/* * tkMacOSXDraw.c -- * * This file contains functions that perform drawing to * Xlib windows. Most of the functions simple emulate * Xlib functions. * * Copyright (c) 1995-1997 Sun Microsystems, Inc. * Copyright 2001, Apple Computer, Inc. * Copyright (c) 2006-2007 Daniel A. Steffen * * See the file "license.terms" for information on usage and redistribution * of this file, and for a DISCLAIMER OF ALL WARRANTIES. * * RCS: @(#) $Id: tkMacOSXDraw.c,v 1.28 2007/07/02 13:05:14 das Exp $ */ #include "tkMacOSXPrivate.h" #include "tkMacOSXDebug.h" /* #ifdef TK_MAC_DEBUG #define TK_MAC_DEBUG_DRAWING #endif */ #define radians(d) ((d) * (M_PI/180.0)) /* * Non-antialiased CG drawing looks better and more like X11 drawing when using * very fine lines, so decrease all linewidths by the following constant. */ #define NON_AA_CG_OFFSET .999 /* * Temporary region that can be reused. */ RgnHandle tkMacOSXtmpQdRgn = NULL; int tkMacOSXUseCGDrawing = 1; static PixPatHandle penPat = NULL; static int cgAntiAliasLimit = 0; #define notAA(w) ((w) < cgAntiAliasLimit) static int useThemedToplevel = 0; static int useThemedFrame = 0; /* * Prototypes for functions used only in this file. */ static unsigned char InvertByte(unsigned char data); static void ClipToGC(Drawable d, GC gc, CGrafPtr port, RgnHandle clipRgn); static void NoQDClip(CGrafPtr port); /* *---------------------------------------------------------------------- * * TkMacOSXInitCGDrawing -- * * Initializes link vars that control CG drawing. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ MODULE_SCOPE int TkMacOSXInitCGDrawing( Tcl_Interp *interp, int enable, int limit) { static Boolean initialized = FALSE; if (!initialized) { initialized = TRUE; if (Tcl_CreateNamespace(interp, "::tk::mac", NULL, NULL) == NULL) { Tcl_ResetResult(interp); } if (Tcl_LinkVar(interp, "::tk::mac::useCGDrawing", (char *) &tkMacOSXUseCGDrawing, TCL_LINK_BOOLEAN) != TCL_OK) { Tcl_ResetResult(interp); } tkMacOSXUseCGDrawing = enable; if (Tcl_LinkVar(interp, "::tk::mac::CGAntialiasLimit", (char *) &cgAntiAliasLimit, TCL_LINK_INT) != TCL_OK) { Tcl_ResetResult(interp); } cgAntiAliasLimit = limit; /* * Piggy-back the themed drawing var init here. */ if (Tcl_LinkVar(interp, "::tk::mac::useThemedToplevel", (char *) &useThemedToplevel, TCL_LINK_BOOLEAN) != TCL_OK) { Tcl_ResetResult(interp); } if (Tcl_LinkVar(interp, "::tk::mac::useThemedFrame", (char *) &useThemedFrame, TCL_LINK_BOOLEAN) != TCL_OK) { Tcl_ResetResult(interp); } if (tkMacOSXtmpQdRgn == NULL) { tkMacOSXtmpQdRgn = NewRgn(); } } #ifdef TK_MAC_DEBUG_DRAWING TkMacOSXInitNamedDebugSymbol(QD, void, QD_DebugPrint, char*); if (QD_DebugPrint) { ; /* gdb: b *QD_DebugPrint */ } #endif /* TK_MAC_DEBUG_WINDOWS */ return TCL_OK; } /* *---------------------------------------------------------------------- * * XCopyArea -- * * Copies data from one drawable to another using block transfer * routines. * * Results: * None. * * Side effects: * Data is moved from a window or bitmap to a second window or * bitmap. * *---------------------------------------------------------------------- */ void XCopyArea( Display *display, /* Display. */ Drawable src, /* Source drawable. */ Drawable dst, /* Destination drawable. */ GC gc, /* GC to use. */ int src_x, /* X & Y, width & height */ int src_y, /* define the source rectangle */ unsigned int width, /* the will be copied. */ unsigned int height, int dest_x, /* Dest X & Y on dest rect. */ int dest_y) { TkMacOSXDrawingContext dc; MacDrawable *srcDraw = (MacDrawable *) src, *dstDraw = (MacDrawable *) dst; display->request++; if (!width || !height) { TkMacOSXDbgMsg("Drawing of emtpy area requested"); return; } if (!TkMacOSXSetupDrawingContext(dst, gc, 0, &dc)) { Rect srcRect, dstRect, *srcPtr = &srcRect, *dstPtr = &dstRect; CGrafPtr srcPort; const BitMap *srcBit, *dstBit; RGBColor black = {0, 0, 0}, white = {0xffff, 0xffff, 0xffff}; srcPort = TkMacOSXGetDrawablePort(src); srcBit = GetPortBitMapForCopyBits(srcPort); dstBit = GetPortBitMapForCopyBits(dc.port); SetRect(srcPtr, srcDraw->xOff + src_x, srcDraw->yOff + src_y, srcDraw->xOff + src_x + width, srcDraw->yOff + src_y + height); if (tkPictureIsOpen) { dstPtr = srcPtr; } else { SetRect(dstPtr, dstDraw->xOff + dest_x, dstDraw->yOff + dest_y, dstDraw->xOff + dest_x + width, dstDraw->yOff + dest_y + height); } RGBForeColor(&black); RGBBackColor(&white); CopyBits(srcBit, dstBit, srcPtr, dstPtr, srcCopy, NULL); } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * XCopyPlane -- * * Copies a bitmap from a source drawable to a destination * drawable. The plane argument specifies which bit plane of * the source contains the bitmap. Note that this implementation * ignores the gc->function. * * Results: * None. * * Side effects: * Changes the destination drawable. * *---------------------------------------------------------------------- */ void XCopyPlane( Display *display, /* Display. */ Drawable src, /* Source drawable. */ Drawable dst, /* Destination drawable. */ GC gc, /* GC to use. */ int src_x, /* X & Y, width & height */ int src_y, /* define the source rectangle */ unsigned int width, /* the will be copied. */ unsigned int height, int dest_x, /* Dest X & Y on dest rect. */ int dest_y, unsigned long plane) /* Which plane to copy. */ { TkMacOSXDrawingContext dc; MacDrawable *srcDraw = (MacDrawable *) src, *dstDraw = (MacDrawable *) dst; display->request++; if (!width || !height) { TkMacOSXDbgMsg("Drawing of emtpy area requested"); return; } if (plane != 1) { Tcl_Panic("Unexpected plane specified for XCopyPlane"); } if (!TkMacOSXSetupDrawingContext(dst, gc, 0, &dc)) { Rect srcRect, dstRect, *srcPtr = &srcRect, *dstPtr = &dstRect; CGrafPtr srcPort; const BitMap *srcBit, *dstBit; TkpClipMask *clipPtr = (TkpClipMask *) gc->clip_mask; srcPort = TkMacOSXGetDrawablePort(src); srcBit = GetPortBitMapForCopyBits(srcPort); dstBit = GetPortBitMapForCopyBits(dc.port); SetRect(srcPtr, srcDraw->xOff + src_x, srcDraw->yOff + src_y, srcDraw->xOff + src_x + width, srcDraw->yOff + src_y + height); if (tkPictureIsOpen) { dstPtr = srcPtr; } else { SetRect(dstPtr, dstDraw->xOff + dest_x, dstDraw->yOff + dest_y, dstDraw->xOff + dest_x + width, dstDraw->yOff + dest_y + height); } TkMacOSXSetColorInPort(gc->foreground, 1, NULL, dc.port); if (!clipPtr || clipPtr->type == TKP_CLIP_REGION) { /* * Opaque bitmaps. */ TkMacOSXSetColorInPort(gc->background, 0, NULL, dc.port); CopyBits(srcBit, dstBit, srcPtr, dstPtr, srcCopy, NULL); } else if (clipPtr->type == TKP_CLIP_PIXMAP) { if (clipPtr->value.pixmap == src) { /* * Transparent bitmaps. If it's color we ignore the forecolor. */ short tmode = GetPixDepth(GetPortPixMap(srcPort)) == 1 ? srcOr : transparent; CopyBits(srcBit, dstBit, srcPtr, dstPtr, tmode, NULL); } else { /* * Two arbitrary bitmaps. */ CGrafPtr mskPort = TkMacOSXGetDrawablePort(clipPtr->value.pixmap); const BitMap *mskBit = GetPortBitMapForCopyBits(mskPort); CopyDeepMask(srcBit, mskBit, dstBit, srcPtr, srcPtr, dstPtr, srcCopy, NULL); } } } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * TkPutImage -- * * Copies a subimage from an in-memory image to a rectangle of * of the specified drawable. * * Results: * None. * * Side effects: * Draws the image on the specified drawable. * *---------------------------------------------------------------------- */ void TkPutImage( unsigned long *colors, /* Unused on Macintosh. */ int ncolors, /* Unused on Macintosh. */ Display* display, /* Display. */ Drawable d, /* Drawable to place image on. */ GC gc, /* GC to use. */ XImage* image, /* Image to place. */ int src_x, /* Source X & Y. */ int src_y, int dest_x, /* Destination X & Y. */ int dest_y, unsigned int width, /* Same width & height for both */ unsigned int height) /* distination and source. */ { TkMacOSXDrawingContext dc; MacDrawable *dstDraw = (MacDrawable *) d; display->request++; if (!TkMacOSXSetupDrawingContext(d, gc, 0, &dc)) { Rect srcRect, dstRect, *srcPtr = &srcRect, *dstPtr = &dstRect; const BitMap *dstBit; RGBColor black = {0, 0, 0}, white = {0xffff, 0xffff, 0xffff}; int i, j; char *newData = NULL; char *dataPtr, *newPtr, *oldPtr; int rowBytes = image->bytes_per_line; int slices, sliceRowBytes, lastSliceRowBytes, sliceWidth, lastSliceWidth; dstBit = GetPortBitMapForCopyBits(dc.port); SetRect(srcPtr, src_x, src_y, src_x + width, src_y + height); if (tkPictureIsOpen) { dstPtr = srcPtr; } else { SetRect(dstPtr, dstDraw->xOff + dest_x, dstDraw->yOff + dest_y, dstDraw->xOff + dest_x + width, dstDraw->yOff + dest_y + height); } RGBForeColor(&black); RGBBackColor(&white); if (image->obdata) { /* * Image from XGetImage, copy from containing GWorld directly. */ CopyBits(GetPortBitMapForCopyBits(TkMacOSXGetDrawablePort((Drawable) image->obdata)), dstBit, srcPtr, dstPtr, srcCopy, NULL); } else if (image->depth == 1) { /* * BW image */ const int maxRowBytes = 0x3ffe; BitMap bitmap; int odd; if (rowBytes > maxRowBytes) { slices = rowBytes / maxRowBytes; sliceRowBytes = maxRowBytes; lastSliceRowBytes = rowBytes - (slices * maxRowBytes); if (!lastSliceRowBytes) { slices--; lastSliceRowBytes = maxRowBytes; } sliceWidth = (long) image->width * maxRowBytes / rowBytes; lastSliceWidth = image->width - (sliceWidth * slices); } else { slices = 0; sliceRowBytes = lastSliceRowBytes = rowBytes; sliceWidth = lastSliceWidth = image->width; } bitmap.bounds.top = bitmap.bounds.left = 0; bitmap.bounds.bottom = (short) image->height; dataPtr = image->data; do { if (slices) { bitmap.bounds.right = bitmap.bounds.left + sliceWidth; } else { sliceRowBytes = lastSliceRowBytes; bitmap.bounds.right = bitmap.bounds.left + lastSliceWidth; } oldPtr = dataPtr; odd = sliceRowBytes % 2; if (!newData) { newData = ckalloc(image->height * (sliceRowBytes+odd)); } newPtr = newData; for (i = 0; i < image->height; i++) { for (j = 0; j < sliceRowBytes; j++) { *newPtr = InvertByte((unsigned char) *oldPtr); newPtr++; oldPtr++; } if (odd) { *newPtr++ = 0; } oldPtr += rowBytes - sliceRowBytes; } bitmap.baseAddr = newData; bitmap.rowBytes = sliceRowBytes + odd; CopyBits(&bitmap, dstBit, srcPtr, dstPtr, srcCopy, NULL); if (slices) { bitmap.bounds.left = bitmap.bounds.right; dataPtr += sliceRowBytes; } } while (slices--); ckfree(newData); } else { /* * Color image */ const int maxRowBytes = 0x3ffc; PixMap pixmap; pixmap.bounds.left = 0; pixmap.bounds.top = 0; pixmap.bounds.bottom = (short) image->height; pixmap.pixelType = RGBDirect; pixmap.pmVersion = baseAddr32; /* 32bit clean */ pixmap.packType = 0; pixmap.packSize = 0; pixmap.hRes = 0x00480000; pixmap.vRes = 0x00480000; pixmap.pixelSize = 32; pixmap.cmpCount = 3; pixmap.cmpSize = 8; #ifdef WORDS_BIGENDIAN pixmap.pixelFormat = k32ARGBPixelFormat; #else pixmap.pixelFormat = k32BGRAPixelFormat; #endif pixmap.pmTable = NULL; pixmap.pmExt = 0; if (rowBytes > maxRowBytes) { slices = rowBytes / maxRowBytes; sliceRowBytes = maxRowBytes; lastSliceRowBytes = rowBytes - (slices * maxRowBytes); if (!lastSliceRowBytes) { slices--; lastSliceRowBytes = maxRowBytes; } sliceWidth = (long) image->width * maxRowBytes / rowBytes; lastSliceWidth = image->width - (sliceWidth * slices); dataPtr = image->data; newData = (char *) ckalloc(image->height * sliceRowBytes); do { if (slices) { pixmap.bounds.right = pixmap.bounds.left + sliceWidth; } else { sliceRowBytes = lastSliceRowBytes; pixmap.bounds.right = pixmap.bounds.left + lastSliceWidth; } oldPtr = dataPtr; newPtr = newData; for (i = 0; i < image->height; i++) { memcpy(newPtr, oldPtr, sliceRowBytes); oldPtr += rowBytes; newPtr += sliceRowBytes; } pixmap.baseAddr = newData; pixmap.rowBytes = sliceRowBytes | 0x8000; CopyBits((BitMap*) &pixmap, dstBit, srcPtr, dstPtr, srcCopy, NULL); if (slices) { pixmap.bounds.left = pixmap.bounds.right; dataPtr += sliceRowBytes; } } while (slices--); ckfree(newData); } else { pixmap.bounds.right = (short) image->width; pixmap.baseAddr = image->data; pixmap.rowBytes = rowBytes | 0x8000; CopyBits((BitMap*) &pixmap, dstBit, srcPtr, dstPtr, srcCopy, NULL); } } } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * XDrawLines -- * * Draw connected lines. * * Results: * None. * * Side effects: * Renders a series of connected lines. * *---------------------------------------------------------------------- */ void XDrawLines( Display *display, /* Display. */ Drawable d, /* Draw on this. */ GC gc, /* Use this GC. */ XPoint *points, /* Array of points. */ int npoints, /* Number of points. */ int mode) /* Line drawing mode. */ { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; int i, lw = gc->line_width; if (npoints < 2) { /* * TODO: generate BadValue error. */ return; } display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { double prevx, prevy; double o = (lw % 2) ? .5 : 0; CGContextBeginPath(dc.context); prevx = macWin->xOff + points[0].x + o; prevy = macWin->yOff + points[0].y + o; CGContextMoveToPoint(dc.context, prevx, prevy); for (i = 1; i < npoints; i++) { if (mode == CoordModeOrigin) { CGContextAddLineToPoint(dc.context, macWin->xOff + points[i].x + o, macWin->yOff + points[i].y + o); } else { prevx += points[i].x; prevy += points[i].y; CGContextAddLineToPoint(dc.context, prevx, prevy); } } CGContextStrokePath(dc.context); } else { int o = -lw/2; /* This is broken for fat lines, it is not possible to correctly * imitate X11 drawing of oblique fat lines with QD line drawing, * we should draw a filled polygon instead. */ MoveTo((short) (macWin->xOff + points[0].x + o), (short) (macWin->yOff + points[0].y + o)); for (i = 1; i < npoints; i++) { if (mode == CoordModeOrigin) { LineTo((short) (macWin->xOff + points[i].x + o), (short) (macWin->yOff + points[i].y + o)); } else { Line((short) points[i].x, (short) points[i].y); } } } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * XDrawSegments -- * * Draw unconnected lines. * * Results: * None. * * Side effects: * Renders a series of unconnected lines. * *---------------------------------------------------------------------- */ void XDrawSegments( Display *display, Drawable d, GC gc, XSegment *segments, int nsegments) { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; int i, lw = gc->line_width; display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { double o = (lw % 2) ? .5 : 0; for (i = 0; i < nsegments; i++) { CGContextBeginPath(dc.context); CGContextMoveToPoint(dc.context, macWin->xOff + segments[i].x1 + o, macWin->yOff + segments[i].y1 + o); CGContextAddLineToPoint(dc.context, macWin->xOff + segments[i].x2 + o, macWin->yOff + segments[i].y2 + o); CGContextStrokePath(dc.context); } } else { int o = -lw/2; /* This is broken for fat lines, it is not possible to correctly * imitate X11 drawing of oblique fat lines with QD line drawing, * we should draw a filled polygon instead. */ for (i = 0; i < nsegments; i++) { MoveTo((short) (macWin->xOff + segments[i].x1 + o), (short) (macWin->yOff + segments[i].y1 + o)); LineTo((short) (macWin->xOff + segments[i].x2 + o), (short) (macWin->yOff + segments[i].y2 + o)); } } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * XFillPolygon -- * * Draws a filled polygon. * * Results: * None. * * Side effects: * Draws a filled polygon on the specified drawable. * *---------------------------------------------------------------------- */ void XFillPolygon( Display* display, /* Display. */ Drawable d, /* Draw on this. */ GC gc, /* Use this GC. */ XPoint* points, /* Array of points. */ int npoints, /* Number of points. */ int shape, /* Shape to draw. */ int mode) /* Drawing mode. */ { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; int i; display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { double prevx, prevy; double o = (gc->line_width % 2) ? .5 : 0; CGContextBeginPath(dc.context); prevx = macWin->xOff + points[0].x + o; prevy = macWin->yOff + points[0].y + o; CGContextMoveToPoint(dc.context, prevx, prevy); for (i = 1; i < npoints; i++) { if (mode == CoordModeOrigin) { CGContextAddLineToPoint(dc.context, macWin->xOff + points[i].x + o, macWin->yOff + points[i].y + o); } else { prevx += points[i].x; prevy += points[i].y; CGContextAddLineToPoint(dc.context, prevx, prevy); } } CGContextEOFillPath(dc.context); } else { PolyHandle polygon; polygon = OpenPoly(); MoveTo((short) (macWin->xOff + points[0].x), (short) (macWin->yOff + points[0].y)); for (i = 1; i < npoints; i++) { if (mode == CoordModeOrigin) { LineTo((short) (macWin->xOff + points[i].x), (short) (macWin->yOff + points[i].y)); } else { Line((short) points[i].x, (short) points[i].y); } } ClosePoly(); FillCPoly(polygon, dc.penPat); KillPoly(polygon); } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * XDrawRectangle -- * * Draws a rectangle. * * Results: * None. * * Side effects: * Draws a rectangle on the specified drawable. * *---------------------------------------------------------------------- */ void XDrawRectangle( Display *display, /* Display. */ Drawable d, /* Draw on this. */ GC gc, /* Use this GC. */ int x, int y, /* Upper left corner. */ unsigned int width, /* Width & height of rect. */ unsigned int height) { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; int lw = gc->line_width; if (width == 0 || height == 0) { return; } display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; double o = (lw % 2) ? .5 : 0; rect = CGRectMake( macWin->xOff + x + o, macWin->yOff + y + o, width, height); CGContextStrokeRect(dc.context, rect); } else { Rect theRect; int o = -lw/2; theRect.left = (short) (macWin->xOff + x + o); theRect.top = (short) (macWin->yOff + y + o); theRect.right = (short) (theRect.left + width + lw); theRect.bottom = (short) (theRect.top + height + lw); FrameRect(&theRect); } TkMacOSXRestoreDrawingContext(&dc); } #ifdef TK_MACOSXDRAW_UNUSED /* *---------------------------------------------------------------------- * * XDrawRectangles -- * * Draws the outlines of the specified rectangles as if a * five-point PolyLine protocol request were specified for each * rectangle: * * [x,y] [x+width,y] [x+width,y+height] [x,y+height] [x,y] * * For the specified rectangles, these functions do not draw a * pixel more than once. XDrawRectangles draws the rectangles in * the order listed in the array. If rectangles intersect, the * intersecting pixels are drawn multiple times. Draws a * rectangle. * * Results: * None. * * Side effects: * Draws rectangles on the specified drawable. * *---------------------------------------------------------------------- */ void XDrawRectangles( Display *display, Drawable drawable, GC gc, XRectangle *rectArr, int nRects) { MacDrawable *macWin = (MacDrawable *) drawable; TkMacOSXDrawingContext dc; XRectangle * rectPtr; int i, lw = gc->line_width; display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; double o = (lw % 2) ? .5 : 0; for (i = 0, rectPtr = rectArr; i < nRects; i++, rectPtr++) { if (rectPtr->width == 0 || rectPtr->height == 0) { continue; } rect = CGRectMake( macWin->xOff + rectPtr->x + o, macWin->yOff + rectPtr->y + o, rectPtr->width, rectPtr->height); CGContextStrokeRect(dc.context, rect); } } else { Rect theRect; int o = -lw/2; for (i = 0, rectPtr = rectArr; i < nRects;i++, rectPtr++) { theRect.left = (short) (macWin->xOff + rectPtr->x + o); theRect.top = (short) (macWin->yOff + rectPtr->y + o); theRect.right = (short) (theRect.left + rectPtr->width + lw); theRect.bottom = (short) (theRect.top + rectPtr->height + lw); FrameRect(&theRect); } } TkMacOSXRestoreDrawingContext(&dc); } #endif /* *---------------------------------------------------------------------- * * XFillRectangles -- * * Fill multiple rectangular areas in the given drawable. * * Results: * None. * * Side effects: * Draws onto the specified drawable. * *---------------------------------------------------------------------- */ void XFillRectangles( Display* display, /* Display. */ Drawable d, /* Draw on this. */ GC gc, /* Use this GC. */ XRectangle *rectangles, /* Rectangle array. */ int n_rectangles) /* Number of rectangles. */ { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; XRectangle * rectPtr; int i; display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; for (i = 0, rectPtr = rectangles; i < n_rectangles; i++, rectPtr++) { if (rectPtr->width == 0 || rectPtr->height == 0) { continue; } rect = CGRectMake( macWin->xOff + rectPtr->x, macWin->yOff + rectPtr->y, rectPtr->width, rectPtr->height); CGContextFillRect(dc.context, rect); } } else { Rect theRect; for (i = 0, rectPtr = rectangles; i < n_rectangles; i++, rectPtr++) { theRect.left = (short) (macWin->xOff + rectPtr->x); theRect.top = (short) (macWin->yOff + rectPtr->y); theRect.right = (short) (theRect.left + rectPtr->width); theRect.bottom = (short) (theRect.top + rectPtr->height); FillCRect(&theRect, dc.penPat); } } TkMacOSXRestoreDrawingContext(&dc); } /* *---------------------------------------------------------------------- * * XDrawArc -- * * Draw an arc. * * Results: * None. * * Side effects: * Draws an arc on the specified drawable. * *---------------------------------------------------------------------- */ void XDrawArc( Display* display, /* Display. */ Drawable d, /* Draw on this. */ GC gc, /* Use this GC. */ int x, int y, /* Upper left of bounding rect. */ unsigned int width, /* Width & height. */ unsigned int height, int angle1, /* Staring angle of arc. */ int angle2) /* Extent of arc. */ { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; int lw = gc->line_width; if (width == 0 || height == 0 || angle2 == 0) { return; } display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; double o = (lw % 2) ? .5 : 0; rect = CGRectMake( macWin->xOff + x + o, macWin->yOff + y + o, width, height); TK_IF_MAC_OS_X_API_COND (4, CGContextStrokeEllipseInRect, angle1 == 0 && angle2 == 23040, CGContextStrokeEllipseInRect(dc.context, rect); ) TK_ELSE ( CGMutablePathRef p = CGPathCreateMutable(); CGAffineTransform t = CGAffineTransformIdentity; CGPoint c = CGPointMake(CGRectGetMidX(rect), CGRectGetMidY(rect)); double w = CGRectGetWidth(rect); if (width != height) { t = CGAffineTransformMakeScale(1.0, CGRectGetHeight(rect)/w); c = CGPointApplyAffineTransform(c, CGAffineTransformInvert(t)); } CGPathAddArc(p, &t, c.x, c.y, w/2, radians(-angle1/64.0), radians(-(angle1 + angle2)/64.0), angle2 > 0); CGContextAddPath(dc.context, p); CGPathRelease(p); CGContextStrokePath(dc.context); ) TK_ENDIF } else { Rect theRect; short start, extent; int o = -lw/2; theRect.left = (short) (macWin->xOff + x + o); theRect.top = (short) (macWin->yOff + y + o); theRect.right = (short) (theRect.left + width + lw); theRect.bottom = (short) (theRect.top + height + lw); start = (short) (90 - (angle1/64)); extent = (short) (-(angle2/64)); FrameArc(&theRect, start, extent); } TkMacOSXRestoreDrawingContext(&dc); } #ifdef TK_MACOSXDRAW_UNUSED /* *---------------------------------------------------------------------- * * XDrawArcs -- * * Draws multiple circular or elliptical arcs. Each arc is * specified by a rectangle and two angles. The center of the * circle or ellipse is the center of the rect- angle, and the * major and minor axes are specified by the width and height. * Positive angles indicate counterclock- wise motion, and * negative angles indicate clockwise motion. If the magnitude * of angle2 is greater than 360 degrees, XDrawArcs truncates it * to 360 degrees. * * Results: * None. * * Side effects: * Draws an arc for each array element on the specified drawable. * *---------------------------------------------------------------------- */ void XDrawArcs( Display *display, Drawable d, GC gc, XArc *arcArr, int nArcs) { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; XArc *arcPtr; int i, lw = gc->line_width; display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; double o = (lw % 2) ? .5 : 0; for (i=0, arcPtr = arcArr; i < nArcs; i++, arcPtr++) { if (arcPtr->width == 0 || arcPtr->height == 0 || arcPtr->angle2 == 0) { continue; } rect = CGRectMake( macWin->xOff + arcPtr->x + o, macWin->yOff + arcPtr->y + o, arcPtr->width, arcPtr->height); TK_IF_MAC_OS_X_API_COND (4, CGContextStrokeEllipseInRect, arcPtr->angle1 == 0 && arcPtr->angle2 == 23040, CGContextStrokeEllipseInRect(dc.context, rect); ) TK_ELSE ( CGMutablePathRef p = CGPathCreateMutable(); CGAffineTransform t = CGAffineTransformIdentity; CGPoint c = CGPointMake(CGRectGetMidX(rect), CGRectGetMidY(rect)); double w = CGRectGetWidth(rect); if (arcPtr->width != arcPtr->height) { t = CGAffineTransformMakeScale(1, CGRectGetHeight(rect)/w); c = CGPointApplyAffineTransform(c, CGAffineTransformInvert(t)); } CGPathAddArc(p, &t, c.x, c.y, w/2, radians(-arcPtr->angle1/64.0), radians(-(arcPtr->angle1 + arcPtr->angle2)/64.0), arcPtr->angle2 > 0); CGContextAddPath(dc.context, p); CGPathRelease(p); CGContextStrokePath(dc.context); ) TK_ENDIF } } else { Rect theRect; short start, extent; int o = -lw/2; for (i = 0, arcPtr = arcArr;i < nArcs;i++, arcPtr++) { theRect.left = (short) (macWin->xOff + arcPtr->x + o); theRect.top = (short) (macWin->yOff + arcPtr->y + o); theRect.right = (short) (theRect.left + arcPtr->width + lw); theRect.bottom = (short) (theRect.top + arcPtr->height + lw); start = (short) (90 - (arcPtr->angle1/64)); extent = (short) (-(arcPtr->angle2/64)); FrameArc(&theRect, start, extent); } } TkMacOSXRestoreDrawingContext(&dc); } #endif /* *---------------------------------------------------------------------- * * XFillArc -- * * Draw a filled arc. * * Results: * None. * * Side effects: * Draws a filled arc on the specified drawable. * *---------------------------------------------------------------------- */ void XFillArc( Display* display, /* Display. */ Drawable d, /* Draw on this. */ GC gc, /* Use this GC. */ int x, int y, /* Upper left of bounding rect. */ unsigned int width, /* Width & height. */ unsigned int height, int angle1, /* Staring angle of arc. */ int angle2) /* Extent of arc. */ { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; int lw = gc->line_width; if (width == 0 || height == 0 || angle2 == 0) { return; } display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; double o = (lw % 2) ? .5 : 0, u = 0; if (notAA(lw)) { o += NON_AA_CG_OFFSET/2; u += NON_AA_CG_OFFSET; } rect = CGRectMake( macWin->xOff + x + o, macWin->yOff + y + o, width - u, height - u); TK_IF_MAC_OS_X_API_COND (4, CGContextFillEllipseInRect, angle1 == 0 && angle2 == 23040, CGContextFillEllipseInRect(dc.context, rect); ) TK_ELSE ( CGMutablePathRef p = CGPathCreateMutable(); CGAffineTransform t = CGAffineTransformIdentity; CGPoint c = CGPointMake(CGRectGetMidX(rect), CGRectGetMidY(rect)); double w = CGRectGetWidth(rect); if (width != height) { t = CGAffineTransformMakeScale(1, CGRectGetHeight(rect)/w); c = CGPointApplyAffineTransform(c, CGAffineTransformInvert(t)); } if (gc->arc_mode == ArcPieSlice) { CGPathMoveToPoint(p, &t, c.x, c.y); } CGPathAddArc(p, &t, c.x, c.y, w/2, radians(-angle1/64.0), radians(-(angle1 + angle2)/64.0), angle2 > 0); CGPathCloseSubpath(p); CGContextAddPath(dc.context, p); CGPathRelease(p); CGContextFillPath(dc.context); ) TK_ENDIF } else { Rect theRect; short start, extent; int o = -lw/2; PolyHandle polygon; double sin1, cos1, sin2, cos2, angle; double boxWidth, boxHeight; double vertex[2], center1[2], center2[2]; theRect.left = (short) (macWin->xOff + x + o); theRect.top = (short) (macWin->yOff + y + o); theRect.right = (short) (theRect.left + width + lw); theRect.bottom = (short) (theRect.top + height + lw); start = (short) (90 - (angle1/64)); extent = (short) (-(angle2/64)); if (gc->arc_mode == ArcChord) { boxWidth = theRect.right - theRect.left; boxHeight = theRect.bottom - theRect.top; angle = radians(-angle1/64.0); sin1 = sin(angle); cos1 = cos(angle); angle -= radians(angle2/64.0); sin2 = sin(angle); cos2 = cos(angle); vertex[0] = (theRect.left + theRect.right)/2.0; vertex[1] = (theRect.top + theRect.bottom)/2.0; center1[0] = vertex[0] + cos1*boxWidth/2.0; center1[1] = vertex[1] + sin1*boxHeight/2.0; center2[0] = vertex[0] + cos2*boxWidth/2.0; center2[1] = vertex[1] + sin2*boxHeight/2.0; polygon = OpenPoly(); MoveTo((short) ((theRect.left + theRect.right)/2), (short) ((theRect.top + theRect.bottom)/2)); LineTo((short) (center1[0] + .5), (short) (center1[1] + .5)); LineTo((short) (center2[0] + .5), (short) (center2[1] + .5)); ClosePoly(); FillCArc(&theRect, start, extent, dc.penPat); FillCPoly(polygon, dc.penPat); KillPoly(polygon); } else { FillCArc(&theRect, start, extent, dc.penPat); } } TkMacOSXRestoreDrawingContext(&dc); } #ifdef TK_MACOSXDRAW_UNUSED /* *---------------------------------------------------------------------- * * XFillArcs -- * * Draw a filled arc. * * Results: * None. * * Side effects: * Draws a filled arc for each array element on the specified drawable. * *---------------------------------------------------------------------- */ void XFillArcs( Display *display, Drawable d, GC gc, XArc *arcArr, int nArcs) { MacDrawable *macWin = (MacDrawable *) d; TkMacOSXDrawingContext dc; XArc * arcPtr; int i, lw = gc->line_width; display->request++; if (TkMacOSXSetupDrawingContext(d, gc, tkMacOSXUseCGDrawing, &dc)) { CGRect rect; double o = (lw % 2) ? .5 : 0, u = 0; if (notAA(lw)) { o += NON_AA_CG_OFFSET/2; u += NON_AA_CG_OFFSET; } for (i = 0, arcPtr = arcArr; i < nArcs; i++, arcPtr++) { if (arcPtr->width == 0 || arcPtr->height == 0 || arcPtr->angle2 == 0) { continue; } rect = CGRectMake( macWin->xOff + arcPtr->x + o, macWin->yOff + arcPtr->y + o, arcPtr->width - u, arcPtr->height - u); TK_IF_MAC_OS_X_API_COND (4, CGContextFillEllipseInRect, arcPtr->angle1 == 0 && arcPtr->angle2 == 23040, CGContextFillEllipseInRect(dc.context, rect); ) TK_ELSE ( CGMutablePathRef p = CGPathCreateMutable(); CGAffineTransform t = CGAffineTransformIdentity; CGPoint c = CGPointMake(CGRectGetMidX(rect), CGRectGetMidY(rect)); double w = CGRectGetWidth(rect); if (arcPtr->width != arcPtr->height) { t = CGAffineTransformMakeScale(1, CGRectGetHeight(rect)/w); c = CGPointApplyAffineTransform(c, CGAffineTransformInvert(t)); } if (gc->arc_mode == ArcPieSlice) { CGPathMoveToPoint(p, &t, c.x, c.y); } CGPathAddArc(p, &t, c.x, c.y, w/2, radians(-arcPtr->angle1/64.0), radians(-(arcPtr->angle1 + arcPtr->angle2)/64.0), arcPtr->angle2 > 0); CGPathCloseSubpath(p); CGContextAddPath(dc.context, p); CGPathRelease(p); CGContextFillPath(dc.context); ) TK_ENDIF } } else { Rect theRect; short start, extent; int o = -lw/2; PolyHandle polygon; double sin1, cos1, sin2, cos2, angle; double boxWidth, boxHeight; double vertex[2], center1[2], center2[2]; for (i = 0, arcPtr = arcArr;ixOff + arcPtr->x + o); theRect.top = (short) (macWin->yOff + arcPtr->y + o); theRect.right = (short) (theRect.left + arcPtr->width + lw); theRect.bottom = (short) (theRect.top + arcPtr->height + lw); start = (short) (90 - (arcPtr->angle1/64)); extent = (short) (- (arcPtr->angle2/64)); if (gc->arc_mode == ArcChord) { boxWidth = theRect.right - theRect.left; boxHeight = theRect.bottom - theRect.top; angle = radians(-arcPtr->angle1/64.0); sin1 = sin(angle); cos1 = cos(angle); angle -= radians(arcPtr->angle2/64.0); sin2 = sin(angle); cos2 = cos(angle); vertex[0] = (theRect.left + theRect.right)/2.0; vertex[1] = (theRect.top + theRect.bottom)/2.0; center1[0] = vertex[0] + cos1*boxWidth/2.0; center1[1] = vertex[1] + sin1*boxHeight/2.0; center2[0] = vertex[0] + cos2*boxWidth/2.0; center2[1] = vertex[1] + sin2*boxHeight/2.0; polygon = OpenPoly(); MoveTo((short) ((theRect.left + theRect.right)/2), (short) ((theRect.top + theRect.bottom)/2)); LineTo((short) (center1[0] + .5), (short) (center1[1] + .5)); LineTo((short) (center2[0] + .5), (short) (center2[1] + .5)); ClosePoly(); FillCArc(&theRect, start, extent, dc.penPat); FillCPoly(polygon, dc.penPat); KillPoly(polygon); } else { FillCArc(&theRect, start, extent, dc.penPat); } } } TkMacOSXRestoreDrawingContext(&dc); } #endif #ifdef TK_MACOSXDRAW_UNUSED /* *---------------------------------------------------------------------- * * XMaxRequestSize -- * *---------------------------------------------------------------------- */ long XMaxRequestSize( Display *display) { return (SHRT_MAX / 4); } #endif /* *---------------------------------------------------------------------- * * TkScrollWindow -- * * Scroll a rectangle of the specified window and accumulate * a damage region. * * Results: * Returns 0 if the scroll genereated no additional damage. * Otherwise, sets the region that needs to be repainted after * scrolling and returns 1. * * Side effects: * Scrolls the bits in the window. * *---------------------------------------------------------------------- */ int TkScrollWindow( Tk_Window tkwin, /* The window to be scrolled. */ GC gc, /* GC for window to be scrolled. */ int x, int y, /* Position rectangle to be scrolled. */ int width, int height, int dx, int dy, /* Distance rectangle should be moved. */ TkRegion damageRgn) /* Region to accumulate damage in. */ { MacDrawable *destDraw = (MacDrawable *) Tk_WindowId(tkwin); CGrafPtr destPort, savePort; Boolean portChanged; Rect scrollRect; int result; RgnHandle rgn = (RgnHandle) damageRgn; /* * Due to the implementation below the behavior may be differnt * than X in certain cases that should never occur in Tk. The * scrollRect is the source rect extended by the offset (the union * of the source rect and the offset rect). Everything * in the extended scrollRect is scrolled. On X, it's possible * to "skip" over an area if the offset makes the source and * destination rects disjoint and non-aligned. */ scrollRect.left = destDraw->xOff + x; scrollRect.top = destDraw->yOff + y; scrollRect.right = scrollRect.left + width; scrollRect.bottom = scrollRect.top + height; if (dx < 0) { scrollRect.left += dx; } else { scrollRect.right += dx; } if (dy < 0) { scrollRect.top += dy; } else { scrollRect.bottom += dy; } destPort = TkMacOSXGetDrawablePort(Tk_WindowId(tkwin)); TkMacOSXSetUpClippingRgn(Tk_WindowId(tkwin)); portChanged = QDSwapPort(destPort, &savePort); ScrollRect(&scrollRect, dx, dy, rgn); if (portChanged) { QDSwapPort(savePort, NULL); } /* * Fortunately, the region returned by ScrollRect is semantically * the same as what we need to return in this function. If the * region is empty we return zero to denote that no damage was * created. */ result = EmptyRgn(rgn) ? 0 : 1; return result; } /* *---------------------------------------------------------------------- * * TkMacOSXSetUpGraphicsPort -- * * Set up the graphics port from the given GC. * * Results: * None. * * Side effects: * The current port is adjusted. * *---------------------------------------------------------------------- */ void TkMacOSXSetUpGraphicsPort( GC gc, /* GC to apply to current port. */ GWorldPtr destPort) { PenNormal(); if (gc) { if (penPat == NULL) { penPat = NewPixPat(); } TkMacOSXSetColorInPort(gc->foreground, 1, penPat, destPort); SetPortPenPixPat(destPort, penPat); if(gc->function == GXxor) { SetPortPenMode(destPort, patXor); } if (gc->line_width > 1) { Point s = {gc->line_width, gc->line_width}; SetPortPenSize(destPort, s); } if (gc->line_style != LineSolid) { /* * FIXME: Here the dash pattern should be set in the drawing * environment. This is not possible with QuickDraw line drawing. */ } } } /* *---------------------------------------------------------------------- * * TkMacOSXSetUpDrawingContext -- * * Set up a drawing context for the given drawable and GC. * * Results: * Boolean indicating whether to use CG drawing. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkMacOSXSetupDrawingContext( Drawable d, GC gc, int useCG, /* advisory only ! */ TkMacOSXDrawingContext *dc) { MacDrawable *macDraw = ((MacDrawable*)d); CGContextRef context = macDraw->context; CGrafPtr port; Rect portBounds; dc->saveState = NULL; dc->saveClip = NULL; dc->penPat = NULL; dc->portChanged = false; port = TkMacOSXGetDrawablePort(d); if (port) { GetPortBounds(port, &portBounds); dc->saveClip = NewRgn(); GetPortClipRegion(port, dc->saveClip); if (tkPictureIsOpen) { NoQDClip(port); } else { TkMacOSXSetUpClippingRgn(d); } } if (context && useCG) { if (!port) { TK_IF_MAC_OS_X_API (3, CGContextGetClipBoundingBox, CGRect r = CGContextGetClipBoundingBox(context); SetRect(&portBounds, r.origin.x + macDraw->xOff, r.origin.y + macDraw->yOff, r.origin.x + r.size.width + macDraw->xOff, r.origin.y + r.size.height + macDraw->yOff); ) TK_ENDIF } CGContextSaveGState(context); dc->saveState = (void*)1; port = NULL; } else if (port) { dc->portChanged = QDSwapPort(port, &(dc->savePort)); if (useCG && ChkErr(QDBeginCGContext, port, &context) == noErr) { SyncCGContextOriginWithPort(context, port); } else { context = NULL; useCG = 0; } } else { Tcl_Panic("TkMacOSXSetupDrawingContext(): " "no port or context to draw into !"); } if (useCG) { if (tkPictureIsOpen) { TkMacOSXDbgMsg("Ignored CG Drawing with QD Picture open"); } else if (context) { TkMacOSXCheckTmpQdRgnEmpty(); RectRgn(tkMacOSXtmpQdRgn, &portBounds); if (port) { SectRegionWithPortClipRegion(port, tkMacOSXtmpQdRgn); SectRegionWithPortVisibleRegion(port, tkMacOSXtmpQdRgn); } else if (macDraw->flags & TK_CLIPPED_DRAW) { OffsetRgn(macDraw->drawRgn, macDraw->xOff, macDraw->yOff); SectRgn(macDraw->clipRgn, macDraw->drawRgn, tkMacOSXtmpQdRgn); OffsetRgn(macDraw->drawRgn, -macDraw->xOff, -macDraw->yOff); } ClipToGC(d, gc, NULL, tkMacOSXtmpQdRgn); ClipCGContextToRegion(context, &portBounds, tkMacOSXtmpQdRgn); SetEmptyRgn(tkMacOSXtmpQdRgn); CGContextConcatCTM(context, CGAffineTransformMake(1.0, 0.0, 0.0, -1.0, 0.0, portBounds.bottom - portBounds.top)); if (gc) { double w = gc->line_width; TkMacOSXSetColorInContext(gc->foreground, context); if (port) { CGContextSetPatternPhase(context, CGSizeMake(portBounds.right - portBounds.left, portBounds.bottom - portBounds.top)); } if(gc->function != GXcopy) { TkMacOSXDbgMsg("Logical functions other than GXcopy are " "not supported for CG drawing!"); } /* When should we antialias? */ if (notAA(gc->line_width)) { /* Make non-antialiased CG drawing look more like X11 */ w -= (gc->line_width ? NON_AA_CG_OFFSET : 0); CGContextSetShouldAntialias(context, 0); } else { CGContextSetShouldAntialias(context, 1); } CGContextSetLineWidth(context, w); if (gc->line_style != LineSolid) { int num = 0; char *p = &(gc->dashes); double dashOffset = gc->dash_offset; float lengths[10]; while (p[num] != '\0' && num < 10) { lengths[num] = p[num]; num++; } CGContextSetLineDash(context, dashOffset, lengths, num); } if (gc->cap_style == CapButt) { /* * What about CapNotLast, CapProjecting? */ CGContextSetLineCap(context, kCGLineCapButt); } else if (gc->cap_style == CapRound) { CGContextSetLineCap(context, kCGLineCapRound); } else if (gc->cap_style == CapProjecting) { CGContextSetLineCap(context, kCGLineCapSquare); } if (gc->join_style == JoinMiter) { CGContextSetLineJoin(context, kCGLineJoinMiter); } else if (gc->join_style == JoinRound) { CGContextSetLineJoin(context, kCGLineJoinRound); } else if (gc->join_style == JoinBevel) { CGContextSetLineJoin(context, kCGLineJoinBevel); } } } } else { if (port) { PixPatHandle savePat = penPat; ChkErr(GetThemeDrawingState, &(dc->saveState)); penPat = NULL; TkMacOSXSetUpGraphicsPort(gc, port); dc->penPat = penPat; penPat = savePat; if (gc) { TkMacOSXCheckTmpQdRgnEmpty(); ClipToGC(d, gc, port, tkMacOSXtmpQdRgn); } if (!tkPictureIsOpen) { ShowPen(); } } } dc->portBounds = portBounds; dc->port = port; dc->context = context; return useCG; } /* *---------------------------------------------------------------------- * * TkMacOSXRestoreDrawingContext -- * * Restore drawing context. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkMacOSXRestoreDrawingContext(TkMacOSXDrawingContext *dc) { if (dc->context) { CGContextSynchronize(dc->context); if (dc->saveState) { CGContextRestoreGState(dc->context); } if (dc->port) { ChkErr(QDEndCGContext, dc->port, &(dc->context)); } } else if (dc->port) { if (!tkPictureIsOpen) { HidePen(); } PenNormal(); if (dc->saveClip) { SetPortClipRegion(dc->port, dc->saveClip); DisposeRgn(dc->saveClip); } if (dc->penPat) { DisposePixPat(dc->penPat); } if (dc->saveState) { ChkErr(SetThemeDrawingState, dc->saveState, true); } } if (dc->portChanged) { QDSwapPort(dc->savePort, NULL); } #ifdef TK_MAC_DEBUG bzero(dc, sizeof(dc)); #endif /* TK_MAC_DEBUG */ } /* *---------------------------------------------------------------------- * * TkMacOSXSetUpClippingRgn -- * * Set up the clipping region so that drawing only occurs on the * specified X subwindow. * * Results: * None. * * Side effects: * The clipping region in the current port is changed. * *---------------------------------------------------------------------- */ void TkMacOSXSetUpClippingRgn( Drawable drawable) /* Drawable to update. */ { MacDrawable *macDraw = (MacDrawable *) drawable; CGrafPtr port = TkMacOSXGetDrawablePort(drawable); if (macDraw->winPtr && macDraw->flags & TK_CLIP_INVALID) { TkMacOSXUpdateClipRgn(macDraw->winPtr); #ifdef TK_MAC_DEBUG_DRAWING TkMacOSXDbgMsg("%s clipRgn ", macDraw->winPtr->pathName); TkMacOSXDebugFlashRegion(drawable, macDraw->clipRgn); #endif /* TK_MAC_DEBUG_DRAWING */ } if (macDraw->clipRgn) { if (macDraw->flags & TK_CLIPPED_DRAW) { TkMacOSXCheckTmpQdRgnEmpty(); OffsetRgn(macDraw->drawRgn, macDraw->xOff, macDraw->yOff); SectRgn(macDraw->clipRgn, macDraw->drawRgn, tkMacOSXtmpQdRgn); OffsetRgn(macDraw->drawRgn, -macDraw->xOff, -macDraw->yOff); SetPortClipRegion(port, tkMacOSXtmpQdRgn); SetEmptyRgn(tkMacOSXtmpQdRgn); } else { SetPortClipRegion(port, macDraw->clipRgn); } } else if (macDraw->flags & TK_CLIPPED_DRAW) { OffsetRgn(macDraw->drawRgn, macDraw->xOff, macDraw->yOff); SetPortClipRegion(port, macDraw->drawRgn); OffsetRgn(macDraw->drawRgn, -macDraw->xOff, -macDraw->yOff); } } /* *---------------------------------------------------------------------- * * TkpClipDrawableToRect -- * * Clip all drawing into the drawable d to the given rectangle. * If width and height are negative, reset to no clipping. * * Results: * None. * * Side effects: * Subsequent drawing into d is offset and clipped as specified. * *---------------------------------------------------------------------- */ void TkpClipDrawableToRect( Display *display, Drawable d, int x, int y, int width, int height) { MacDrawable *macDraw = (MacDrawable *) d; if (macDraw->drawRgn) { if (width < 0 && height < 0) { SetEmptyRgn(macDraw->drawRgn); macDraw->flags &= ~TK_CLIPPED_DRAW; } else { SetRectRgn(macDraw->drawRgn, x, y, x + width, y + height); macDraw->flags |= TK_CLIPPED_DRAW; } } } /* *---------------------------------------------------------------------- * * ClipToGC -- * * Helper function to intersect the given port's clip region (or if * port is NULL, the given clipRgn) with gc clip region. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ static void ClipToGC( Drawable d, GC gc, CGrafPtr port, /* can be NULL */ RgnHandle clipRgn) /* tmp region or if port == NULL, region to intersect */ { if (gc && gc->clip_mask && ((TkpClipMask*)gc->clip_mask)->type == TKP_CLIP_REGION) { RgnHandle gcClipRgn = (RgnHandle) ((TkpClipMask*)gc->clip_mask)->value.region; int xOffset = ((MacDrawable *) d)->xOff + gc->clip_x_origin; int yOffset = ((MacDrawable *) d)->yOff + gc->clip_y_origin; if (!tkPictureIsOpen) { OffsetRgn(gcClipRgn, xOffset, yOffset); } if (port) { GetPortClipRegion(port, clipRgn); } SectRgn(clipRgn, gcClipRgn, clipRgn); if (port) { SetPortClipRegion(port, clipRgn); SetEmptyRgn(clipRgn); } if (!tkPictureIsOpen) { OffsetRgn(gcClipRgn, -xOffset, -yOffset); } } } /* *---------------------------------------------------------------------- * * NoQDClip -- * * Helper function to setup a QD port to not clip anything. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ static void NoQDClip( CGrafPtr port) { static RgnHandle noClipRgn = NULL; if (!noClipRgn) { noClipRgn = NewRgn(); SetRectRgn(noClipRgn, SHRT_MIN, SHRT_MIN, SHRT_MAX, SHRT_MAX); } SetPortClipRegion(port, noClipRgn); } /* *---------------------------------------------------------------------- * * TkMacOSXMakeStippleMap -- * * Given a drawable and a stipple pattern this function draws the * pattern repeatedly over the drawable. The drawable can then * be used as a mask for bit-bliting a stipple pattern over an * object. * * Results: * A BitMap data structure. * * Side effects: * None. * *---------------------------------------------------------------------- */ BitMapPtr TkMacOSXMakeStippleMap( Drawable drawable, /* Window to apply stipple. */ Drawable stipple) /* The stipple pattern. */ { CGrafPtr stipplePort; BitMapPtr bitmapPtr; const BitMap *stippleBitmap; Rect portRect; int width, height, stippleHeight, stippleWidth, i, j; Rect bounds; GetPortBounds(TkMacOSXGetDrawablePort(drawable), &portRect); width = portRect.right - portRect.left; height = portRect.bottom - portRect.top; bitmapPtr = (BitMap *) ckalloc(sizeof(BitMap)); bitmapPtr->bounds.top = bitmapPtr->bounds.left = 0; bitmapPtr->bounds.right = (short) width; bitmapPtr->bounds.bottom = (short) height; bitmapPtr->rowBytes = (width / 8) + 1; bitmapPtr->baseAddr = ckalloc(height * bitmapPtr->rowBytes); stipplePort = TkMacOSXGetDrawablePort(stipple); stippleBitmap = GetPortBitMapForCopyBits(stipplePort); GetPortBounds(stipplePort, &portRect); stippleWidth = portRect.right - portRect.left; stippleHeight = portRect.bottom - portRect.top; for (i = 0; i < height; i += stippleHeight) { for (j = 0; j < width; j += stippleWidth) { bounds.left = j; bounds.top = i; bounds.right = j + stippleWidth; bounds.bottom = i + stippleHeight; CopyBits(stippleBitmap, bitmapPtr, &portRect, &bounds, srcCopy, NULL); } } return bitmapPtr; } /* *---------------------------------------------------------------------- * * InvertByte -- * * This function reverses the bits in the passed in Byte of data. * * Results: * The incoming byte in reverse bit order. * * Side effects: * None. * *---------------------------------------------------------------------- */ static unsigned char InvertByte( unsigned char data) /* Byte of data. */ { unsigned char i; unsigned char mask = 1, result = 0; for (i = (1 << 7); i != 0; i /= 2) { if (data & mask) { result |= i; } mask = mask << 1; } return result; } /* *---------------------------------------------------------------------- * * TkpDrawHighlightBorder -- * * This procedure draws a rectangular ring around the outside of * a widget to indicate that it has received the input focus. * * On the Macintosh, this puts a 1 pixel border in the bgGC color * between the widget and the focus ring, except in the case where * highlightWidth is 1, in which case the border is left out. * * For proper Mac L&F, use highlightWidth of 3. * * Results: * None. * * Side effects: * A rectangle "width" pixels wide is drawn in "drawable", * corresponding to the outer area of "tkwin". * *---------------------------------------------------------------------- */ void TkpDrawHighlightBorder ( Tk_Window tkwin, GC fgGC, GC bgGC, int highlightWidth, Drawable drawable) { if (highlightWidth == 1) { TkDrawInsetFocusHighlight (tkwin, fgGC, highlightWidth, drawable, 0); } else { TkDrawInsetFocusHighlight (tkwin, bgGC, highlightWidth, drawable, 0); if (fgGC != bgGC) { TkDrawInsetFocusHighlight (tkwin, fgGC, highlightWidth - 1, drawable, 0); } } } /* *---------------------------------------------------------------------- * * TkpDrawFrame -- * * This procedure draws the rectangular frame area. If the user * has request themeing, it draws with a the background theme. * * Results: * None. * * Side effects: * Draws inside the tkwin area. * *---------------------------------------------------------------------- */ void TkpDrawFrame( Tk_Window tkwin, Tk_3DBorder border, int highlightWidth, int borderWidth, int relief) { if (useThemedToplevel && Tk_IsTopLevel(tkwin)) { static Tk_3DBorder themedBorder = NULL; if (!themedBorder) { themedBorder = Tk_Get3DBorder(NULL, tkwin, "systemWindowHeaderBackground"); } if (themedBorder) { border = themedBorder; } } Tk_Fill3DRectangle(tkwin, Tk_WindowId(tkwin), border, highlightWidth, highlightWidth, Tk_Width(tkwin) - 2 * highlightWidth, Tk_Height(tkwin) - 2 * highlightWidth, borderWidth, relief); }