apps/CameraITS/tests/scene2_e/test_continuous_picture.py - platform/cts - Gitiles

 # Copyright 2020 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 3A converges in CONTINUOUS_PICTURE mode."""


 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

 _CONTINUOUS_PICTURE_MODE = 4
 _CONVERGED_3A = (2, 2, 2)  # (AE, AF, AWB)
 _M_TO_CM = 100
 _NAME = os.path.splitext(os.path.basename(__file__))[0]
 _NS_TO_MS = 1E-6
 _NUM_FRAMES = 50
 _PATCH_H = 0.1  # center 10%
 _PATCH_W = 0.1
 _PATCH_X = 0.5 - _PATCH_W/2
 _PATCH_Y = 0.5 - _PATCH_H/2
 _RGB_G_CH = 1
 _VGA_W, _VGA_H = 640, 480


 def _capture_frames(cam, log_path, debug):
   """Captures frames, logs info, and creates cap_3a_state_list.

   Args:
     cam: a camera capture object.
     log_path: str to identify saved image location.
     debug: bool for debugging info.
   Returns:
     cap_3a_state_list: list of 3a states [AE, AF, AWB] during captures.
   """
   cap_3a_state_list = []
   req = capture_request_utils.auto_capture_request()
   req['android.control.afMode'] = _CONTINUOUS_PICTURE_MODE
   fmt = {'format': 'yuv', 'width': _VGA_W, 'height': _VGA_H}
   caps = cam.do_capture([req]*_NUM_FRAMES, fmt)

   # Extract frame metadata and frame.
   for i, cap in enumerate(caps):
     md = cap['metadata']
     exp = md['android.sensor.exposureTime']
     iso = md['android.sensor.sensitivity']
     fd = md['android.lens.focalLength']
     ae_state = md['android.control.aeState']
     af_state = md['android.control.afState']
     awb_state = md['android.control.awbState']
     fd_str = 'infinity'
     if fd != 0.0:
       fd_str = '%.2fcm' % (_M_TO_CM/fd)
     img = image_processing_utils.convert_capture_to_rgb_image(cap)
     patch = image_processing_utils.get_image_patch(
         img, _PATCH_X, _PATCH_Y, _PATCH_W, _PATCH_H)
     green_mean = image_processing_utils.compute_image_means(patch)[_RGB_G_CH]
     logging.debug(
         '%d, iso: %d, exp: %.2fms, fd: %s, avg: %.3f, [ae,af,awb]'
         ': [%d,%d,%d]', i, iso, exp * _NS_TO_MS, fd_str, green_mean, ae_state,
         af_state, awb_state)
     cap_3a_state_list.append([ae_state, af_state, awb_state])
     if debug:
       image_processing_utils.write_image(
           img, '%s_%d.jpg' % (os.path.join(log_path, _NAME), i))
   return cap_3a_state_list


 class ContinuousPictureTest(its_base_test.ItsBaseTest):
   """Test 3A converges in CONTINUOUS_PICTURE mode.

   Sets camera into CONTINUOUS_PICTURE mode and does NUM_FRAMES capture.
   By the end of NUM_FRAMES capture, 3A should be in converged state.
   Converged state is [2, 2, 2] for [AE, AF, AWB]

   State information:
     AE_STATES: {0: INACTIVE, 1: SEARCHING, 2: CONVERGED, 3: LOCKED,
                 4: FLASH_REQ, 5: PRECAPTURE}
     AF_STATES: {0: INACTIVE, 1: PASSIVE_SCAN, 2: PASSIVE_FOCUSED,
                 3: ACTIVE_SCAN, 4: FOCUS_LOCKED, 5: NOT_FOCUSED_LOCKED,
                 6: PASSIVE_UNFOCUSED}
     AWB_STATES: {0: INACTIVE, 1: SEARCHING, 2: CONVERGED, 3: LOCKED}
   """

   def test_continuous_picture(self):
     logging.debug('Starting %s', _NAME)
     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)
       log_path = self.log_path
       debug = self.debug_mode

       # Check SKIP conditions.
       camera_properties_utils.skip_unless(
           camera_properties_utils.continuous_picture(props) and
           camera_properties_utils.read_3a(props))

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

       # Do 3A up front.
       cam.do_3a()

       # Ensure 3A settles in CONTINUOUS_PICTURE mode with no scene change.
       cap_3a_state_list = _capture_frames(cam, log_path, debug)
       final_3a = cap_3a_state_list[_NUM_FRAMES-1]
       if final_3a != list(_CONVERGED_3A):
         raise AssertionError(
             f'Last frame [AE,AF,AWB]: {final_3a}. CONVERGED: {_CONVERGED_3A}.')

 if __name__ == '__main__':
   test_runner.main()
	# Copyright 2020 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 3A converges in CONTINUOUS_PICTURE mode."""


	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

	_CONTINUOUS_PICTURE_MODE = 4
	_CONVERGED_3A = (2, 2, 2) # (AE, AF, AWB)
	_M_TO_CM = 100
	_NAME = os.path.splitext(os.path.basename(__file__))[0]
	_NS_TO_MS = 1E-6
	_NUM_FRAMES = 50
	_PATCH_H = 0.1 # center 10%
	_PATCH_W = 0.1
	_PATCH_X = 0.5 - _PATCH_W/2
	_PATCH_Y = 0.5 - _PATCH_H/2
	_RGB_G_CH = 1
	_VGA_W, _VGA_H = 640, 480


	def _capture_frames(cam, log_path, debug):
	"""Captures frames, logs info, and creates cap_3a_state_list.

	Args:
	cam: a camera capture object.
	log_path: str to identify saved image location.
	debug: bool for debugging info.
	Returns:
	cap_3a_state_list: list of 3a states [AE, AF, AWB] during captures.
	"""
	cap_3a_state_list = []
	req = capture_request_utils.auto_capture_request()
	req['android.control.afMode'] = _CONTINUOUS_PICTURE_MODE
	fmt = {'format': 'yuv', 'width': _VGA_W, 'height': _VGA_H}
	caps = cam.do_capture([req]*_NUM_FRAMES, fmt)

	# Extract frame metadata and frame.
	for i, cap in enumerate(caps):
	md = cap['metadata']
	exp = md['android.sensor.exposureTime']
	iso = md['android.sensor.sensitivity']
	fd = md['android.lens.focalLength']
	ae_state = md['android.control.aeState']
	af_state = md['android.control.afState']
	awb_state = md['android.control.awbState']
	fd_str = 'infinity'
	if fd != 0.0:
	fd_str = '%.2fcm' % (_M_TO_CM/fd)
	img = image_processing_utils.convert_capture_to_rgb_image(cap)
	patch = image_processing_utils.get_image_patch(
	img, _PATCH_X, _PATCH_Y, _PATCH_W, _PATCH_H)
	green_mean = image_processing_utils.compute_image_means(patch)[_RGB_G_CH]
	logging.debug(
	'%d, iso: %d, exp: %.2fms, fd: %s, avg: %.3f, [ae,af,awb]'
	': [%d,%d,%d]', i, iso, exp * _NS_TO_MS, fd_str, green_mean, ae_state,
	af_state, awb_state)
	cap_3a_state_list.append([ae_state, af_state, awb_state])
	if debug:
	image_processing_utils.write_image(
	img, '%s_%d.jpg' % (os.path.join(log_path, _NAME), i))
	return cap_3a_state_list


	class ContinuousPictureTest(its_base_test.ItsBaseTest):
	"""Test 3A converges in CONTINUOUS_PICTURE mode.

	Sets camera into CONTINUOUS_PICTURE mode and does NUM_FRAMES capture.
	By the end of NUM_FRAMES capture, 3A should be in converged state.
	Converged state is [2, 2, 2] for [AE, AF, AWB]

	State information:
	AE_STATES: {0: INACTIVE, 1: SEARCHING, 2: CONVERGED, 3: LOCKED,
	4: FLASH_REQ, 5: PRECAPTURE}
	AF_STATES: {0: INACTIVE, 1: PASSIVE_SCAN, 2: PASSIVE_FOCUSED,
	3: ACTIVE_SCAN, 4: FOCUS_LOCKED, 5: NOT_FOCUSED_LOCKED,
	6: PASSIVE_UNFOCUSED}
	AWB_STATES: {0: INACTIVE, 1: SEARCHING, 2: CONVERGED, 3: LOCKED}
	"""

	def test_continuous_picture(self):
	logging.debug('Starting %s', _NAME)
	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)
	log_path = self.log_path
	debug = self.debug_mode

	# Check SKIP conditions.
	camera_properties_utils.skip_unless(
	camera_properties_utils.continuous_picture(props) and
	camera_properties_utils.read_3a(props))

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

	# Do 3A up front.
	cam.do_3a()

	# Ensure 3A settles in CONTINUOUS_PICTURE mode with no scene change.
	cap_3a_state_list = _capture_frames(cam, log_path, debug)
	final_3a = cap_3a_state_list[_NUM_FRAMES-1]
	if final_3a != list(_CONVERGED_3A):
	raise AssertionError(
	f'Last frame [AE,AF,AWB]: {final_3a}. CONVERGED: {_CONVERGED_3A}.')

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