mirror of https://github.com/mpv-player/mpv
643 lines
21 KiB
C
643 lines
21 KiB
C
#undef WITH_NO_ANTIALIASING
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/* SPUdec.c
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Skeleton of function spudec_process_controll() is from xine sources.
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Further works:
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LGB,... (yeah, try to improve it and insert your name here! ;-)
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Kim Minh Kaplan
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implement fragments reassembly, RLE decoding.
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read brightness from the IFO.
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For information on SPU format see <URL:http://sam.zoy.org/doc/dvd/subtitles/>
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and <URL:http://members.aol.com/mpucoder/DVD/spu.html>
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*/
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#include "config.h"
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#include "mp_msg.h"
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#include <errno.h>
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#include <limits.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#ifndef WITH_NO_ANTIALIASING
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#include <math.h>
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#endif
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#include "spudec.h"
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#define MIN(a, b) ((a)<(b)?(a):(b))
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typedef struct {
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unsigned int global_palette[16];
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unsigned int orig_frame_width, orig_frame_height;
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unsigned char* packet;
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size_t packet_reserve; /* size of the memory pointed to by packet */
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unsigned int packet_offset; /* end of the currently assembled fragment */
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unsigned int packet_size; /* size of the packet once all fragments are assembled */
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unsigned int control_start; /* index of start of control data */
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unsigned int palette[4];
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unsigned int alpha[4];
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unsigned int now_pts;
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unsigned int start_pts, end_pts;
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unsigned int start_col, end_col;
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unsigned int start_row, end_row;
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unsigned int width, height, stride;
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unsigned int current_nibble[2]; /* next data nibble (4 bits) to be
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processed (for RLE decoding) for
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even and odd lines */
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int deinterlace_oddness; /* 0 or 1, index into current_nibble */
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size_t image_size; /* Size of the image buffer */
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unsigned char *image; /* Grayscale value */
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unsigned char *aimage; /* Alpha value */
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int scaled; /* flag if the image has already been scaled */
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unsigned int scaled_start_col, scaled_start_row;
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unsigned int scaled_width, scaled_height, scaled_stride;
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size_t scaled_image_size;
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unsigned char *scaled_image;
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unsigned char *scaled_aimage;
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} spudec_handle_t;
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static inline unsigned int get_be16(const unsigned char *p)
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{
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return (p[0] << 8) + p[1];
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}
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static inline unsigned int get_be24(const unsigned char *p)
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{
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return (get_be16(p) << 8) + p[2];
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}
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static void next_line(spudec_handle_t *this)
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{
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if (this->current_nibble[this->deinterlace_oddness] % 2)
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this->current_nibble[this->deinterlace_oddness]++;
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this->deinterlace_oddness = (this->deinterlace_oddness + 1) % 2;
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}
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static inline unsigned char get_nibble(spudec_handle_t *this)
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{
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unsigned char nib;
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unsigned int *nibblep = this->current_nibble + this->deinterlace_oddness;
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if (*nibblep / 2 >= this->control_start) {
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mp_msg(MSGT_SPUDEC,MSGL_WARN, "SPUdec: ERROR: get_nibble past end of packet\n");
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return 0;
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}
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nib = this->packet[*nibblep / 2];
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if (*nibblep % 2)
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nib &= 0xf;
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else
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nib >>= 4;
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++*nibblep;
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return nib;
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}
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static inline int mkalpha(int i)
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{
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/* In mplayer's alpha planes, 0 is transparent, then 1 is nearly
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opaque upto 255 which is transparent */
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switch (i) {
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case 0xf:
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return 1;
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case 0:
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return 0;
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default:
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return (0xf - i) << 4;
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}
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}
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static void spudec_process_data(spudec_handle_t *this)
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{
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unsigned int cmap[4], alpha[4];
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unsigned int i, x, y;
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this->scaled = 0;
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for (i = 0; i < 4; ++i) {
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alpha[i] = mkalpha(this->alpha[i]);
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if (alpha[i] == 0)
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cmap[i] = 0;
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else {
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cmap[i] = ((this->global_palette[this->palette[i]] >> 16) & 0xff) - alpha[i];
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if (cmap[i] < 0)
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cmap[i] = 0;
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}
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}
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if (this->image_size < this->stride * this->height) {
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if (this->image != NULL) {
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free(this->image);
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this->image_size = 0;
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}
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this->image = malloc(2 * this->stride * this->height);
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if (this->image) {
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this->image_size = this->stride * this->height;
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this->aimage = this->image + this->image_size;
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}
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}
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if (this->image == NULL)
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return;
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/* Kludge: draw_alpha needs width multiple of 8. */
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if (this->width < this->stride)
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for (y = 0; y < this->height; ++y)
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memset(this->aimage + y * this->stride + this->width, 0, this->stride - this->width);
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i = this->current_nibble[1];
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x = 0;
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y = 0;
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while (this->current_nibble[0] < i
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&& this->current_nibble[1] / 2 < this->control_start
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&& y < this->height) {
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unsigned int len, color;
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unsigned int rle = 0;
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rle = get_nibble(this);
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if (rle < 0x04) {
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rle = (rle << 4) | get_nibble(this);
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if (rle < 0x10) {
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rle = (rle << 4) | get_nibble(this);
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if (rle < 0x040) {
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rle = (rle << 4) | get_nibble(this);
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if (rle < 0x0004)
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rle |= ((this->width - x) << 2);
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}
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}
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}
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color = 3 - (rle & 0x3);
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len = rle >> 2;
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if (len > this->width - x || len == 0)
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len = this->width - x;
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/* FIXME have to use palette and alpha map*/
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memset(this->image + y * this->stride + x, cmap[color], len);
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memset(this->aimage + y * this->stride + x, alpha[color], len);
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x += len;
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if (x >= this->width) {
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next_line(this);
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x = 0;
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++y;
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}
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}
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}
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static void spudec_process_control(spudec_handle_t *this, unsigned int pts100)
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{
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int a,b; /* Temporary vars */
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unsigned int date, type;
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unsigned int off;
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unsigned int start_off = 0;
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unsigned int next_off;
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this->control_start = get_be16(this->packet + 2);
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next_off = this->control_start;
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while (start_off != next_off) {
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start_off = next_off;
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date = get_be16(this->packet + start_off);
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next_off = get_be16(this->packet + start_off + 2);
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mp_msg(MSGT_SPUDEC,MSGL_DBG2, "date=%d\n", date);
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off = start_off + 4;
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for (type = this->packet[off++]; type != 0xff; type = this->packet[off++]) {
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mp_msg(MSGT_SPUDEC,MSGL_DBG2, "cmd=%d ",type);
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switch(type) {
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case 0x00:
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/* Menu ID, 1 byte */
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Menu ID\n");
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break;
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case 0x01:
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/* Start display */
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Start display!\n");
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this->start_pts = pts100 + date;
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this->end_pts = UINT_MAX;
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break;
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case 0x02:
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/* Stop display */
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Stop display!\n");
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this->end_pts = pts100 + date;
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break;
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case 0x03:
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/* Palette */
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this->palette[0] = this->packet[off] >> 4;
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this->palette[1] = this->packet[off] & 0xf;
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this->palette[2] = this->packet[off + 1] >> 4;
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this->palette[3] = this->packet[off + 1] & 0xf;
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Palette %d, %d, %d, %d\n",
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this->palette[0], this->palette[1], this->palette[2], this->palette[3]);
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off+=2;
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break;
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case 0x04:
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/* Alpha */
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this->alpha[0] = this->packet[off] >> 4;
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this->alpha[1] = this->packet[off] & 0xf;
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this->alpha[2] = this->packet[off + 1] >> 4;
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this->alpha[3] = this->packet[off + 1] & 0xf;
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Alpha %d, %d, %d, %d\n",
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this->alpha[0], this->alpha[1], this->alpha[2], this->alpha[3]);
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off+=2;
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break;
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case 0x05:
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/* Co-ords */
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a = get_be24(this->packet + off);
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b = get_be24(this->packet + off + 3);
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this->start_col = a >> 12;
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this->end_col = a & 0xfff;
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this->width = (this->end_col < this->start_col) ? 0 : this->end_col - this->start_col + 1;
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this->stride = (this->width + 7) & ~7; /* Kludge: draw_alpha needs width multiple of 8 */
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this->start_row = b >> 12;
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this->end_row = b & 0xfff;
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this->height = (this->end_row < this->start_row) ? 0 : this->end_row - this->start_row /* + 1 */;
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Coords col: %d - %d row: %d - %d (%dx%d)\n",
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this->start_col, this->end_col, this->start_row, this->end_row,
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this->width, this->height);
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off+=6;
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break;
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case 0x06:
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/* Graphic lines */
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this->current_nibble[0] = 2 * get_be16(this->packet + off);
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this->current_nibble[1] = 2 * get_be16(this->packet + off + 2);
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Graphic offset 1: %d offset 2: %d\n",
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this->current_nibble[0] / 2, this->current_nibble[1] / 2);
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off+=4;
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break;
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case 0xff:
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/* All done, bye-bye */
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"Done!\n");
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return;
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// break;
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default:
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mp_msg(MSGT_SPUDEC,MSGL_WARN,"spudec: Error determining control type 0x%02x. Skipping %d bytes.\n",
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type, next_off - off);
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goto next_control;
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}
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}
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next_control:
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;
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}
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}
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static void spudec_decode(spudec_handle_t *this, unsigned int pts100)
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{
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spudec_process_control(this, pts100);
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spudec_process_data(this);
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}
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void spudec_assemble(void *this, unsigned char *packet, unsigned int len, unsigned int pts100)
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{
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spudec_handle_t *spu = (spudec_handle_t*)this;
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// spudec_heartbeat(this, pts100);
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if (len < 2) {
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mp_msg(MSGT_SPUDEC,MSGL_WARN,"SPUasm: packet too short\n");
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return;
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}
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if (spu->packet_offset == 0) {
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unsigned int len2 = get_be16(packet);
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// Start new fragment
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if (spu->packet_reserve < len2) {
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if (spu->packet != NULL)
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free(spu->packet);
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spu->packet = malloc(len2);
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spu->packet_reserve = spu->packet != NULL ? len2 : 0;
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}
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if (spu->packet != NULL) {
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spu->deinterlace_oddness = 0;
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spu->packet_size = len2;
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if (len > len2) {
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mp_msg(MSGT_SPUDEC,MSGL_WARN,"SPUasm: invalid frag len / len2: %d / %d \n", len, len2);
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return;
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}
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memcpy(spu->packet, packet, len);
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spu->packet_offset = len;
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}
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} else {
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// Continue current fragment
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if (spu->packet_size < spu->packet_offset + len){
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mp_msg(MSGT_SPUDEC,MSGL_WARN,"SPUasm: invalid fragment\n");
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spu->packet_size = spu->packet_offset = 0;
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} else {
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memcpy(spu->packet + spu->packet_offset, packet, len);
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spu->packet_offset += len;
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}
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}
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#if 1
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// check if we have a complete packet (unfortunatelly packet_size is bad
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// for some disks)
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// if (spu->packet_offset == spu->packet_size)
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{ unsigned int x=0,y;
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while(x+4<=spu->packet_offset){
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y=get_be16(spu->packet+x+2); // next control pointer
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"SPUtest: x=%d y=%d off=%d size=%d\n",x,y,spu->packet_offset,spu->packet_size);
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if(x>=4 && x==y){ // if it points to self - we're done!
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// we got it!
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mp_msg(MSGT_SPUDEC,MSGL_DBG2,"SPUgot: off=%d size=%d \n",spu->packet_offset,spu->packet_size);
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spudec_decode(spu, pts100);
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spu->packet_offset = 0;
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break;
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}
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if(y<=x || y>=spu->packet_size){ // invalid?
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mp_msg(MSGT_SPUDEC,MSGL_WARN,"SPUtest: broken packet!!!!! y=%d < x=%d\n",y,x);
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spu->packet_size = spu->packet_offset = 0;
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break;
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}
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x=y;
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}
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}
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#else
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if (spu->packet_offset == spu->packet_size) {
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spudec_decode(spu, pts100);
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spu->packet_offset = 0;
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}
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#endif
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}
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void spudec_reset(void *this) // called after seek
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{
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spudec_handle_t *spu = (spudec_handle_t*)this;
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spu->now_pts = 0;
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spu->packet_size = spu->packet_offset = 0;
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}
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void spudec_heartbeat(void *this, unsigned int pts100)
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{
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((spudec_handle_t *)this)->now_pts = pts100;
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}
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void spudec_draw(void *this, void (*draw_alpha)(int x0,int y0, int w,int h, unsigned char* src, unsigned char *srca, int stride))
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{
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spudec_handle_t *spu = (spudec_handle_t *)this;
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if (spu->start_pts <= spu->now_pts && spu->now_pts < spu->end_pts && spu->image)
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draw_alpha(spu->start_col, spu->start_row, spu->width, spu->height,
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spu->image, spu->aimage, spu->stride);
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}
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/* transform mplayer's alpha value into an opacity value that is linear */
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static inline int canon_alpha(int alpha)
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{
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return alpha ? 256 - alpha : 0;
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}
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void spudec_draw_scaled(void *me, unsigned int dxs, unsigned int dys, void (*draw_alpha)(int x0,int y0, int w,int h, unsigned char* src, unsigned char *srca, int stride))
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{
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spudec_handle_t *spu = (spudec_handle_t *)me;
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if (spu->start_pts <= spu->now_pts && spu->now_pts < spu->end_pts) {
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if (spu->orig_frame_width == 0 || spu->orig_frame_height == 0
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|| (spu->orig_frame_width == dxs && spu->orig_frame_height == dys)) {
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if (spu->image)
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draw_alpha(spu->start_col, spu->start_row, spu->width, spu->height,
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spu->image, spu->aimage, spu->stride);
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}
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else {
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if (!spu->scaled) { /* Resizing is needed */
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/* scaled_x = scalex * x / 0x100
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scaled_y = scaley * y / 0x100
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order of operations is important because of rounding. */
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unsigned int scalex = 0x100 * dxs / spu->orig_frame_width;
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unsigned int scaley = 0x100 * dys / spu->orig_frame_height;
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spu->scaled_start_col = spu->start_col * scalex / 0x100;
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spu->scaled_start_row = spu->start_row * scaley / 0x100;
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spu->scaled_width = spu->width * scalex / 0x100;
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spu->scaled_height = spu->height * scaley / 0x100;
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/* Kludge: draw_alpha needs width multiple of 8 */
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spu->scaled_stride = (spu->scaled_width + 7) & ~7;
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if (spu->scaled_image_size < spu->scaled_stride * spu->scaled_height) {
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if (spu->scaled_image) {
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free(spu->scaled_image);
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spu->scaled_image_size = 0;
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}
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spu->scaled_image = malloc(2 * spu->scaled_stride * spu->scaled_height);
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if (spu->scaled_image) {
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spu->scaled_image_size = spu->scaled_stride * spu->scaled_height;
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spu->scaled_aimage = spu->scaled_image + spu->scaled_image_size;
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}
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}
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if (spu->scaled_image) {
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unsigned int x, y;
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/* Kludge: draw_alpha needs width multiple of 8. */
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if (spu->scaled_width < spu->scaled_stride)
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for (y = 0; y < spu->scaled_height; ++y) {
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memset(spu->scaled_aimage + y * spu->scaled_stride + spu->scaled_width, 0,
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spu->scaled_stride - spu->scaled_width);
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/* FIXME: Why is this one needed? */
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memset(spu->scaled_image + y * spu->scaled_stride + spu->scaled_width, 0,
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spu->scaled_stride - spu->scaled_width);
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}
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#ifdef WITH_NO_ANTIALIASING
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for (y = 0; y < spu->scaled_height; ++y) {
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int unscaled_y = y * 0x100 / scaley;
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int strides = spu->stride * unscaled_y;
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int scaled_strides = spu->scaled_stride * y;
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for (x = 0; x < spu->scaled_width; ++x) {
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int unscaled_x = x * 0x100 / scalex;
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spu->scaled_image[scaled_strides + x] = spu->image[strides + unscaled_x];
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spu->scaled_aimage[scaled_strides + x] = spu->aimage[strides + unscaled_x];
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}
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}
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#else
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{
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/* Any pixel (x, y) represents pixels from the original
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rectangular region comprised between the columns
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unscaled_y and unscaled_y + 0x100 / scaley and the rows
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unscaled_x and unscaled_x + 0x100 / scalex
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The original rectangular region that the scaled pixel
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represents is cut in 9 rectangular areas like this:
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+---+-----------------+---+
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| 1 | 2 | 3 |
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+---+-----------------+---+
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| | | |
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| 4 | 5 | 6 |
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| | | |
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+---+-----------------+---+
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| 7 | 8 | 9 |
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+---+-----------------+---+
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The width of the left column is at most one pixel and
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it is never null and its right column is at a pixel
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boundary. The height of the top row is at most one
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pixel it is never null and its bottom row is at a
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pixel boundary. The width and height of region 5 are
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integral values. The width of the right column is
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what remains and is less than one pixel. The height
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of the bottom row is what remains and is less than
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one pixel.
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The row above 1, 2, 3 is unscaled_y. The row between
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1, 2, 3 and 4, 5, 6 is top_low_row. The row between 4,
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5, 6 and 7, 8, 9 is (unsigned int)unscaled_y_bottom.
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The row beneath 7, 8, 9 is unscaled_y_bottom.
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The column left of 1, 4, 7 is unscaled_x. The column
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between 1, 4, 7 and 2, 5, 8 is left_right_column. The
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column between 2, 5, 8 and 3, 6, 9 is (unsigned
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int)unscaled_x_right. The column right of 3, 6, 9 is
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unscaled_x_right. */
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const double inv_scalex = (double) 0x100 / scalex;
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const double inv_scaley = (double) 0x100 / scaley;
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for (y = 0; y < spu->scaled_height; ++y) {
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const double unscaled_y = y * inv_scaley;
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const double unscaled_y_bottom = unscaled_y + inv_scaley;
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const unsigned int top_low_row = MIN(unscaled_y_bottom, unscaled_y + 1.0);
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const double top = top_low_row - unscaled_y;
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const unsigned int height = unscaled_y_bottom > top_low_row
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? (unsigned int) unscaled_y_bottom - top_low_row
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: 0;
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const double bottom = unscaled_y_bottom > top_low_row
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? unscaled_y_bottom - floor(unscaled_y_bottom)
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: 0.0;
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for (x = 0; x < spu->scaled_width; ++x) {
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const double unscaled_x = x * inv_scalex;
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const double unscaled_x_right = unscaled_x + inv_scalex;
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const unsigned int left_right_column = MIN(unscaled_x_right, unscaled_x + 1.0);
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const double left = left_right_column - unscaled_x;
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const unsigned int width = unscaled_x_right > left_right_column
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? (unsigned int) unscaled_x_right - left_right_column
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: 0;
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const double right = unscaled_x_right > left_right_column
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? unscaled_x_right - floor(unscaled_x_right)
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: 0.0;
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double color = 0.0;
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double alpha = 0.0;
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double tmp;
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unsigned int base;
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/* Now use these informations to compute a good alpha,
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and lightness. The sum is on each of the 9
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region's surface and alpha and lightness.
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transformed alpha = sum(surface * alpha) / sum(surface)
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transformed color = sum(surface * alpha * color) / sum(surface * alpha)
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*/
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/* 1: top left part */
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base = spu->stride * (unsigned int) unscaled_y;
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tmp = left * top * canon_alpha(spu->aimage[base + (unsigned int) unscaled_x]);
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alpha += tmp;
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color += tmp * spu->image[base + (unsigned int) unscaled_x];
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/* 2: top center part */
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if (width > 0) {
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unsigned int walkx;
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for (walkx = left_right_column; walkx < (unsigned int) unscaled_x_right; ++walkx) {
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base = spu->stride * (unsigned int) unscaled_y + walkx;
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tmp = /* 1.0 * */ top * canon_alpha(spu->aimage[base]);
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alpha += tmp;
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color += tmp * spu->image[base];
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}
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}
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/* 3: top right part */
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if (right > 0.0) {
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base = spu->stride * (unsigned int) unscaled_y + (unsigned int) unscaled_x_right;
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tmp = right * top * canon_alpha(spu->aimage[base]);
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alpha += tmp;
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color += tmp * spu->image[base];
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}
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/* 4: center left part */
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if (height > 0) {
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unsigned int walky;
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for (walky = top_low_row; walky < (unsigned int) unscaled_y_bottom; ++walky) {
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base = spu->stride * walky + (unsigned int) unscaled_x;
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tmp = left /* * 1.0 */ * canon_alpha(spu->aimage[base]);
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alpha += tmp;
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color += tmp * spu->image[base];
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}
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}
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/* 5: center part */
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if (width > 0 && height > 0) {
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unsigned int walky;
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for (walky = top_low_row; walky < (unsigned int) unscaled_y_bottom; ++walky) {
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unsigned int walkx;
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base = spu->stride * walky;
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for (walkx = left_right_column; walkx < (unsigned int) unscaled_x_right; ++walkx) {
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tmp = /* 1.0 * 1.0 * */ canon_alpha(spu->aimage[base + walkx]);
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alpha += tmp;
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color += tmp * spu->image[base + walkx];
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}
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}
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}
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/* 6: center right part */
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if (right > 0.0 && height > 0) {
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unsigned int walky;
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for (walky = top_low_row; walky < (unsigned int) unscaled_y_bottom; ++walky) {
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base = spu->stride * walky + (unsigned int) unscaled_x_right;
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tmp = right /* * 1.0 */ * canon_alpha(spu->aimage[base]);
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alpha += tmp;
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color += tmp * spu->image[base];
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}
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}
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/* 7: bottom left part */
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if (bottom > 0.0) {
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base = spu->stride * (unsigned int) unscaled_y_bottom + (unsigned int) unscaled_x;
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tmp = left * bottom * canon_alpha(spu->aimage[base]);
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alpha += tmp;
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color += tmp * spu->image[base];
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}
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/* 8: bottom center part */
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if (width > 0 && bottom > 0.0) {
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unsigned int walkx;
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base = spu->stride * (unsigned int) unscaled_y_bottom;
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for (walkx = left_right_column; walkx < (unsigned int) unscaled_x_right; ++walkx) {
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tmp = /* 1.0 * */ bottom * canon_alpha(spu->aimage[base + walkx]);
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alpha += tmp;
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color += tmp * spu->image[base + walkx];
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}
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}
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/* 9: bottom right part */
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if (right > 0.0 && bottom > 0.0) {
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base = spu->stride * (unsigned int) unscaled_y_bottom + (unsigned int) unscaled_x_right;
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tmp = right * bottom * canon_alpha(spu->aimage[base]);
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alpha += tmp;
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color += tmp * spu->image[base];
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}
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/* Finally mix these transparency and brightness information suitably */
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base = spu->scaled_stride * y + x;
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spu->scaled_image[base] = color / alpha;
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spu->scaled_aimage[base] = alpha * scalex * scaley / 0x10000;
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if (spu->scaled_aimage[base]) {
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spu->scaled_aimage[base] = 256 - spu->scaled_aimage[base];
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if (spu->scaled_aimage[base] + spu->scaled_image[base] > 255)
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spu->scaled_image[base] = 256 - spu->scaled_aimage[base];
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}
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}
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}
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}
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#endif
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spu->scaled = 1;
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}
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}
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if (spu->scaled_image)
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draw_alpha(spu->scaled_start_col, spu->scaled_start_row, spu->scaled_width, spu->scaled_height,
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spu->scaled_image, spu->scaled_aimage, spu->scaled_stride);
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}
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}
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}
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void *spudec_new_scaled(unsigned int *palette, unsigned int frame_width, unsigned int frame_height)
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{
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spudec_handle_t *this = calloc(1, sizeof(spudec_handle_t));
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if (this) {
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if (palette)
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memcpy(this->global_palette, palette, sizeof(this->global_palette));
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this->packet = NULL;
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this->image = NULL;
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this->scaled_image = NULL;
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this->orig_frame_width = frame_width;
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this->orig_frame_height = frame_height;
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}
|
|
else
|
|
perror("FATAL: spudec_init: calloc");
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return this;
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}
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|
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void *spudec_new(unsigned int *palette)
|
|
{
|
|
return spudec_new_scaled(palette, 0, 0);
|
|
}
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void spudec_free(void *this)
|
|
{
|
|
spudec_handle_t *spu = (spudec_handle_t*)this;
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if (spu) {
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if (spu->packet)
|
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free(spu->packet);
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if (spu->scaled_image)
|
|
free(spu->scaled_image);
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if (spu->image)
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|
free(spu->image);
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|
free(spu);
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}
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|
}
|