/* * Copyright (C) 2003-2009 The Music Player Daemon Project * http://www.musicpd.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ /* * Imported from AudioCompress by J. Shagam */ #include "compress.h" #include #include #include #ifdef USE_X #include #include static Display *display; static Window window; static Visual *visual; static int screen; static GC blackGC, whiteGC, blueGC, yellowGC, dkyellowGC, redGC; #endif static int *peaks; static int gainCurrent, gainTarget; static struct { int show_mon; int anticlip; int target; int gainmax; int gainsmooth; unsigned buckets; } prefs; #ifdef USE_X static int mon_init; #endif void CompressCfg(int show_mon, int anticlip, int target, int gainmax, int gainsmooth, unsigned buckets) { static unsigned lastsize; prefs.show_mon = show_mon; prefs.anticlip = anticlip; prefs.target = target; prefs.gainmax = gainmax; prefs.gainsmooth = gainsmooth; prefs.buckets = buckets; /* Allocate the peak structure */ peaks = g_realloc(peaks, sizeof(int)*prefs.buckets); if (prefs.buckets > lastsize) memset(peaks + lastsize, 0, sizeof(int)*(prefs.buckets - lastsize)); lastsize = prefs.buckets; #ifdef USE_X /* Configure the monitor window if needed */ if (show_mon && !mon_init) { display = XOpenDisplay(getenv("DISPLAY")); /* We really shouldn't try to init X if there's no X */ if (!display) { fprintf(stderr, "X not detected; disabling monitor window\n"); show_mon = prefs.show_mon = 0; } } if (show_mon && !mon_init) { XGCValues gcv; XColor col; gainCurrent = gainTarget = (1 << GAINSHIFT); screen = DefaultScreen(display); visual = DefaultVisual(display, screen); window = XCreateSimpleWindow(display, RootWindow(display, screen), 0, 0, prefs.buckets, 128 + 8, 0, BlackPixel(display, screen), WhitePixel(display, screen)); XStoreName(display, window, "AudioCompress monitor"); gcv.foreground = BlackPixel(display, screen); blackGC = XCreateGC(display, window, GCForeground, &gcv); gcv.foreground = WhitePixel(display, screen); whiteGC = XCreateGC(display, window, GCForeground, &gcv); col.red = 0; col.green = 0; col.blue = 65535; XAllocColor(display, DefaultColormap(display, screen), &col); gcv.foreground = col.pixel; blueGC = XCreateGC(display, window, GCForeground, &gcv); col.red = 65535; col.green = 65535; col.blue = 0; XAllocColor(display, DefaultColormap(display, screen), &col); gcv.foreground = col.pixel; yellowGC = XCreateGC(display, window, GCForeground, &gcv); col.red = 32767; col.green = 32767; col.blue = 0; XAllocColor(display, DefaultColormap(display, screen), &col); gcv.foreground = col.pixel; dkyellowGC = XCreateGC(display, window, GCForeground, &gcv); col.red = 65535; col.green = 0; col.blue = 0; XAllocColor(display, DefaultColormap(display, screen), &col); gcv.foreground = col.pixel; redGC = XCreateGC(display, window, GCForeground, &gcv); mon_init = 1; } if (mon_init) { if (show_mon) XMapWindow(display, window); else XUnmapWindow(display, window); XResizeWindow(display, window, prefs.buckets, 128 + 8); XFlush(display); } #endif } void CompressFree(void) { #ifdef USE_X if (mon_init) { XFreeGC(display, blackGC); XFreeGC(display, whiteGC); XFreeGC(display, blueGC); XFreeGC(display, yellowGC); XFreeGC(display, dkyellowGC); XFreeGC(display, redGC); XDestroyWindow(display, window); XCloseDisplay(display); } #endif g_free(peaks); } void CompressDo(void *data, unsigned int length) { int16_t *audio = (int16_t *)data, *ap; int peak; unsigned int i, pos; int gr, gf, gn; static int pn = -1; #ifdef STATS static int clip; #endif static int clipped; if (!peaks) return; if (pn == -1) { for (i = 0; i < prefs.buckets; i++) peaks[i] = 0; } pn = (pn + 1)%prefs.buckets; #ifdef DEBUG fprintf(stderr, "modifyNative16(0x%08x, %d)\n",(unsigned int)data, length); #endif /* Determine peak's value and position */ peak = 1; pos = 0; #ifdef DEBUG fprintf(stderr, "finding peak(b=%d)\n", pn); #endif ap = audio; for (i = 0; i < length/2; i++) { int val = *ap; if (val > peak) { peak = val; pos = i; } else if (-val > peak) { peak = -val; pos = i; } ap++; } peaks[pn] = peak; /* Only draw if needed, of course */ #ifdef USE_X if (prefs.show_mon) { /* current amplitude */ XDrawLine(display, window, whiteGC, pn, 0, pn, 127 - (peaks[pn]*gainCurrent >> (GAINSHIFT + 8))); /* amplification */ XDrawLine(display, window, yellowGC, pn, 127 - (peaks[pn]*gainCurrent >> (GAINSHIFT + 8)), pn, 127); /* peak */ XDrawLine(display, window, blackGC, pn, 127 - (peaks[pn] >> 8), pn, 127); /* clip indicator */ if (clipped) XDrawLine(display, window, redGC, (pn + prefs.buckets - 1)%prefs.buckets, 126 - clipped/(length*512), (pn + prefs.buckets - 1)%prefs.buckets, 127); clipped = 0; /* target line */ /* XDrawPoint(display, window, redGC, */ /* pn, 127 - TARGET/256); */ /* amplification edge */ XDrawLine(display, window, dkyellowGC, pn, 127 - (peaks[pn]*gainCurrent >> (GAINSHIFT + 8)), pn - 1, 127 - (peaks[(pn + prefs.buckets - 1)%prefs.buckets]*gainCurrent >> (GAINSHIFT + 8))); } #endif for (i = 0; i < prefs.buckets; i++) { if (peaks[i] > peak) { peak = peaks[i]; pos = 0; } } /* Determine target gain */ gn = (1 << GAINSHIFT)*prefs.target/peak; if (gn <(1 << GAINSHIFT)) gn = 1 << GAINSHIFT; gainTarget = (gainTarget *((1 << prefs.gainsmooth) - 1) + gn) >> prefs.gainsmooth; /* Give it an extra insignifigant nudge to counteract possible ** rounding error */ if (gn < gainTarget) gainTarget--; else if (gn > gainTarget) gainTarget++; if (gainTarget > prefs.gainmax << GAINSHIFT) gainTarget = prefs.gainmax << GAINSHIFT; #ifdef USE_X if (prefs.show_mon) { int x; /* peak*gain */ XDrawPoint(display, window, redGC, pn, 127 - (peak*gainCurrent >> (GAINSHIFT + 8))); /* gain indicator */ XFillRectangle(display, window, whiteGC, 0, 128, prefs.buckets, 8); x = (gainTarget - (1 << GAINSHIFT))*prefs.buckets / ((prefs.gainmax - 1) << GAINSHIFT); XDrawLine(display, window, redGC, x, 128, x, 128 + 8); x = (gn - (1 << GAINSHIFT))*prefs.buckets / ((prefs.gainmax - 1) << GAINSHIFT); XDrawLine(display, window, blackGC, x, 132 - 1, x, 132 + 1); /* blue peak line */ XDrawLine(display, window, blueGC, 0, 127 - (peak >> 8), prefs.buckets, 127 - (peak >> 8)); XFlush(display); XDrawLine(display, window, whiteGC, 0, 127 - (peak >> 8), prefs.buckets, 127 - (peak >> 8)); } #endif /* See if a peak is going to clip */ gn = (1 << GAINSHIFT)*32768/peak; if (gn < gainTarget) { gainTarget = gn; if (prefs.anticlip) pos = 0; } else { /* We're ramping up, so draw it out over the whole frame */ pos = length; } /* Determine gain rate necessary to make target */ if (!pos) pos = 1; gr = ((gainTarget - gainCurrent) << 16)/(int)pos; /* Do the shiznit */ gf = gainCurrent << 16; #ifdef STATS fprintf(stderr, "\rgain = %2.2f%+.2e ", gainCurrent*1.0/(1 << GAINSHIFT), (gainTarget - gainCurrent)*1.0/(1 << GAINSHIFT)); #endif ap = audio; for (i = 0; i < length/2; i++) { int sample; /* Interpolate the gain */ gainCurrent = gf >> 16; if (i < pos) gf += gr; else if (i == pos) gf = gainTarget << 16; /* Amplify */ sample = (*ap)*gainCurrent >> GAINSHIFT; if (sample < -32768) { #ifdef STATS clip++; #endif clipped += -32768 - sample; sample = -32768; } else if (sample > 32767) { #ifdef STATS clip++; #endif clipped += sample - 32767; sample = 32767; } *ap++ = sample; } #ifdef STATS fprintf(stderr, "clip %d b%-3d ", clip, pn); #endif #ifdef DEBUG fprintf(stderr, "\ndone\n"); #endif }