apps/CameraITS/tests/scene2_a/test_num_faces.py - platform/cts - Gitiles

 # Copyright 2014 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.
 """Verifies 3 faces with different skin tones are detected."""


 import logging
 import os.path
 from mobly import test_runner

 import its_base_test
 import camera_properties_utils
 import capture_request_utils
 import image_processing_utils
 import its_session_utils
 import cv2

 FD_MODE_OFF = 0
 FD_MODE_SIMPLE = 1
 FD_MODE_FULL = 2
 NAME = os.path.splitext(os.path.basename(__file__))[0]
 NUM_TEST_FRAMES = 20
 NUM_FACES = 3
 W, H = 640, 480


 def draw_face_rectangles(img, faces, aw, ah):
   """Draw rectangles on top of image.

   Args:
     img:    image array
     faces:  list of dicts with face information
     aw:     int; active array width
     ah:     int; active array height
   Returns:
     img with face rectangles drawn on it
   """
   for rect in [face['bounds'] for face in faces]:
     top_left = (int(round(rect['left']*W/aw)),
                 int(round(rect['top']*H/ah)))
     bot_rght = (int(round(rect['right']*W/aw)),
                 int(round(rect['bottom']*H/ah)))
     cv2.rectangle(img, top_left, bot_rght, (0, 1, 0), 2)
   return img


 class NumFacesTest(its_base_test.ItsBaseTest):
   """Test face detection with different skin tones.
   """

   def test_num_faces(self):
     """Test face detection."""
     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)

       # Load chart for scene
       its_session_utils.load_scene(
           cam, props, self.scene, self.tablet, self.chart_distance)

       # Check skip conditions
       camera_properties_utils.skip_unless(
           camera_properties_utils.face_detect(props))
       mono_camera = camera_properties_utils.mono_camera(props)
       fd_modes = props['android.statistics.info.availableFaceDetectModes']
       a = props['android.sensor.info.activeArraySize']
       aw, ah = a['right'] - a['left'], a['bottom'] - a['top']

       if camera_properties_utils.read_3a(props):
         _, _, _, _, _ = cam.do_3a(get_results=True, mono_camera=mono_camera)

       for fd_mode in fd_modes:
         assert FD_MODE_OFF <= fd_mode <= FD_MODE_FULL
         req = capture_request_utils.auto_capture_request()
         req['android.statistics.faceDetectMode'] = fd_mode
         fmt = {'format': 'yuv', 'width': W, 'height': H}
         caps = cam.do_capture([req]*NUM_TEST_FRAMES, fmt)
         for i, cap in enumerate(caps):
           md = cap['metadata']
           assert md['android.statistics.faceDetectMode'] == fd_mode
           faces = md['android.statistics.faces']

           # 0 faces should be returned for OFF mode
           if fd_mode == FD_MODE_OFF:
             assert not faces
             continue
           # Face detection could take several frames to warm up,
           # but should detect the correct number of faces in last frame
           if i == NUM_TEST_FRAMES - 1:
             img = image_processing_utils.convert_capture_to_rgb_image(
                 cap, props=props)
             fnd_faces = len(faces)
             logging.debug('Found %d face(s), expected %d.',
                           fnd_faces, NUM_FACES)
             # draw boxes around faces
             img = draw_face_rectangles(img, faces, aw, ah)
             # save image with rectangles
             img_name = '%s_fd_mode_%s.jpg' % (os.path.join(self.log_path,
                                                            NAME), fd_mode)
             image_processing_utils.write_image(img, img_name)
             assert fnd_faces == NUM_FACES
           if not faces:
             continue

           logging.debug('Frame %d face metadata:', i)
           logging.debug(' Faces: %s', str(faces))

           # Reasonable scores for faces
           face_scores = [face['score'] for face in faces]
           for score in face_scores:
             assert 1 <= score <= 100
           # Face bounds should be within active array
           face_rectangles = [face['bounds'] for face in faces]
           for rect in face_rectangles:
             assert rect['top'] < rect['bottom']
             assert rect['left'] < rect['right']
             assert 0 <= rect['top'] <= ah
             assert 0 <= rect['bottom'] <= ah
             assert 0 <= rect['left'] <= aw
             assert 0 <= rect['right'] <= aw

 if __name__ == '__main__':
   test_runner.main()
	# Copyright 2014 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.
	"""Verifies 3 faces with different skin tones are detected."""


	import logging
	import os.path
	from mobly import test_runner

	import its_base_test
	import camera_properties_utils
	import capture_request_utils
	import image_processing_utils
	import its_session_utils
	import cv2

	FD_MODE_OFF = 0
	FD_MODE_SIMPLE = 1
	FD_MODE_FULL = 2
	NAME = os.path.splitext(os.path.basename(__file__))[0]
	NUM_TEST_FRAMES = 20
	NUM_FACES = 3
	W, H = 640, 480


	def draw_face_rectangles(img, faces, aw, ah):
	"""Draw rectangles on top of image.

	Args:
	img: image array
	faces: list of dicts with face information
	aw: int; active array width
	ah: int; active array height
	Returns:
	img with face rectangles drawn on it
	"""
	for rect in [face['bounds'] for face in faces]:
	top_left = (int(round(rect['left']*W/aw)),
	int(round(rect['top']*H/ah)))
	bot_rght = (int(round(rect['right']*W/aw)),
	int(round(rect['bottom']*H/ah)))
	cv2.rectangle(img, top_left, bot_rght, (0, 1, 0), 2)
	return img


	class NumFacesTest(its_base_test.ItsBaseTest):
	"""Test face detection with different skin tones.
	"""

	def test_num_faces(self):
	"""Test face detection."""
	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)

	# Load chart for scene
	its_session_utils.load_scene(
	cam, props, self.scene, self.tablet, self.chart_distance)

	# Check skip conditions
	camera_properties_utils.skip_unless(
	camera_properties_utils.face_detect(props))
	mono_camera = camera_properties_utils.mono_camera(props)
	fd_modes = props['android.statistics.info.availableFaceDetectModes']
	a = props['android.sensor.info.activeArraySize']
	aw, ah = a['right'] - a['left'], a['bottom'] - a['top']

	if camera_properties_utils.read_3a(props):
	_, _, _, _, _ = cam.do_3a(get_results=True, mono_camera=mono_camera)

	for fd_mode in fd_modes:
	assert FD_MODE_OFF <= fd_mode <= FD_MODE_FULL
	req = capture_request_utils.auto_capture_request()
	req['android.statistics.faceDetectMode'] = fd_mode
	fmt = {'format': 'yuv', 'width': W, 'height': H}
	caps = cam.do_capture([req]*NUM_TEST_FRAMES, fmt)
	for i, cap in enumerate(caps):
	md = cap['metadata']
	assert md['android.statistics.faceDetectMode'] == fd_mode
	faces = md['android.statistics.faces']

	# 0 faces should be returned for OFF mode
	if fd_mode == FD_MODE_OFF:
	assert not faces
	continue
	# Face detection could take several frames to warm up,
	# but should detect the correct number of faces in last frame
	if i == NUM_TEST_FRAMES - 1:
	img = image_processing_utils.convert_capture_to_rgb_image(
	cap, props=props)
	fnd_faces = len(faces)
	logging.debug('Found %d face(s), expected %d.',
	fnd_faces, NUM_FACES)
	# draw boxes around faces
	img = draw_face_rectangles(img, faces, aw, ah)
	# save image with rectangles
	img_name = '%s_fd_mode_%s.jpg' % (os.path.join(self.log_path,
	NAME), fd_mode)
	image_processing_utils.write_image(img, img_name)
	assert fnd_faces == NUM_FACES
	if not faces:
	continue

	logging.debug('Frame %d face metadata:', i)
	logging.debug(' Faces: %s', str(faces))

	# Reasonable scores for faces
	face_scores = [face['score'] for face in faces]
	for score in face_scores:
	assert 1 <= score <= 100
	# Face bounds should be within active array
	face_rectangles = [face['bounds'] for face in faces]
	for rect in face_rectangles:
	assert rect['top'] < rect['bottom']
	assert rect['left'] < rect['right']
	assert 0 <= rect['top'] <= ah
	assert 0 <= rect['bottom'] <= ah
	assert 0 <= rect['left'] <= aw
	assert 0 <= rect['right'] <= aw

	if __name__ == '__main__':
	test_runner.main()