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/*
* Pure Data Packet module.
* Copyright (c) by Tom Schouten <pdp@zzz.kotnet.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., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <dirent.h>
#include <limits.h>
#include <dlfcn.h>
#include "pdp.h"
#ifndef _EiC
#include "cv.h"
#endif
typedef struct pdp_opencv_dft_struct
{
t_object x_obj;
t_float x_f;
t_outlet *x_outlet0;
t_outlet *x_outlet1;
int x_packet0;
int x_packet1;
int x_packet2;
int x_dropped;
int x_queue_id;
int x_width;
int x_height;
int x_size;
int x_calculate;
int dft_M;
int dft_N;
// The output and temporary images
IplImage *image;
IplImage *gray;
IplImage *input_re;
IplImage *input_im;
IplImage *input_co;
CvMat *dft_A;
IplImage *image_re;
IplImage *image_im;
IplImage *image_mout;
IplImage *image_pout;
} t_pdp_opencv_dft;
// rearrange the quadrants of Fourier image so that the origin is at
// the image center
void pdp_opencv_dft_shift_dft(CvArr * src_arr, CvArr * dst_arr )
{
CvMat *tmp=NULL;
CvMat q1stub, q2stub;
CvMat q3stub, q4stub;
CvMat d1stub, d2stub;
CvMat d3stub, d4stub;
CvMat * q1, * q2, * q3, * q4;
CvMat * d1, * d2, * d3, * d4;
CvSize size = cvGetSize(src_arr);
CvSize dst_size = cvGetSize(dst_arr);
int cx, cy;
if(dst_size.width != size.width ||
dst_size.height != size.height){
error( "pdp_opencv_dft : source and destination arrays must have the same size" );
}
if(src_arr==dst_arr){
tmp = cvCreateMat(size.height/2, size.width/2, cvGetElemType(src_arr));
}
cx = size.width/2;
cy = size.height/2; // image center
q1 = cvGetSubRect( src_arr, &q1stub, cvRect(0,0,cx, cy) );
q2 = cvGetSubRect( src_arr, &q2stub, cvRect(cx,0,cx,cy) );
q3 = cvGetSubRect( src_arr, &q3stub, cvRect(cx,cy,cx,cy) );
q4 = cvGetSubRect( src_arr, &q4stub, cvRect(0,cy,cx,cy) );
d1 = cvGetSubRect( src_arr, &d1stub, cvRect(0,0,cx,cy) );
d2 = cvGetSubRect( src_arr, &d2stub, cvRect(cx,0,cx,cy) );
d3 = cvGetSubRect( src_arr, &d3stub, cvRect(cx,cy,cx,cy) );
d4 = cvGetSubRect( src_arr, &d4stub, cvRect(0,cy,cx,cy) );
if(src_arr!=dst_arr){
if( !CV_ARE_TYPES_EQ( q1, d1 )){
error( "pdp_opencv_dft : source and destination arrays must have the same format" );
}
cvCopy(q3, d1, 0);
cvCopy(q4, d2, 0);
cvCopy(q1, d3, 0);
cvCopy(q2, d4, 0);
}
else{
cvCopy(q3, tmp, 0);
cvCopy(q1, q3, 0);
cvCopy(tmp, q1, 0);
cvCopy(q4, tmp, 0);
cvCopy(q2, q4, 0);
cvCopy(tmp, q2, 0);
}
if(src_arr==dst_arr){
cvReleaseMat( &tmp );
}
}
static void pdp_opencv_dft_process_rgb(t_pdp_opencv_dft *x)
{
t_pdp *header = pdp_packet_header(x->x_packet0);
short int *data = (short int *)pdp_packet_data(x->x_packet0);
t_pdp *newheader = pdp_packet_header(x->x_packet1);;
short int *newdata = (short int *)pdp_packet_data(x->x_packet1);;
t_pdp *phaseheader = pdp_packet_header(x->x_packet2);;
short int *phasedata = (short int *)pdp_packet_data(x->x_packet2);;
CvMat tmp;
double m,M;
int px,py;
if ((x->x_width != (t_int)header->info.image.width) ||
(x->x_height != (t_int)header->info.image.height))
{
post("pdp_opencv_dft :: resizing");
x->x_width = header->info.image.width;
x->x_height = header->info.image.height;
x->x_size = x->x_width*x->x_height;
//Destroy cv_images
cvReleaseImage( &x->image );
//cvReleaseImage( &x->gray );
cvReleaseImage( &x->input_re );
cvReleaseImage( &x->input_im );
cvReleaseImage( &x->input_co );
cvReleaseMat( &x->dft_A );
//cvReleaseImage( &x->image_re );
//cvReleaseImage( &x->image_im );
//cvReleaseImage( &x->image_mout );
//cvReleaseImage( &x->image_pout );
x->image = cvCreateImage(cvSize(x->x_width,x->x_height), IPL_DEPTH_8U, 3);
x->gray = cvCreateImage(cvSize(x->image->width,x->image->height), IPL_DEPTH_8U, 1);
x->input_re = cvCreateImage( cvGetSize(x->image), IPL_DEPTH_64F, 1);
x->input_im = cvCreateImage( cvGetSize(x->image), IPL_DEPTH_64F, 1);
x->input_co = cvCreateImage( cvGetSize(x->image), IPL_DEPTH_64F, 2);
x->dft_M = cvGetOptimalDFTSize( x->gray->height - 1 );
x->dft_N = cvGetOptimalDFTSize( x->gray->width - 1 );
x->dft_A = cvCreateMat( x->dft_M, x->dft_N, CV_64FC2 );
x->image_re = cvCreateImage( cvSize(x->dft_N, x->dft_M), IPL_DEPTH_64F, 1);
x->image_im = cvCreateImage( cvSize(x->dft_N, x->dft_M), IPL_DEPTH_64F, 1);
x->image_mout = cvCreateImage( cvSize(x->image->width, x->image->height), IPL_DEPTH_8U, 1);
x->image_pout = cvCreateImage( cvSize(x->image->width, x->image->height), IPL_DEPTH_8U, 1);
}
newheader->info.image.encoding = PDP_BITMAP_GREY;
newheader->info.image.width = x->x_width;
newheader->info.image.height = x->x_height;
memcpy( x->image->imageData, data, x->x_size*3 );
cvCvtColor(x->image, x->gray, CV_BGR2GRAY);
if ( x->x_calculate )
{
// discrete fourier transform
cvScale(x->gray, x->input_re, 1.0, 0.0);
cvZero(x->input_im);
cvMerge(x->input_re, x->input_im, NULL, NULL, x->input_co);
// copy A to dft_A and pad dft_A with zeros
cvGetSubRect( x->dft_A, &tmp, cvRect(0,0, x->gray->width, x->gray->height));
cvCopy( x->input_co, &tmp, NULL );
if( x->dft_A->cols > x->gray->width )
{
cvGetSubRect( x->dft_A, &tmp, cvRect(x->gray->width,0, x->dft_A->cols - x->gray->width, x->gray->height));
cvZero( &tmp );
}
// no need to pad bottom part of dft_A with zeros because of
// use nonzero_rows parameter in cvDFT() call below
cvDFT( x->dft_A, x->dft_A, CV_DXT_FORWARD, x->input_co->height );
// Split Fourier in real and imaginary parts
cvSplit( x->dft_A, x->image_re, x->image_im, 0, 0 );
// calculate phase
for( py=0; py<x->image_re->height; py++ ) {
double* ptrr = (double*) ( x->image_re->imageData + py * x->image_re->widthStep);
double* ptri = (double*) ( x->image_im->imageData + py * x->image_im->widthStep);
float* ptrp = (float*) ( x->image_pout->imageData + py * x->image_pout->widthStep);
for( px=0; px<x->image_re->width; px++ ) {
(*(ptrp+px)) = cvFastArctan( (float)*(ptri+px), (float)*(ptrr+px) );
}
}
// Compute the magnitude of the spectrum Mag = sqrt(Re^2 + Im^2)
cvPow( x->image_re, x->image_re, 2.0);
cvPow( x->image_im, x->image_im, 2.0);
cvAdd( x->image_re, x->image_im, x->image_re, NULL);
cvPow( x->image_re, x->image_re, 0.5 );
// Compute log(1 + Mag)
cvAddS( x->image_re, cvScalarAll(1.0), x->image_re, NULL ); // 1 + Mag
cvLog( x->image_re, x->image_re ); // log(1 + Mag)
// Rearrange the quadrants of Fourier image so that the origin is at
// the image center
pdp_opencv_dft_shift_dft( x->image_re, x->image_re );
// normalize image
cvMinMaxLoc(x->image_re, &m, &M, NULL, NULL, NULL);
cvScale(x->image_re, x->image_re, 255.0/(M-m), 255.0*(-m)/(M-m));
for( py=0; py<x->image_re->height; py++ ) {
double* ptri = (double*) ( x->image_re->imageData + py * x->image_re->widthStep);
unsigned char* ptrp = (unsigned char*) ( x->image_mout->imageData + py * x->image_mout->widthStep);
for( px=0; px<x->image_re->width; px++ ) {
if ( *(ptrp+px) > 255.0 ) post( "pdp_opencv_dft : error value over 255" );
(*(ptrp+px)) = (unsigned char)( (*(ptri+px)) );
}
}
x->x_calculate=0;
}
cvCvtColor(x->image_mout, x->image, CV_GRAY2RGB);
memcpy( newdata, x->image->imageData, x->x_size*3 );
cvCvtColor(x->image_pout, x->image, CV_GRAY2RGB);
memcpy( phasedata, x->image->imageData, x->x_size*3 );
return;
}
static void pdp_opencv_dft_sendpacket(t_pdp_opencv_dft *x)
{
/* release the packet */
pdp_packet_mark_unused(x->x_packet0);
x->x_packet0 = -1;
/* unregister and propagate if valid dest packet */
pdp_packet_pass_if_valid(x->x_outlet0, &x->x_packet1);
/* unregister and propagate if valid dest packet */
pdp_packet_pass_if_valid(x->x_outlet1, &x->x_packet2);
pdp_packet_mark_unused(x->x_packet1);
pdp_packet_mark_unused(x->x_packet2);
}
static void pdp_opencv_dft_process(t_pdp_opencv_dft *x)
{
int encoding;
t_pdp *header = 0;
/* check if image data packets are compatible */
if ( (header = pdp_packet_header(x->x_packet0))
&& (PDP_BITMAP == header->type)){
/* pdp_opencv_dft_process inputs and write into active inlet */
switch(pdp_packet_header(x->x_packet0)->info.image.encoding){
case PDP_BITMAP_RGB:
x->x_packet1 = pdp_packet_clone_rw(x->x_packet0);
x->x_packet2 = pdp_packet_clone_rw(x->x_packet0);
pdp_queue_add(x, pdp_opencv_dft_process_rgb, pdp_opencv_dft_sendpacket, &x->x_queue_id);
break;
default:
/* don't know the type, so dont pdp_opencv_dft_process */
break;
}
}
}
static void pdp_opencv_dft_calculate(t_pdp_opencv_dft *x)
{
x->x_calculate=1;
}
static void pdp_opencv_dft_input_0(t_pdp_opencv_dft *x, t_symbol *s, t_floatarg f)
{
/* if this is a register_ro message or register_rw message, register with packet factory */
if (s == gensym("register_rw"))
x->x_dropped = pdp_packet_convert_ro_or_drop(&x->x_packet0, (int)f, pdp_gensym("bitmap/rgb/*") );
if ((s == gensym("process")) && (-1 != x->x_packet0) && (!x->x_dropped))
{
/* add the process method and callback to the process queue */
pdp_opencv_dft_process(x);
}
}
static void pdp_opencv_dft_free(t_pdp_opencv_dft *x)
{
int i;
//destroy cv structures
cvReleaseImage( &x->image );
//cvReleaseImage( &x->gray );
cvReleaseImage( &x->input_re );
cvReleaseImage( &x->input_im );
cvReleaseImage( &x->input_co );
cvReleaseMat( &x->dft_A );
//cvReleaseImage( &x->image_re );
//cvReleaseImage( &x->image_im );
//cvReleaseImage( &x->image_mout );
//cvReleaseImage( &x->image_pout );
pdp_queue_finish(x->x_queue_id);
pdp_packet_mark_unused(x->x_packet0);
}
t_class *pdp_opencv_dft_class;
void *pdp_opencv_dft_new(t_floatarg f)
{
int i;
t_pdp_opencv_dft *x = (t_pdp_opencv_dft *)pd_new(pdp_opencv_dft_class);
x->x_outlet0 = outlet_new(&x->x_obj, &s_anything);
x->x_outlet1 = outlet_new(&x->x_obj, &s_anything);
x->x_packet0 = -1;
x->x_packet1 = -1;
x->x_packet2 = -1;
x->x_queue_id = -1;
x->x_width = 320;
x->x_height = 240;
x->x_size = x->x_width * x->x_height;
x->image = cvCreateImage(cvSize(x->x_width,x->x_height), IPL_DEPTH_8U, 3);
x->gray = cvCreateImage(cvSize(x->x_width,x->x_height), IPL_DEPTH_8U, 1);
x->input_re = cvCreateImage( cvGetSize(x->image), IPL_DEPTH_64F, 1);
x->input_im = cvCreateImage( cvGetSize(x->image), IPL_DEPTH_64F, 1);
x->input_co = cvCreateImage( cvGetSize(x->image), IPL_DEPTH_64F, 2);
x->dft_M = cvGetOptimalDFTSize( x->gray->height - 1 );
x->dft_N = cvGetOptimalDFTSize( x->gray->width - 1 );
x->dft_A = cvCreateMat( x->dft_M, x->dft_N, CV_64FC2 );
x->image_re = cvCreateImage( cvSize(x->dft_N, x->dft_M), IPL_DEPTH_64F, 1);
x->image_im = cvCreateImage( cvSize(x->dft_N, x->dft_M), IPL_DEPTH_64F, 1);
x->image_mout = cvCreateImage( cvSize(x->dft_N, x->dft_M), IPL_DEPTH_8U, 1);
x->image_pout = cvCreateImage( cvSize(x->dft_N, x->dft_M), IPL_DEPTH_8U, 1);
// calculate first dft
x->x_calculate=1;
return (void *)x;
}
#ifdef __cplusplus
extern "C"
{
#endif
void pdp_opencv_dft_setup(void)
{
post( " pdp_opencv_dft");
pdp_opencv_dft_class = class_new(gensym("pdp_opencv_dft"), (t_newmethod)pdp_opencv_dft_new,
(t_method)pdp_opencv_dft_free, sizeof(t_pdp_opencv_dft), 0, A_DEFFLOAT, A_NULL);
class_addmethod(pdp_opencv_dft_class, (t_method)pdp_opencv_dft_input_0, gensym("pdp"), A_SYMBOL, A_DEFFLOAT, A_NULL);
class_addmethod(pdp_opencv_dft_class, (t_method)pdp_opencv_dft_calculate, gensym("bang"), A_NULL);
}
#ifdef __cplusplus
}
#endif
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