/* * Copyright 1997 through 2004 by Marc Aurele La France (TSI @ UQV), tsi@xfree86.org * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting documentation, and * that the name of Marc Aurele La France not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. Marc Aurele La France makes no representations * about the suitability of this software for any purpose. It is provided * "as-is" without express or implied warranty. * * MARC AURELE LA FRANCE DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO * EVENT SHALL MARC AURELE LA FRANCE BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* * Copyright 1990,91,92,93 by Thomas Roell, Germany. * Copyright 1991,92,93 by SGCS (Snitily Graphics Consulting Services), USA. * * Permission to use, copy, modify, distribute, and sell this software * and its documentation for any purpose is hereby granted without fee, * provided that the above copyright notice appear in all copies and * that both that copyright notice and this permission notice appear * in supporting documentation, and that the name of Thomas Roell nor * SGCS be used in advertising or publicity pertaining to distribution * of the software without specific, written prior permission. * Thomas Roell nor SGCS makes no representations about the suitability * of this software for any purpose. It is provided "as is" without * express or implied warranty. * * THOMAS ROELL AND SGCS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS * SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS, IN NO EVENT SHALL THOMAS ROELL OR SGCS BE LIABLE FOR ANY * SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER * RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF * CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* $XFree86: xc/programs/Xserver/mi/mibank.c,v 1.15 2003/11/10 18:39:16 tsi Exp $ */ /* * This thing originated from an idea of Edwin Goei and his bank switching * code for the DEC TX board. */ /* * Heavily modified for the XFree86 Project to turn this into an mi wrapper. * --- Marc Aurele La France (tsi@xfree86.org) */ /* * "Heavily modified", indeed! By the time this is finalized, there probably * won't be much left of Roell's code... * * Miscellaneous notes: * - Pixels with imbedded bank boundaries are required to be off-screen. There * >might< be a way to fool the underlying framebuffer into dealing with * partial pixels. * - Plans to generalise this to do (hardware) colour plane switching have been * dropped due to colour flashing concerns. * * TODO: * - Allow miModifyBanking() to change BankSize and nBankDepth. * - Re-instate shared and double banking for framebuffers whose pixmap formats * don't describe how the server "sees" the screen. * - Remove remaining assumptions that a pixmap's devPrivate field points * directly to its pixel data. */ /* #define NO_ALLOCA 1 */ #ifdef HAVE_DIX_CONFIG_H #include <dix-config.h> #endif #include "servermd.h" #include "gcstruct.h" #include "pixmapstr.h" #include "scrnintstr.h" #include "windowstr.h" #include "mi.h" #include "mibank.h" #define BANK_SINGLE 0 #define BANK_SHARED 1 #define BANK_DOUBLE 2 #define BANK_NOBANK 3 typedef struct _miBankScreen { miBankInfoRec BankInfo; unsigned int nBankBPP; unsigned int type; unsigned long nBitsPerBank; unsigned long nBitsPerScanline; unsigned long nPixelsPerScanlinePadUnit; PixmapPtr pScreenPixmap; PixmapPtr pBankPixmap; GCPtr pBankGC; int nBanks, maxRects; RegionPtr *pBanks; void *pbits; /* * Screen Wrappers */ CreateScreenResourcesProcPtr CreateScreenResources; ModifyPixmapHeaderProcPtr ModifyPixmapHeader; CloseScreenProcPtr CloseScreen; GetImageProcPtr GetImage; GetSpansProcPtr GetSpans; CreateGCProcPtr CreateGC; PaintWindowBackgroundProcPtr PaintWindowBackground; PaintWindowBorderProcPtr PaintWindowBorder; CopyWindowProcPtr CopyWindow; BSFuncRec BackingStoreFuncs; } miBankScreenRec, *miBankScreenPtr; typedef struct _miBankGC { GCOps *wrappedOps, *unwrappedOps; GCFuncs *wrappedFuncs, *unwrappedFuncs; Bool fastCopy, fastPlane; RegionPtr pBankedClips[1]; } miBankGCRec, *miBankGCPtr; typedef struct _miBankQueue { Bool fastBlit; unsigned short srcBankNo; unsigned short dstBankNo; short x; short y; short w; short h; } miBankQueue; /* * CAVEAT: This banking scheme requires that the DDX store Pixmap data in the * server's address space. */ #define ModifyPixmap(_pPix, _width, _devKind, _pbits) \ (*pScreen->ModifyPixmapHeader)((_pPix), \ (_width), -1, -1, -1, (_devKind), (_pbits)) #define SET_SINGLE_BANK(_pPix, _width, _devKind, _no) \ ModifyPixmap(_pPix, _width, _devKind, \ (char *)pScreenPriv->BankInfo.pBankA + \ (*pScreenPriv->BankInfo.SetSourceAndDestinationBanks)(pScreen, (_no)) - \ (pScreenPriv->BankInfo.BankSize * (_no))) #define SET_SOURCE_BANK(_pPix, _width, _devKind, _no) \ ModifyPixmap(_pPix, _width, _devKind, \ (char *)pScreenPriv->BankInfo.pBankA + \ (*pScreenPriv->BankInfo.SetSourceBank)(pScreen, (_no)) - \ (pScreenPriv->BankInfo.BankSize * (_no))) #define SET_DESTINATION_BANK(_pPix, _width, _devKind, _no) \ ModifyPixmap(_pPix, _width, _devKind, \ (char *)pScreenPriv->BankInfo.pBankB + \ (*pScreenPriv->BankInfo.SetDestinationBank)(pScreen, (_no)) - \ (pScreenPriv->BankInfo.BankSize * (_no))) #define ALLOCATE_LOCAL_ARRAY(atype, ntype) \ (atype *)ALLOCATE_LOCAL((ntype) * sizeof(atype)) static int miBankScreenIndex; static int miBankGCIndex; static unsigned long miBankGeneration = 0; #define BANK_SCRPRIVLVAL pScreen->devPrivates[miBankScreenIndex].ptr #define BANK_SCRPRIVATE ((miBankScreenPtr)(BANK_SCRPRIVLVAL)) #define BANK_GCPRIVLVAL(pGC) (pGC)->devPrivates[miBankGCIndex].ptr #define BANK_GCPRIVATE(pGC) ((miBankGCPtr)(BANK_GCPRIVLVAL(pGC))) #define PIXMAP_STATUS(_pPix) \ void * pbits = (_pPix)->devPrivate.ptr #define PIXMAP_SAVE(_pPix) \ PIXMAP_STATUS(_pPix); \ if (pbits == (void *)pScreenPriv) \ (_pPix)->devPrivate.ptr = pScreenPriv->pbits #define PIXMAP_RESTORE(_pPix) \ (_pPix)->devPrivate.ptr = pbits #define BANK_SAVE \ int width = pScreenPriv->pBankPixmap->drawable.width; \ int devKind = pScreenPriv->pBankPixmap->devKind; \ PIXMAP_SAVE(pScreenPriv->pBankPixmap) #define BANK_RESTORE \ pScreenPriv->pBankPixmap->drawable.width = width; \ pScreenPriv->pBankPixmap->devKind = devKind; \ PIXMAP_RESTORE(pScreenPriv->pBankPixmap) #define SCREEN_STATUS \ PIXMAP_STATUS(pScreenPriv->pScreenPixmap) #define SCREEN_SAVE \ PIXMAP_SAVE(pScreenPriv->pScreenPixmap) #define SCREEN_RESTORE \ PIXMAP_RESTORE(pScreenPriv->pScreenPixmap) #define SCREEN_INIT \ miBankScreenPtr pScreenPriv = BANK_SCRPRIVATE #define SCREEN_UNWRAP(field) \ pScreen->field = pScreenPriv->field #define SCREEN_WRAP(field, wrapper) \ pScreenPriv->field = pScreen->field; \ pScreen->field = wrapper #define GC_INIT(pGC) \ miBankGCPtr pGCPriv = BANK_GCPRIVATE(pGC) #define GC_UNWRAP(pGC) \ pGCPriv->unwrappedOps = (pGC)->ops; \ pGCPriv->unwrappedFuncs = (pGC)->funcs; \ (pGC)->ops = pGCPriv->wrappedOps; \ (pGC)->funcs = pGCPriv->wrappedFuncs #define GC_WRAP(pGC) \ pGCPriv->wrappedOps = (pGC)->ops; \ pGCPriv->wrappedFuncs = (pGC)->funcs; \ (pGC)->ops = pGCPriv->unwrappedOps; \ (pGC)->funcs = pGCPriv->unwrappedFuncs #define IS_BANKED(pDrawable) \ ((pbits == (void *)pScreenPriv) && \ (((DrawablePtr)(pDrawable))->type == DRAWABLE_WINDOW)) #define CLIP_SAVE \ RegionPtr pOrigCompositeClip = pGC->pCompositeClip #define CLIP_RESTORE \ pGC->pCompositeClip = pOrigCompositeClip #define GCOP_INIT \ ScreenPtr pScreen = pGC->pScreen; \ SCREEN_INIT; \ GC_INIT(pGC) #define GCOP_UNWRAP \ GC_UNWRAP(pGC) #define GCOP_WRAP \ GC_WRAP(pGC) #define GCOP_TOP_PART \ for (i = 0; i < pScreenPriv->nBanks; i++) \ { \ if (!(pGC->pCompositeClip = pGCPriv->pBankedClips[i])) \ continue; \ GCOP_UNWRAP; \ SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, i) #define GCOP_BOTTOM_PART \ GCOP_WRAP; \ } #define GCOP_SIMPLE(statement) \ if (nArray > 0) \ { \ GCOP_INIT; \ SCREEN_SAVE; \ if (!IS_BANKED(pDrawable)) \ { \ GCOP_UNWRAP; \ statement; \ GCOP_WRAP; \ } \ else \ { \ int i; \ CLIP_SAVE; \ GCOP_TOP_PART; \ statement; \ GCOP_BOTTOM_PART; \ CLIP_RESTORE; \ } \ SCREEN_RESTORE; \ } #define GCOP_0D_ARGS mode, #define GCOP_1D_ARGS #define GCOP_2D_ARGS shape, mode, #define GCOP_COMPLEX(aop, atype) \ if (nArray > 0) \ { \ GCOP_INIT; \ SCREEN_SAVE; \ if (!IS_BANKED(pDrawable)) \ { \ GCOP_UNWRAP; \ (*pGC->ops->aop)(pDrawable, pGC, GCOP_ARGS nArray, pArray); \ GCOP_WRAP; \ } \ else \ { \ atype *aarg = pArray, *acopy; \ int i; \ CLIP_SAVE; \ if ((acopy = ALLOCATE_LOCAL_ARRAY(atype, nArray))) \ aarg = acopy; \ GCOP_TOP_PART; \ if (acopy) \ memcpy(acopy, pArray, nArray * sizeof(atype)); \ (*pGC->ops->aop)(pDrawable, pGC, GCOP_ARGS nArray, aarg); \ GCOP_BOTTOM_PART; \ DEALLOCATE_LOCAL(acopy); \ CLIP_RESTORE; \ } \ SCREEN_RESTORE; \ } /********************* * Utility functions * *********************/ static int miBankOf( miBankScreenPtr pScreenPriv, int x, int y ) { int iBank = ((x * (int)pScreenPriv->nBankBPP) + (y * (long)pScreenPriv->nBitsPerScanline)) / (long)pScreenPriv->nBitsPerBank; if (iBank < 0) iBank = 0; else if (iBank >= pScreenPriv->nBanks) iBank = pScreenPriv->nBanks - 1; return iBank; } #define FirstBankOf(_x, _y) miBankOf(pScreenPriv, (_x), (_y)) #define LastBankOf(_x, _y) miBankOf(pScreenPriv, (_x) - 1, (_y)) /* Determine banking type from the BankInfoRec */ static unsigned int miBankDeriveType( ScreenPtr pScreen, miBankInfoPtr pBankInfo ) { unsigned int type; if (pBankInfo->pBankA == pBankInfo->pBankB) { if (pBankInfo->SetSourceBank == pBankInfo->SetDestinationBank) { if (pBankInfo->SetSourceAndDestinationBanks != pBankInfo->SetSourceBank) return BANK_NOBANK; type = BANK_SINGLE; } else { if (pBankInfo->SetSourceAndDestinationBanks == pBankInfo->SetDestinationBank) return BANK_NOBANK; if (pBankInfo->SetSourceAndDestinationBanks == pBankInfo->SetSourceBank) return BANK_NOBANK; type = BANK_SHARED; } } else { if ((unsigned long)abs((char *)pBankInfo->pBankA - (char *)pBankInfo->pBankB) < pBankInfo->BankSize) return BANK_NOBANK; if (pBankInfo->SetSourceBank == pBankInfo->SetDestinationBank) { if (pBankInfo->SetSourceAndDestinationBanks != pBankInfo->SetSourceBank) return BANK_NOBANK; } else { if (pBankInfo->SetSourceAndDestinationBanks == pBankInfo->SetDestinationBank) return BANK_NOBANK; } type = BANK_DOUBLE; } /* * Internal limitation: Currently, only single banking is supported when * the pixmap format and the screen's pixel format are different. The * following test is only partially successful at detecting this condition. */ if (pBankInfo->nBankDepth != pScreen->rootDepth) type = BANK_SINGLE; return type; } /* Least common multiple */ static unsigned int miLCM( unsigned int x, unsigned int y ) { unsigned int m = x, n = y, o; while ((o = m % n)) { m = n; n = o; } return (x / n) * y; } /****************** * GCOps wrappers * ******************/ static void miBankFillSpans( DrawablePtr pDrawable, GCPtr pGC, int nArray, DDXPointPtr pptInit, int *pwidthInit, int fSorted ) { GCOP_SIMPLE((*pGC->ops->FillSpans)(pDrawable, pGC, nArray, pptInit, pwidthInit, fSorted)); } static void miBankSetSpans( DrawablePtr pDrawable, GCPtr pGC, char *psrc, DDXPointPtr ppt, int *pwidth, int nArray, int fSorted ) { GCOP_SIMPLE((*pGC->ops->SetSpans)(pDrawable, pGC, psrc, ppt, pwidth, nArray, fSorted)); } static void miBankPutImage( DrawablePtr pDrawable, GCPtr pGC, int depth, int x, int y, int w, int h, int leftPad, int format, char *pImage ) { if ((w > 0) && (h > 0)) { GCOP_INIT; SCREEN_SAVE; if (!IS_BANKED(pDrawable)) { GCOP_UNWRAP; (*pGC->ops->PutImage)(pDrawable, pGC, depth, x, y, w, h, leftPad, format, pImage); GCOP_WRAP; } else { int i, j; CLIP_SAVE; i = FirstBankOf(x + pDrawable->x, y + pDrawable->y); j = LastBankOf(x + pDrawable->x + w, y + pDrawable->y + h); for (; i <= j; i++) { if (!(pGC->pCompositeClip = pGCPriv->pBankedClips[i])) continue; GCOP_UNWRAP; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, i); (*pGC->ops->PutImage)(pDrawable, pGC, depth, x, y, w, h, leftPad, format, pImage); GCOP_WRAP; } CLIP_RESTORE; } SCREEN_RESTORE; } } /* * Here the CopyArea/CopyPlane wrappers. First off, we have to clip against * the source in order to make the minimal number of copies in case of slow * systems. Also the exposure handling is quite tricky. Special attention * is to be given to the way the copies are sequenced. The list of boxes after * the source clip is used to build a workqueue, that contains the atomic * copies (i.e. only from one bank to one bank). Doing so produces a minimal * list of things to do. */ static RegionPtr miBankCopy( DrawablePtr pSrc, DrawablePtr pDst, GCPtr pGC, int srcx, int srcy, int w, int h, int dstx, int dsty, unsigned long plane, Bool SinglePlane ) { int cx1, cy1, cx2, cy2; int ns, nd, nse, nde, dx, dy, xorg = 0, yorg = 0; int maxWidth = 0, maxHeight = 0, paddedWidth = 0; int nBox, nBoxClipSrc, nBoxClipDst, nQueue; BoxPtr pBox, pBoxClipSrc, pBoxClipDst; BoxRec fastBox, ccBox; RegionPtr ret = NULL, prgnSrcClip = NULL; RegionRec rgnDst; char *pImage = NULL; miBankQueue *pQueue, *pQueueNew, *Queue; miBankQueue *pQueueTmp, *pQueueNext, *pQueueBase; Bool fastBlit, freeSrcClip, fastClip; Bool fExpose = FALSE, fastExpose = FALSE; GCOP_INIT; SCREEN_SAVE; if (!IS_BANKED(pSrc) && !IS_BANKED(pDst)) { GCOP_UNWRAP; if (SinglePlane) ret = (*pGC->ops->CopyPlane)(pSrc, pDst, pGC, srcx, srcy, w, h, dstx, dsty, plane); else ret = (*pGC->ops->CopyArea)(pSrc, pDst, pGC, srcx, srcy, w, h, dstx, dsty); GCOP_WRAP; } else if (!IS_BANKED(pDst)) { fExpose = pGC->fExpose; pGC->fExpose = FALSE; xorg = pSrc->x; yorg = pSrc->y; dx = dstx - srcx; dy = dsty - srcy; srcx += xorg; srcy += yorg; ns = FirstBankOf(srcx, srcy); nse = LastBankOf(srcx + w, srcy + h); for (; ns <= nse; ns++) { if (!pScreenPriv->pBanks[ns]) continue; nBox = RegionNumRects(pScreenPriv->pBanks[ns]); pBox = RegionRects(pScreenPriv->pBanks[ns]); for (; nBox--; pBox++) { cx1 = max(pBox->x1, srcx); cy1 = max(pBox->y1, srcy); cx2 = min(pBox->x2, srcx + w); cy2 = min(pBox->y2, srcy + h); if ((cx1 >= cx2) || (cy1 >= cy2)) continue; GCOP_UNWRAP; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, ns); if (SinglePlane) (*pGC->ops->CopyPlane)(pSrc, pDst, pGC, cx1 - xorg, cy1 - yorg, cx2 - cx1, cy2 - cy1, cx1 + dx - xorg, cy1 + dy - yorg, plane); else (*pGC->ops->CopyArea)(pSrc, pDst, pGC, cx1 - xorg, cy1 - yorg, cx2 - cx1, cy2 - cy1, cx1 + dx - xorg, cy1 + dy - yorg); GCOP_WRAP; } } pGC->fExpose = fExpose; srcx -= xorg; srcy -= yorg; } else if (!IS_BANKED(pSrc)) { CLIP_SAVE; if (pGC->miTranslate) { xorg = pDst->x; yorg = pDst->y; } dx = srcx - dstx; dy = srcy - dsty; dstx += xorg; dsty += yorg; nd = FirstBankOf(dstx, dsty); nde = LastBankOf(dstx + w, dsty + h); for (; nd <= nde; nd++) { if (!(pGC->pCompositeClip = pGCPriv->pBankedClips[nd])) continue; /* * It's faster to let the lower-level CopyArea do the clipping * within each bank. */ nBox = RegionNumRects(pScreenPriv->pBanks[nd]); pBox = RegionRects(pScreenPriv->pBanks[nd]); for (; nBox--; pBox++) { cx1 = max(pBox->x1, dstx); cy1 = max(pBox->y1, dsty); cx2 = min(pBox->x2, dstx + w); cy2 = min(pBox->y2, dsty + h); if ((cx1 >= cx2) || (cy1 >= cy2)) continue; GCOP_UNWRAP; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, nd); if (SinglePlane) (*pGC->ops->CopyPlane)(pSrc, pDst, pGC, cx1 + dx - xorg, cy1 + dy - yorg, cx2 - cx1, cy2 - cy1, cx1 - xorg, cy1 - yorg, plane); else (*pGC->ops->CopyArea)(pSrc, pDst, pGC, cx1 + dx - xorg, cy1 + dy - yorg, cx2 - cx1, cy2 - cy1, cx1 - xorg, cy1 - yorg); GCOP_WRAP; } } CLIP_RESTORE; } else /* IS_BANKED(pSrc) && IS_BANKED(pDst) */ { CLIP_SAVE; fExpose = pGC->fExpose; fastBox.x1 = srcx + pSrc->x; fastBox.y1 = srcy + pSrc->y; fastBox.x2 = fastBox.x1 + w; fastBox.y2 = fastBox.y1 + h; dx = dstx - fastBox.x1; dy = dsty - fastBox.y1; if (pGC->miTranslate) { xorg = pDst->x; yorg = pDst->y; } /* * Clip against the source. Otherwise we will blit too much for SINGLE * and SHARED banked systems. */ freeSrcClip = FALSE; fastClip = FALSE; fastExpose = FALSE; if (pGC->subWindowMode != IncludeInferiors) prgnSrcClip = &((WindowPtr)pSrc)->clipList; else if (!((WindowPtr)pSrc)->parent) fastClip = TRUE; else if ((pSrc == pDst) && (pGC->clientClipType == CT_NONE)) prgnSrcClip = pGC->pCompositeClip; else { prgnSrcClip = NotClippedByChildren((WindowPtr)pSrc); freeSrcClip = TRUE; } if (fastClip) { fastExpose = TRUE; /* * Clip the source. If regions extend beyond the source size, make * sure exposure events get sent. */ if (fastBox.x1 < pSrc->x) { fastBox.x1 = pSrc->x; fastExpose = FALSE; } if (fastBox.y1 < pSrc->y) { fastBox.y1 = pSrc->y; fastExpose = FALSE; } if (fastBox.x2 > pSrc->x + (int) pSrc->width) { fastBox.x2 = pSrc->x + (int) pSrc->width; fastExpose = FALSE; } if (fastBox.y2 > pSrc->y + (int) pSrc->height) { fastBox.y2 = pSrc->y + (int) pSrc->height; fastExpose = FALSE; } nBox = 1; pBox = &fastBox; } else { RegionInit(&rgnDst, &fastBox, 1); RegionIntersect(&rgnDst, &rgnDst, prgnSrcClip); pBox = RegionRects(&rgnDst); nBox = RegionNumRects(&rgnDst); } /* * fastBlit can only be TRUE if we don't need to worry about attempts * to read partial pixels through the destination bank. */ if (SinglePlane) fastBlit = pGCPriv->fastPlane; else fastBlit = pGCPriv->fastCopy; nQueue = nBox * pScreenPriv->maxRects * 2; pQueue = Queue = ALLOCATE_LOCAL_ARRAY(miBankQueue, nQueue); if (Queue) { for (; nBox--; pBox++) { ns = FirstBankOf(pBox->x1, pBox->y1); nse = LastBankOf(pBox->x2, pBox->y2); for (; ns <= nse; ns++) { if (!pScreenPriv->pBanks[ns]) continue; nBoxClipSrc = RegionNumRects(pScreenPriv->pBanks[ns]); pBoxClipSrc = RegionRects(pScreenPriv->pBanks[ns]); for (; nBoxClipSrc--; pBoxClipSrc++) { cx1 = max(pBox->x1, pBoxClipSrc->x1); cy1 = max(pBox->y1, pBoxClipSrc->y1); cx2 = min(pBox->x2, pBoxClipSrc->x2); cy2 = min(pBox->y2, pBoxClipSrc->y2); /* Check to see if the region is empty */ if ((cx1 >= cx2) || (cy1 >= cy2)) continue; /* Translate c[xy]* to destination coordinates */ cx1 += dx + xorg; cy1 += dy + yorg; cx2 += dx + xorg; cy2 += dy + yorg; nd = FirstBankOf(cx1, cy1); nde = LastBankOf(cx2, cy2); for (; nd <= nde; nd++) { if (!pGCPriv->pBankedClips[nd]) continue; /* * Clients can send quite large clip descriptions, * so use the bank clips here instead. */ nBoxClipDst = RegionNumRects(pScreenPriv->pBanks[nd]); pBoxClipDst = RegionRects(pScreenPriv->pBanks[nd]); for (; nBoxClipDst--; pBoxClipDst++) { ccBox.x1 = max(cx1, pBoxClipDst->x1); ccBox.y1 = max(cy1, pBoxClipDst->y1); ccBox.x2 = min(cx2, pBoxClipDst->x2); ccBox.y2 = min(cy2, pBoxClipDst->y2); /* Check to see if the region is empty */ if ((ccBox.x1 >= ccBox.x2) || (ccBox.y1 >= ccBox.y2)) continue; pQueue->srcBankNo = ns; pQueue->dstBankNo = nd; pQueue->x = ccBox.x1 - xorg; pQueue->y = ccBox.y1 - yorg; pQueue->w = ccBox.x2 - ccBox.x1; pQueue->h = ccBox.y2 - ccBox.y1; if (maxWidth < pQueue->w) maxWidth = pQueue->w; if (maxHeight < pQueue->h) maxHeight = pQueue->h; /* * When shared banking is used and the source * and destination banks differ, prevent * attempts to fetch partial scanline pad units * through the destination bank. */ pQueue->fastBlit = fastBlit; if (fastBlit && (pScreenPriv->type == BANK_SHARED) && (ns != nd) && ((ccBox.x1 % pScreenPriv->nPixelsPerScanlinePadUnit) || (ccBox.x2 % pScreenPriv->nPixelsPerScanlinePadUnit) || (RegionContainsRect( pGCPriv->pBankedClips[nd], &ccBox) != rgnIN))) pQueue->fastBlit = FALSE; pQueue++; } } } } } } if (!fastClip) { RegionUninit(&rgnDst); if (freeSrcClip) RegionDestroy(prgnSrcClip); } pQueueNew = pQueue; nQueue = pQueue - Queue; if (nQueue > 0) { BANK_SAVE; pQueue = Queue; if ((nQueue > 1) && ((pSrc == pDst) || (pGC->subWindowMode == IncludeInferiors))) { if ((srcy + pSrc->y) < (dsty + yorg)) { /* Sort from bottom to top */ pQueueBase = pQueueNext = pQueue + nQueue - 1; while (pQueueBase >= pQueue) { while ((pQueueNext >= pQueue) && (pQueueBase->y == pQueueNext->y)) pQueueNext--; pQueueTmp = pQueueNext + 1; while (pQueueTmp <= pQueueBase) *pQueueNew++ = *pQueueTmp++; pQueueBase = pQueueNext; } pQueueNew -= nQueue; pQueue = pQueueNew; pQueueNew = Queue; } if ((srcx + pSrc->x) < (dstx + xorg)) { /* Sort from right to left */ pQueueBase = pQueueNext = pQueue; while (pQueueBase < pQueue + nQueue) { while ((pQueueNext < pQueue + nQueue) && (pQueueNext->y == pQueueBase->y)) pQueueNext++; pQueueTmp = pQueueNext; while (pQueueTmp != pQueueBase) *pQueueNew++ = *--pQueueTmp; pQueueBase = pQueueNext; } pQueueNew -= nQueue; pQueue = pQueueNew; } } paddedWidth = PixmapBytePad(maxWidth, pScreenPriv->pScreenPixmap->drawable.depth); pImage = (char *)ALLOCATE_LOCAL(paddedWidth * maxHeight); pGC->fExpose = FALSE; while (nQueue--) { pGC->pCompositeClip = pGCPriv->pBankedClips[pQueue->dstBankNo]; GCOP_UNWRAP; if (pQueue->srcBankNo == pQueue->dstBankNo) { SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, pQueue->srcBankNo); if (SinglePlane) (*pGC->ops->CopyPlane)(pSrc, pDst, pGC, pQueue->x - dx - pSrc->x, pQueue->y - dy - pSrc->y, pQueue->w, pQueue->h, pQueue->x, pQueue->y, plane); else (*pGC->ops->CopyArea)(pSrc, pDst, pGC, pQueue->x - dx - pSrc->x, pQueue->y - dy - pSrc->y, pQueue->w, pQueue->h, pQueue->x, pQueue->y); } else if (pQueue->fastBlit) { SET_SOURCE_BANK (pScreenPriv->pBankPixmap, pScreenPriv->pScreenPixmap->drawable.width, pScreenPriv->pScreenPixmap->devKind, pQueue->srcBankNo); SET_DESTINATION_BANK(pScreenPriv->pScreenPixmap, -1, -1, pQueue->dstBankNo); if (SinglePlane) (*pGC->ops->CopyPlane)( (DrawablePtr)pScreenPriv->pBankPixmap, pDst, pGC, pQueue->x - dx, pQueue->y - dy, pQueue->w, pQueue->h, pQueue->x, pQueue->y, plane); else (*pGC->ops->CopyArea)( (DrawablePtr)pScreenPriv->pBankPixmap, pDst, pGC, pQueue->x - dx, pQueue->y - dy, pQueue->w, pQueue->h, pQueue->x, pQueue->y); } else if (pImage) { ModifyPixmap(pScreenPriv->pBankPixmap, maxWidth, paddedWidth, pImage); SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, pQueue->srcBankNo); (*pScreenPriv->pBankGC->ops->CopyArea)( pSrc, (DrawablePtr)pScreenPriv->pBankPixmap, pScreenPriv->pBankGC, pQueue->x - dx - pSrc->x, pQueue->y - dy - pSrc->y, pQueue->w, pQueue->h, 0, 0); SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, pQueue->dstBankNo); if (SinglePlane) (*pGC->ops->CopyPlane)( (DrawablePtr)pScreenPriv->pBankPixmap, pDst, pGC, 0, 0, pQueue->w, pQueue->h, pQueue->x, pQueue->y, plane); else (*pGC->ops->CopyArea)( (DrawablePtr)pScreenPriv->pBankPixmap, pDst, pGC, 0, 0, pQueue->w, pQueue->h, pQueue->x, pQueue->y); } GCOP_WRAP; pQueue++; } DEALLOCATE_LOCAL(pImage); BANK_RESTORE; } CLIP_RESTORE; pGC->fExpose = fExpose; DEALLOCATE_LOCAL(Queue); } SCREEN_RESTORE; if (!fExpose || fastExpose) return ret; return miHandleExposures(pSrc, pDst, pGC, srcx, srcy, w, h, dstx, dsty, 0); } static RegionPtr miBankCopyArea( DrawablePtr pSrc, DrawablePtr pDst, GCPtr pGC, int srcx, int srcy, int w, int h, int dstx, int dsty ) { return miBankCopy(pSrc, pDst, pGC, srcx, srcy, w, h, dstx, dsty, 0, FALSE); } static RegionPtr miBankCopyPlane( DrawablePtr pSrc, DrawablePtr pDst, GCPtr pGC, int srcx, int srcy, int w, int h, int dstx, int dsty, unsigned long plane ) { return miBankCopy(pSrc, pDst, pGC, srcx, srcy, w, h, dstx, dsty, plane, TRUE); } static void miBankPolyPoint( DrawablePtr pDrawable, GCPtr pGC, int mode, int nArray, xPoint *pArray ) { # define GCOP_ARGS GCOP_0D_ARGS GCOP_COMPLEX(PolyPoint, xPoint); # undef GCOP_ARGS } static void miBankPolylines( DrawablePtr pDrawable, GCPtr pGC, int mode, int nArray, DDXPointPtr pArray ) { # define GCOP_ARGS GCOP_0D_ARGS GCOP_COMPLEX(Polylines, DDXPointRec); # undef GCOP_ARGS } static void miBankPolySegment( DrawablePtr pDrawable, GCPtr pGC, int nArray, xSegment *pArray ) { # define GCOP_ARGS GCOP_1D_ARGS GCOP_COMPLEX(PolySegment, xSegment); # undef GCOP_ARGS } static void miBankPolyRectangle( DrawablePtr pDrawable, GCPtr pGC, int nArray, xRectangle *pArray ) { # define GCOP_ARGS GCOP_1D_ARGS GCOP_COMPLEX(PolyRectangle, xRectangle); # undef GCOP_ARGS } static void miBankPolyArc( DrawablePtr pDrawable, GCPtr pGC, int nArray, xArc *pArray ) { # define GCOP_ARGS GCOP_1D_ARGS GCOP_COMPLEX(PolyArc, xArc); # undef GCOP_ARGS } static void miBankFillPolygon( DrawablePtr pDrawable, GCPtr pGC, int shape, int mode, int nArray, DDXPointRec *pArray ) { # define GCOP_ARGS GCOP_2D_ARGS GCOP_COMPLEX(FillPolygon, DDXPointRec); # undef GCOP_ARGS } static void miBankPolyFillRect( DrawablePtr pDrawable, GCPtr pGC, int nArray, xRectangle *pArray ) { # define GCOP_ARGS GCOP_1D_ARGS GCOP_COMPLEX(PolyFillRect, xRectangle); # undef GCOP_ARGS } static void miBankPolyFillArc( DrawablePtr pDrawable, GCPtr pGC, int nArray, xArc *pArray ) { # define GCOP_ARGS GCOP_1D_ARGS GCOP_COMPLEX(PolyFillArc, xArc); # undef GCOP_ARGS } static int miBankPolyText8( DrawablePtr pDrawable, GCPtr pGC, int x, int y, int nArray, char *pchar ) { int retval = x; GCOP_SIMPLE(retval = (*pGC->ops->PolyText8)(pDrawable, pGC, x, y, nArray, pchar)); return retval; } static int miBankPolyText16( DrawablePtr pDrawable, GCPtr pGC, int x, int y, int nArray, unsigned short *pchar ) { int retval = x; GCOP_SIMPLE(retval = (*pGC->ops->PolyText16)(pDrawable, pGC, x, y, nArray, pchar)); return retval; } static void miBankImageText8( DrawablePtr pDrawable, GCPtr pGC, int x, int y, int nArray, char *pchar ) { GCOP_SIMPLE((*pGC->ops->ImageText8)(pDrawable, pGC, x, y, nArray, pchar)); } static void miBankImageText16( DrawablePtr pDrawable, GCPtr pGC, int x, int y, int nArray, unsigned short *pchar ) { GCOP_SIMPLE((*pGC->ops->ImageText16)(pDrawable, pGC, x, y, nArray, pchar)); } static void miBankImageGlyphBlt( DrawablePtr pDrawable, GCPtr pGC, int x, int y, unsigned int nArray, CharInfoPtr *ppci, void *pglyphBase ) { GCOP_SIMPLE((*pGC->ops->ImageGlyphBlt)(pDrawable, pGC, x, y, nArray, ppci, pglyphBase)); } static void miBankPolyGlyphBlt( DrawablePtr pDrawable, GCPtr pGC, int x, int y, unsigned int nArray, CharInfoPtr *ppci, void *pglyphBase ) { GCOP_SIMPLE((*pGC->ops->PolyGlyphBlt)(pDrawable, pGC, x, y, nArray, ppci, pglyphBase)); } static void miBankPushPixels( GCPtr pGC, PixmapPtr pBitmap, DrawablePtr pDrawable, int w, int h, int x, int y ) { if ((w > 0) && (h > 0)) { GCOP_INIT; SCREEN_SAVE; if (!IS_BANKED(pDrawable)) { GCOP_UNWRAP; (*pGC->ops->PushPixels)(pGC, pBitmap, pDrawable, w, h, x, y); GCOP_WRAP; } else { int i, j; CLIP_SAVE; i = FirstBankOf(x, y); j = LastBankOf(x + w, y + h); for (; i <= j; i++) { if (!(pGC->pCompositeClip = pGCPriv->pBankedClips[i])) continue; GCOP_UNWRAP; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, i); (*pGC->ops->PushPixels)(pGC, pBitmap, pDrawable, w, h, x, y); GCOP_WRAP; } CLIP_RESTORE; } SCREEN_RESTORE; } } static GCOps miBankGCOps = { miBankFillSpans, miBankSetSpans, miBankPutImage, miBankCopyArea, miBankCopyPlane, miBankPolyPoint, miBankPolylines, miBankPolySegment, miBankPolyRectangle, miBankPolyArc, miBankFillPolygon, miBankPolyFillRect, miBankPolyFillArc, miBankPolyText8, miBankPolyText16, miBankImageText8, miBankImageText16, miBankImageGlyphBlt, miBankPolyGlyphBlt, miBankPushPixels, #ifdef NEED_LINEHELPER NULL, /* LineHelper */ #endif {NULL} /* devPrivate */ }; /******************** * GCFuncs wrappers * ********************/ static void miBankValidateGC( GCPtr pGC, unsigned long changes, DrawablePtr pDrawable ) { GC_INIT(pGC); GC_UNWRAP(pGC); (*pGC->funcs->ValidateGC)(pGC, changes, pDrawable); if ((changes & (GCClipXOrigin|GCClipYOrigin|GCClipMask|GCSubwindowMode)) || (pDrawable->serialNumber != (pGC->serialNumber & DRAWABLE_SERIAL_BITS))) { ScreenPtr pScreen = pGC->pScreen; RegionPtr prgnClip; unsigned long planemask; int i; SCREEN_INIT; SCREEN_SAVE; if (IS_BANKED(pDrawable)) { for (i = 0; i < pScreenPriv->nBanks; i++) { if (!pScreenPriv->pBanks[i]) continue; if (!(prgnClip = pGCPriv->pBankedClips[i])) prgnClip = RegionCreate(NULL, 1); RegionIntersect(prgnClip, pScreenPriv->pBanks[i], pGC->pCompositeClip); if ((RegionNumRects(prgnClip) <= 1) && ((prgnClip->extents.x1 == prgnClip->extents.x2) || (prgnClip->extents.y1 == prgnClip->extents.y2))) { RegionDestroy(prgnClip); pGCPriv->pBankedClips[i] = NULL; } else pGCPriv->pBankedClips[i] = prgnClip; } /* * fastCopy and fastPlane can only be TRUE if we don't need to * worry about attempts to read partial pixels through the * destination bank. */ switch (pScreenPriv->type) { case BANK_SHARED: pGCPriv->fastCopy = pGCPriv->fastPlane = FALSE; if ((pGC->alu != GXclear) && (pGC->alu != GXcopy) && (pGC->alu != GXcopyInverted) && (pGC->alu != GXset)) break; if (pScreen->rootDepth == 1) pGCPriv->fastPlane = TRUE; /* This is probably paranoia */ if ((pDrawable->depth != pScreen->rootDepth) || (pDrawable->depth != pGC->depth)) break; planemask = (1 << pGC->depth) - 1; if ((pGC->planemask & planemask) == planemask) pGCPriv->fastCopy = TRUE; break; case BANK_DOUBLE: pGCPriv->fastCopy = pGCPriv->fastPlane = TRUE; break; default: pGCPriv->fastCopy = pGCPriv->fastPlane = FALSE; break; } } else { /* * Here we are on a pixmap and don't need all that special clipping * stuff, hence free it. */ for (i = 0; i < pScreenPriv->nBanks; i++) { if (!pGCPriv->pBankedClips[i]) continue; RegionDestroy(pGCPriv->pBankedClips[i]); pGCPriv->pBankedClips[i] = NULL; } } SCREEN_RESTORE; } GC_WRAP(pGC); } static void miBankChangeGC( GCPtr pGC, unsigned long mask ) { GC_INIT(pGC); GC_UNWRAP(pGC); (*pGC->funcs->ChangeGC)(pGC, mask); GC_WRAP(pGC); } static void miBankCopyGC( GCPtr pGCSrc, unsigned long mask, GCPtr pGCDst ) { GC_INIT(pGCDst); GC_UNWRAP(pGCDst); (*pGCDst->funcs->CopyGC)(pGCSrc, mask, pGCDst); GC_WRAP(pGCDst); } static void miBankDestroyGC( GCPtr pGC ) { ScreenPtr pScreen = pGC->pScreen; int i; SCREEN_INIT; GC_INIT(pGC); GC_UNWRAP(pGC); (*pGC->funcs->DestroyGC)(pGC); for (i = 0; i < pScreenPriv->nBanks; i++) { if (!pGCPriv->pBankedClips[i]) continue; RegionDestroy(pGCPriv->pBankedClips[i]); pGCPriv->pBankedClips[i] = NULL; } GC_WRAP(pGC); } static void miBankChangeClip( GCPtr pGC, int type, void * pvalue, int nrects ) { GC_INIT(pGC); GC_UNWRAP(pGC); (*pGC->funcs->ChangeClip)(pGC, type, pvalue, nrects); GC_WRAP(pGC); } static void miBankDestroyClip( GCPtr pGC ) { GC_INIT(pGC); GC_UNWRAP(pGC); (*pGC->funcs->DestroyClip)(pGC); GC_WRAP(pGC); } static void miBankCopyClip( GCPtr pGCDst, GCPtr pGCSrc ) { GC_INIT(pGCDst); GC_UNWRAP(pGCDst); (*pGCDst->funcs->CopyClip)(pGCDst, pGCSrc); GC_WRAP(pGCDst); } static GCFuncs miBankGCFuncs = { miBankValidateGC, miBankChangeGC, miBankCopyGC, miBankDestroyGC, miBankChangeClip, miBankDestroyClip, miBankCopyClip }; /******************* * Screen Wrappers * *******************/ static Bool miBankCreateScreenResources( ScreenPtr pScreen ) { Bool retval; SCREEN_INIT; SCREEN_UNWRAP(CreateScreenResources); if ((retval = (*pScreen->CreateScreenResources)(pScreen))) { /* Set screen buffer address to something recognizable */ pScreenPriv->pScreenPixmap = (*pScreen->GetScreenPixmap)(pScreen); pScreenPriv->pbits = pScreenPriv->pScreenPixmap->devPrivate.ptr; pScreenPriv->pScreenPixmap->devPrivate.ptr = (void *)pScreenPriv; /* Get shadow pixmap; width & height of 0 means no pixmap data */ pScreenPriv->pBankPixmap = (*pScreen->CreatePixmap)(pScreen, 0, 0, pScreenPriv->pScreenPixmap->drawable.depth); if (!pScreenPriv->pBankPixmap) retval = FALSE; } /* Shadow the screen */ if (retval) retval = (*pScreen->ModifyPixmapHeader)(pScreenPriv->pBankPixmap, pScreenPriv->pScreenPixmap->drawable.width, pScreenPriv->pScreenPixmap->drawable.height, pScreenPriv->pScreenPixmap->drawable.depth, pScreenPriv->pScreenPixmap->drawable.bitsPerPixel, pScreenPriv->pScreenPixmap->devKind, NULL); /* Create shadow GC */ if (retval) { pScreenPriv->pBankGC = CreateScratchGC(pScreen, pScreenPriv->pBankPixmap->drawable.depth); if (!pScreenPriv->pBankGC) retval = FALSE; } /* Validate shadow GC */ if (retval) { pScreenPriv->pBankGC->graphicsExposures = FALSE; pScreenPriv->pBankGC->subWindowMode = IncludeInferiors; ValidateGC((DrawablePtr)pScreenPriv->pBankPixmap, pScreenPriv->pBankGC); } SCREEN_WRAP(CreateScreenResources, miBankCreateScreenResources); return retval; } static Bool miBankModifyPixmapHeader( PixmapPtr pPixmap, int width, int height, int depth, int bitsPerPixel, int devKind, void *pPixData ) { Bool retval = FALSE; if (pPixmap) { ScreenPtr pScreen = pPixmap->drawable.pScreen; SCREEN_INIT; PIXMAP_SAVE(pPixmap); SCREEN_UNWRAP(ModifyPixmapHeader); retval = (*pScreen->ModifyPixmapHeader)(pPixmap, width, height, depth, bitsPerPixel, devKind, pPixData); SCREEN_WRAP(ModifyPixmapHeader, miBankModifyPixmapHeader); if (pbits == (void *)pScreenPriv) { pScreenPriv->pbits = pPixmap->devPrivate.ptr; pPixmap->devPrivate.ptr = pbits; } } return retval; } static Bool miBankCloseScreen( int nIndex, ScreenPtr pScreen ) { int i; SCREEN_INIT; /* Free shadow GC */ FreeScratchGC(pScreenPriv->pBankGC); /* Free shadow pixmap */ (*pScreen->DestroyPixmap)(pScreenPriv->pBankPixmap); /* Restore screen pixmap devPrivate pointer */ pScreenPriv->pScreenPixmap->devPrivate.ptr = pScreenPriv->pbits; /* Delete bank clips */ for (i = 0; i < pScreenPriv->nBanks; i++) if (pScreenPriv->pBanks[i]) RegionDestroy(pScreenPriv->pBanks[i]); free(pScreenPriv->pBanks); SCREEN_UNWRAP(CreateScreenResources); SCREEN_UNWRAP(ModifyPixmapHeader); SCREEN_UNWRAP(CloseScreen); SCREEN_UNWRAP(GetImage); SCREEN_UNWRAP(GetSpans); SCREEN_UNWRAP(CreateGC); SCREEN_UNWRAP(PaintWindowBackground); SCREEN_UNWRAP(PaintWindowBorder); SCREEN_UNWRAP(CopyWindow); SCREEN_UNWRAP(BackingStoreFuncs); free(pScreenPriv); return (*pScreen->CloseScreen)(nIndex, pScreen); } static void miBankGetImage( DrawablePtr pDrawable, int sx, int sy, int w, int h, unsigned int format, unsigned long planemask, char *pImage ) { if ((w > 0) && (h > 0)) { ScreenPtr pScreen = pDrawable->pScreen; SCREEN_INIT; SCREEN_STATUS; SCREEN_UNWRAP(GetImage); if (!IS_BANKED(pDrawable)) { (*pScreen->GetImage)(pDrawable, sx, sy, w, h, format, planemask, pImage); } else { int paddedWidth; char *pBankImage; paddedWidth = PixmapBytePad(w, pScreenPriv->pScreenPixmap->drawable.depth); pBankImage = (char *)ALLOCATE_LOCAL(paddedWidth * h); if (pBankImage) { BANK_SAVE; ModifyPixmap(pScreenPriv->pBankPixmap, w, paddedWidth, pBankImage); (*pScreenPriv->pBankGC->ops->CopyArea)( (DrawablePtr)pScreen->root, (DrawablePtr)pScreenPriv->pBankPixmap, pScreenPriv->pBankGC, sx + pDrawable->x, sy + pDrawable->y, w, h, 0, 0); (*pScreen->GetImage)((DrawablePtr)pScreenPriv->pBankPixmap, 0, 0, w, h, format, planemask, pImage); BANK_RESTORE; DEALLOCATE_LOCAL(pBankImage); } } SCREEN_WRAP(GetImage, miBankGetImage); } } static void miBankGetSpans( DrawablePtr pDrawable, int wMax, DDXPointPtr ppt, int *pwidth, int nspans, char *pImage ) { if (nspans > 0) { ScreenPtr pScreen = pDrawable->pScreen; SCREEN_INIT; SCREEN_STATUS; SCREEN_UNWRAP(GetSpans); if (!IS_BANKED(pDrawable)) { (*pScreen->GetSpans)(pDrawable, wMax, ppt, pwidth, nspans, pImage); } else { char *pBankImage; int paddedWidth; DDXPointRec pt; pt.x = pt.y = 0; paddedWidth = PixmapBytePad(pScreenPriv->pScreenPixmap->drawable.width, pScreenPriv->pScreenPixmap->drawable.depth); pBankImage = (char *)ALLOCATE_LOCAL(paddedWidth); if (pBankImage) { BANK_SAVE; ModifyPixmap(pScreenPriv->pBankPixmap, pScreenPriv->pScreenPixmap->drawable.width, paddedWidth, pBankImage); for (; nspans--; ppt++, pwidth++) { if (*pwidth <= 0) continue; (*pScreenPriv->pBankGC->ops->CopyArea)( (DrawablePtr)pScreen->root, (DrawablePtr)pScreenPriv->pBankPixmap, pScreenPriv->pBankGC, ppt->x, ppt->y, *pwidth, 1, 0, 0); (*pScreen->GetSpans)((DrawablePtr)pScreenPriv->pBankPixmap, wMax, &pt, pwidth, 1, pImage); pImage = pImage + PixmapBytePad(*pwidth, pDrawable->depth); } BANK_RESTORE; DEALLOCATE_LOCAL(pBankImage); } } SCREEN_WRAP(GetSpans, miBankGetSpans); } } static Bool miBankCreateGC( GCPtr pGC ) { ScreenPtr pScreen = pGC->pScreen; miBankGCPtr pGCPriv = BANK_GCPRIVATE(pGC); Bool ret; SCREEN_INIT; SCREEN_UNWRAP(CreateGC); if ((ret = (*pScreen->CreateGC)(pGC))) { pGCPriv->unwrappedOps = &miBankGCOps; pGCPriv->unwrappedFuncs = &miBankGCFuncs; GC_WRAP(pGC); memset(&pGCPriv->pBankedClips, 0, pScreenPriv->nBanks * sizeof(pGCPriv->pBankedClips)); } SCREEN_WRAP(CreateGC, miBankCreateGC); return ret; } static void miBankPaintWindow( WindowPtr pWin, RegionPtr pRegion, int what ) { ScreenPtr pScreen = pWin->drawable.pScreen; RegionRec tmpReg; int i; PaintWindowProcPtr PaintWindow; SCREEN_INIT; SCREEN_SAVE; if (what == PW_BORDER) { SCREEN_UNWRAP(PaintWindowBorder); PaintWindow = pScreen->PaintWindowBorder; } else { SCREEN_UNWRAP(PaintWindowBackground); PaintWindow = pScreen->PaintWindowBackground; } if (!IS_BANKED(pWin)) { (*PaintWindow)(pWin, pRegion, what); } else { RegionNull(&tmpReg); for (i = 0; i < pScreenPriv->nBanks; i++) { if (!pScreenPriv->pBanks[i]) continue; RegionIntersect(&tmpReg, pRegion, pScreenPriv->pBanks[i]); if (RegionNil(&tmpReg)) continue; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, i); (*PaintWindow)(pWin, &tmpReg, what); } RegionUninit(&tmpReg); } if (what == PW_BORDER) { SCREEN_WRAP(PaintWindowBorder, miBankPaintWindow); } else { SCREEN_WRAP(PaintWindowBackground, miBankPaintWindow); } SCREEN_RESTORE; } static void miBankCopyWindow( WindowPtr pWindow, DDXPointRec ptOldOrg, RegionPtr pRgnSrc ) { ScreenPtr pScreen = pWindow->drawable.pScreen; GCPtr pGC; int dx, dy, nBox; DrawablePtr pDrawable = (DrawablePtr)pScreen->root; RegionPtr pRgnDst; BoxPtr pBox, pBoxTmp, pBoxNext, pBoxBase, pBoxNew1, pBoxNew2; XID subWindowMode = IncludeInferiors; pGC = GetScratchGC(pDrawable->depth, pScreen); ChangeGC(pGC, GCSubwindowMode, &subWindowMode); ValidateGC(pDrawable, pGC); pRgnDst = RegionCreate(NULL, 1); dx = ptOldOrg.x - pWindow->drawable.x; dy = ptOldOrg.y - pWindow->drawable.y; RegionTranslate(pRgnSrc, -dx, -dy); RegionIntersect(pRgnDst, &pWindow->borderClip, pRgnSrc); pBox = RegionRects(pRgnDst); nBox = RegionNumRects(pRgnDst); pBoxNew1 = NULL; pBoxNew2 = NULL; if (nBox > 1) { if (dy < 0) { /* Sort boxes from bottom to top */ pBoxNew1 = ALLOCATE_LOCAL_ARRAY(BoxRec, nBox); if (pBoxNew1) { pBoxBase = pBoxNext = pBox + nBox - 1; while (pBoxBase >= pBox) { while ((pBoxNext >= pBox) && (pBoxBase->y1 == pBoxNext->y1)) pBoxNext--; pBoxTmp = pBoxNext + 1; while (pBoxTmp <= pBoxBase) *pBoxNew1++ = *pBoxTmp++; pBoxBase = pBoxNext; } pBoxNew1 -= nBox; pBox = pBoxNew1; } } if (dx < 0) { /* Sort boxes from right to left */ pBoxNew2 = ALLOCATE_LOCAL_ARRAY(BoxRec, nBox); if (pBoxNew2) { pBoxBase = pBoxNext = pBox; while (pBoxBase < pBox + nBox) { while ((pBoxNext < pBox + nBox) && (pBoxNext->y1 == pBoxBase->y1)) pBoxNext++; pBoxTmp = pBoxNext; while (pBoxTmp != pBoxBase) *pBoxNew2++ = *--pBoxTmp; pBoxBase = pBoxNext; } pBoxNew2 -= nBox; pBox = pBoxNew2; } } } while (nBox--) { (*pGC->ops->CopyArea)(pDrawable, pDrawable, pGC, pBox->x1 + dx, pBox->y1 + dy, pBox->x2 - pBox->x1, pBox->y2 - pBox->y1, pBox->x1, pBox->y1); pBox++; } FreeScratchGC(pGC); RegionDestroy(pRgnDst); DEALLOCATE_LOCAL(pBoxNew2); DEALLOCATE_LOCAL(pBoxNew1); } /************************** * Backing store wrappers * **************************/ static void miBankSaveAreas( PixmapPtr pPixmap, RegionPtr prgnSave, int xorg, int yorg, WindowPtr pWin ) { ScreenPtr pScreen = pPixmap->drawable.pScreen; RegionRec rgnClipped; int i; SCREEN_INIT; SCREEN_SAVE; SCREEN_UNWRAP(BackingStoreFuncs.SaveAreas); if (!IS_BANKED(pWin)) { (*pScreen->BackingStoreFuncs.SaveAreas)(pPixmap, prgnSave, xorg, yorg, pWin); } else { RegionNull(&rgnClipped); RegionTranslate(prgnSave, xorg, yorg); for (i = 0; i < pScreenPriv->nBanks; i++) { if (!pScreenPriv->pBanks[i]) continue; RegionIntersect(&rgnClipped, prgnSave, pScreenPriv->pBanks[i]); if (RegionNil(&rgnClipped)) continue; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, i); RegionTranslate(&rgnClipped, -xorg, -yorg); (*pScreen->BackingStoreFuncs.SaveAreas)(pPixmap, &rgnClipped, xorg, yorg, pWin); } RegionTranslate(prgnSave, -xorg, -yorg); RegionUninit(&rgnClipped); } SCREEN_WRAP(BackingStoreFuncs.SaveAreas, miBankSaveAreas); SCREEN_RESTORE; } static void miBankRestoreAreas( PixmapPtr pPixmap, RegionPtr prgnRestore, int xorg, int yorg, WindowPtr pWin ) { ScreenPtr pScreen = pPixmap->drawable.pScreen; RegionRec rgnClipped; int i; SCREEN_INIT; SCREEN_SAVE; SCREEN_UNWRAP(BackingStoreFuncs.RestoreAreas); if (!IS_BANKED(pWin)) { (*pScreen->BackingStoreFuncs.RestoreAreas)(pPixmap, prgnRestore, xorg, yorg, pWin); } else { RegionNull(&rgnClipped); for (i = 0; i < pScreenPriv->nBanks; i++) { if (!pScreenPriv->pBanks[i]) continue; RegionIntersect(&rgnClipped, prgnRestore, pScreenPriv->pBanks[i]); if (RegionNil(&rgnClipped)) continue; SET_SINGLE_BANK(pScreenPriv->pScreenPixmap, -1, -1, i); (*pScreen->BackingStoreFuncs.RestoreAreas)(pPixmap, &rgnClipped, xorg, yorg, pWin); } RegionUninit(&rgnClipped); } SCREEN_WRAP(BackingStoreFuncs.RestoreAreas, miBankRestoreAreas); SCREEN_RESTORE; } Bool miInitializeBanking( ScreenPtr pScreen, unsigned int xsize, unsigned int ysize, unsigned int width, miBankInfoPtr pBankInfo ) { miBankScreenPtr pScreenPriv; unsigned long nBitsPerBank, nBitsPerScanline, nPixelsPerScanlinePadUnit; unsigned long BankBase, ServerPad; unsigned int type, iBank, nBanks, maxRects, we, nBankBPP; int i; if (!pBankInfo || !pBankInfo->BankSize) return TRUE; /* No banking required */ /* Sanity checks */ if (!pScreen || !xsize || !ysize || (xsize > width) || !pBankInfo->SetSourceBank || !pBankInfo->SetDestinationBank || !pBankInfo->SetSourceAndDestinationBanks || !pBankInfo->pBankA || !pBankInfo->pBankB || !pBankInfo->nBankDepth) return FALSE; /* * DDX *must* have registered a pixmap format whose depth is * pBankInfo->nBankDepth. This is not necessarily the rootDepth * pixmap format. */ i = 0; while (screenInfo.formats[i].depth != pBankInfo->nBankDepth) if (++i >= screenInfo.numPixmapFormats) return FALSE; nBankBPP = screenInfo.formats[i].bitsPerPixel; i = 0; while (screenInfo.formats[i].depth != pScreen->rootDepth) if (++i >= screenInfo.numPixmapFormats) return FALSE; if (nBankBPP > screenInfo.formats[i].bitsPerPixel) return FALSE; /* Determine banking type */ if ((type = miBankDeriveType(pScreen, pBankInfo)) == BANK_NOBANK) return FALSE; /* Internal data */ nBitsPerBank = pBankInfo->BankSize * 8; ServerPad = PixmapBytePad(1, pBankInfo->nBankDepth) * 8; if (nBitsPerBank % ServerPad) return FALSE; nBitsPerScanline = PixmapBytePad(width, pBankInfo->nBankDepth) * 8; nBanks = ((nBitsPerScanline * (ysize - 1)) + (nBankBPP * xsize) + nBitsPerBank - 1) / nBitsPerBank; nPixelsPerScanlinePadUnit = miLCM(ServerPad, nBankBPP) / nBankBPP; /* Private areas */ if (miBankGeneration != serverGeneration) { if (((miBankScreenIndex = AllocateScreenPrivateIndex()) < 0) || ((miBankGCIndex = AllocateGCPrivateIndex()) < 0)) return FALSE; miBankGeneration = serverGeneration; } if (!AllocateGCPrivate(pScreen, miBankGCIndex, (nBanks * sizeof(RegionPtr)) + (sizeof(miBankGCRec) - sizeof(RegionPtr)))) return FALSE; if (!(pScreenPriv = (miBankScreenPtr)calloc(1, sizeof(miBankScreenRec)))) return FALSE; if (!(pScreenPriv->pBanks = /* Allocate and clear */ (RegionPtr *)calloc(1, nBanks * sizeof(RegionPtr)))) { free(pScreenPriv); return FALSE; } /* * Translate banks into clipping regions which are themselves clipped * against the screen. This also ensures that pixels with imbedded bank * boundaries are off-screen. */ BankBase = 0; maxRects = 0; we = 0; for (iBank = 0; iBank < nBanks; iBank++) { xRectangle pRects[3], *pRect = pRects; unsigned int xb, yb, xe, ye; xb = ((BankBase + nBankBPP - 1) % nBitsPerScanline) / nBankBPP; yb = (BankBase + nBankBPP - 1) / nBitsPerScanline; if (xb >= xsize) { xb = we = 0; yb++; } if (yb >= ysize) { we = 0; break; } if (we) break; BankBase += nBitsPerBank; we = (BankBase % nBitsPerScanline) % nBankBPP; xe = (BankBase % nBitsPerScanline) / nBankBPP; ye = BankBase / nBitsPerScanline; if (xe >= xsize) { we = xe = 0; ye++; } if (ye >= ysize) { we = xe = 0; ye = ysize; } if (yb == ye) { if (xb >= xe) continue; pRect->x = xb; pRect->y = yb; pRect->width = xe - xb; pRect->height = 1; maxRects += 2; pRect++; } else { if (xb) { pRect->x = xb; pRect->y = yb++; pRect->width = xsize - xb; pRect->height = 1; maxRects += 2; pRect++; } if (yb < ye) { pRect->x = 0; pRect->y = yb; pRect->width = xsize; pRect->height = ye - yb; maxRects += min(pRect->height, 3) + 1; pRect++; } if (xe) { pRect->x = 0; pRect->y = ye; pRect->width = xe; pRect->height = 1; maxRects += 2; pRect++; } } pScreenPriv->pBanks[iBank] = RegionFromRects(pRect - pRects, pRects, 0); if (!pScreenPriv->pBanks[iBank] || RegionNar(pScreenPriv->pBanks[iBank])) { we = 1; break; } } if (we && (iBank < nBanks)) { for (i = iBank; i >= 0; i--) if (pScreenPriv->pBanks[i]) RegionDestroy(pScreenPriv->pBanks[i]); free(pScreenPriv->pBanks); free(pScreenPriv); return FALSE; } /* Open for business */ pScreenPriv->type = type; pScreenPriv->nBanks = nBanks; pScreenPriv->maxRects = maxRects; pScreenPriv->nBankBPP = nBankBPP; pScreenPriv->BankInfo = *pBankInfo; pScreenPriv->nBitsPerBank = nBitsPerBank; pScreenPriv->nBitsPerScanline = nBitsPerScanline; pScreenPriv->nPixelsPerScanlinePadUnit = nPixelsPerScanlinePadUnit; SCREEN_WRAP(CreateScreenResources, miBankCreateScreenResources); SCREEN_WRAP(ModifyPixmapHeader, miBankModifyPixmapHeader); SCREEN_WRAP(CloseScreen, miBankCloseScreen); SCREEN_WRAP(GetImage, miBankGetImage); SCREEN_WRAP(GetSpans, miBankGetSpans); SCREEN_WRAP(CreateGC, miBankCreateGC); SCREEN_WRAP(PaintWindowBackground, miBankPaintWindow); SCREEN_WRAP(PaintWindowBorder, miBankPaintWindow); SCREEN_WRAP(CopyWindow, miBankCopyWindow); pScreenPriv->BackingStoreFuncs = pScreen->BackingStoreFuncs; pScreen->BackingStoreFuncs.SaveAreas = miBankSaveAreas; pScreen->BackingStoreFuncs.RestoreAreas = miBankRestoreAreas; /* ?????????????????????????????????????????????????????????????? pScreen->BackingStoreFuncs.SetClipmaskRgn = miBankSetClipmaskRgn; ?????????????????????????????????????????????????????????????? */ BANK_SCRPRIVLVAL = (void *)pScreenPriv; return TRUE; } /* This is used to force GC revalidation when the banking type is changed */ /*ARGSUSED*/ static int miBankNewSerialNumber( WindowPtr pWin, void *unused ) { pWin->drawable.serialNumber = NEXT_SERIAL_NUMBER; return WT_WALKCHILDREN; } /* This entry modifies the banking interface */ Bool miModifyBanking( ScreenPtr pScreen, miBankInfoPtr pBankInfo ) { unsigned int type; if (!pScreen) return FALSE; if (miBankGeneration == serverGeneration) { SCREEN_INIT; if (pScreenPriv) { if (!pBankInfo || !pBankInfo->BankSize || !pBankInfo->pBankA || !pBankInfo->pBankB || !pBankInfo->SetSourceBank || !pBankInfo->SetDestinationBank || !pBankInfo->SetSourceAndDestinationBanks) return FALSE; /* BankSize and nBankDepth cannot, as yet, be changed */ if ((pScreenPriv->BankInfo.BankSize != pBankInfo->BankSize) || (pScreenPriv->BankInfo.nBankDepth != pBankInfo->nBankDepth)) return FALSE; if ((type = miBankDeriveType(pScreen, pBankInfo)) == BANK_NOBANK) return FALSE; /* Reset banking info */ pScreenPriv->BankInfo = *pBankInfo; if (type != pScreenPriv->type) { /* * Banking type is changing. Revalidate all window GC's. */ pScreenPriv->type = type; WalkTree(pScreen, miBankNewSerialNumber, 0); } return TRUE; } } if (!pBankInfo || !pBankInfo->BankSize) return TRUE; /* No change requested */ return FALSE; } /* * Given various screen attributes, determine the minimum scanline width such * that each scanline is server and DDX padded and any pixels with imbedded * bank boundaries are off-screen. This function returns -1 if such a width * cannot exist. This function exists because the DDX needs to be able to * determine this width before initializing a frame buffer. */ int miScanLineWidth( unsigned int xsize, /* pixels */ unsigned int ysize, /* pixels */ unsigned int width, /* pixels */ unsigned long BankSize, /* char's */ PixmapFormatRec *pBankFormat, unsigned int nWidthUnit /* bits */ ) { unsigned long nBitsPerBank, nBitsPerScanline, nBitsPerScanlinePadUnit; unsigned long minBitsPerScanline, maxBitsPerScanline; /* Sanity checks */ if (!nWidthUnit || !pBankFormat) return -1; nBitsPerBank = BankSize * 8; if (nBitsPerBank % pBankFormat->scanlinePad) return -1; if (xsize > width) width = xsize; nBitsPerScanlinePadUnit = miLCM(pBankFormat->scanlinePad, nWidthUnit); nBitsPerScanline = (((width * pBankFormat->bitsPerPixel) + nBitsPerScanlinePadUnit - 1) / nBitsPerScanlinePadUnit) * nBitsPerScanlinePadUnit; width = nBitsPerScanline / pBankFormat->bitsPerPixel; if (!xsize || !(nBitsPerBank % pBankFormat->bitsPerPixel)) return (int)width; /* * Scanlines will be server-pad aligned at this point. They will also be * a multiple of nWidthUnit bits long. Ensure that pixels with imbedded * bank boundaries are off-screen. * * It seems reasonable to limit total frame buffer size to 1/16 of the * theoretical maximum address space size. On a machine with 32-bit * addresses (to 8-bit quantities) this turns out to be 256MB. Not only * does this provide a simple limiting condition for the loops below, but * it also prevents unsigned long wraparounds. */ if (!ysize) return -1; minBitsPerScanline = xsize * pBankFormat->bitsPerPixel; if (minBitsPerScanline > nBitsPerBank) return -1; if (ysize == 1) return (int)width; maxBitsPerScanline = (((unsigned long)(-1) >> 1) - minBitsPerScanline) / (ysize - 1); while (nBitsPerScanline <= maxBitsPerScanline) { unsigned long BankBase, BankUnit; BankUnit = ((nBitsPerBank + nBitsPerScanline - 1) / nBitsPerBank) * nBitsPerBank; if (!(BankUnit % nBitsPerScanline)) return (int)width; for (BankBase = BankUnit; ; BankBase += nBitsPerBank) { unsigned long x, y; y = BankBase / nBitsPerScanline; if (y >= ysize) return (int)width; x = BankBase % nBitsPerScanline; if (!(x % pBankFormat->bitsPerPixel)) continue; if (x < minBitsPerScanline) { /* * Skip ahead certain widths by dividing the excess scanline * amongst the y's. */ y *= nBitsPerScanlinePadUnit; nBitsPerScanline += ((x + y - 1) / y) * nBitsPerScanlinePadUnit; width = nBitsPerScanline / pBankFormat->bitsPerPixel; break; } if (BankBase != BankUnit) continue; if (!(nBitsPerScanline % x)) return (int)width; BankBase = ((nBitsPerScanline - minBitsPerScanline) / (nBitsPerScanline - x)) * BankUnit; } } return -1; }