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authorculler <culler>2021-06-03 13:50:11 (GMT)
committerculler <culler>2021-06-03 13:50:11 (GMT)
commit24ff36afc315a7c70c061bdc235bc26796f7ed90 (patch)
tree44fcaf3776da8704b82eacf3ad280e00c4bdbcb0 /macosx/tkMacOSXImage.c
parent7e5b4c8530c66c478348ac66e9c508c8e5d6b9d3 (diff)
parent557835b8a7fa7213cf50db5c8a56a40a039fe08f (diff)
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Fix [4401d32fb7]: clean up code that deals with Aqua pixel formats. Makes -format window work again in TkImg.
Diffstat (limited to 'macosx/tkMacOSXImage.c')
-rw-r--r--macosx/tkMacOSXImage.c268
1 files changed, 176 insertions, 92 deletions
diff --git a/macosx/tkMacOSXImage.c b/macosx/tkMacOSXImage.c
index c37ca04..97d9ce7 100644
--- a/macosx/tkMacOSXImage.c
+++ b/macosx/tkMacOSXImage.c
@@ -6,7 +6,7 @@
* Copyright (c) 1995-1997 Sun Microsystems, Inc.
* Copyright (c) 2001-2009, Apple Inc.
* Copyright (c) 2005-2009 Daniel A. Steffen <das@users.sourceforge.net>
- * Copyright (c) 2017-2020 Marc Culler.
+ * Copyright (c) 2017-2021 Marc Culler.
*
* See the file "license.terms" for information on usage and redistribution
* of this file, and for a DISCLAIMER OF ALL WARRANTIES.
@@ -19,6 +19,71 @@ static CGImageRef CreateCGImageFromPixmap(Drawable pixmap);
static CGImageRef CreateCGImageFromDrawableRect( Drawable drawable,
int x, int y, unsigned int width, unsigned int height);
+/* Pixel formats
+ *
+ * Tk uses the XImage structure defined in Xlib.h for storing images. The
+ * image data in an XImage is a 32-bit aligned array of bytes. Interpretation
+ * of that data is not specified, but the structure includes parameters which
+ * provide interpretation hints so that an application can use a family of
+ * different data structures.
+ *
+ * The possible values for the XImage format field are XYBitmap, XYPixmap and
+ * ZPixmap. The macOS port does not support the XYPixmap format. This means
+ * that bitmap images are stored as a single bit plane (XYBitmap) and that
+ * color images are stored as a sequence of pixel values (ZPixmap).
+ *
+ * For a ZPixmap, the number of bits allocated to each pixel is specified by
+ * the bits_per_pixel field of the XImage structure. The functions in this
+ * module which convert between XImage and native CGImage or NSImage structures
+ * only support XImages with 32 bits per pixel. The ImageGetPixel and PutPixel
+ * implementations in this file allow 1, 4, 8, 16 or 32 bits per pixel, however.
+ *
+ * In tkImgPhInstance.c the layout used for pixels is determined by the values
+ * of the red_mask, blue_mask and green_mask fields in the XImage structure.
+ * The Aqua port always sets red_mask = 0xFF0000, green_mask = 0xFF00, and
+ * blue_mask = 0xFF. This means that a 32bpp ZPixmap XImage uses ARGB32 pixels,
+ * with small-endian byte order BGRA. The data array for such an XImage can be
+ * passed directly to construct a CGBitmapImageRep if one specifies the
+ * bitmapInfo as kCGBitmapByteOrder32Big | kCGImageAlphaLast.
+ *
+ * The structures below describe the bitfields in two common 32 bpp pixel
+ * layouts. Note that bit field layouts are compiler dependent. The layouts
+ * shown in the comments are those produced by clang and gcc. Also note
+ * that kCGBitmapByteOrder32Big is consistently set when creating CGImages or
+ * CGImageBitmapReps.
+ */
+
+/* RGBA32 0xRRGGBBAA (Byte order is RGBA on big-endian systems.)
+ * This is used by NSBitmapImageRep when the bitmapFormat property is 0,
+ * the default value.
+ */
+
+typedef struct RGBA32pixel_t {
+ unsigned red: 8;
+ unsigned green: 8;
+ unsigned blue: 8;
+ unsigned alpha: 8;
+} RGBA32pixel;
+
+/*
+ * ARGB32 0xAARRGGBB (Byte order is ARGB on big-endian systems.)
+ * This is used by Aqua Tk for XImages and by NSBitmapImageReps whose
+ * bitmapFormat property is NSBitmapFormatAlphaFirst.
+ */
+
+typedef struct ARGB32pixel_t {
+ unsigned blue: 8;
+ unsigned green: 8;
+ unsigned red: 8;
+ unsigned alpha: 8;
+} ARGB32pixel;
+
+typedef union pixel32_t {
+ unsigned int uint;
+ RGBA32pixel rgba;
+ ARGB32pixel argb;
+} pixel32;
+
#pragma mark XImage handling
int
@@ -116,9 +181,7 @@ TkMacOSXCreateCGImageWithXImage(
}
bitsPerComponent = 8;
bitsPerPixel = 32;
- bitmapInfo = (image->byte_order == MSBFirst ?
- kCGBitmapByteOrder32Little : kCGBitmapByteOrder32Big);
- bitmapInfo |= alphaInfo;
+ bitmapInfo = kCGBitmapByteOrder32Big | alphaInfo;
data = (char *)memcpy(ckalloc(len), image->data + image->xoffset, len);
if (data) {
provider = CGDataProviderCreateWithData(data, data, len,
@@ -208,14 +271,12 @@ ImageGetPixel(
switch (image->bits_per_pixel) {
case 32: /* 8 bits per channel */
- r = (*((unsigned int*) srcPtr) >> 16) & 0xff;
- g = (*((unsigned int*) srcPtr) >> 8) & 0xff;
- b = (*((unsigned int*) srcPtr) ) & 0xff;
- /*if (image->byte_order == LSBFirst) {
- r = srcPtr[2]; g = srcPtr[1]; b = srcPtr[0];
- } else {
- r = srcPtr[1]; g = srcPtr[2]; b = srcPtr[3];
- }*/
+ {
+ ARGB32pixel *pixel = (ARGB32pixel *)srcPtr;
+ r = pixel->red;
+ g = pixel->green;
+ b = pixel->blue;
+ }
break;
case 16: /* 5 bits per channel */
r = (*((unsigned short*) srcPtr) >> 7) & 0xf8;
@@ -252,7 +313,10 @@ ImageGetPixel(
*
* ImagePutPixel --
*
- * Set a single pixel in an image.
+ * Set a single pixel in an image. The pixel is provided as an unsigned
+ * 32-bit integer. The value of that integer is interpreted by assuming
+ * that its low-order N bits have the format specified by the XImage,
+ * where N is equal to the bits_per_pixel field of the XImage.
*
* Results:
* None.
@@ -278,27 +342,20 @@ ImagePutPixel(
if (image->bits_per_pixel == 32) {
*((unsigned int*) dstPtr) = pixel;
} else {
- unsigned char r = ((pixel & image->red_mask) >> 16) & 0xff;
- unsigned char g = ((pixel & image->green_mask) >> 8) & 0xff;
- unsigned char b = ((pixel & image->blue_mask) ) & 0xff;
switch (image->bits_per_pixel) {
case 16:
- *((unsigned short*) dstPtr) = ((r & 0xf8) << 7) |
- ((g & 0xf8) << 2) | ((b & 0xf8) >> 3);
+ *((unsigned short*) dstPtr) = pixel & 0xffff;
break;
case 8:
- *dstPtr = ((r & 0xc0) >> 2) | ((g & 0xc0) >> 4) |
- ((b & 0xc0) >> 6);
+ *dstPtr = pixel & 0xff;
break;
case 4: {
- unsigned char c = ((r & 0x80) >> 5) | ((g & 0x80) >> 6) |
- ((b & 0x80) >> 7);
- *dstPtr = (x % 2) ? ((*dstPtr & 0xf0) | (c & 0x0f)) :
- ((*dstPtr & 0x0f) | ((c << 4) & 0xf0));
+ *dstPtr = (x % 2) ? ((*dstPtr & 0xf0) | (pixel & 0x0f)) :
+ ((*dstPtr & 0x0f) | ((pixel << 4) & 0xf0));
break;
}
case 1:
- *dstPtr = ((r|g|b) & 0x80) ? (*dstPtr | (0x80 >> (x % 8))) :
+ *dstPtr = pixel ? (*dstPtr | (0x80 >> (x % 8))) :
(*dstPtr & ~(0x80 >> (x % 8)));
break;
}
@@ -421,10 +478,8 @@ XCreateImage(
*----------------------------------------------------------------------
*/
-#define PIXEL_RGBA kCGImageAlphaLast
-#define PIXEL_ARGB kCGImageAlphaFirst
-#define PIXEL_XRGB kCGImageAlphaNoneSkipFirst
-#define PIXEL_RGBX kCGImageAlphaNoneSkipLast
+#define USE_ALPHA kCGImageAlphaLast
+#define IGNORE_ALPHA kCGImageAlphaNoneSkipLast
static int
TkMacOSXPutImage(
@@ -478,27 +533,51 @@ TkMacOSXPutImage(
return result;
}
-int XPutImage(Display* display, Drawable drawable, GC gc, XImage* image,
- int src_x, int src_y, int dest_x, int dest_y,
- unsigned int width, unsigned int height) {
- return TkMacOSXPutImage(PIXEL_RGBX, display, drawable, gc, image,
+int XPutImage(
+ Display* display,
+ Drawable drawable,
+ GC gc,
+ XImage* image,
+ int src_x,
+ int src_y,
+ int dest_x,
+ int dest_y,
+ unsigned int width,
+ unsigned int height) {
+ return TkMacOSXPutImage(IGNORE_ALPHA, display, drawable, gc, image,
src_x, src_y, dest_x, dest_y, width, height);
}
-int TkPutImage(unsigned long *colors, int ncolors, Display* display,
- Drawable drawable, GC gc, XImage* image,
- int src_x, int src_y, int dest_x, int dest_y,
- unsigned int width, unsigned int height) {
- return TkMacOSXPutImage(PIXEL_RGBX, display, drawable, gc, image,
+int TkPutImage(
+ TCL_UNUSED(unsigned long *),
+ TCL_UNUSED(int),
+ Display* display,
+ Drawable drawable,
+ GC gc,
+ XImage* image,
+ int src_x,
+ int src_y,
+ int dest_x,
+ int dest_y,
+ unsigned int width,
+ unsigned int height) {
+ return TkMacOSXPutImage(IGNORE_ALPHA, display, drawable, gc, image,
src_x, src_y, dest_x, dest_y, width, height);
}
-int TkpPutRGBAImage(Display* display,
- Drawable drawable, GC gc, XImage* image,
- int src_x, int src_y, int dest_x, int dest_y,
- unsigned int width, unsigned int height) {
- return TkMacOSXPutImage(PIXEL_RGBA, display, drawable, gc, image,
- src_x, src_y, dest_x, dest_y, width, height);
+int TkpPutRGBAImage(
+ Display* display,
+ Drawable drawable,
+ GC gc,
+ XImage* image,
+ int src_x,
+ int src_y,
+ int dest_x,
+ int dest_y,
+ unsigned int width,
+ unsigned int height) {
+ return TkMacOSXPutImage(USE_ALPHA, display, drawable, gc, image,
+ src_x, src_y, dest_x, dest_y, width, height);
}
@@ -507,33 +586,40 @@ int TkpPutRGBAImage(Display* display,
*
* CreateCGImageFromDrawableRect
*
- * Extract image data from a MacOSX drawable as a CGImage.
+ * Extract image data from a MacOSX drawable as a CGImage. The drawable
+ * may be either a pixmap or a window, but there issues in the case of
+ * a window.
*
- * This is only called by XGetImage and XCopyArea. The Tk core uses
- * these functions on some platforms, but on macOS the core does not
- * call them with a source drawable which is a window. Such calls are
- * used only for double-buffered drawing. Since macOS defines the
- * macro TK_NO_DOUBLE_BUFFERING, the generic code never calls XGetImage
- * or XCopyArea on macOS. Nonetheless, these function are in the stubs
- * table and therefore could be used by extensions.
+ * CreateCGImageFromDrawableRect is called by XGetImage and XCopyArea.
+ * The Tk core uses these two functions on some platforms in order to
+ * implement explicit double-buffered drawing -- a pixmap is copied from a
+ * window, modified using CPU-based graphics composition, and then copied
+ * back to the window. Platforms, such as macOS, on which the system
+ * provides double-buffered drawing and GPU-based composition operations
+ * can avoid calls to XGetImage and XCopyArea from the core by defining
+ * the compile-time variable TK_NO_DOUBLE_BUFFERING. Nonetheless, these
+ * two functions are in the stubs table and therefore could be used by
+ * extensions.
*
- * This implementation does not work correctly. Originally it relied on
+ * The implementation here does not always work correctly when the source
+ * is a window. The original version of this function relied on
* [NSBitmapImageRep initWithFocusedViewRect:view_rect] which was
* deprecated by Apple in OSX 10.14 and also required the use of other
* deprecated functions such as [NSView lockFocus]. Apple's suggested
* replacement is [NSView cacheDisplayInRect: toBitmapImageRep:] and that
- * is what is being used here. However, that method only works when the
- * view has a valid CGContext, and a view is only guaranteed to have a
- * valid context during a call to [NSView drawRect]. To further complicate
- * matters, cacheDisplayInRect calls [NSView drawRect]. Essentially it is
- * asking the view to draw a subrectangle of itself using a special
- * graphics context which is linked to the BitmapImageRep. But our
- * implementation of [NSView drawRect] does not allow recursive calls. If
- * called recursively it returns immediately without doing any drawing.
- * So the bottom line is that this function either returns a NULL pointer
- * or a black image. To make it useful would require a significant amount
- * of rewriting of the drawRect method. Perhaps the next release of OSX
- * will include some more helpful ways of doing this.
+ * is being used here. However, cacheDisplayInRect works by calling
+ * [NSView drawRect] after setting the current graphics context to be one
+ * which draws to a bitmap. There are situations in which this can be
+ * used, e.g. when taking a screenshot of a window. But it cannot be used
+ * as part of a normal display procedure, using the copy-modify-paste
+ * paradigm that is the basis of the explicit double-buffering. Since the
+ * copy operation will call the same display procedure that is calling
+ * this function via XGetImage or XCopyArea, this would create an infinite
+ * recursion.
+ *
+ * An alternative to the copy-modify-paste paradigm is to use GPU-based
+ * graphics composition, clipping to the specified rectangle. That is
+ * the approach that must be followed by display procedures on macOS.
*
* Results:
* Returns an NSBitmapRep representing the image of the given rectangle of
@@ -583,7 +669,8 @@ CreateCGImageFromDrawableRect(
CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();
cg_context = CGBitmapContextCreate(imageData, view_width, view_height,
bitsPerComponent, bytesPerRow, colorSpace,
- kCGImageAlphaPremultipliedLast | kCGBitmapByteOrder32Big);
+ kCGImageAlphaPremultipliedLast |
+ kCGBitmapByteOrder32Big);
CFRelease(colorSpace);
[view.layer renderInContext:cg_context];
}
@@ -650,9 +737,6 @@ CreateCGImageFromPixmap(
*
*----------------------------------------------------------------------
*/
-struct pixel_fmt {int r; int g; int b; int a;};
-static const struct pixel_fmt bgra = {2, 1, 0, 3};
-static const struct pixel_fmt abgr = {3, 2, 1, 0};
XImage *
XGetImage(
@@ -669,7 +753,6 @@ XGetImage(
NSUInteger bitmap_fmt = 0;
XImage* imagePtr = NULL;
char *bitmap = NULL;
- char R, G, B, A;
int depth = 32, offset = 0, bitmap_pad = 0;
unsigned int bytes_per_row, size, row, n, m;
@@ -692,12 +775,11 @@ XGetImage(
size = [bitmapRep bytesPerPlane];
bytes_per_row = [bitmapRep bytesPerRow];
bitmap = (char *)ckalloc(size);
- if (!bitmap
- || (bitmap_fmt != 0 && bitmap_fmt != 1)
- || [bitmapRep samplesPerPixel] != 4
- || [bitmapRep isPlanar] != 0
- || bytes_per_row < 4 * width
- || size != bytes_per_row * height) {
+ if ((bitmap_fmt != 0 && bitmap_fmt != NSBitmapFormatAlphaFirst)
+ || [bitmapRep samplesPerPixel] != 4
+ || [bitmapRep isPlanar] != 0
+ || bytes_per_row < 4 * width
+ || size != bytes_per_row * height) {
TkMacOSXDbgMsg("XGetImage: Unrecognized bitmap format");
[bitmapRep release];
return NULL;
@@ -705,35 +787,37 @@ XGetImage(
memcpy(bitmap, (char *)[bitmapRep bitmapData], size);
[bitmapRep release];
- /*
- * When Apple extracts a bitmap from an NSView, it may be in either
- * BGRA or ABGR format. For an XImage we need RGBA.
- */
-
- struct pixel_fmt pixel = bitmap_fmt == 0 ? bgra : abgr;
-
for (row = 0, n = 0; row < height; row++, n += bytes_per_row) {
for (m = n; m < n + 4*width; m += 4) {
- R = *(bitmap + m + pixel.r);
- G = *(bitmap + m + pixel.g);
- B = *(bitmap + m + pixel.b);
- A = *(bitmap + m + pixel.a);
-
- *(bitmap + m) = R;
- *(bitmap + m + 1) = G;
- *(bitmap + m + 2) = B;
- *(bitmap + m + 3) = A;
+ pixel32 pixel = *((pixel32 *)(bitmap + m));
+ if (bitmap_fmt == 0) { // default format
+
+ /*
+ * This pixel is in ARGB32 format. We need RGBA32.
+ */
+
+ pixel32 flipped;
+ flipped.rgba.red = pixel.argb.red;
+ flipped.rgba.green = pixel.argb.green;
+ flipped.rgba.blue = pixel.argb.blue;
+ flipped.rgba.alpha = pixel.argb.alpha;
+ *((pixel32 *)(bitmap + m)) = flipped;
+ } else { // bitmap_fmt = NSBitmapFormatAlphaFirst
+ *((pixel32 *)(bitmap + m)) = pixel;
+ }
}
}
imagePtr = XCreateImage(display, NULL, depth, format, offset,
(char*) bitmap, width, height,
bitmap_pad, bytes_per_row);
} else {
+
/*
* There are some calls to XGetImage in the generic Tk code which pass
* an XYPixmap rather than a ZPixmap. XYPixmaps should be handled
* here.
*/
+
TkMacOSXDbgMsg("XGetImage does not handle XYPixmaps at the moment.");
}
return imagePtr;