traptools/02-testcalibration-and-draw-points.py

"""
After obtaining the calibration.json (camera P and distortion matrixes) 
using 01-calibrate.py, this script previews the calibration. Using the cursor
on the original (not-yet-undistorted) image you can add points, which can be
used for the homography later.

1. Set dataset variable to point to the folder with calibration.json and a preview image
2. Set a snapshot image. Note that this image _can_ be higher resolution than the video that is used
    this allows for more precise point placement, but might need some conversion in the next step
3. Points are read and saved from points.json in the dataset folder
"""
import cv2
import json
import os
import numpy as np

dataset = 'hof2'
snapshot_img = 'snapshot3.png'

with open(dataset + '/calibration.json', 'r') as fp:
    calibdata = json.load(fp)
mtx = np.array(calibdata['camera_matrix'])
dist = np.array(calibdata['dist_coeff'])
w, h = calibdata['dim']['width'], calibdata['dim']['height']




# # Refining the camera matrix using parameters obtained by calibration
# if we don't set this, the new image will be cropped to the minimum size
# this way, no cropping occurs
# w, h = 2560, 1440
newcameramtx, roi = cv2.getOptimalNewCameraMatrix(mtx, dist, (w,h), 1, (w,h))

if os.path.exists(dataset + '/points.json'):
    with open(dataset + '/points.json', 'r') as fp:
        points = json.load(fp)
else:
    points = [[500,500],[1000,1000]]

def add_point(event,x,y,flags,param):
    global points
    if event == cv2.EVENT_LBUTTONUP:
        selected = None
        for i, p in enumerate(points):
            d = (p[0]-x)**2 + (p[1]-y)**2
            if d < 14:
                selected = i
                break
        print('click', selected)
        if selected is None:
            points.append([x,y])
        else:
            points.pop(selected)

        # cv2.circle(img,(x,y),100,(255,0,0),-1)
        # mouseX,mouseY = x,y

cv2.namedWindow('original image')
cv2.setMouseCallback('original image',add_point)

# cap = cv2.VideoCapture("./hof2-hikvision.mp4")
cap = cv2.VideoCapture(dataset + "/" + snapshot_img)
img_w = cap.get(cv2.CAP_PROP_FRAME_WIDTH)
img_h = cap.get(cv2.CAP_PROP_FRAME_HEIGHT)

# scale saved points to snapshot
points = [
    [p[0]*(img_w/w), p[1]*(img_h/h)] for p in points
]

imgOld = None
while True: # (found < needed):  # Here, 10 can be changed to whatever number you like to choose
    ret, img = cap.read() # Capture frame-by-frame
    
    if not ret:
        img = imgOld
    else:
        imgOld = img

    # Method 1 to undistort the image
    dst = cv2.undistort(img, mtx, dist, None, newcameramtx)
    dstPoints = cv2.undistortPoints(np.array(points).astype('float32'), mtx, dist, None, P=newcameramtx)

    # dst = cv2.undistort(img, mtx, dist, None)

    # # Method 2 to undistort the image
    # mapx,mapy=cv2.initUndistortRectifyMap(mtx,dist,None,newcameramtx,(w,h),5)

    # dst = cv2.remap(img,mapx,mapy,cv2.INTER_LINEAR)

    # Displaying the undistorted image
    drawImg = img.copy()
    drawDst = dst.copy()
    for p in dstPoints:
        x = int(p[0][0])
        y= int(p[0][1])
        cv2.circle(drawDst, (x,y), radius=2, color=(0, 0, 255), thickness=-1)
    for i, p in enumerate(points):
        x = int(p[0])
        y= int(p[1])
        cv2.circle(drawImg, (x,y), radius=2, color=(0, 0, 255), thickness=-1)
        cv2.putText(drawImg, f"{i}", (x,y-5), cv2.FONT_HERSHEY_COMPLEX, 4, (0,0,255))

    cv2.imshow("undistorted image",drawDst)
    cv2.imshow("original image",drawImg)
    if cv2.waitKey(5) == ord('q'):
        break


print("write points.json")
with open(dataset + '/points.json', 'w') as fp:
    points = [
        [p[0]*(w/img_w), p[1]*(h/img_h)] for p in points
    ]
    json.dump(points, fp)