# Copyright 2023 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Verify zoom ratio scales circle sizes correctly if settings override zoom is set.""" import logging import os.path import camera_properties_utils import capture_request_utils import image_processing_utils import its_base_test import its_session_utils from mobly import test_runner import numpy as np import opencv_processing_utils import zoom_capture_utils _CIRCLE_COLOR = 0 # [0: black, 255: white] _CIRCLE_AR_RTOL = 0.15 # contour width vs height (aspect ratio) _CIRCLISH_RTOL = 0.05 # contour area vs ideal circle area pi*((w+h)/4)**2 _MIN_AREA_RATIO = 0.00015 # based on 2000/(4000x3000) pixels _MIN_CIRCLE_PTS = 25 _NAME = os.path.splitext(os.path.basename(__file__))[0] _NUM_STEPS = 10 _ZOOM_MIN_THRESH = 2.0 class LowLatencyZoomTest(its_base_test.ItsBaseTest): """Test the camera low latency zoom behavior. On supported devices, set control.settingsOverride to ZOOM to enable low latency zoom and do a burst capture of N frames. Make sure that the zoomRatio in the capture result is reflected in the captured image. """ def test_low_latency_zoom(self): with its_session_utils.ItsSession( device_id=self.dut.serial, camera_id=self.camera_id, hidden_physical_id=self.hidden_physical_id) as cam: props = cam.get_camera_properties() props = cam.override_with_hidden_physical_camera_props(props) camera_properties_utils.skip_unless( camera_properties_utils.zoom_ratio_range(props) and camera_properties_utils.low_latency_zoom(props)) # Load chart for scene its_session_utils.load_scene( cam, props, self.scene, self.tablet, self.chart_distance) z_range = props['android.control.zoomRatioRange'] logging.debug('testing zoomRatioRange: %s', str(z_range)) debug = self.debug_mode z_min, z_max = float(z_range[0]), float(z_range[1]) camera_properties_utils.skip_unless(z_max >= z_min * _ZOOM_MIN_THRESH) z_list = np.arange(z_min, z_max, float(z_max - z_min) / (_NUM_STEPS - 1)) z_list = np.append(z_list, z_max) # set TOLs based on camera and test rig params if camera_properties_utils.logical_multi_camera(props): test_tols, size = zoom_capture_utils.get_test_tols_and_cap_size( cam, props, self.chart_distance, debug) else: test_tols = {} fls = props['android.lens.info.availableFocalLengths'] for fl in fls: test_tols[fl] = (zoom_capture_utils.RADIUS_RTOL, zoom_capture_utils.OFFSET_RTOL) yuv_size = capture_request_utils.get_largest_yuv_format(props) size = [yuv_size['width'], yuv_size['height']] logging.debug('capture size: %s', str(size)) logging.debug('test TOLs: %s', str(test_tols)) # do auto captures over zoom range and find circles with cv2 img_name_stem = f'{os.path.join(self.log_path, _NAME)}' logging.debug('Using auto capture request') cam.do_3a() test_failed = False fmt = 'yuv' test_data = {} reqs = [] req = capture_request_utils.auto_capture_request() req['android.control.settingsOverride'] = camera_properties_utils.SETTINGS_OVERRIDE_ZOOM for z in z_list: logging.debug('zoom ratio: %.2f', z) req_for_zoom = req.copy() req_for_zoom['android.control.zoomRatio'] = z reqs.append(req_for_zoom) # take captures at different zoom ratios caps = cam.do_capture( reqs, {'format': fmt, 'width': size[0], 'height': size[1]}) # Check low latency zoom outputs match result metadata for i, cap in enumerate(caps): z_result = cap['metadata']['android.control.zoomRatio'] scaled_zoom = min(z_list[i], z_result) logging.debug('zoom ratio in result: %.2f', z_result) img = image_processing_utils.convert_capture_to_rgb_image( cap, props=props) img_name = f'{img_name_stem}_{fmt}_{i}_{round(z_result, 2)}.jpg' image_processing_utils.write_image(img, img_name) # determine radius tolerance of capture cap_fl = cap['metadata']['android.lens.focalLength'] radius_tol, offset_tol = test_tols[cap_fl] # convert [0, 1] image to [0, 255] and cast as uint8 img = image_processing_utils.convert_image_to_uint8(img) # Find the center circle in img try: circle = opencv_processing_utils.find_center_circle( img, img_name, _CIRCLE_COLOR, circle_ar_rtol=_CIRCLE_AR_RTOL, circlish_rtol=_CIRCLISH_RTOL, min_area=_MIN_AREA_RATIO*size[0]*size[1]*scaled_zoom*scaled_zoom, min_circle_pts=_MIN_CIRCLE_PTS, debug=debug) if opencv_processing_utils.is_circle_cropped(circle, size): logging.debug('zoom %.2f is too large! Skip further captures', z_result) break except AssertionError as e: if z_result/z_list[0] >= zoom_capture_utils.ZOOM_MAX_THRESH: break else: raise AssertionError( 'No circle detected for zoom ratio <= ' f'{zoom_capture_utils.ZOOM_MAX_THRESH}. ' 'Take pictures according to instructions carefully!') from e test_data[i] = {'z': z_result, 'circle': circle, 'r_tol': radius_tol, 'o_tol': offset_tol, 'fl': cap_fl} if not zoom_capture_utils.verify_zoom_results( test_data, size, z_max, z_min): test_failed = True if test_failed: raise AssertionError(f'{_NAME} failed! Check test_log.DEBUG for errors') if __name__ == '__main__': test_runner.main()