Difference between revisions of "Explorer/RaspberryPi/Visualprocessing/Motionvector"
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#include "cv.h" | #include "cv.h" | ||
#include <opencv2/opencv.hpp> | #include <opencv2/opencv.hpp> | ||
#include <pthread.h> | #include <pthread.h> | ||
using namespace cv; | |||
using namespace std; | |||
/*****************************************************************************/ | |||
#define SAD_LIMIT 150 | |||
#define SCALE 3/2 | |||
#define streamOutGstStr "appsrc ! shmsink socket-path=/tmp/camera3 wait-for-connection=false async=false sync=false" | |||
/*****************************************************************************/ | |||
struct motion_elt_t { | |||
int8_t x; | |||
int8_t y; | |||
uint16_t sad; | |||
}; | |||
static motion_elt_t *motionIn; | |||
static Mat imageIn; | |||
static int width,height,fps; | |||
static pthread_mutex_t imv_mutex; | |||
static bool imv_ready=false; | |||
static pthread_t img_thread; | |||
static pthread_mutex_t img_mutex; | |||
static pthread_cond_t img_condv; | |||
static bool img_ready=false; | |||
static bool init_ready=false; | |||
/*****************************************************************************/ | |||
static void *process_thread(void *ptr) | |||
{ | |||
VideoWriter strOut = VideoWriter(streamOutGstStr,0,fps/1,Size(width,height),true); | |||
unsigned int imageSize = ((width * height * sizeof(uint8_t))*SCALE); | |||
Mat imageOut(width, height, CV_8UC3,Scalar(0,0,0)); | |||
char* imgptr = imageOut.ptr<char>(0); | |||
int mbx = width/16; | |||
int mby = height/16; | |||
unsigned int motionSize = ((mbx+1)*mby) * sizeof(struct motion_elt_t); | |||
motion_elt_t *motionOut = new motion_elt_t[(mbx+1)*mby]; | |||
unsigned int uoffset=(width * height); | |||
unsigned int voffset=uoffset*5/4; | |||
unsigned int k,l,m,s; | |||
int x,y,p,q,a,b; | |||
int8_t r; | |||
int8_t mline[17][17]; | |||
for(int y=0;y<=16;y++) { | |||
for(int x=0;x<=16;x++) { | |||
mline[x][y]=floor((x*y/16.0)+0.5); | |||
} | |||
} | |||
while (true) { | |||
pthread_mutex_lock(&img_mutex); | |||
while (!img_ready) pthread_cond_wait(&img_condv, &img_mutex); | |||
memcpy(imageOut.data,imageIn.data,imageSize); | |||
img_ready=false; | |||
pthread_mutex_unlock(&img_mutex); | |||
if(imv_ready) { | |||
pthread_mutex_lock(&imv_mutex); | |||
memcpy(motionOut ,motionIn, motionSize); | |||
imv_ready=false; | |||
pthread_mutex_unlock(&imv_mutex); | |||
} | |||
for (int j=1;j<(mby-1);j++) { | |||
for (int i=1;i< (mbx-1);i++) { | |||
x=((i-1)*8)+12; | |||
y=((j-1)*8)+12; | |||
k=(2*((y*(mbx)*16)+x)); | |||
imgptr[k]=0; | |||
l=(y*(mbx)*8)+x; | |||
m = (l & 1) ? 0xFF : 0x00; | |||
imgptr[uoffset+l] = imgptr[uoffset+l] & m; | |||
imgptr[voffset+l] = imgptr[voffset+l] & m; | |||
motion_elt_t *vec = motionOut + (i+(mbx+1)*j); | |||
if (vec->x == 0 && vec->y == 0) continue; | |||
if (vec->sad > SAD_LIMIT) continue; | |||
}; | p = ((vec->x)>>2); | ||
if(p<0) {a=-1;p=-p;} else a=1; | |||
if(p>15) p=15; | |||
q = ((vec->y)>>2); | |||
if(q<0) {b=-1;q=-q;} else b=1; | |||
if(q>15) q=15; | |||
if(p<q) { | |||
for (int n=0;n<=q;n++) { | |||
r=mline[n][p]; | |||
s=(b*n*width)-(a*r); | |||
imgptr[k+s]=0; | |||
} | |||
} else { | |||
for (int n=0;n<=p;n++) { | |||
r=mline[n][q]; | |||
s=(b*r*width)-(a*n); | |||
imgptr[k+s]=0; | |||
} | |||
} | |||
} | |||
} | |||
strOut.write(imageOut); | |||
} | |||
return((void *)0); | |||
} | |||
} | |||
Revision as of 11:17, 27 June 2020
raspivid patch (new thread) compiled to raspicv, to provide /tmp/camera3 with motion vector display (from Adam Heinrich thesis)
git clone https://github.com/raspberrypi/userland.git git clone https://github.com/adamheinrich/RaspiCV.git
mv ~/RaspiCV/src/cv.cpp ~/RaspiCV/src/cv.cpp.old
#include "cv.h"
#include <opencv2/opencv.hpp>
#include <pthread.h>
using namespace cv;
using namespace std;
/*****************************************************************************/
#define SAD_LIMIT 150
#define SCALE 3/2
#define streamOutGstStr "appsrc ! shmsink socket-path=/tmp/camera3 wait-for-connection=false async=false sync=false"
/*****************************************************************************/
struct motion_elt_t {
int8_t x;
int8_t y;
uint16_t sad;
};
static motion_elt_t *motionIn;
static Mat imageIn;
static int width,height,fps;
static pthread_mutex_t imv_mutex;
static bool imv_ready=false;
static pthread_t img_thread;
static pthread_mutex_t img_mutex;
static pthread_cond_t img_condv;
static bool img_ready=false;
static bool init_ready=false;
/*****************************************************************************/
static void *process_thread(void *ptr)
{
VideoWriter strOut = VideoWriter(streamOutGstStr,0,fps/1,Size(width,height),true);
unsigned int imageSize = ((width * height * sizeof(uint8_t))*SCALE);
Mat imageOut(width, height, CV_8UC3,Scalar(0,0,0));
char* imgptr = imageOut.ptr<char>(0);
int mbx = width/16;
int mby = height/16;
unsigned int motionSize = ((mbx+1)*mby) * sizeof(struct motion_elt_t);
motion_elt_t *motionOut = new motion_elt_t[(mbx+1)*mby];
unsigned int uoffset=(width * height);
unsigned int voffset=uoffset*5/4;
unsigned int k,l,m,s;
int x,y,p,q,a,b;
int8_t r;
int8_t mline[17][17];
for(int y=0;y<=16;y++) {
for(int x=0;x<=16;x++) {
mline[x][y]=floor((x*y/16.0)+0.5);
}
}
while (true) {
pthread_mutex_lock(&img_mutex);
while (!img_ready) pthread_cond_wait(&img_condv, &img_mutex);
memcpy(imageOut.data,imageIn.data,imageSize);
img_ready=false;
pthread_mutex_unlock(&img_mutex);
if(imv_ready) {
pthread_mutex_lock(&imv_mutex);
memcpy(motionOut ,motionIn, motionSize);
imv_ready=false;
pthread_mutex_unlock(&imv_mutex);
}
for (int j=1;j<(mby-1);j++) {
for (int i=1;i< (mbx-1);i++) {
x=((i-1)*8)+12;
y=((j-1)*8)+12;
k=(2*((y*(mbx)*16)+x));
imgptr[k]=0;
l=(y*(mbx)*8)+x;
m = (l & 1) ? 0xFF : 0x00;
imgptr[uoffset+l] = imgptr[uoffset+l] & m;
imgptr[voffset+l] = imgptr[voffset+l] & m;
motion_elt_t *vec = motionOut + (i+(mbx+1)*j);
if (vec->x == 0 && vec->y == 0) continue;
if (vec->sad > SAD_LIMIT) continue;
p = ((vec->x)>>2);
if(p<0) {a=-1;p=-p;} else a=1;
if(p>15) p=15;
q = ((vec->y)>>2);
if(q<0) {b=-1;q=-q;} else b=1;
if(q>15) q=15;
if(p<q) {
for (int n=0;n<=q;n++) {
r=mline[n][p];
s=(b*n*width)-(a*r);
imgptr[k+s]=0;
}
} else {
for (int n=0;n<=p;n++) {
r=mline[n][q];
s=(b*r*width)-(a*n);
imgptr[k+s]=0;
}
}
}
}
strOut.write(imageOut);
}
return((void *)0);
}
/*****************************************************************************/
void cv_init(int w, int h, int f, int fmt)
{
width=w;height=h;fps=f;
imageIn.create(width*SCALE, height, CV_8UC1); motionIn = new motion_elt_t[((width/16)+1) * (height/16)];
pthread_mutex_init(&imv_mutex, NULL);
pthread_mutex_init(&img_mutex, NULL); pthread_cond_init(&img_condv, NULL);
pthread_create(&img_thread, NULL, process_thread, (void *)0);
init_ready=true;
}
/*****************************************************************************/
void cv_process_img(uint8_t *p_buffer, int length, int64_t timestamp)
{
if (init_ready) {
pthread_mutex_lock(&img_mutex);
memcpy(imageIn.data, p_buffer, length);
img_ready=true;
pthread_cond_signal(&img_condv);
pthread_mutex_unlock(&img_mutex);
}
}
/*****************************************************************************/
void cv_process_imv(uint8_t *p_buffer, int length, int64_t timestamp)
{
if (init_ready) {
pthread_mutex_lock(&imv_mutex);
memcpy(motionIn ,p_buffer, length);
imv_ready=true;
pthread_mutex_unlock(&imv_mutex);
}
}
/*****************************************************************************/
void cv_close(void)
{
}