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111 lines
3.6 KiB
111 lines
3.6 KiB
#!/usr/bin/env python |
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''' |
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Planar augmented reality |
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================== |
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This sample shows an example of augmented reality overlay over a planar object |
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tracked by PlaneTracker from plane_tracker.py. solvePnP funciton is used to |
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estimate the tracked object location in 3d space. |
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video: http://www.youtube.com/watch?v=pzVbhxx6aog |
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Usage |
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----- |
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plane_ar.py [<video source>] |
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Keys: |
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SPACE - pause video |
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c - clear targets |
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Select a textured planar object to track by drawing a box with a mouse. |
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Use 'focal' slider to adjust to camera focal length for proper video augmentation. |
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''' |
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# Python 2/3 compatibility |
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from __future__ import print_function |
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import numpy as np |
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import cv2 as cv |
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import video |
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import common |
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from plane_tracker import PlaneTracker |
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from video import presets |
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# Simple model of a house - cube with a triangular prism "roof" |
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ar_verts = np.float32([[0, 0, 0], [0, 1, 0], [1, 1, 0], [1, 0, 0], |
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[0, 0, 1], [0, 1, 1], [1, 1, 1], [1, 0, 1], |
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[0, 0.5, 2], [1, 0.5, 2]]) |
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ar_edges = [(0, 1), (1, 2), (2, 3), (3, 0), |
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(4, 5), (5, 6), (6, 7), (7, 4), |
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(0, 4), (1, 5), (2, 6), (3, 7), |
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(4, 8), (5, 8), (6, 9), (7, 9), (8, 9)] |
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class App: |
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def __init__(self, src): |
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self.cap = video.create_capture(src, presets['book']) |
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self.frame = None |
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self.paused = False |
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self.tracker = PlaneTracker() |
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cv.namedWindow('plane') |
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cv.createTrackbar('focal', 'plane', 25, 50, common.nothing) |
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self.rect_sel = common.RectSelector('plane', self.on_rect) |
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def on_rect(self, rect): |
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self.tracker.add_target(self.frame, rect) |
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def run(self): |
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while True: |
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playing = not self.paused and not self.rect_sel.dragging |
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if playing or self.frame is None: |
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ret, frame = self.cap.read() |
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if not ret: |
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break |
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self.frame = frame.copy() |
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vis = self.frame.copy() |
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if playing: |
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tracked = self.tracker.track(self.frame) |
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for tr in tracked: |
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cv.polylines(vis, [np.int32(tr.quad)], True, (255, 255, 255), 2) |
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for (x, y) in np.int32(tr.p1): |
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cv.circle(vis, (x, y), 2, (255, 255, 255)) |
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self.draw_overlay(vis, tr) |
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self.rect_sel.draw(vis) |
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cv.imshow('plane', vis) |
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ch = cv.waitKey(1) |
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if ch == ord(' '): |
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self.paused = not self.paused |
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if ch == ord('c'): |
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self.tracker.clear() |
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if ch == 27: |
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break |
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def draw_overlay(self, vis, tracked): |
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x0, y0, x1, y1 = tracked.target.rect |
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quad_3d = np.float32([[x0, y0, 0], [x1, y0, 0], [x1, y1, 0], [x0, y1, 0]]) |
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fx = 0.5 + cv.getTrackbarPos('focal', 'plane') / 50.0 |
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h, w = vis.shape[:2] |
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K = np.float64([[fx*w, 0, 0.5*(w-1)], |
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[0, fx*w, 0.5*(h-1)], |
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[0.0,0.0, 1.0]]) |
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dist_coef = np.zeros(4) |
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_ret, rvec, tvec = cv.solvePnP(quad_3d, tracked.quad, K, dist_coef) |
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verts = ar_verts * [(x1-x0), (y1-y0), -(x1-x0)*0.3] + (x0, y0, 0) |
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verts = cv.projectPoints(verts, rvec, tvec, K, dist_coef)[0].reshape(-1, 2) |
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for i, j in ar_edges: |
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(x0, y0), (x1, y1) = verts[i], verts[j] |
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cv.line(vis, (int(x0), int(y0)), (int(x1), int(y1)), (255, 255, 0), 2) |
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if __name__ == '__main__': |
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print(__doc__) |
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import sys |
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try: |
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video_src = sys.argv[1] |
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except: |
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video_src = 0 |
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App(video_src).run()
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