#include "cr_blitter.h"

#include "cr_spu.h"

#include "chromium.h"

#include "cr_error.h"

#include "cr_net.h"

#include "cr_rand.h"

#include "cr_mem.h"

#include "cr_string.h"

#include "cr_bmpscale.h"

#include <iprt/cdefs.h>

#include <iprt/types.h>

#include <iprt/mem.h>

static void crMClrFillMem(uint32_t *pu32Dst, int32_t cbDstPitch, uint32_t width, uint32_t height, uint32_t u32Color)

{

for (uint32_t i = 0; i < height; ++i)

{

for (uint32_t j = 0; j < width; ++j)

{

pu32Dst[j] = u32Color;

}

pu32Dst = (uint32_t*)(((uint8_t*)pu32Dst) + cbDstPitch);

}

}

void CrMClrFillImgRect(CR_BLITTER_IMG *pDst, const RTRECT *pCopyRect, uint32_t u32Color)

{

int32_t x = pCopyRect->xLeft;

int32_t y = pCopyRect->yTop;

int32_t width = pCopyRect->xRight - pCopyRect->xLeft;

int32_t height = pCopyRect->yBottom - pCopyRect->yTop;

Assert(x >= 0);

Assert(y >= 0);

uint8_t *pu8Dst = ((uint8_t*)pDst->pvData) + pDst->pitch * y + x * 4;

crMClrFillMem((uint32_t*)pu8Dst, pDst->pitch, width, height, u32Color);

}

void CrMClrFillImg(CR_BLITTER_IMG *pImg, uint32_t cRects, const RTRECT *pRects, uint32_t u32Color)

{

RTRECT Rect;

Rect.xLeft = 0;

Rect.yTop = 0;

Rect.xRight = pImg->width;

Rect.yBottom = pImg->height;

RTRECT Intersection;

const RTPOINT ZeroPoint = {0, 0};

for (uint32_t i = 0; i < cRects; ++i)

{

const RTRECT * pRect = &pRects[i];

VBoxRectIntersected(pRect, &Rect, &Intersection);

if (VBoxRectIsZero(&Intersection))

continue;

CrMClrFillImgRect(pImg, &Intersection, u32Color);

}

}

static void crMBltMem(const uint8_t *pu8Src, int32_t cbSrcPitch, uint8_t *pu8Dst, int32_t cbDstPitch, uint32_t width, uint32_t height)

{

uint32_t cbCopyRow = width * 4;

for (uint32_t i = 0; i < height; ++i)

{

memcpy(pu8Dst, pu8Src, cbCopyRow);

pu8Src += cbSrcPitch;

pu8Dst += cbDstPitch;

}

}

void CrMBltImgRect(const CR_BLITTER_IMG *pSrc, const RTPOINT *pSrcDataPoint, bool fSrcInvert, const RTRECT *pCopyRect, CR_BLITTER_IMG *pDst)

{

int32_t srcX = pCopyRect->xLeft - pSrcDataPoint->x;

int32_t srcY = pCopyRect->yTop - pSrcDataPoint->y;

Assert(srcX >= 0);

Assert(srcY >= 0);

Assert(srcX < (int32_t)pSrc->width);

Assert(srcY < (int32_t)pSrc->height);

int32_t dstX = pCopyRect->xLeft;

int32_t dstY = pCopyRect->yTop;

Assert(dstX >= 0);

Assert(dstY >= 0);

Assert(dstX < (int32_t)pDst->width);

Assert(dstY < (int32_t)pDst->height);

uint8_t *pu8Src = ((uint8_t*)pSrc->pvData) + pSrc->pitch * (!fSrcInvert ? srcY : pSrc->height - srcY - 1) + srcX * 4;

uint8_t *pu8Dst = ((uint8_t*)pDst->pvData) + pDst->pitch * dstY + dstX * 4;

crMBltMem(pu8Src, fSrcInvert ? -((int32_t)pSrc->pitch) : (int32_t)pSrc->pitch, pu8Dst, pDst->pitch, pCopyRect->xRight - pCopyRect->xLeft, pCopyRect->yBottom - pCopyRect->yTop);

}

void CrMBltImg(const CR_BLITTER_IMG *pSrc, const RTPOINT *pPos, uint32_t cRects, const RTRECT *pRects, CR_BLITTER_IMG *pDst)

{

RTRECT Intersection;

RTRECT RestrictSrcRect;

RestrictSrcRect.xLeft = 0;

RestrictSrcRect.yTop = 0;

RestrictSrcRect.xRight = pSrc->width;

RestrictSrcRect.yBottom = pSrc->height;

RTRECT RestrictDstRect;

RestrictDstRect.xLeft = 0;

RestrictDstRect.yTop = 0;

RestrictDstRect.xRight = pDst->width;

RestrictDstRect.yBottom = pDst->height;

for (uint32_t i = 0; i < cRects; ++i)

{

const RTRECT * pRect = &pRects[i];

VBoxRectIntersected(pRect, &RestrictDstRect, &Intersection);

RTRECT TranslatedSrc;

VBoxRectTranslated(&RestrictSrcRect, pPos->x, pPos->y, &TranslatedSrc);

VBoxRectIntersect(&Intersection, &TranslatedSrc);

if (VBoxRectIsZero(&Intersection))

continue;

CrMBltImgRect(pSrc, pPos, false, &Intersection, pDst);

}

}

void CrMBltImgRectScaled(const CR_BLITTER_IMG *pSrc, const RTPOINT *pPos, bool fSrcInvert, const RTRECT *pCopyRect, float strX, float strY, CR_BLITTER_IMG *pDst)

{

RTPOINT UnscaledPos;

UnscaledPos.x = CR_FLOAT_RCAST(int32_t, pPos->x / strX);

UnscaledPos.y = CR_FLOAT_RCAST(int32_t, pPos->y / strY);

RTRECT UnscaledCopyRect;

VBoxRectUnscaled(pCopyRect, strX, strY, &UnscaledCopyRect);

if (VBoxRectIsZero(&UnscaledCopyRect))

{

WARN(("ups"));

return;

}

int32_t srcX = UnscaledCopyRect.xLeft - UnscaledPos.x;

int32_t srcY = UnscaledCopyRect.yTop - UnscaledPos.y;

if (srcX < 0)

{

WARN(("ups"));

srcX = 0;

}

if (srcY < 0)

{

WARN(("ups"));

srcY = 0;

}

if (srcX >= pSrc->width)

{

WARN(("ups"));

return;

}

if (srcY >= pSrc->height)

{

WARN(("ups"));

return;

}

Assert(srcX >= 0);

Assert(srcY >= 0);

Assert(srcX < (int32_t)pSrc->width);

Assert(srcY < (int32_t)pSrc->height);

int32_t dstX = pCopyRect->xLeft;

int32_t dstY = pCopyRect->yTop;

Assert(dstX >= 0);

Assert(dstY >= 0);

int32_t UnscaledSrcWidth = UnscaledCopyRect.xRight - UnscaledCopyRect.xLeft;

int32_t UnscaledSrcHeight = UnscaledCopyRect.yBottom - UnscaledCopyRect.yTop;

UnscaledSrcWidth = RT_MIN(srcX + UnscaledSrcWidth, pSrc->width);

UnscaledSrcHeight = RT_MIN(srcY + UnscaledSrcHeight, pSrc->height);

uint8_t *pu8Src = ((uint8_t*)pSrc->pvData) + pSrc->pitch * (!fSrcInvert ? srcY : pSrc->height - srcY - 1) + srcX * 4;

uint8_t *pu8Dst = ((uint8_t*)pDst->pvData) + pDst->pitch * dstY + dstX * 4;

CrBmpScale32(pu8Dst, pDst->pitch,

pCopyRect->xRight - pCopyRect->xLeft, pCopyRect->yBottom - pCopyRect->yTop,

pu8Src,

fSrcInvert ? -((int32_t)pSrc->pitch) : (int32_t)pSrc->pitch,

UnscaledSrcWidth, UnscaledSrcHeight);

}

void CrMBltImgScaled(const CR_BLITTER_IMG *pSrc, const RTRECTSIZE *pSrcRectSize, const RTRECT *pDstRect, uint32_t cRects, const RTRECT *pRects, CR_BLITTER_IMG *pDst)

{

int32_t srcWidth = pSrcRectSize->cx;

int32_t srcHeight = pSrcRectSize->cy;

int32_t dstWidth = pDstRect->xRight - pDstRect->xLeft;

int32_t dstHeight = pDstRect->yBottom - pDstRect->yTop;

float strX = ((float)dstWidth) / srcWidth;

float strY = ((float)dstHeight) / srcHeight;

bool fScale = (dstWidth != srcWidth || dstHeight != srcHeight);

Assert(fScale);

RTRECT Intersection;

RTRECT UnscaledRestrictSrcRect;

UnscaledRestrictSrcRect.xLeft = 0;

UnscaledRestrictSrcRect.yTop = 0;

UnscaledRestrictSrcRect.xRight = CR_FLOAT_RCAST(int32_t, pSrc->width / strX);

UnscaledRestrictSrcRect.yBottom = CR_FLOAT_RCAST(int32_t, pSrc->height / strY);

RTRECT RestrictDstRect;

RestrictDstRect.xLeft = 0;

RestrictDstRect.yTop = 0;

RestrictDstRect.xRight = pDst->width;

RestrictDstRect.yBottom = pDst->height;

RTPOINT Pos = {pDstRect->xLeft, pDstRect->yTop};

RTPOINT UnscaledSrcPos;

UnscaledSrcPos.x = CR_FLOAT_RCAST(int32_t, Pos.x / strX);

UnscaledSrcPos.y = CR_FLOAT_RCAST(int32_t, Pos.y / strY);

for (uint32_t i = 0; i < cRects; ++i)

{

const RTRECT * pRect = &pRects[i];

VBoxRectIntersected(pRect, &RestrictDstRect, &Intersection);

RTRECT TranslatedSrc;

VBoxRectTranslated(&UnscaledRestrictSrcRect, UnscaledSrcPos.x, UnscaledSrcPos.y, &TranslatedSrc);

VBoxRectIntersect(&Intersection, &TranslatedSrc);

if (VBoxRectIsZero(&Intersection))

continue;

CrMBltImgRectScaled(pSrc, &Pos, false, &Intersection, strX, strY, pDst);

}

}

VBOXBLITTERDECL(int) CrBltInit(PCR_BLITTER pBlitter, const CR_BLITTER_CONTEXT *pCtxBase, bool fCreateNewCtx, bool fForceDrawBlt, const CR_GLSL_CACHE *pShaders, SPUDispatchTable *pDispatch)

{

if (pCtxBase && pCtxBase->Base.id < 0)

{

crWarning("Default share context not initialized!");

return VERR_INVALID_PARAMETER;

}

if (!pCtxBase && fCreateNewCtx)

{

crWarning("pCtxBase is zero while fCreateNewCtx is set!");

return VERR_INVALID_PARAMETER;

}

memset(pBlitter, 0, sizeof (*pBlitter));

pBlitter->pDispatch = pDispatch;

if (pCtxBase)

pBlitter->CtxInfo = *pCtxBase;

pBlitter->Flags.ForceDrawBlit = fForceDrawBlt;

if (fCreateNewCtx)

{

pBlitter->CtxInfo.Base.id = pDispatch->CreateContext("", pCtxBase->Base.visualBits, pCtxBase->Base.id);

if (!pBlitter->CtxInfo.Base.id)

{

memset(pBlitter, 0, sizeof (*pBlitter));

crWarning("CreateContext failed!");

return VERR_GENERAL_FAILURE;

}

pBlitter->Flags.CtxCreated = 1;

}

if (pShaders)

{

pBlitter->pGlslCache = pShaders;

pBlitter->Flags.ShadersGloal = 1;

}

else

{

CrGlslInit(&pBlitter->LocalGlslCache, pDispatch);

pBlitter->pGlslCache = &pBlitter->LocalGlslCache;

}

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrBltCleanup(PCR_BLITTER pBlitter)

{

if (CrBltIsEntered(pBlitter))

{

WARN(("CrBltBlitTexTex: blitter is entered"));

return VERR_INVALID_STATE;

}

if (pBlitter->Flags.ShadersGloal || !CrGlslNeedsCleanup(&pBlitter->LocalGlslCache))

return VINF_SUCCESS;

int rc = CrBltEnter(pBlitter);

if (!RT_SUCCESS(rc))

{

WARN(("CrBltEnter failed, rc %d", rc));

return rc;

}

CrGlslCleanup(&pBlitter->LocalGlslCache);

CrBltLeave(pBlitter);

return VINF_SUCCESS;

}

void CrBltTerm(PCR_BLITTER pBlitter)

{

if (pBlitter->Flags.CtxCreated)

pBlitter->pDispatch->DestroyContext(pBlitter->CtxInfo.Base.id);

memset(pBlitter, 0, sizeof (*pBlitter));

}

int CrBltMuralSetCurrentInfo(PCR_BLITTER pBlitter, const CR_BLITTER_WINDOW *pMural)

{

if (pMural)

{

if (!memcmp(&pBlitter->CurrentMural, pMural, sizeof (pBlitter->CurrentMural)))

return VINF_SUCCESS;

memcpy(&pBlitter->CurrentMural, pMural, sizeof (pBlitter->CurrentMural));

}

else

{

if (CrBltIsEntered(pBlitter))

{

WARN(("can not set null mural for entered bleater"));

return VERR_INVALID_STATE;

}

if (!pBlitter->CurrentMural.Base.id)

return VINF_SUCCESS;

pBlitter->CurrentMural.Base.id = 0;

}

pBlitter->Flags.CurrentMuralChanged = 1;

if (!CrBltIsEntered(pBlitter))

return VINF_SUCCESS;

else if (!pBlitter->CtxInfo.Base.id)

{

WARN(("setting current mural for entered no-context blitter"));

return VERR_INVALID_STATE;

}

WARN(("changing mural for entered blitter, is is somewhat expected?"));

pBlitter->pDispatch->Flush();

pBlitter->pDispatch->MakeCurrent(pMural->Base.id, pBlitter->i32MakeCurrentUserData, pBlitter->CtxInfo.Base.id);

return VINF_SUCCESS;

}

static DECLCALLBACK(int) crBltBlitTexBufImplFbo(PCR_BLITTER pBlitter, const VBOXVR_TEXTURE *pSrc, const RTRECT *paSrcRect, const RTRECTSIZE *pDstSize, const RTRECT *paDstRect, uint32_t cRects, uint32_t fFlags)

{

GLenum filter = CRBLT_FILTER_FROM_FLAGS(fFlags);

pBlitter->pDispatch->BindFramebufferEXT(GL_READ_FRAMEBUFFER, pBlitter->idFBO);

pBlitter->pDispatch->FramebufferTexture2DEXT(GL_READ_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, pSrc->target, pSrc->hwid, 0);

pBlitter->pDispatch->ReadBuffer(GL_COLOR_ATTACHMENT0);

for (uint32_t i = 0; i < cRects; ++i)

{

const RTRECT * pSrcRect = &paSrcRect[i];

const RTRECT * pDstRect = &paDstRect[i];

int32_t srcY1;

int32_t srcY2;

int32_t dstY1;

int32_t dstY2;

int32_t srcX1 = pSrcRect->xLeft;

int32_t srcX2 = pSrcRect->xRight;

int32_t dstX1 = pDstRect->xLeft;

int32_t dstX2 = pDstRect->xRight;

if (CRBLT_F_INVERT_SRC_YCOORDS & fFlags)

{

srcY1 = pSrc->height - pSrcRect->yTop;

srcY2 = pSrc->height - pSrcRect->yBottom;

}

else

{

srcY1 = pSrcRect->yTop;

srcY2 = pSrcRect->yBottom;

}

if (CRBLT_F_INVERT_DST_YCOORDS & fFlags)

{

dstY1 = pDstSize->cy - pDstRect->yTop;

dstY2 = pDstSize->cy - pDstRect->yBottom;

}

else

{

dstY1 = pDstRect->yTop;

dstY2 = pDstRect->yBottom;

}

if (srcY1 > srcY2)

{

if (dstY1 > dstY2)

{

/* use srcY1 < srcY2 && dstY1 < dstY2 whenever possible to avoid GPU driver bugs */

int32_t tmp = srcY1;

srcY1 = srcY2;

srcY2 = tmp;

tmp = dstY1;

dstY1 = dstY2;

dstY2 = tmp;

}

}

if (srcX1 > srcX2)

{

if (dstX1 > dstX2)

{

/* use srcX1 < srcX2 && dstX1 < dstX2 whenever possible to avoid GPU driver bugs */

int32_t tmp = srcX1;

srcX1 = srcX2;

srcX2 = tmp;

tmp = dstX1;

dstX1 = dstX2;

dstX2 = tmp;

}

}

pBlitter->pDispatch->BlitFramebufferEXT(srcX1, srcY1, srcX2, srcY2,

dstX1, dstY1, dstX2, dstY2,

GL_COLOR_BUFFER_BIT, filter);

}

return VINF_SUCCESS;

}

DECLINLINE(GLfloat*) crBltVtRectTFNormalized(const RTRECT *pRect, uint32_t normalX, uint32_t normalY, GLfloat* pBuff, uint32_t height)

{

/* going ccw:

/* xLeft yTop */

pBuff[0] = ((float)pRect->xLeft)/((float)normalX);

pBuff[1] = ((float)(height ? height - pRect->yTop : pRect->yTop))/((float)normalY);

/* xLeft yBottom */

pBuff[2] = pBuff[0];

pBuff[3] = ((float)(height ? height - pRect->yBottom : pRect->yBottom))/((float)normalY);

/* xRight yBottom */

pBuff[4] = ((float)pRect->xRight)/((float)normalX);

pBuff[5] = pBuff[3];

/* xRight yTop */

pBuff[6] = pBuff[4];

pBuff[7] = pBuff[1];

return &pBuff[8];

}

DECLINLINE(GLfloat*) crBltVtRectsTFNormalized(const RTRECT *paRects, uint32_t cRects, uint32_t normalX, uint32_t normalY, GLfloat* pBuff, uint32_t height)

{

for (uint32_t i = 0; i < cRects; ++i)

{

pBuff = crBltVtRectTFNormalized(&paRects[i], normalX, normalY, pBuff, height);

}

return pBuff;

}

DECLINLINE(GLint*) crBltVtRectTF(const RTRECT *pRect, uint32_t normalX, uint32_t normalY, GLint* pBuff, uint32_t height)

{

/* xLeft yTop */

pBuff[0] = pRect->xLeft;

pBuff[1] = height ? height - pRect->yTop : pRect->yTop;

/* xLeft yBottom */

pBuff[2] = pBuff[0];

pBuff[3] = height ? height - pRect->yBottom : pRect->yBottom;

/* xRight yBottom */

pBuff[4] = pRect->xRight;

pBuff[5] = pBuff[3];

/* xRight yTop */

pBuff[6] = pBuff[4];

pBuff[7] = pBuff[1];

return &pBuff[8];

}

DECLINLINE(GLubyte*) crBltVtFillRectIndicies(GLubyte *pIndex, GLubyte *piBase)

{

GLubyte iBase = *piBase;

/* triangle 1 */

pIndex[0] = iBase;

pIndex[1] = iBase + 1;

pIndex[2] = iBase + 2;

/* triangle 2 */

pIndex[3] = iBase;

pIndex[4] = iBase + 2;

pIndex[5] = iBase + 3;

*piBase = iBase + 4;

return pIndex + 6;

}

DECLINLINE(GLfloat*) crBltVtRectITNormalized(const RTRECT *pRect, uint32_t normalX, uint32_t normalY, GLfloat* pBuff, uint32_t height)

{

GLfloat* ret = crBltVtRectTFNormalized(pRect, normalX, normalY, pBuff, height);

return ret;

}

DECLINLINE(GLint*) crBltVtRectIT(RTRECT *pRect, uint32_t normalX, uint32_t normalY, GLint* pBuff, GLubyte **ppIndex, GLubyte *piBase, uint32_t height)

{

GLint* ret = crBltVtRectTF(pRect, normalX, normalY, pBuff, height);

if (ppIndex)

*ppIndex = crBltVtFillRectIndicies(*ppIndex, piBase);

return ret;

}

DECLINLINE(GLuint) crBltVtGetNumVerticiesTF(GLuint cRects)

{

return cRects * 4;

}

#define crBltVtGetNumVerticiesIT crBltVtGetNumVerticiesTF

DECLINLINE(GLuint) crBltVtGetNumIndiciesIT(GLuint cRects)

{

return 6 * cRects;

}

static GLfloat* crBltVtRectsITNormalized(const RTRECT *paRects, uint32_t cRects, uint32_t normalX, uint32_t normalY, GLfloat* pBuff, GLubyte **ppIndex, GLubyte *piBase, uint32_t height)

{

uint32_t i;

for (i = 0; i < cRects; ++i)

{

pBuff = crBltVtRectITNormalized(&paRects[i], normalX, normalY, pBuff, height);

}

if (ppIndex)

{

GLubyte *pIndex = (GLubyte*)pBuff;

*ppIndex = pIndex;

for (i = 0; i < cRects; ++i)

{

pIndex = crBltVtFillRectIndicies(pIndex, piBase);

}

pBuff = (GLfloat*)pIndex;

}

return pBuff;

}

static void* crBltBufGet(PCR_BLITTER_BUFFER pBuffer, GLuint cbBuffer)

{

if (pBuffer->cbBuffer < cbBuffer)

{

if (pBuffer->pvBuffer)

{

RTMemFree(pBuffer->pvBuffer);

}

#ifndef DEBUG_misha

/* debugging: ensure we calculate proper buffer size */

cbBuffer += 16;

#endif

pBuffer->pvBuffer = RTMemAlloc(cbBuffer);

if (pBuffer->pvBuffer)

pBuffer->cbBuffer = cbBuffer;

else

{

crWarning("failed to allocate buffer of size %d", cbBuffer);

pBuffer->cbBuffer = 0;

}

}

return pBuffer->pvBuffer;

}

static void crBltCheckSetupViewport(PCR_BLITTER pBlitter, const RTRECTSIZE *pDstSize, bool fFBODraw)

{

bool fUpdateViewport = pBlitter->Flags.CurrentMuralChanged;

if (pBlitter->CurrentSetSize.cx != pDstSize->cx

|| pBlitter->CurrentSetSize.cy != pDstSize->cy)

{

pBlitter->CurrentSetSize = *pDstSize;

pBlitter->pDispatch->MatrixMode(GL_PROJECTION);

pBlitter->pDispatch->LoadIdentity();

pBlitter->pDispatch->Ortho(0, pDstSize->cx, 0, pDstSize->cy, -1, 1);

fUpdateViewport = true;

}

if (fUpdateViewport)

{

pBlitter->pDispatch->Viewport(0, 0, pBlitter->CurrentSetSize.cx, pBlitter->CurrentSetSize.cy);

pBlitter->Flags.CurrentMuralChanged = 0;

}

pBlitter->Flags.LastWasFBODraw = fFBODraw;

}

static DECLCALLBACK(int) crBltBlitTexBufImplDraw2D(PCR_BLITTER pBlitter, const VBOXVR_TEXTURE *pSrc, const RTRECT *paSrcRect, const RTRECTSIZE *pDstSize, const RTRECT *paDstRect, uint32_t cRects, uint32_t fFlags)

{

GLuint normalX, normalY;

uint32_t srcHeight = (fFlags & CRBLT_F_INVERT_SRC_YCOORDS) ? pSrc->height : 0;

uint32_t dstHeight = (fFlags & CRBLT_F_INVERT_DST_YCOORDS) ? pDstSize->cy : 0;

switch (pSrc->target)

{

case GL_TEXTURE_2D:

{

normalX = pSrc->width;

normalY = pSrc->height;

break;

}

case GL_TEXTURE_RECTANGLE_ARB:

{

normalX = 1;

normalY = 1;

break;

}

default:

{

crWarning("Unsupported texture target 0x%x", pSrc->target);

return VERR_INVALID_PARAMETER;

}

}

Assert(pSrc->hwid);

pBlitter->pDispatch->BindTexture(pSrc->target, pSrc->hwid);

if (cRects == 1)

{

/* just optimization to draw a single rect with GL_TRIANGLE_FAN */

GLfloat *pVerticies;

GLfloat *pTexCoords;

GLuint cElements = crBltVtGetNumVerticiesTF(cRects);

pVerticies = (GLfloat*)crBltBufGet(&pBlitter->Verticies, cElements * 2 * 2 * sizeof (*pVerticies));

pTexCoords = crBltVtRectsTFNormalized(paDstRect, cRects, 1, 1, pVerticies, dstHeight);

crBltVtRectsTFNormalized(paSrcRect, cRects, normalX, normalY, pTexCoords, srcHeight);

pBlitter->pDispatch->EnableClientState(GL_VERTEX_ARRAY);

pBlitter->pDispatch->VertexPointer(2, GL_FLOAT, 0, pVerticies);

pBlitter->pDispatch->EnableClientState(GL_TEXTURE_COORD_ARRAY);

pBlitter->pDispatch->TexCoordPointer(2, GL_FLOAT, 0, pTexCoords);

pBlitter->pDispatch->Enable(pSrc->target);

pBlitter->pDispatch->DrawArrays(GL_TRIANGLE_FAN, 0, cElements);

pBlitter->pDispatch->Disable(pSrc->target);

pBlitter->pDispatch->DisableClientState(GL_TEXTURE_COORD_ARRAY);

pBlitter->pDispatch->DisableClientState(GL_VERTEX_ARRAY);

}

else

{

GLfloat *pVerticies;

GLfloat *pTexCoords;

GLubyte *pIndicies;

GLuint cElements = crBltVtGetNumVerticiesIT(cRects);

GLuint cIndicies = crBltVtGetNumIndiciesIT(cRects);

GLubyte iIdxBase = 0;

pVerticies = (GLfloat*)crBltBufGet(&pBlitter->Verticies, cElements * 2 * 2 * sizeof (*pVerticies) + cIndicies * sizeof (*pIndicies));

pTexCoords = crBltVtRectsITNormalized(paDstRect, cRects, 1, 1, pVerticies, &pIndicies, &iIdxBase, dstHeight);

crBltVtRectsITNormalized(paSrcRect, cRects, normalX, normalY, pTexCoords, NULL, NULL, srcHeight);

pBlitter->pDispatch->EnableClientState(GL_VERTEX_ARRAY);

pBlitter->pDispatch->VertexPointer(2, GL_FLOAT, 0, pVerticies);

pBlitter->pDispatch->EnableClientState(GL_TEXTURE_COORD_ARRAY);

pBlitter->pDispatch->TexCoordPointer(2, GL_FLOAT, 0, pTexCoords);

pBlitter->pDispatch->Enable(pSrc->target);

pBlitter->pDispatch->DrawElements(GL_TRIANGLES, cIndicies, GL_UNSIGNED_BYTE, pIndicies);

pBlitter->pDispatch->Disable(pSrc->target);

pBlitter->pDispatch->DisableClientState(GL_TEXTURE_COORD_ARRAY);

pBlitter->pDispatch->DisableClientState(GL_VERTEX_ARRAY);

}

pBlitter->pDispatch->BindTexture(pSrc->target, 0);

return VINF_SUCCESS;

}

static int crBltInitOnMakeCurent(PCR_BLITTER pBlitter)

{

const char * pszExtension = (const char*)pBlitter->pDispatch->GetString(GL_EXTENSIONS);

if (crStrstr(pszExtension, "GL_EXT_framebuffer_object"))

{

pBlitter->Flags.SupportsFBO = 1;

pBlitter->pDispatch->GenFramebuffersEXT(1, &pBlitter->idFBO);

Assert(pBlitter->idFBO);

}

else

crWarning("GL_EXT_framebuffer_object not supported, blitter can only blit to window");

if (crStrstr(pszExtension, "GL_ARB_pixel_buffer_object"))

pBlitter->Flags.SupportsPBO = 1;

else

crWarning("GL_ARB_pixel_buffer_object not supported");

/* BlitFramebuffer seems to be buggy on Intel,

if (!pBlitter->Flags.ForceDrawBlit && crStrstr(pszExtension, "GL_EXT_framebuffer_blit"))

{

pBlitter->pfnBlt = crBltBlitTexBufImplFbo;

}

else

{

pBlitter->pfnBlt = crBltBlitTexBufImplDraw2D;

}

/* defaults. but just in case */

pBlitter->pDispatch->MatrixMode(GL_TEXTURE);

pBlitter->pDispatch->LoadIdentity();

pBlitter->pDispatch->MatrixMode(GL_MODELVIEW);

pBlitter->pDispatch->LoadIdentity();

return VINF_SUCCESS;

}

void CrBltLeave(PCR_BLITTER pBlitter)

{

if (!pBlitter->cEnters)

{

WARN(("blitter not entered!"));

return;

}

if (--pBlitter->cEnters)

return;

if (pBlitter->Flags.SupportsFBO)

{

pBlitter->pDispatch->BindFramebufferEXT(GL_FRAMEBUFFER, 0);

pBlitter->pDispatch->DrawBuffer(GL_BACK);

pBlitter->pDispatch->ReadBuffer(GL_BACK);

}

pBlitter->pDispatch->Flush();

if (pBlitter->CtxInfo.Base.id)

pBlitter->pDispatch->MakeCurrent(0, 0, 0);

}

int CrBltEnter(PCR_BLITTER pBlitter)

{

if (!pBlitter->CurrentMural.Base.id && pBlitter->CtxInfo.Base.id)

{

WARN(("current mural not initialized!"));

return VERR_INVALID_STATE;

}

if (pBlitter->cEnters++)

return VINF_SUCCESS;

if (pBlitter->CurrentMural.Base.id) /* <- pBlitter->CurrentMural.Base.id can be null if the blitter is in a "no-context" mode (see comments to BltInit for detail)*/

{

pBlitter->pDispatch->MakeCurrent(pBlitter->CurrentMural.Base.id, pBlitter->i32MakeCurrentUserData, pBlitter->CtxInfo.Base.id);

}

if (pBlitter->Flags.Initialized)

return VINF_SUCCESS;

int rc = crBltInitOnMakeCurent(pBlitter);

if (RT_SUCCESS(rc))

{

pBlitter->Flags.Initialized = 1;

return VINF_SUCCESS;

}

WARN(("crBltInitOnMakeCurent failed, rc %d", rc));

CrBltLeave(pBlitter);

return rc;

}

static void crBltBlitTexBuf(PCR_BLITTER pBlitter, const VBOXVR_TEXTURE *pSrc, const RTRECT *paSrcRects, GLenum enmDstBuff, const RTRECTSIZE *pDstSize, const RTRECT *paDstRects, uint32_t cRects, uint32_t fFlags)

{

pBlitter->pDispatch->DrawBuffer(enmDstBuff);

crBltCheckSetupViewport(pBlitter, pDstSize, enmDstBuff == GL_DRAW_FRAMEBUFFER);

if (!(fFlags & CRBLT_F_NOALPHA))

pBlitter->pfnBlt(pBlitter, pSrc, paSrcRects, pDstSize, paDstRects, cRects, fFlags);

else

{

int rc = pBlitter->Flags.ShadersGloal ?

CrGlslProgUseNoAlpha(pBlitter->pGlslCache, pSrc->target)

:

CrGlslProgUseGenNoAlpha(&pBlitter->LocalGlslCache, pSrc->target);

if (!RT_SUCCESS(rc))

{

crWarning("Failed to use no-alpha program rc %d!, falling back to default blit", rc);

pBlitter->pfnBlt(pBlitter, pSrc, paSrcRects, pDstSize, paDstRects, cRects, fFlags);

return;

}

/* since we use shaders, we need to use draw commands rather than framebuffer blits.

crBltBlitTexBufImplDraw2D(pBlitter, pSrc, paSrcRects, pDstSize, paDstRects, cRects, fFlags);

Assert(pBlitter->Flags.ShadersGloal || &pBlitter->LocalGlslCache == pBlitter->pGlslCache);

CrGlslProgClear(pBlitter->pGlslCache);

}

}

void CrBltCheckUpdateViewport(PCR_BLITTER pBlitter)

{

RTRECTSIZE DstSize = {pBlitter->CurrentMural.width, pBlitter->CurrentMural.height};

crBltCheckSetupViewport(pBlitter, &DstSize, false);

}

void CrBltBlitTexMural(PCR_BLITTER pBlitter, bool fBb, const VBOXVR_TEXTURE *pSrc, const RTRECT *paSrcRects, const RTRECT *paDstRects, uint32_t cRects, uint32_t fFlags)

{

if (!CrBltIsEntered(pBlitter))

{

WARN(("CrBltBlitTexMural: blitter not entered"));

return;

}

RTRECTSIZE DstSize = {pBlitter->CurrentMural.width, pBlitter->CurrentMural.height};

pBlitter->pDispatch->BindFramebufferEXT(GL_DRAW_FRAMEBUFFER, 0);

crBltBlitTexBuf(pBlitter, pSrc, paSrcRects, fBb ? GL_BACK : GL_FRONT, &DstSize, paDstRects, cRects, fFlags);

}

void CrBltBlitTexTex(PCR_BLITTER pBlitter, const VBOXVR_TEXTURE *pSrc, const RTRECT *pSrcRect, const VBOXVR_TEXTURE *pDst, const RTRECT *pDstRect, uint32_t cRects, uint32_t fFlags)

{

if (!CrBltIsEntered(pBlitter))

{

WARN(("CrBltBlitTexTex: blitter not entered"));

return;

}

RTRECTSIZE DstSize = {(uint32_t)pDst->width, (uint32_t)pDst->height};

pBlitter->pDispatch->BindFramebufferEXT(GL_DRAW_FRAMEBUFFER, pBlitter->idFBO);

/* TODO: mag/min filters ? */

pBlitter->pDispatch->FramebufferTexture2DEXT(GL_DRAW_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, pDst->target, pDst->hwid, 0);

crBltBlitTexBuf(pBlitter, pSrc, pSrcRect, GL_DRAW_FRAMEBUFFER, &DstSize, pDstRect, cRects, fFlags);

pBlitter->pDispatch->FramebufferTexture2DEXT(GL_DRAW_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, pDst->target, 0, 0);

}

void CrBltPresent(PCR_BLITTER pBlitter)

{

if (!CrBltIsEntered(pBlitter))

{

WARN(("CrBltPresent: blitter not entered"));

return;

}

if (pBlitter->CtxInfo.Base.visualBits & CR_DOUBLE_BIT)

pBlitter->pDispatch->SwapBuffers(pBlitter->CurrentMural.Base.id, 0);

else

pBlitter->pDispatch->Flush();

}

static int crBltImgInitBaseForTex(const VBOXVR_TEXTURE *pSrc, CR_BLITTER_IMG *pDst, GLenum enmFormat)

{

memset(pDst, 0, sizeof (*pDst));

if (enmFormat != GL_RGBA

&& enmFormat != GL_BGRA)

{

WARN(("unsupported format 0x%x", enmFormat));

return VERR_NOT_IMPLEMENTED;

}

uint32_t bpp = 32;

uint32_t pitch = ((bpp * pSrc->width) + 7) >> 3;

uint32_t cbData = pitch * pSrc->height;

pDst->cbData = cbData;

pDst->enmFormat = enmFormat;

pDst->width = pSrc->width;

pDst->height = pSrc->height;

pDst->bpp = bpp;

pDst->pitch = pitch;

return VINF_SUCCESS;

}

static int crBltImgCreateForTex(const VBOXVR_TEXTURE *pSrc, CR_BLITTER_IMG *pDst, GLenum enmFormat)

{

int rc = crBltImgInitBaseForTex(pSrc, pDst, enmFormat);

if (!RT_SUCCESS(rc))

{

crWarning("crBltImgInitBaseForTex failed rc %d", rc);

return rc;

}

uint32_t cbData = pDst->cbData;

pDst->pvData = RTMemAllocZ(cbData);

if (!pDst->pvData)

{

crWarning("RTMemAlloc failed");

return VERR_NO_MEMORY;

}

#ifdef DEBUG_misha

{

char *pTmp = (char*)pDst->pvData;

for (uint32_t i = 0; i < cbData; ++i)

{

pTmp[i] = (char)((1 << i) % 255);

}

}

#endif

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrBltImgGetTex(PCR_BLITTER pBlitter, const VBOXVR_TEXTURE *pSrc, GLenum enmFormat, CR_BLITTER_IMG *pDst)

{

if (!CrBltIsEntered(pBlitter))

{

WARN(("CrBltImgGetTex: blitter not entered"));

return VERR_INVALID_STATE;

}

int rc = crBltImgCreateForTex(pSrc, pDst, enmFormat);

if (!RT_SUCCESS(rc))

{

crWarning("crBltImgCreateForTex failed, rc %d", rc);

return rc;

}

pBlitter->pDispatch->BindTexture(pSrc->target, pSrc->hwid);

#ifdef DEBUG_misha

{

GLint width = 0, height = 0, depth = 0;

pBlitter->pDispatch->GetTexLevelParameteriv(pSrc->target, 0, GL_TEXTURE_WIDTH, &width);

pBlitter->pDispatch->GetTexLevelParameteriv(pSrc->target, 0, GL_TEXTURE_HEIGHT, &height);

pBlitter->pDispatch->GetTexLevelParameteriv(pSrc->target, 0, GL_TEXTURE_DEPTH, &depth);

Assert(width == pSrc->width);

Assert(height == pSrc->height);

}

#endif

pBlitter->pDispatch->GetTexImage(pSrc->target, 0, enmFormat, GL_UNSIGNED_BYTE, pDst->pvData);

pBlitter->pDispatch->BindTexture(pSrc->target, 0);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrBltImgGetMural(PCR_BLITTER pBlitter, bool fBb, CR_BLITTER_IMG *pDst)

{

if (!CrBltIsEntered(pBlitter))

{

WARN(("CrBltImgGetMural: blitter not entered"));

return VERR_INVALID_STATE;

}

crWarning("NOT IMPLEMENTED");

return VERR_NOT_IMPLEMENTED;

}

VBOXBLITTERDECL(void) CrBltImgFree(PCR_BLITTER pBlitter, CR_BLITTER_IMG *pDst)

{

if (!CrBltIsEntered(pBlitter))

{

WARN(("CrBltImgFree: blitter not entered"));

return;

}

if (pDst->pvData)

{

RTMemFree(pDst->pvData);

pDst->pvData = NULL;

}

}

VBOXBLITTERDECL(bool) CrGlslIsSupported(CR_GLSL_CACHE *pCache)

{

if (pCache->iGlVersion == 0)

{

const char * pszStr = (const char*)pCache->pDispatch->GetString(GL_VERSION);

pCache->iGlVersion = crStrParseGlVersion(pszStr);

if (pCache->iGlVersion <= 0)

{

crWarning("crStrParseGlVersion returned %d", pCache->iGlVersion);

pCache->iGlVersion = -1;

}

}

if (pCache->iGlVersion >= CR_GLVERSION_COMPOSE(2, 0, 0))

return true;

crWarning("GLSL unsuported, gl version %d", pCache->iGlVersion);

/* @todo: we could also check for GL_ARB_shader_objects and GL_ARB_fragment_shader,

return false;

}

#define CR_GLSL_STR_V_120 "#version 120\n"

#define CR_GLSL_STR_EXT_TR "#extension GL_ARB_texture_rectangle : enable\n"

#define CR_GLSL_STR_2D "2D"

#define CR_GLSL_STR_2DRECT "2DRect"

#define CR_GLSL_PATTERN_FS_NOALPHA(_ver, _ext, _tex) \

_ver \

_ext \

"uniform sampler" _tex " sampler0;\n" \

"void main()\n" \

"{\n" \

"vec2 srcCoord = vec2(gl_TexCoord[0]);\n" \

"gl_FragData[0].xyz = (texture" _tex "(sampler0, srcCoord).xyz);\n" \

"gl_FragData[0].w = 1.0;\n" \

"}\n"

static const char* crGlslGetFsStringNoAlpha(CR_GLSL_CACHE *pCache, GLenum enmTexTarget)

{

if (!CrGlslIsSupported(pCache))

{

crWarning("CrGlslIsSupported is false");

return NULL;

}

if (pCache->iGlVersion >= CR_GLVERSION_COMPOSE(2, 1, 0))

{

if (enmTexTarget == GL_TEXTURE_2D)

return CR_GLSL_PATTERN_FS_NOALPHA(CR_GLSL_STR_V_120, "", CR_GLSL_STR_2D);

else if (enmTexTarget == GL_TEXTURE_RECTANGLE_ARB)

return CR_GLSL_PATTERN_FS_NOALPHA(CR_GLSL_STR_V_120, CR_GLSL_STR_EXT_TR, CR_GLSL_STR_2DRECT);

crWarning("invalid enmTexTarget %#x", enmTexTarget);

return NULL;

}

else if (pCache->iGlVersion >= CR_GLVERSION_COMPOSE(2, 0, 0))

{

if (enmTexTarget == GL_TEXTURE_2D)

return CR_GLSL_PATTERN_FS_NOALPHA("", "", CR_GLSL_STR_2D);

else if (enmTexTarget == GL_TEXTURE_RECTANGLE_ARB)

return CR_GLSL_PATTERN_FS_NOALPHA("", CR_GLSL_STR_EXT_TR, CR_GLSL_STR_2DRECT);

crWarning("invalid enmTexTarget %#x", enmTexTarget);

return NULL;

}

crError("crGlslGetFsStringNoAlpha: we should not be here!");

return NULL;

}

static int crGlslProgGenNoAlpha(CR_GLSL_CACHE *pCache, GLenum enmTexTarget, GLuint *puiProgram)

{

*puiProgram = 0;

const char*pStrFsShader = crGlslGetFsStringNoAlpha(pCache, enmTexTarget);

if (!pStrFsShader)

{

crWarning("crGlslGetFsStringNoAlpha failed");

return VERR_NOT_SUPPORTED;

}

int rc = VINF_SUCCESS;

GLchar * pBuf = NULL;

GLuint uiProgram = 0;

GLint iUniform = -1;

GLuint uiShader = pCache->pDispatch->CreateShader(GL_FRAGMENT_SHADER);

if (!uiShader)

{

crWarning("CreateShader failed");

return VERR_NOT_SUPPORTED;

}

pCache->pDispatch->ShaderSource(uiShader, 1, &pStrFsShader, NULL);

pCache->pDispatch->CompileShader(uiShader);

GLint compiled = 0;

pCache->pDispatch->GetShaderiv(uiShader, GL_COMPILE_STATUS, &compiled);

#ifndef DEBUG_misha

if(!compiled)

#endif

{

if (!pBuf)

pBuf = (GLchar *)RTMemAlloc(16300);

pCache->pDispatch->GetShaderInfoLog(uiShader, 16300, NULL, pBuf);

#ifdef DEBUG_misha

if (compiled)

crDebug("compile success:\n-------------------\n%s\n--------\n", pBuf);

else

#endif

{

crWarning("compile FAILURE:\n-------------------\n%s\n--------\n", pBuf);

rc = VERR_NOT_SUPPORTED;

goto end;

}

}

Assert(compiled);

uiProgram = pCache->pDispatch->CreateProgram();

if (!uiProgram)

{

rc = VERR_NOT_SUPPORTED;

goto end;

}

pCache->pDispatch->AttachShader(uiProgram, uiShader);

pCache->pDispatch->LinkProgram(uiProgram);

GLint linked;

pCache->pDispatch->GetProgramiv(uiProgram, GL_LINK_STATUS, &linked);

#ifndef DEBUG_misha

if(!linked)

#endif

{

if (!pBuf)

pBuf = (GLchar *)RTMemAlloc(16300);

pCache->pDispatch->GetProgramInfoLog(uiProgram, 16300, NULL, pBuf);

#ifdef DEBUG_misha

if (linked)

crDebug("link success:\n-------------------\n%s\n--------\n", pBuf);

else

#endif

{

crWarning("link FAILURE:\n-------------------\n%s\n--------\n", pBuf);

rc = VERR_NOT_SUPPORTED;

goto end;

}

}

Assert(linked);

iUniform = pCache->pDispatch->GetUniformLocation(uiProgram, "sampler0");

if (iUniform == -1)

{

crWarning("GetUniformLocation failed for sampler0");

}

else

{

pCache->pDispatch->Uniform1i(iUniform, 0);

}

*puiProgram = uiProgram;

/* avoid end finalizer from cleaning it */

uiProgram = 0;

end:

if (uiShader)

pCache->pDispatch->DeleteShader(uiShader);

if (uiProgram)

pCache->pDispatch->DeleteProgram(uiProgram);

if (pBuf)

RTMemFree(pBuf);

return rc;

}

DECLINLINE(GLuint) crGlslProgGetNoAlpha(const CR_GLSL_CACHE *pCache, GLenum enmTexTarget)

{

switch (enmTexTarget)

{

case GL_TEXTURE_2D:

return pCache->uNoAlpha2DProg;

case GL_TEXTURE_RECTANGLE_ARB:

return pCache->uNoAlpha2DRectProg;

default:

crWarning("invalid tex enmTexTarget %#x", enmTexTarget);

return 0;

}

}

DECLINLINE(GLuint*) crGlslProgGetNoAlphaPtr(CR_GLSL_CACHE *pCache, GLenum enmTexTarget)

{

switch (enmTexTarget)

{

case GL_TEXTURE_2D:

return &pCache->uNoAlpha2DProg;

case GL_TEXTURE_RECTANGLE_ARB:

return &pCache->uNoAlpha2DRectProg;

default:

crWarning("invalid tex enmTexTarget %#x", enmTexTarget);

return NULL;

}

}

VBOXBLITTERDECL(int) CrGlslProgGenNoAlpha(CR_GLSL_CACHE *pCache, GLenum enmTexTarget)

{

GLuint*puiProgram = crGlslProgGetNoAlphaPtr(pCache, enmTexTarget);

if (!puiProgram)

return VERR_INVALID_PARAMETER;

if (*puiProgram)

return VINF_SUCCESS;

return crGlslProgGenNoAlpha(pCache, enmTexTarget, puiProgram);

}

VBOXBLITTERDECL(int) CrGlslProgGenAllNoAlpha(CR_GLSL_CACHE *pCache)

{

int rc = CrGlslProgGenNoAlpha(pCache, GL_TEXTURE_2D);

if (!RT_SUCCESS(rc))

{

crWarning("CrGlslProgGenNoAlpha GL_TEXTURE_2D failed rc %d", rc);

return rc;

}

rc = CrGlslProgGenNoAlpha(pCache, GL_TEXTURE_RECTANGLE_ARB);

if (!RT_SUCCESS(rc))

{

crWarning("CrGlslProgGenNoAlpha GL_TEXTURE_RECTANGLE failed rc %d", rc);

return rc;

}

return VINF_SUCCESS;

}

VBOXBLITTERDECL(void) CrGlslProgClear(const CR_GLSL_CACHE *pCache)

{

pCache->pDispatch->UseProgram(0);

}

VBOXBLITTERDECL(int) CrGlslProgUseNoAlpha(const CR_GLSL_CACHE *pCache, GLenum enmTexTarget)

{

GLuint uiProg = crGlslProgGetNoAlpha(pCache, enmTexTarget);

if (!uiProg)

{

crWarning("request to use inexistent program!");

return VERR_INVALID_STATE;

}

Assert(uiProg);

pCache->pDispatch->UseProgram(uiProg);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrGlslProgUseGenNoAlpha(CR_GLSL_CACHE *pCache, GLenum enmTexTarget)

{

GLuint uiProg = crGlslProgGetNoAlpha(pCache, enmTexTarget);

if (!uiProg)

{

int rc = CrGlslProgGenNoAlpha(pCache, enmTexTarget);

if (!RT_SUCCESS(rc))

{

crWarning("CrGlslProgGenNoAlpha failed, rc %d", rc);

return rc;

}

uiProg = crGlslProgGetNoAlpha(pCache, enmTexTarget);

CRASSERT(uiProg);

}

Assert(uiProg);

pCache->pDispatch->UseProgram(uiProg);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(bool) CrGlslNeedsCleanup(const CR_GLSL_CACHE *pCache)

{

return pCache->uNoAlpha2DProg || pCache->uNoAlpha2DRectProg;

}

VBOXBLITTERDECL(void) CrGlslCleanup(CR_GLSL_CACHE *pCache)

{

if (pCache->uNoAlpha2DProg)

{

pCache->pDispatch->DeleteProgram(pCache->uNoAlpha2DProg);

pCache->uNoAlpha2DProg = 0;

}

if (pCache->uNoAlpha2DRectProg)

{

pCache->pDispatch->DeleteProgram(pCache->uNoAlpha2DRectProg);

pCache->uNoAlpha2DRectProg = 0;

}

}

VBOXBLITTERDECL(void) CrGlslTerm(CR_GLSL_CACHE *pCache)

{

CRASSERT(!CrGlslNeedsCleanup(pCache));

CrGlslCleanup(pCache);

/* sanity */

memset(pCache, 0, sizeof (*pCache));

}

static void crTdBltCheckPBO(PCR_TEXDATA pTex)

{

if (pTex->idPBO)

return;

PCR_BLITTER pBlitter = pTex->pBlitter;

if (!pBlitter->Flags.SupportsPBO)

return;

pBlitter->pDispatch->GenBuffersARB(1, &pTex->idPBO);

if (!pTex->idPBO)

{

crWarning("PBO create failed");

return;

}

pBlitter->pDispatch->BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, pTex->idPBO);

pBlitter->pDispatch->BufferDataARB(GL_PIXEL_PACK_BUFFER_ARB,

pTex->Tex.width*pTex->Tex.height*4,

0, GL_STREAM_READ_ARB);

pBlitter->pDispatch->BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, 0);

}

static uint32_t crTdBltTexCreate(PCR_BLITTER pBlitter, uint32_t width, uint32_t height, GLenum enmTarget)

{

uint32_t tex = 0;

pBlitter->pDispatch->GenTextures(1, &tex);

if (!tex)

{

crWarning("Tex create failed");

return 0;

}

pBlitter->pDispatch->BindTexture(enmTarget, tex);

pBlitter->pDispatch->TexParameteri(enmTarget, GL_TEXTURE_MIN_FILTER, GL_NEAREST);

pBlitter->pDispatch->TexParameteri(enmTarget, GL_TEXTURE_MAG_FILTER, GL_NEAREST);

pBlitter->pDispatch->TexParameteri(enmTarget, GL_TEXTURE_WRAP_S, GL_CLAMP);

pBlitter->pDispatch->TexParameteri(enmTarget, GL_TEXTURE_WRAP_T, GL_CLAMP);

pBlitter->pDispatch->TexImage2D(enmTarget, 0, GL_RGBA8,

width, height,

0, GL_BGRA, GL_UNSIGNED_BYTE, NULL);

/*Restore gl state*/

pBlitter->pDispatch->BindTexture(enmTarget, 0);

return tex;

}

int crTdBltCheckInvertTex(PCR_TEXDATA pTex)

{

if (pTex->idInvertTex)

return VINF_SUCCESS;

pTex->idInvertTex = crTdBltTexCreate(pTex->pBlitter, pTex->Tex.width, pTex->Tex.height, pTex->Tex.target);

if (!pTex->idInvertTex)

{

crWarning("Invert Tex create failed");

return VERR_GENERAL_FAILURE;

}

return VINF_SUCCESS;

}

void crTdBltImgRelease(PCR_TEXDATA pTex)

{

pTex->Flags.DataValid = 0;

}

void crTdBltImgFree(PCR_TEXDATA pTex)

{

if (!pTex->Img.pvData)

{

Assert(!pTex->Flags.DataValid);

return;

}

crTdBltImgRelease(pTex);

Assert(!pTex->Flags.DataValid);

if (pTex->idPBO)

{

PCR_BLITTER pBlitter = pTex->pBlitter;

Assert(CrBltIsEntered(pBlitter));

pBlitter->pDispatch->BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, pTex->idPBO);

pBlitter->pDispatch->UnmapBufferARB(GL_PIXEL_PACK_BUFFER_ARB);

pBlitter->pDispatch->BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, 0);

}

else

{

Assert(pTex->Img.pvData);

RTMemFree(pTex->Img.pvData);

}

pTex->Img.pvData = NULL;

}

int crTdBltImgAcquire(PCR_TEXDATA pTex, GLenum enmFormat, bool fInverted)

{

void *pvData = pTex->Img.pvData;

Assert(!pTex->Flags.DataValid);

int rc = crBltImgInitBaseForTex(&pTex->Tex, &pTex->Img, enmFormat);

if (!RT_SUCCESS(rc))

{

WARN(("crBltImgInitBaseForTex failed rc %d", rc));

return rc;

}

PCR_BLITTER pBlitter = pTex->pBlitter;

Assert(CrBltIsEntered(pBlitter));

pBlitter->pDispatch->BindTexture(pTex->Tex.target, fInverted ? pTex->idInvertTex : pTex->Tex.hwid);

pBlitter->pDispatch->BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, pTex->idPBO);

if (pvData)

{

if (pTex->idPBO)

{

pBlitter->pDispatch->UnmapBufferARB(GL_PIXEL_PACK_BUFFER_ARB);

pvData = NULL;

}

}

else

{

if (!pTex->idPBO)

{

pvData = RTMemAlloc(4*pTex->Tex.width*pTex->Tex.height);

if (!pvData)

{

WARN(("Out of memory in crTdBltImgAcquire"));

pBlitter->pDispatch->BindTexture(pTex->Tex.target, 0);

return VERR_NO_MEMORY;

}

}

}

Assert(!pvData == !!pTex->idPBO);

/*read the texture, note pixels are NULL for PBO case as it's offset in the buffer*/

pBlitter->pDispatch->GetTexImage(GL_TEXTURE_2D, 0, enmFormat, GL_UNSIGNED_BYTE, pvData);

/*restore gl state*/

pBlitter->pDispatch->BindTexture(pTex->Tex.target, 0);

if (pTex->idPBO)

{

pvData = pBlitter->pDispatch->MapBufferARB(GL_PIXEL_PACK_BUFFER_ARB, GL_READ_ONLY);

if (!pvData)

{

WARN(("Failed to MapBuffer in CrHlpGetTexImage"));

return VERR_GENERAL_FAILURE;

}

pBlitter->pDispatch->BindBufferARB(GL_PIXEL_PACK_BUFFER_ARB, 0);

}

Assert(pvData);

pTex->Img.pvData = pvData;

pTex->Flags.DataValid = 1;

pTex->Flags.DataInverted = fInverted;

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrTdBltDataRelease(PCR_TEXDATA pTex)

{

if (!pTex->Flags.Entered)

{

WARN(("tex not entered"));

return VERR_INVALID_STATE;

}

if (!pTex->Flags.DataAcquired)

{

WARN(("Data NOT acquired"));

return VERR_INVALID_STATE;

}

Assert(pTex->Img.pvData);

Assert(pTex->Flags.DataValid);

pTex->Flags.DataAcquired = 0;

return VINF_SUCCESS;

}

static void crTdBltDataFree(PCR_TEXDATA pTex)

{

crTdBltImgFree(pTex);

if (pTex->pScaledCache)

CrTdBltDataFreeNe(pTex->pScaledCache);

}

VBOXBLITTERDECL(int) CrTdBltDataFree(PCR_TEXDATA pTex)

{

if (!pTex->Flags.Entered)

{

WARN(("tex not entered"));

return VERR_INVALID_STATE;

}

crTdBltDataFree(pTex);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(void) CrTdBltDataInvalidateNe(PCR_TEXDATA pTex)

{

crTdBltImgRelease(pTex);

if (pTex->pScaledCache)

CrTdBltDataInvalidateNe(pTex->pScaledCache);

}

VBOXBLITTERDECL(int) CrTdBltDataFreeNe(PCR_TEXDATA pTex)

{

if (!pTex->Img.pvData)

return VINF_SUCCESS;

bool fEntered = false;

if (pTex->idPBO)

{

int rc = CrTdBltEnter(pTex);

if (!RT_SUCCESS(rc))

{

WARN(("err"));

return rc;

}

fEntered = true;

}

crTdBltDataFree(pTex);

if (fEntered)

CrTdBltLeave(pTex);

return VINF_SUCCESS;

}

static void crTdBltSdCleanupCacheNe(PCR_TEXDATA pTex)

{

if (pTex->pScaledCache)

{

CrTdBltDataCleanupNe(pTex->pScaledCache);

CrTdRelease(pTex->pScaledCache);

pTex->pScaledCache = NULL;

}

}

static void crTdBltDataCleanup(PCR_TEXDATA pTex)

{

crTdBltImgFree(pTex);

PCR_BLITTER pBlitter = pTex->pBlitter;

if (pTex->idPBO)

{

Assert(CrBltIsEntered(pBlitter));

pBlitter->pDispatch->DeleteBuffersARB(1, &pTex->idPBO);

pTex->idPBO = 0;

}

if (pTex->idInvertTex)

{

Assert(CrBltIsEntered(pBlitter));

pBlitter->pDispatch->DeleteTextures(1, &pTex->idInvertTex);

pTex->idInvertTex = 0;

}

crTdBltSdCleanupCacheNe(pTex);

}

VBOXBLITTERDECL(int) CrTdBltDataCleanup(PCR_TEXDATA pTex)

{

if (!pTex->Flags.Entered)

{

WARN(("tex not entered"));

return VERR_INVALID_STATE;

}

crTdBltDataCleanup(pTex);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrTdBltDataCleanupNe(PCR_TEXDATA pTex)

{

bool fEntered = false;

if (pTex->idPBO || pTex->idInvertTex)

{

int rc = CrTdBltEnter(pTex);

if (!RT_SUCCESS(rc))

{

WARN(("err"));

return rc;

}

fEntered = true;

}

crTdBltDataCleanup(pTex);

if (fEntered)

CrTdBltLeave(pTex);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrTdBltDataAcquire(PCR_TEXDATA pTex, GLenum enmFormat, bool fInverted, const CR_BLITTER_IMG**ppImg)

{

if (!pTex->Flags.Entered)

{

WARN(("tex not entered"));

return VERR_INVALID_STATE;

}

if (pTex->Flags.DataAcquired)

{

WARN(("Data acquired already"));

return VERR_INVALID_STATE;

}

if (pTex->Flags.DataValid && pTex->Img.enmFormat == enmFormat && !pTex->Flags.DataInverted == !fInverted)

{

Assert(pTex->Img.pvData);

*ppImg = &pTex->Img;

pTex->Flags.DataAcquired = 1;

return VINF_SUCCESS;

}

crTdBltImgRelease(pTex);

crTdBltCheckPBO(pTex);

int rc;

if (fInverted)

{

rc = crTdBltCheckInvertTex(pTex);

if (!RT_SUCCESS(rc))

{

WARN(("crTdBltCheckInvertTex failed rc %d", rc));

return rc;

}

RTRECT SrcRect, DstRect;

VBOXVR_TEXTURE InvertTex;

InvertTex = pTex->Tex;

InvertTex.hwid = pTex->idInvertTex;

SrcRect.xLeft = 0;

SrcRect.yTop = InvertTex.height;

SrcRect.xRight = InvertTex.width;

SrcRect.yBottom = 0;

DstRect.xLeft = 0;

DstRect.yTop = 0;

DstRect.xRight = InvertTex.width;

DstRect.yBottom = InvertTex.height;

CrBltBlitTexTex(pTex->pBlitter, &pTex->Tex, &SrcRect, &InvertTex, &DstRect, 1, 0);

}

rc = crTdBltImgAcquire(pTex, enmFormat, fInverted);

if (!RT_SUCCESS(rc))

{

WARN(("crTdBltImgAcquire failed rc %d", rc));

return rc;

}

Assert(pTex->Img.pvData);

*ppImg = &pTex->Img;

pTex->Flags.DataAcquired = 1;

return VINF_SUCCESS;

}

DECLINLINE(void) crTdResize(PCR_TEXDATA pTex, const VBOXVR_TEXTURE *pVrTex)

{

crTdBltDataCleanup(pTex);

pTex->Tex = *pVrTex;

}

static DECLCALLBACK(void) ctTdBltSdReleased(struct CR_TEXDATA *pTexture)

{

PCR_BLITTER pBlitter = pTexture->pBlitter;

int rc = CrBltEnter(pBlitter);

if (!RT_SUCCESS(rc))

{

WARN(("CrBltEnter failed, rc %d", rc));

return;

}

CrTdBltDataCleanupNe(pTexture);

pBlitter->pDispatch->DeleteTextures(1, &pTexture->Tex.hwid);

CrBltLeave(pBlitter);

RTMemFree(pTexture);

}

static int ctTdBltSdCreate(PCR_BLITTER pBlitter, uint32_t width, uint32_t height, GLenum enmTarget, PCR_TEXDATA *ppScaledCache)

{

PCR_TEXDATA pScaledCache;

Assert(CrBltIsEntered(pBlitter));

*ppScaledCache = NULL;

pScaledCache = (PCR_TEXDATA)RTMemAlloc(sizeof (*pScaledCache));

if (!pScaledCache)

{

WARN(("RTMemAlloc failed"));

return VERR_NO_MEMORY;

}

VBOXVR_TEXTURE Tex;

Tex.width = width;

Tex.height = height;

Tex.target = enmTarget;

Tex.hwid = crTdBltTexCreate(pBlitter, width, height, enmTarget);

if (!Tex.hwid)

{

WARN(("Tex create failed"));

RTMemFree(pScaledCache);

return VERR_GENERAL_FAILURE;

}

CrTdInit(pScaledCache, &Tex, pBlitter, ctTdBltSdReleased);

*ppScaledCache = pScaledCache;

return VINF_SUCCESS;

}

static int ctTdBltSdGet(PCR_TEXDATA pTex, uint32_t width, uint32_t height, PCR_TEXDATA *ppScaledCache)

{

Assert(CrBltIsEntered(pTex->pBlitter));

PCR_TEXDATA pScaledCache;

*ppScaledCache = NULL;

if (!pTex->pScaledCache)

{

int rc = ctTdBltSdCreate(pTex->pBlitter, width, height, pTex->Tex.target, &pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("ctTdBltSdCreate failed %d", rc));

return rc;

}

pTex->pScaledCache = pScaledCache;

}

else

{

int cmp = pTex->pScaledCache->Tex.width - width;

if (cmp <= 0)

cmp = pTex->pScaledCache->Tex.height - height;

if (!cmp)

pScaledCache = pTex->pScaledCache;

else if (cmp < 0) /* current cache is "less" than the requested */

{

int rc = ctTdBltSdCreate(pTex->pBlitter, width, height, pTex->Tex.target, &pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("ctTdBltSdCreate failed %d", rc));

return rc;

}

pScaledCache->pScaledCache = pTex->pScaledCache;

pTex->pScaledCache = pScaledCache;

}

else /* cmp > 0 */

{

int rc = ctTdBltSdGet(pTex->pScaledCache, width, height, &pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("ctTdBltSdGet failed %d", rc));

return rc;

}

}

}

Assert(pScaledCache);

#if 0

{

VBOXVR_TEXTURE Tex;

Tex.width = width;

Tex.height = height;

Tex.target = pTex->Tex.target;

Tex.hwid = crTdBltTexCreate(pTex, width, height);

if (!Tex.hwid)

{

WARN(("Tex create failed"));

return VERR_GENERAL_FAILURE;

}

pTex->pBlitter->pDispatch->DeleteTextures(1, &pTex->pScaledCache->Tex.hwid);

crTdResize(pTex->pScaledCache, &Tex);

}

#endif

*ppScaledCache = pScaledCache;

return VINF_SUCCESS;

}

static int ctTdBltSdGetUpdated(PCR_TEXDATA pTex, uint32_t width, uint32_t height, PCR_TEXDATA *ppScaledCache)

{

PCR_TEXDATA pScaledCache;

*ppScaledCache = NULL;

int rc = ctTdBltSdGet(pTex, width, height, &pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("ctTdBltSdGet failed %d", rc));

return rc;

}

Assert(width == pScaledCache->Tex.width);

Assert(height == pScaledCache->Tex.height);

if (!pScaledCache->Flags.DataValid)

{

RTRECT SrcRect, DstRect;

SrcRect.xLeft = 0;

SrcRect.yTop = 0;

SrcRect.xRight = pTex->Tex.width;

SrcRect.yBottom = pTex->Tex.height;

DstRect.xLeft = 0;

DstRect.yTop = 0;

DstRect.xRight = width;

DstRect.yBottom = height;

CrBltBlitTexTex(pTex->pBlitter, &pTex->Tex, &SrcRect, &pScaledCache->Tex, &DstRect, 1, 0);

}

*ppScaledCache = pScaledCache;

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrTdBltDataAcquireScaled(PCR_TEXDATA pTex, GLenum enmFormat, bool fInverted, uint32_t width, uint32_t height, const CR_BLITTER_IMG**ppImg)

{

if (pTex->Tex.width == width && pTex->Tex.height == height)

return CrTdBltDataAcquire(pTex, enmFormat, fInverted, ppImg);

if (!pTex->Flags.Entered)

{

WARN(("tex not entered"));

return VERR_INVALID_STATE;

}

PCR_TEXDATA pScaledCache;

int rc = ctTdBltSdGetUpdated(pTex, width, height, &pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("ctTdBltSdGetUpdated failed rc %d", rc));

return rc;

}

rc = CrTdBltEnter(pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("CrTdBltEnter failed rc %d", rc));

return rc;

}

rc = CrTdBltDataAcquire(pScaledCache, enmFormat, fInverted, ppImg);

if (!RT_SUCCESS(rc))

{

WARN(("CrTdBltDataAcquire failed rc %d", rc));

CrTdBltLeave(pTex->pScaledCache);

return rc;

}

return VINF_SUCCESS;

}

VBOXBLITTERDECL(int) CrTdBltDataReleaseScaled(PCR_TEXDATA pTex, const CR_BLITTER_IMG *pImg)

{

PCR_TEXDATA pScaledCache = RT_FROM_MEMBER(pImg, CR_TEXDATA, Img);

int rc = CrTdBltDataRelease(pScaledCache);

if (!RT_SUCCESS(rc))

{

WARN(("CrTdBltDataRelease failed rc %d", rc));

return rc;

}

if (pScaledCache != pTex)

CrTdBltLeave(pScaledCache);

return VINF_SUCCESS;

}

VBOXBLITTERDECL(void) CrTdBltScaleCacheMoveTo(PCR_TEXDATA pTex, PCR_TEXDATA pDstTex)

{

if (!pTex->pScaledCache)

return;

crTdBltSdCleanupCacheNe(pDstTex);

pDstTex->pScaledCache = pTex->pScaledCache;

pTex->pScaledCache = NULL;

}