/*
* GTK plotting routines source file
*
* Copyright (c) 1999 Mark Taylor
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
/* $Id: gtkanal.c,v 1.50 2017/08/28 12:48:39 robert Exp $ */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <gtk/gtk.h>
#include "main.h"
#include "lame.h"
#include "machine.h"
#include "encoder.h"
#include "lame-analysis.h"
#include "get_audio.h"
#include "gtkanal.h"
#include "gpkplotting.h"
#include "lame_global_flags.h"
/* this file should be removed. The few data items accessed in 'gfc'
should be made accessable by writing a lame_set_variable() function */
#include "util.h"
#include "console.h"
#ifdef _WIN32
# include <windows.h>
# define msleep(t) Sleep(t)
#else
# include <unistd.h>
# define msleep(t) usleep((t) * 1000)
#endif
/*! Stringify \a x. */
#define STR(x) #x
/*! Stringify \a x, perform macro expansion. */
#define XSTR(x) STR(x)
#define MP3X_MAJOR_VERSION 0 /* Major version number */
#define MP3X_MINOR_VERSION 82 /* Minor version number */
#define MP3X_ALPHA_VERSION 0 /* Set number if this is an alpha version, otherwise zero */
#define MP3X_BETA_VERSION 0 /* Set number if this is a beta version, otherwise zero */
plotting_data *pinfo;
plotting_data *pplot;
plotting_data Pinfo[NUMPINFO];
/* global variables for the state of the system */
static gint idle_keepgoing; /* processing of frames is ON */
static gint idle_count_max; /* number of frames to process before plotting */
static gint idle_count; /* pause & plot when idle_count=idel_count_max */
static gint idle_end = 0; /* process all frames, stop at last frame */
static gint idle_back = 0; /* set when we are displaying the old data */
static int mp3done = 0; /* last frame has been read */
static GtkWidget *frameprogress; /* progress bar */
static GtkWidget *framecounter; /* progress counter */
static int subblock_draw[3] = { 1, 1, 1 };
/* main window */
GtkWidget *window;
/* Backing pixmap for drawing areas */
GtkWidget *pcmbox; /* PCM data plotted here */
GtkWidget *winbox; /* mpg123 synthesis data plotted here */
GtkWidget *enerbox[2]; /* spectrum, gr=0,1 plotted here */
GtkWidget *mdctbox[2]; /* mdct coefficients gr=0,1 plotted here */
GtkWidget *sfbbox[2]; /* scalefactors gr=0,1 plotted here */
GtkWidget *headerbox; /* mpg123 header info shown here */
struct gtkinfostruct {
int filetype; /* input file type 0=WAV, 1=MP3 */
int msflag; /* toggle between L&R vs M&S PCM data display */
int chflag; /* toggle between L & R channels */
int kbflag; /* toggle between wave # and barks */
int flag123; /* show mpg123 frame info, OR ISO encoder frame info */
double avebits; /* running average bits per frame */
int approxbits; /* (approx) bits per frame */
int maxbits; /* max bits per frame used so far */
int totemph; /* total of frames with de-emphasis */
int totms; /* total frames with ms_stereo */
int totis; /* total frames with i_stereo */
int totshort; /* total granules with short blocks */
int totmix; /* total granules with mixed blocks */
int totpreflag; /* total granules with preflag */
int pupdate; /* plot while processing, or only when needed */
int sfblines; /* plot scalefactor bands in MDCT plot */
int difference; /* plot original - decoded instead of orig vs. decoded */
int totalframes;
} gtkinfo;
static lame_global_flags *gfp;
lame_internal_flags *gfc;
hip_t hip; /* decoder handle of just encoded data */
/**********************************************************************
* read one frame and encode it
**********************************************************************/
int
gtkmakeframe(void)
{
int iread = 0;
static int init = 0;
static int mpglag;
static short int Buffer[2][1152];
short int mpg123pcm[2][1152];
int ch, j;
int mp3count = 0;
int mp3out = 0;
int channels_out;
unsigned char mp3buffer[LAME_MAXMP3BUFFER];
static int frameNum = 0;
int framesize = lame_get_framesize(gfp);
channels_out = (lame_get_mode(gfp) == MONO) ? 1 : 2;
pinfo->frameNum = frameNum;
pinfo->sampfreq = lame_get_out_samplerate(gfp);
pinfo->framesize = framesize;
pinfo->stereo = channels_out;
/* If the analsys code is enabled, lame will writes data into gfc->pinfo,
* and mpg123 will write data into pinfo. Set these so
* the libraries put this data in the right place: */
gfc->pinfo = pinfo;
hip_set_pinfo(hip, pinfo);
if (is_mpeg_file_format(global_reader.input_format)) {
hip_set_pinfo(get_hip(), pplot);
iread = get_audio16(gfp, Buffer);
/* add a delay of framesize-DECDELAY, which will make the total delay
* exactly one frame, so we can sync MP3 output with WAV input */
for (ch = 0; ch < channels_out; ch++) {
for (j = 0; j < framesize - DECDELAY; j++)
pinfo->pcmdata2[ch][j] = pinfo->pcmdata2[ch][j + framesize];
for (j = 0; j < framesize; j++) /*rescale from int to short int */
pinfo->pcmdata2[ch][j + framesize - DECDELAY] = Buffer[ch][j];
}
pinfo->frameNum123 = frameNum - 1;
++frameNum;
}
else {
/* feed data to encoder until encoder produces some output */
while (lame_get_frameNum(gfp) == pinfo->frameNum) {
if (!init) {
init = 1;
mpglag = 1;
if (hip) {
hip_decode_exit(hip);
}
hip = hip_decode_init();
hip_set_pinfo(hip, pinfo);
}
iread = get_audio16(gfp, Buffer);
if (iread > framesize) {
/* NOTE: frame analyzer requires that we encode one frame
* for each pass through this loop. If lame_encode_buffer()
* is feed data too quickly, it will sometimes encode multiple frames
* breaking this loop.
*/
error_printf("Warning: get_audio is returning too much data.\n");
}
if (iread <= 0)
break; /* eof */
mp3count = lame_encode_buffer(gfp, Buffer[0], Buffer[1], iread,
mp3buffer, sizeof(mp3buffer));
assert(!(mp3count > 0 && lame_get_frameNum(gfp) == pinfo->frameNum));
/* not possible to produce mp3 data without encoding at least
* one frame of data which would increment frameNum */
}
frameNum = lame_get_frameNum(gfp); /* use the internal MP3 frame counter */
/* decode one frame of output */
mp3out = hip_decode1(hip, mp3buffer, mp3count, mpg123pcm[0], mpg123pcm[1]); /* re-synthesis to pcm */
/* mp3out = 0: need more data to decode */
/* mp3out = -1: error. Lets assume 0 pcm output */
/* mp3out = number of samples output */
if (mp3out > 0)
assert(mp3out == pinfo->framesize);
if (mp3out != 0) {
/* decoded output is for frame pinfo->frameNum123
* add a delay of framesize-DECDELAY, which will make the total delay
* exactly one frame */
pinfo->frameNum123 = pinfo->frameNum - mpglag;
for (ch = 0; ch < pinfo->stereo; ch++) {
for (j = 0; j < pinfo->framesize - DECDELAY; j++)
pinfo->pcmdata2[ch][j] = pinfo->pcmdata2[ch][j + pinfo->framesize];
for (j = 0; j < pinfo->framesize; j++) {
pinfo->pcmdata2[ch][j + pinfo->framesize - DECDELAY] =
(mp3out == -1) ? 0 : mpg123pcm[ch][j];
}
}
}
else {
if (mpglag == MAXMPGLAG) {
error_printf("READ_AHEAD set too low - not enough frame buffering.\n"
"MP3x display of input and output PCM data out of sync.\n");
error_flush();
}
else
mpglag++;
pinfo->frameNum123 = -1; /* no frame output */
}
}
return iread;
}
void
plot_frame(void)
{
int i, j, n, ch, gr;
gdouble *xcord, *ycord;
gdouble xmx, xmn, ymx, ymn;
double *data, *data2, *data3;
char title2[80];
char label[80], label2[80];
char *title;
plotting_data *pplot1;
plotting_data *pplot2 = NULL;
double en, samp;
/*int sampindex, version = 0;*/
int barthick;
static int firstcall = 1;
static GdkColor *barcolor, *color, *grcolor[2];
static GdkColor yellow, gray, cyan, magenta, orange, pink, red, green, blue, black, oncolor,
offcolor;
int blocktype[2][2];
int headbits;
int mode_gr = 2;
/* find the frame where mpg123 produced output coming from input frame
* pinfo. i.e.: out_frame + out_frame_lag = input_frame */
for (i = 1; i <= MAXMPGLAG; i++) {
if ((pplot - i)->frameNum123 == pplot->frameNum) {
pplot2 = pplot - i;
break;
}
}
if (i > MAXMPGLAG) {
error_printf("input/output pcm syncing problem. should not happen!\n");
pplot2 = pplot - 1;
}
/* however, the PCM data is delayed by 528 samples in the encoder filterbanks.
* We added another 1152-528 delay to this so the PCM data is *exactly* one
* frame behind the header & MDCT information */
pplot1 = pplot2 + 1; /* back one frame for header info, MDCT */
/* allocate these GC's only once */
if (firstcall) {
firstcall = 0;
/* grcolor[0] = &magenta; */
grcolor[0] = &blue;
grcolor[1] = &green;
barcolor = &gray;
setcolor(headerbox, &oncolor, 255, 0, 0);
setcolor(headerbox, &offcolor, 175, 175, 175);
setcolor(pcmbox, &red, 255, 0, 0);
setcolor(pcmbox, &pink, 255, 0, 255);
setcolor(pcmbox, &magenta, 255, 0, 100);
setcolor(pcmbox, &orange, 255, 127, 0);
setcolor(pcmbox, &cyan, 0, 255, 255);
setcolor(pcmbox, &green, 0, 255, 0);
setcolor(pcmbox, &blue, 0, 0, 255);
setcolor(pcmbox, &black, 0, 0, 0);
setcolor(pcmbox, &gray, 100, 100, 100);
setcolor(pcmbox, &yellow, 255, 255, 0);
}
/*******************************************************************
* frame header info
*******************************************************************/
if (pplot1->sampfreq)
samp = pplot1->sampfreq;
else
samp = 1;
/*sampindex = SmpFrqIndex((long) samp, &version);*/
ch = gtkinfo.chflag;
headbits = 32 + ((pplot1->stereo == 2) ? 256 : 136);
gtkinfo.approxbits = (pplot1->bitrate * 1000 * 1152.0 / samp) - headbits;
sprintf(title2, "%3.1fkHz %ikbs ", samp / 1000, pplot1->bitrate);
gtk_text_freeze(GTK_TEXT(headerbox));
gtk_text_backward_delete(GTK_TEXT(headerbox), gtk_text_get_length(GTK_TEXT(headerbox)));
gtk_text_set_point(GTK_TEXT(headerbox), 0);
gtk_text_insert(GTK_TEXT(headerbox), NULL, &oncolor, NULL, title2, -1);
title = " mono ";
if (2 == pplot1->stereo)
title = pplot1->js ? " js " : " s ";
gtk_text_insert(GTK_TEXT(headerbox), NULL, &oncolor, NULL, title, -1);
color = pplot1->ms_stereo ? &oncolor : &offcolor;
gtk_text_insert(GTK_TEXT(headerbox), NULL, color, NULL, "ms ", -1);
color = pplot1->i_stereo ? &oncolor : &offcolor;
gtk_text_insert(GTK_TEXT(headerbox), NULL, color, NULL, "is ", -1);
color = pplot1->crc ? &oncolor : &offcolor;
gtk_text_insert(GTK_TEXT(headerbox), NULL, color, NULL, "crc ", -1);
color = pplot1->padding ? &oncolor : &offcolor;
gtk_text_insert(GTK_TEXT(headerbox), NULL, color, NULL, "pad ", -1);
color = pplot1->emph ? &oncolor : &offcolor;
gtk_text_insert(GTK_TEXT(headerbox), NULL, color, NULL, "em ", -1);
sprintf(title2, "bv=%i,%i ", pplot1->big_values[0][ch], pplot1->big_values[1][ch]);
gtk_text_insert(GTK_TEXT(headerbox), NULL, &black, NULL, title2, -1);
color = pplot1->scfsi[ch] ? &oncolor : &offcolor;
sprintf(title2, "scfsi=%i ", pplot1->scfsi[ch]);
gtk_text_insert(GTK_TEXT(headerbox), NULL, color, NULL, title2, -1);
if (gtkinfo.filetype)
sprintf(title2, " mdb=%i %i/NA", pplot1->maindata, pplot1->totbits);
else
sprintf(title2, " mdb=%i %i/%i",
pplot1->maindata, pplot1->totbits, pplot1->totbits + pplot->resvsize);
gtk_text_insert(GTK_TEXT(headerbox), NULL, &oncolor, NULL, title2, -1);
gtk_text_thaw(GTK_TEXT(headerbox));
/*******************************************************************
* block type
*******************************************************************/
for (gr = 0; gr < mode_gr; gr++)
if (gtkinfo.flag123)
blocktype[gr][ch] = pplot1->mpg123blocktype[gr][ch];
else
blocktype[gr][ch] = pplot->blocktype[gr][ch];
/*******************************************************************
* draw the PCM data *
*******************************************************************/
n = 1600; /* PCM frame + FFT window: 224 + 1152 + 224 */
xcord = g_malloc(n * sizeof(gdouble));
ycord = g_malloc(n * sizeof(gdouble));
if (gtkinfo.msflag)
title = ch ? "Side Channel" : "Mid Channel";
else
title = ch ? "Right Channel" : "Left Channel";
sprintf(title2, "%s mask_ratio=%3.2f %3.2f ener_ratio=%3.2f %3.2f",
title,
pplot->ms_ratio[0], pplot->ms_ratio[1],
pplot->ms_ener_ratio[0], pplot->ms_ener_ratio[1]);
ymn = -32767;
ymx = 32767;
xmn = 0;
xmx = 1600 - 1;
/* 0 ... 224 draw in black, connecting to 224 pixel
* 1375 .. 1599 draw in black connecting to 1375 pixel
* 224 ... 1375 MP3 frame. draw in blue
*/
/* draw the title */
gpk_graph_draw(pcmbox, 0, xcord, ycord, xmn, ymn, xmx, ymx, 1, title2, &black);
/* draw some hash marks dividing the frames */
ycord[0] = ymx * .8;
ycord[1] = ymn * .8;
for (gr = 0; gr <= 2; gr++) {
xcord[0] = 223.5 + gr * 576;
xcord[1] = 223.5 + gr * 576;
gpk_rectangle_draw(pcmbox, xcord, ycord, xmn, ymn, xmx, ymx, &yellow);
}
for (gr = 0; gr < mode_gr; gr++) {
if (blocktype[gr][ch] == 2)
for (i = 1; i <= 2; i++) {
xcord[0] = 223.5 + gr * 576 + i * 192;
xcord[1] = 223.5 + gr * 576 + i * 192;
gpk_rectangle_draw(pcmbox, xcord, ycord, xmn, ymn, xmx, ymx, &yellow);
}
}
/* bars representing FFT windows */
xcord[0] = 0;
ycord[0] = ymn + 3000;
xcord[1] = 1024 - 1;
ycord[1] = ymn + 1000;
gpk_rectangle_draw(pcmbox, xcord, ycord, xmn, ymn, xmx, ymx, grcolor[0]);
xcord[0] = 576;
ycord[0] = ymn + 2000;
xcord[1] = 576 + 1024 - 1;
ycord[1] = ymn;
gpk_rectangle_draw(pcmbox, xcord, ycord, xmn, ymn, xmx, ymx, grcolor[1]);
/* plot PCM data */
for (i = 0; i < n; i++) {
xcord[i] = i;
if (gtkinfo.msflag)
ycord[i] = ch ? .5 * (pplot->pcmdata[0][i] - pplot->pcmdata[1][i]) :
.5 * (pplot->pcmdata[0][i] + pplot->pcmdata[1][i]);
else
ycord[i] = pplot->pcmdata[ch][i];
}
/* skip plot if we are doing an mp3 file */
if (!gtkinfo.filetype) {
gpk_graph_draw(pcmbox, n, xcord, ycord, xmn, ymn, xmx, ymx, 0, title2, &black);
}
/*******************************************************************/
/* draw the PCM re-synthesis data */
/*******************************************************************/
n = 1152;
/*
sprintf(title2,"Re-synthesis mask_ratio=%3.2f %3.2f ener_ratio=%3.2f %3.2f",
pplot->ms_ratio[0],pplot->ms_ratio[1],
pplot->ms_ener_ratio[0],pplot->ms_ener_ratio[1]);
*/
title = "Re-synthesis";
if (gtkinfo.difference)
title = "Re-synthesis difference (amplified 20db)";
ymn = -32767;
ymx = 32767;
xmn = 0;
xmx = 1600 - 1;
gpk_graph_draw(winbox, 0, xcord, ycord, xmn, ymn, xmx, ymx, 1, title, &black);
/* draw some hash marks dividing the frames */
ycord[0] = ymx * .8;
ycord[1] = ymn * .8;
for (gr = 0; gr <= 2; gr++) {
xcord[0] = 223.5 + gr * 576;
xcord[1] = 223.5 + gr * 576;
gpk_rectangle_draw(winbox, xcord, ycord, xmn, ymn, xmx, ymx, &yellow);
}
for (gr = 0; gr < 2; gr++) {
if (blocktype[gr][ch] == 2)
for (i = 1; i <= 2; i++) {
xcord[0] = 223.5 + gr * 576 + i * 192;
xcord[1] = 223.5 + gr * 576 + i * 192;
gpk_rectangle_draw(winbox, xcord, ycord, xmn, ymn, xmx, ymx, &yellow);
}
}
/* this piece of PCM data from previous frame */
n = 224;
for (j = 1152 - n, i = 0; i < n; i++, j++) {
xcord[i] = i;
if (gtkinfo.msflag)
ycord[i] = ch ? .5 * (pplot1->pcmdata2[0][j] -
pplot1->pcmdata2[1][j]) :
.5 * (pplot1->pcmdata2[0][j] + pplot1->pcmdata2[1][j]);
else
ycord[i] = pplot1->pcmdata2[ch][j];
}
/* this piece of PCM data from current frame */
n = 1152;
for (i = 0; i < n; i++) {
xcord[i + 224] = i + 224;
if (gtkinfo.msflag)
ycord[i + 224] = ch ? .5 * (pplot2->pcmdata2[0][i] - pplot2->pcmdata2[1][i]) :
.5 * (pplot2->pcmdata2[0][i] + pplot2->pcmdata2[1][i]);
else
ycord[i + 224] = pplot2->pcmdata2[ch][i];
}
n = 1152 + 224;
if (gtkinfo.difference) {
for (i = 0; i < n; i++) {
if (gtkinfo.msflag)
ycord[i] -= ch ? .5 * (pplot->pcmdata[0][i] - pplot->pcmdata[1][i]) :
.5 * (pplot->pcmdata[0][i] + pplot->pcmdata[1][i]);
else
ycord[i] -= pplot->pcmdata[ch][i];
}
ycord[i] *= 100;
}
gpk_graph_draw(winbox, n, xcord, ycord, xmn, ymn, xmx, ymx, 0, title, &black);
/*******************************************************************/
/* draw the MDCT energy spectrum */
/*******************************************************************/
for (gr = 0; gr < mode_gr; gr++) {
int bits, bits2;
char *blockname = "";
switch (blocktype[gr][ch]) {
case 0:
blockname = "normal";
break;
case 1:
blockname = "start";
break;
case 2:
blockname = "short";
break;
case 3:
blockname = "end";
break;
}
strcpy(label, blockname);
if (pplot1->mixed[gr][ch])
strcat(label, "(mixed)");
n = 576;
if (gtkinfo.flag123) {
data = pplot1->mpg123xr[gr][0];
data2 = pplot1->mpg123xr[gr][1];
}
else {
data = pplot->xr[gr][0];
data2 = pplot->xr[gr][1];
}
xmn = 0;
xmx = n - 1;
ymn = 0;
ymx = 11;
/* draw title, erase old plot */
if (gtkinfo.flag123) {
bits = pplot1->mainbits[gr][ch];
bits2 = pplot1->sfbits[gr][ch];
}
else {
bits = pplot->LAMEmainbits[gr][ch];
bits2 = pplot->LAMEsfbits[gr][ch];
}
sprintf(title2, "MDCT%1i(%s) bits=%i/%i ", gr, label, bits, bits2);
gpk_bargraph_draw(mdctbox[gr], 0, xcord, ycord, xmn, ymn, xmx, ymx, 1, title2, 0, barcolor);
/* draw some hash marks showing scalefactor bands */
if (gtkinfo.sfblines) {
int fac, nsfb, *scalefac;
if (blocktype[gr][ch] == SHORT_TYPE) {
nsfb = SBMAX_s;
i = nsfb - 7;
fac = 3;
scalefac = gfc->scalefac_band.s;
}
else {
nsfb = SBMAX_l;
i = nsfb - 10;
fac = 1;
scalefac = gfc->scalefac_band.l;
}
for (; i < nsfb; i++) {
ycord[0] = .8 * ymx;
ycord[1] = ymn;
xcord[0] = fac * scalefac[i];
xcord[1] = xcord[0];
gpk_rectangle_draw(mdctbox[gr], xcord, ycord, xmn, ymn, xmx, ymx, &yellow);
}
}
ymn = 9e20;
ymx = -9e20;
for (i = 0; i < n; i++) {
double coeff;
xcord[i] = i;
if (gtkinfo.msflag) {
coeff = ch ? .5 * (data[i] - data2[i]) : .5 * (data[i] + data2[i]);
}
else {
coeff = ch ? data2[i] : data[i];
}
if (blocktype[gr][ch] == SHORT_TYPE && !subblock_draw[i % 3])
coeff = 0;
ycord[i] = coeff * coeff * 1e10;
ycord[i] = log10(MAX(ycord[i], (double) 1));
#if 0
if (ch == 0)
if (i == 26)
if (data[i] != 0)
console_printf("%i %i i=%i mdct: (db) %f %f \n", pplot->frameNum, gr, i,
10 * log10(data[i] * data[i]),
10 * log10(.33 *
(data[i - 1] * data[i - 1] + data[i] * data[i] +
data[i + 1] * data[i + 1]))
);
#endif
ymx = (ycord[i] > ymx) ? ycord[i] : ymx;
ymn = (ycord[i] < ymn) ? ycord[i] : ymn;
}
/* print the min/max
sprintf(title2,"MDCT%1i %5.2f %5.2f bits=%i",gr,ymn,ymx,
pplot1->mainbits[gr][ch]);
*/
if (gtkinfo.flag123)
bits = pplot1->mainbits[gr][ch];
else
bits = pplot->LAMEmainbits[gr][ch];
sprintf(title2, "MDCT%1i(%s) bits=%i ", gr, label, bits);
xmn = 0;
xmx = n - 1;
ymn = 0;
ymx = 11;
gpk_bargraph_draw(mdctbox[gr], n, xcord, ycord, xmn, ymn, xmx, ymx, 0, title2, 0, barcolor);
}
/*******************************************************************
* draw the psy model energy spectrum (k space)
* l3psy.c computes pe, en, thm for THIS granule.
*******************************************************************/
if (gtkinfo.kbflag) {
for (gr = 0; gr < mode_gr; gr++) {
n = HBLKSIZE; /* only show half the spectrum */
data = &pplot->energy[gr][ch][0];
ymn = 9e20;
ymx = -9e20;
for (i = 0; i < n; i++) {
xcord[i] = i + 1;
if (blocktype[gr][ch] == SHORT_TYPE && !subblock_draw[i % 3])
ycord[i] = 0;
else
ycord[i] = log10(MAX(data[i], (double) 1));
ymx = (ycord[i] > ymx) ? ycord[i] : ymx;
ymn = (ycord[i] < ymn) ? ycord[i] : ymn;
}
for (en = 0, j = 0; j < BLKSIZE; j++)
en += pplot->energy[gr][ch][j];
sprintf(title2, "FFT%1i pe=%5.2fK en=%5.2e ", gr, pplot->pe[gr][ch] / 1000, en);
ymn = 3;
ymx = 15;
xmn = 1;
xmx = n;
gpk_bargraph_draw(enerbox[gr], n, xcord, ycord,
xmn, ymn, xmx, ymx, 1, title2, 0, barcolor);
}
}
else {
/*******************************************************************
* draw the psy model energy spectrum (scalefactor bands)
*******************************************************************/
for (gr = 0; gr < mode_gr; gr++) {
if (blocktype[gr][ch] == 2) {
n = 3 * SBMAX_s;
data = &pplot->en_s[gr][ch][0];
data2 = &pplot->thr_s[gr][ch][0];
data3 = &pplot->xfsf_s[gr][ch][0];
}
else {
n = SBMAX_l;
data = &pplot->en[gr][ch][0];
data2 = &pplot->thr[gr][ch][0];
data3 = &pplot->xfsf[gr][ch][0];
}
ymn = 9e20;
ymx = -9e20;
for (i = 0; i < n; i++) {
xcord[i] = i + 1;
if (blocktype[gr][ch] == SHORT_TYPE && !subblock_draw[i % 3])
ycord[i] = 0;
else
ycord[i] = log10(MAX(data[i], (double) 1));
/*
ymx=(ycord[i] > ymx) ? ycord[i] : ymx;
ymn=(ycord[i] < ymn) ? ycord[i] : ymn;
*/
}
/* en = max energy difference amoung the 3 short FFTs for this granule */
en = pplot->ers[gr][ch];
if (en > 999)
en = 999;
sprintf(title2,
"FFT%1i pe=%5.2fK/%3.1f \nnoise ovr_b:%i/max:%3.1f/ovr:%3.1f/tot:%3.1f/ssd:%i",
gr, pplot->pe[gr][ch] / 1000, en, pplot->over[gr][ch], pplot->max_noise[gr][ch],
pplot->over_noise[gr][ch], pplot->tot_noise[gr][ch], pplot->over_SSD[gr][ch]);
barthick = 3;
if (blocktype[gr][ch] == SHORT_TYPE)
barthick = 2;
if (!(subblock_draw[0] && subblock_draw[1] && subblock_draw[2]))
barthick = 3;
ymn = 3;
ymx = 15;
xmn = 1;
xmx = n + 1; /* a little extra because of the bar thickness */
gpk_bargraph_draw(enerbox[gr], n, xcord, ycord,
xmn, ymn, xmx, ymx, 1, title2, barthick, barcolor);
for (i = 0; i < n; i++) {
xcord[i] = i + 1 + .20;
if (blocktype[gr][ch] == SHORT_TYPE && !subblock_draw[i % 3])
ycord[i] = 0;
else
ycord[i] = log10(MAX(data2[i], (double) 1));
}
gpk_bargraph_draw(enerbox[gr], n, xcord, ycord,
xmn, ymn, xmx, ymx, 0, title2, barthick, grcolor[gr]);
for (i = 0; i < n; i++) {
xcord[i] = i + 1 + .40;
if (blocktype[gr][ch] == SHORT_TYPE && !subblock_draw[i % 3])
ycord[i] = 0;
else
ycord[i] = log10(MAX(data3[i], (double) 1));
}
gpk_bargraph_draw(enerbox[gr], n, xcord, ycord,
xmn, ymn, xmx, ymx, 0, title2, barthick, &red);
}
}
/*******************************************************************
* draw scalefactors
*******************************************************************/
for (gr = 0; gr < mode_gr; gr++) {
int ggain;
if (blocktype[gr][ch] == 2) {
n = 3 * SBMAX_s;
if (gtkinfo.flag123)
data = pplot1->sfb_s[gr][ch];
else
data = pplot->LAMEsfb_s[gr][ch];
}
else {
n = SBMAX_l;
if (gtkinfo.flag123)
data = pplot1->sfb[gr][ch];
else
data = pplot->LAMEsfb[gr][ch];
}
ymn = -1;
ymx = 10;
for (i = 0; i < n; i++) {
xcord[i] = i + 1;
if (blocktype[gr][ch] == SHORT_TYPE && !subblock_draw[i % 3])
ycord[i] = 0;
else
ycord[i] = -data[i];
ymx = (ycord[i] > ymx - 2) ? ycord[i] + 2 : ymx;
ymn = (ycord[i] < ymn) ? ycord[i] - 1 : ymn;
}
if (blocktype[gr][ch] == 2) {
sprintf(label2,
"SFB scale=%i preflag=%i %i%i%i",
pplot1->scalefac_scale[gr][ch],
pplot1->preflag[gr][ch],
pplot1->sub_gain[gr][ch][0],
pplot1->sub_gain[gr][ch][1], pplot1->sub_gain[gr][ch][2]);
}
else {
sprintf(label2, "SFB scale=%i preflag=%i", pplot1->scalefac_scale[gr][ch],
pplot1->preflag[gr][ch]);
}
if (gtkinfo.flag123)
ggain = (pplot1->qss[gr][ch]);
else
ggain = (pplot->LAMEqss[gr][ch]);
sprintf(title2, " ggain=%i", ggain);
strcat(label2, title2);
xmn = 1;
xmx = n + 1;
gpk_bargraph_draw(sfbbox[gr], n, xcord, ycord,
xmn, ymn, xmx, ymx, 1, label2, 0, grcolor[gr]);
ycord[0] = ycord[1] = 0;
xcord[0] = 1;
xcord[1] = n + 1;
gpk_rectangle_draw(sfbbox[gr], xcord, ycord, xmn, ymn, xmx, ymx, &yellow);
}
}
static void
update_progress(void)
{
char label[80];
int tf = lame_get_totalframes(gfp);
if (gtkinfo.totalframes > 0)
tf = gtkinfo.totalframes;
sprintf(label, "Frame:%4i/%4i %6.2fs", pplot->frameNum, (int) tf - 1, pplot->frametime);
gtk_progress_set_value(GTK_PROGRESS(frameprogress), (gdouble) pplot->frameNum);
gtk_label_set_text(GTK_LABEL(framecounter), label);
}
static void
analyze(void)
{
if (idle_keepgoing) {
idle_count = 0;
idle_count_max = 0;
idle_keepgoing = 0;
idle_end = 0;
}
plot_frame();
update_progress();
}
static void
plotclick(GtkWidget * widget, gpointer data)
{
analyze();
}
static int
frameadv1(GtkWidget * widget, gpointer data)
{
int i;
if (idle_keepgoing) {
if (idle_back) {
/* frame displayed is the old frame. to advance, just swap in new frame */
idle_back--;
pplot = &Pinfo[READ_AHEAD + idle_back];
}
else {
/* advance the frame by reading in a new frame */
pplot = &Pinfo[READ_AHEAD];
if (mp3done) {
/* dont try to read any more frames, and quit if "finish MP3" was selected */
/* if (idle_finish) gtk_main_quit(); */
idle_count_max = 0;
idle_end = 0;
}
else {
/* read in the next frame */
for (i = NUMPINFO - 1; i > 0; i--)
memcpy(&Pinfo[i], &Pinfo[i - 1], sizeof(plotting_data));
pinfo = &Pinfo[0];
pinfo->num_samples = gtkmakeframe();
if (pinfo->num_samples == 0 && gtkinfo.totalframes == 0)
/* allow an extra frame to flush decoder buffers */
gtkinfo.totalframes = pinfo->frameNum + 2;
if (pinfo->sampfreq)
pinfo->frametime = (pinfo->frameNum) * 1152.0 / pinfo->sampfreq;
else
pinfo->frametime = 0;
/* eof?
if (!pinfo->num_samples) if (idle_finish) gtk_main_quit();
*/
pinfo->totbits = 0;
{
int gr, ch;
for (gr = 0; gr < 2; gr++)
for (ch = 0; ch < 2; ch++) {
gtkinfo.totshort += (pinfo->mpg123blocktype[gr][ch] == 2);
gtkinfo.totmix += !(pinfo->mixed[gr][ch] == 0);
gtkinfo.totpreflag += (pinfo->preflag[gr][ch] == 1);
pinfo->totbits += pinfo->mainbits[gr][ch];
}
}
if (pinfo->frameNum > 0) /* start averaging at second frame */
gtkinfo.avebits = (gtkinfo.avebits * ((pinfo->frameNum) - 1)
+ pinfo->totbits) / (pinfo->frameNum);
gtkinfo.maxbits = MAX(gtkinfo.maxbits, pinfo->totbits);
gtkinfo.totemph += !(pinfo->emph == 0);
gtkinfo.totms += !(pinfo->ms_stereo == 0);
gtkinfo.totis += !(pinfo->i_stereo == 0);
if (gtkinfo.totalframes > 0)
if (pplot->frameNum >= gtkinfo.totalframes - 1)
mp3done = 1;
}
}
idle_count++;
if (gtkinfo.pupdate)
plot_frame();
update_progress();
if ((idle_count >= idle_count_max) && (!idle_end))
analyze();
}
else {
/*no processing to do, sleep in order to not monopolize CPU */
msleep(10);
}
return 1;
}
static void
frameadv(GtkWidget * widget, gpointer data)
{
int adv;
if (!strcmp((char *) data, "-1")) {
/* ignore if we've already gone back as far as possible */
if (pplot->frameNum == 0 || (idle_back == NUMBACK))
return;
idle_back++;
pplot = &Pinfo[READ_AHEAD + idle_back];
analyze();
return;
}
adv = 1;
if (!strcmp((char *) data, "1"))
adv = 1;
if (!strcmp((char *) data, "10"))
adv = 10;
if (!strcmp((char *) data, "100"))
adv = 100;
if (!strcmp((char *) data, "finish"))
idle_end = 1;
if (idle_keepgoing) {
/* already running - que up additional frame advance requests */
idle_count_max += adv;
}
else {
/* turn on idleing */
idle_count_max = adv;
idle_count = 0;
idle_keepgoing = 1;
}
}
/* another callback */
static void
delete_event(GtkWidget * widget, GdkEvent * event, gpointer data)
{
/* set MP3 done flag in case the File/Quit menu item has been selected */
mp3done = 1;
if (hip) {
hip_decode_exit(hip);
hip = 0;
}
gtk_main_quit();
}
static void
channel_option(GtkWidget * widget, gpointer data)
{
long option;
option = (long) data;
switch (option) {
case 1:
gtkinfo.msflag = 0;
gtkinfo.chflag = 0;
break;
case 2:
gtkinfo.msflag = 0;
gtkinfo.chflag = 1;
break;
case 3:
gtkinfo.msflag = 1;
gtkinfo.chflag = 0;
break;
case 4:
gtkinfo.msflag = 1;
gtkinfo.chflag = 1;
}
analyze();
}
static void
spec_option(GtkWidget * widget, gpointer data)
{
long option;
option = (long) data;
switch (option) {
case 1:
gtkinfo.kbflag = 0;
break;
case 2:
gtkinfo.kbflag = 1;
break;
case 3:
gtkinfo.flag123 = 0;
break;
case 4:
gtkinfo.flag123 = 1;
break;
case 5:
gtkinfo.pupdate = 1;
break;
case 6:
gtkinfo.pupdate = 0;
break;
case 7:
gtkinfo.sfblines = !gtkinfo.sfblines;
break;
case 8:
gtkinfo.difference = !gtkinfo.difference;
break;
}
analyze();
}
static gint
key_press_event(GtkWidget * widget, GdkEventKey * event)
{
/* is a switch() statement in lame forbidden? */
if (event->keyval == '1') {
subblock_draw[0] = 1;
subblock_draw[1] = 0;
subblock_draw[2] = 0;
analyze();
}
else if (event->keyval == '2') {
subblock_draw[0] = 0;
subblock_draw[1] = 1;
subblock_draw[2] = 0;
analyze();
}
else if (event->keyval == '3') {
subblock_draw[0] = 0;
subblock_draw[1] = 0;
subblock_draw[2] = 1;
analyze();
}
else if (event->keyval == '0') {
subblock_draw[0] = 1;
subblock_draw[1] = 1;
subblock_draw[2] = 1;
analyze();
}
/* analyze(); */ /* dont redraw entire window for every key! */
return 0;
}
/*! Get the mp3x version string. */
/*!
\param void
\return a pointer to a string which describes the version of mp3x.
*/
const char *
get_mp3x_version(void)
{
#if MP3X_ALPHA_VERSION > 0
static /*@observer@ */ const char *const str =
XSTR(MP3X_MAJOR_VERSION) "." XSTR(MP3X_MINOR_VERSION)
" (alpha " XSTR(MP3X_ALPHA_VERSION) ", " __DATE__ " " __TIME__ ")";
#elif MP3X_BETA_VERSION > 0
static /*@observer@ */ const char *const str =
XSTR(MP3X_MAJOR_VERSION) "." XSTR(MP3X_MINOR_VERSION)
" (beta " XSTR(MP3X_BETA_VERSION) ", " __DATE__ ")";
#else
static /*@observer@ */ const char *const str =
XSTR(MP3X_MAJOR_VERSION) "." XSTR(MP3X_MINOR_VERSION);
#endif
return str;
}
static void
text_window(GtkWidget * widget, gpointer data)
{
long option;
GtkWidget *hbox, *vbox, *button, *box;
GtkWidget *textwindow, *vscrollbar;
char text[256];
option = (long) data;
textwindow = gtk_window_new(GTK_WINDOW_DIALOG);
gtk_signal_connect_object(GTK_OBJECT(window), "delete_event",
GTK_SIGNAL_FUNC(gtk_widget_destroy), GTK_OBJECT(textwindow));
gtk_container_set_border_width(GTK_CONTAINER(textwindow), 0);
vbox = gtk_vbox_new(FALSE, 0);
hbox = gtk_hbox_new(FALSE, 0);
button = gtk_button_new_with_label("close");
gtk_signal_connect_object(GTK_OBJECT(button), "clicked",
GTK_SIGNAL_FUNC(gtk_widget_destroy), GTK_OBJECT(textwindow));
box = gtk_text_new(NULL, NULL);
gtk_text_set_editable(GTK_TEXT(box), FALSE);
vscrollbar = gtk_vscrollbar_new(GTK_TEXT(box)->vadj);
switch (option) {
case 0:
gtk_window_set_title(GTK_WINDOW(textwindow), "Documentation");
gtk_widget_set_usize(box, 450, 500);
gtk_text_set_word_wrap(GTK_TEXT(box), TRUE);
/* text should be moved outside this function, may be in a separate file */
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"Frame header information: "
"First the bitrate, sampling frequency and mono, stereo or jstereo "
"indicators are displayed . If the bitstream is jstereo, then mid/side "
"stereo or intensity stereo may be on (indicated in red). If "
"de-emphasis is used, this is also indicated in red. The mdb value is "
"main_data_begin. The encoded data starts this many bytes *before* the "
"frame header. A large value of mdb means the bitstream has saved some "
"bits into the reservoir, which it may allocate for some future frame. "
"The two numbers after mdb are the size (in bits) used to encode the "
"MDCT coefficients for this frame, followed byt the size of the bit "
"resevoir before encoding this frame. The maximum frame size and a "
"running average are given in the Stats pull down menu. A large "
"maximum frame size indicates the bitstream has made use of the bit "
"reservoir. \n\n", -1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"PCM data (top graph): "
"The PCM data is plotted in black. The layer3 frame is divided into 2 "
"granules of 576 samples (marked with yellow vertical lines). In the "
"case of normal, start and stop blocks, the MDCT coefficients for each "
"granule are computed using a 1152 sample window centered over the "
"granule. In the case of short blocks, the granule is further divided "
"into 3 blocks of 192 samples (also marked with yellow vertical lines)."
"The MDCT coefficients for these blocks are computed using 384 sample "
"windows centered over the 192 sample window. (This info not available "
"when analyzing .mp3 files.) For the psycho-acoustic model, a windowed "
"FFT is computed for each granule. The range of these windows "
"is denoted by the blue and green bars.\n\n", -1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"PCM re-synthesis data (second graph): "
"Same as the PCM window described above. The data displayed is the "
"result of encoding and then decoding the original sample. \n\n", -1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"MDCT windows: "
"Shows the energy in the MDCT spectrum for granule 0 (left window) "
"and granule 1 (right window). The text also shows the blocktype "
"used, the number of bits used to encode the coefficients and the "
"number of extra bits allocated from the reservoir. The MDCT pull down "
"window will toggle between the original unquantized MDCT coefficients "
"and the compressed (quantized) coefficients.\n\n", -1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"FFT window: "
"The gray bars show the energy in the FFT spectrum used by the "
"psycho-acoustic model. Granule 0 is in the left window, granule 1 in "
"the right window. The green and blue bars show how much distortion is "
"allowable, as computed by the psycho-acoustic model. The red bars show "
"the actual distortion after encoding. There is one FFT for each "
"granule, computed with a 1024 Hann window centered over the "
"appropriate granule. (the range of this 1024 sample window is shown "
"by the blue and green bars in the PCM data window). The Spectrum pull "
"down window will toggle between showing the energy in equally spaced "
"frequency domain and the scale factor bands used by layer3. Finally, "
"the perceptual entropy, total energy and number of scalefactor bands "
"with audible distortion is shown. (This info not available when "
"analyzing .mp3 files.)", -1);
break;
case 1:
/* Set the about box information */
gtk_window_set_title(GTK_WINDOW(textwindow), "About");
gtk_widget_set_usize(box, 350, 260);
sprintf(text, "LAME version %s \n%s\n\n", get_lame_version(), get_lame_url());
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "psycho-acoustic model: GPSYCHO version %s\n", get_psy_version());
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "frame analyzer: MP3x version %s\n\n", get_mp3x_version());
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"decoder: mpg123/mpglib .59q \nMichael Hipp (www.mpg123.de)\n\n", -1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL,
"Encoder, decoder & psy-models based on ISO\ndemonstration source. ", -1);
break;
case 2:
gtk_window_set_title(GTK_WINDOW(textwindow), "Statistics");
gtk_widget_set_usize(box, 350, 260);
sprintf(text, "frames processed so far: %i \n", Pinfo[0].frameNum + 1);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "granules processed so far: %i \n\n", 4 * (Pinfo[0].frameNum + 1));
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "mean bits/frame (approximate): %i\n", gtkinfo.approxbits);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "mean bits/frame (from LAME): %i\n", 4 * Pinfo[0].mean_bits);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "bitsize of largest frame: %i \n", gtkinfo.maxbits);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "average bits/frame: %3.1f \n\n", gtkinfo.avebits);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "ms_stereo frames: %i \n", gtkinfo.totms);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "i_stereo frames: %i \n", gtkinfo.totis);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "de-emphasis frames: %i \n", gtkinfo.totemph);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "short block granules: %i \n", gtkinfo.totshort);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "mixed block granules: %i \n", gtkinfo.totmix);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
sprintf(text, "preflag granules: %i \n", gtkinfo.totpreflag);
gtk_text_insert(GTK_TEXT(box), NULL, NULL, NULL, text, -1);
break;
}
gtk_widget_show(vscrollbar);
gtk_widget_show(box);
gtk_widget_show(vbox);
gtk_widget_show(hbox);
gtk_widget_show(button);
gtk_box_pack_start(GTK_BOX(hbox), box, FALSE, TRUE, 0);
gtk_box_pack_start(GTK_BOX(hbox), vscrollbar, FALSE, FALSE, 0);
gtk_box_pack_start(GTK_BOX(vbox), hbox, FALSE, TRUE, 0);
gtk_box_pack_end(GTK_BOX(vbox), button, FALSE, TRUE, 0);
gtk_container_add(GTK_CONTAINER(textwindow), vbox);
gtk_widget_show(textwindow);
}
/* #include <strings.h>*/
/* This is the GtkItemFactoryEntry structure used to generate new menus.
Item 1: The menu path. The letter after the underscore indicates an
accelerator key once the menu is open.
Item 2: The accelerator key for the entry
Item 3: The callback function.
Item 4: The callback action. This changes the parameters with
which the function is called. The default is 0.
Item 5: The item type, used to define what kind of an item it is.
Here are the possible values:
NULL -> "<Item>"
"" -> "<Item>"
"<Title>" -> create a title item
"<Item>" -> create a simple item
"<CheckItem>" -> create a check item
"<ToggleItem>" -> create a toggle item
"<RadioItem>" -> create a radio item
<path> -> path of a radio item to link against
"<Separator>" -> create a separator
"<Branch>" -> create an item to hold sub items
"<LastBranch>" -> create a right justified branch
*/
#define C(chr) "<control>" #chr
#define func(name) (GtkItemFactoryCallback) (name)
static const GtkItemFactoryEntry menu_items[] = {
{"/_File", NULL, NULL, 0, "<Branch>"},
#if 0
{"/File/_New", C(N), func(print_hello), 0, NULL},
{"/File/_Open", C(O), func(print_hello), 0, NULL},
{"/File/_Save", C(S), func(print_hello), 0, NULL},
{"/File/Save _As", NULL, NULL, 0, NULL},
{"/File/sep1", NULL, NULL, 0, "<Separator>"},
{"/File/Quit", C(Q), func(gtk_main_quit), 0, NULL},
#endif
{"/File/_Quit", C(Q), func(delete_event), 0, NULL},
{"/_Plotting", NULL, NULL, 0, "<Branch>"},
{"/Plotting/_While advancing", NULL, func(spec_option), 5, NULL},
{"/Plotting/_After advancing", NULL, func(spec_option), 6, NULL},
{"/Plotting/Toggle SFB lines", NULL, func(spec_option), 7, NULL},
{"/Plotting/Toggle orig-diff", NULL, func(spec_option), 8, NULL},
{"/_Channel", NULL, NULL, 0, "<Branch>"},
{"/Channel/show _Left", NULL, func(channel_option), 1, NULL},
{"/Channel/show _Right", NULL, func(channel_option), 2, NULL},
{"/Channel/show _Mid", NULL, func(channel_option), 3, NULL},
{"/Channel/show _Side", NULL, func(channel_option), 4, NULL},
{"/_Spectrum", NULL, NULL, 0, "<Branch>"},
{"/Spectrum/_Scalefactor bands", NULL, func(spec_option), 1, NULL},
{"/Spectrum/_Wave number", NULL, func(spec_option), 2, NULL},
{"/_MDCT", NULL, NULL, 0, "<Branch>"},
{"/MDCT/_Original", NULL, func(spec_option), 3, NULL},
{"/MDCT/_Compressed", NULL, func(spec_option), 4, NULL},
{"/MDCT/_Toggle SFB lines", NULL, func(spec_option), 7, NULL},
{"/_Stats", NULL, NULL, 0, "<Branch>"},
{"/Stats/_Show", NULL, func(text_window), 2, NULL},
{"/_Help", NULL, NULL, 0, "<LastBranch>"},
{"/_Help/_Documentation", NULL, func(text_window), 0, NULL},
{"/_Help/_About", NULL, func(text_window), 1, NULL},
};
#undef C
#undef func
static void
get_main_menu(GtkWidget * windows, GtkWidget ** menubar)
{
unsigned int nmenu_items = sizeof(menu_items) / sizeof(menu_items[0]);
GtkItemFactory *item_factory;
GtkAccelGroup *accel_group;
accel_group = gtk_accel_group_new();
/* This function initializes the item factory.
Param 1: The type of menu - can be GTK_TYPE_MENU_BAR, GTK_TYPE_MENU,
or GTK_TYPE_OPTION_MENU.
Param 2: The path of the menu.
Param 3: A pointer to a gtk_accel_group. The item factory sets up
the accelerator table while generating menus.
*/
item_factory = gtk_item_factory_new(GTK_TYPE_MENU_BAR, "<main>", accel_group);
/* This function generates the menu items. Pass the item factory,
the number of items in the array, the array itself, and any
callback data for the the menu items. */
gtk_item_factory_create_items(item_factory, nmenu_items, (GtkItemFactoryEntry *) menu_items,
NULL);
/* Attach the new accelerator group to the window. */
gtk_accel_group_attach(accel_group, GTK_OBJECT(windows));
if (menubar)
/* Finally, return the actual menu bar created by the item factory. */
*menubar = gtk_item_factory_get_widget(item_factory, "<main>");
}
int
gtkcontrol(lame_global_flags * gfp2, char *inPath)
{
/* GtkWidget is the storage type for widgets */
GtkWidget *button;
GtkAdjustment *adj;
GtkWidget *mbox; /* main box */
GtkWidget *box1; /* frame control buttons go */
GtkWidget *box2; /* frame counters */
GtkWidget *box3; /* frame header info */
GtkWidget *table; /* table for all the plotting areas */
GtkWidget *menubar;
gint tableops, graphx, graphy;
char frameinfo[80];
graphx = 600; /* minimum allowed size of pixmap */
graphy = 95;
gfp = gfp2;
gfc = gfp->internal_flags;
/* set some global defaults/variables */
gtkinfo.filetype = is_mpeg_file_format(global_reader.input_format) ? 1 : 0;
gtkinfo.msflag = 0;
gtkinfo.chflag = 0;
gtkinfo.kbflag = 0;
gtkinfo.flag123 = is_mpeg_file_format(global_reader.input_format) ? 1 : 0; /* MP3 file=use mpg123 output */
gtkinfo.pupdate = 0;
gtkinfo.avebits = 0;
gtkinfo.maxbits = 0;
gtkinfo.approxbits = 0;
gtkinfo.totemph = 0;
gtkinfo.totms = 0;
gtkinfo.totis = 0;
gtkinfo.totshort = 0;
gtkinfo.totmix = 0;
gtkinfo.sfblines = 1;
gtkinfo.difference = 0;
gtkinfo.totalframes = 0;
memset((char *) Pinfo, 0, sizeof(Pinfo));
pplot = &Pinfo[READ_AHEAD];
strcpy(frameinfo, "MP3x: ");
strncat(frameinfo, inPath, 70);
window = gtk_window_new(GTK_WINDOW_TOPLEVEL);
gtk_window_set_title(GTK_WINDOW(window), frameinfo);
gtk_signal_connect(GTK_OBJECT(window), "delete_event", GTK_SIGNAL_FUNC(delete_event), NULL);
gtk_signal_connect_object(GTK_OBJECT(window), "key_press_event",
GTK_SIGNAL_FUNC(key_press_event), GTK_OBJECT(window));
gtk_container_set_border_width(GTK_CONTAINER(window), 0);
mbox = gtk_vbox_new(FALSE, 0);
/* layout of mbox */
box1 = gtk_hbox_new(FALSE, 0);
box2 = gtk_hbox_new(FALSE, 0);
box3 = gtk_hbox_new(FALSE, 0);
table = gtk_table_new(5, 2, FALSE);
tableops = GTK_FILL | GTK_EXPAND | GTK_SHRINK;
get_main_menu(window, &menubar);
gtk_box_pack_start(GTK_BOX(mbox), menubar, FALSE, TRUE, 0);
gtk_box_pack_end(GTK_BOX(mbox), box1, FALSE, TRUE, 0);
gtk_box_pack_end(GTK_BOX(mbox), box2, FALSE, TRUE, 0);
gtk_box_pack_start(GTK_BOX(mbox), box3, FALSE, TRUE, 0);
gtk_box_pack_start(GTK_BOX(mbox), table, TRUE, TRUE, 0);
gtk_container_add(GTK_CONTAINER(window), mbox);
/*********************************************************************/
/* stuff in box3 frame header info */
/*********************************************************************/
/*
headerbox = gtk_label_new(" ");
gtk_label_set_justify(GTK_LABEL(headerbox),GTK_JUSTIFY_LEFT);
*/
headerbox = gtk_text_new(NULL, NULL);
gtk_text_set_editable(GTK_TEXT(headerbox), FALSE);
gtk_widget_set_usize(headerbox, 200, 20);
gtk_widget_show(headerbox);
gtk_box_pack_start(GTK_BOX(box3), headerbox, TRUE, TRUE, 0);
/*********************************************************************/
/* stuff in box2 frame counters */
/*********************************************************************/
framecounter = gtk_label_new("");
gtk_widget_show(framecounter);
gtk_box_pack_start(GTK_BOX(box2), framecounter, FALSE, TRUE, 0);
adj = (GtkAdjustment *) gtk_adjustment_new(0, 0, (gint) lame_get_totalframes(gfp) - 1, 0, 0, 0);
frameprogress = gtk_progress_bar_new_with_adjustment(adj);
/* Set the format of the string that can be displayed in the
* trough of the progress bar:
* %p - percentage
* %v - value
* %l - lower range value
* %u - upper range value */
gtk_progress_set_format_string(GTK_PROGRESS(frameprogress), "%p%%");
gtk_progress_set_value(GTK_PROGRESS(frameprogress), (gdouble) 0);
gtk_progress_set_show_text(GTK_PROGRESS(frameprogress), TRUE);
gtk_widget_show(frameprogress);
gtk_box_pack_end(GTK_BOX(box2), frameprogress, FALSE, TRUE, 0);
/*********************************************************************/
/* stuff in box1 buttons along bottom */
/*********************************************************************/
button = gtk_button_new_with_label("-1");
gtk_signal_connect(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(frameadv), (gpointer) "-1");
gtk_box_pack_start(GTK_BOX(box1), button, TRUE, TRUE, 0);
gtk_widget_show(button);
button = gtk_button_new_with_label("+1");
gtk_signal_connect(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(frameadv), (gpointer) "1");
gtk_box_pack_start(GTK_BOX(box1), button, TRUE, TRUE, 0);
gtk_widget_show(button);
button = gtk_button_new_with_label("+10");
gtk_signal_connect(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(frameadv), (gpointer) "10");
gtk_box_pack_start(GTK_BOX(box1), button, TRUE, TRUE, 0);
gtk_widget_show(button);
button = gtk_button_new_with_label("+100");
gtk_signal_connect(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(frameadv), (gpointer) "100");
gtk_box_pack_start(GTK_BOX(box1), button, TRUE, TRUE, 0);
gtk_widget_show(button);
button = gtk_button_new_with_label("last frame");
gtk_signal_connect(GTK_OBJECT(button), "clicked",
GTK_SIGNAL_FUNC(frameadv), (gpointer) "finish");
gtk_box_pack_start(GTK_BOX(box1), button, TRUE, TRUE, 0);
gtk_widget_show(button);
button = gtk_button_new_with_label("stop/plot");
gtk_signal_connect(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(plotclick), NULL);
gtk_box_pack_start(GTK_BOX(box1), button, TRUE, TRUE, 0);
gtk_widget_show(button);
/*********************************************************************/
/* stuff in table. all the plotting windows */
/*********************************************************************/
pcmbox = gpk_plot_new(graphx, graphy);
gtk_table_attach(GTK_TABLE(table), pcmbox, 0, 2, 0, 1, tableops, tableops, 2, 2);
gtk_widget_show(pcmbox);
winbox = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), winbox, 0, 2, 1, 2, tableops, tableops, 2, 2);
gtk_widget_show(winbox);
mdctbox[0] = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), mdctbox[0], 0, 1, 2, 3, tableops, tableops, 2, 2);
gtk_widget_show(mdctbox[0]);
mdctbox[1] = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), mdctbox[1], 1, 2, 2, 3, tableops, tableops, 2, 2);
gtk_widget_show(mdctbox[1]);
enerbox[0] = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), enerbox[0], 0, 1, 3, 4, tableops, tableops, 2, 2);
gtk_widget_show(enerbox[0]);
enerbox[1] = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), enerbox[1], 1, 2, 3, 4, tableops, tableops, 2, 2);
gtk_widget_show(enerbox[1]);
sfbbox[0] = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), sfbbox[0], 0, 1, 4, 5, tableops, tableops, 2, 2);
gtk_widget_show(sfbbox[0]);
sfbbox[1] = gpk_plot_new(graphy, graphy);
gtk_table_attach(GTK_TABLE(table), sfbbox[1], 1, 2, 4, 5, tableops, tableops, 2, 2);
gtk_widget_show(sfbbox[1]);
gtk_idle_add((GtkFunction) frameadv1, NULL);
gtk_widget_show(menubar);
gtk_widget_show(box2);
gtk_widget_show(box3);
gtk_widget_show(table);
gtk_widget_show(box1);
gtk_widget_show(mbox);
gtk_widget_show(window); /* show smallest allowed window */
/* make window bigger. */
/* now the user will be able to shrink it, if desired */
/* gtk_widget_set_usize(mbox,500,500); */
/* gtk_widget_show (window); */ /* show smallest allowed window */
idle_keepgoing = 1; /* processing of frames is ON */
idle_count_max = READ_AHEAD + 1; /* number of frames to process before plotting */
idle_count = 0; /* pause & plot when idle_count=idle_count_max */
gtk_main();
assert(mp3done);
return (0);
}