/* $XFree86: xc/programs/Xserver/hw/xfree86/drivers/savage/savage_accel.c,v 1.23 2003/12/22 17:48:10 tsi Exp $ */ /* * * Copyright 1995-1997 The XFree86 Project, Inc. * */ /* * The accel file for the Savage driver. * * Created 20/03/97 by Sebastien Marineau for 3.3.6 * Modified 17-Nov-2000 by Tim Roberts for 4.0.1 * Revision: * */ #include "Xarch.h" #include "xaalocal.h" #include "xaarop.h" #include "miline.h" #include "savage_driver.h" #include "savage_regs.h" #include "savage_bci.h" /* Forward declaration of functions used in the driver */ static void SavageSetupForScreenToScreenCopy( ScrnInfoPtr pScrn, int xdir, int ydir, int rop, unsigned planemask, int transparency_color); static void SavageSubsequentScreenToScreenCopy( ScrnInfoPtr pScrn, int x1, int y1, int x2, int y2, int w, int h); static void SavageSetupForSolidFill( ScrnInfoPtr pScrn, int color, int rop, unsigned planemask); static void SavageSubsequentSolidFillRect( ScrnInfoPtr pScrn, int x, int y, int w, int h); static void SavageSubsequentSolidBresenhamLine( ScrnInfoPtr pScrn, int x1, int y1, int e1, int e2, int err, int length, int octant); #if 0 static void SavageSubsequentSolidTwoPointLine( ScrnInfoPtr pScrn, int x1, int y1, int x2, int y2, int bias); #endif #if 0 static void SavageSetupForScreenToScreenColorExpand( ScrnInfoPtr pScrn, int bg, int fg, int rop, unsigned planemask); static void SavageSubsequentScreenToScreenColorExpand( ScrnInfoPtr pScrn, int x, int y, int w, int h, int skipleft); #endif static void SavageSetupForCPUToScreenColorExpandFill( ScrnInfoPtr pScrn, int fg, int bg, int rop, unsigned planemask); static void SavageSubsequentScanlineCPUToScreenColorExpandFill( ScrnInfoPtr pScrn, int x, int y, int w, int h, int skipleft); static void SavageSubsequentColorExpandScanline( ScrnInfoPtr pScrn, int buffer_no); static void SavageSetupForMono8x8PatternFill( ScrnInfoPtr pScrn, int patternx, int patterny, int fg, int bg, int rop, unsigned planemask); static void SavageSubsequentMono8x8PatternFillRect( ScrnInfoPtr pScrn, int pattern0, int pattern1, int x, int y, int w, int h); #if 0 static void SavageSetupForColor8x8PatternFill( ScrnInfoPtr pScrn, int patternx, int patterny, int rop, unsigned planemask, int trans_col); static void SavageSubsequentColor8x8PatternFillRect( ScrnInfoPtr pScrn, int pattern0, int pattern1, int x, int y, int w, int h); #endif static void SavageSetClippingRectangle( ScrnInfoPtr pScrn, int x1, int y1, int x2, int y2); static void SavageDisableClipping( ScrnInfoPtr ); #if 0 static void SavageSubsequentSolidFillTrap( ScrnInfoPtr pScrn, int y, int h, int left, int dxl, int dyl, int el, int right, int dxr, int dyr, int er); #endif /* from savage_image.c: */ void SavageSetupForImageWrite( ScrnInfoPtr pScrn, int rop, unsigned int planemask, int transparency_color, int bpp, int depth); void SavageSubsequentImageWriteRect( ScrnInfoPtr pScrn, int x, int y, int w, int h, int skipleft); void SavageWriteBitmapCPUToScreenColorExpand ( ScrnInfoPtr pScrn, int x, int y, int w, int h, unsigned char * src, int srcwidth, int skipleft, int fg, int bg, int rop, unsigned int planemask ); unsigned long writedw( unsigned long addr, unsigned long value ); unsigned long readdw( unsigned long addr ); unsigned long readfb( unsigned long addr ); unsigned long writefb( unsigned long addr, unsigned long value ); void writescan( unsigned long scan, unsigned long color ); /* * This is used to cache the last known value for routines we want to * call from the debugger. */ ScrnInfoPtr gpScrn = 0; void SavageInitialize2DEngine(ScrnInfoPtr pScrn) { vgaHWPtr hwp = VGAHWPTR(pScrn); SavagePtr psav = SAVPTR(pScrn); unsigned int vgaCRIndex = hwp->IOBase + 4; unsigned int vgaCRReg = hwp->IOBase + 5; gpScrn = pScrn; VGAOUT16(vgaCRIndex, 0x0140); VGAOUT8(vgaCRIndex, 0x31); VGAOUT8(vgaCRReg, 0x0c); /* Setup plane masks */ OUTREG(0x8128, ~0); /* enable all write planes */ OUTREG(0x812C, ~0); /* enable all read planes */ OUTREG16(0x8134, 0x27); OUTREG16(0x8136, 0x07); switch( psav->Chipset ) { case S3_SAVAGE3D: case S3_SAVAGE_MX: /* Disable BCI */ OUTREG(0x48C18, INREG(0x48C18) & 0x3FF0); /* Setup BCI command overflow buffer */ OUTREG(0x48C14, (psav->cobOffset >> 11) | (psav->cobIndex << 29)); /* Program shadow status update. */ OUTREG(0x48C10, 0x78207220); if( psav->ShadowStatus ) { OUTREG(0x48C0C, psav->ShadowPhysical | 1 ); /* Enable BCI and command overflow buffer */ OUTREG(0x48C18, INREG(0x48C18) | 0x0E); } else { OUTREG(0x48C0C, 0); /* Enable BCI and command overflow buffer */ OUTREG(0x48C18, INREG(0x48C18) | 0x0C); } break; case S3_SAVAGE4: case S3_PROSAVAGE: case S3_SUPERSAVAGE: /* Disable BCI */ OUTREG(0x48C18, INREG(0x48C18) & 0x3FF0); /* Program shadow status update */ OUTREG(0x48C10, 0x00700040); if( psav->ShadowStatus ) { OUTREG(0x48C0C, psav->ShadowPhysical | 1 ); /* Enable BCI without the COB */ OUTREG(0x48C18, INREG(0x48C18) | 0x0a); } else { OUTREG(0x48C0C, 0); /* Enable BCI without the COB */ OUTREG(0x48C18, INREG(0x48C18) | 0x08); } break; case S3_SAVAGE2000: /* Disable BCI */ OUTREG(0x48C18, 0); /* Setup BCI command overflow buffer */ OUTREG(0x48C18, (psav->cobOffset >> 7) | (psav->cobIndex)); if( psav->ShadowStatus ) { /* Set shadow update threshholds. */ OUTREG(0x48C10, 0x6090 ); OUTREG(0x48C14, 0x70A8 ); /* Enable shadow status update */ OUTREG(0x48A30, psav->ShadowPhysical ); /* Enable BCI, command overflow buffer and shadow status. */ OUTREG(0x48C18, INREG(0x48C18) | 0x00380000 ); } else { /* Disable shadow status update */ OUTREG(0x48A30, 0); /* Enable BCI and command overflow buffer */ OUTREG(0x48C18, INREG(0x48C18) | 0x00280000 ); } break; } /* Use and set global bitmap descriptor. */ /* For reasons I do not fully understand yet, on the Savage4, the */ /* write to the GBD register, MM816C, does not "take" at this time. */ /* Only the low-order byte is acknowledged, resulting in an incorrect */ /* stride. Writing the register later, after the mode switch, works */ /* correctly. This needs to get resolved. */ SavageSetGBD(pScrn); } void SavageSetGBD( ScrnInfoPtr pScrn ) { vgaHWPtr hwp = VGAHWPTR(pScrn); SavagePtr psav = SAVPTR(pScrn); unsigned int vgaCRIndex = hwp->IOBase + 4; unsigned int vgaCRReg = hwp->IOBase + 5; unsigned long GlobalBitmapDescriptor; GlobalBitmapDescriptor = 1 | 8 | BCI_BD_BW_DISABLE; BCI_BD_SET_BPP(GlobalBitmapDescriptor, pScrn->bitsPerPixel); BCI_BD_SET_STRIDE(GlobalBitmapDescriptor, pScrn->displayWidth); /* Turn on 16-bit register access. */ VGAOUT8(vgaCRIndex, 0x31); VGAOUT8(vgaCRReg, 0x0c); /* Set stride to use GBD. */ VGAOUT8(vgaCRIndex, 0x50); VGAOUT8(vgaCRReg, VGAIN8(vgaCRReg) | 0xC1); /* Enable 2D engine. */ VGAOUT16(vgaCRIndex, 0x0140); /* Now set the GBD and SBDs. */ OUTREG(0x8168, 0); OUTREG(0x816C, GlobalBitmapDescriptor); OUTREG(0x8170, 0); OUTREG(0x8174, GlobalBitmapDescriptor); OUTREG(0x8178, 0); OUTREG(0x817C, GlobalBitmapDescriptor); OUTREG(PRI_STREAM_STRIDE, pScrn->displayWidth * pScrn->bitsPerPixel >> 3); OUTREG(SEC_STREAM_STRIDE, pScrn->displayWidth * pScrn->bitsPerPixel >> 3); } /* Acceleration init function, sets up pointers to our accelerated functions */ Bool SavageInitAccel(ScreenPtr pScreen) { ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum]; SavagePtr psav = SAVPTR(pScrn); XAAInfoRecPtr xaaptr; BoxRec AvailFBArea; /* Set-up our GE command primitive */ if (pScrn->depth == 8) { psav->PlaneMask = 0xFF; } else if (pScrn->depth == 15) { psav->PlaneMask = 0x7FFF; } else if (pScrn->depth == 16) { psav->PlaneMask = 0xFFFF; } else if (pScrn->depth == 24) { psav->PlaneMask = 0xFFFFFF; } /* General acceleration flags */ if (!(xaaptr = psav->AccelInfoRec = XAACreateInfoRec())) return FALSE; xaaptr->Flags = 0 | PIXMAP_CACHE | OFFSCREEN_PIXMAPS | LINEAR_FRAMEBUFFER ; /* Clipping */ xaaptr->SetClippingRectangle = SavageSetClippingRectangle; xaaptr->DisableClipping = SavageDisableClipping; xaaptr->ClippingFlags = 0 #if 0 | HARDWARE_CLIP_SOLID_FILL | HARDWARE_CLIP_SOLID_LINE | HARDWARE_CLIP_DASHED_LINE #endif | HARDWARE_CLIP_SCREEN_TO_SCREEN_COPY | HARDWARE_CLIP_MONO_8x8_FILL | HARDWARE_CLIP_COLOR_8x8_FILL ; xaaptr->Sync = SavageAccelSync; /* ScreenToScreen copies */ #if 1 xaaptr->SetupForScreenToScreenCopy = SavageSetupForScreenToScreenCopy; xaaptr->SubsequentScreenToScreenCopy = SavageSubsequentScreenToScreenCopy; xaaptr->ScreenToScreenCopyFlags = NO_TRANSPARENCY | NO_PLANEMASK | ROP_NEEDS_SOURCE; #endif /* Solid filled rectangles */ #if 1 xaaptr->SetupForSolidFill = SavageSetupForSolidFill; xaaptr->SubsequentSolidFillRect = SavageSubsequentSolidFillRect; xaaptr->SolidFillFlags = NO_PLANEMASK | ROP_NEEDS_SOURCE; #endif /* Mono 8x8 pattern fills */ #if 1 xaaptr->SetupForMono8x8PatternFill = SavageSetupForMono8x8PatternFill; xaaptr->SubsequentMono8x8PatternFillRect = SavageSubsequentMono8x8PatternFillRect; xaaptr->Mono8x8PatternFillFlags = 0 | HARDWARE_PATTERN_PROGRAMMED_BITS | HARDWARE_PATTERN_SCREEN_ORIGIN | ROP_NEEDS_SOURCE | BIT_ORDER_IN_BYTE_MSBFIRST ; if( psav->Chipset == S3_SAVAGE4 ) xaaptr->Mono8x8PatternFillFlags |= NO_TRANSPARENCY; #endif /* Color 8x8 pattern fills */ /* * With the exception of the Savage3D and Savage4, all of the Savage * chips require that bitmap descriptors have a stride that is a * multiple of 16 pixels. This includes any descriptor used for * color pattern fills, which COMPLETELY screws the XAA 8x8 color * pattern support. * * We could double the width ourselves into a reserved frame buffer * section, but since I went 18 months with only ONE report of this * error, it seems hardly worth the trouble. * Savage4 seems to have problems with 8x8 color patterns. * Not sending the pattern offsetsfixes the lockup but the * drawing problems remain. * Until further investigation we have to disable this. */ #if 0 if( (psav->Chipset == S3_SAVAGE3D) || (psav->Chipset == S3_SAVAGE4) ) { xaaptr->SetupForColor8x8PatternFill = SavageSetupForColor8x8PatternFill; xaaptr->SubsequentColor8x8PatternFillRect = SavageSubsequentColor8x8PatternFillRect; xaaptr->Color8x8PatternFillFlags = 0 | NO_TRANSPARENCY | HARDWARE_PATTERN_SCREEN_ORIGIN | ROP_NEEDS_SOURCE ; } #endif /* Solid lines */ #if 1 xaaptr->SolidLineFlags = NO_PLANEMASK | ROP_NEEDS_SOURCE; xaaptr->SetupForSolidLine = SavageSetupForSolidFill; xaaptr->SubsequentSolidBresenhamLine = SavageSubsequentSolidBresenhamLine; #if 0 xaaptr->SubsequentSolidFillTrap = SavageSubsequentSolidFillTrap; #endif xaaptr->SolidBresenhamLineErrorTermBits = 14; #endif /* ImageWrite */ xaaptr->ImageWriteFlags = 0 | NO_PLANEMASK | CPU_TRANSFER_PAD_DWORD | SCANLINE_PAD_DWORD | BIT_ORDER_IN_BYTE_MSBFIRST | LEFT_EDGE_CLIPPING | ROP_NEEDS_SOURCE ; xaaptr->SetupForImageWrite = SavageSetupForImageWrite; xaaptr->SubsequentImageWriteRect = SavageSubsequentImageWriteRect; xaaptr->NumScanlineImageWriteBuffers = 1; xaaptr->ImageWriteBase = psav->BciMem; xaaptr->ImageWriteRange = 120 * 1024; /* WriteBitmap color expand */ #if 0 xaaptr->WriteBitmapFlags = NO_PLANEMASK | ROP_NEEDS_SOURCE; xaaptr->WriteBitmap = SavageWriteBitmapCPUToScreenColorExpand; #endif /* Screen to Screen color expansion. Not implemented. */ #if 0 xaaptr->SetupForScreenToScreenColorExpand = SavageSetupForScreenToScreenColorExpand; xaaptr->SubsequentScreenToScreenColorExpand = SavageSubsequentCPUToScreenColorExpand; #endif /* CPU to Screen color expansion */ xaaptr->ScanlineCPUToScreenColorExpandFillFlags = 0 | NO_PLANEMASK | CPU_TRANSFER_PAD_DWORD | SCANLINE_PAD_DWORD | BIT_ORDER_IN_BYTE_MSBFIRST | LEFT_EDGE_CLIPPING | ROP_NEEDS_SOURCE ; xaaptr->SetupForScanlineCPUToScreenColorExpandFill = SavageSetupForCPUToScreenColorExpandFill; xaaptr->SubsequentScanlineCPUToScreenColorExpandFill = SavageSubsequentScanlineCPUToScreenColorExpandFill; xaaptr->SubsequentColorExpandScanline = SavageSubsequentColorExpandScanline; xaaptr->ColorExpandBase = psav->BciMem; xaaptr->ScanlineColorExpandBuffers = &xaaptr->ColorExpandBase; xaaptr->NumScanlineColorExpandBuffers = 1; /* Set up screen parameters. */ psav->Bpp = pScrn->bitsPerPixel / 8; psav->Bpl = pScrn->displayWidth * psav->Bpp; psav->ScissB = (psav->CursorKByte << 10) / psav->Bpl; if (psav->ScissB > 2047) psav->ScissB = 2047; /* * Finally, we set up the video memory space available to the pixmap * cache. In this case, all memory from the end of the virtual screen * to the end of the command overflow buffer can be used. If you haven't * enabled the PIXMAP_CACHE flag, then these lines can be omitted. */ AvailFBArea.x1 = 0; AvailFBArea.y1 = 0; AvailFBArea.x2 = pScrn->displayWidth; AvailFBArea.y2 = psav->ScissB; xf86InitFBManager(pScreen, &AvailFBArea); xf86DrvMsg( pScrn->scrnIndex, X_INFO, "Using %d lines for offscreen memory.\n", psav->ScissB - pScrn->virtualY ); return XAAInit(pScreen, xaaptr); } /* The sync function for the GE */ void SavageAccelSync(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); psav->WaitIdleEmpty(psav); } /* * The XAA ROP helper routines all assume that a solid color is a * "pattern". The Savage chips, however, apply a non-stippled solid * color as "source". Thus, we use a slightly customized version. */ static int SavageHelpPatternROP(ScrnInfoPtr pScrn, int *fg, int *bg, int pm, int *rop) { XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn); int ret = 0; pm &= infoRec->FullPlanemask; if(pm == infoRec->FullPlanemask) { if(!NO_SRC_ROP(*rop)) ret |= ROP_PAT; *rop = XAAGetCopyROP(*rop); } else { switch(*rop) { case GXnoop: break; case GXset: case GXclear: case GXinvert: ret |= ROP_PAT; *fg = pm; if(*bg != -1) *bg = pm; break; default: ret |= ROP_PAT | ROP_SRC; break; } *rop = XAAGetCopyROP_PM(*rop); } return ret; } static int SavageHelpSolidROP(ScrnInfoPtr pScrn, int *fg, int pm, int *rop) { XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn); int ret = 0; pm &= infoRec->FullPlanemask; if(pm == infoRec->FullPlanemask) { if(!NO_SRC_ROP(*rop)) ret |= ROP_PAT; *rop = XAAGetCopyROP(*rop); } else { switch(*rop) { case GXnoop: break; case GXset: case GXclear: case GXinvert: ret |= ROP_PAT; *fg = pm; break; default: ret |= ROP_PAT | ROP_SRC; break; } *rop = XAAGetCopyROP_PM(*rop); } return ret; } /* These are the ScreenToScreen bitblt functions. We support all ROPs, all * directions, and a planemask by adjusting the ROP and using the mono pattern * registers. * * (That's a lie; we don't really support planemask.) */ static void SavageSetupForScreenToScreenCopy( ScrnInfoPtr pScrn, int xdir, int ydir, int rop, unsigned planemask, int transparency_color) { SavagePtr psav = SAVPTR(pScrn); int cmd; cmd = BCI_CMD_RECT | BCI_CMD_DEST_GBD | BCI_CMD_SRC_GBD; BCI_CMD_SET_ROP( cmd, XAAGetCopyROP(rop) ); if (transparency_color != -1) cmd |= BCI_CMD_SEND_COLOR | BCI_CMD_SRC_TRANSPARENT; if (xdir == 1 ) cmd |= BCI_CMD_RECT_XP; if (ydir == 1 ) cmd |= BCI_CMD_RECT_YP; psav->SavedBciCmd = cmd; psav->SavedBgColor = transparency_color; } static void SavageSubsequentScreenToScreenCopy( ScrnInfoPtr pScrn, int x1, int y1, int x2, int y2, int w, int h) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; if (!w || !h) return; if (!(psav->SavedBciCmd & BCI_CMD_RECT_XP)) { w --; x1 += w; x2 += w; w ++; } if (!(psav->SavedBciCmd & BCI_CMD_RECT_YP)) { h --; y1 += h; y2 += h; h ++; } psav->WaitQueue(psav,6); BCI_SEND(psav->SavedBciCmd); if (psav->SavedBgColor != -1) BCI_SEND(psav->SavedBgColor); BCI_SEND(BCI_X_Y(x1, y1)); BCI_SEND(BCI_X_Y(x2, y2)); BCI_SEND(BCI_W_H(w, h)); } /* * SetupForSolidFill is also called to set up for lines. */ static void SavageSetupForSolidFill( ScrnInfoPtr pScrn, int color, int rop, unsigned planemask) { SavagePtr psav = SAVPTR(pScrn); XAAInfoRecPtr xaaptr = GET_XAAINFORECPTR_FROM_SCRNINFOPTR( pScrn ); int cmd; int mix; cmd = BCI_CMD_RECT | BCI_CMD_RECT_XP | BCI_CMD_RECT_YP | BCI_CMD_DEST_GBD | BCI_CMD_SRC_SOLID; /* Don't send a color if we don't have to. */ if( rop == GXcopy ) { if( color == 0 ) rop = GXclear; else if( color == xaaptr->FullPlanemask ) rop = GXset; } mix = SavageHelpSolidROP( pScrn, &color, planemask, &rop ); if( mix & ROP_PAT ) cmd |= BCI_CMD_SEND_COLOR; BCI_CMD_SET_ROP( cmd, rop ); psav->SavedBciCmd = cmd; psav->SavedFgColor = color; } static void SavageSubsequentSolidFillRect( ScrnInfoPtr pScrn, int x, int y, int w, int h) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; if( !w || !h ) return; psav->WaitQueue(psav,5); BCI_SEND(psav->SavedBciCmd); if( psav->SavedBciCmd & BCI_CMD_SEND_COLOR ) BCI_SEND(psav->SavedFgColor); BCI_SEND(BCI_X_Y(x, y)); BCI_SEND(BCI_W_H(w, h)); } #if 0 static void SavageSetupForScreenToScreenColorExpand( ScrnInfoPtr pScrn, int bg, int fg, int rop, unsigned planemask) { /* SavagePtr psav = SAVPTR(pScrn); */ } static void SavageSubsequentScreenToScreenColorExpand( ScrnInfoPtr pScrn, int x, int y, int w, int h, int skipleft) { /* SavagePtr psav = SAVPTR(pScrn); */ } #endif static void SavageSetupForCPUToScreenColorExpandFill( ScrnInfoPtr pScrn, int fg, int bg, int rop, unsigned planemask) { SavagePtr psav = SAVPTR(pScrn); int cmd; int mix; cmd = BCI_CMD_RECT | BCI_CMD_RECT_XP | BCI_CMD_RECT_YP | BCI_CMD_CLIP_LR | BCI_CMD_DEST_GBD | BCI_CMD_SRC_MONO; mix = SavageHelpPatternROP( pScrn, &fg, &bg, planemask, &rop ); if( mix & ROP_PAT ) cmd |= BCI_CMD_SEND_COLOR; BCI_CMD_SET_ROP( cmd, rop ); if (bg != -1) cmd |= BCI_CMD_SEND_COLOR; else cmd |= BCI_CMD_SRC_TRANSPARENT; psav->SavedBciCmd = cmd; psav->SavedFgColor = fg; psav->SavedBgColor = bg; } static void SavageSubsequentScanlineCPUToScreenColorExpandFill( ScrnInfoPtr pScrn, int x, int y, int w, int h, int skipleft) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; /* XAA will be sending bitmap data next. */ /* We should probably wait for empty/idle here. */ psav->WaitQueue(psav,20); BCI_SEND(psav->SavedBciCmd); BCI_SEND(BCI_CLIP_LR(x+skipleft, x+w-1)); w = (w + 31) & ~31; if( psav->SavedBciCmd & BCI_CMD_SEND_COLOR ) BCI_SEND(psav->SavedFgColor); if( psav->SavedBgColor != -1 ) BCI_SEND(psav->SavedBgColor); BCI_SEND(BCI_X_Y(x, y)); BCI_SEND(BCI_W_H(w, 1)); psav->Rect.x = x; psav->Rect.y = y + 1; psav->Rect.width = w; psav->Rect.height = h - 1; } static void SavageSubsequentColorExpandScanline( ScrnInfoPtr pScrn, int buffer_no) { /* This gets call after each scanline's image data has been sent. */ SavagePtr psav = SAVPTR(pScrn); xRectangle xr = psav->Rect; BCI_GET_PTR; if( xr.height ) { psav->WaitQueue(psav,20); BCI_SEND(BCI_X_Y( xr.x, xr.y)); BCI_SEND(BCI_W_H( xr.width, 1 )); psav->Rect.height--; psav->Rect.y++; } } /* * The meaning of the two pattern paremeters to Setup & Subsequent for * Mono8x8Patterns varies depending on the flag bits. We specify * HW_PROGRAMMED_BITS, which means our hardware can handle 8x8 patterns * without caching in the frame buffer. Thus, Setup gets the pattern bits. * There is no way with BCI to rotate an 8x8 pattern, so we do NOT specify * HW_PROGRAMMED_ORIGIN. XAA wil rotate it for us and pass the rotated * pattern to both Setup and Subsequent. If we DID specify PROGRAMMED_ORIGIN, * then Setup would get the unrotated pattern, and Subsequent gets the * origin values. */ static void SavageSetupForMono8x8PatternFill( ScrnInfoPtr pScrn, int patternx, int patterny, int fg, int bg, int rop, unsigned planemask) { SavagePtr psav = SAVPTR(pScrn); int cmd; int mix; mix = XAAHelpPatternROP( pScrn, &fg, &bg, planemask, &rop ); cmd = BCI_CMD_RECT | BCI_CMD_RECT_XP | BCI_CMD_RECT_YP | BCI_CMD_DEST_GBD; if( mix & ROP_PAT ) cmd |= BCI_CMD_SEND_COLOR | BCI_CMD_PAT_MONO; if (bg == -1) cmd |= BCI_CMD_PAT_TRANSPARENT; BCI_CMD_SET_ROP(cmd, rop); psav->SavedBciCmd = cmd; psav->SavedFgColor = fg; psav->SavedBgColor = bg; } static void SavageSubsequentMono8x8PatternFillRect( ScrnInfoPtr pScrn, int pattern0, int pattern1, int x, int y, int w, int h) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; /* * I didn't think it was my job to do trivial rejection, but * miFillGeneralPolygon definitely generates null spans, and XAA * just passes them through. */ if( !w || !h ) return; psav->WaitQueue(psav,7); BCI_SEND(psav->SavedBciCmd); if( psav->SavedBciCmd & BCI_CMD_SEND_COLOR ) BCI_SEND(psav->SavedFgColor); if( psav->SavedBgColor != -1 ) BCI_SEND(psav->SavedBgColor); BCI_SEND(BCI_X_Y(x, y)); BCI_SEND(BCI_W_H(w, h)); if( psav->SavedBciCmd & BCI_CMD_PAT_MONO ) { BCI_SEND(pattern0); BCI_SEND(pattern1); } } #if 0 static void SavageSetupForColor8x8PatternFill( ScrnInfoPtr pScrn, int patternx, int patterny, int rop, unsigned planemask, int trans_col) { SavagePtr psav = SAVPTR(pScrn); int cmd; unsigned int bd; int pat_offset; /* ViRGEs and Savages do not support transparent color patterns. */ /* We set the NO_TRANSPARENCY bit, so we should never receive one. */ pat_offset = (int) (patternx * psav->Bpp + patterny * psav->Bpl); cmd = BCI_CMD_RECT | BCI_CMD_RECT_XP | BCI_CMD_RECT_YP | BCI_CMD_DEST_GBD | BCI_CMD_PAT_PBD_COLOR_NEW; (void) XAAHelpSolidROP( pScrn, &trans_col, planemask, &rop ); BCI_CMD_SET_ROP(cmd, rop); bd = BCI_BD_BW_DISABLE; BCI_BD_SET_BPP(bd, pScrn->bitsPerPixel); BCI_BD_SET_STRIDE(bd, 8); psav->SavedBciCmd = cmd; psav->SavedSbdOffset = pat_offset; psav->SavedSbd = bd; psav->SavedBgColor = trans_col; } static void SavageSubsequentColor8x8PatternFillRect( ScrnInfoPtr pScrn, int patternx, int patterny, int x, int y, int w, int h) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; if( !w || !h ) return; psav->WaitQueue(psav,5); BCI_SEND(psav->SavedBciCmd); BCI_SEND(psav->SavedSbdOffset); BCI_SEND(psav->SavedSbd); BCI_SEND(BCI_X_Y(x, y)); BCI_SEND(BCI_W_H(w, h)); } #endif static void SavageSubsequentSolidBresenhamLine( ScrnInfoPtr pScrn, int x1, int y1, int e1, int e2, int err, int length, int octant) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; int cmd; cmd = (psav->SavedBciCmd & 0x00ffffff); cmd |= BCI_CMD_LINE_LAST_PIXEL; #ifdef DEBUG_EXTRA ErrorF("BresenhamLine, (%4d,%4d), len %4d, oct %d, err %4d,%4d,%4d clr %08x\n", x1, y1, length, octant, e1, e2, err, psav->SavedFgColor ); #endif psav->WaitQueue(psav, 5 ); BCI_SEND(cmd); if( cmd & BCI_CMD_SEND_COLOR ) BCI_SEND( psav->SavedFgColor ); BCI_SEND(BCI_LINE_X_Y(x1, y1)); BCI_SEND(BCI_LINE_STEPS(e2-e1, e2)); BCI_SEND(BCI_LINE_MISC(length, (octant & YMAJOR), !(octant & XDECREASING), !(octant & YDECREASING), e2+err)); } #if 0 static void SavageSubsequentSolidTwoPointLine( ScrnInfoPtr pScrn, int x1, int y1, int x2, int y2, int bias) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; int cmd; int dx, dy; int min, max, xp, yp, ym; dx = x2 - x1; dy = y2 - y1; #ifdef DEBUG_EXTRA ErrorF("TwoPointLine, (%4d,%4d)-(%4d,%4d), clr %08x, last pt %s\n", x1, y1, x2, y2, psav->SavedFgColor, (bias & 0x100)?"NO ":"YES"); #endif xp = (dx >= 0); if( !xp ) { dx = -dx; } yp = (dy >= 0); if( !yp ) { dy = -dy; } ym = (dy > dx); if( ym ) { max = dy; min = dx; } else { max = dx; min = dy; } if( !(bias & 0x100) ) { max++; } cmd = (psav->SavedBciCmd & 0x00ffffff); cmd |= BCI_CMD_LINE_LAST_PIXEL; psav->WaitQueue(psav,5); BCI_SEND( cmd ); if( cmd & BCI_CMD_SEND_COLOR ) BCI_SEND( psav->SavedFgColor ); BCI_SEND( BCI_LINE_X_Y( x1, y1 ) ); BCI_SEND( BCI_LINE_STEPS( 2 * (min - max), 2 * min ) ); BCI_SEND( BCI_LINE_MISC( max, ym, xp, yp, 2 * min - max ) ); } #endif static void SavageSetClippingRectangle( ScrnInfoPtr pScrn, int x1, int y1, int x2, int y2) { SavagePtr psav = SAVPTR(pScrn); BCI_GET_PTR; int cmd; #ifdef DEBUG_EXTRA ErrorF("ClipRect, (%4d,%4d)-(%4d,%4d) \n", x1, y1, x2, y2 ); #endif cmd = BCI_CMD_NOP | BCI_CMD_CLIP_NEW; psav->WaitQueue(psav,3); BCI_SEND(cmd); BCI_SEND(BCI_CLIP_TL(y1, x1)); BCI_SEND(BCI_CLIP_BR(y2, x2)); psav->SavedBciCmd |= BCI_CMD_CLIP_CURRENT; } static void SavageDisableClipping( ScrnInfoPtr pScrn ) { SavagePtr psav = SAVPTR(pScrn); #ifdef DEBUG_EXTRA ErrorF("Kill ClipRect\n"); #endif psav->SavedBciCmd &= ~BCI_CMD_CLIP_CURRENT; } /* Routines for debugging. */ unsigned long writedw( unsigned long addr, unsigned long value ) { SavagePtr psav = SAVPTR(gpScrn); OUTREG( addr, value ); return INREG( addr ); } unsigned long readdw( unsigned long addr ) { SavagePtr psav = SAVPTR(gpScrn); return INREG( addr ); } unsigned long readfb( unsigned long addr ) { SavagePtr psav = SAVPTR(gpScrn); char * videobuffer = (char *) psav->FBBase; return *(volatile unsigned long*)(videobuffer + (addr & ~3) ); } unsigned long writefb( unsigned long addr, unsigned long value ) { SavagePtr psav = SAVPTR(gpScrn); char * videobuffer = (char *) psav->FBBase; *(unsigned long*)(videobuffer + (addr & ~3)) = value; return *(volatile unsigned long*)(videobuffer + (addr & ~3) ); } void writescan( unsigned long scan, unsigned long color ) { SavagePtr psav = SAVPTR(gpScrn); int i; char * videobuffer = (char *)psav->FBBase; videobuffer += scan * gpScrn->displayWidth * gpScrn->bitsPerPixel >> 3; for( i = gpScrn->displayWidth; --i; ) { switch( gpScrn->bitsPerPixel ) { case 8: *videobuffer++ = color; break; case 16: *(CARD16 *)videobuffer = color; videobuffer += 2; break; case 32: *(CARD32 *)videobuffer = color; videobuffer += 4; break; } } }