/* TiMidity++ -- MIDI to WAVE converter and player Copyright (C) 1999-2002 Masanao Izumo Copyright (C) 1995 Tuukka Toivonen 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA mac_soundspec.c Macintosh interface for TiMidity by T.Nogami */ #ifdef HAVE_CONFIG_H #include "config.h" #endif /* HAVE_CONFIG_H */ #include #include #include #ifndef NO_STRING_H #include #else #include #endif #include "timidity.h" #include "common.h" #include "instrum.h" #include "playmidi.h" #include "output.h" #include "controls.h" #include "soundspec.h" #include "fft.h" #include "miditrace.h" #include "mac_main.h" #include "mac_skin.h" #define FFTSIZE 1024 /* Power of 2 */ #define SCOPE_HEIGHT 512 /* You can specified any positive value */ #define SCOPE_WIDTH 512 /* You can specified any positive value */ #define SCROLL_THRESHOLD 256 /* 1 <= SCROLL_THRESHOLD <= SCOPE_WIDTH */ #define NCOLOR 32768 /* 1 <= NCOLOR <= 255 */ /*#define AMP 0.35*/ #define AMP 1.0 /*#define AMP 0.27*/ #define DEFAULT_ZOOM (44100.0/1024.0*2.0) /* ~86Hz */ #define MIN_ZOOM 15.0 /* 15Hz is lower bound that human can be heard. */ #define MAX_ZOOM 440.0 #define DEFAULT_UPDATE 0.05 static int32 *ring_buffer = NULL; #define ring_buffer_len (8 * AUDIO_BUFFER_SIZE) static int ring_index; static int32 outcnt; static double exp_hz_table[SCOPE_HEIGHT+1]; int view_soundspec_flag = 0; int ctl_speana_flag = 0; int32 soundspec_update_interval = 0; static int32 next_wakeup_samples; static double soundspec_zoom = DEFAULT_ZOOM; static Boolean disp = NULL; #define win mac_SpecWindow static RGBColor color_ring[NCOLOR]; #define XCMAP(disp) XDefaultColormap(disp, DefaultScreen(disp)) typedef struct _rgb_t { double r, g, b; } rgb_t; static void hsv_to_rgb(double h, double s, double v, rgb_t *rgb) { double f; double i; double p1, p2, p3; if (s < 0) s = 0; if (v < 0) v = 0; if (s > 1) s = 1; if (v > 1) v = 1; h = fmod(h, 360.0); if (h < 0) h += 360; h /= 60; f = modf(h, &i); p1 = v * (1 - s); p2 = v * (1 - s * f); p3 = v * (1 - s * (1 - f)); switch ((int)i) { case 0: rgb->r = v; rgb->g = p3; rgb->b = p1; return; case 1: rgb->r = p2; rgb->g = v; rgb->b = p1; return; case 2: rgb->r = p1; rgb->g = v; rgb->b = p3; return; case 3: rgb->r = p1; rgb->g = p2; rgb->b = v; return; case 4: rgb->r = p3; rgb->g = p1; rgb->b = v; return; case 5: rgb->r = v; rgb->g = p1; rgb->b = p2; return; } return; } static double calc_color_diff(int r1, int g1, int b1, int r2, int g2, int b2) { double rd, gd, bd; rd = r2 - r1; gd = g2 - g1; bd = b2 - b1; return rd * rd + gd * gd + bd * bd; } static RGBColor AllocRGBColor( double red, /* [0, 1] */ double green, /* [0, 1] */ double blue) /* [0, 1] */ { RGBColor c; c.red = (unsigned short)(red * 0xffff); c.green = (unsigned short)(green * 0xffff); c.blue = (unsigned short)(blue * 0xffff); return c; } static void set_color_ring(void) { int i; /*i = 0 ... NCOLOR * Blue -> Green -> Red -> White */ for(i = 0; i < NCOLOR; i++) { rgb_t rgb; double h = 240 - 360 * sqrt((1.0/NCOLOR) * i); double s, v; if(h >= 0) s = 0.9; else { s = 0.9 + h / 120.0 * 0.9; h = 0.0; } /* v = sqrt(i * (1.0/NCOLOR) * 0.6 + 0.4); */ v = 1.0; hsv_to_rgb(h, s, v, &rgb); color_ring[i] = AllocRGBColor( rgb.r, rgb.g, rgb.b); } } static void set_draw_pixel(double *val, RGBColor pixels[]) { int i; for(i = 0; i < SCOPE_HEIGHT; i++) { unsigned v; v = (unsigned)val[SCOPE_HEIGHT - i - 1]; if(v >= NCOLOR) v = NCOLOR - 1; pixels[i] = color_ring[v % NCOLOR]; } } static void make_logspectrogram(double *from, double *to) { double px; int i; to[0] = from[0]; px = 0.0; for(i = 1; i < SCOPE_HEIGHT - 1; i++) { double tx, s; int x1, n; tx = exp_hz_table[i]; x1 = (int)px; n = 0; s = 0.0; do { double a; a = from[x1]; s += a + (tx - x1) * (from[x1 + 1] - a); n++; x1++; } while(x1 < tx); to[i] = s / n; px = tx; } to[SCOPE_HEIGHT - 1] = from[FFTSIZE / 2 - 1]; for(i = 0; i < SCOPE_HEIGHT; i++) if(to[i] <= -0.0) to[i] = 0.0; } static void initialize_exp_hz_table(double zoom) { int i; double r, x, w; if(zoom < MIN_ZOOM) soundspec_zoom = MIN_ZOOM; else if(zoom > MAX_ZOOM) soundspec_zoom = MAX_ZOOM; else soundspec_zoom = zoom; w = (double)play_mode->rate * 0.5 / zoom; r = exp(log(w) * (1.0/SCOPE_HEIGHT)); w = (FFTSIZE/2.0) / (w - 1.0); for(i = 0, x = 1.0; i <= SCOPE_HEIGHT; i++, x *= r) exp_hz_table[i] = (x - 1.0) * w; } static char glookup_char(EventRecord *e) { return e->message & charCodeMask; } void HandleSpecKeydownEvent(long message, short /*modifiers*/) { int nze=0; switch( message & charCodeMask ) { case 0x1E: nze++; break; //up case 0x1F: nze--; break; //down case 0x1C: //left soundspec_update_interval = (int32)(soundspec_update_interval*1.1); break; case 0x1D: //right soundspec_update_interval = (int32)(soundspec_update_interval/1.1); if(soundspec_update_interval < 0.01 * play_mode->rate) soundspec_update_interval = (int32)(0.01 * play_mode->rate); break; } if(nze) initialize_exp_hz_table(soundspec_zoom - 4 * nze); } static void draw_scope(double *values) { static int32 call_cnt; int offset, expose,i; RGBColor pixels[SCOPE_HEIGHT]; double work[SCOPE_HEIGHT]; int nze; Rect righthalf={0,SCOPE_WIDTH - SCROLL_THRESHOLD, SCOPE_HEIGHT, SCOPE_WIDTH }, lefthalf={0,0, SCOPE_HEIGHT, SCOPE_WIDTH - SCROLL_THRESHOLD-1 }; nze = 0; make_logspectrogram(values, work); if( win.show ){ set_draw_pixel(work, pixels); expose = 0; SetPortWindowPort(win.ref); offset = call_cnt % SCROLL_THRESHOLD; if(offset == 0) { //scroll the window EraseRect(&lefthalf); ScrollRect(&win.ref->portRect, -(SCOPE_WIDTH - SCROLL_THRESHOLD), 0, 0); EraseRect(&righthalf); } //draw for( i=0; icmsg(CMSG_ERROR, VERB_NORMAL, "." ); } if(nze) initialize_exp_hz_table(soundspec_zoom - 4 * nze); call_cnt++; } struct drawing_queue { double values[FFTSIZE/2 + 1]; struct drawing_queue *next; }; static struct drawing_queue *free_queue_list = NULL; static struct drawing_queue *new_queue(void) { struct drawing_queue *p; if(free_queue_list) { p = free_queue_list; free_queue_list = free_queue_list->next; } else p = (struct drawing_queue *)safe_malloc(sizeof(struct drawing_queue)); p->next = NULL; return p; } static void free_queue(struct drawing_queue *p) { p->next = free_queue_list; free_queue_list = p; } static void trace_draw_scope(void *vp) { struct drawing_queue *q; q = (struct drawing_queue *)vp; if(!midi_trace.flush_flag) { if(!midi_trace.flush_flag && (win.show||skin_need_speana)) draw_scope(q->values); if(ctl_speana_flag) { CtlEvent e; e.type = CTLE_SPEANA; e.v1 = (long)q->values; e.v2 = FFTSIZE/2; ctl->event(&e); } } free_queue(q); } static void decibelspec(double *from, double *to) { double p, hr; int i, j; static double *w_table = NULL; if(w_table == NULL) { double t; w_table = (double *)safe_malloc(FFTSIZE * sizeof(double)); t = -M_PI; for(i = 0; i < FFTSIZE; i++) { w_table[i] = 0.50 + 0.50 * cos(t); t += 2.0 * M_PI / FFTSIZE; } } for(i = 0; i < FFTSIZE; i++) from[i] *= w_table[i]; realfft(from, FFTSIZE); hr = AMP * NCOLOR; if(from[0] >= 0) p = from[0]; else p = -from[0]; to[0] = log(1.0 + (128.0 / FFTSIZE) * p) * hr; for(i = 1, j = FFTSIZE - 1; i < FFTSIZE/2; i++, j--) { double t, u; t = from[i]; u = from[j]; to[i] = log(1.0 + (128.0 / FFTSIZE) * sqrt(t*t + u*u)) * hr; } p = from[FFTSIZE/2]; to[FFTSIZE/2] = log(1.0 + (128.0 / FFTSIZE) * sqrt(2 * p*p)) * hr; } void close_soundspec(void) { HideWindow(win.ref); //view_soundspec_flag = 0; win.show=0; } void open_soundspec(void) { static int initflag = 0; if( win.show){ ShowWindow(win.ref); } if(disp != NULL) { //already opened ring_index = 0; next_wakeup_samples = outcnt; memset(ring_buffer, 0, ring_buffer_len * sizeof(int32)); view_soundspec_flag = 1; return; } if(soundspec_update_interval == 0) soundspec_update_interval = (int32)(DEFAULT_UPDATE * play_mode->rate); disp=true; if(!initflag) { ring_buffer = (long*)safe_malloc(ring_buffer_len * sizeof(int32)); realfft(NULL, FFTSIZE); initialize_exp_hz_table(DEFAULT_ZOOM); initflag = 1; } set_color_ring(); ring_index = 0; next_wakeup_samples = outcnt; memset(ring_buffer, 0, sizeof(int32)); view_soundspec_flag = 1; } void soundspec_setinterval(double sec) { soundspec_update_interval = (int32)(sec * play_mode->rate); } static void ringsamples(double *x, int pos, int n) { int i, upper; double r; upper = ring_buffer_len; r = 1.0 / pow(2.0, 32.0); for(i = 0; i < n; i++, pos++) { if(pos >= upper) pos = 0; x[i] = (double)ring_buffer[pos] * r; } } void soundspec_update_wave(int32 *buff, int samples) { int i; if(buff == NULL) /* Initialize */ { ring_index = 0; if(samples == 0) { outcnt = 0; next_wakeup_samples = 0; } if(ring_buffer != NULL) memset(ring_buffer, 0, sizeof(int32)); return; } if( !win.show && !skin_need_speana) { outcnt += samples; return; } if(ring_buffer == NULL) { ring_buffer = safe_malloc(ring_buffer_len * sizeof(int32)); memset(ring_buffer, 0, sizeof(int32)); if(soundspec_update_interval == 0) soundspec_update_interval = (int32)(DEFAULT_UPDATE * play_mode->rate); realfft(NULL, FFTSIZE); initialize_exp_hz_table(soundspec_zoom); } if(ring_index + samples > ring_buffer_len) { int d; d = ring_buffer_len - ring_index; if(play_mode->encoding & PE_MONO) memcpy(ring_buffer + ring_index, buff, d * 4); else { int32 *p; int n; p = ring_buffer + ring_index; n = d * 2; for(i = 0; i < n; i += 2) *p++ = (buff[i] + buff[i + 1]) / 2; } ring_index = 0; outcnt += d; samples -= d; } if(play_mode->encoding & PE_MONO) memcpy(ring_buffer + ring_index, buff, samples * 4); else { int32 *p; int n; p = ring_buffer + ring_index; n = samples * 2; for(i = 0; i < n; i += 2) *p++ = (buff[i] + buff[i + 1]) / 2; } ring_index += samples; outcnt += samples; if(ring_index == ring_buffer_len) ring_index = 0; if(next_wakeup_samples < outcnt - (ring_buffer_len - FFTSIZE)) { /* next_wakeup_samples is too small */ next_wakeup_samples = outcnt - (ring_buffer_len - FFTSIZE); } while(next_wakeup_samples < outcnt - FFTSIZE) { double x[FFTSIZE]; struct drawing_queue *q; ringsamples(x, next_wakeup_samples % ring_buffer_len, FFTSIZE); q = new_queue(); decibelspec(x, q->values); push_midi_time_vp(midi_trace.offset + next_wakeup_samples, trace_draw_scope, q); next_wakeup_samples += soundspec_update_interval; } } /* Re-initialize something */ void soundspec_reinit(void) { initialize_exp_hz_table(soundspec_zoom); }