160 lines
4.3 KiB
C++
160 lines
4.3 KiB
C++
#include "global.h"
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/*
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* SDL_rotozoom.c - rotozoomer for 32bit or 8bit surfaces
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*
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* LGPL (c) A. Schiffler, Glenn Maynard
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*/
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#include "SDL_rotozoom.h"
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#include <vector>
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using namespace std;
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/* Coordinate 0x0 represents the exact top-left corner of a bitmap. .5x.5
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* represents the center of the top-left pixel; 1x1 is the center of the top
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* square of pixels.
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*
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* (Look at a grid: map coordinates to the lines, not the squares between the
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* lines.)
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*/
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static void ZoomSurface( SDL_Surface * src, SDL_Surface * dst )
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{
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/* Ratio from source to dest. */
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const float sx = float(src->w) / dst->w;
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const float sy = float(src->h) / dst->h;
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/* For each destination coordinate, two source rows, two source columns
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* and the percentage of the first row and first column: */
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vector<int> esx0, esx1, esy0, esy1;
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vector<float> ex0, ey0;
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int x, y;
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/* sax[x] is the exact (floating-point) x coordinate in the source
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* that the destination pixel at x should from. For example, if we're
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* going 512->256, then dst[0] should come from the pixels from 0..1 and
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* 1..2, so sax[0] is 1. sx is the total number of pixels, so sx/2 is the
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* distance from the start of the sample to its center. */
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for( x = 0; x < dst->w; x++ )
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{
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const float sax = sx*x + sx/2;
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/* sx/2 is the distance from the start of the sample to the center;
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* sx/4 is the distance from the center of the sample to the center of
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* either pixel. */
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const float xstep = sx/4;
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/* source x coordinates of left and right pixels to sample */
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esx0.push_back(int(sax-xstep));
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esx1.push_back(int(sax+xstep));
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if( esx1[x] == esx0[x] )
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{
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/* If the sampled pixels happen to be the same, the distance
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* will be 0. Avoid division by zero. */
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ex0.push_back( 1.f );
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} else {
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const int xdist = esx1[x] - esx0[x];
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/* fleft is the left pixel sampled; +.5 is the center: */
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const float fleft = esx0[x] + .5f;
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/* sax is somewhere between the centers of both sampled
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* pixels; find the percentage: */
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const float p = (sax - fleft) / xdist;
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ex0.push_back(1-p);
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}
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}
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for( y = 0; y < dst->h; y++ )
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{
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float say = sy*y + sy/2;
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float ystep = sy/4;
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esy0.push_back( int(say-ystep) );
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esy1.push_back( int(say+ystep) );
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if( esy0[y] == esy1[y] )
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{
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ey0.push_back( 1.f );
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} else {
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const int ydist = esy1[y] - esy0[y];
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const float ftop = esy0[y] + .5f;
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const float p = (say - ftop) / ydist;
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ey0.push_back( 1-p );
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}
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}
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const Uint8 *sp = (Uint8 *) src->pixels;
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for( y = 0; y < dst->h; y++ )
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{
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Uint8 *dp = ((Uint8 *) dst->pixels + dst->pitch*y);
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/* current source pointer and next source pointer (first and second
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* rows sampled for this row): */
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const Uint8 *csp = (Uint8 *) (sp + esy0[y] * src->pitch);
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const Uint8 *ncsp = (Uint8 *) (sp + esy1[y] * src->pitch);
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for( x = 0; x < dst->w; x++ )
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{
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/* Grab pointers to the sampled pixels: */
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const Uint8 *c00 = (Uint8 *) (csp + esx0[x]*4);
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const Uint8 *c01 = (Uint8 *) (csp + esx1[x]*4);
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const Uint8 *c10 = (Uint8 *) (ncsp + esx0[x]*4);
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const Uint8 *c11 = (Uint8 *) (ncsp + esx1[x]*4);
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Uint8 color[4];
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for( int c = 0; c < 4; ++c )
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{
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float x0, x1;
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x0 = c00[c] * ex0[x];
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x0 += c01[c] * (1-ex0[x]);
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x1 = c10[c] * ex0[x];
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x1 += c11[c] * (1-ex0[x]);
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const float res = (x0 * ey0[y]) + (x1 * (1-ey0[y]));
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color[c] = Uint8(res);
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}
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*(Uint32 *) dp = *(Uint32 *) color;
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/* Advance destination pointer. */
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dp += 4;
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}
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}
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}
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void zoomSurface( SDL_Surface *&src, int dstwidth, int dstheight )
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{
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if( src == NULL )
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return;
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while( src->w != dstwidth || src->h != dstheight )
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{
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float xscale = float(dstwidth)/src->w;
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float yscale = float(dstheight)/src->h;
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/* Our filter is a simple linear filter, so it can't scale to
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* less than .5 very well. If we need to go lower than .5, do
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* it iteratively. */
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xscale = max( xscale, .5f );
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yscale = max( yscale, .5f );
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int target_width = int(src->w*xscale + .5);
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int target_height = int(src->h*yscale + .5);
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SDL_Surface *dst =
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SDL_CreateRGBSurface(SDL_SWSURFACE, target_width, target_height, 32,
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src->format->Rmask, src->format->Gmask,
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src->format->Bmask, src->format->Amask);
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ZoomSurface( src, dst );
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SDL_FreeSurface(src);
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src = dst;
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}
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}
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