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3743c83ace
Fix compilation under MSVC due to references to headers that are not available with the MS SDKs. Fixes #578524
460 lines
12 KiB
C
460 lines
12 KiB
C
/* synaescope.cpp
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* Copyright (C) 1999,2002 Richard Boulton <richard@tartarus.org>
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*
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* Much code copied from Synaesthesia - a program to display sound
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* graphically, by Paul Francis Harrison <pfh@yoyo.cc.monash.edu.au>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "synaescope.h"
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#include <pthread.h>
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#include <dirent.h>
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#include <sys/stat.h>
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#ifndef _MSC_VER
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#include <sys/time.h>
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#include <time.h>
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#endif
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#include <math.h>
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#include <stdio.h>
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#include <stdlib.h>
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#ifndef _MSC_VER
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#include <unistd.h>
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#endif
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#include <string.h>
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#include <assert.h>
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#ifdef G_OS_WIN32
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#ifndef M_PI
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#define M_PI 3.14159265358979323846
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#endif
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#endif
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#define SCOPE_BG_RED 0
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#define SCOPE_BG_GREEN 0
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#define SCOPE_BG_BLUE 0
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#define brightMin 200
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#define brightMax 2000
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#define brightDec 10
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#define brightInc 6
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#define brTotTargetLow 5000
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#define brTotTargetHigh 15000
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#define BOUND(x) ((x) > 255 ? 255 : (x))
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#define PEAKIFY(x) BOUND((x) - (x)*(255-(x))/255/2)
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/* Instance data */
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struct syn_instance
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{
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/* options */
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unsigned int resx, resy;
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int autobrightness; /* Whether to use automatic brightness adjust */
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unsigned int brightFactor;
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/* data */
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unsigned char *output;
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guint32 *display;
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gint16 pcmt_l[FFT_BUFFER_SIZE];
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gint16 pcmt_r[FFT_BUFFER_SIZE];
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gint16 pcm_l[FFT_BUFFER_SIZE];
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gint16 pcm_r[FFT_BUFFER_SIZE];
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double fftout_l[FFT_BUFFER_SIZE];
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double fftout_r[FFT_BUFFER_SIZE];
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double corr_l[FFT_BUFFER_SIZE];
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double corr_r[FFT_BUFFER_SIZE];
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int clarity[FFT_BUFFER_SIZE]; /* Surround sound */
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/* pre calculated values */
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int heightFactor;
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int heightAdd;
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double brightFactor2;
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};
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/* Shared lookup tables for the FFT */
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static double fftmult[FFT_BUFFER_SIZE / 2 + 1];
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static double cosTable[FFT_BUFFER_SIZE];
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static double negSinTable[FFT_BUFFER_SIZE];
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static int bitReverse[FFT_BUFFER_SIZE];
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/* Shared lookup tables for colors */
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static int scaleDown[256];
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static guint32 colEq[256];
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static void synaes_fft (double *x, double *y);
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static void synaescope_coreGo (syn_instance * si);
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static inline void
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addPixel (syn_instance * si, int x, int y, int br1, int br2)
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{
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unsigned char *p;
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if (G_UNLIKELY (x < 0 || x >= si->resx || y < 0 || y >= si->resy))
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return;
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p = si->output + x * 2 + y * si->resx * 2;
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if (p[0] < 255 - br1)
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p[0] += br1;
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else
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p[0] = 255;
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if (p[1] < 255 - br2)
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p[1] += br2;
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else
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p[1] = 255;
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}
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static inline void
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addPixelFast (unsigned char *p, int br1, int br2)
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{
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if (p[0] < 255 - br1)
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p[0] += br1;
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else
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p[0] = 255;
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if (p[1] < 255 - br2)
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p[1] += br2;
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else
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p[1] = 255;
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}
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static void
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synaescope_coreGo (syn_instance * si)
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{
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int i, j;
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register guint32 *ptr;
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register guint32 *end;
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long int brtot = 0;
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memcpy (si->pcm_l, si->pcmt_l, sizeof (si->pcm_l));
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memcpy (si->pcm_r, si->pcmt_r, sizeof (si->pcm_r));
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for (i = 0; i < FFT_BUFFER_SIZE; i++) {
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si->fftout_l[i] = si->pcm_l[i];
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si->fftout_r[i] = si->pcm_r[i];
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}
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synaes_fft (si->fftout_l, si->fftout_r);
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for (i = 0 + 1; i < FFT_BUFFER_SIZE; i++) {
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double x1 = si->fftout_l[bitReverse[i]];
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double y1 = si->fftout_r[bitReverse[i]];
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double x2 = si->fftout_l[bitReverse[FFT_BUFFER_SIZE - i]];
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double y2 = si->fftout_r[bitReverse[FFT_BUFFER_SIZE - i]];
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double aa, bb;
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si->corr_l[i] = sqrt (aa = (x1 + x2) * (x1 + x2) + (y1 - y2) * (y1 - y2));
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si->corr_r[i] = sqrt (bb = (x1 - x2) * (x1 - x2) + (y1 + y2) * (y1 + y2));
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si->clarity[i] = (int) (
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((x1 + x2) * (x1 - x2) + (y1 + y2) * (y1 - y2)) / (aa + bb) * 256);
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}
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/* Asger Alstrupt's optimized 32 bit fade */
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/* (alstrup@diku.dk) */
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ptr = (guint32 *) si->output;
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end = (guint32 *) (si->output + si->resx * si->resy * 2);
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do {
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/*Bytewize version was: *(ptr++) -= *ptr+(*ptr>>1)>>4; */
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if (*ptr) {
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if (*ptr & 0xf0f0f0f0) {
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*ptr = *ptr - ((*ptr & 0xf0f0f0f0) >> 4) - ((*ptr & 0xe0e0e0e0) >> 5);
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} else {
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*ptr = (*ptr * 14 >> 4) & 0x0f0f0f0f;
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/*Should be 29/32 to be consistent. Who cares. This is totally */
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/* hacked anyway. */
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/*unsigned char *subptr = (unsigned char*)(ptr++); */
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/*subptr[0] = (int)subptr[0] * 29 / 32; */
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/*subptr[1] = (int)subptr[0] * 29 / 32; */
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/*subptr[2] = (int)subptr[0] * 29 / 32; */
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/*subptr[3] = (int)subptr[0] * 29 / 32; */
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}
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}
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ptr++;
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} while (ptr < end);
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for (i = 1; i < FFT_BUFFER_SIZE / 2; i++) {
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if (si->corr_l[i] > 0 || si->corr_r[i] > 0) {
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int br1, br2;
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double fc = si->corr_l[i] + si->corr_r[i];
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int br = (int) (fc * i * si->brightFactor2);
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int px = (int) (si->corr_r[i] * si->resx / fc);
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int py = si->heightAdd - i / si->heightFactor;
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brtot += br;
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br1 = br * (si->clarity[i] + 128) >> 8;
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br2 = br * (128 - si->clarity[i]) >> 8;
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br1 = CLAMP (br1, 0, 255);
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br2 = CLAMP (br2, 0, 255);
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/* if we are close to a border */
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if (px < 30 || py < 30 || px > si->resx - 30 || py > si->resy - 30) {
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/* draw a spark */
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addPixel (si, px, py, br1, br2);
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for (j = 1; br1 > 0 || br2 > 0;
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j++, br1 = scaleDown[br1], br2 = scaleDown[br2]) {
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addPixel (si, px + j, py, br1, br2);
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addPixel (si, px, py + j, br1, br2);
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addPixel (si, px - j, py, br1, br2);
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addPixel (si, px, py - j, br1, br2);
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}
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} else {
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unsigned char *p = si->output + px * 2 + py * si->resx * 2;
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unsigned char *p1 = p, *p2 = p, *p3 = p, *p4 = p;
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/* draw a spark */
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addPixelFast (p, br1, br2);
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for (; br1 > 0 || br2 > 0; br1 = scaleDown[br1], br2 = scaleDown[br2]) {
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p1 += 2;
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addPixelFast (p1, br1, br2);
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p2 -= 2;
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addPixelFast (p2, br1, br2);
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p3 += si->resx * 2;
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addPixelFast (p3, br1, br2);
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p4 -= si->resx * 2;
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addPixelFast (p4, br1, br2);
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}
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}
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}
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}
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/* Apply autoscaling: makes quiet bits brighter, and loud bits
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* darker, but still keeps loud bits brighter than quiet bits. */
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if (brtot != 0 && si->autobrightness) {
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long int brTotTarget = brTotTargetHigh;
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if (brightMax != brightMin) {
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brTotTarget -= ((brTotTargetHigh - brTotTargetLow) *
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(si->brightFactor - brightMin)) / (brightMax - brightMin);
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}
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if (brtot < brTotTarget) {
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si->brightFactor += brightInc;
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if (si->brightFactor > brightMax)
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si->brightFactor = brightMax;
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} else {
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si->brightFactor -= brightDec;
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if (si->brightFactor < brightMin)
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si->brightFactor = brightMin;
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}
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/* printf("brtot: %ld\tbrightFactor: %d\tbrTotTarget: %d\n",
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brtot, brightFactor, brTotTarget); */
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}
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}
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static void
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synaescope32 (syn_instance * si)
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{
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unsigned char *outptr;
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int i;
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synaescope_coreGo (si);
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outptr = si->output;
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for (i = 0; i < si->resx * si->resy; i++) {
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si->display[i] = colEq[(outptr[0] >> 4) + (outptr[1] & 0xf0)];
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outptr += 2;
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}
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}
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static int
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bitReverser (int i)
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{
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int sum = 0;
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int j;
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for (j = 0; j < FFT_BUFFER_SIZE_LOG; j++) {
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sum = (i & 1) + sum * 2;
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i >>= 1;
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}
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return sum;
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}
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static void
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synaes_fft (double *x, double *y)
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{
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int n2 = FFT_BUFFER_SIZE;
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int n1;
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int twoToTheK;
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int j;
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for (twoToTheK = 1; twoToTheK < FFT_BUFFER_SIZE; twoToTheK *= 2) {
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n1 = n2;
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n2 /= 2;
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for (j = 0; j < n2; j++) {
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double c = cosTable[j * twoToTheK & (FFT_BUFFER_SIZE - 1)];
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double s = negSinTable[j * twoToTheK & (FFT_BUFFER_SIZE - 1)];
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int i;
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for (i = j; i < FFT_BUFFER_SIZE; i += n1) {
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int l = i + n2;
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double xt = x[i] - x[l];
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double yt = y[i] - y[l];
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x[i] = (x[i] + x[l]);
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y[i] = (y[i] + y[l]);
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x[l] = xt * c - yt * s;
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y[l] = xt * s + yt * c;
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}
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}
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}
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}
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static void
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synaescope_set_data (syn_instance * si, gint16 data[2][FFT_BUFFER_SIZE])
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{
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int i;
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gint16 *newset_l = si->pcmt_l;
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gint16 *newset_r = si->pcmt_r;
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for (i = 0; i < FFT_BUFFER_SIZE; i++) {
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newset_l[i] = data[0][i];
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newset_r[i] = data[1][i];
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}
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}
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guint32 *
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synaesthesia_update (syn_instance * si, gint16 data[2][FFT_BUFFER_SIZE])
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{
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synaescope_set_data (si, data);
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synaescope32 (si);
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return si->display;
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}
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void
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synaesthesia_init ()
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{
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static int inited = 0;
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int i;
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if (inited)
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return;
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for (i = 0; i <= FFT_BUFFER_SIZE / 2 + 1; i++) {
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double mult = (double) 128 / ((FFT_BUFFER_SIZE * 16384) ^ 2);
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/* Result now guaranteed (well, almost) to be in range 0..128 */
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/* Low values represent more frequencies, and thus get more */
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/* intensity - this helps correct for that. */
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mult *= log (i + 1) / log (2);
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mult *= 3; /* Adhoc parameter, looks about right for me. */
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fftmult[i] = mult;
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}
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for (i = 0; i < FFT_BUFFER_SIZE; i++) {
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negSinTable[i] = -sin (M_PI * 2 / FFT_BUFFER_SIZE * i);
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cosTable[i] = cos (M_PI * 2 / FFT_BUFFER_SIZE * i);
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bitReverse[i] = bitReverser (i);
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}
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for (i = 0; i < 256; i++)
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scaleDown[i] = i * 200 >> 8;
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for (i = 0; i < 256; i++) {
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int red = PEAKIFY ((i & 15 * 16));
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int green = PEAKIFY ((i & 15) * 16 + (i & 15 * 16) / 4);
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int blue = PEAKIFY ((i & 15) * 16);
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colEq[i] = (red << 16) + (green << 8) + blue;
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}
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inited = 1;
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}
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gboolean
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synaesthesia_resize (syn_instance * si, guint resx, guint resy)
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{
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unsigned char *output = NULL;
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guint32 *display = NULL;
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double actualHeight;
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/* FIXME: FFT_BUFFER_SIZE is reated to resy, right now we get black borders on
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* top and below
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*/
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output = g_try_new (unsigned char, 2 * resx * resy);
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display = g_try_new (guint32, resx * resy);
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if (!output || !display)
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goto Error;
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g_free (si->output);
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g_free (si->display);
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si->resx = resx;
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si->resy = resy;
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si->output = output;
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si->display = display;
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/* factors for height scaling
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* the bigger FFT_BUFFER_SIZE, the more finegrained steps we have
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* should we report the real hight, so that xvimagesink can scale?
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*/
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// 512 values , resy=256 -> highFc=2
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si->heightFactor = FFT_BUFFER_SIZE / 2 / si->resy + 1;
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actualHeight = FFT_BUFFER_SIZE / 2 / si->heightFactor;
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si->heightAdd = (si->resy + actualHeight) / 2;
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/*printf ("resy=%u, heightFactor=%d, heightAdd=%d, actualHeight=%d\n",
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si->resy, si->heightFactor, si->heightAdd, actualHeight);
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*/
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/* Correct for window size */
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si->brightFactor2 = (si->brightFactor / 65536.0 / FFT_BUFFER_SIZE) *
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sqrt (actualHeight * si->resx / (320.0 * 200.0));
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return TRUE;
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Error:
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g_free (output);
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g_free (display);
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return FALSE;
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}
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syn_instance *
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synaesthesia_new (guint resx, guint resy)
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{
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syn_instance *si;
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si = g_try_new0 (syn_instance, 1);
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if (si == NULL)
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return NULL;
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if (!synaesthesia_resize (si, resx, resy)) {
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g_free (si);
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return NULL;
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}
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si->autobrightness = 1; /* Whether to use automatic brightness adjust */
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si->brightFactor = 400;
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return si;
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}
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void
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synaesthesia_close (syn_instance * si)
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{
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g_return_if_fail (si != NULL);
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g_free (si->output);
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g_free (si->display);
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g_free (si);
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}
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