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vlc-1.1
Commit eba02c65 authored by Clément Stenac's avatar Clément Stenac
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* effects.c : 

  - added a spectrum analyser
  options are:
	-nb :  number of bands , 20 or 80 (80 is default)
	-separ : how many blank pixels between bands (1 default)
	-amp : vertical amplification ( 3 default)
	-peaks: draw peaks ? (default 1)

  - improved options parsing

* fft.c, fft.h :
	FFT code mainly taken from XMMS (adapted coding style)

* visual.c:
	Sanity checks (users aren't stupid, are they ? )

* LIST: updated the list
parent e5fe2b34
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Showing with 737 additions and 89 deletions
modules/LIST
View file @ eba02c65
List of vlc plugins (221)
$Id: LIST,v 1.10 2003/08/10 12:45:52 zorglub Exp $
$Id: LIST,v 1.11 2003/08/29 16:56:43 zorglub Exp $
* a52: A/52 basic parser
......@@ -91,6 +91,8 @@ $Id: LIST,v 1.10 2003/08/10 12:45:52 zorglub Exp $
* downmixsse: SSE accelerated version of downmix.
* dshow: DirectShow access plugin for encoding cards under Windows
* dts: DTS basic parser
* dtstospdif: Audio converter that encapsulates DTS into S/PDIF
......@@ -157,6 +159,8 @@ $Id: LIST,v 1.10 2003/08/10 12:45:52 zorglub Exp $
* gnome_main: Gtk+ wrapper for gtk_main
* goom: visualisation plugin based on goom
* gtk2: interface using the Gtk2 widget set.
* gtk2_main: Gtk+ wrapper for gtk_main
......@@ -290,6 +294,8 @@ $Id: LIST,v 1.10 2003/08/10 12:45:52 zorglub Exp $
* ncurses: interface module using the ncurses library.
* ntservice: run VLC as a NT service
* ogg: input module for OGG decapsulation.
* oss: audio output module using the OSS /dev/dsp interface.
......@@ -413,6 +419,8 @@ $Id: LIST,v 1.10 2003/08/10 12:45:52 zorglub Exp $
* vcd: input module for accessing Video CDs.
* visual: visualisation system
* vorbis: a vorbis audio decoder using the libvorbis library.
* vout_directx: video output module using the DirectX API.
......@@ -433,8 +441,6 @@ $Id: LIST,v 1.10 2003/08/10 12:45:52 zorglub Exp $
* x11: video output module using the X11 API.
* xmga: X11 MGA video_output plugin
* xosd: X On Screen Display interface
* xvid: Decoder for the Xvid codec, using libxvidcore
......
modules/visualization/visual/Modules.am
View file @ eba02c65
SOURCES_visual = visual.c \
effects.c
effects.c \
fft.c
modules/visualization/visual/effects.c
View file @ eba02c65
......@@ -2,7 +2,7 @@
* effects.c : Effects for the visualization system
*****************************************************************************
* Copyright (C) 2002 VideoLAN
* $Id: effects.c,v 1.1 2003/08/19 21:20:00 zorglub Exp $
* $Id: effects.c,v 1.2 2003/08/29 16:56:43 zorglub Exp $
*
* Authors: Clment Stenac <zorglub@via.ecp.fr>
*
......@@ -27,7 +27,9 @@
#include "visual.h"
#include <math.h>
#include "fft.h"
#define PEAK_SPEED 1
/*****************************************************************************
* Argument list parsers *
*****************************************************************************/
......@@ -37,21 +39,28 @@ int args_getint(char *psz_parse, char * name,const int defaut)
int i_value;
if( psz_parse != NULL )
{
if(!strncmp( psz_parse, name, strlen(name) ) )
while(1)
{
psz_parse += strlen( name );
psz_eof = strchr( psz_parse , ',' );
if( !psz_eof)
psz_eof = psz_parse + strlen(psz_parse);
if( psz_eof )
if(!strncmp( psz_parse, name, strlen(name) ) )
{
*psz_eof = '\0' ;
psz_parse += strlen( name );
psz_eof = strchr( psz_parse , ',' );
if( !psz_eof)
psz_eof = psz_parse + strlen(psz_parse);
if( psz_eof )
{
*psz_eof = '\0' ;
}
i_value = atoi(++psz_parse);
psz_parse= psz_eof;
psz_parse++;
return i_value;
}
i_value = atoi(++psz_parse);
psz_parse= psz_eof;
psz_parse++;
return i_value;
}
if( *psz_parse )
psz_parse ++;
else
break;
}
}
return defaut;
}
......@@ -63,23 +72,30 @@ char * args_getpsz(char *psz_parse, char * name,const char * defaut)
char *psz_value;
if( psz_parse != NULL )
{
if(!strncmp( psz_parse, name, strlen(name) ) )
while(1)
{
psz_parse += strlen( name );
psz_eof = strchr( psz_parse , ',' );
if( !psz_eof)
psz_eof = psz_parse + strlen(psz_parse);
if( psz_eof )
if(!strncmp( psz_parse, name, strlen(name) ) )
{
*psz_eof = '\0' ;
psz_parse += strlen( name );
psz_eof = strchr( psz_parse , ',' );
if( !psz_eof)
psz_eof = psz_parse + strlen(psz_parse);
if( psz_eof )
{
*psz_eof = '\0' ;
}
psz_value = strdup(++psz_parse);
psz_parse= psz_eof;
psz_parse++;
return psz_value;
}
psz_value = strdup(++psz_parse);
psz_parse= psz_eof;
psz_parse++;
return psz_value;
if( *psz_parse )
psz_parse ++;
else
break;
}
}
return strdup(defaut);
return strdup(defaut);
}
......@@ -98,7 +114,287 @@ int dummy_Run( visual_effect_t * p_effect, aout_instance_t *p_aout,
int spectrum_Run(visual_effect_t * p_effect, aout_instance_t *p_aout,
aout_buffer_t * p_buffer , picture_t * p_picture)
{
return 0;
float p_output[FFT_BUFFER_SIZE]; /* Raw FFT Result */
int *height; /* Bar heights */
int *peaks; /* Peaks */
int i_nb_bands; /* number of bands */
int i_band_width; /* width of bands */
int i_separ; /* Should we let blanks ? */
int i_amp; /* Vertical amplification */
int i_peak; /* Should we draw peaks ? */
char *psz_parse = NULL; /* Args line */
/* Horizontal scale for 20-band equalizer */
const int xscale1[]={0,1,2,3,4,5,6,7,8,11,15,20,27,
36,47,62,82,107,141,184,255};
/* Horizontal scale for 80-band equalizer */
const int xscale2[] =
{0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,
19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,
35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,
52,53,54,55,56,57,58,59,61,63,67,72,77,82,87,93,99,105,
110,115,121,130,141,152,163,174,185,255};
const int *xscale;
const double y_scale = 3.60673760222; /* (log 256) */
fft_state *p_state; /* internal FFT data */
int i , j , y , k;
int i_line;
s16 p_dest[FFT_BUFFER_SIZE]; /* Adapted FFT result */
s16 p_buffer1[FFT_BUFFER_SIZE]; /* Buffer on which we perform
the FFT (first channel) */
float *p_buffl = /* Original buffer */
(float*)p_buffer->p_buffer;
s16 *p_buffs; /* s16 converted buffer */
s16 *p_s16_buff = NULL; /* s16 converted buffer */
p_s16_buff = (s16*)malloc(
p_buffer->i_nb_samples * p_effect->i_nb_chans * sizeof(s16));
if( !p_s16_buff )
{
msg_Err(p_aout,"Out of memory");
return -1;
}
p_buffs = p_s16_buff;
if( p_effect->psz_args )
{
psz_parse = strdup( p_effect->psz_args );
i_nb_bands = args_getint ( psz_parse , "nb" , 80 );
psz_parse = strdup( p_effect->psz_args );
i_separ = args_getint ( psz_parse , "separ", 1 );
psz_parse = strdup( p_effect->psz_args );
i_amp = args_getint ( psz_parse , "amp", 3 );
psz_parse = strdup( p_effect->psz_args );
i_peak = args_getint ( psz_parse , "peaks", 1 );
}
else
{
i_nb_bands = 80;
i_separ = 1;
i_amp = 3;
i_peak = 1;
}
if( i_nb_bands == 20)
{
xscale = xscale1;
}
else
{
i_nb_bands = 80;
xscale = xscale2;
}
if( !p_effect->p_data )
{
p_effect->p_data=(void *)malloc(i_nb_bands * sizeof(int) );
if( !p_effect->p_data)
{
msg_Err(p_aout,"Out of memory");
return -1;
}
peaks = (int *)p_effect->p_data;
for( i = 0 ; i < i_nb_bands ; i++)
{
peaks[i] = 0;
}
}
else
{
peaks =(int *)p_effect->p_data;
}
height = (int *)malloc( i_nb_bands * sizeof(int) );
if( !height)
{
msg_Err(p_aout,"Out of memory");
return -1;
}
/* Convert the buffer to s16 */
/* Pasted from float32tos16.c */
for (i = p_buffer->i_nb_samples * p_effect->i_nb_chans; i--; )
{
float f_in = *p_buffl + 384.0;
s32 i_in;
i_in = *(s32 *)&f_in;
if(i_in > 0x43c07fff ) * p_buffs = 32767;
else if ( i_in < 0x43bf8000 ) *p_buffs = -32768;
else *p_buffs = i_in - 0x43c00000;
p_buffl++ ; p_buffs++ ;
}
p_state = fft_init();
if( !p_state)
{
msg_Err(p_aout,"Unable to initialize FFT transform");
return -1;
}
p_buffs = p_s16_buff;
for ( i = 0 ; i < FFT_BUFFER_SIZE ; i++)
{
p_output[i] = 0;
p_buffer1[i] = *p_buffs;
p_buffs = p_buffs + p_effect->i_nb_chans;
}
fft_perform( p_buffer1, p_output, p_state);
for(i= 0; i< FFT_BUFFER_SIZE ; i++ )
p_dest[i] = ( (int) sqrt( p_output [ i + 1 ] ) ) >> 8;
for ( i = 0 ; i< i_nb_bands ;i++)
{
/* We search the maximum on one scale */
for( j = xscale[i] , y=0 ; j< xscale[ i + 1 ] ; j++ )
{
if ( p_dest[j] > y )
y = p_dest[j];
}
/* Calculate the height of the bar */
y >>=5; /* remove some noise */
if( y != 0)
{
height[i] = (int)log(y)* y_scale;
if(height[i] > 150)
height[i] = 150;
}
else
{
height[i] = 0 ;
}
/* Draw the bar now */
i_band_width = floor( p_effect->i_width / i_nb_bands) ;
if( i_amp * height[i] > peaks[i])
{
peaks[i] = i_amp * height[i];
}
else if (peaks[i] > 0 )
{
peaks[i] -= PEAK_SPEED;
if( peaks[i] < i_amp * height[i] )
{
peaks[i] = i_amp * height[i];
}
if( peaks[i] < 0 )
{
peaks[i] = 0;
}
}
if( peaks[i] > 0 && i_peak )
{
if( peaks[i] >= p_effect->i_height )
peaks[i] = p_effect->i_height - 2;
i_line = peaks[i];
for( j = 0 ; j< i_band_width - i_separ; j++)
{
for( k = 0 ; k< 3 ; k ++)
{
/* Draw the peak */
*(p_picture->p[0].p_pixels +
(p_picture->p[0].i_lines - i_line -1 -k ) *
p_picture->p[0].i_pitch + (i_band_width*i +j) )
= 0xff;
*(p_picture->p[1].p_pixels +
(p_picture->p[1].i_lines - i_line /2 -1 -k/2 ) *
p_picture->p[1].i_pitch +
( ( i_band_width * i + j ) /2 ) )
= 0x00;
if( 0x04 * (i_line + k ) - 0x0f > 0 )
{
if ( 0x04 * (i_line + k ) -0x0f < 0xff)
*(p_picture->p[2].p_pixels +
(p_picture->p[2].i_lines - i_line /2 - 1 -k/2 ) *
p_picture->p[2].i_pitch +
( ( i_band_width * i + j ) /2 ) )
= ( 0x04 * ( i_line + k ) ) -0x0f ;
else
*(p_picture->p[2].p_pixels +
(p_picture->p[2].i_lines - i_line /2 - 1 -k/2 ) *
p_picture->p[2].i_pitch +
( ( i_band_width * i + j ) /2 ) )
= 0xff;
}
else
{
*(p_picture->p[2].p_pixels +
(p_picture->p[2].i_lines - i_line /2 - 1 -k/2 ) *
p_picture->p[2].i_pitch +
( ( i_band_width * i + j ) /2 ) )
= 0x10 ;
}
}
}
}
if(height[i] * i_amp > p_effect->i_height)
height[i] = floor(p_effect->i_height / i_amp );
for(i_line = 0 ; i_line < i_amp * height[i]; i_line ++ )
{
for( j = 0 ; j< i_band_width - i_separ ; j++)
{
*(p_picture->p[0].p_pixels +
(p_picture->p[0].i_lines - i_line -1) *
p_picture->p[0].i_pitch + (i_band_width*i +j) ) = 0xff;
*(p_picture->p[1].p_pixels +
(p_picture->p[1].i_lines - i_line /2 -1) *
p_picture->p[1].i_pitch +
( ( i_band_width * i + j ) /2 ) ) = 0x00;
if( 0x04 * i_line - 0x0f > 0 )
{
if( 0x04 * i_line - 0x0f < 0xff )
*(p_picture->p[2].p_pixels +
(p_picture->p[2].i_lines - i_line /2 - 1) *
p_picture->p[2].i_pitch +
( ( i_band_width * i + j ) /2 ) ) =
( 0x04 * i_line) -0x0f ;
else
*(p_picture->p[2].p_pixels +
(p_picture->p[2].i_lines - i_line /2 - 1) *
p_picture->p[2].i_pitch +
( ( i_band_width * i + j ) /2 ) ) =
0xff;
}
else
{
*(p_picture->p[2].p_pixels +
(p_picture->p[2].i_lines - i_line /2 - 1) *
p_picture->p[2].i_pitch +
( ( i_band_width * i + j ) /2 ) ) =
0x10 ;
}
}
}
}
fft_close( p_state );
if( p_s16_buff != NULL )
{
free( p_s16_buff );
p_s16_buff = NULL;
}
if(height) free(height);
if(psz_parse) free(psz_parse);
return 0;
}
......@@ -172,15 +468,7 @@ int random_Run(visual_effect_t * p_effect, aout_instance_t *p_aout,
if( p_effect->psz_args )
{
psz_parse = strdup( p_effect->psz_args );
while(1)
{
i_nb_plots = args_getint ( psz_parse , "nb" , 200 );
if(i_nb_plots) break;
if( *psz_parse )
psz_parse ++;
else
break;
}
i_nb_plots = args_getint ( psz_parse , "nb" , 200 );
}
else
{
......@@ -194,6 +482,61 @@ int random_Run(visual_effect_t * p_effect, aout_instance_t *p_aout,
i_u = rand() % 256;
i_v = rand() % 256;
*(p_picture->p[0].p_pixels + i_position )= i_u;
*(p_picture->p[1].p_pixels + i_position/4) = i_v;
*(p_picture->p[2].p_pixels + i_position/4) = i_y;
}
return 0;
}
/*****************************************************************************
* blur_Run: blur effect
*****************************************************************************/
#if 0
/* This code is totally crappy */
int blur_Run(visual_effect_t * p_effect, aout_instance_t *p_aout,
aout_buffer_t * p_buffer , picture_t * p_picture)
{
uint8_t * p_pictures;
int i,j;
int i_size; /* Total size of one image */
i_size = (p_picture->p[0].i_pitch * p_picture->p[0].i_lines +
p_picture->p[1].i_pitch * p_picture->p[1].i_lines +
p_picture->p[2].i_pitch * p_picture->p[2].i_lines );
if( !p_effect->p_data )
{
p_effect->p_data=(void *)malloc( 5 * i_size *sizeof(uint8_t));
if( !p_effect->p_data)
{
msg_Err(p_aout,"Out of memory");
return -1;
}
p_pictures = (uint8_t *)p_effect->p_data;
}
else
{
p_pictures =(uint8_t *)p_effect->p_data;
}
for( i = 0 ; i < 5 ; i++)
{
for ( j = 0 ; j< p_picture->p[0].i_pitch * p_picture->p[0].i_lines; i++)
p_picture->p[0].p_pixels[j] =
p_pictures[i * i_size + j] * (100 - 20 * i) /100 ;
for ( j = 0 ; j< p_picture->p[1].i_pitch * p_picture->p[1].i_lines; i++)
p_picture->p[1].p_pixels[j] =
p_pictures[i * i_size +
p_picture->p[0].i_pitch * p_picture->p[0].i_lines + j ];
for ( j = 0 ; j< p_picture->p[2].i_pitch * p_picture->p[2].i_lines; i++)
p_picture->p[2].p_pixels[j] =
p_pictures[i * i_size +
p_picture->p[0].i_pitch * p_picture->p[0].i_lines +
p_picture->p[1].i_pitch * p_picture->p[1].i_lines
+ j ];
}
memcpy ( &p_pictures[ i_size ] , &p_pictures[0] , 4 * i_size * sizeof(uint8_t) );
}
#endif
modules/visualization/visual/fft.c 0 → 100644
View file @ eba02c65
/*****************************************************************************
* fft.c: Iterative implementation of a FFT
*****************************************************************************
* $Id: fft.c,v 1.1 2003/08/29 16:56:43 zorglub Exp $
*
* Mainly taken from XMMS's code
*
* Authors: Richard Boulton <richard@tartarus.org>
* Ralph Loader <suckfish@ihug.co.nz>
*
* 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, USA.
*****************************************************************************/
#include "fft.h"
#include <stdlib.h>
#include <math.h>
#ifndef PI
#ifdef M_PI
#define PI M_PI
#else
#define PI 3.14159265358979323846 /* pi */
#endif
#endif
/******************************************************************************
* Local prototypes
*****************************************************************************/
static void fft_prepare(const sound_sample *input, float * re, float * im);
static void fft_calculate(float * re, float * im);
static void fft_output(const float *re, const float *im, float *output);
static int reverseBits(unsigned int initial);
/* Table to speed up bit reverse copy */
static unsigned int bitReverse[FFT_BUFFER_SIZE];
/* The next two tables could be made to use less space in memory, since they
* overlap hugely, but hey. */
static float sintable[FFT_BUFFER_SIZE / 2];
static float costable[FFT_BUFFER_SIZE / 2];
/*****************************************************************************
* These functions are the ones called externally
*****************************************************************************/
/*
* Initialisation routine - sets up tables and space to work in.
* Returns a pointer to internal state, to be used when performing calls.
* On error, returns NULL.
* The pointer should be freed when it is finished with, by fft_close().
*/
fft_state *fft_init(void)
{
fft_state *p_state;
unsigned int i;
p_state = (fft_state *) malloc (sizeof(fft_state));
if(! p_state )
return NULL;
for(i = 0; i < FFT_BUFFER_SIZE; i++)
{
bitReverse[i] = reverseBits(i);
}
for(i = 0; i < FFT_BUFFER_SIZE / 2; i++)
{
float j = 2 * PI * i / FFT_BUFFER_SIZE;
costable[i] = cos(j);
sintable[i] = sin(j);
}
return p_state;
}
/*
* Do all the steps of the FFT, taking as input sound data (as described in
* sound.h) and returning the intensities of each frequency as floats in the
* range 0 to ((FFT_BUFFER_SIZE / 2) * 32768) ^ 2
*
* The input array is assumed to have FFT_BUFFER_SIZE elements,
* and the output array is assumed to have (FFT_BUFFER_SIZE / 2 + 1) elements.
* state is a (non-NULL) pointer returned by fft_init.
*/
void fft_perform(const sound_sample *input, float *output, fft_state *state) {
/* Convert data from sound format to be ready for FFT */
fft_prepare(input, state->real, state->imag);
/* Do the actual FFT */
fft_calculate(state->real, state->imag);
/* Convert the FFT output into intensities */
fft_output(state->real, state->imag, output);
}
/*
* Free the state.
*/
void fft_close(fft_state *state) {
if(state) free(state);
}
/*****************************************************************************
* These functions are called from the other ones
*****************************************************************************/
/*
* Prepare data to perform an FFT on
*/
static void fft_prepare(const sound_sample *input, float * re, float * im) {
unsigned int i;
float *p_real = re;
float *p_imag = im;
/* Get input, in reverse bit order */
for(i = 0; i < FFT_BUFFER_SIZE; i++)
{
*p_real++ = input[bitReverse[i]];
*p_imag++ = 0;
}
}
/*
* Take result of an FFT and calculate the intensities of each frequency
* Note: only produces half as many data points as the input had.
*/
static void fft_output(const float * re, const float * im, float *output)
{
float *p_output = output;
const float *p_real = re;
const float *p_imag = im;
float *p_end = output + FFT_BUFFER_SIZE / 2;
while(p_output <= p_end)
{
*p_output = (*p_real * *p_real) + (*p_imag * *p_imag);
p_output++; p_real++; p_imag++;
}
/* Do divisions to keep the constant and highest frequency terms in scale
* with the other terms. */
*output /= 4;
*p_end /= 4;
}
/*
* Actually perform the FFT
*/
static void fft_calculate(float * re, float * im)
{
unsigned int i, j, k;
unsigned int exchanges;
float fact_real, fact_imag;
float tmp_real, tmp_imag;
unsigned int factfact;
/* Set up some variables to reduce calculation in the loops */
exchanges = 1;
factfact = FFT_BUFFER_SIZE / 2;
/* Loop through the divide and conquer steps */
for(i = FFT_BUFFER_SIZE_LOG; i != 0; i--) {
/* In this step, we have 2 ^ (i - 1) exchange groups, each with
* 2 ^ (FFT_BUFFER_SIZE_LOG - i) exchanges
*/
/* Loop through the exchanges in a group */
for(j = 0; j != exchanges; j++) {
/* Work out factor for this exchange
* factor ^ (exchanges) = -1
* So, real = cos(j * PI / exchanges),
* imag = sin(j * PI / exchanges)
*/
fact_real = costable[j * factfact];
fact_imag = sintable[j * factfact];
/* Loop through all the exchange groups */
for(k = j; k < FFT_BUFFER_SIZE; k += exchanges << 1) {
int k1 = k + exchanges;
tmp_real = fact_real * re[k1] - fact_imag * im[k1];
tmp_imag = fact_real * im[k1] + fact_imag * re[k1];
re[k1] = re[k] - tmp_real;
im[k1] = im[k] - tmp_imag;
re[k] += tmp_real;
im[k] += tmp_imag;
}
}
exchanges <<= 1;
factfact >>= 1;
}
}
static int reverseBits(unsigned int initial)
{
unsigned int reversed = 0, loop;
for(loop = 0; loop < FFT_BUFFER_SIZE_LOG; loop++) {
reversed <<= 1;
reversed += (initial & 1);
initial >>= 1;
}
return reversed;
}
modules/visualization/visual/fft.h 0 → 100644
View file @ eba02c65
/*****************************************************************************
* fft.h: Headers for iterative implementation of a FFT
*****************************************************************************
* $Id: fft.h,v 1.1 2003/08/29 16:56:43 zorglub Exp $
*
* Mainly taken from XMMS's code
*
* Authors: Richard Boulton <richard@tartarus.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., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
*****************************************************************************/
#ifndef _FFT_H_
#define _FFT_H_
#define FFT_BUFFER_SIZE_LOG 9
#define FFT_BUFFER_SIZE (1 << FFT_BUFFER_SIZE_LOG)
/* sound sample - should be an signed 16 bit value */
typedef short int sound_sample;
struct _struct_fft_state {
/* Temporary data stores to perform FFT in. */
float real[FFT_BUFFER_SIZE];
float imag[FFT_BUFFER_SIZE];
};
/* FFT prototypes */
typedef struct _struct_fft_state fft_state;
fft_state *fft_init (void);
void fft_perform (const sound_sample *input, float *output, fft_state *state);
void fft_close (fft_state *state);
#endif /* _FFT_H_ */
modules/visualization/visual/visual.c
View file @ eba02c65
......@@ -2,7 +2,7 @@
* visual.c : Visualisation system
*****************************************************************************
* Copyright (C) 2002 VideoLAN
* $Id: visual.c,v 1.1 2003/08/19 21:20:00 zorglub Exp $
* $Id: visual.c,v 1.2 2003/08/29 16:56:43 zorglub Exp $
*
* Authors: Clment Stenac <zorglub@via.ecp.fr>
*
......@@ -97,7 +97,18 @@ static int Open( vlc_object_t *p_this )
}
p_filter->p_sys->i_height = config_GetInt( p_filter , "effect-height");
p_filter->p_sys->i_width = config_GetInt( p_filter , "effect-width");
p_filter->p_sys->i_width = config_GetInt( p_filter , "effect-width");
if ( p_filter->p_sys->i_height < 20 )
p_filter->p_sys->i_height = 20;
if ( p_filter->p_sys->i_width < 20 )
p_filter->p_sys->i_width = 20;
if( (p_filter->p_sys->i_height % 2 ) != 0 )
p_filter->p_sys->i_height --;
if( (p_filter->p_sys->i_width % 2 ) != 0 )
p_filter->p_sys->i_width --;
/* Parse the effect list */
psz_effects = config_GetPsz( p_filter, "effect-list" );
......@@ -113,40 +124,6 @@ static int Open( vlc_object_t *p_this )
p_current_effect = p_filter->p_sys->p_first_effect;
p_current_effect->p_next = NULL;
#define SEARCH(name , function ) \
if(!strncmp( psz_effects , name, strlen(name) ) ) \
{ \
p_current_effect->p_next = \
(visual_effect_t *)malloc( sizeof( visual_effect_t ) ); \
if( !p_current_effect ) \
{ \
msg_Err( p_filter, "Out of memory" ); \
} \
p_current_effect = p_current_effect -> p_next; \
p_current_effect->pf_run = NULL; \
p_current_effect->p_next = NULL; \
p_current_effect->i_width = p_filter->p_sys->i_width; \
p_current_effect->i_height = p_filter->p_sys->i_height; \
p_current_effect->pf_run = function ; \
p_current_effect->psz_args = NULL; \
psz_boa = strchr( psz_effects, '{' ); \
if( psz_boa ) \
{ \
psz_eoa = strchr( psz_effects, '}'); \
if( ! psz_eoa ) \
{ \
msg_Err( p_filter, "Unable to parse effect list. Aborting"); \
return -1; \
} \
*psz_eoa = '\0'; \
p_current_effect->psz_args = strdup(++psz_boa); \
psz_effects = psz_eoa; \
} \
msg_Dbg(p_filter, "Adding filter: %s ( %s )",name, \
p_current_effect->psz_args); \
}
while(1)
{
psz_eof = strchr( psz_effects , ';' );
......@@ -159,26 +136,62 @@ static int Open( vlc_object_t *p_this )
{
*psz_eof = '\0';
}
SEARCH("dummy",dummy_Run);
SEARCH("scope",scope_Run);
SEARCH("random",random_Run);
SEARCH("spectrum",spectrum_Run);
p_current_effect->p_next =
(visual_effect_t *)malloc( sizeof( visual_effect_t ) );
if( !p_current_effect )
{
msg_Err( p_filter, "Out of memory" );
}
p_current_effect = p_current_effect -> p_next;
p_current_effect->pf_run = NULL;
p_current_effect->p_next = NULL;
p_current_effect->i_width = p_filter->p_sys->i_width;
p_current_effect->i_height = p_filter->p_sys->i_height;
p_current_effect->p_data = NULL;
if(! strncasecmp(psz_effects,"dummy",5))
p_current_effect->pf_run = dummy_Run;
else if(! strncasecmp(psz_effects,"scope",5) )
p_current_effect->pf_run = scope_Run;
else if(! strncasecmp(psz_effects,"spectrum",8) )
p_current_effect->pf_run = spectrum_Run;
else if(! strncasecmp(psz_effects,"random",6) )
p_current_effect->pf_run = random_Run;
#if 0
else if(! strncasecmp(psz_effects,"blur",4) )
p_current_effect->pf_run = blur_Run;
#endif
p_current_effect->psz_args = NULL;
p_current_effect->i_nb_chans =
aout_FormatNbChannels( &p_filter->input);
psz_boa = strchr( psz_effects, '{' );
if( psz_boa )
{
psz_eoa = strchr( psz_effects, '}');
if( ! psz_eoa )
{
msg_Err( p_filter, "Unable to parse effect list. Aborting");
return -1;
}
*psz_eoa = '\0';
p_current_effect->psz_args = strdup(++psz_boa);
psz_effects = psz_eoa;
}
psz_effects = psz_eof;
psz_effects ++;
if( !* psz_effects || b_end == VLC_TRUE )
if( b_end == VLC_TRUE )
break;
}
p_filter->pf_do_work = DoWork;
p_filter->b_in_place= 0;
p_filter->b_in_place= 1;
/* Open the video output */
p_filter->p_sys->p_vout =
vout_Create( p_filter, p_filter->p_sys->i_width,
vout_Request( p_filter, NULL,
p_filter->p_sys->i_width,
p_filter->p_sys->i_height,
VLC_FOURCC('I','4','2','0'),
VOUT_ASPECT_FACTOR * p_filter->p_sys->i_width/
......@@ -315,6 +328,8 @@ static void DoWork( aout_instance_t *p_aout, aout_filter_t *p_filter,
while( p_current_effect )
{
#if 1
/* FIXME: Find why it segfaults when we directly call
* p_current_effect->pf_run(....)
* (segfault in errno() ) */
......@@ -334,7 +349,15 @@ static void DoWork( aout_instance_t *p_aout, aout_filter_t *p_filter,
{
spectrum_Run(p_current_effect, p_aout, p_out_buf , p_outpic );
}
#if 0
else if (p_current_effect->pf_run == blur_Run )
{
blur_Run(p_current_effect, p_aout, p_out_buf , p_outpic );
}
#endif
#else
p_current_effect->pf_run(p_current_effect, p_aout, p_out_buf , p_outpic );
#endif
p_current_effect = p_current_effect->p_next;
}
......@@ -343,7 +366,6 @@ static void DoWork( aout_instance_t *p_aout, aout_filter_t *p_filter,
vout_DisplayPicture ( p_filter->p_sys->p_vout, p_outpic );
}
/*****************************************************************************
......@@ -353,12 +375,23 @@ static void Close( vlc_object_t *p_this )
{
aout_filter_t * p_filter = (aout_filter_t *)p_this;
visual_effect_t *p_old;
visual_effect_t *p_cur = p_filter->p_sys->p_first_effect;
if( p_filter->p_sys->p_vout )
{
vlc_object_detach( p_filter->p_sys->p_vout) ;
vout_Destroy( p_filter->p_sys->p_vout );
}
/* Free the list */
while( p_cur )
{
p_old = p_cur;
p_cur = p_cur->p_next;
if( p_old ) free( p_old );
}
if( p_filter->p_sys != NULL )
free( p_filter->p_sys);
}
modules/visualization/visual/visual.h
View file @ eba02c65
......@@ -2,7 +2,7 @@
* visual.h : Header for the visualisation system
*****************************************************************************
* Copyright (C) 2002 VideoLAN
* $Id: visual.h,v 1.1 2003/08/19 21:20:00 zorglub Exp $
* $Id: visual.h,v 1.2 2003/08/29 16:56:43 zorglub Exp $
*
* Authors: Clment Stenac <zorglub@via.ecp.fr>
*
......@@ -51,6 +51,7 @@ typedef struct visual_effect_t
int i_width;
int i_height;
char * psz_args;
int i_nb_chans;
} visual_effect_t ;
......@@ -71,7 +72,10 @@ int random_Run
(visual_effect_t * , aout_instance_t *, aout_buffer_t *, picture_t *);
int spectrum_Run
(visual_effect_t * , aout_instance_t *, aout_buffer_t *, picture_t *);
#if 0
int blur_Run
(visual_effect_t * , aout_instance_t *, aout_buffer_t *, picture_t *);
#endif
/* Default vout size */
#define VOUT_WIDTH 320
......
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