONG_PTR dwReserved0; // Must be zero
ULONG_PTR dwReserved1; // Must be zero
ULONG_PTR dwReserved2; // Must be zero
ULONG_PTR dwReserved3; // Must be zero
ULONG_PTR dwReserved4; // Must be zero
ULONG_PTR dwReserved5; // Must be zero
ULONG_PTR dwReserved6; // Must be zero
ULONG_PTR dwReserved7; // Must be zero
ULONG_PTR dwReserved8; // Must be zero
ULONG_PTR dwReserved9; // Must be zero
} D3DNTHAL_CALLBACKS;
typedef D3DNTHAL_CALLBACKS *LPD3DNTHAL_CALLBACKS;
#define D3DNTHAL_SIZE_V1 sizeof( D3DNTHAL_CALLBACKS )
typedef struct _D3DNTHAL_SETRENDERTARGETDATA {
ULONG_PTR dwhContext; // in: Context handle
PDD_SURFACE_LOCAL lpDDS; // in: new render target
PDD_SURFACE_LOCAL lpDDSZ; // in: new Z buffer
HRESULT ddrval; // out: Return value
} D3DNTHAL_SETRENDERTARGETDATA;
typedef D3DNTHAL_SETRENDERTARGETDATA *LPD3DNTHAL_SETRENDERTARGETDATA;
typedef DWORD (APIENTRY *LPD3DNTHAL_SETRENDERTARGETCB) (LPD3DNTHAL_SETRENDERTARGETDATA);
typedef struct _D3DNTHAL_CALLBACKS2
{
DWORD dwSize; // size of struct
DWORD dwFlags; // flags for callbacks
LPD3DNTHAL_SETRENDERTARGETCB SetRenderTarget;
LPVOID dwReserved1; // was Clear
LPVOID dwReserved2; // was DrawOnePrimitive
LPVOID dwReserved3; // was DrawOneIndexedPrimitive
LPVOID dwReserved4; // was DrawPrimitives
} D3DNTHAL_CALLBACKS2;
typedef D3DNTHAL_CALLBACKS2 *LPD3DNTHAL_CALLBACKS2;
#define D3DNTHAL2_CB32_SETRENDERTARGET 0x00000001L
typedef struct _D3DNTHAL_CLEAR2DATA
{
ULONG_PTR dwhContext; // in: Context handle
// dwFlags can contain D3DCLEAR_TARGET or D3DCLEAR_ZBUFFER
DWORD dwFlags; // in: surfaces to clear
DWORD dwFillColor; // in: Color value for rtarget
D3DVALUE dvFillDepth; // in: Depth value for
// Z-buffer (0.0-1.0)
DWORD dwFillStencil; // in: value used to clear stencil buffer
LPD3DRECT lpRects; // in: Rectangles to clear
DWORD dwNumRects; // in: Number of rectangles
HRESULT ddrval; // out: Return value
} D3DNTHAL_CLEAR2DATA;
typedef D3DNTHAL_CLEAR2DATA FAR *LPD3DNTHAL_CLEAR2DATA;
typedef struct _D3DNTHAL_VALIDATETEXTURESTAGESTATEDATA
{
ULONG_PTR dwhContext; // in: Context handle
DWORD dwFlags; // in: Flags, currently set to 0
ULONG_PTR dwReserved; //
DWORD dwNumPasses;// out: Number of passes the hardware
// can perform the operation in
HRESULT ddrval; // out: return value
} D3DNTHAL_VALIDATETEXTURESTAGESTATEDATA;
typedef D3DNTHAL_VALIDATETEXTURESTAGESTATEDATA FAR *LPD3DNTHAL_VALIDATETEXTURESTAGESTATEDATA;
//-----------------------------------------------------------------------------
// DrawPrimitives2 DDI
//-----------------------------------------------------------------------------
//
// Command structure for vertex buffer rendering
//
typedef struct _D3DNTHAL_DP2COMMAND
{
BYTE bCommand; // vertex command
BYTE bReserved;
union
{
WORD wPrimitiveCount; // primitive count for unconnected primitives
WORD wStateCount; // count of render states to follow
};
} D3DNTHAL_DP2COMMAND, *LPDNT3DHAL_DP2COMMAND;
//
// DrawPrimitives2 commands:
//
typedef enum _D3DNTHAL_DP2OPERATION
{
D3DNTDP2OP_POINTS = 1,
D3DNTDP2OP_INDEXEDLINELIST = 2,
D3DNTDP2OP_INDEXEDTRIANGLELIST = 3,
D3DNTDP2OP_RESERVED0 = 4,
D3DNTDP2OP_RENDERSTATE = 8,
D3DNTDP2OP_LINELIST = 15,
D3DNTDP2OP_LINESTRIP = 16,
D3DNTDP2OP_INDEXEDLINESTRIP = 17,
D3DNTDP2OP_TRIANGLELIST = 18,
D3DNTDP2OP_TRIANGLESTRIP = 19,
D3DNTDP2OP_INDEXEDTRIANGLESTRIP = 20,
D3DNTDP2OP_TRIANGLEFAN = 21,
D3DNTDP2OP_INDEXEDTRIANGLEFAN = 22,
D3DNTDP2OP_TRIANGLEFAN_IMM = 23,
D3DNTDP2OP_LINELIST_IMM = 24,
D3DNTDP2OP_TEXTURESTAGESTATE = 25,
D3DNTDP2OP_INDEXEDTRIANGLELIST2 = 26,
D3DNTDP2OP_INDEXEDLINELIST2 = 27,
D3DNTDP2OP_VIEWPORTINFO = 28,
D3DNTDP2OP_WINFO = 29,
D3DNTDP2OP_SETPALETTE = 30,
D3DNTDP2OP_UPDATEPALETTE = 31,
#if(DIRECT3D_VERSION >= 0x0700)
//new for DX7
D3DNTDP2OP_ZRANGE = 32,
D3DNTDP2OP_SETMATERIAL = 33,
D3DNTDP2OP_SETLIGHT = 34,
D3DNTDP2OP_CREATELIGHT = 35,
D3DNTDP2OP_SETTRANSFORM = 36,
D3DNTDP2OP_EXT = 37,
D3DNTDP2OP_TEXBLT = 38,
D3DNTDP2OP_STATESET = 39,
D3DNTDP2OP_SETPRIORITY = 40,
#endif /* DIRECT3D_VERSION >= 0x0700 */
D3DNTDP2OP_SETRENDERTARGET = 41,
D3DNTDP2OP_CLEAR = 42,
#if(DIRECT3D_VERSION >= 0x0700)
D3DNTDP2OP_SETTEXLOD = 43,
D3DNTDP2OP_SETCLIPPLANE = 44,
#endif /* DIRECT3D_VERSION >= 0x0700 */
#if(DIRECT3D_VERSION >= 0x0800)
D3DNTDP2OP_CREATEVERTEXSHADER = 45,
D3DNTDP2OP_DELETEVERTEXSHADER = 46,
D3DNTDP2OP_SETVERTEXSHADER = 47,
D3DNTDP2OP_SETVERTEXSHADERCONST = 48,
D3DNTDP2OP_SETSTREAMSOURCE = 49,
D3DNTDP2OP_SETSTREAMSOURCEUM = 50,
D3DNTDP2OP_SETINDICES = 51,
D3DNTDP2OP_DRAWPRIMITIVE = 52,
D3DNTDP2OP_DRAWINDEXEDPRIMITIVE = 53,
D3DNTDP2OP_CREATEPIXELSHADER = 54,
D3DNTDP2OP_DELETEPIXELSHADER = 55,
D3DNTDP2OP_SETPIXELSHADER = 56,
D3DNTDP2OP_SETPIXELSHADERCONST = 57,
D3DNTDP2OP_CLIPPEDTRIANGLEFAN = 58,
D3DNTDP2OP_DRAWPRIMITIVE2 = 59,
D3DNTDP2OP_DRAWINDEXEDPRIMITIVE2= 60,
D3DNTDP2OP_DRAWRECTPATCH = 61,
D3DNTDP2OP_DRAWTRIPATCH = 62,
D3DNTDP2OP_VOLUMEBLT = 63,
D3DNTDP2OP_BUFFERBLT = 64,
D3DNTDP2OP_MULTIPLYTRANSFORM = 65,
D3DNTDP2OP_ADDDIRTYRECT = 66,
D3DNTDP2OP_ADDDIRTYBOX = 67,
#endif /* DIRECT3D_VERSION >= 0x0800 */
} D3DNTHAL_DP2OPERATION;
//
// DrawPrimitives2 point primitives
//
typedef struct _D3DNTHAL_DP2POINTS
{
WORD wCount;
WORD wVStart;
} D3DNTHAL_DP2POINTS;
//
// DrawPrimitives2 line primitives
//
typedef struct _D3DNTHAL_DP2STARTVERTEX {
WORD wVStart;
} D3DNTHAL_DP2STARTVERTEX, *LPD3DNTHAL_DP2STARTVERTEX;
typedef struct _D3DNTHAL_DP2LINELIST
{
WORD wVStart;
} D3DNTHAL_DP2LINELIST;
typedef struct _D3DNTHAL_DP2INDEXEDLINELIST
{
WORD wV1;
WORD wV2;
} D3DNTHAL_DP2INDEXEDLINELIST;
typedef struct _D3DNTHAL_DP2LINESTRIP
{
WORD wVStart;
} D3DNTHAL_DP2LINESTRIP;
typedef struct _D3DNTHAL_DP2INDEXEDLINESTRIP
{
WORD wV[2];
} D3DNTHAL_DP2INDEXEDLINESTRIP;
//
// DrawPrimitives2 triangle primitives
//
typedef struct _D3DNTHAL_DP2TRIANGLELIST
{
WORD wVStart;
} D3DNTHAL_DP2TRIANGLELIST;
typedef struct _D3DNTHAL_DP2INDEXEDTRIANGLELIST
{
WORD wV1;
WORD wV2;
WORD wV3;
WORD wFlags;
} D3DNTHAL_DP2INDEXEDTRIANGLELIST;
typedef struct _D3DNTHAL_DP2INDEXEDTRIANGLELIST2 {
WORD wV1;
WORD wV2;
WORD wV3;
} D3DNTHAL_DP2INDEXEDTRIANGLELIST2, *LPD3DNTHAL_DP2INDEXEDTRIANGLELIST2;
typedef struct _D3DNTHAL_DP2TRIANGLESTRIP
{
WORD wVStart;
} D3DNTHAL_DP2TRIANGLESTRIP;
typedef struct _D3DNTHAL_DP2INDEXEDTRIANGLESTRIP
{
WORD wV[3];
} D3DNTHAL_DP2INDEXEDTRIANGLESTRIP;
typedef struct _D3DNTHAL_DP2TRIANGLEFAN
{
WORD wVStart;
} D3DNTHAL_DP2TRIANGLEFAN;
typedef struct _D3DNTHAL_DP2INDEXEDTRIANGLEFAN
{
WORD wV[3];
} D3DNTHAL_DP2INDEXEDTRIANGLEFAN;
typedef struct _D3DNTHAL_DP2TRIANGLEFAN_IMM {
DWORD dwEdgeFlags;
} D3DNTHAL_DP2TRIANGLEFAN_IMM, *LPD3DNTHAL_DP2TRIANGLEFAN_IMM;
//
// DrawPrimitives2 Renderstate changes
//
typedef struct _D3DNTHAL_DP2RENDERSTATE
{
D3DRENDERSTATETYPE RenderState;
union
{
D3DVALUE fState;
DWORD dwState;
};
} D3DNTHAL_DP2RENDERSTATE;
typedef D3DNTHAL_DP2RENDERSTATE * LPD3DNTHAL_DP2RENDERSTATE;
typedef struct _D3DNTHAL_DP2TEXTURESTAGESTATE
{
WORD wStage;
WORD TSState;
DWORD dwValue;
} D3DNTHAL_DP2TEXTURESTAGESTATE;
typedef D3DNTHAL_DP2TEXTURESTAGESTATE *LPD3DNTHAL_DP2TEXTURESTAGESTATE;
typedef struct _D3DNTHAL_DP2VIEWPORTINFO {
DWORD dwX;
DWORD dwY;
DWORD dwWidth;
DWORD dwHeight;
} D3DNTHAL_DP2VIEWPORTINFO;
typedef D3DNTHAL_DP2VIEWPORTINFO *LPD3DNTHAL_DP2VIEWPORTINFO;
typedef struct _D3DNTHAL_DP2WINFO {
D3DVALUE dvWNear;
D3DVALUE dvWFar;
} D3DNTHAL_DP2WINFO;
typedef D3DNTHAL_DP2WINFO *LPD3DNTHAL_DP2WINFO;
typedef struct _D3DNTHAL_DP2SETPALETTE
{
DWORD dwPaletteHandle;
DWORD dwPaletteFlags;
DWORD dwSurfaceHandle;
} D3DNTHAL_DP2SETPALETTE;
typedef D3DNTHAL_DP2SETPALETTE *LPD3DNTHAL_DP2SETPALETTE;
typedef struct _D3DNTHAL_DP2UPDATEPALETTE
{
DWORD dwPaletteHandle;
WORD wStartIndex;
WORD wNumEntries;
} D3DNTHAL_DP2UPDATEPALETTE;
typedef D3DNTHAL_DP2UPDATEPALETTE *LPD3DNTHAL_DP2UPDATEPALETTE;
typedef struct _D3DNTHAL_DP2SETRENDERTARGET
{
DWORD hRenderTarget;
DWORD hZBuffer;
} D3DNTHAL_DP2SETRENDERTARGET;
typedef D3DNTHAL_DP2SETRENDERTARGET *LPD3DNTHAL_DP2SETRENDERTARGET;
#if(DIRECT3D_VERSION >= 0x0700)
// Values for dwOperations in the D3DHAL_DP2STATESET
#define D3DHAL_STATESETBEGIN 0
#define D3DHAL_STATESETEND 1
#define D3DHAL_STATESETDELETE 2
#define D3DHAL_STATESETEXECUTE 3
#define D3DHAL_STATESETCAPTURE 4
typedef struct _D3DNTHAL_DP2STATESET
{
DWORD dwOperation;
DWORD dwParam; // State set handle passed with D3DHAL_STATESETBEGIN,
// D3DHAL_STATESETEXECUTE, D3DHAL_STATESETDELETE
// D3DHAL_STATESETCAPTURE
D3DSTATEBLOCKTYPE sbType; // Type use with D3DHAL_STATESETBEGIN/END
} D3DNTHAL_DP2STATESET;
typedef D3DNTHAL_DP2STATESET *LPD3DNTHAL_DP2STATESET;
//
// T&L Hal specific stuff
//
typedef struct _D3DNTHAL_DP2ZRANGE
{
D3DVALUE dvMinZ;
D3DVALUE dvMaxZ;
} D3DNTHAL_DP2ZRANGE;
typedef D3DNTHAL_DP2ZRANGE *LPD3DNTHAL_DP2ZRANGE;
typedef D3DMATERIAL7 D3DNTHAL_DP2SETMATERIAL, *LPD3DNTHAL_DP2SETMATERIAL;
typedef struct _D3DNTHAL_DP2SETLIGHT
{
DWORD dwIndex;
union {
DWORD lightData;
DWORD dwDataType;
};
} D3DNTHAL_DP2SETLIGHT;
typedef D3DNTHAL_DP2SETLIGHT *LPD3DNTHAL_DP2SETLIGHT;
typedef struct _D3DNTHAL_DP2SETCLIPPLANE
{
DWORD dwIndex;
D3DVALUE plane[4];
} D3DNTHAL_DP2SETCLIPPLANE;
typedef D3DNTHAL_DP2SETCLIPPLANE *LPD3DNTHAL_DP2SETCLIPPLANE;
typedef struct _D3DNTHAL_DP2CREATELIGHT
{
DWORD dwIndex;
} D3DNTHAL_DP2CREATELIGHT;
typedef D3DNTHAL_DP2CREATELIGHT *LPD3DNTHAL_DP2CREATELIGHT;
typedef struct _D3DNTHAL_DP2SETTRANSFORM
{
D3DTRANSFORMSTATETYPE xfrmType;
D3DMATRIX matrix;
} D3DNTHAL_DP2SETTRANSFORM;
typedef D3DNTHAL_DP2SETTRANSFORM *LPD3DNTHAL_DP2SETTRANSFORM;
typedef struct _D3DNTHAL_DP2EXT
{
DWORD dwExtToken;
DWORD dwSize;
} D3DNTHAL_DP2EXT;
typedef D3DNTHAL_DP2EXT *LPD3DNTHAL_DP2EXT;
typedef struct _D3DNTHAL_DP2TEXBLT
{
DWORD dwDDDestSurface; // dest surface
DWORD dwDDSrcSurface; // src surface
POINT pDest;
RECTL rSrc; // src rect
DWORD dwFlags; // blt flags
} D3DNTHAL_DP2TEXBLT;
typedef D3DNTHAL_DP2TEXBLT *LPD3DNTHAL_DP2TEXBLT;
typedef struct _D3DNTHAL_DP2SETPRIORITY
{
DWORD dwDDDestSurface; // dest surface
DWORD dwPriority;
} D3DNTHAL_DP2SETPRIORITY;
typedef D3DNTHAL_DP2SETPRIORITY *LPD3DNTHAL_DP2SETPRIORITY;
typedef struct _D3DNTHAL_DP2CLEAR
{
// dwFlags can contain D3DCLEAR_TARGET, D3DCLEAR_ZBUFFER, and/or D3DCLEAR_STENCIL
DWORD dwFlags; // in: surfaces to clear
DWORD dwFillColor; // in: Color value for rtarget
D3DVALUE dvFillDepth; // in: Depth value for Z buffer (0.0-1.0)
DWORD dwFillStencil; // in: value used to clear stencil buffer
RECT Rects[1]; // in: Rectangles to clear
} D3DNTHAL_DP2CLEAR;
typedef D3DNTHAL_DP2CLEAR *LPD3DNTHAL_DP2CLEAR;
typedef struct _D3DNTHAL_DP2SETTEXLOD
{
DWORD dwDDSurface;
DWORD dwLOD;
} D3DNTHAL_DP2SETTEXLOD;
typedef D3DNTHAL_DP2SETTEXLOD *LPD3DNTHAL_DP2SETTEXLOD;
#endif /* DIRECT3D_VERSION >= 0x0700 */
typedef struct _D3DNTHAL_DRAWPRIMITIVES2DATA
{
ULONG_PTR dwhContext; // in: Context handle
DWORD dwFlags; // in: flags (look below)
DWORD dwVertexType; // in: vertex type
PDD_SURFACE_LOCAL lpDDCommands; // in: vertex buffer command data
DWORD dwCommandOffset; // in: offset to start of vb commands
DWORD dwCommandLength; // in: number of bytes of command data
union
{
PDD_SURFACE_LOCAL lpDDVertex; // in: surface containing vertex data
LPVOID lpVertices; // in: User mode pointer to vertices
};
DWORD dwVertexOffset; // in: offset to start of vertex data
DWORD dwVertexLength; // in: number of vertices of vertex data
DWORD dwReqVertexBufSize; // in: number of bytes required for
// the next vertex buffer
DWORD dwReqCommandBufSize; // in: number if bytes required for
// the next commnand buffer
LPDWORD lpdwRStates; // in: Pointer to the array where render states are updated
union
{
DWORD dwVertexSize; // in: Size of each vertex in bytes
HRESULT ddrval; // out: return value
};
DWORD dwErrorOffset; // out: offset in LPDDVBCOMMAND to
// first failed D3DNTHAL_VBCOMMAND
} D3DNTHAL_DRAWPRIMITIVES2DATA;
typedef D3DNTHAL_DRAWPRIMITIVES2DATA FAR *LPD3DNTHAL_DRAWPRIMITIVES2DATA;
// Indicates that the lpVertices field in the DrawPrimitives2 data is
// valid, i.e. user allocated memory.
#define D3DNTHALDP2_USERMEMVERTICES 0x00000001L
// Indicates that the command buffer and vertex buffer are a system memory execute buffer
// resulting from the use of the Execute buffer API.
#define D3DNTHALDP2_EXECUTEBUFFER 0x00000002L
// The swap flags indicate if it is OK for the driver to swap the submitted buffers with new
// buffers and asyncronously work on the submitted buffers.
#define D3DNTHALDP2_SWAPVERTEXBUFFER 0x00000004L
#define D3DNTHALDP2_SWAPCOMMANDBUFFER 0x00000008L
// The requested flags are present if the new buffers which the driver can allocate need to be
// of atleast a given size. If any of these flags are set, the corresponding dwReq* field in
// D3DNTHAL_DRAWPRIMITIVES2DATA will also be set with the requested size in bytes.
#define D3DNTHALDP2_REQVERTEXBUFSIZE 0x00000010L
#define D3DNTHALDP2_REQCOMMANDBUFSIZE 0x00000020L
// These flags are set by the driver upon return from DrawPrimitives2 indicating if the new
// buffers are not in system memory.
#define D3DNTHALDP2_VIDMEMVERTEXBUF 0x00000040L
#define D3DNTHALDP2_VIDMEMCOMMANDBUF 0x00000080L
// Return values for the driver callback used in DP2 implementations
// Used by the driver to ask runtime to parse the execute buffer
#define D3DNTERR_COMMAND_UNPARSED MAKE_DDHRESULT(3000)
typedef DWORD (APIENTRY *LPD3DNTHAL_CLEAR2CB) (LPD3DNTHAL_CLEAR2DATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_VALIDATETEXTURESTAGESTATECB) (LPD3DNTHAL_VALIDATETEXTURESTAGESTATEDATA);
typedef DWORD (APIENTRY *LPD3DNTHAL_DRAWPRIMITIVES2CB) (LPD3DNTHAL_DRAWPRIMITIVES2DATA);
typedef struct _D3DNTHAL_CALLBACKS3
{
DWORD dwSize; // size of struct
DWORD dwFlags; // flags for callbacks
LPD3DNTHAL_CLEAR2CB Clear2;
LPVOID lpvReserved;
LPD3DNTHAL_VALIDATETEXTURESTAGESTATECB ValidateTextureStageState;
LPD3DNTHAL_DRAWPRIMITIVES2CB DrawPrimitives2;
} D3DNTHAL_CALLBACKS3;
typedef D3DNTHAL_CALLBACKS3 *LPD3DNTHAL_CALLBACKS3;
#define D3DNTHAL3_CB32_CLEAR2 0x00000001L
#define D3DNTHAL3_CB32_RESERVED 0x00000002L
#define D3DNTHAL3_CB32_VALIDATETEXTURESTAGESTATE 0x00000004L
#define D3DNTHAL3_CB32_DRAWPRIMITIVES2 0x00000008L
// typedef for the Callback that the drivers can use to parse unknown commands
// passed to them via the DrawPrimitives2 callback. The driver obtains this
// callback thru a GetDriverInfo call with GUID_D3DParseUnknownCommandCallback
// made by ddraw somewhere around the initialization time.
typedef HRESULT (CALLBACK *PFND3DNTPARSEUNKNOWNCOMMAND) (LPVOID lpvCommands,
LPVOID *lplpvReturnedCommand);
/* --------------------------------------------------------------
* Texture stage renderstate mapping definitions.
*
* 256 renderstate slots [256, 511] are reserved for texture processing
* stage controls, which provides for 8 texture processing stages each
* with 32 DWORD controls.
*
* The renderstates within each stage are indexed by the
* D3DTEXTURESTAGESTATETYPE enumerants by adding the appropriate
* enumerant to the base for a given texture stage.
*
* Note, "state overrides" bias the renderstate by 256, so the two
* ranges overlap. Overrides are enabled for exebufs only, so all
* this means is that Texture3 cannot be used with exebufs.
*/
/*
* Base of all texture stage state values in renderstate array.
*/
#define D3DNTHAL_TSS_RENDERSTATEBASE 256UL
/*
* Maximum number of stages allowed.
*/
#define D3DNTHAL_TSS_MAXSTAGES 8
/*
* Number of state DWORDS per stage.
*/
#define D3DNTHAL_TSS_STATESPERSTAGE 64
/*
* Texture handle's offset into the 32-DWORD cascade state vector
*/
#ifndef D3DTSS_TEXTUREMAP
#define D3DTSS_TEXTUREMAP 0
#endif
#define D3DRENDERSTATE_EVICTMANAGEDTEXTURES 61 // DDI render state only to Evict textures
#define D3DRENDERSTATE_SCENECAPTURE 62 // DDI only to replace SceneCapture
#if(DIRECT3D_VERSION >= 0x0800 )
// New values for dwOperations in the D3DHAL_DP2STATESET
#define D3DNTHAL_STATESETCREATE 5
// This bit is the same as D3DCLEAR_RESERVED0 in d3d8types.h
// When set it means that driver has to cull rects against current viewport.
// The bit is set only for pure devices
//
#define D3DNTCLEAR_COMPUTERECTS 0x00000008l
typedef struct _D3DNTHAL_DP2MULTIPLYTRANSFORM
{
D3DTRANSFORMSTATETYPE xfrmType;
D3DMATRIX matrix;
} D3DNTHAL_DP2MULTIPLYTRANSFORM;
typedef D3DNTHAL_DP2MULTIPLYTRANSFORM *LPD3DNTHAL_DP2MULTIPLYTRANSFORM;
// Used by SetVertexShader and DeleteVertexShader
typedef struct _D3DNTHAL_DP2VERTEXSHADER
{
// Vertex shader handle.
// The handle could be 0, meaning that the current vertex shader is invalid
// (not set). When driver recieves handle 0, it should invalidate all
// streams pointer
DWORD dwHandle;
} D3DNTHAL_DP2VERTEXSHADER;
typedef D3DNTHAL_DP2VERTEXSHADER *LPD3DNTHAL_DP2VERTEXSHADER;
typedef struct _D3DNTHAL_DP2CREATEVERTEXSHADER
{
DWORD dwHandle; // Shader handle
DWORD dwDeclSize; // Shader declaration size in bytes
DWORD dwCodeSize; // Shader code size in bytes
// Declaration follows
// Shader code follows
} D3DNTHAL_DP2CREATEVERTEXSHADER;
typedef D3DNTHAL_DP2CREATEVERTEXSHADER *LPD3DNTHAL_DP2CREATEVERTEXSHADER;
typedef struct _D3DNTHAL_DP2SETVERTEXSHADERCONST
{
DWORD dwRegister; // Const register to start copying
DWORD dwCount; // Number of 4-float vectors to copy
// Data follows
} D3DNTHAL_DP2SETVERTEXSHADERCONST;
typedef D3DNTHAL_DP2SETVERTEXSHADERCONST *LPD3DNTHAL_DP2SETVERTEXSHADERCONST;
typedef struct _D3DNTHAL_DP2SETSTREAMSOURCE
{
DWORD dwStream; // Stream index, starting from zero
DWORD dwVBHandle; // Vertex buffer handle
DWORD dwStride; // Vertex size in bytes
} D3DNTHAL_DP2SETSTREAMSOURCE;
typedef D3DNTHAL_DP2SETSTREAMSOURCE *LPD3DNTHAL_DP2SETSTREAMSOURCE;
typedef struct _D3DNTHAL_DP2SETSTREAMSOURCEUM
{
DWORD dwStream; // Stream index, starting from zero
DWORD dwStride; // Vertex size in bytes
} D3DNTHAL_DP2SETSTREAMSOURCEUM;
typedef D3DNTHAL_DP2SETSTREAMSOURCEUM *LPD3DNTHAL_DP2SETSTREAMSOURCEUM;
typedef struct _D3DNTHAL_DP2SETINDICES
{
DWORD dwVBHandle; // Index buffer handle
DWORD dwStride; // Index size in bytes (2 or 4)
} D3DNTHAL_DP2SETINDICES;
typedef D3DNTHAL_DP2SETINDICES *LPD3DNTHAL_DP2SETINDICES;
typedef struct _D3DNTHAL_DP2DRAWPRIMITIVE
{
D3DPRIMITIVETYPE primType;
DWORD VStart;
DWORD PrimitiveCount;
} D3DNTHAL_DP2DRAWPRIMITIVE;
typedef D3DNTHAL_DP2DRAWPRIMITIVE *LPD3DNTHAL_DP2DRAWPRIMITIVE;
typedef struct _D3DNTHAL_DP2DRAWINDEXEDPRIMITIVE
{
D3DPRIMITIVETYPE primType;
INT BaseVertexIndex; // Vertex which corresponds to index 0
DWORD MinIndex; // Min vertex index in the vertex buffer
DWORD NumVertices; // Number of vertices starting from MinIndex
DWORD StartIndex; // Start index in the index buffer
DWORD PrimitiveCount;
} D3DNTHAL_DP2DRAWINDEXEDPRIMITIVE;
typedef D3DNTHAL_DP2DRAWINDEXEDPRIMITIVE *LPD3DNTHAL_DP2DRAWINDEXEDPRIMITIVE;
typedef struct _D3DNTHAL_CLIPPEDTRIANGLEFAN
{
DWORD FirstVertexOffset; // Offset in bytes in the current stream 0
DWORD dwEdgeFlags;
DWORD PrimitiveCount;
} D3DNTHAL_CLIPPEDTRIANGLEFAN;
typedef D3DNTHAL_CLIPPEDTRIANGLEFAN *LPD3DNTHAL_CLIPPEDTRIANGLEFAN;
typedef struct _D3DNTHAL_DP2DRAWPRIMITIVE2
{
D3DPRIMITIVETYPE primType;
DWORD FirstVertexOffset; // Offset in bytes in the stream 0
DWORD PrimitiveCount;
} D3DNTHAL_DP2DRAWPRIMITIVE2;
typedef D3DNTHAL_DP2DRAWPRIMITIVE2 *LPD3DNTHAL_DP2DRAWPRIMITIVE2;
typedef struct _D3DNTHAL_DP2DRAWINDEXEDPRIMITIVE2
{
D3DPRIMITIVETYPE primType;
INT BaseVertexOffset; // Stream 0 offset of the vertex which
// corresponds to index 0. This offset could be
// negative, but when an index is added to the
// offset the result is positive
DWORD MinIndex; // Min vertex index in the vertex buffer
DWORD NumVertices; // Number of vertices starting from MinIndex
DWORD StartIndexOffset; // Offset of the start index in the index buffer
DWORD PrimitiveCount; // Number of triangles (points, lines)
} D3DNTHAL_DP2DRAWINDEXEDPRIMITIVE2;
typedef D3DNTHAL_DP2DRAWINDEXEDPRIMITIVE2 *LPD3DNTHAL_DP2DRAWINDEXEDPRIMITIVE2;
// Used by SetPixelShader and DeletePixelShader
typedef struct _D3DNTHAL_DP2PIXELSHADER
{
// Pixel shader handle.
// The handle could be 0, meaning that the current pixel shader is invalid
// (not set).
DWORD dwHandle;
} D3DNTHAL_DP2PIXELSHADER;
typedef D3DNTHAL_DP2PIXELSHADER *LPD3DNTHAL_DP2PIXELSHADER;
typedef struct _D3DNTHAL_DP2CREATEPIXELSHADER
{
DWORD dwHandle; // Shader handle
DWORD dwCodeSize; // Shader code size in bytes
// Shader code follows
} D3DNTHAL_DP2CREATEPIXELSHADER;
typedef D3DNTHAL_DP2CREATEPIXELSHADER *LPD3DNTHAL_DP2CREATEPIXELSHADER;
typedef struct _D3DNTHAL_DP2SETPIXELSHADERCONST
{
DWORD dwRegister; // Const register to start copying
DWORD dwCount; // Number of 4-float vectors to copy
// Data follows
} D3DNTHAL_DP2SETPIXELSHADERCONST;
typedef D3DNTHAL_DP2SETPIXELSHADERCONST *LPD3DNTHAL_DP2SETPIXELSHADERCONST;
// Flags that can be supplied to DRAWRECTPATCH and DRAWTRIPATCH
#define _NT_RTPATCHFLAG_HASSEGS 0x00000001L
#define _NT_RTPATCHFLAG_HASINFO 0x00000002L
typedef struct _D3DNTHAL_DP2DRAWRECTPATCH
{
DWORD Handle;
DWORD Flags;
// Optionally followed by D3DFLOAT[4] NumSegments and/or D3DRECTPATCH_INFO
} D3DNTHAL_DP2DRAWRECTPATCH;
typedef D3DNTHAL_DP2DRAWRECTPATCH *LPD3DNTHAL_DP2DRAWRECTPATCH;
typedef struct _D3DNTHAL_DP2DRAWTRIPATCH
{
DWORD Handle;
DWORD Flags;
// Optionally followed by D3DFLOAT[3] NumSegments and/or D3DTRIPATCH_INFO
} D3DNTHAL_DP2DRAWTRIPATCH;
typedef D3DNTHAL_DP2DRAWTRIPATCH *LPD3DNTHAL_DP2DRAWTRIPATCH;
typedef struct _D3DNTHAL_DP2VOLUMEBLT
{
DWORD dwDDDestSurface;// dest surface
DWORD dwDDSrcSurface; // src surface
DWORD dwDestX; // dest X (width)
DWORD dwDestY; // dest Y (height)
DWORD dwDestZ; // dest Z (depth)
D3DBOX srcBox; // src box
DWORD dwFlags; // blt flags
} D3DNTHAL_DP2VOLUMEBLT;
typedef D3DNTHAL_DP2VOLUMEBLT *LPD3DNTHAL_DP2VOLUMEBLT;
typedef struct _D3DNTHAL_DP2BUFFERBLT
{
DWORD dwDDDestSurface; // dest surface
DWORD dwDDSrcSurface; // src surface
DWORD dwOffset; // Offset in the dest surface (in BYTES)
D3DRANGE rSrc; // src range
DWORD dwFlags; // blt flags
} D3DNTHAL_DP2BUFFERBLT;
typedef D3DNTHAL_DP2BUFFERBLT *LPD3DNTHAL_DP2BUFFERBLT;
typedef struct _D3DNTHAL_DP2ADDDIRTYRECT
{
DWORD dwSurface; // Driver managed surface
RECTL rDirtyArea; // Area marked dirty
} D3DNTHAL_DP2ADDDIRTYRECT;
typedef D3DNTHAL_DP2ADDDIRTYRECT *LPD3DNTHAL_DP2ADDDIRTYRECT;
typedef struct _D3DNTHAL_DP2ADDDIRTYBOX
{
DWORD dwSurface; // Driver managed volume
D3DBOX DirtyBox; // Box marked dirty
} D3DNTHAL_DP2ADDDIRTYBOX;
typedef D3DNTHAL_DP2ADDDIRTYBOX *LPD3DNTHAL_DP2ADDDIRTYBOX;
// Macros to access vertex shader binary code
#define _NT_D3DSI_GETREGTYPE(token) (token & D3DSP_REGTYPE_MASK)
#define _NT_D3DSI_GETREGNUM(token) (token & D3DSP_REGNUM_MASK)
#define _NT_D3DSI_GETOPCODE(command) (command & D3DSI_OPCODE_MASK)
#define _NT_D3DSI_GETWRITEMASK(token) (token & D3DSP_WRITEMASK_ALL)
#define _NT_D3DVS_GETSWIZZLECOMP(source, component) (source >> ((component << 1) + 16) & 0x3)
#define _NT_D3DVS_GETSWIZZLE(token) (token & D3DVS_SWIZZLE_MASK)
#define _NT_D3DVS_GETSRCMODIFIER(token) (token & D3DSP_SRCMOD_MASK)
#define _NT_D3DVS_GETADDRESSMODE(token) (token & D3DVS_ADDRESSMODE_MASK)
#define _NT_D3DRS_DELETERTPATCH 169 // DDI only to delete high order patch
//-----------------------------------------------------------------------------
//
// DirectX 8.0's new driver info querying mechanism.
//
// How to handle the new driver info query mechanism.
//
// DirectX 8.0 utilizes an extension to GetDriverInfo() to query for
// additional information from the driver. Currently this mechanism is only
// used for querying for DX8 style D3D caps but it may be used for other
// information over time.
//
// This extension to GetDriverInfo takes the form of a GetDriverInfo call
// with the GUID GUID_GetDriverInfo2. When a GetDriverInfo call with this
// GUID is received by the driver the driver must check the data passed
// in the lpvData field of the DD_GETDRIVERINFODATA data structure to see
// what information is being requested.
//
// It is important to note that the GUID GUID_GetDriverInfo2 is, in fact,
// the same as the GUID_DDStereoMode. If you driver doesn't handle
// GUID_DDStereoMode this is not an issue. However, if you wish your driver
// to handle GUID_DDStereoMode as well as GUID_GetDriverInfo2 special action
// must be taken. When a call tp GetDriverInfo with the GUID
// GUID_GetDriverInfo2/GUID_DDStereoMode is made the runtime sets the
// dwHeight field of the DD_STEREOMODE structure to the special value
// D3DGDI2_MAGIC. In this way you can determine when the request is a
// stereo mode call or a GetDriverInfo2 call. The dwHeight field of
// DD_STEREOMODE corresponds to the dwMagic field of the
// DD_GETDRIVERINFO2DATA structure.
//
// The dwExpectedSize field of the DD_GETDRIVERINFODATA structure is not
// used by when a GetDriverInfo2 request is being made and should be
// ignored. The actual expected size of the data is found in the
// dwExpectedSize of the DD_GETDRIVERINFO2DATA structure.
//
// Once the driver has determined that this is a call to
// GetDriverInfo2 it must then determine the type of information being
// requested by the runtime. This type is contained in the dwType field
// of the DD_GETDRIVERINFO2DATA data structure.
//
// Finally, once the driver knows this is a GetDriverInfo2 request of a
// particular type it can copy the requested data into the data buffer.
// It is important to note that the lpvData field of the DD_GETDRIVERINFODATA
// data structure points to data buffer in which to copy your data. lpvData
// also points to the DD_GETDRIVERINFO2DATA structure. This means that the
// data returned by the driver will overwrite the DD_GETDRIVERINFO2DATA
// structure and, hence, the DD_GETDRIVERINFO2DATA structure occupies the
// first few DWORDs of the buffer.
//
// The following code fragment demonstrates how to handle GetDriverInfo2.
//
// D3DCAPS8 myD3DCaps8;
//
// DWORD CALLBACK
// DdGetDriverInfo(LPDDHAL_GETDRIVERINFODATA lpData)
// {
// if (MATCH_GUID((lpData->guidInfo), GUID_GetDriverInfo2) )
// {
// ASSERT(NULL != lpData);
// ASSERT(NULL != lpData->lpvData);
//
// // Is this a call to GetDriverInfo2 or DDStereoMode?
// if (((DD_GETDRIVERINFO2DATA*)(lpData->lpvData))->dwMagic == D3DGDI2_MAGIC)
// {
// // Yes, its a call to GetDriverInfo2, fetch the
// // DD_GETDRIVERINFO2DATA data structure.
// DD_GETDRIVERINFO2DATA* pgdi2 = lpData->lpvData;
// ASSERT(NULL != pgdi2);
//
// // What type of request is this?
// switch (pgdi2->dwType)
// {
// case D3DGDI2_TYPE_GETD3DCAPS8:
// {
// // The runtime is requesting the DX8 D3D caps so
// // copy them over now.
//
// // It should be noted that the dwExpectedSize field
// // of DD_GETDRIVERINFODATA is not used for
// // GetDriverInfo2 calls and should be ignored.
// size_t copySize = min(sizeof(myD3DCaps8), pgdi2->dwExpectedSize);
// memcpy(lpData->lpvData, &myD3DCaps8, copySize);
// lpData->dwActualSize = copySize;
// lpData->ddRVal = DD_OK;
// return DDHAL_DRIVER_HANDLED;
// }
// default:
// // For any other GetDriverInfo2 types not handled
// // or understood by the driver set an ddRVal of
// // DDERR_CURRENTLYNOTAVAIL and return
// // DDHAL_DRIVER_HANDLED.
// return DDHAL_DRIVER_HANDLED;
// }
// }
// else
// {
// // It must be a call a request for stereo mode support.
// // Fetch the stereo mode data
// DD_STEREOMODE* pStereoMode = lpData->lpvData;
// ASSERT(NULL != pStereoMode);
//
// // Process the stereo mode request...
// lpData->dwActualSize = sizeof(DD_STEREOMODE);
// lpData->ddRVal = DD_OK;
// return DDHAL_DRIVER_HANDLED;
// }
// }
//
// // Handle any other device GUIDs...
//
// } // DdGetDriverInfo
//
//-----------------------------------------------------------------------------
//
// The data structure which is passed to the driver when GetDriverInfo is
// called with a GUID of GUID_GetDriverInfo2.
//
// NOTE: Although the fields listed below are all read only this data
// structure is actually the first four DWORDs of the data buffer into
// which the driver writes the requested infomation. As such, these fields
// (and the entire data structure) are overwritten by the data returned by
// the driver.
//
typedef struct _DDNT_GETDRIVERINFO2DATA
{
DWORD dwReserved; // Reserved Field.
// Driver should not read or write this field.
DWORD dwMagic; // Magic Number. Has the value D3DGDI2_MAGIC if
// this is a GetDriverInfo2 call. Otherwise
// this structure is, in fact, a DD_STEREOMODE
// call.
// Driver should only read this field.
DWORD dwType; // Type of information requested. This field
// contains one of the DDGDI2_TYPE_ #defines
// listed below.
// Driver should only read (not write) this
// field.
DWORD dwExpectedSize; // Expected size of the information requested.
// Driver should only read (not write) this
// field.
// The remainder of the data buffer (beyond the first four DWORDs)
// follows here.
} DDNT_GETDRIVERINFO2DATA;
//
// IMPORTANT NOTE: This GUID has exactly the same value as GUID_DDStereoMode
// and as such you must be very careful when using it. If your driver needs
// to handle both GetDriverInfo2 and DDStereoMode it must have a single
// check for the shared GUID and then distinguish between which use of that
// GUID is being requested.
//
#define _NT_GUID_GetDriverInfo2 (GUID_DDStereoMode)
//
// Magic value used to determine whether a GetDriverInfo call with the
// GUID GUID_GetDriverInfo2/GUID_DDStereoMode is a GetDriverInfo2 request
// or a query about stereo capabilities. This magic number is stored in
// the dwHeight field of the DD_STEREOMODE data structure.
//
#define _NT_D3DGDI2_MAGIC (0xFFFFFFFFul)
//
// The types of information which can be requested from the driver via
// GetDriverInfo2.
//
#define _NT_D3DGDI2_TYPE_GETD3DCAPS8 (0x00000001ul) // Return the D3DCAPS8 data
#define _NT_D3DGDI2_TYPE_GETFORMATCOUNT (0x00000002ul) // Return the number of supported formats
#define _NT_D3DGDI2_TYPE_GETFORMAT (0x00000003ul) // Return a particular format
#define _NT_D3DGDI2_TYPE_DXVERSION (0x00000004ul) // Notify driver of current DX Version
#define _NT_D3DGDI2_TYPE_DEFERRED_AGP_AWARE (0x00000018ul) // Runtime is aware of deferred AGP frees, and will send following
#define _NT_D3DGDI2_TYPE_FREE_DEFERRED_AGP (0x00000019ul) // Free any deferred-freed AGP allocations for this process
#define _NT_D3DGDI2_TYPE_DEFER_AGP_FREES (0x00000020ul) // Start Deferring AGP frees for this process
//
// This data structure is returned by the driver in response to a
// GetDriverInfo2 query with the type D3DGDI2_TYPE_GETFORMATCOUNT. It simply
// gives the number of surface formats supported by the driver. Currently this
// structure consists of a single member giving the number of supported
// surface formats.
//
typedef struct _DDNT_GETFORMATCOUNTDATA
{
DDNT_GETDRIVERINFO2DATA gdi2; // [in/out] GetDriverInfo2 data
DWORD dwFormatCount; // [out] Number of supported surface formats
DWORD dwReserved; // Reserved
} DDNT_GETFORMATCOUNTDATA;
//
// This data structure is used to request a specific surface format from the
// driver. It is guaranteed that the requested format will be greater than or
// equal to zero and less that the format count reported by the driver from
// the preceeding D3DGDI2_TYPE_GETFORMATCOUNT request.
//
typedef struct _DDNT_GETFORMATDATA
{
DDNT_GETDRIVERINFO2DATA gdi2; // [in/out] GetDriverInfo2 data
DWORD dwFormatIndex; // [in] The format to return
DDPIXELFORMAT format; // [out] The actual format
} DDNT_GETFORMATDATA;
//
// This data structure is used to notify drivers about the DirectX version
// number. This is the value that is denoted as DD_RUNTIME_VERSION in the
// DDK headers.
//
typedef struct _DDNT_DXVERSION
{
DDNT_GETDRIVERINFO2DATA gdi2; // [in/out] GetDriverInfo2 data
DWORD dwDXVersion; // [in] The Version of DX
DWORD dwReserved; // Reserved
} DDNT_DXVERSION;
// Informs driver that runtime will send a notification after last outstanding AGP
// lock has been released.
typedef struct _DDNT_DEFERRED_AGP_AWARE_DATA
{
DDNT_GETDRIVERINFO2DATA gdi2; // [in/out] GetDriverInfo2 data
} DDNT_DEFERRED_AGP_AWARE_DATA;
// Notification that the last AGP lock has been released. Driver can free all deferred AGP
// allocations for this process.
typedef struct _DDNT_FREE_DEFERRED_AGP_DATA
{
DDNT_GETDRIVERINFO2DATA gdi2; // [in/out] GetDriverInfo2 data
DWORD dwProcessId; // [in] Process ID for whom to free deferred AGP
} DDNT_FREE_DEFERRED_AGP_DATA;
// New Caps that are not API visible that the driver exposes.
#define _NT_D3DDEVCAPS_HWVERTEXBUFFER 0x02000000L /* Device supports Driver Allocated Vertex Buffers*/
#define _NT_D3DDEVCAPS_HWINDEXBUFFER 0x04000000L /* Device supports Driver Allocated Index Buffers*/
#define _NT_D3DDEVCAPS_SUBVOLUMELOCK 0x08000000L /* Device supports locking a part of volume texture */
#define _NT_D3DPMISCCAPS_FOGINFVF 0x00002000L // Device supports separate fog value in the FVF
// New FVF flags that are not API visible but accessed by the driver
// Note, that D3DFVF_RESERVED2 includes this flag and should not be used for validation
#define _NT_D3DFVF_FOG 0x00002000L // There is a separate fog value in the FVF vertex
//
// This stuff is not API visible but should be DDI visible.
// Should be in Sync with d3d8types.h
//
#define _NT_D3DFMT_D32 (D3DFORMAT)71
#define _NT_D3DFMT_S1D15 (D3DFORMAT)72
#define _NT_D3DFMT_D15S1 (D3DFORMAT)73
#define _NT_D3DFMT_S8D24 (D3DFORMAT)74
#define _NT_D3DFMT_D24S8 (D3DFORMAT)75
#define _NT_D3DFMT_X8D24 (D3DFORMAT)76
#define _NT_D3DFMT_D24X8 (D3DFORMAT)77
#define _NT_D3DFMT_X4S4D24 (D3DFORMAT)78
#define _NT_D3DFMT_D24X4S4 (D3DFORMAT)79
// Vertex Shader 1.1 register limits. D3D device must provide at least
// specified number of registers
//
#define _NT_D3DVS_INPUTREG_MAX_V1_1 16
#define _NT_D3DVS_TEMPREG_MAX_V1_1 12
// This max required number. Device could have more registers. Check caps.
#define _NT_D3DVS_CONSTREG_MAX_V1_1 96
#define _NT_D3DVS_TCRDOUTREG_MAX_V1_1 8
#define _NT_D3DVS_ADDRREG_MAX_V1_1 1
#define _NT_D3DVS_ATTROUTREG_MAX_V1_1 2
#define _NT_D3DVS_MAXINSTRUCTIONCOUNT_V1_1 128
// Pixel Shader DX8 register limits. D3D device will have at most these
// specified number of registers
//
#define _NT_D3DPS_INPUTREG_MAX_DX8 8
#define _NT_D3DPS_TEMPREG_MAX_DX8 8
#define _NT_D3DPS_CONSTREG_MAX_DX8 8
#define _NT_D3DPS_TEXTUREREG_MAX_DX8 8
#endif // (DIRECT3D_VERSION >= 0x0800 )
#endif /* _D3DNTHAL_H */