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find * -type f "-(" -name "*.bdf" -o -name "*.c" -o -name "*.h" -o -name "*.py" -o -name "*.rst" -o -name "*.txt" "-)" -exec sed -e "s/[[:space:]]*$//" -i {} \;
180 lines
5.3 KiB
C
180 lines
5.3 KiB
C
/*
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* The Python Imaging Library
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* $Id$
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*
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* apply convolution kernel to image
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*
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* history:
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* 1995-11-26 fl Created, supports 3x3 kernels
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* 1995-11-27 fl Added 5x5 kernels, copy border
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* 1999-07-26 fl Eliminated a few compiler warnings
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* 2002-06-09 fl Moved kernel definitions to Python
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* 2002-06-11 fl Support floating point kernels
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* 2003-09-15 fl Added ImagingExpand helper
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*
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* Copyright (c) Secret Labs AB 1997-2002. All rights reserved.
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* Copyright (c) Fredrik Lundh 1995.
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*
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* See the README file for information on usage and redistribution.
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*/
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/*
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* FIXME: Support RGB and RGBA/CMYK modes as well
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* FIXME: Expand image border (current version leaves border as is)
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* FIXME: Implement image processing gradient filters
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*/
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#include "Imaging.h"
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Imaging
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ImagingExpand(Imaging imIn, int xmargin, int ymargin, int mode)
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{
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Imaging imOut;
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int x, y;
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if (xmargin < 0 && ymargin < 0)
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return (Imaging) ImagingError_ValueError("bad kernel size");
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imOut = ImagingNew(
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imIn->mode, imIn->xsize+2*xmargin, imIn->ysize+2*ymargin
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);
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if (!imOut)
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return NULL;
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#define EXPAND_LINE(type, image, yin, yout) {\
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for (x = 0; x < xmargin; x++)\
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imOut->image[yout][x] = imIn->image[yin][0];\
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for (x = 0; x < imIn->xsize; x++)\
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imOut->image[yout][x+xmargin] = imIn->image[yin][x];\
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for (x = 0; x < xmargin; x++)\
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imOut->image[yout][xmargin+imIn->xsize+x] =\
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imIn->image[yin][imIn->xsize-1];\
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}
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#define EXPAND(type, image) {\
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for (y = 0; y < ymargin; y++)\
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EXPAND_LINE(type, image, 0, y);\
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for (y = 0; y < imIn->ysize; y++)\
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EXPAND_LINE(type, image, y, y+ymargin);\
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for (y = 0; y < ymargin; y++)\
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EXPAND_LINE(type, image, imIn->ysize-1, ymargin+imIn->ysize+y);\
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}
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if (imIn->image8) {
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EXPAND(UINT8, image8);
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} else {
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EXPAND(INT32, image32);
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}
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ImagingCopyInfo(imOut, imIn);
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return imOut;
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}
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Imaging
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ImagingFilter(Imaging im, int xsize, int ysize, const FLOAT32* kernel,
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FLOAT32 offset, FLOAT32 divisor)
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{
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Imaging imOut;
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int x, y;
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FLOAT32 sum;
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if (!im || strcmp(im->mode, "L") != 0)
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return (Imaging) ImagingError_ModeError();
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if (im->xsize < xsize || im->ysize < ysize)
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return ImagingCopy(im);
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if ((xsize != 3 && xsize != 5) || xsize != ysize)
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return (Imaging) ImagingError_ValueError("bad kernel size");
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imOut = ImagingNew(im->mode, im->xsize, im->ysize);
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if (!imOut)
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return NULL;
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/* brute force kernel implementations */
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#define KERNEL3x3(image, kernel, d) ( \
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(int) image[y+1][x-d] * kernel[0] + \
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(int) image[y+1][x] * kernel[1] + \
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(int) image[y+1][x+d] * kernel[2] + \
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(int) image[y][x-d] * kernel[3] + \
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(int) image[y][x] * kernel[4] + \
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(int) image[y][x+d] * kernel[5] + \
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(int) image[y-1][x-d] * kernel[6] + \
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(int) image[y-1][x] * kernel[7] + \
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(int) image[y-1][x+d] * kernel[8])
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#define KERNEL5x5(image, kernel, d) ( \
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(int) image[y+2][x-d-d] * kernel[0] + \
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(int) image[y+2][x-d] * kernel[1] + \
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(int) image[y+2][x] * kernel[2] + \
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(int) image[y+2][x+d] * kernel[3] + \
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(int) image[y+2][x+d+d] * kernel[4] + \
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(int) image[y+1][x-d-d] * kernel[5] + \
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(int) image[y+1][x-d] * kernel[6] + \
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(int) image[y+1][x] * kernel[7] + \
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(int) image[y+1][x+d] * kernel[8] + \
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(int) image[y+1][x+d+d] * kernel[9] + \
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(int) image[y][x-d-d] * kernel[10] + \
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(int) image[y][x-d] * kernel[11] + \
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(int) image[y][x] * kernel[12] + \
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(int) image[y][x+d] * kernel[13] + \
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(int) image[y][x+d+d] * kernel[14] + \
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(int) image[y-1][x-d-d] * kernel[15] + \
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(int) image[y-1][x-d] * kernel[16] + \
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(int) image[y-1][x] * kernel[17] + \
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(int) image[y-1][x+d] * kernel[18] + \
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(int) image[y-1][x+d+d] * kernel[19] + \
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(int) image[y-2][x-d-d] * kernel[20] + \
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(int) image[y-2][x-d] * kernel[21] + \
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(int) image[y-2][x] * kernel[22] + \
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(int) image[y-2][x+d] * kernel[23] + \
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(int) image[y-2][x+d+d] * kernel[24])
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if (xsize == 3) {
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/* 3x3 kernel. */
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for (x = 0; x < im->xsize; x++)
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imOut->image[0][x] = im->image8[0][x];
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for (y = 1; y < im->ysize-1; y++) {
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imOut->image[y][0] = im->image8[y][0];
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for (x = 1; x < im->xsize-1; x++) {
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sum = KERNEL3x3(im->image8, kernel, 1) / divisor + offset;
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if (sum <= 0)
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imOut->image8[y][x] = 0;
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else if (sum >= 255)
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imOut->image8[y][x] = 255;
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else
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imOut->image8[y][x] = (UINT8) sum;
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}
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imOut->image8[y][x] = im->image8[y][x];
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}
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for (x = 0; x < im->xsize; x++)
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imOut->image8[y][x] = im->image8[y][x];
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} else {
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/* 5x5 kernel. */
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for (y = 0; y < 2; y++)
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for (x = 0; x < im->xsize; x++)
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imOut->image8[y][x] = im->image8[y][x];
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for (; y < im->ysize-2; y++) {
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for (x = 0; x < 2; x++)
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imOut->image8[y][x] = im->image8[y][x];
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for (; x < im->xsize-2; x++) {
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sum = KERNEL5x5(im->image8, kernel, 1) / divisor + offset;
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if (sum <= 0)
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imOut->image8[y][x] = 0;
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else if (sum >= 255)
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imOut->image8[y][x] = 255;
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else
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imOut->image8[y][x] = (UINT8) sum;
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}
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for (; x < im->xsize; x++)
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imOut->image8[y][x] = im->image8[y][x];
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}
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for (; y < im->ysize; y++)
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for (x = 0; x < im->xsize; x++)
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imOut->image8[y][x] = im->image8[y][x];
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}
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return imOut;
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}
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