From c350873c7c977efe5210484f04160be45f84ba7e Mon Sep 17 00:00:00 2001 From: Mike Gabriel Date: Fri, 21 Jul 2017 12:31:09 +0200 Subject: Convert nx-X11/lib/ build flow from imake to autotools. --- nx-X11/lib/src/ImUtil.c | 1013 +++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1013 insertions(+) create mode 100644 nx-X11/lib/src/ImUtil.c (limited to 'nx-X11/lib/src/ImUtil.c') diff --git a/nx-X11/lib/src/ImUtil.c b/nx-X11/lib/src/ImUtil.c new file mode 100644 index 000000000..79ba80ecc --- /dev/null +++ b/nx-X11/lib/src/ImUtil.c @@ -0,0 +1,1013 @@ +/* + +Copyright 1986, 1998 The Open Group + +Permission to use, copy, modify, distribute, and sell this software and its +documentation for any purpose is hereby granted without fee, provided that +the above copyright notice appear in all copies and that both that +copyright notice and this permission notice appear in supporting +documentation. + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN +AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN +CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +Except as contained in this notice, the name of The Open Group shall not be +used in advertising or otherwise to promote the sale, use or other dealings +in this Software without prior written authorization from The Open Group. + +*/ + +#ifdef HAVE_CONFIG_H +#include +#endif +#include +#include +#include +#include "ImUtil.h" + +static int _XDestroyImage(XImage *); +static unsigned long _XGetPixel(XImage *, int, int); +static unsigned long _XGetPixel1(XImage *, int, int); +static unsigned long _XGetPixel8(XImage *, int, int); +static unsigned long _XGetPixel16(XImage *, int, int); +static unsigned long _XGetPixel32(XImage *, int, int); +static int _XPutPixel(XImage *, int, int, unsigned long); +static int _XPutPixel1(XImage *, int, int, unsigned long); +static int _XPutPixel8(XImage *, int, int, unsigned long); +static int _XPutPixel16(XImage *, int, int, unsigned long); +static int _XPutPixel32(XImage *, int, int, unsigned long); +static XImage *_XSubImage(XImage *, int, int, unsigned int, unsigned int); +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 + display. */ + +int +_XGetScanlinePad( + Display *dpy, + int depth) + { + 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, + int depth) + { + 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); + if (depth <= 4) + return 4; + if (depth <= 8) + return 8; + if (depth <= 16) + return 16; + return 32; + } + + +/* + * This module provides rudimentary manipulation routines for image data + * structures. The functions provided are: + * + * XCreateImage Creates a default XImage data structure + * _XDestroyImage Deletes an XImage data structure + * _XGetPixel Reads a pixel from an image data structure + * _XGetPixel32 Reads a pixel from a 32-bit Z image data structure + * _XGetPixel16 Reads a pixel from a 16-bit Z image data structure + * _XGetPixel8 Reads a pixel from an 8-bit Z image data structure + * _XGetPixel1 Reads a pixel from an 1-bit image data structure + * _XPutPixel Writes a pixel into an image data structure + * _XPutPixel32 Writes a pixel into a 32-bit Z image data structure + * _XPutPixel16 Writes a pixel into a 16-bit Z image data structure + * _XPutPixel8 Writes a pixel into an 8-bit Z image data structure + * _XPutPixel1 Writes a pixel into an 1-bit image data structure + * _XSubImage Clones a new (sub)image from an existing one + * _XSetImage Writes an image data pattern into another image + * _XAddPixel Adds a constant value to every pixel in an image + * + * 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: + * + * 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. + * For XY formats, bitmap_unit is 8, 16, or 32 bits. + * For Z format, bits_per_pixel is 1, 4, 8, 16, 24, or 32 bits. + */ +static void _xynormalizeimagebits ( + register unsigned char *bp, + register XImage *img) +{ + register unsigned char c; + + if (img->byte_order != img->bitmap_bit_order) { + switch (img->bitmap_unit) { + + case 16: + c = *bp; + *bp = *(bp + 1); + *(bp + 1) = c; + break; + + case 32: + c = *(bp + 3); + *(bp + 3) = *bp; + *bp = c; + c = *(bp + 2); + *(bp + 2) = *(bp + 1); + *(bp + 1) = c; + break; + } + } + if (img->bitmap_bit_order == MSBFirst) + _XReverse_Bytes (bp, img->bitmap_unit >> 3); +} + +static void _znormalizeimagebits ( + register unsigned char *bp, + register XImage *img) +{ + register unsigned char c; + switch (img->bits_per_pixel) { + + case 4: + *bp = ((*bp >> 4) & 0xF) | ((*bp << 4) & ~0xF); + break; + + case 16: + c = *bp; + *bp = *(bp + 1); + *(bp + 1) = c; + break; + + case 24: + c = *(bp + 2); + *(bp + 2) = *bp; + *bp = c; + break; + + case 32: + c = *(bp + 3); + *(bp + 3) = *bp; + *bp = c; + c = *(bp + 2); + *(bp + 2) = *(bp + 1); + *(bp + 1) = c; + break; + } +} + +static void _putbits( + register char *src, /* address of source bit string */ + int dstoffset, /* bit offset into destination; range is 0-31 */ + register int numbits,/* number of bits to copy to destination */ + register char *dst) /* address of destination bit string */ +{ + register unsigned char chlo, chhi; + int hibits; + dst = dst + (dstoffset >> 3); + dstoffset = dstoffset & 7; + hibits = 8 - dstoffset; + chlo = *dst & _lomask[dstoffset]; + for (;;) { + chhi = (*src << dstoffset) & _himask[dstoffset]; + if (numbits <= hibits) { + chhi = chhi & _lomask[dstoffset + numbits]; + *dst = (*dst & _himask[dstoffset + numbits]) | chlo | chhi; + break; + } + *dst = chhi | chlo; + dst++; + numbits = numbits - hibits; + chlo = (unsigned char) (*src & _himask[hibits]) >> hibits; + src++; + if (numbits <= dstoffset) { + chlo = chlo & _lomask[numbits]; + *dst = (*dst & _himask[numbits]) | chlo; + 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 + * normalization and calls a routine to do so if needed. The logic in + * 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 + * 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 + * for a pixel with coordinates x and y for image data in ZPixmap format. + * + */ + +#define ROUNDUP(nbytes, pad) ((((nbytes) + ((pad)-1)) / (pad)) * ((pad)>>3)) + +#define XYNORMALIZE(bp, img) \ + if ((img->byte_order == MSBFirst) || (img->bitmap_bit_order == MSBFirst)) \ + _xynormalizeimagebits((unsigned char *)(bp), img) + +#define ZNORMALIZE(bp, img) \ + if (img->byte_order == MSBFirst) \ + _znormalizeimagebits((unsigned char *)(bp), img) + +#define XYINDEX(x, y, img) \ + ((y) * img->bytes_per_line) + \ + (((x) + img->xoffset) / img->bitmap_unit) * (img->bitmap_unit >> 3) + +#define ZINDEX(x, y, img) ((y) * img->bytes_per_line) + \ + (((x) * img->bits_per_pixel) >> 3) + +/* + * This routine initializes the image object function pointers. The + * intent is to provide native (i.e. fast) routines for native format images + * only using the generic (i.e. slow) routines when fast ones don't exist. + * However, with the current rather botched external interface, clients may + * have to mung image attributes after the image gets created, so the fast + * routines always have to check to make sure the optimization is still + * valid, and reinit the functions if not. + */ +void _XInitImageFuncPtrs ( + register XImage *image) +{ + image->f.create_image = XCreateImage; + image->f.destroy_image = _XDestroyImage; + if ((image->format == ZPixmap) && (image->bits_per_pixel == 8)) { + image->f.get_pixel = _XGetPixel8; + image->f.put_pixel = _XPutPixel8; + } else if (((image->bits_per_pixel | image->depth) == 1) && + (image->byte_order == image->bitmap_bit_order)) { + image->f.get_pixel = _XGetPixel1; + image->f.put_pixel = _XPutPixel1; + } else if ((image->format == ZPixmap) && + (image->bits_per_pixel == 32)) { + image->f.get_pixel = _XGetPixel32; + image->f.put_pixel = _XPutPixel32; + } else if ((image->format == ZPixmap) && + (image->bits_per_pixel == 16)) { + image->f.get_pixel = _XGetPixel16; + image->f.put_pixel = _XPutPixel16; + } else { + image->f.get_pixel = _XGetPixel; + image->f.put_pixel = _XPutPixel; + } + image->f.sub_image = _XSubImage; +/* image->f.set_image = _XSetImage;*/ + image->f.add_pixel = _XAddPixel; +} + +/* + * CreateImage + * + * Allocates the memory necessary for an XImage data structure. + * Initializes the structure with "default" values and returns XImage. + * + */ + +XImage *XCreateImage ( + register Display *dpy, + register Visual *visual, + unsigned int depth, + int format, + int offset, /*How many pixels from the start of the data does the + picture to be transmitted start?*/ + + char *data, + unsigned int width, + unsigned int height, + int xpad, + 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.*/ +{ + register XImage *image; + int bits_per_pixel = 1; + int min_bytes_per_line; + + if (depth == 0 || depth > 32 || + (format != XYBitmap && format != XYPixmap && format != ZPixmap) || + (format == XYBitmap && depth != 1) || + (xpad != 8 && xpad != 16 && xpad != 32) || + offset < 0) + return (XImage *) NULL; + if ((image = Xcalloc(1, sizeof(XImage))) == NULL) + return (XImage *) NULL; + + image->width = width; + image->height = height; + image->format = format; + image->byte_order = dpy->byte_order; + image->bitmap_unit = dpy->bitmap_unit; + image->bitmap_bit_order = dpy->bitmap_bit_order; + if (visual != NULL) { + image->red_mask = visual->red_mask; + image->green_mask = visual->green_mask; + image->blue_mask = visual->blue_mask; + } + else { + image->red_mask = image->green_mask = image->blue_mask = 0; + } + if (format == ZPixmap) + { + bits_per_pixel = _XGetBitsPerPixel(dpy, (int) depth); + } + + image->xoffset = offset; + image->bitmap_pad = xpad; + image->depth = depth; + image->data = data; + /* + * compute per line accelerator. + */ + { + if (format == ZPixmap) + min_bytes_per_line = + ROUNDUP((bits_per_pixel * width), image->bitmap_pad); + else + min_bytes_per_line = + ROUNDUP((width + offset), image->bitmap_pad); + } + if (image_bytes_per_line == 0) { + image->bytes_per_line = min_bytes_per_line; + } else if (image_bytes_per_line < min_bytes_per_line) { + Xfree(image); + return NULL; + } else { + image->bytes_per_line = image_bytes_per_line; + } + + image->bits_per_pixel = bits_per_pixel; + image->obdata = NULL; + _XInitImageFuncPtrs (image); + + return image; +} + +Status XInitImage (XImage *image) +{ + int min_bytes_per_line; + + if (image->depth == 0 || image->depth > 32 || + image->bits_per_pixel > 32 || image->bitmap_unit > 32 || + image->bits_per_pixel < 0 || image->bitmap_unit < 0 || + (image->format != XYBitmap && + image->format != XYPixmap && + image->format != ZPixmap) || + (image->format == XYBitmap && image->depth != 1) || + (image->bitmap_pad != 8 && + image->bitmap_pad != 16 && + image->bitmap_pad != 32) || + image->xoffset < 0) + return 0; + + /* + * compute per line accelerator. + */ + if (image->format == ZPixmap) + min_bytes_per_line = + ROUNDUP((image->bits_per_pixel * image->width), + image->bitmap_pad); + else + min_bytes_per_line = + ROUNDUP((image->width + image->xoffset), image->bitmap_pad); + + 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; + } + + _XInitImageFuncPtrs (image); + + return 1; +} + +/* + * _DestroyImage + * + * 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. + */ + +static int _XDestroyImage (XImage *ximage) +{ + Xfree(ximage->data); + Xfree(ximage->obdata); + Xfree(ximage); + return 1; +} + + +/* + * GetPixel + * + * 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: + * + * copy the source bitmap_unit or Zpixel into temp + * normalize temp if needed + * extract the pixel bits into return value + * + */ + +static unsigned long const low_bits_table[] = { + 0x00000000, 0x00000001, 0x00000003, 0x00000007, + 0x0000000f, 0x0000001f, 0x0000003f, 0x0000007f, + 0x000000ff, 0x000001ff, 0x000003ff, 0x000007ff, + 0x00000fff, 0x00001fff, 0x00003fff, 0x00007fff, + 0x0000ffff, 0x0001ffff, 0x0003ffff, 0x0007ffff, + 0x000fffff, 0x001fffff, 0x003fffff, 0x007fffff, + 0x00ffffff, 0x01ffffff, 0x03ffffff, 0x07ffffff, + 0x0fffffff, 0x1fffffff, 0x3fffffff, 0x7fffffff, + 0xffffffff +}; + +static unsigned long _XGetPixel ( + register XImage *ximage, + int x, + int y) + +{ + unsigned long pixel, px; + register char *src; + register char *dst; + 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; + pixel = 0; + for (i = ximage->bitmap_unit >> 3; --i >= 0; ) *dst++ = *src++; + XYNORMALIZE(&pixel, ximage); + bits = (x + ximage->xoffset) % ximage->bitmap_unit; + pixel = ((((char *)&pixel)[bits>>3])>>(bits&7)) & 1; + } else if (ximage->format == XYPixmap) { + pixel = 0; + plane = 0; + nbytes = ximage->bitmap_unit >> 3; + for (i = ximage->depth; --i >= 0; ) { + src = &ximage->data[XYINDEX(x, y, ximage)+ plane]; + dst = (char *)&px; + px = 0; + for (j = nbytes; --j >= 0; ) *dst++ = *src++; + XYNORMALIZE(&px, ximage); + bits = (x + ximage->xoffset) % ximage->bitmap_unit; + pixel = (pixel << 1) | + (((((char *)&px)[bits>>3])>>(bits&7)) & 1); + plane = plane + (ximage->bytes_per_line * ximage->height); + } + } else if (ximage->format == ZPixmap) { + src = &ximage->data[ZINDEX(x, y, ximage)]; + dst = (char *)&px; + px = 0; + for (i = (ximage->bits_per_pixel + 7) >> 3; --i >= 0; ) + *dst++ = *src++; + ZNORMALIZE(&px, ximage); + pixel = 0; + for (i=sizeof(unsigned long); --i >= 0; ) + pixel = (pixel << 8) | ((unsigned char *)&px)[i]; + if (ximage->bits_per_pixel == 4) { + if (x & 1) + pixel >>= 4; + else + pixel &= 0xf; + } + } else { + return 0; /* bad image */ + } + if (ximage->bits_per_pixel == ximage->depth) + return pixel; + else + return (pixel & low_bits_table[ximage->depth]); +} + +static CARD32 const byteorderpixel = MSBFirst << 24; + +static unsigned long _XGetPixel32 ( + register XImage *ximage, + int x, + int y) +{ + register unsigned char *addr; + unsigned long pixel; + + if ((ximage->format == ZPixmap) && (ximage->bits_per_pixel == 32)) { + addr = &((unsigned char *)ximage->data) + [y * ximage->bytes_per_line + (x << 2)]; + if (*((const char *)&byteorderpixel) == ximage->byte_order) + pixel = *((CARD32 *)addr); + else if (ximage->byte_order == MSBFirst) + pixel = ((unsigned long)addr[0] << 24 | + (unsigned long)addr[1] << 16 | + (unsigned long)addr[2] << 8 | + addr[3]); + else + pixel = ((unsigned long)addr[3] << 24 | + (unsigned long)addr[2] << 16 | + (unsigned long)addr[1] << 8 | + addr[0]); + if (ximage->depth != 32) + pixel &= low_bits_table[ximage->depth]; + return pixel; + } else { + _XInitImageFuncPtrs(ximage); + return XGetPixel(ximage, x, y); + } +} + +static unsigned long _XGetPixel16 ( + register XImage *ximage, + int x, + int y) +{ + register unsigned char *addr; + unsigned long pixel; + + if ((ximage->format == ZPixmap) && (ximage->bits_per_pixel == 16)) { + addr = &((unsigned char *)ximage->data) + [y * ximage->bytes_per_line + (x << 1)]; + if (ximage->byte_order == MSBFirst) + pixel = addr[0] << 8 | addr[1]; + else + pixel = addr[1] << 8 | addr[0]; + if (ximage->depth != 16) + pixel &= low_bits_table[ximage->depth]; + return pixel; + } else { + _XInitImageFuncPtrs(ximage); + return XGetPixel(ximage, x, y); + } +} + +static unsigned long _XGetPixel8 ( + register XImage *ximage, + int x, + int y) +{ + unsigned char pixel; + + if ((ximage->format == ZPixmap) && (ximage->bits_per_pixel == 8)) { + pixel = ((unsigned char *)ximage->data) + [y * ximage->bytes_per_line + x]; + if (ximage->depth != 8) + pixel &= low_bits_table[ximage->depth]; + return pixel; + } else { + _XInitImageFuncPtrs(ximage); + return XGetPixel(ximage, x, y); + } +} + +static unsigned long _XGetPixel1 ( + register XImage *ximage, + int x, + int y) +{ + unsigned char bit; + int xoff, yoff; + + if (((ximage->bits_per_pixel | ximage->depth) == 1) && + (ximage->byte_order == ximage->bitmap_bit_order)) { + xoff = x + ximage->xoffset; + yoff = y * ximage->bytes_per_line + (xoff >> 3); + xoff &= 7; + if (ximage->bitmap_bit_order == MSBFirst) + bit = 0x80 >> xoff; + else + bit = 1 << xoff; + return (ximage->data[yoff] & bit) ? 1 : 0; + } else { + _XInitImageFuncPtrs(ximage); + return XGetPixel(ximage, x, y); + } +} + +/* + * PutPixel + * + * 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: + * + * copy the destination bitmap_unit or Zpixel to temp + * normalize temp if needed + * copy the pixel bits into the temp + * renormalize temp if needed + * copy the temp back into the destination image data + * + */ + +static int _XPutPixel ( + register XImage *ximage, + int x, + int y, + unsigned long pixel) + +{ + unsigned long px, npixel; + register char *src; + register char *dst; + register int i; + int j, nbytes; + long plane; + + if (ximage->depth == 4) + pixel &= 0xf; + npixel = pixel; + for (i=0, px=pixel; i>=8) + ((unsigned char *)&pixel)[i] = px; + if ((ximage->bits_per_pixel | ximage->depth) == 1) { + src = &ximage->data[XYINDEX(x, y, ximage)]; + dst = (char *)&px; + px = 0; + nbytes = ximage->bitmap_unit >> 3; + for (i = nbytes; --i >= 0; ) *dst++ = *src++; + XYNORMALIZE(&px, ximage); + i = ((x + ximage->xoffset) % ximage->bitmap_unit); + _putbits ((char *)&pixel, i, 1, (char *)&px); + XYNORMALIZE(&px, ximage); + src = (char *) &px; + dst = &ximage->data[XYINDEX(x, y, ximage)]; + for (i = nbytes; --i >= 0; ) *dst++ = *src++; + } else if (ximage->format == XYPixmap) { + plane = (ximage->bytes_per_line * ximage->height) * + (ximage->depth - 1); /* do least signif plane 1st */ + nbytes = ximage->bitmap_unit >> 3; + for (j = ximage->depth; --j >= 0; ) { + src = &ximage->data[XYINDEX(x, y, ximage) + plane]; + dst = (char *) &px; + px = 0; + for (i = nbytes; --i >= 0; ) *dst++ = *src++; + XYNORMALIZE(&px, ximage); + i = ((x + ximage->xoffset) % ximage->bitmap_unit); + _putbits ((char *)&pixel, i, 1, (char *)&px); + XYNORMALIZE(&px, ximage); + src = (char *)&px; + dst = &ximage->data[XYINDEX(x, y, ximage) + plane]; + for (i = nbytes; --i >= 0; ) *dst++ = *src++; + npixel = npixel >> 1; + for (i=0, px=npixel; i>=8) + ((unsigned char *)&pixel)[i] = px; + plane = plane - (ximage->bytes_per_line * ximage->height); + } + } else if (ximage->format == ZPixmap) { + src = &ximage->data[ZINDEX(x, y, ximage)]; + dst = (char *)&px; + px = 0; + 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, + ximage->bits_per_pixel, (char *)&px); + ZNORMALIZE(&px, ximage); + src = (char *)&px; + dst = &ximage->data[ZINDEX(x, y, ximage)]; + for (i = nbytes; --i >= 0; ) *dst++ = *src++; + } else { + return 0; /* bad image */ + } + return 1; +} + +static int _XPutPixel32 ( + register XImage *ximage, + int x, + int y, + unsigned long pixel) +{ + unsigned char *addr; + + if ((ximage->format == ZPixmap) && (ximage->bits_per_pixel == 32)) { + addr = &((unsigned char *)ximage->data) + [y * ximage->bytes_per_line + (x << 2)]; + if (*((const char *)&byteorderpixel) == ximage->byte_order) + *((CARD32 *)addr) = pixel; + else if (ximage->byte_order == MSBFirst) { + addr[0] = pixel >> 24; + addr[1] = pixel >> 16; + addr[2] = pixel >> 8; + addr[3] = pixel; + } else { + addr[3] = pixel >> 24; + addr[2] = pixel >> 16; + addr[1] = pixel >> 8; + addr[0] = pixel; + } + return 1; + } else { + _XInitImageFuncPtrs(ximage); + return XPutPixel(ximage, x, y, pixel); + } +} + +static int _XPutPixel16 ( + register XImage *ximage, + int x, + int y, + unsigned long pixel) +{ + unsigned char *addr; + + if ((ximage->format == ZPixmap) && (ximage->bits_per_pixel == 16)) { + addr = &((unsigned char *)ximage->data) + [y * ximage->bytes_per_line + (x << 1)]; + if (ximage->byte_order == MSBFirst) { + addr[0] = pixel >> 8; + addr[1] = pixel; + } else { + addr[1] = pixel >> 8; + addr[0] = pixel; + } + return 1; + } else { + _XInitImageFuncPtrs(ximage); + return XPutPixel(ximage, x, y, pixel); + } +} + +static int _XPutPixel8 ( + register XImage *ximage, + int x, + int y, + unsigned long pixel) +{ + if ((ximage->format == ZPixmap) && (ximage->bits_per_pixel == 8)) { + ximage->data[y * ximage->bytes_per_line + x] = pixel; + return 1; + } else { + _XInitImageFuncPtrs(ximage); + return XPutPixel(ximage, x, y, pixel); + } +} + +static int _XPutPixel1 ( + register XImage *ximage, + int x, + int y, + unsigned long pixel) +{ + unsigned char bit; + int xoff, yoff; + + if (((ximage->bits_per_pixel | ximage->depth) == 1) && + (ximage->byte_order == ximage->bitmap_bit_order)) { + xoff = x + ximage->xoffset; + yoff = y * ximage->bytes_per_line + (xoff >> 3); + xoff &= 7; + if (ximage->bitmap_bit_order == MSBFirst) + bit = 0x80 >> xoff; + else + bit = 1 << xoff; + if (pixel & 1) + ximage->data[yoff] |= bit; + else + ximage->data[yoff] &= ~bit; + return 1; + } else { + _XInitImageFuncPtrs(ximage); + return XPutPixel(ximage, x, y, pixel); + } +} + +/* + * SubImage + * + * Creates a new image that is a subsection of an existing one. + * 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. + * + */ + +static XImage *_XSubImage ( + XImage *ximage, + register int x, /* starting x coordinate in existing image */ + register int y, /* starting y coordinate in existing image */ + unsigned int width, /* width in pixels of new subimage */ + unsigned int height)/* height in pixels of new subimage */ + +{ + register XImage *subimage; + int dsize; + register int row, col; + register unsigned long pixel; + char *data; + + if ((subimage = Xcalloc (1, sizeof (XImage))) == NULL) + return (XImage *) NULL; + subimage->width = width; + subimage->height = height; + subimage->xoffset = 0; + subimage->format = ximage->format; + subimage->byte_order = ximage->byte_order; + subimage->bitmap_unit = ximage->bitmap_unit; + subimage->bitmap_bit_order = ximage->bitmap_bit_order; + subimage->bitmap_pad = ximage->bitmap_pad; + subimage->bits_per_pixel = ximage->bits_per_pixel; + subimage->depth = ximage->depth; + /* + * compute per line accelerator. + */ + if (subimage->format == ZPixmap) + subimage->bytes_per_line = + ROUNDUP(subimage->bits_per_pixel * width, + subimage->bitmap_pad); + else + subimage->bytes_per_line = + ROUNDUP(width, subimage->bitmap_pad); + subimage->obdata = NULL; + _XInitImageFuncPtrs (subimage); + dsize = subimage->bytes_per_line * height; + if (subimage->format == XYPixmap) dsize = dsize * subimage->depth; + if (((data = Xcalloc (1, dsize)) == NULL) && (dsize > 0)) { + Xfree(subimage); + return (XImage *) NULL; + } + subimage->data = data; + + /* + * Test for cases where the new subimage is larger than the region + * that we are copying from the existing data. In those cases, + * copy the area of the existing image, and allow the "uncovered" + * area of new subimage to remain with zero filled pixels. + */ + if (height > ximage->height - y ) height = ximage->height - y; + if (width > ximage->width - x ) width = ximage->width - x; + + for (row = y; row < (y + height); row++) { + for (col = x; col < (x + width); col++) { + pixel = XGetPixel(ximage, col, row); + XPutPixel(subimage, (col - x), (row - y), pixel); + } + } + return subimage; +} + + +/* + * 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 + * restrictions apply: + * + * 1. The depths of the source and destination images must be equal. + * + * 2. If the height of the source image is too large to fit between + * the specified y starting point and the bottom of the image, + * then scanlines are truncated on the bottom. + * + * 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. + * + */ + +int _XSetImage( + XImage *srcimg, + register XImage *dstimg, + register int x, + register int y) +{ + register unsigned long pixel; + register int row, col; + int width, height, startrow, startcol; + if (x < 0) { + startcol = -x; + x = 0; + } else + startcol = 0; + if (y < 0) { + startrow = -y; + y = 0; + } else + startrow = 0; + width = dstimg->width - x; + if (srcimg->width < width) + width = srcimg->width; + height = dstimg->height - y; + if (srcimg->height < height) + height = srcimg->height; + + /* this is slow, will do better later */ + for (row = startrow; row < height; row++) { + for (col = startcol; col < width; col++) { + pixel = XGetPixel(srcimg, col, row); + XPutPixel(dstimg, x + col, y + row, pixel); + } + } + return 1; +} + +/* + * AddPixel + * + * Adds a constant value to every pixel in a pixmap. + * + */ + +static int +_XAddPixel ( + register XImage *ximage, + register long value) +{ + register int x; + register int y; + + if (!value) + return 0; + if ((ximage->bits_per_pixel | ximage->depth) == 1) { + /* The only value that we can add here to an XYBitmap + * is one. Since 1 + value = ~value for one bit wide + * data, we do this quickly by taking the ones complement + * of the entire bitmap data (offset and pad included!). + * Note that we don't need to be concerned with bit or + * byte order at all. + */ + register unsigned char *dp = (unsigned char *) ximage->data; + x = ximage->bytes_per_line * ximage->height; + while (--x >= 0) { + *dp = ~*dp; + dp++; + } + } else if ((ximage->format == ZPixmap) && + (ximage->bits_per_pixel == 8)) { + register unsigned char *dp = (unsigned char *) ximage->data; + x = ximage->bytes_per_line * ximage->height; + while (--x >= 0) + *dp++ += value; + } else if ((ximage->format == ZPixmap) && + (ximage->bits_per_pixel == 16) && + (*((const char *)&byteorderpixel) == ximage->byte_order)) { + register unsigned short *dp = (unsigned short *) ximage->data; + x = (ximage->bytes_per_line >> 1) * ximage->height; + while (--x >= 0) + *dp++ += value; + } else if ((ximage->format == ZPixmap) && + (ximage->bits_per_pixel == 32) && + (*((const char *)&byteorderpixel) == ximage->byte_order)) { + register CARD32 *dp = (CARD32 *) ximage->data; + x = (ximage->bytes_per_line >> 2) * ximage->height; + while (--x >= 0) + *dp++ += value; + } else { + for (y = ximage->height; --y >= 0; ) { + for (x = ximage->width; --x >= 0; ) { + register unsigned long pixel = XGetPixel(ximage, x, y); + pixel = pixel + value; + XPutPixel(ximage, x, y, pixel); + } + } + } + return 0; +} + -- cgit v1.2.3