/* Image support for the NeXT/Open/GNUstep and macOS window system. Copyright (C) 1989, 1992-1994, 2005-2006, 2008-2017 Free Software Foundation, Inc. This file is part of GNU Emacs. GNU Emacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. GNU Emacs 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs. If not, see . */ /* Originally by Carl Edman Updated by Christian Limpach (chris@nice.ch) OpenStep/Rhapsody port by Scott Bender (sbender@harmony-ds.com) macOS/Aqua port by Christophe de Dinechin (descubes@earthlink.net) GNUstep port and post-20 update by Adrian Robert (arobert@cogsci.ucsd.edu) */ /* This should be the first include, as it may set up #defines affecting interpretation of even the system includes. */ #include #include "lisp.h" #include "dispextern.h" #include "nsterm.h" #include "frame.h" #include "coding.h" /* ========================================================================== C interface. This allows easy calling from C files. We could just compile everything as Objective-C, but that might mean slower compilation and possible difficulties on some platforms.. ========================================================================== */ void * ns_image_from_XBM (char *bits, int width, int height, unsigned long fg, unsigned long bg) { NSTRACE ("ns_image_from_XBM"); return [[EmacsImage alloc] initFromXBM: (unsigned char *) bits width: width height: height fg: fg bg: bg]; } void * ns_image_for_XPM (int width, int height, int depth) { NSTRACE ("ns_image_for_XPM"); return [[EmacsImage alloc] initForXPMWithDepth: depth width: width height: height]; } void * ns_image_from_file (Lisp_Object file) { NSTRACE ("ns_image_from_file"); return [EmacsImage allocInitFromFile: file]; } bool ns_load_image (struct frame *f, struct image *img, Lisp_Object spec_file, Lisp_Object spec_data) { EmacsImage *eImg = nil; NSSize size; NSTRACE ("ns_load_image"); if (STRINGP (spec_file)) { eImg = [EmacsImage allocInitFromFile: spec_file]; } else if (STRINGP (spec_data)) { NSData *data; data = [NSData dataWithBytes: SSDATA (spec_data) length: SBYTES (spec_data)]; eImg = [[EmacsImage alloc] initWithData: data]; [eImg setPixmapData]; } if (eImg == nil) { add_to_log ("Unable to load image %s", img->spec); return 0; } size = [eImg size]; img->width = size.width; img->height = size.height; /* 4) set img->pixmap = emacsimage */ img->pixmap = eImg; return 1; } int ns_image_width (void *img) { return [(id)img size].width; } int ns_image_height (void *img) { return [(id)img size].height; } unsigned long ns_get_pixel (void *img, int x, int y) { return [(EmacsImage *)img getPixelAtX: x Y: y]; } void ns_put_pixel (void *img, int x, int y, unsigned long argb) { unsigned char alpha = (argb >> 24) & 0xFF; if (alpha == 0) alpha = 0xFF; [(EmacsImage *)img setPixelAtX: x Y: y toRed: (argb >> 16) & 0xFF green: (argb >> 8) & 0xFF blue: (argb & 0xFF) alpha: alpha]; } void ns_set_alpha (void *img, int x, int y, unsigned char a) { [(EmacsImage *)img setAlphaAtX: x Y: y to: a]; } /* ========================================================================== Class supporting bitmaps and images of various sorts. ========================================================================== */ @implementation EmacsImage + allocInitFromFile: (Lisp_Object)file { NSImageRep *imgRep; Lisp_Object found; EmacsImage *image; /* Search bitmap-file-path for the file, if appropriate. */ found = x_find_image_file (file); if (!STRINGP (found)) return nil; found = ENCODE_FILE (found); image = [[EmacsImage alloc] initByReferencingFile: [NSString stringWithUTF8String: SSDATA (found)]]; image->bmRep = nil; #ifdef NS_IMPL_COCOA imgRep = [NSBitmapImageRep imageRepWithData:[image TIFFRepresentation]]; #else imgRep = [image bestRepresentationForDevice: nil]; #endif if (imgRep == nil) { [image release]; return nil; } [image setSize: NSMakeSize([imgRep pixelsWide], [imgRep pixelsHigh])]; [image setName: [NSString stringWithUTF8String: SSDATA (file)]]; return image; } - (void)dealloc { [stippleMask release]; [bmRep release]; [super dealloc]; } /* Create image from monochrome bitmap. If both FG and BG are 0 (black), set the background to white and make it transparent. */ - initFromXBM: (unsigned char *)bits width: (int)w height: (int)h fg: (unsigned long)fg bg: (unsigned long)bg { unsigned char *planes[5]; unsigned char bg_alpha = 0xff; [self initWithSize: NSMakeSize (w, h)]; bmRep = [[NSBitmapImageRep alloc] initWithBitmapDataPlanes: NULL pixelsWide: w pixelsHigh: h bitsPerSample: 8 samplesPerPixel: 4 hasAlpha: YES isPlanar: YES colorSpaceName: NSCalibratedRGBColorSpace bytesPerRow: w bitsPerPixel: 0]; [bmRep getBitmapDataPlanes: planes]; if (fg == 0 && bg == 0) { bg = 0xffffff; bg_alpha = 0; } { /* pull bits out to set the (bytewise) alpha mask */ int i, j, k; unsigned char *s = bits; unsigned char *rr = planes[0]; unsigned char *gg = planes[1]; unsigned char *bb = planes[2]; unsigned char *alpha = planes[3]; unsigned char fgr = (fg >> 16) & 0xff; unsigned char fgg = (fg >> 8) & 0xff; unsigned char fgb = fg & 0xff; unsigned char bgr = (bg >> 16) & 0xff; unsigned char bgg = (bg >> 8) & 0xff; unsigned char bgb = bg & 0xff; unsigned char c; int idx = 0; for (j = 0; j < h; ++j) for (i = 0; i < w; ) { c = *s++; for (k = 0; i < w && k < 8; ++k, ++i) { if (c & 0x80) { *rr++ = fgr; *gg++ = fgg; *bb++ = fgb; *alpha++ = 0xff; } else { *rr++ = bgr; *gg++ = bgg; *bb++ = bgb; *alpha++ = bg_alpha; } idx++; c <<= 1; } } } xbm_fg = fg; [self addRepresentation: bmRep]; return self; } /* Set color for a bitmap image. */ - setXBMColor: (NSColor *)color { NSSize s = [self size]; unsigned char *planes[5]; EmacsCGFloat r, g, b, a; NSColor *rgbColor; if (bmRep == nil || color == nil) return self; if ([color colorSpaceName] != NSCalibratedRGBColorSpace) rgbColor = [color colorUsingColorSpaceName: NSCalibratedRGBColorSpace]; else rgbColor = color; [rgbColor getRed: &r green: &g blue: &b alpha: &a]; [bmRep getBitmapDataPlanes: planes]; { int i, len = s.width*s.height; int rr = r * 0xff, gg = g * 0xff, bb = b * 0xff; unsigned char fgr = (xbm_fg >> 16) & 0xff; unsigned char fgg = (xbm_fg >> 8) & 0xff; unsigned char fgb = xbm_fg & 0xff; for (i = 0; i < len; ++i) if (planes[0][i] == fgr && planes[1][i] == fgg && planes[2][i] == fgb) { planes[0][i] = rr; planes[1][i] = gg; planes[2][i] = bb; } xbm_fg = ((rr << 16) & 0xff) + ((gg << 8) & 0xff) + (bb & 0xff); } return self; } - initForXPMWithDepth: (int)depth width: (int)width height: (int)height { NSSize s = {width, height}; int i; [self initWithSize: s]; bmRep = [[NSBitmapImageRep alloc] initWithBitmapDataPlanes: NULL pixelsWide: width pixelsHigh: height /* keep things simple for now */ bitsPerSample: 8 samplesPerPixel: 4 /*RGB+A*/ hasAlpha: YES isPlanar: YES colorSpaceName: NSCalibratedRGBColorSpace bytesPerRow: width bitsPerPixel: 0]; [bmRep getBitmapDataPlanes: pixmapData]; for (i =0; i<4; i++) memset (pixmapData[i], 0, width*height); [self addRepresentation: bmRep]; return self; } /* attempt to pull out pixmap data from a BitmapImageRep; returns NO if fails */ - (void) setPixmapData { NSEnumerator *reps; NSImageRep *rep; reps = [[self representations] objectEnumerator]; while ((rep = (NSImageRep *) [reps nextObject])) { if ([rep respondsToSelector: @selector (getBitmapDataPlanes:)]) { NSBitmapImageRep *bmr = (NSBitmapImageRep *) rep; if ([bmr numberOfPlanes] >= 3) [bmr getBitmapDataPlanes: pixmapData]; [self setSize: NSMakeSize([bmr pixelsWide], [bmr pixelsHigh])]; break; } } } /* note; this and next work only for image created with initForXPMWithDepth, initFromSkipXBM, or where setPixmapData was called successfully */ /* return ARGB */ - (unsigned long) getPixelAtX: (int)x Y: (int)y { if (bmRep == nil) return 0; /* this method is faster but won't work for bitmaps */ if (pixmapData[0] != NULL) { int loc = x + y * [self size].width; return (pixmapData[3][loc] << 24) /* alpha */ | (pixmapData[0][loc] << 16) | (pixmapData[1][loc] << 8) | (pixmapData[2][loc]); } else { NSColor *color = [bmRep colorAtX: x y: y]; EmacsCGFloat r, g, b, a; [color getRed: &r green: &g blue: &b alpha: &a]; return ((int)(a * 255.0) << 24) | ((int)(r * 255.0) << 16) | ((int)(g * 255.0) << 8) | ((int)(b * 255.0)); } } - (void) setPixelAtX: (int)x Y: (int)y toRed: (unsigned char)r green: (unsigned char)g blue: (unsigned char)b alpha:(unsigned char)a; { if (bmRep == nil) return; if (pixmapData[0] != NULL) { int loc = x + y * [self size].width; pixmapData[0][loc] = r; pixmapData[1][loc] = g; pixmapData[2][loc] = b; pixmapData[3][loc] = a; } else { [bmRep setColor: [NSColor colorWithCalibratedRed: (r/255.0) green: (g/255.0) blue: (b/255.0) alpha: (a/255.0)] atX: x y: y]; } } - (void) setAlphaAtX: (int) x Y: (int) y to: (unsigned char) a { if (bmRep == nil) return; if (pixmapData[0] != NULL) { int loc = x + y * [self size].width; pixmapData[3][loc] = a; } else { NSColor *color = [bmRep colorAtX: x y: y]; color = [color colorWithAlphaComponent: (a / 255.0)]; [bmRep setColor: color atX: x y: y]; } } /* returns a pattern color, which is cached here */ - (NSColor *)stippleMask { if (stippleMask == nil) stippleMask = [[NSColor colorWithPatternImage: self] retain]; return stippleMask; } @end