apps/CameraITS/tests/scene0/test_metadata.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.

 import math

 import its.caps
 import its.device
 import its.objects
 import its.target


 def main():
     """Test the validity of some metadata entries.

     Looks at capture results and at the camera characteristics objects.
     """
     global md, props, failed

     with its.device.ItsSession() as cam:
         # Arbitrary capture request exposure values; image content is not
         # important for this test, only the metadata.
         props = cam.get_camera_properties()
         auto_req = its.objects.auto_capture_request()
         cap = cam.do_capture(auto_req)
         md = cap["metadata"]

     print "Hardware level"
     print "  Legacy:", its.caps.legacy(props)
     print "  Limited:", its.caps.limited(props)
     print "  Full or better:", its.caps.full_or_better(props)
     print "Capabilities"
     print "  Manual sensor:", its.caps.manual_sensor(props)
     print "  Manual post-proc:", its.caps.manual_post_proc(props)
     print "  Raw:", its.caps.raw(props)
     print "  Sensor fusion:", its.caps.sensor_fusion(props)

     # Test: hardware level should be a valid value.
     check('props.has_key("android.info.supportedHardwareLevel")')
     check('props["android.info.supportedHardwareLevel"] is not None')
     check('props["android.info.supportedHardwareLevel"] in [0,1,2,3]')
     full = getval('props["android.info.supportedHardwareLevel"]') == 1
     manual_sensor = its.caps.manual_sensor(props)

     # Test: rollingShutterSkew, and frameDuration tags must all be present,
     # and rollingShutterSkew must be greater than zero and smaller than all
     # of the possible frame durations.
     if manual_sensor:
         check('md.has_key("android.sensor.frameDuration")')
         check('md["android.sensor.frameDuration"] is not None')
     check('md.has_key("android.sensor.rollingShutterSkew")')
     check('md["android.sensor.rollingShutterSkew"] is not None')
     if manual_sensor:
         check('md["android.sensor.frameDuration"] > '
               'md["android.sensor.rollingShutterSkew"] > 0')

     # Test: timestampSource must be a valid value.
     check('props.has_key("android.sensor.info.timestampSource")')
     check('props["android.sensor.info.timestampSource"] is not None')
     check('props["android.sensor.info.timestampSource"] in [0,1]')

     # Test: croppingType must be a valid value, and for full devices, it
     # must be FREEFORM=1.
     check('props.has_key("android.scaler.croppingType")')
     check('props["android.scaler.croppingType"] is not None')
     check('props["android.scaler.croppingType"] in [0,1]')

     assert(not failed)

     if not its.caps.legacy(props):
         # Test: pixel_pitch, FOV, and hyperfocal distance are reasonable
         fmts = props["android.scaler.streamConfigurationMap"]["availableStreamConfigurations"]
         fmts = sorted(fmts, key=lambda k: k["width"]*k["height"], reverse=True)
         sensor_size = props["android.sensor.info.physicalSize"]
         pixel_pitch_h = (sensor_size["height"] / fmts[0]["height"] * 1E3)
         pixel_pitch_w = (sensor_size["width"] / fmts[0]["width"] * 1E3)
         print "Assert pixel_pitch WxH: %.2f um, %.2f um" % (pixel_pitch_w,
                                                             pixel_pitch_h)
         assert 1.0 <= pixel_pitch_w <= 10
         assert 1.0 <= pixel_pitch_h <= 10
         assert 0.333 <= pixel_pitch_w/pixel_pitch_h <= 3.0

         diag = math.sqrt(sensor_size["height"] ** 2 +
                          sensor_size["width"] ** 2)
         fl = md["android.lens.focalLength"]
         fov = 2 * math.degrees(math.atan(diag / (2 * fl)))
         print "Assert field of view: %.1f degrees" % fov
         assert 30 <= fov <= 130

         if its.caps.lens_approx_calibrated(props):
             diopter_hyperfocal = props["android.lens.info.hyperfocalDistance"]
             if diopter_hyperfocal != 0.0:
                 hyperfocal = 1.0 / diopter_hyperfocal
                 print "Assert hyperfocal distance: %.2f m" % hyperfocal
                 assert 0.02 <= hyperfocal


 def getval(expr, default=None):
     try:
         return eval(expr)
     except:
         return default

 failed = False


 def check(expr):
     global md, props, failed
     try:
         if eval(expr):
             print "Passed>", expr
         else:
             print "Failed>>", expr
             failed = True
     except:
         print "Failed>>", expr
         failed = True

 if __name__ == '__main__':
     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.

	import math

	import its.caps
	import its.device
	import its.objects
	import its.target


	def main():
	"""Test the validity of some metadata entries.

	Looks at capture results and at the camera characteristics objects.
	"""
	global md, props, failed

	with its.device.ItsSession() as cam:
	# Arbitrary capture request exposure values; image content is not
	# important for this test, only the metadata.
	props = cam.get_camera_properties()
	auto_req = its.objects.auto_capture_request()
	cap = cam.do_capture(auto_req)
	md = cap["metadata"]

	print "Hardware level"
	print " Legacy:", its.caps.legacy(props)
	print " Limited:", its.caps.limited(props)
	print " Full or better:", its.caps.full_or_better(props)
	print "Capabilities"
	print " Manual sensor:", its.caps.manual_sensor(props)
	print " Manual post-proc:", its.caps.manual_post_proc(props)
	print " Raw:", its.caps.raw(props)
	print " Sensor fusion:", its.caps.sensor_fusion(props)

	# Test: hardware level should be a valid value.
	check('props.has_key("android.info.supportedHardwareLevel")')
	check('props["android.info.supportedHardwareLevel"] is not None')
	check('props["android.info.supportedHardwareLevel"] in [0,1,2,3]')
	full = getval('props["android.info.supportedHardwareLevel"]') == 1
	manual_sensor = its.caps.manual_sensor(props)

	# Test: rollingShutterSkew, and frameDuration tags must all be present,
	# and rollingShutterSkew must be greater than zero and smaller than all
	# of the possible frame durations.
	if manual_sensor:
	check('md.has_key("android.sensor.frameDuration")')
	check('md["android.sensor.frameDuration"] is not None')
	check('md.has_key("android.sensor.rollingShutterSkew")')
	check('md["android.sensor.rollingShutterSkew"] is not None')
	if manual_sensor:
	check('md["android.sensor.frameDuration"] > '
	'md["android.sensor.rollingShutterSkew"] > 0')

	# Test: timestampSource must be a valid value.
	check('props.has_key("android.sensor.info.timestampSource")')
	check('props["android.sensor.info.timestampSource"] is not None')
	check('props["android.sensor.info.timestampSource"] in [0,1]')

	# Test: croppingType must be a valid value, and for full devices, it
	# must be FREEFORM=1.
	check('props.has_key("android.scaler.croppingType")')
	check('props["android.scaler.croppingType"] is not None')
	check('props["android.scaler.croppingType"] in [0,1]')

	assert(not failed)

	if not its.caps.legacy(props):
	# Test: pixel_pitch, FOV, and hyperfocal distance are reasonable
	fmts = props["android.scaler.streamConfigurationMap"]["availableStreamConfigurations"]
	fmts = sorted(fmts, key=lambda k: k["width"]*k["height"], reverse=True)
	sensor_size = props["android.sensor.info.physicalSize"]
	pixel_pitch_h = (sensor_size["height"] / fmts[0]["height"] * 1E3)
	pixel_pitch_w = (sensor_size["width"] / fmts[0]["width"] * 1E3)
	print "Assert pixel_pitch WxH: %.2f um, %.2f um" % (pixel_pitch_w,
	pixel_pitch_h)
	assert 1.0 <= pixel_pitch_w <= 10
	assert 1.0 <= pixel_pitch_h <= 10
	assert 0.333 <= pixel_pitch_w/pixel_pitch_h <= 3.0

	diag = math.sqrt(sensor_size["height"] ** 2 +
	sensor_size["width"] ** 2)
	fl = md["android.lens.focalLength"]
	fov = 2 * math.degrees(math.atan(diag / (2 * fl)))
	print "Assert field of view: %.1f degrees" % fov
	assert 30 <= fov <= 130

	if its.caps.lens_approx_calibrated(props):
	diopter_hyperfocal = props["android.lens.info.hyperfocalDistance"]
	if diopter_hyperfocal != 0.0:
	hyperfocal = 1.0 / diopter_hyperfocal
	print "Assert hyperfocal distance: %.2f m" % hyperfocal
	assert 0.02 <= hyperfocal


	def getval(expr, default=None):
	try:
	return eval(expr)
	except:
	return default

	failed = False


	def check(expr):
	global md, props, failed
	try:
	if eval(expr):
	print "Passed>", expr
	else:
	print "Failed>>", expr
	failed = True
	except:
	print "Failed>>", expr
	failed = True

	if __name__ == '__main__':
	main()