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android / platform / hardware / intel / img / psb_video / refs/tags/android-p-preview-3 / . / src / mrst / pvr2d.h
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/*
* Copyright (c) 2011 Intel Corporation. All Rights Reserved.
* Copyright (c) Imagination Technologies Limited, UK
*
* 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, sub license, 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 (including the
* next paragraph) 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 NON-INFRINGEMENT.
* IN NO EVENT SHALL PRECISION INSIGHT AND/OR ITS SUPPLIERS 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.
*/
#ifndef _PVR2D_H_
#define _PVR2D_H_
#ifdef __cplusplus
extern "C" {
#endif
/* PVR2D Platform-specific definitions */
#if defined (__linux__)
#define PVR2D_EXPORT __attribute__((visibility("default")))
#define PVR2D_IMPORT
#else
#define PVR2D_EXPORT
#define PVR2D_IMPORT
#endif
/* PVR2D header revision */
#define PVR2D_REV_MAJOR 3
#define PVR2D_REV_MINOR 5
/* Basic types */
typedef enum
{
PVR2D_FALSE = 0,
PVR2D_TRUE
}
PVR2D_BOOL;
typedef void* PVR2D_HANDLE;
typedef char PVR2D_CHAR, *PVR2D_PCHAR;
typedef unsigned char PVR2D_UCHAR, *PVR2D_PUCHAR;
typedef int PVR2D_INT, *PVR2D_PINT;
typedef unsigned int PVR2D_UINT, *PVR2D_PUINT;
typedef long PVR2D_LONG, *PVR2D_PLONG;
typedef unsigned long PVR2D_ULONG, *PVR2D_PULONG;
typedef void PVR2D_VOID, *PVR2D_PVOID;
/* error codes */
typedef enum {
PVR2D_OK = 0,
PVR2DERROR_INVALID_PARAMETER = -1,
PVR2DERROR_DEVICE_UNAVAILABLE = -2,
PVR2DERROR_INVALID_CONTEXT = -3,
PVR2DERROR_MEMORY_UNAVAILABLE = -4,
PVR2DERROR_DEVICE_NOT_PRESENT = -5,
PVR2DERROR_IOCTL_ERROR = -6,
PVR2DERROR_GENERIC_ERROR = -7,
PVR2DERROR_BLT_NOTCOMPLETE = -8,
PVR2DERROR_HW_FEATURE_NOT_SUPPORTED = -9,
PVR2DERROR_NOT_YET_IMPLEMENTED = -10,
PVR2DERROR_MAPPING_FAILED = -11
} PVR2DERROR;
/* 32 bit PVR2D pixel format specifier */
typedef unsigned long PVR2DFORMAT;
/* Standard PVR2D pixel formats */
#define PVR2D_1BPP 0x00UL // 1bpp mask surface or palletized 1 bit source with 2x32 bit CLUT
#define PVR2D_RGB565 0x01UL // Common rgb 565 format
#define PVR2D_ARGB4444 0x02UL // Common argb 4444 format
#define PVR2D_RGB888 0x03UL // Common rgb 888 format (not supported)
#define PVR2D_ARGB8888 0x04UL // Common argb 8888 format
#define PVR2D_ARGB1555 0x05UL // Common argb 1555 format
#define PVR2D_ALPHA8 0x06UL // Alpha-only 8 bit per pixel (used with a constant fill colour)
#define PVR2D_ALPHA4 0x07UL // Alpha-only 4 bits per pixel (used with a constant fill colour)
#define PVR2D_PAL2 0x08UL // Palletized 2 bit format (requires 4x32 bit CLUT)
#define PVR2D_PAL4 0x09UL // Palletized 4 bit format (requires 16x32 bit CLUT)
#define PVR2D_PAL8 0x0AUL // Palletized 8 bit format (requires 256x32 bit CLUT)
#define PVR2D_U8 0x10UL // monochrome unsigned 8 bit
#define PVR2D_U88 0x11UL // monochrome unsigned 16 bit
#define PVR2D_S8 0x12UL // signed 8 bit
#define PVR2D_YUV422_YUYV 0x13UL // YUV 422 low-high byte order Y0UY1V
#define PVR2D_YUV422_UYVY 0x14UL // YUV 422 low-high byte order UY0VY1
#define PVR2D_YUV422_YVYU 0x15UL // YUV 422 low-high byte order Y0VY1U
#define PVR2D_YUV422_VYUY 0x16UL // YUV 422 low-high byte order VY0UY1
#define PVR2D_YUV420_2PLANE 0x17UL // YUV420 2 Plane
#define PVR2D_YUV420_3PLANE 0x18UL // YUV420 3 Plane
#define PVR2D_2101010ARGB 0x19UL // 32 bit 2 10 10 10
#define PVR2D_888RSGSBS 0x1AUL
#define PVR2D_16BPP_RAW 0x1BUL // 16 bit raw (no format conversion)
#define PVR2D_32BPP_RAW 0x1CUL // 32 bit raw
#define PVR2D_64BPP_RAW 0x1DUL // 64 bit raw
#define PVR2D_128BPP_RAW 0x1EUL // 128 bit raw
#define PVR2D_RGBA8888 0x1FUL // Common rgba 888 format
#define PVR2D_NV12_U8V8 0x20UL // NV12 Plane U8V8
#define PVR2D_NO_OF_FORMATS 0x21UL
/* Format modifier bit field (DstFormat and SrcFormat bits 16..23) */
#define PVR2D_FORMAT_MASK 0x0000FFFFUL // PVR2D Format bits
#define PVR2D_FORMAT_LAYOUT_MASK 0x000F0000UL // Format layout (strided / twiddled / tiled)
#define PVR2D_FORMAT_FLAGS_MASK 0x0FF00000UL // Surface Flags mask
/* Layout */
#define PVR2D_FORMAT_LAYOUT_SHIFT 16
#define PVR2D_FORMAT_LAYOUT_STRIDED 0x00000000UL
#define PVR2D_FORMAT_LAYOUT_TILED 0x00010000UL
#define PVR2D_FORMAT_LAYOUT_TWIDDLED 0x00020000UL
/*
PVR2D_SURFACE_PDUMP
This flag requests a surface pdump, to capture the pixel state after host writes.
Not needed if the surface state has resulted from previous SGX 2D/3D core writes.
*/
#define PVR2D_SURFACE_PDUMP 0x00100000UL // calls PVRSRVPDumpMem to capture the surface (pdump builds only)
/*
Low level 3D format extension - for blts via the 3D core only.
If the top bit of the format field is set then PVR2D reads it as a PVRSRV_PIXEL_FORMAT.
The outcome is hardware dependant.
There is no guarantee that any specific PVRSRV format will be supported.
*/
#define PVR2D_FORMAT_PVRSRV 0x80000000
/* wrap surface type */
typedef enum {
PVR2D_WRAPFLAG_NONCONTIGUOUS = 0,
PVR2D_WRAPFLAG_CONTIGUOUS = 1,
} PVR2DWRAPFLAGS;
#define PVR2D_CONTEXT_FLAGS_PRIORITY_MASK 0x00000003
#define PVR2D_CONTEXT_FLAGS_LOW_PRIORITY_CONTEXT 1
#define PVR2D_CONTEXT_FLAGS_NORMAL_PRIORITY_CONTEXT 0
#define PVR2D_CONTEXT_FLAGS_HIGH_PRIORITY_CONTEXT 2
/* flags for control information of additional blits */
typedef enum {
PVR2D_BLIT_DISABLE_ALL = 0x00000000, /* disable all additional controls */
PVR2D_BLIT_CK_ENABLE = 0x00000001, /* enable colour key */
PVR2D_BLIT_GLOBAL_ALPHA_ENABLE = 0x00000002, /* enable standard global alpha */
PVR2D_BLIT_PERPIXEL_ALPHABLEND_ENABLE = 0x00000004, /* enable per-pixel alpha bleding */
PVR2D_BLIT_PAT_SURFACE_ENABLE = 0x00000008, /* enable pattern surf (disable fill) */
PVR2D_BLIT_FULLY_SPECIFIED_ALPHA_ENABLE = 0x00000010, /* enable fully specified alpha */
PVR2D_BLIT_ROT_90 = 0x00000020, /* apply 90 degree rotation to the blt */
PVR2D_BLIT_ROT_180 = 0x00000040, /* apply 180 degree rotation to the blt */
PVR2D_BLIT_ROT_270 = 0x00000080, /* apply 270 degree rotation to the blt */
PVR2D_BLIT_COPYORDER_TL2BR = 0x00000100, /* copy order overrides */
PVR2D_BLIT_COPYORDER_BR2TL = 0x00000200,
PVR2D_BLIT_COPYORDER_TR2BL = 0x00000400,
PVR2D_BLIT_COPYORDER_BL2TR = 0x00000800,
PVR2D_BLIT_COLKEY_SOURCE = 0x00001000, /* Key colour is on the source surface */
PVR2D_BLIT_COLKEY_DEST = 0x00002000, /* Key colour is on the destination surface */
PVR2D_BLIT_COLKEY_MASKED = 0x00004000, /* Mask enabled for colour key */
PVR2D_BLIT_COLKEY_OP_PASS = 0x00008000, /* Colour key op = pass */
PVR2D_BLIT_COLKEY_OP_REJECT = 0x00010000, /* Colour key op = reject */
PVR2D_BLIT_PATH_2DCORE = 0x00100000, /* Blt via dedicated 2D Core or PTLA */
PVR2D_BLIT_PATH_3DCORE = 0x00200000, /* Blt via 3D Core */
PVR2D_BLIT_PATH_SWBLT = 0x00400000, /* Blt via host software */
PVR2D_BLIT_NO_SRC_SYNC_INFO = 0x00800000, /* Dont send a source sync info*/
PVR2D_BLIT_ISSUE_STATUS_UPDATES = 0x01000000, /* Issue status updates */
PVR2D_BLIT_FORCE_ALPHA_FF = 0x02000000, /* set the alpha channel to 0xFF */
} PVR2DBLITFLAGS;
/* standard alpha-blending functions, AlphaBlendingFunc field of PVR2DBLTINFO */
typedef enum {
PVR2D_ALPHA_OP_SRC_DSTINV = 1, /* source alpha : Cdst = Csrc*Asrc + Cdst*(1-Asrc) */
PVR2D_ALPHA_OP_SRCP_DSTINV = 2, /* premultiplied source alpha : Cdst = Csrc + Cdst*(1-Asrc) */
PVR2D_ALPHA_OP_GLOBAL = 3, /* global alpha: Cdst = Csrc*Aglob + Cdst*(1-Aglob) */
PVR2D_ALPHA_OP_SRCP_GLOBAL = 4 /* premultiplied source with global alpha: Cdst = Csrc*Aglob + Cdst*(1-Asrc)*(1-Aglob) */
} PVR2D_ALPHABLENDFUNC;
/* blend ops for fully specified alpha (SGX 2D Core only) */
typedef enum {
PVR2D_BLEND_OP_ZERO = 0,
PVR2D_BLEND_OP_ONE = 1,
PVR2D_BLEND_OP_SRC = 2,
PVR2D_BLEND_OP_DST = 3,
PVR2D_BLEND_OP_GLOBAL = 4,
PVR2D_BLEND_OP_SRC_PLUS_GLOBAL = 5,
PVR2D_BLEND_OP_DST_PLUS_GLOBAL = 6
} PVR2D_BLEND_OP;
/* SGX 2D Core Fully specified alpha blend : pAlpha field of PVR2DBLTINFO structure */
/* a fully specified Alpha Blend operation is defined as */
/* DST (ALPHA) = (ALPHA_1 * SRC (ALPHA)) + (ALPHA_3 * DST (ALPHA)) */
/* DST (RGB) = (ALPHA_2 * SRC (RGB)) + (ALPHA_4 * DST (RGB)) */
/* if the pre-multiplication stage is enabled then the equations become the following: */
/* PRE_MUL = ((SRC(A)) * (Global Alpha Value)) */
/* DST (ALPHA) = (ALPHA_1 * SRC (ALPHA)) + (PRE_MUL * DST (ALPHA)) */
/* DST (RGB) = (ALPHA_2 * SRC (RGB)) + (PRE_MUL * DST (RGB)) */
/* if the transparent source alpha stage is enabled then a source alpha of zero forces the */
/* source to be transparent for that pixel regardless of the blend equation being used. */
typedef struct _PVR2D_ALPHABLT {
PVR2D_BLEND_OP eAlpha1;
PVR2D_BOOL bAlpha1Invert;
PVR2D_BLEND_OP eAlpha2;
PVR2D_BOOL bAlpha2Invert;
PVR2D_BLEND_OP eAlpha3;
PVR2D_BOOL bAlpha3Invert;
PVR2D_BLEND_OP eAlpha4;
PVR2D_BOOL bAlpha4Invert;
PVR2D_BOOL bPremulAlpha; /* enable pre-multiplication stage */
PVR2D_BOOL bTransAlpha; /* enable transparent source alpha stage */
PVR2D_BOOL bUpdateAlphaLookup; /* enable and update the 1555-Lookup alpha table */
PVR2D_UCHAR uAlphaLookup0; /* 8 bit alpha when A=0 in a 1555-Lookup surface */
PVR2D_UCHAR uAlphaLookup1; /* 8 bit alpha when A=1 in a 1555-Lookup surface */
PVR2D_UCHAR uGlobalRGB; /* Global Alpha Value for RGB, 0=transparent 255=opaque */
PVR2D_UCHAR uGlobalA; /* Global Alpha Value for Alpha */
} PVR2D_ALPHABLT, *PPVR2D_ALPHABLT;
/* surface memory info structure */
typedef struct _PVR2DMEMINFO {
PVR2D_VOID *pBase;
PVR2D_ULONG ui32MemSize;
PVR2D_ULONG ui32DevAddr;
PVR2D_ULONG ulFlags;
PVR2D_VOID *hPrivateData;
PVR2D_VOID *hPrivateMapData;
} PVR2DMEMINFO, *PPVR2DMEMINFO;
#define PVR2D_MAX_DEVICE_NAME 20
typedef struct _PVR2DDEVICEINFO {
PVR2D_ULONG ulDevID;
PVR2D_CHAR szDeviceName[PVR2D_MAX_DEVICE_NAME];
} PVR2DDEVICEINFO;
typedef struct _PVR2DISPLAYINFO {
PVR2D_ULONG ulMaxFlipChains;
PVR2D_ULONG ulMaxBuffersInChain;
PVR2DFORMAT eFormat;
PVR2D_ULONG ulWidth;
PVR2D_ULONG ulHeight;
PVR2D_LONG lStride;
PVR2D_ULONG ulMinFlipInterval;
PVR2D_ULONG ulMaxFlipInterval;
} PVR2DDISPLAYINFO;
typedef struct _PVR2MISCDISPLAYINFO {
PVR2D_ULONG ulPhysicalWidthmm;
PVR2D_ULONG ulPhysicalHeightmm;
PVR2D_ULONG ulUnused[10];
} PVR2DMISCDISPLAYINFO;
typedef struct _PVR2D_YUVPLANE {
PPVR2DMEMINFO pMem;
PVR2D_ULONG MemOffset;
PVR2D_LONG XStart, YStart;
} PVR2D_YUVPLANE, *PPVR2D_YUVPLANE;
/* these are the coefficients to be used in the FIRH instruction */
typedef struct _PVR2D_YUVCOEFFS {
PVR2D_CHAR rY;
PVR2D_CHAR rU;
PVR2D_CHAR rV;
PVR2D_CHAR gY;
PVR2D_CHAR gU;
PVR2D_CHAR gV;
PVR2D_CHAR bY;
PVR2D_CHAR bU;
PVR2D_CHAR bV;
PVR2D_UCHAR rShift;
PVR2D_UCHAR gShift;
PVR2D_UCHAR bShift;
signed short rConst;
signed short gConst;
signed short bConst;
} PVR2D_YUVCOEFFS, *PPVR2D_YUVCOEFFS;
typedef struct _PVR2D_AYUVsample8 {
PVR2D_UCHAR Cr;
PVR2D_UCHAR Cb;
PVR2D_UCHAR Y;
PVR2D_UCHAR Alpha;
} PVR2D_AYUVSample8;
typedef struct _PVR2DBLTINFO {
PVR2D_ULONG CopyCode; /* rop code */
PVR2D_ULONG Colour; /* fill colour */
PVR2D_ULONG ColourKey; /* colour key argb8888 (see CKEY_ defs below) */
PVR2D_UCHAR GlobalAlphaValue; /* global alpha blending */
PVR2D_UCHAR AlphaBlendingFunc; /* per-pixel alpha-blending function */
PVR2DBLITFLAGS BlitFlags; /* additional blit control information */
PVR2DMEMINFO *pDstMemInfo; /* destination memory */
PVR2D_ULONG DstOffset; /* byte offset from start of allocation to destination surface pixel 0,0 */
PVR2D_LONG DstStride; /* signed stride, the number of bytes from pixel 0,0 to 0,1 */
PVR2D_LONG DstX, DstY; /* pixel offset from start of dest surface to start of blt rectangle */
PVR2D_LONG DSizeX, DSizeY; /* blt size */
PVR2DFORMAT DstFormat; /* dest format */
PVR2D_ULONG DstSurfWidth; /* size of dest surface in pixels */
PVR2D_ULONG DstSurfHeight; /* size of dest surface in pixels */
PVR2DMEMINFO *pSrcMemInfo; /* source mem, (source fields are also used for patterns) */
PVR2D_ULONG SrcOffset; /* byte offset from start of allocation to src/pat surface pixel 0,0 */
PVR2D_LONG SrcStride; /* signed stride, the number of bytes from pixel 0,0 to 0,1 */
PVR2D_LONG SrcX, SrcY; /* pixel offset from start of surface to start of source rectangle */
/* for patterns this is the start offset within the pattern */
PVR2D_LONG SizeX, SizeY; /* source rectangle size or pattern size in pixels */
PVR2DFORMAT SrcFormat; /* source/pattern format */
PVR2DMEMINFO *pPalMemInfo; /* source/pattern palette memory containing argb8888 colour table */
PVR2D_ULONG PalOffset; /* byte offset from start of allocation to start of palette */
PVR2D_ULONG SrcSurfWidth; /* size of source surface in pixels */
PVR2D_ULONG SrcSurfHeight; /* size of source surface in pixels */
PVR2DMEMINFO *pMaskMemInfo; /* mask memory, 1bpp format implied */
PVR2D_ULONG MaskOffset; /* byte offset from start of allocation to mask surface pixel 0,0 */
PVR2D_LONG MaskStride; /* signed stride, the number of bytes from pixel 0,0 to 0,1 */
PVR2D_LONG MaskX, MaskY; /* mask rect top left (mask size = blt size) */
PVR2D_ULONG MaskSurfWidth; /* size of mask surface in pixels */
PVR2D_ULONG MaskSurfHeight; /* size of mask surface in pixels */
PPVR2D_ALPHABLT pAlpha; /* fully specified alpha blend (2DCore only) */
PVR2D_ULONG uSrcChromaPlane1; /* mem offset from start of source alloc to chroma plane 1 */
PVR2D_ULONG uSrcChromaPlane2; /* mem offset from start of source alloc to chroma plane 2 */
PVR2D_ULONG uDstChromaPlane1; /* mem offset from start of dest alloc to chroma plane 1 */
PVR2D_ULONG uDstChromaPlane2; /* mem offset from start of dest alloc to chroma plane 2 */
PVR2D_ULONG ColourKeyMask; /* 32 bit colour key mask, only valid when PVR2D_BLIT_COLKEY_MASKED is set */
} PVR2DBLTINFO, *PPVR2DBLTINFO;
typedef struct _PVR2DRECT {
PVR2D_LONG left, top;
PVR2D_LONG right, bottom;
} PVR2DRECT;
typedef struct {
PVR2DMEMINFO *pSurfMemInfo; /* surface memory */
PVR2D_ULONG SurfOffset; /* byte offset from start of allocation to destination surface pixel 0,0 */
PVR2D_LONG Stride; /* signed stride */
PVR2DFORMAT Format; /* format */
PVR2D_ULONG SurfWidth; /* surface width in pixels */
PVR2D_ULONG SurfHeight; /* surface height in pixels */
} PVR2D_SURFACE, *PPVR2D_SURFACE;
typedef struct {
PVR2D_ULONG uChromaPlane1; /* YUV multiplane - byte offset from start of alloc to chroma plane 1 */
PVR2D_ULONG uChromaPlane2; /* YUV multiplane - byte offset from start of alloc to chroma plane 2 */
PVR2D_LONG Reserved[2]; /* Reserved, must be zero */
} PVR2D_SURFACE_EXT, *PPVR2D_SURFACE_EXT;
typedef struct {
PVR2D_ULONG *pUseCode; /* USSE code */
PVR2D_ULONG UseCodeSize; /* usse code size in bytes */
} PVR2D_USECODE, *PPVR2D_USECODE;
typedef struct {
PVR2D_SURFACE sDst; /* destination surface */
PVR2D_SURFACE sSrc; /* source surface */
PVR2DRECT rcDest; /* destination rectangle */
PVR2DRECT rcSource; /* source rectangle */
PVR2D_HANDLE hUseCode; /* custom USE code (NULL implies source copy) */
PVR2D_ULONG UseParams[2]; /* per-blt params for use code */
PVR2D_UCHAR RotationValue; /* Rotation setting */
} PVR2D_3DBLT, *PPVR2D_3DBLT;
typedef struct {
PVR2D_SURFACE sDst; /* destination surface */
PVR2DRECT rcDest; /* destination rectangle; scaling is supported */
PVR2D_SURFACE sSrc; /* source surface */
PVR2DRECT rcSource; /* source rectangle; scaling is supported */
PPVR2D_SURFACE pSrc2; /* optional second source surface (NULL if not required) */
PVR2DRECT* prcSource2; /* optional pSrc2 rectangle */
PVR2D_HANDLE hUseCode; /* custom USSE shader code (NULL implies default source copy) */
PVR2D_ULONG UseParams[2]; /* per-blt params for usse code */
PVR2D_ULONG uiNumTemporaryRegisters; /* no. of temporary registers used in custom shader code */
PVR2D_BOOL bDisableDestInput; /* set true if the destination is output only */
PPVR2D_SURFACE_EXT pDstExt; /* Extended format params for dest */
PPVR2D_SURFACE_EXT pSrcExt[2]; /* Extended format params for source 1 and 2 */
PVR2D_LONG Reserved[4]; /* Reserved, must be zero */
} PVR2D_3DBLT_EXT, *PPVR2D_3DBLT_EXT;
typedef struct {
PVR2D_SURFACE sDst; /* destination surface */
PVR2D_SURFACE sSrc[3]; /* source surface */
PVR2DRECT rcDest; /* destination rectangle */
PVR2DRECT rcSource[3]; /* source rectangle */
PVR2D_UCHAR GlobalAlphaValue; /* global alpha blending */
PVR2D_UCHAR AlphaBlendingFunc; /* per-pixel alpha-blending function */
PVR2D_UCHAR bCoeffsGiven; /* passing custom coeffs to VPB */
PPVR2D_YUVCOEFFS psYUVCoeffs; /* YUV Coeffs needed for RGB conversion */
PVR2D_UINT uiNumLayers; /* no. of YUV planes */
PVR2D_UCHAR RotationValue; /* Rotation setting */
PVR2D_SURFACE sSrcSubpic[6]; /* subpic source surfaces */
PVR2D_UCHAR subpicGlobalAlpha[6]; /* global alpha value for each subpic */
PVR2DRECT rcSubpicSource[6]; /* source rectangle */
PVR2DRECT rcSubpicDest[6]; /* subpicture destination rectangle */
PPVR2DMEMINFO pPalMemInfo[6]; /* source/pattern palette memory containing argb8888 color table */
PVR2D_ULONG PalOffset[6]; /* byte offset from start of allocation to start of palette */
} PVR2D_VPBLT, *PPVR2D_VPBLT;
typedef struct {
PVR2D_SURFACE sDst; /* destination surface */
PVR2DRECT rcDest; /* destination rectangle */
PVR2DRECT rcSource; /* source rectangle */
PVR2D_UINT RotationValue; /* rotation angle 0/90/180/270 */
} PVR2D_WIDIBLT, *PPVR2D_WIDIBLT;
#define MAKE_COPY_BLIT(src,soff,dest,doff,sx,sy,dx,dy,sz)
typedef void* PVR2DCONTEXTHANDLE;
typedef void* PVR2DFLIPCHAINHANDLE;
// CopyCode field of PVR2DBLTINFO structure:
// the CopyCode field of the PVR2DBLTINFO structure should contain a rop3 or rop4 code.
// a rop3 is an 8 bit code that describes a blt with three inputs : source dest and pattern
// rop4 is a 16 bit code that describes a blt with four inputs : source dest pattern and mask
// common rop3 codes are defined below
// a colour fill blt is processed in the pattern channel as a constant colour with a rop code of 0xF0
// PVR2D_BLIT_PAT_SURFACE_ENABLE defines whether the pattern channel is a surface or a fill colour.
// a rop4 is defined by two rop3 codes, and the 1 bit-per-pixel mask surface defines which is used.
// a common rop4 is 0xAAF0 which is the mask copy blt used for text glyphs.
// CopyCode is taken to be a rop4 when pMaskMemInfo is non zero, otherwise it is assumed to be a rop3
// use the PVR2DMASKROP4 macro below to construct a rop4 from two rop3's
// rop3a is the rop used when mask pixel = 1, and rop3b when mask = 0
#define PVR2DROP4(rop3b, rop3a) ((rop3b<<8)|rop3a)
/* common rop codes */
#define PVR2DROPclear 0x00 /* 0 (whiteness) */
#define PVR2DROPset 0xFF /* 1 (blackness) */
#define PVR2DROPnoop 0xAA /* dst (used for masked blts) */
/* source and dest rop codes */
#define PVR2DROPand 0x88 /* src AND dst */
#define PVR2DROPandReverse 0x44 /* src AND NOT dst */
#define PVR2DROPcopy 0xCC /* src (used for source copy and alpha blts) */
#define PVR2DROPandInverted 0x22 /* NOT src AND dst */
#define PVR2DROPxor 0x66 /* src XOR dst */
#define PVR2DROPor 0xEE /* src OR dst */
#define PVR2DROPnor 0x11 /* NOT src AND NOT dst */
#define PVR2DROPequiv 0x99 /* NOT src XOR dst */
#define PVR2DROPinvert 0x55 /* NOT dst */
#define PVR2DROPorReverse 0xDD /* src OR NOT dst */
#define PVR2DROPcopyInverted 0x33 /* NOT src */
#define PVR2DROPorInverted 0xBB /* NOT src OR dst */
#define PVR2DROPnand 0x77 /* NOT src OR NOT dst */
/* pattern rop codes */
#define PVR2DPATROPand 0xA0 /* pat AND dst */
#define PVR2DPATROPandReverse 0x50 /* pat AND NOT dst */
#define PVR2DPATROPcopy 0xF0 /* pat (used for solid color fills and pattern blts) */
#define PVR2DPATROPandInverted 0x0A /* NOT pat AND dst */
#define PVR2DPATROPxor 0x5A /* pat XOR dst */
#define PVR2DPATROPor 0xFA /* pat OR dst */
#define PVR2DPATROPnor 0x05 /* NOT pat AND NOT dst */
#define PVR2DPATROPequiv 0xA5 /* NOT pat XOR dst */
#define PVR2DPATROPinvert 0x55 /* NOT dst */
#define PVR2DPATROPorReverse 0xF5 /* pat OR NOT dst */
#define PVR2DPATROPcopyInverted 0x0F /* NOT pat */
#define PVR2DPATROPorInverted 0xAF /* NOT pat OR dst */
#define PVR2DPATROPnand 0x5F /* NOT pat OR NOT dst */
/* common rop4 codes */
#define PVR2DROP4MaskedCopy PVR2DROP4(PVR2DROPnoop,PVR2DROPcopy) /* masked source copy blt (used for rounded window corners etc) */
#define PVR2DROP4MaskedFill PVR2DROP4(PVR2DROPnoop,PVR2DPATROPcopy) /* masked colour fill blt (used for text) */
/* Legacy support */
#define PVR2DROP3_PATMASK PVR2DPATROPcopy
#define PVR2DROP3_SRCMASK PVR2DROPcopy
/* pixmap memory alignment */
#define PVR2D_ALIGNMENT_4 4 /* DWORD alignment */
#define PVR2D_ALIGNMENT_ANY 0 /* no alignment */
#define PVR2D_ALIGNMENT_PALETTE 16 /* 16 byte alignment is required for palettes */
/* Heap number for PVR2DGetFrameBuffer */
#define PVR2D_FB_PRIMARY_SURFACE 0
#define PVR2D_PRESENT_PROPERTY_SRCSTRIDE (1UL << 0)
#define PVR2D_PRESENT_PROPERTY_DSTSIZE (1UL << 1)
#define PVR2D_PRESENT_PROPERTY_DSTPOS (1UL << 2)
#define PVR2D_PRESENT_PROPERTY_CLIPRECTS (1UL << 3)
#define PVR2D_PRESENT_PROPERTY_INTERVAL (1UL << 4)
#define PVR2D_CREATE_FLIPCHAIN_SHARED (1UL << 0)
#define PVR2D_CREATE_FLIPCHAIN_QUERY (1UL << 1)
#define PVR2D_CREATE_FLIPCHAIN_OEMOVERLAY (1UL << 2)
#define PVR2D_CREATE_FLIPCHAIN_AS_BLITCHAIN (1UL << 3)
/* Colour-key colour must be translated into argb8888 format */
#define CKEY_8888(P) (P)
#define CKEY_4444(P) (((P&0xF000UL)<<16) | ((P&0x0F00UL)<<12) | ((P&0x00F0UL)<<8) | ((P&0x000FUL)<<4))
#define CKEY_1555(P) (((P&0x8000UL)<<16) | ((P&0x7C00UL)<<9) | ((P&0x3E0UL)<<6) | ((P&0x1FUL)<<3))
#define CKEY_565(P) (((P&0xF800UL)<<8) | ((P&0x7E0UL)<<5) | ((P&0x1FUL)<<3))
#define CKEY_MASK_8888 0x00FFFFFFUL
#define CKEY_MASK_4444 0x00F0F0F0UL
#define CKEY_MASK_1555 0x00F8F8F8UL /* Alpha is not normally included in the key test */
#define CKEY_MASK_565 0x00F8FCF8UL
/* Fill colours must be translated into argb8888 format */
#define CFILL_4444(P) (((P&0xF000UL)<<16) | ((P&0x0F00UL)<<12) | ((P&0x00F0UL)<<8) | ((P&0x000FUL)<<4))
#define CFILL_1555(P) (((P&0x8000UL)<<16) | ((P&0x7C00UL)<<9) | ((P&0x3E0UL)<<6) | ((P&0x1FUL)<<3))
#define CFILL_565(P) (((P&0xF800UL)<<8) | ((P&0x7E0UL)<<5) | ((P&0x1FUL)<<3))
/* PVR2DCreateDeviceContext flags */
#define PVR2D_XSERVER_PROC 0x00000001UL /*!< Set for the Xserver connection */
/* PVR2DMemAlloc flags */
#define PVR2D_MEM_UNCACHED 0x00000000UL /* Default */
#define PVR2D_MEM_CACHED 0x00000001UL /* Caller must flush and sync when necessary */
#define PVR2D_MEM_WRITECOMBINE 0x00000002UL
#define PVR2D_MEM_NOUSERVIRTUAL 0x00000004UL
/* Functions that the library exports */
PVR2D_IMPORT
int PVR2DEnumerateDevices(PVR2DDEVICEINFO *pDevInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DCreateDeviceContext(PVR2D_ULONG ulDevID,
PVR2DCONTEXTHANDLE* phContext,
PVR2D_ULONG ulFlags);
PVR2D_IMPORT
PVR2DERROR PVR2DDestroyDeviceContext(PVR2DCONTEXTHANDLE hContext);
PVR2D_IMPORT
PVR2DERROR PVR2DGetDeviceInfo(PVR2DCONTEXTHANDLE hContext,
PVR2DDISPLAYINFO *pDisplayInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DGetMiscDisplayInfo(PVR2DCONTEXTHANDLE hContext,
PVR2DMISCDISPLAYINFO *pMiscDisplayInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DGetScreenMode(PVR2DCONTEXTHANDLE hContext,
PVR2DFORMAT *pFormat,
PVR2D_LONG *plWidth,
PVR2D_LONG *plHeight,
PVR2D_LONG *plStride,
PVR2D_INT *piRefreshRate);
PVR2D_IMPORT
PVR2DERROR PVR2DGetFrameBuffer(PVR2DCONTEXTHANDLE hContext,
PVR2D_INT nHeap,
PVR2DMEMINFO **ppsMemInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DMemAlloc(PVR2DCONTEXTHANDLE hContext,
PVR2D_ULONG ulBytes,
PVR2D_ULONG ulAlign,
PVR2D_ULONG ulFlags,
PVR2DMEMINFO **ppsMemInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DMemExport(PVR2DCONTEXTHANDLE hContext,
PVR2D_ULONG ulFlags,
PVR2DMEMINFO *psMemInfo,
PVR2D_HANDLE *phMemHandle);
PVR2D_IMPORT
PVR2DERROR PVR2DMemWrap(PVR2DCONTEXTHANDLE hContext,
PVR2D_VOID *pMem,
PVR2D_ULONG ulFlags,
PVR2D_ULONG ulBytes,
PVR2D_ULONG alPageAddress[],
PVR2DMEMINFO **ppsMemInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DMemMap(PVR2DCONTEXTHANDLE hContext,
PVR2D_ULONG ulFlags,
PVR2D_HANDLE hMemHandle,
PVR2DMEMINFO **ppsDstMem);
PVR2D_IMPORT
PVR2DERROR PVR2DMemFree(PVR2DCONTEXTHANDLE hContext,
PVR2DMEMINFO *psMemInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DBlt(PVR2DCONTEXTHANDLE hContext,
PVR2DBLTINFO *pBltInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DBltClipped(PVR2DCONTEXTHANDLE hContext,
PVR2DBLTINFO *pBltInfo,
PVR2D_ULONG ulNumClipRects,
PVR2DRECT *pClipRects);
PVR2D_EXPORT
PVR2DERROR PVR2DSet1555Alpha(PVR2DCONTEXTHANDLE hContext,
PVR2D_UCHAR Alpha0, PVR2D_UCHAR Alpha1);
PVR2D_IMPORT
PVR2DERROR PVR2DQueryBlitsComplete(PVR2DCONTEXTHANDLE hContext,
const PVR2DMEMINFO *pMemInfo,
PVR2D_UINT uiWaitForComplete);
PVR2D_IMPORT
PVR2DERROR PVR2DSetPresentBltProperties(PVR2DCONTEXTHANDLE hContext,
PVR2D_ULONG ulPropertyMask,
PVR2D_LONG lSrcStride,
PVR2D_ULONG ulDstWidth,
PVR2D_ULONG ulDstHeight,
PVR2D_LONG lDstXPos,
PVR2D_LONG lDstYPos,
PVR2D_ULONG ulNumClipRects,
PVR2DRECT *pClipRects,
PVR2D_ULONG ulSwapInterval);
PVR2D_IMPORT
PVR2DERROR PVR2DPresentBlt(PVR2DCONTEXTHANDLE hContext,
PVR2DMEMINFO *pMemInfo,
PVR2D_LONG lRenderID);
PVR2D_IMPORT
PVR2DERROR PVR2DCreateFlipChain(PVR2DCONTEXTHANDLE hContext,
PVR2D_ULONG ulFlags,
PVR2D_ULONG ulNumBuffers,
PVR2D_ULONG ulWidth,
PVR2D_ULONG ulHeight,
PVR2DFORMAT eFormat,
PVR2D_LONG *plStride,
PVR2D_ULONG *pulFlipChainID,
PVR2DFLIPCHAINHANDLE *phFlipChain);
PVR2D_IMPORT
PVR2DERROR PVR2DDestroyFlipChain(PVR2DCONTEXTHANDLE hContext,
PVR2DFLIPCHAINHANDLE hFlipChain);
PVR2D_IMPORT
PVR2DERROR PVR2DGetFlipChainBuffers(PVR2DCONTEXTHANDLE hContext,
PVR2DFLIPCHAINHANDLE hFlipChain,
PVR2D_ULONG *pulNumBuffers,
PVR2DMEMINFO *psMemInfo[]);
PVR2D_IMPORT
PVR2DERROR PVR2DSetPresentFlipProperties(PVR2DCONTEXTHANDLE hContext,
PVR2DFLIPCHAINHANDLE hFlipChain,
PVR2D_ULONG ulPropertyMask,
PVR2D_LONG lDstXPos,
PVR2D_LONG lDstYPos,
PVR2D_ULONG ulNumClipRects,
PVR2DRECT *pClipRects,
PVR2D_ULONG ulSwapInterval);
PVR2D_IMPORT
PVR2DERROR PVR2DPresentFlip(PVR2DCONTEXTHANDLE hContext,
PVR2DFLIPCHAINHANDLE hFlipChain,
PVR2DMEMINFO *psMemInfo,
PVR2D_LONG lRenderID);
PVR2D_IMPORT
PVR2DERROR PVR2DGetAPIRev(PVR2D_LONG *lRevMajor, PVR2D_LONG *lRevMinor);
PVR2D_IMPORT
PVR2DERROR PVR2DLoadUseCode(const PVR2DCONTEXTHANDLE hContext, const PVR2D_UCHAR *pUseCode,
const PVR2D_ULONG UseCodeSize, PVR2D_HANDLE *pUseCodeHandle);
PVR2D_IMPORT
PVR2DERROR PVR2DFreeUseCode(const PVR2DCONTEXTHANDLE hContext, const PVR2D_HANDLE hUseCodeHandle);
PVR2D_IMPORT
PVR2DERROR PVR2DBlt3D(const PVR2DCONTEXTHANDLE hContext, const PPVR2D_3DBLT pBlt3D);
PVR2D_IMPORT
PVR2DERROR PVR2DBlt3DExt(const PVR2DCONTEXTHANDLE hContext, const PPVR2D_3DBLT_EXT pBlt3D);
PVR2D_IMPORT
PVR2DERROR PVR2DBltVideo(const PVR2DCONTEXTHANDLE hContext, const PPVR2D_VPBLT pBltVP);
PVR2D_IMPORT
PVR2DERROR PVR2DScaleBltEx(const PVR2DCONTEXTHANDLE hContext, const PPVR2D_3DBLT pBlt3D,
const PVR2D_ULONG color, const PVR2D_INT isFixedSize, const PVR2DRECT *pFillRect);
PVR2D_EXPORT
PVR2DERROR PVR2D_GetSrcRect(PVR2DRECT *pSrc, PVR2DRECT *pDest,
PVR2D_INT tgtXOffset, PVR2D_INT tgtYOffset,
PVR2D_UINT tgtWidth, PVR2D_UINT tgtHeight,
PVR2D_UINT winWidth, PVR2D_UINT winHeight);
PVR2D_IMPORT
PVR2DERROR PVR2DBltWidi(const PVR2DCONTEXTHANDLE hContext, const PPVR2D_WIDIBLT pBltWidi);
PVR2D_IMPORT void PVRHideTransparent(void);
PVR2D_IMPORT void PVRUnhideTransparent(void);
PVR2D_IMPORT PVR2D_BOOL PVRTransparentUnhidden(void);
PVR2D_IMPORT
PVR2DERROR PVR2DMemLock(PVR2DCONTEXTHANDLE hContext, PVR2DMEMINFO *psMemInfo);
PVR2D_IMPORT
PVR2DERROR PVR2DMemUnlock(PVR2DCONTEXTHANDLE hContext, PVR2DMEMINFO *psMemInfo);
#ifdef __cplusplus
}
#endif
#endif /* _PVR2D_H_ */
/******************************************************************************
End of file (pvr2d.h)
******************************************************************************/