diff options
Diffstat (limited to 'libX11/src/ImUtil.c')
| -rw-r--r-- | libX11/src/ImUtil.c | 86 |
1 files changed, 43 insertions, 43 deletions
diff --git a/libX11/src/ImUtil.c b/libX11/src/ImUtil.c index d1df7ae28..35768563d 100644 --- a/libX11/src/ImUtil.c +++ b/libX11/src/ImUtil.c @@ -51,8 +51,8 @@ static int _XAddPixel(XImage *, long); static unsigned char const _lomask[0x09] = { 0x00, 0x01, 0x03, 0x07, 0x0f, 0x1f, 0x3f, 0x7f, 0xff }; static unsigned char const _himask[0x09] = { 0xff, 0xfe, 0xfc, 0xf8, 0xf0, 0xe0, 0xc0, 0x80, 0x00 }; -/* These two convenience routines return the scanline_pad and bits_per_pixel - associated with a specific depth of ZPixmap format image for a +/* These two convenience routines return the scanline_pad and bits_per_pixel + associated with a specific depth of ZPixmap format image for a display. */ int @@ -62,14 +62,14 @@ _XGetScanlinePad( { register ScreenFormat *fmt = dpy->pixmap_format; register int i; - + for (i = dpy->nformats + 1; --i; ++fmt) if (fmt->depth == depth) return(fmt->scanline_pad); - + return(dpy->bitmap_pad); } - + int _XGetBitsPerPixel( Display *dpy, @@ -77,7 +77,7 @@ _XGetBitsPerPixel( { register ScreenFormat *fmt = dpy->pixmap_format; register int i; - + for (i = dpy->nformats + 1; --i; ++fmt) if (fmt->depth == depth) return(fmt->bits_per_pixel); @@ -89,7 +89,7 @@ _XGetBitsPerPixel( return 16; return 32; } - + /* * This module provides rudimentary manipulation routines for image data @@ -113,7 +113,7 @@ _XGetBitsPerPixel( * * The logic contained in these routines makes several assumptions about * the image data structures, and at least for current implementations - * these assumptions are believed to be true. They are: + * these assumptions are believed to be true. They are: * * For all formats, bits_per_pixel is less than or equal to 32. * For XY formats, bitmap_unit is always less than or equal to bitmap_pad. @@ -213,31 +213,31 @@ static void _putbits( break; } numbits = numbits - dstoffset; - } + } } /* * Macros - * + * * The ROUNDUP macro rounds up a quantity to the specified boundary, * then truncates to bytes. * - * The XYNORMALIZE macro determines whether XY format data requires + * The XYNORMALIZE macro determines whether XY format data requires * normalization and calls a routine to do so if needed. The logic in - * this module is designed for LSBFirst byte and bit order, so + * this module is designed for LSBFirst byte and bit order, so * normalization is done as required to present the data in this order. * - * The ZNORMALIZE macro performs byte and nibble order normalization if + * The ZNORMALIZE macro performs byte and nibble order normalization if * required for Z format data. * * The XYINDEX macro computes the index to the starting byte (char) boundary * for a bitmap_unit containing a pixel with coordinates x and y for image * data in XY format. - * - * The ZINDEX macro computes the index to the starting byte (char) boundary + * + * The ZINDEX macro computes the index to the starting byte (char) boundary * for a pixel with coordinates x and y for image data in ZPixmap format. - * + * */ #if defined(Lynx) && defined(ROUNDUP) @@ -301,10 +301,10 @@ void _XInitImageFuncPtrs ( /* * CreateImage - * - * Allocates the memory necessary for an XImage data structure. - * Initializes the structure with "default" values and returns XImage. - * + * + * Allocates the memory necessary for an XImage data structure. + * Initializes the structure with "default" values and returns XImage. + * */ XImage *XCreateImage ( @@ -319,7 +319,7 @@ XImage *XCreateImage ( unsigned int width, unsigned int height, int xpad, - int image_bytes_per_line) + int image_bytes_per_line) /*How many bytes between a pixel on one line and the pixel with the same X coordinate on the next line? 0 means XCreateImage can calculate it.*/ @@ -351,7 +351,7 @@ XImage *XCreateImage ( else { image->red_mask = image->green_mask = image->blue_mask = 0; } - if (format == ZPixmap) + if (format == ZPixmap) { bits_per_pixel = _XGetBitsPerPixel(dpy, (int) depth); } @@ -365,7 +365,7 @@ XImage *XCreateImage ( */ { if (format == ZPixmap) - min_bytes_per_line = + min_bytes_per_line = ROUNDUP((bits_per_pixel * width), image->bitmap_pad); else min_bytes_per_line = @@ -374,7 +374,7 @@ XImage *XCreateImage ( if (image_bytes_per_line == 0) { image->bytes_per_line = min_bytes_per_line; } else if (image_bytes_per_line < min_bytes_per_line) { - return 0; + return NULL; } else { image->bytes_per_line = image_bytes_per_line; } @@ -407,7 +407,7 @@ Status XInitImage (XImage *image) * compute per line accelerator. */ if (image->format == ZPixmap) - min_bytes_per_line = + min_bytes_per_line = ROUNDUP((image->bits_per_pixel * image->width), image->bitmap_pad); else @@ -427,8 +427,8 @@ Status XInitImage (XImage *image) /* * _DestroyImage - * - * Deallocates the memory associated with the ximage data structure. + * + * Deallocates the memory associated with the ximage data structure. * this version handles the case of the image data being malloc'd * entirely by the library. */ @@ -444,8 +444,8 @@ static int _XDestroyImage (XImage *ximage) /* * GetPixel - * - * Returns the specified pixel. The X and Y coordinates are relative to + * + * Returns the specified pixel. The X and Y coordinates are relative to * the origin (upper left [0,0]) of the image. The pixel value is returned * in normalized format, i.e. the LSB of the long is the LSB of the pixel. * The algorithm used is: @@ -480,7 +480,7 @@ static unsigned long _XGetPixel ( register int i, j; int bits, nbytes; long plane; - + if ((ximage->bits_per_pixel | ximage->depth) == 1) { src = &ximage->data[XYINDEX(x, y, ximage)]; dst = (char *)&pixel; @@ -509,7 +509,7 @@ static unsigned long _XGetPixel ( dst = (char *)&px; px = 0; for (i = (ximage->bits_per_pixel + 7) >> 3; --i >= 0; ) - *dst++ = *src++; + *dst++ = *src++; ZNORMALIZE(&px, ximage); pixel = 0; for (i=sizeof(unsigned long); --i >= 0; ) @@ -634,11 +634,11 @@ static unsigned long _XGetPixel1 ( return XGetPixel(ximage, x, y); } } - + /* * PutPixel - * - * Overwrites the specified pixel. The X and Y coordinates are relative to + * + * Overwrites the specified pixel. The X and Y coordinates are relative to * the origin (upper left [0,0]) of the image. The input pixel value must be * in normalized format, i.e. the LSB of the long is the LSB of the pixel. * The algorithm used is: @@ -711,8 +711,8 @@ static int _XPutPixel ( nbytes = (ximage->bits_per_pixel + 7) >> 3; for (i = nbytes; --i >= 0; ) *dst++ = *src++; ZNORMALIZE(&px, ximage); - _putbits ((char *)&pixel, - (x * ximage->bits_per_pixel) & 7, + _putbits ((char *)&pixel, + (x * ximage->bits_per_pixel) & 7, ximage->bits_per_pixel, (char *)&px); ZNORMALIZE(&px, ximage); src = (char *)&px; @@ -829,9 +829,9 @@ static int _XPutPixel1 ( /* * SubImage - * + * * Creates a new image that is a subsection of an existing one. - * Allocates the memory necessary for the new XImage data structure. + * Allocates the memory necessary for the new XImage data structure. * Pointer to new image is returned. The algorithm used is repetitive * calls to get and put pixel. * @@ -866,8 +866,8 @@ static XImage *_XSubImage ( /* * compute per line accelerator. */ - if (subimage->format == ZPixmap) - subimage->bytes_per_line = + if (subimage->format == ZPixmap) + subimage->bytes_per_line = ROUNDUP(subimage->bits_per_pixel * width, subimage->bitmap_pad); else @@ -904,7 +904,7 @@ static XImage *_XSubImage ( /* * SetImage - * + * * Overwrites a section of one image with all of the data from another. * If the two images are not of the same format (i.e. XYPixmap and ZPixmap), * the image data is converted to the destination format. The following @@ -919,7 +919,7 @@ static XImage *_XSubImage ( * 3. If the width of the source image is too large to fit between * the specified x starting point and the end of the scanline, * then pixels are truncated on the right. - * + * * The images need not have the same bitmap_bit_order, byte_order, * bitmap_unit, bits_per_pixel, bitmap_pad, or xoffset. * @@ -963,7 +963,7 @@ int _XSetImage( /* * AddPixel - * + * * Adds a constant value to every pixel in a pixmap. * */ |