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image_aquisition.cpp
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image_aquisition.cpp
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#include <opencv2/opencv.hpp>
#include <stdio.h>
#include <sys/time.h>
#include <stdlib.h>
#include "image_acquisition.h"
#include "settings.h"
#include "webcam_config.h"
#include "serial.h"
#include "cube.h"
using namespace cv;
int webcam_init = 0;
char align_done = 0;
int current_facelet = 0;
int current_poly = 0;
//int ref_color[18]; // reference colors
// colors used in the UI for cube colors
int default_color[18] = {255,0,0, //blue
0,0,255, //red
255,255,255, //white
0,255,0, //green
0,128,255, //orange
0,255,255}; //eyllow
// id'd facelets
int facelet_codes[54];
// reference color scalars
Scalar ref_scalars[6];
Scalar default_scalars[6];
float ref_magnitues[6];
Mat image1, image2;
Mat* ims[] = {&image1, &image2};
Mat wide_image, wide_image_converted;
VideoCapture cap1,cap2;
VideoCapture* caps[] = {&cap1,&cap2};
cube_rois cube_polys, file_cube_polys;
Scalar facelet_colors[54];
struct timespec stop, start;
int unsave_changes = 0;
int get_unsaved_changes()
{
int rv = unsave_changes;
unsave_changes = 0;
return rv;
}
// write polygons to file
void vomit_to_file(char* name)
{
unsave_changes = 0;
printf("[File Write]\n");
printf("\tname: %s\n",name);
printf("\tsize: %ld bytes\n",sizeof(cube_rois));
//copy into separate structure so we can strip out pointers
memcpy(&file_cube_polys,&cube_polys,sizeof(cube_rois));
kill_pointers();
//write to file in binary mode
FILE* fptr = fopen(name,"wb");
fwrite(&file_cube_polys,sizeof(file_cube_polys),1,fptr);
fclose(fptr);
printf("\tdone!\n");
}
// read polygons from file
void read_file(char* name)
{
unsave_changes = 0;
printf("[File Read]\n");
printf("\tname: %s\n",name);
printf("\tsize: %ld bytes\n",sizeof(cube_rois));
//read
FILE* fptr = fopen(name,"rb");
fread(&cube_polys,sizeof(cube_polys),1,fptr);
fclose(fptr);
//create opencv point objects
create_opencv_points();
}
// initialize webcams
void init_webcam(int i)
{
//memcpy(ref_color,default_color,18*sizeof(int));
int index = 0;
for(int image = i; image < i+2; image++)
{
printf("[Webcam] attempting to open webcam %d.\n",image);
if(! (caps[index])->open(image))
{
printf("[Error] Failed to open webcam %d\n",image);
return;
}
// set resolution
caps[index]->set(CV_CAP_PROP_FRAME_WIDTH,320);
caps[index]->set(CV_CAP_PROP_FRAME_HEIGHT,240);
printf("[Webcam] Opened camera %d\n",image);
index++;
}
printf("[Webcam] Configuring cameras...\n");
// load and execute config file
load_config_file(i);
webcam_init+=2;
// get one image to force the driver to start talking to the cameras
get_webcam_image();
}
// webcam latency tool
void webcam_latency()
{
Mat red(120,100,CV_8UC3,Scalar(255,0,0));
Mat blu(120,100,CV_8UC3,Scalar(0,0,255));
Mat wc;
int counter = 0;
int has_printed = 0;
for(;;)
{
counter++;
int is_r = 0;
if(counter < 50)
{
is_r = 1;
imshow("target",red);
has_printed = 0;
}
else if(counter < 100)
imshow("target",blu);
else
counter = 0;
if(counter == 50)
clock_gettime(CLOCK_MONOTONIC_RAW,&start);
cap1 >> wc;
Scalar avg = mean(wc);
int see_r = (avg[0] > avg[2]);
if( (counter > 50) && (see_r == is_r) && !has_printed )
{
has_printed = 1;
clock_gettime(CLOCK_MONOTONIC_RAW,&stop);
uint64_t us = (stop.tv_sec - start.tv_sec) * 1000000 + (stop.tv_nsec - start.tv_nsec) / 1000;
printf("time: %ld\n",us);
}
waitKey(1);
}
}
// webcam video display
void webcam_video()
{
printf("[Webcam] Opening video stream... Press any key to stop.\n");
int f_count = 0;
uint64_t t_count = 0;
int n_frame_avg = 20;
float fps = 0.f;
float msf = 0.f;
for(;;)
{
clock_gettime(CLOCK_MONOTONIC_RAW,&start);
f_count++;
*(caps[0]) >> *(ims[0]);
*(caps[1]) >> *(ims[1]);
hconcat(*(ims[0]),*(ims[1]),wide_image); //combine cameras
char overlay[200];
sprintf(overlay,"FPS: %.2f, ms/frame: %.2f",fps,msf);
putText(wide_image,overlay,cvPoint(30,30),FONT_HERSHEY_SIMPLEX,0.8,cvScalar(0,255,0),1,CV_AA);
imshow("webcam stream",wide_image);
if(waitKey(1) > 0) break;
clock_gettime(CLOCK_MONOTONIC_RAW,&stop);
t_count += (stop.tv_sec - start.tv_sec) * 1000000 + (stop.tv_nsec - start.tv_nsec) / 1000;
if(f_count > 20)
{
//printf("FPS: %ld, ms/frame: %ld.\n",10000000/t_count,t_count/(10*1000));
fps = 20000000.f/((float)t_count);
msf = ((float)t_count)/(20000.f);
t_count = 0;
f_count = 0;
}
}
destroyAllWindows();
printf("Done!\n");
}
void compute_colors(bool fill_poly)
{
// colorspace conversion first!
cvtColor(wide_image,wide_image_converted,CV_BGR2Lab);
imshow("converted",wide_image_converted);
// set reference scalars
for(int i = 0; i < 6; i++)
{
int base = (i-0)*3;
ref_scalars[i] = Scalar(cube_polys.ref_color[base],cube_polys.ref_color[base+1],cube_polys.ref_color[base+2]);
default_scalars[i] = Scalar(default_color[base],default_color[base+1],default_color[base+2]);
//ref_magnitues[i] = sqrtf(ref_color[base]*ref_color[base] + ref_color[base+1]*ref_color[base+1] +
//ref_color[base+2]*ref_color[base+2]);
//printf("ref %d: %d %d %d\n",i,ref_color[base],ref_color[base+1],ref_color[base+2]);
//printf("def %d: %d %d %d\n",i,default_color[base],default_color[base+1],default_color[base+2]);
}
cv::Mat1b mask(wide_image.rows, wide_image.cols, uchar(0));
for(int i = 0; i < 54; i++)
{
facelet_rois* fl = &cube_polys.rois[i];
if(fl->n_rois < 1)
{
//printf("[Warning] Facelet %d (%s) has no polygons!\n",i,number_to_name(i));
continue;
}
Scalar facelet_color(0,0,0);
int n_rois = fl->n_rois;
for(int j = 0; j < fl->n_rois; j++)
{
mask.setTo(Scalar(0));
const cv::Point* pts_1[1] = {&fl->rois[j].opencv_pts[0]};
fillPoly(mask,pts_1,&(fl->rois[j].n_pts),1,cv::Scalar(255));
Scalar mean_color = cv::mean(wide_image_converted,mask);
facelet_color += mean_color / n_rois;
// if(fill_poly)
//fillPoly(wide_image,pts_1,&(fl->rois[j].n_pts),1,mean_color);
} // end polygon loop
facelet_colors[i] = facelet_color;
float facelet_magnitude = norm(facelet_color);
// find best match (current rgb dot product)
float best_match = 255*100;
facelet_codes[i] = -1;
for(int j = 0; j < 6; j++)
{
//float current_match = (float)(ref_scalars[j].dot(facelet_color))/(facelet_magnitude * ref_magnitues[j]);
float current_match = fabs(ref_scalars[j](0) - facelet_color(0)) +
fabs(ref_scalars[j](1) - facelet_color(1)) +
fabs(ref_scalars[j](2) - facelet_color(2));
if(current_match > best_match)
continue;
best_match = current_match;
facelet_codes[i] = j;
}
//printf("best match: %f\n",best_match);
//if(i == 0)
//printf("bgr: %f %f %f\n",facelet_color(0),facelet_color(1),facelet_color(2));
//printf("facelet code: %d\n",facelet_codes[i]);
//std::cout<<default_scalars[facelet_codes[i]]<<"\n";
// draw outline
if(fill_poly)
{
for(int j = 0; j < fl->n_rois; j++)
{
const cv::Point* pts_1[1] = {&fl->rois[j].opencv_pts[0]};
polylines(wide_image,pts_1,&(fl->rois[j].n_pts),1,1,default_scalars[facelet_codes[i]],2);
}
}
} //end facelet loop
}
int* get_facelet_codes()
{
return facelet_codes;
}
void null_func(int,void*)
{
;
}
void live_id()
{
int f_count = 0;
uint64_t t_count = 0;
int n_frame_avg = 20;
float fps = 0.f;
float msf = 0.f;
printf("[Webcam] Opening video stream...\n");
namedWindow("webcam stream");
char color_names[6][10] = {"blue","red","white","green","orange","yellow"};
char channel_names[3][2] = {"a","b","c"};
for(int color = 0; color < 6; color++)
{
namedWindow(color_names[color],CV_WINDOW_NORMAL);
for(int channel = 0; channel < 3; channel++)
createTrackbar(channel_names[channel],color_names[color],cube_polys.ref_color + color*3 + channel,255,null_func);
createTrackbar(color_names[color],color_names[color],NULL,255,null_func);
resizeWindow(color_names[color],200,100);
moveWindow(color_names[color],220*color,0);
}
// createTrackbar("blu a","webcam stream",cube_polys.ref_color + 0,255,null_func);
// createTrackbar("blu b","webcam stream",cube_polys.ref_color + 1,255,null_func);
// createTrackbar("blu c","webcam stream",cube_polys.ref_color + 2,255,null_func);
// createTrackbar("red a","webcam stream",cube_polys.ref_color + 3,255,null_func);
// createTrackbar("red b","webcam stream",cube_polys.ref_color + 4,255,null_func);
// createTrackbar("red c","webcam stream",cube_polys.ref_color + 5,255,null_func);
// createTrackbar("wht a","webcam stream",cube_polys.ref_color + 6,255,null_func);
// createTrackbar("wht b","webcam stream",cube_polys.ref_color + 7,255,null_func);
// createTrackbar("wht c","webcam stream",cube_polys.ref_color + 8,255,null_func);
// createTrackbar("grn a","webcam stream",cube_polys.ref_color + 9,255,null_func);
// createTrackbar("grn b","webcam stream",cube_polys.ref_color + 10,255,null_func);
// createTrackbar("grn c","webcam stream",cube_polys.ref_color + 11,255,null_func);
// createTrackbar("orn a","webcam stream",cube_polys.ref_color + 12,255,null_func);
// createTrackbar("orn b","webcam stream",cube_polys.ref_color + 13,255,null_func);
// createTrackbar("orn c","webcam stream",cube_polys.ref_color + 14,255,null_func);
// createTrackbar("yel a","webcam stream",cube_polys.ref_color + 15,255,null_func);
// createTrackbar("yel b","webcam stream",cube_polys.ref_color + 16,255,null_func);
// createTrackbar("yel c","webcam stream",cube_polys.ref_color + 17,255,null_func);
for(;;)
{
clock_gettime(CLOCK_MONOTONIC_RAW,&start);
f_count++;
*(caps[0]) >> *(ims[0]);
*(caps[1]) >> *(ims[1]);
hconcat(*(ims[0]),*(ims[1]),wide_image); //combine cameras
//resize(wide_image,wide_image,Size(),3,3,INTER_NEAREST);
compute_colors(true);
char overlay[200];
sprintf(overlay,"FPS: %.2f, ms/frame: %.2f",fps,msf);
putText(wide_image,overlay,cvPoint(30,30),FONT_HERSHEY_SIMPLEX,0.8,cvScalar(0,255,0),1,CV_AA);
imshow("webcam stream",wide_image);
if(waitKey(1) > 0) break;
clock_gettime(CLOCK_MONOTONIC_RAW,&stop);
t_count += (stop.tv_sec - start.tv_sec) * 1000000 + (stop.tv_nsec - start.tv_nsec) / 1000;
if(f_count > 20)
{
//printf("FPS: %ld, ms/frame: %ld.\n",10000000/t_count,t_count/(10*1000));
fps = 20000000.f/((float)t_count);
msf = ((float)t_count)/(20000.f);
t_count = 0;
f_count = 0;
}
}
}
void vision_solve_slow()
{
printf("\tpress key to capture and start solve\n");
for(;;)
{
start_solve_timer();
*(caps[0]) >> *(ims[0]);
*(caps[1]) >> *(ims[1]);
hconcat(*(ims[0]),*(ims[1]),wide_image); //combine cameras
//resize(wide_image,wide_image,Size(),3,3,INTER_NEAREST);
compute_colors(true);
imshow("webcam stream",wide_image);
if(waitKey(1) > 0) break;
}
set_rts_pin(1);
*(caps[0]) >> *(ims[0]);
*(caps[1]) >> *(ims[1]);
hconcat(*(ims[0]),*(ims[1]),wide_image); //combine cameras
compute_colors(true);
}
//mouse button handler
void align_callback(int event, int x, int y, int flags, void* junk)
{
//if right button, delete last point (if possible)
if(event == EVENT_RBUTTONDOWN)
{
unsave_changes = 1;
printf("-->Mouse Clicked!\n");
printf("\tcurrent facelet: %d\n",current_facelet);
printf("\tcurrent polygon: %d\n",current_poly);
facelet_roi* c_roi = &cube_polys.rois[current_facelet].rois[current_poly];
if(c_roi->n_pts > 0) c_roi->n_pts--;
}
if(event != EVENT_LBUTTONDOWN) return;
unsave_changes = 1;
printf("-->Mouse Clicked!\n");
printf("\tgot click at : (%d, %d)\n",x,y);
printf("\tcurrent facelet: %d\n",current_facelet);
printf("\tcurrent polygon: %d\n",current_poly);
//check to see if facelet_roi exists
if(current_poly >= cube_polys.rois[current_facelet].n_rois) cube_polys.rois[current_facelet].n_rois++;
//current region of interest
facelet_roi* c_roi = &cube_polys.rois[current_facelet].rois[current_poly];
//check to make sure we aren't exceeding maximum number of points
if(c_roi->n_pts >= K_PTS_ROI)
{
printf("[ERROR] too many points. use less.\n");
return;
}
//its safe to add another point
c_roi->n_pts++;
c_roi->opencv_pts[c_roi->n_pts-1].x = x;
c_roi->opencv_pts[c_roi->n_pts-1].y = y;
c_roi->x_vals[c_roi->n_pts-1] = x;
c_roi->y_vals[c_roi->n_pts-1] = y;
}
// get a reasonable position for the label
void label_pos(facelet_roi* fr, cv::Point* pt)
{
float x_sum = 0.f;
float y_sum = 0.f;
for(int i = 0; i < fr->n_pts; i++)
{
x_sum+= fr->opencv_pts[i].x;
y_sum+= fr->opencv_pts[i].y;
}
pt->x = x_sum/fr->n_pts;
pt->y = y_sum/fr->n_pts;
}
// draw stuff on image for align tool
void draw_align(Mat& im,char show_text)
{
// currently selected polygon in top corner
if(show_text)
{
char overlay[200];
sprintf(overlay,"fl: %d (%s), poly: %d",current_facelet,number_to_name(current_facelet),current_poly);
putText(wide_image,overlay,cvPoint(30,30),FONT_HERSHEY_SIMPLEX,0.8,cvScalar(0,255,0),1,CV_AA);
}
//loop through facelets
for(int i = 0; i < 54; i++)
{
//loop through rois
for(int j = 0; j < cube_polys.rois[i].n_rois; j++)
{
facelet_roi* fr = &cube_polys.rois[i].rois[j];
//dont draw anything if no points...
if(fr->n_pts <= 0) continue;
// color based on active/inactive
Scalar color;
if( (i==current_facelet) && (j==current_poly) )
color = Scalar(0,255,0);
else if (i == current_facelet)
color = Scalar(100,180,100);
else
color = Scalar(255,0,0);
// draw points/lines
for(int k = 0; k < fr->n_pts; k++)
{
circle(im,fr->opencv_pts[k],3,color,3);
if(k == 0) continue;
line(im,fr->opencv_pts[k-1],fr->opencv_pts[k],color,1);
}
//dont forget the last line!
if(fr->n_pts > 1)
line(im,fr->opencv_pts[fr->n_pts - 1],fr->opencv_pts[0],color,1);
}
}
//draw labels at the end so they show up on top.
for(int i = 0; i < 54; i++)
{
for(int j = 0; j < cube_polys.rois[i].n_rois; j++)
{
facelet_roi* fr = &cube_polys.rois[i].rois[j];
//dont draw anything if no points...
if(fr->n_pts <= 0) continue;
Point label(0,0);
label_pos(fr,&label);
char label_s[200];
sprintf(label_s,"%s_%d",number_to_name(i),j);
putText(im,label_s,label,FONT_HERSHEY_SIMPLEX,0.4,Scalar(0,0,255),1,CV_AA);
}
}
}
// handle keypresses during align
void handle_align_keys(int a)
{
if((a&0xff)=='f') { current_facelet++; current_poly = 0; }
if((a&0xff)=='d') { current_facelet--; current_poly = 0; }
if((a&0xff)=='p') current_poly++;
if((a&0xff)=='o') current_poly--;
if(current_poly < 0) current_poly = 0;
if(current_poly > K_ROI_FACELET-1) current_poly = K_ROI_FACELET - 1;
if(current_facelet < 0) current_facelet = 0;
if(current_facelet > 53) current_facelet = 53;
}
// display video for alignment mode
void align_video()
{
align_done = 0;
int first_run = 1;
printf("[Webcam] Opening video stream for alignment sequence... Press q to abort.\n");
for(;;)
{
*(caps[0]) >> *(ims[0]);
*(caps[1]) >> *(ims[1]);
hconcat(*(ims[0]),*(ims[1]),wide_image);
//resize(wide_image,wide_image,Size(),3,3,INTER_NEAREST);
draw_align(wide_image,1);
imshow("webcam stream",wide_image);
if(first_run)
{
first_run = 0;
setMouseCallback("webcam stream",align_callback,NULL);
}
int a = waitKey(1);
//if(a>0)
//printf("key: %d\n",a&0xff);
if((a&0xff)=='q' || align_done) break;
handle_align_keys(a);
}
}
void align_still()
{
get_webcam_image();
Mat clean_image = wide_image.clone();
align_done = 0;
int first_run = 1;
printf("[Webcam] Opening video stream for alignment sequence... Press q to abort.\n");
for(;;)
{
wide_image = clean_image.clone();
draw_align(wide_image,1);
imshow("webcam stream",wide_image);
if(first_run)
{
first_run = 0;
setMouseCallback("webcam stream",align_callback,NULL);
}
int a = waitKey(10);
//if(a>0)
//printf("key: %d\n",a&0xff);
if((a&0xff)=='q' || align_done) break;
handle_align_keys(a);
}
}
// get a single frame from webcam
void get_webcam_image()
{
printf("[Image Acquisition] Getting frame from webcams.\n");
if(webcam_init <= 1)
{
printf("[Error] webcam not initialized!\n");
return;
}
*(caps[0]) >> *(ims[0]);
*(caps[1]) >> *(ims[1]);
hconcat(*(ims[0]),*(ims[1]),wide_image);
}
// get a single frame from file
void get_file_image(int image, char* filename)
{
printf("[Image Acquisition] Opening file with name %s\n",filename);
*(ims[image]) = cv::imread(filename);
if(!(ims[image])->data)
printf("[Error] Failed to get image data!\n");
}
// display single frame
void display_single_frame()
{
if(!image1.data )//|| !image2.data)
{
printf("[Error] Attempted to display empty image!\n");
return;
}
printf("[Image Acquisition] Displaying Single Frame. Press any key to close.\n");
namedWindow("Image 1",WINDOW_AUTOSIZE);
imshow("Image 1",wide_image);
//namedWindow("Image 2",WINDOW_AUTOSIZE);
//imshow("Image 2",image2);
waitKey(0);
destroyAllWindows();
waitKey(1);
// destroyWindow("Image 1");
// //destroyWindow("Image 2");
// destroyAllWindows();
// waitKey(0);
}
// run align tool
void align_all()
{
align_video();
}
//initializes the data structure for a totally new alignment sequence
void init_polys()
{
for(int i = 0; i < 54; i++)
{
cube_polys.rois[i].n_rois = 0;
for(int j = 0; j < K_ROI_FACELET; j++)
{
cube_polys.rois[i].rois[j].n_pts = 0;
cube_polys.rois[i].rois[j].weight = 0.f;
cube_polys.rois[i].rois[j].opencv_pts = new cv::Point[K_PTS_ROI];
for(int k = 0; k < K_PTS_ROI; k++)
{
cube_polys.rois[i].rois[j].x_vals[k] = -1.f;
cube_polys.rois[i].rois[j].y_vals[k] = -1.f;
}
}
}
}
//deletes all pointers in the data structure
void kill_pointers()
{
for(int i = 0; i < 54; i++)
for(int j = 0; j < K_ROI_FACELET; j++)
file_cube_polys.rois[i].rois[j].opencv_pts = 0;
}
//if a structure has the point lists but not the opencv points
//this function allocates and sets pointers
void create_opencv_points()
{
int n_pts = 0;
for(int i = 0; i < 54; i++)
for(int j = 0; j < K_ROI_FACELET; j++)
cube_polys.rois[i].rois[j].opencv_pts = new cv::Point[K_PTS_ROI];
for(int i = 0; i < 54; i++)
{
for(int j = 0; j < cube_polys.rois[i].n_rois; j++)
{
int n_cvp = cube_polys.rois[i].rois[j].n_pts;
//cube_polys.rois[i].rois[j].opencv_pts = new cv::Point[K_PTS_ROI];
for(int k = 0; k < n_cvp; k++)
{
cube_polys.rois[i].rois[j].opencv_pts[k].x = cube_polys.rois[i].rois[j].x_vals[k]/3;
cube_polys.rois[i].rois[j].opencv_pts[k].y = cube_polys.rois[i].rois[j].y_vals[k]/3;
n_pts++;
}
}
}
printf("[create opencv points] created %d points\n",n_pts);
}
//checks to see if point lists match opencv points
int check_consistency_save()
{
}
//checks to see if sizes matches
int check_consistency_load()
{
}