/** NSGraphicsContext GNUstep drawing context class. Copyright (C) 1998 Free Software Foundation, Inc. Written by: Adam Fedor Date: Nov 1998 Updated by: Richard Frith-Macdonald Date: Feb 1999 This file is part of the GNUStep GUI Library. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111 USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "AppKit/AppKitExceptions.h" #include "AppKit/NSGraphicsContext.h" #include "AppKit/NSAffineTransform.h" #include "AppKit/NSBezierPath.h" #include "AppKit/NSWindow.h" #include "AppKit/NSView.h" #include "AppKit/DPSOperators.h" /* The memory zone where all global objects are allocated from (Contexts are also allocated from this zone) */ static NSZone *_globalGSZone = NULL; /* The current concrete class */ static Class defaultNSGraphicsContextClass = NULL; /* Class variable for holding pointers to method functions */ static NSMutableDictionary *classMethodTable; /* Lock for use when creating contexts */ static NSRecursiveLock *contextLock = nil; #ifndef GNUSTEP_BASE_LIBRARY static NSString *NSGraphicsContextThreadKey = @"NSGraphicsContextThreadKey"; #endif static NSString *NSGraphicsContextStackKey = @"NSGraphicsContextStackKey"; /* Colorspace constants */ NSString *GSColorSpaceName = @"GSColorSpaceName"; NSString *GSColorSpaceWhitePoint = @"GSColorSpaceWhitePoint"; NSString *GSColorSpaceBlackPoint = @"GSColorSpaceBlackPoint"; NSString *GSColorSpaceGamma = @"GSColorSpaceGamma"; NSString *GSColorSpaceMatrix = @"GSColorSpaceMatrix"; NSString *GSColorSpaceRange = @"GSColorSpaceRange"; NSString *GSColorSpaceComponents = @"GSColorSpaceComponents"; NSString *GSColorSpaceProfile = @"GSColorSpaceProfile"; NSString *GSAlternateColorSpace = @"GSAlternateColorSpace"; NSString *GSBaseColorSpace = @"GSBaseColorSpace"; NSString *GSColorSpaceColorTable = @"GSColorSpaceColorTable"; /* * Function for rapid access to current graphics context. */ NSGraphicsContext *GSCurrentContext() { #ifdef GNUSTEP_BASE_LIBRARY /* * gstep-base has a faster mechanism to get the current thread. */ NSThread *th = GSCurrentThread(); return (NSGraphicsContext*) th->_gcontext; #else NSMutableDictionary *dict = [[NSThread currentThread] threadDictionary]; return (NSGraphicsContext*) [dict objectForKey: NSGraphicsContextThreadKey]; #endif } @interface NSGraphicsContext (Private) + (gsMethodTable *) _initializeMethodTable; @end /** NSGraphicsContext

This is an abstract class which provides a framework for a device independant drawing.

In addition, this class provides methods to perform the actual drawing. As a convenience, you can also access these through various function interfaces. One is a Display Postscript interface using PS and DPS operations. Another is a Quartz interface (not yet written).

*/ @implementation NSGraphicsContext + (void) initialize { if (contextLock == nil) { [gnustep_global_lock lock]; if (contextLock == nil) { contextLock = [NSRecursiveLock new]; defaultNSGraphicsContextClass = [NSGraphicsContext class]; _globalGSZone = NSDefaultMallocZone(); classMethodTable = [[NSMutableDictionary allocWithZone: _globalGSZone] init]; } [gnustep_global_lock unlock]; } } + (void) initializeBackend { [self subclassResponsibility: _cmd]; } /** Set the concrete subclass that will provide the device dependant implementation. */ + (void) setDefaultContextClass: (Class)defaultContextClass { defaultNSGraphicsContextClass = defaultContextClass; } /** Set the current context that will handle drawing. */ + (void) setCurrentContext: (NSGraphicsContext *)context { #ifdef GNUSTEP_BASE_LIBRARY /* * gstep-base has a faster mechanism to get the current thread. */ NSThread *th = GSCurrentThread(); ASSIGN(th->_gcontext, context); #else NSMutableDictionary *dict = [[NSThread currentThread] threadDictionary]; [dict setObject: context forKey: NSGraphicsContextThreadKey]; #endif } /** Returns the current context. Also see the convienience function GSCurrentContext() */ + (NSGraphicsContext *) currentContext { return GSCurrentContext(); } /** Returns YES if the current context is a display context */ + (BOOL) currentContextDrawingToScreen { return [GSCurrentContext() isDrawingToScreen]; } /**

Create a graphics context with attributes, which contains key/value pairs which describe the specifics of how the context is to be initialized.

*/ + (NSGraphicsContext *) graphicsContextWithAttributes: (NSDictionary *)attributes { NSGraphicsContext *ctxt; if (self == [NSGraphicsContext class]) { NSAssert(defaultNSGraphicsContextClass, @"Internal Error: No default NSGraphicsContext set\n"); ctxt = [[defaultNSGraphicsContextClass allocWithZone: _globalGSZone] initWithContextInfo: attributes]; } else ctxt = [[self allocWithZone: _globalGSZone] initWithContextInfo: attributes]; return AUTORELEASE(ctxt); } /** Create graphics context with attributes speficied by aWindow's device description. */ + (NSGraphicsContext *) graphicsContextWithWindow: (NSWindow *)aWindow { return [self graphicsContextWithAttributes: [aWindow deviceDescription]]; } + (void) restoreGraphicsState { NSGraphicsContext *ctxt; NSMutableDictionary *dict = [[NSThread currentThread] threadDictionary]; NSMutableArray *stack = [dict objectForKey: NSGraphicsContextStackKey]; if (stack == nil || [stack count] == 0) { [NSException raise: NSGenericException format: @"restoreGraphicsState without previous save"]; } ctxt = [stack lastObject]; [NSGraphicsContext setCurrentContext: ctxt]; [stack removeLastObject]; [ctxt restoreGraphicsState]; } + (void) saveGraphicsState { NSGraphicsContext *ctxt; NSMutableDictionary *dict = [[NSThread currentThread] threadDictionary]; NSMutableArray *stack = [dict objectForKey: NSGraphicsContextStackKey]; if (stack == nil) { stack = [[NSMutableArray allocWithZone: _globalGSZone] init]; [dict setObject: stack forKey: NSGraphicsContextStackKey]; } ctxt = GSCurrentContext(); [ctxt saveGraphicsState]; [stack addObject: ctxt]; } + (void) setGraphicsState: (int)graphicsState { /* FIXME: Need to keep a table of which context goes with a graphicState, or perhaps we could rely on the backend? */ [self notImplemented: _cmd]; } - (void) dealloc { DESTROY(focus_stack); DESTROY(context_data); DESTROY(context_info); [super dealloc]; } - (id) init { return [self initWithContextInfo: NULL]; } /* designated initializer for the NSGraphicsContext class */ - (id) initWithContextInfo: (NSDictionary *)info { [super init]; ASSIGN(context_info, info); focus_stack = [[NSMutableArray allocWithZone: [self zone]] initWithCapacity: 1]; usedFonts = nil; /* * The classMethodTable dictionary and the list of all contexts must both * be protected from other threads. */ [contextLock lock]; if (!(methods = [[classMethodTable objectForKey: [self class]] pointerValue])) { methods = [[self class] _initializeMethodTable]; [classMethodTable setObject: [NSValue valueWithPointer: methods] forKey: [self class]]; } [contextLock unlock]; return self; } - (NSDictionary *) attributes { return context_info; } - (void)flushGraphics { [self subclassResponsibility: _cmd]; } - (void *)graphicsPort { return NULL; } - (BOOL) isDrawingToScreen { return NO; } - (void) restoreGraphicsState { [self DPSgrestore]; } - (void) saveGraphicsState { [self DPSgsave]; } - (void *) focusStack { return focus_stack; } - (void) setFocusStack: (void *)stack { ASSIGN(focus_stack, stack); } - (void) setImageInterpolation: (NSImageInterpolation)interpolation { _interp = interpolation; } - (NSImageInterpolation) imageInterpolation { return _interp; } - (void) setShouldAntialias: (BOOL)antialias { _antialias = antialias; } - (BOOL) shouldAntialias { return _antialias; } - (NSView*) focusView { return [focus_stack lastObject]; } - (void) lockFocusView: (NSView*)aView inRect: (NSRect)rect { [focus_stack addObject: aView]; } - (void) unlockFocusView: (NSView*)aView needsFlush: (BOOL)flush { [focus_stack removeLastObject]; } - (void) useFont: (NSString*)name { if ([self isDrawingToScreen] == YES) return; if (usedFonts == nil) usedFonts = RETAIN([NSMutableSet setWithCapacity: 2]); [usedFonts addObject: name]; } - (void) resetUsedFonts { if (usedFonts) [usedFonts removeAllObjects]; } - (NSSet *) usedFonts { return usedFonts; } /* Private backend methods */ /** Private backend method. Typically this is called by the window server to tell the graphics context that it should flush output to a window indicated by the device pointer. The device pointer is an opaque type setup by the context so that it knows which context and/or buffer should be. */ + (void) handleExposeRect: (NSRect)rect forDriver: (void *)driver { } @end @implementation NSGraphicsContext (Private) /* Build up method table for fast access to methods. Cast to (void *) to avoid compiler warnings */ + (gsMethodTable *) _initializeMethodTable { gsMethodTable methodTable; gsMethodTable *mptr; #define GET_IMP(X) ((void*) [self instanceMethodForSelector: (X)]) /* ----------------------------------------------------------------------- */ /* Color operations */ /* ----------------------------------------------------------------------- */ methodTable.DPScurrentalpha_ = GET_IMP(@selector(DPScurrentalpha:)); methodTable.DPScurrentcmykcolor____ = GET_IMP(@selector(DPScurrentcmykcolor::::)); methodTable.DPScurrentgray_ = GET_IMP(@selector(DPScurrentgray:)); methodTable.DPScurrenthsbcolor___ = GET_IMP(@selector(DPScurrenthsbcolor:::)); methodTable.DPScurrentrgbcolor___ = GET_IMP(@selector(DPScurrentrgbcolor:::)); methodTable.DPSsetalpha_ = GET_IMP(@selector(DPSsetalpha:)); methodTable.DPSsetcmykcolor____ = GET_IMP(@selector(DPSsetcmykcolor::::)); methodTable.DPSsetgray_ = GET_IMP(@selector(DPSsetgray:)); methodTable.DPSsethsbcolor___ = GET_IMP(@selector(DPSsethsbcolor:::)); methodTable.DPSsetrgbcolor___ = GET_IMP(@selector(DPSsetrgbcolor:::)); methodTable.GSSetFillColorspace_ = GET_IMP(@selector(GSSetFillColorspace:)); methodTable.GSSetStrokeColorspace_ = GET_IMP(@selector(GSSetStrokeColorspace:)); methodTable.GSSetFillColor_ = GET_IMP(@selector(GSSetFillColor:)); methodTable.GSSetStrokeColor_ = GET_IMP(@selector(GSSetStrokeColor:)); /* ----------------------------------------------------------------------- */ /* Text operations */ /* ----------------------------------------------------------------------- */ methodTable.DPSashow___ = GET_IMP(@selector(DPSashow:::)); methodTable.DPSawidthshow______ = GET_IMP(@selector(DPSawidthshow::::::)); methodTable.DPScharpath__ = GET_IMP(@selector(DPScharpath::)); methodTable.DPSshow_ = GET_IMP(@selector(DPSshow:)); methodTable.DPSwidthshow____ = GET_IMP(@selector(DPSwidthshow::::)); methodTable.DPSxshow___ = GET_IMP(@selector(DPSxshow:::)); methodTable.DPSxyshow___ = GET_IMP(@selector(DPSxyshow:::)); methodTable.DPSyshow___ = GET_IMP(@selector(DPSyshow:::)); methodTable.GSSetCharacterSpacing_ = GET_IMP(@selector(GSSetCharacterSpacing:)); methodTable.GSSetFont_ = GET_IMP(@selector(GSSetFont:)); methodTable.GSSetFontSize_ = GET_IMP(@selector(GSSetFontSize:)); methodTable.GSGetTextCTM = GET_IMP(@selector(GSGetTextCTM)); methodTable.GSGetTextPosition = GET_IMP(@selector(GSGetTextPosition)); methodTable.GSSetTextCTM_ = GET_IMP(@selector(GSSetTextCTM:)); methodTable.GSSetTextDrawingMode_ = GET_IMP(@selector(GSSetTextDrawingMode:)); methodTable.GSSetTextPosition_ = GET_IMP(@selector(GSSetTextPosition:)); methodTable.GSShowText__ = GET_IMP(@selector(GSShowText::)); methodTable.GSShowGlyphs__ = GET_IMP(@selector(GSShowGlyphs::)); /* ----------------------------------------------------------------------- */ /* Gstate Handling */ /* ----------------------------------------------------------------------- */ methodTable.DPSgrestore = GET_IMP(@selector(DPSgrestore)); methodTable.DPSgsave = GET_IMP(@selector(DPSgsave)); methodTable.DPSinitgraphics = GET_IMP(@selector(DPSinitgraphics)); methodTable.DPSsetgstate_ = GET_IMP(@selector(DPSsetgstate:)); methodTable.GSDefineGState = GET_IMP(@selector(GSDefineGState)); methodTable.GSUndefineGState_ = GET_IMP(@selector(GSUndefineGState:)); methodTable.GSReplaceGState_ = GET_IMP(@selector(GSReplaceGState:)); /* ----------------------------------------------------------------------- */ /* Gstate operations */ /* ----------------------------------------------------------------------- */ methodTable.DPScurrentflat_ = GET_IMP(@selector(DPScurrentflat:)); methodTable.DPScurrentlinecap_ = GET_IMP(@selector(DPScurrentlinecap:)); methodTable.DPScurrentlinejoin_ = GET_IMP(@selector(DPScurrentlinejoin:)); methodTable.DPScurrentlinewidth_ = GET_IMP(@selector(DPScurrentlinewidth:)); methodTable.DPScurrentmiterlimit_ = GET_IMP(@selector(DPScurrentmiterlimit:)); methodTable.DPScurrentpoint__ = GET_IMP(@selector(DPScurrentpoint::)); methodTable.DPScurrentstrokeadjust_ = GET_IMP(@selector(DPScurrentstrokeadjust:)); methodTable.DPSsetdash___ = GET_IMP(@selector(DPSsetdash:::)); methodTable.DPSsetflat_ = GET_IMP(@selector(DPSsetflat:)); methodTable.DPSsethalftonephase__ = GET_IMP(@selector(DPSsethalftonephase::)); methodTable.DPSsetlinecap_ = GET_IMP(@selector(DPSsetlinecap:)); methodTable.DPSsetlinejoin_ = GET_IMP(@selector(DPSsetlinejoin:)); methodTable.DPSsetlinewidth_ = GET_IMP(@selector(DPSsetlinewidth:)); methodTable.DPSsetmiterlimit_ = GET_IMP(@selector(DPSsetmiterlimit:)); methodTable.DPSsetstrokeadjust_ = GET_IMP(@selector(DPSsetstrokeadjust:)); /* ----------------------------------------------------------------------- */ /* Matrix operations */ /* ----------------------------------------------------------------------- */ methodTable.DPSconcat_ = GET_IMP(@selector(DPSconcat:)); methodTable.DPSinitmatrix = GET_IMP(@selector(DPSinitmatrix)); methodTable.DPSrotate_ = GET_IMP(@selector(DPSrotate:)); methodTable.DPSscale__ = GET_IMP(@selector(DPSscale::)); methodTable.DPStranslate__ = GET_IMP(@selector(DPStranslate::)); methodTable.GSCurrentCTM = GET_IMP(@selector(GSCurrentCTM)); methodTable.GSSetCTM_ = GET_IMP(@selector(GSSetCTM:)); methodTable.GSConcatCTM_ = GET_IMP(@selector(GSConcatCTM:)); /* ----------------------------------------------------------------------- */ /* Paint operations */ /* ----------------------------------------------------------------------- */ methodTable.DPSarc_____ = GET_IMP(@selector(DPSarc:::::)); methodTable.DPSarcn_____ = GET_IMP(@selector(DPSarcn:::::)); methodTable.DPSarct_____ = GET_IMP(@selector(DPSarct:::::)); methodTable.DPSclip = GET_IMP(@selector(DPSclip)); methodTable.DPSclosepath = GET_IMP(@selector(DPSclosepath)); methodTable.DPScurveto______ = GET_IMP(@selector(DPScurveto::::::)); methodTable.DPSeoclip = GET_IMP(@selector(DPSeoclip)); methodTable.DPSeofill = GET_IMP(@selector(DPSeofill)); methodTable.DPSfill = GET_IMP(@selector(DPSfill)); methodTable.DPSflattenpath = GET_IMP(@selector(DPSflattenpath)); methodTable.DPSinitclip = GET_IMP(@selector(DPSinitclip)); methodTable.DPSlineto__ = GET_IMP(@selector(DPSlineto::)); methodTable.DPSmoveto__ = GET_IMP(@selector(DPSmoveto::)); methodTable.DPSnewpath = GET_IMP(@selector(DPSnewpath)); methodTable.DPSpathbbox____ = GET_IMP(@selector(DPSpathbbox::::)); methodTable.DPSrcurveto______ = GET_IMP(@selector(DPSrcurveto::::::)); methodTable.DPSrectclip____ = GET_IMP(@selector(DPSrectclip::::)); methodTable.DPSrectfill____ = GET_IMP(@selector(DPSrectfill::::)); methodTable.DPSrectstroke____ = GET_IMP(@selector(DPSrectstroke::::)); methodTable.DPSreversepath = GET_IMP(@selector(DPSreversepath)); methodTable.DPSrlineto__ = GET_IMP(@selector(DPSrlineto::)); methodTable.DPSrmoveto__ = GET_IMP(@selector(DPSrmoveto::)); methodTable.DPSstroke = GET_IMP(@selector(DPSstroke)); methodTable.GSSendBezierPath_ = GET_IMP(@selector(GSSendBezierPath:)); methodTable.GSRectClipList__ = GET_IMP(@selector(GSRectClipList::)); methodTable.GSRectFillList__ = GET_IMP(@selector(GSRectFillList::)); /* ----------------------------------------------------------------------- */ /* Window system ops */ /* ----------------------------------------------------------------------- */ methodTable.GSCurrentDevice___ = GET_IMP(@selector(GSCurrentDevice:::)); methodTable.DPScurrentoffset__ = GET_IMP(@selector(DPScurrentoffset::)); methodTable.GSSetDevice___ = GET_IMP(@selector(GSSetDevice:::)); methodTable.DPSsetoffset__ = GET_IMP(@selector(DPSsetoffset::)); /*-------------------------------------------------------------------------*/ /* Graphics Extensions Ops */ /*-------------------------------------------------------------------------*/ methodTable.DPScomposite________ = GET_IMP(@selector(DPScomposite::::::::)); methodTable.DPScompositerect_____ = GET_IMP(@selector(DPScompositerect:::::)); methodTable.DPSdissolve________ = GET_IMP(@selector(DPSdissolve::::::::)); methodTable.GSDrawImage__ = GET_IMP(@selector(GSDrawImage::)); /* ----------------------------------------------------------------------- */ /* Postscript Client functions */ /* ----------------------------------------------------------------------- */ methodTable.DPSPrintf__ = GET_IMP(@selector(DPSPrintf::)); methodTable.DPSWriteData__ = GET_IMP(@selector(DPSWriteData::)); /* ----------------------------------------------------------------------- */ /* NSGraphics Ops */ /* ----------------------------------------------------------------------- */ methodTable.NSReadPixel_ = GET_IMP(@selector(NSReadPixel:)); methodTable.NSBeep = GET_IMP(@selector(NSBeep)); /* Context helper wraps */ methodTable.GSWSetViewIsFlipped_ = GET_IMP(@selector(GSWSetViewIsFlipped:)); methodTable.GSWViewIsFlipped = GET_IMP(@selector(GSWViewIsFlipped)); /* * Render Bitmap Images */ methodTable.NSDrawBitmap___________ = GET_IMP(@selector(NSDrawBitmap:::::::::::)); mptr = NSZoneMalloc(_globalGSZone, sizeof(gsMethodTable)); memcpy(mptr, &methodTable, sizeof(gsMethodTable)); return mptr; } - (id) subclassResponsibility: (SEL)aSel { [NSException raise: GSWindowServerInternalException format: @"subclass %s(%s) should override %s", object_get_class_name(self), GSObjCIsInstance(self) ? "instance" : "class", sel_get_name(aSel)]; return nil; } @end /* * The 'Ops' catagory contains the methods to implement all the * PostScript functions. In this abstract class, these will all * raise an exception. Concrete instances of the NSGraphicsContext * class should override these methods in order to implement the * PostScript functions. */ @implementation NSGraphicsContext (Ops) /* ----------------------------------------------------------------------- */ /* Color operations */ /* ----------------------------------------------------------------------- */ /** Returns the current alpha component (DPS). */ - (void) DPScurrentalpha: (float *)a { [self subclassResponsibility: _cmd]; } /** Returns the current color according to the CMYK color model (DPS). */ - (void) DPScurrentcmykcolor: (float*)c : (float*)m : (float*)y : (float*)k { [self subclassResponsibility: _cmd]; } /** Returns the gray-level equivalent in the current color space. The value may depend on the current color space and may be 0 if the current color space has no notion of a gray value (DPS) */ - (void) DPScurrentgray: (float*)gray { [self subclassResponsibility: _cmd]; } /** Returns the current color according to the HSB color model (DPS). */ - (void) DPScurrenthsbcolor: (float*)h : (float*)s : (float*)b { [self subclassResponsibility: _cmd]; } /** Returns the current color according to the RGB color model (DPS). */ - (void) DPScurrentrgbcolor: (float*)r : (float*)g : (float*)b { [self subclassResponsibility: _cmd]; } /** Sets the alpha drawing component. For this and other color setting commands that have no differentiation between fill and stroke colors, both the fill and stroke alpha are set (DPS). */ - (void) DPSsetalpha: (float)a { [self subclassResponsibility: _cmd]; } /** Sets the current colorspace to Device CMYK and the current color based on the indicated values. For this and other color setting commands that have no differentiation between fill and stroke colors, both the fill and stroke colors are set (DPS). */ - (void) DPSsetcmykcolor: (float)c : (float)m : (float)y : (float)k { [self subclassResponsibility: _cmd]; } /** Sets the current colorspace to Device Gray and the current gray value (DPS). */ - (void) DPSsetgray: (float)gray { [self subclassResponsibility: _cmd]; } /** Sets the current colorspace to Device RGB and the current color based on the indicated values (DPS). */ - (void) DPSsethsbcolor: (float)h : (float)s : (float)b { [self subclassResponsibility: _cmd]; } /** Sets the current colorspace to Device RGB and the current color based on the indicated values (DPS). */ - (void) DPSsetrgbcolor: (float)r : (float)g : (float)b { [self subclassResponsibility: _cmd]; } /**

Sets the colorspace for fill operations based on values in the supplied dictionary dict.

For device colorspaces (GSDeviceGray, GSDeviceRGB, GSDeviceCMYK), only the name of the colorspace needs to be set using the GSColorSpaceName key.

Other colorspaces will be documented later (Quartz).

*/ - (void) GSSetFillColorspace: (void *)spaceref { [self subclassResponsibility: _cmd]; } /** Sets the colorspace for stroke operations based on the values in the supplied dictionary. See -GSSetFillColorspace: for a description of the values that need to be supplied (Quartz). */ - (void) GSSetStrokeColorspace: (void *)spaceref { [self subclassResponsibility: _cmd]; } /** Sets the current color for fill operations. The values array should have n components, where n corresponds to the number of color components required to specify the color in the current colorspace (Quartz). */ - (void) GSSetFillColor: (const float *)values { [self subclassResponsibility: _cmd]; } /** Sets the current color for stroke operations. The values array should have n components, where n corresponds to the number of color components required to specify the color in the current colorspace (Quartz). */ - (void) GSSetStrokeColor: (const float *)values { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Text operations */ /* ----------------------------------------------------------------------- */ /** Displays a string as in the PostScript ashow operator. This operator is obsolete. You should instead use -DPSshow: with appropriate -DPSrmoveto: operations and/or the -GSSetCharacterSpacing: method */ - (void) DPSashow: (float)x : (float)y : (const char *)s { [self subclassResponsibility: _cmd]; } /** Displays a string as in the PostScript awidthshow operator. This operator is obsolete. You should instead use -DPSshow: with appropriate -DPSrmoveto: operations and/or the -GSSetCharacterSpacing: method */ - (void) DPSawidthshow: (float)cx : (float)cy : (int)c : (float)ax : (float)ay : (const char *)s { [self subclassResponsibility: _cmd]; } /** Appends to the current path a path that is equivalent to the outlines of the glyphs in the string. This results in a path that can be used for stroking, filling or clipping (DPS). */ - (void) DPScharpath: (const char *)s : (int)b { [self subclassResponsibility: _cmd]; } /** Display the string s using the current font (DPS). */ - (void) DPSshow: (const char *)s { [self subclassResponsibility: _cmd]; } /** Displays a string as in the PostScript widthshow operator. This operator is obsolete. You should instead use -DPSshow: with appropriate -DPSrmoveto: operations. */ - (void) DPSwidthshow: (float)x : (float)y : (int)c : (const char *)s { [self subclassResponsibility: _cmd]; } /** Displays a string as in the PostScript widthshow operator. This operator is obsolete. You should instead use -DPSshow: with appropriate -DPSrmoveto: operations. */ - (void) DPSxshow: (const char *)s : (const float*)numarray : (int)size { [self subclassResponsibility: _cmd]; } /** Displays a string as in the PostScript xyshow operator. This operator is obsolete. You should instead use -DPSshow: with appropriate -DPSrmoveto: operations. */ - (void) DPSxyshow: (const char *)s : (const float*)numarray : (int)size { [self subclassResponsibility: _cmd]; } /** Displays a string as in the PostScript yshow operator. This operator is obsolete. You should instead use -DPSshow: with appropriate -DPSrmoveto: operations. */ - (void) DPSyshow: (const char *)s : (const float*)numarray : (int)size { [self subclassResponsibility: _cmd]; } /** Use this method to set the additional spacing between characters (glyphs). This spacing is added to the normal spacing for each character. Units are in text-space coordinate system. (Quartz). */ - (void) GSSetCharacterSpacing: (float)extra { [self subclassResponsibility: _cmd]; } /** Set the current font for drawing glyphs. (DPS, Quartz). */ - (void) GSSetFont: (void *)fontref { [self subclassResponsibility: _cmd]; } /** Set the font size of the current NSFont used for drawing glyphs. (DPS, Quartz). */ - (void) GSSetFontSize: (float)size { [self subclassResponsibility: _cmd]; } /**

Returns the transfer function for transforming text from text space to user space. See -GSSetTextCTM: for additiona information. (Quartz).

*/ - (NSAffineTransform *) GSGetTextCTM { [self subclassResponsibility: _cmd]; return nil; } /** Returns the location at which text will be drawn. In text-space coordinates. (Quartz). */ - (NSPoint) GSGetTextPosition { [self subclassResponsibility: _cmd]; return NSMakePoint(0,0); } /**

Set the transfer function for transforming text from text space to user space. This transform is only applied to text objects and is in addition to the normal coordinate transform matrix. When drawing text, this transform is applied before the normal CTM.

The text matrix can be changed by either modifying it directly, or just by drawing text, in which case the tx and ty offset veriables are modified to point to the location of the next character that could be rendered (Quartz).

*/ - (void) GSSetTextCTM: (NSAffineTransform *)ctm { [self subclassResponsibility: _cmd]; } /** Set the current text drawing mode. The mode can be one of several values that fill/stroke the text or add it to the current clipping path. (Quartz). */ - (void) GSSetTextDrawingMode: (GSTextDrawingMode)mode { [self subclassResponsibility: _cmd]; } /** Set the location at which text will be drawn, in text-space coordinates. This routine updates the current text coordinate matrix. (Quartz). */ - (void) GSSetTextPosition: (NSPoint)loc { [self subclassResponsibility: _cmd]; } /** Paints text represented by the characters in string in the current font. (Quartz). */ - (void) GSShowText: (const char *)string : (size_t) length { [self subclassResponsibility: _cmd]; } /** Paints the glyphs using the current font. (Quartz). */ - (void) GSShowGlyphs: (const NSGlyph *)glyphs : (size_t) length { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Gstate Handling */ /* ----------------------------------------------------------------------- */ /** Pops a previously saved gstate from the gstate stack and makes it current. Drawing information in the previously saved gstate becomes the current information. (DPS, Quartz). */ - (void) DPSgrestore { [self subclassResponsibility: _cmd]; } /** Saves (pushes) a copy of the current gstate information onto the gstate stack. This saves drawing information contained in the gstate, such as the current path, ctm and colors. (DPS, Quartz). */ - (void) DPSgsave { [self subclassResponsibility: _cmd]; } - (void) DPSinitgraphics { [self subclassResponsibility: _cmd]; } /** Makes the gstate indicated by the tag gst the current gstate. Note that the gstate is copied, so that changes to either gstate do not affect the other. (DPS, Quartz). */ - (void) DPSsetgstate: (int)gst { [self subclassResponsibility: _cmd]; } /** Creates a copy of the current gstate and associates it with a tag, which is given in the return value. This tag can later be used in -DPSsetgstate: to set the gstate as being current again. (DPS, Quartz). */ - (int) GSDefineGState { [self subclassResponsibility: _cmd]; return 0; } /** Disassociates the tag gst with it's gstate and destroys the gstate object. The tag will no longer be valid and should not be used to refer to the gstate again. (DPS, Quartz). */ - (void) GSUndefineGState: (int)gst { [self subclassResponsibility: _cmd]; } /** Replaces the gstate refered to by the tag gst with the current gstate. The former gstate is destroyed. (DPS, Quartz). */ - (void) GSReplaceGState: (int)gst { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Gstate operations */ /* ----------------------------------------------------------------------- */ /** Returns the current flattness parameter, which controls how curved lines are drawn. (DPS, Quartz). */ - (void) DPScurrentflat: (float*)flatness { [self subclassResponsibility: _cmd]; } /** Returns the current linecap value. (DPS, Quartz). */ - (void) DPScurrentlinecap: (int*)linecap { [self subclassResponsibility: _cmd]; } /** Returns the current linejoin value. (DPS, Quartz). */ - (void) DPScurrentlinejoin: (int*)linejoin { [self subclassResponsibility: _cmd]; } /** Returns the current line width. (DPS, Quartz). */ - (void) DPScurrentlinewidth: (float*)width { [self subclassResponsibility: _cmd]; } /** Returns the current linecap value. (DPS, Quartz). */ - (void) DPScurrentmiterlimit: (float*)limit { [self subclassResponsibility: _cmd]; } /** Returns the current point. (DPS, Quartz). */ - (void) DPScurrentpoint: (float*)x : (float*)y { [self subclassResponsibility: _cmd]; } /** Returns the strokeadjust value. (DPS). */ - (void) DPScurrentstrokeadjust: (int*)b { [self subclassResponsibility: _cmd]; } /** Set the pattern for line dashes like the Postscript setdash operator. (DPS, Quartz). */ - (void) DPSsetdash: (const float*)pat : (int)size : (float)offset { [self subclassResponsibility: _cmd]; } /** Sets the current flattness parameter, which controls how curved lines are drawn. (DPS, Quartz). */ - (void) DPSsetflat: (float)flatness { [self subclassResponsibility: _cmd]; } - (void) DPSsethalftonephase: (float)x : (float)y { [self subclassResponsibility: _cmd]; } /** Set the current linecap value. (DPS, Quartz). */ - (void) DPSsetlinecap: (int)linecap { [self subclassResponsibility: _cmd]; } /** Set the current linejoin value. (DPS, Quartz). */ - (void) DPSsetlinejoin: (int)linejoin { [self subclassResponsibility: _cmd]; } /** Set the current line width. (DPS, Quartz). */ - (void) DPSsetlinewidth: (float)width { [self subclassResponsibility: _cmd]; } /** Set the current meter limit value. (DPS, Quartz). */ - (void) DPSsetmiterlimit: (float)limit { [self subclassResponsibility: _cmd]; } - (void) DPSsetstrokeadjust: (int)b { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Matrix operations */ /* ----------------------------------------------------------------------- */ /** Concatenates the coordinate transform represented by the matrix m with the current coordinate transform. (DPS). */ - (void) DPSconcat: (const float*)m { [self subclassResponsibility: _cmd]; } /** Sets the coordinate transform matrix to the initial values for the particular context */ - (void) DPSinitmatrix { [self subclassResponsibility: _cmd]; } /** Rotate the coordinate system. (DPS). */ - (void) DPSrotate: (float)angle { [self subclassResponsibility: _cmd]; } /** Scale the coordinate system. (DPS). */ - (void) DPSscale: (float)x : (float)y { [self subclassResponsibility: _cmd]; } /** Translate the coordinate system. (DPS). */ - (void) DPStranslate: (float)x : (float)y { [self subclassResponsibility: _cmd]; } /** Returns the current coordinate transform matrix. (Quartz). */ - (NSAffineTransform *) GSCurrentCTM { [self subclassResponsibility: _cmd]; return nil; } /** Sets the coordinate transform matrix which describes how graphics will be transformed into device coordinates. (Quartz). */ - (void) GSSetCTM: (NSAffineTransform *)ctm { [self subclassResponsibility: _cmd]; } /** Concatenates the matrix ctm onto the current coordinate transform matrix. (Quartz). */ - (void) GSConcatCTM: (NSAffineTransform *)ctm { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Paint operations */ /* ----------------------------------------------------------------------- */ - (void) DPSarc: (float)x : (float)y : (float)r : (float)angle1 : (float)angle2 { [self subclassResponsibility: _cmd]; } - (void) DPSarcn: (float)x : (float)y : (float)r : (float)angle1 : (float)angle2 { [self subclassResponsibility: _cmd]; } - (void) DPSarct: (float)x1 : (float)y1 : (float)x2 : (float)y2 : (float)r { [self subclassResponsibility: _cmd]; } /** Clip to the current path. (DPS, Quartz). */ - (void) DPSclip { [self subclassResponsibility: _cmd]; } - (void) DPSclosepath { [self subclassResponsibility: _cmd]; } - (void) DPScurveto: (float)x1 : (float)y1 : (float)x2 : (float)y2 : (float)x3 : (float)y3 { [self subclassResponsibility: _cmd]; } - (void) DPSeoclip { [self subclassResponsibility: _cmd]; } - (void) DPSeofill { [self subclassResponsibility: _cmd]; } /** Fill the current path. (DPS, Quartz). */ - (void) DPSfill { [self subclassResponsibility: _cmd]; } - (void) DPSflattenpath { [self subclassResponsibility: _cmd]; } - (void) DPSinitclip { [self subclassResponsibility: _cmd]; } - (void) DPSlineto: (float)x : (float)y { [self subclassResponsibility: _cmd]; } - (void) DPSmoveto: (float)x : (float)y { [self subclassResponsibility: _cmd]; } - (void) DPSnewpath { [self subclassResponsibility: _cmd]; } - (void) DPSpathbbox: (float*)llx : (float*)lly : (float*)urx : (float*)ury { [self subclassResponsibility: _cmd]; } - (void) DPSrcurveto: (float)x1 : (float)y1 : (float)x2 : (float)y2 : (float)x3 : (float)y3 { [self subclassResponsibility: _cmd]; } - (void) DPSrectclip: (float)x : (float)y : (float)w : (float)h { [self subclassResponsibility: _cmd]; } - (void) DPSrectfill: (float)x : (float)y : (float)w : (float)h { [self subclassResponsibility: _cmd]; } - (void) DPSrectstroke: (float)x : (float)y : (float)w : (float)h { [self subclassResponsibility: _cmd]; } - (void) DPSreversepath { [self subclassResponsibility: _cmd]; } - (void) DPSrlineto: (float)x : (float)y { [self subclassResponsibility: _cmd]; } - (void) DPSrmoveto: (float)x : (float)y { [self subclassResponsibility: _cmd]; } - (void) DPSstroke { [self subclassResponsibility: _cmd]; } /** Set the bezier path as the current path */ - (void) GSSendBezierPath: (NSBezierPath *)path { NSBezierPathElement type; NSPoint pts[3]; int i, count; float pattern[10]; float phase; DPSnewpath(self); DPSsetlinewidth(self, [path lineWidth]); DPSsetlinejoin(self, [path lineJoinStyle]); DPSsetlinecap(self, [path lineCapStyle]); DPSsetmiterlimit(self, [path miterLimit]); DPSsetflat(self, [path flatness]); [path getLineDash: pattern count: &count phase: &phase]; // Always sent the dash pattern. When NULL this will reset to a solid line. DPSsetdash(self, pattern, count, phase); count = [path elementCount]; for(i = 0; i < count; i++) { type = [path elementAtIndex: i associatedPoints: pts]; switch(type) { case NSMoveToBezierPathElement: DPSmoveto(self, pts[0].x, pts[0].y); break; case NSLineToBezierPathElement: DPSlineto(self, pts[0].x, pts[0].y); break; case NSCurveToBezierPathElement: DPScurveto(self, pts[0].x, pts[0].y, pts[1].x, pts[1].y, pts[2].x, pts[2].y); break; case NSClosePathBezierPathElement: DPSclosepath(self); break; default: break; } } } /** Append the array of rects to the current clip path (DPS, Quartz). */ - (void) GSRectClipList: (const NSRect *)rects : (int) count { [self subclassResponsibility: _cmd]; } /** Draw and fill the array of rects. (DPS, Quartz) */ - (void) GSRectFillList: (const NSRect *)rects : (int) count { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Window system ops */ /* ----------------------------------------------------------------------- */ /** This is a private method used between the window server and the context. It should not be used in any application. Typically used by the window server to find out what window the context is drawing graphics to. The device pointer is an opaque type that contains information about the window. The x and y pointers indicate the offset of the origin of the window from the lower left-hand corner */ - (void) GSCurrentDevice: (void **)device : (int *)x : (int *)y { [self subclassResponsibility: _cmd]; } - (void) DPScurrentoffset: (int *)x : (int *)y { [self subclassResponsibility: _cmd]; } /** This is a private method used between the window server and the context. It should not be used in any application. Typically called by the window server to tell the context what window it should draw graphics to. The device pointer is an opaque type that contains information about the window. The x and y values tell the context that it should put the origin of the transform matrix at the indicated x and y values from the lower left-hand corner of the window */ - (void) GSSetDevice: (void *)device : (int)x : (int)y { [self subclassResponsibility: _cmd]; } - (void) DPSsetoffset: (short int)x : (short int)y { [self subclassResponsibility: _cmd]; } /*-------------------------------------------------------------------------*/ /* Graphics Extension Ops */ /*-------------------------------------------------------------------------*/ - (void) DPScomposite: (float)x : (float)y : (float)w : (float)h : (int)gstateNum : (float)dx : (float)dy : (int)op { [self subclassResponsibility: _cmd]; } - (void) DPScompositerect: (float)x : (float)y : (float)w : (float)h : (int)op { [self subclassResponsibility: _cmd]; } - (void) DPSdissolve: (float)x : (float)y : (float)w : (float)h : (int)gstateNum : (float)dx : (float)dy : (float)delta { [self subclassResponsibility: _cmd]; } /** Generic method to draw an image into a rect. The image is defined by imageref, an opaque structure. Support for this method hasn't been implemented yet, so it should not be used anywhere. */ - (void) GSDrawImage: (NSRect) rect: (void *) imageref { [self subclassResponsibility: _cmd]; } /* ----------------------------------------------------------------------- */ /* Client functions */ /* ----------------------------------------------------------------------- */ /** Write the string (with printf substitutions) to a PostScript context. Other output contexts will likely ignore this */ - (void) DPSPrintf: (const char *)fmt : (va_list)args { [self subclassResponsibility: _cmd]; } /** Write the encoded data to a PostScript context. Other output contexts will likely ignore this */ - (void) DPSWriteData: (const char *)buf : (unsigned int)count { [self subclassResponsibility: _cmd]; } @end #include /* ----------------------------------------------------------------------- */ /* NSGraphics Ops */ /* ----------------------------------------------------------------------- */ @implementation NSGraphicsContext (NSGraphics) /** Read the Color at a Screen Position */ - (NSColor *) NSReadPixel: (NSPoint) location { [self subclassResponsibility: _cmd]; return nil; } /** Generic method to render bitmap images. This method shouldn't be used anywhere except in the AppKit itself. It will be replaced by the more flexible GSDrawImage method sometime in the future. (Quartz). */ - (void) NSDrawBitmap: (NSRect) rect : (int) pixelsWide : (int) pixelsHigh : (int) bitsPerSample : (int) samplesPerPixel : (int) bitsPerPixel : (int) bytesPerRow : (BOOL) isPlanar : (BOOL) hasAlpha : (NSString *) colorSpaceName : (const unsigned char *const [5]) data { [self subclassResponsibility: _cmd]; } /** Play the System Beep */ - (void) NSBeep { [GSCurrentServer() beep]; } /** This method is used by the backend, but has been rendered obsolete. Do not use it in any code or in any backend implementation as it may disappear at any point. */ - (void) GSWSetViewIsFlipped: (BOOL) flipped { } /** Returns YES if the current focused view is flipped. This is an obsolete method. Use [[NSView focusView] isFlipped] instead */ - (BOOL) GSWViewIsFlipped { return [[self focusView] isFlipped]; } @end