tests/site_scons/site_init.py - third_party/github/nanopb/nanopb - Git at Google

 import subprocess
 import sys
 import re
 from platforms.stm32.stm32 import set_stm32_platform
 from platforms.avr.avr import set_avr_platform
 from platforms.mips.mips import set_mips_platform
 from platforms.mipsel.mipsel import set_mipsel_platform
 from platforms.riscv64.riscv64 import set_riscv64_platform

 platforms = {
     'STM32': set_stm32_platform,
     'AVR': set_avr_platform,
     'MIPS': set_mips_platform,
     'MIPSEL': set_mipsel_platform,
     'RISCV64': set_riscv64_platform,
 }

 try:
     # Make terminal colors work on windows
     import colorama
     colorama.init()
 except ImportError:
     pass

 def add_nanopb_builders(env):
     '''Add the necessary builder commands for nanopb tests.'''

     # Build command that runs a test program and saves the output
     def run_test(target, source, env):
         if len(source) > 1:
             infile = open(str(source[1]))
         else:
             infile = None

         if env.has_key("COMMAND"):
             args = [env["COMMAND"]]
         else:
             args = [str(source[0])]

         if env.has_key('ARGS'):
             args.extend(env['ARGS'])

         if env.has_key("TEST_RUNNER"):
             args = [env["TEST_RUNNER"]] + args

         print('Command line: ' + str(args))
         pipe = subprocess.Popen(args,
                                 stdin = infile,
                                 stdout = open(str(target[0]), 'w'),
                                 stderr = sys.stderr)
         result = pipe.wait()
         if result == 0:
             print('\033[32m[ OK ]\033[0m   Ran ' + args[0])
         else:
             print('\033[31m[FAIL]\033[0m   Program ' + args[0] + ' returned ' + str(result))
         return result

     run_test_builder = Builder(action = run_test,
                                suffix = '.output')
     env.Append(BUILDERS = {'RunTest': run_test_builder})

     # Build command that decodes a message using protoc
     def decode_actions(source, target, env, for_signature):
         esc = env['ESCAPE']
         dirs = ' '.join(['-I' + esc(env.GetBuildPath(d)) for d in env['PROTOCPATH']])
         return '$PROTOC $PROTOCFLAGS %s --decode=%s %s <%s >%s' % (
             dirs, env['MESSAGE'], esc(str(source[1])), esc(str(source[0])), esc(str(target[0])))

     decode_builder = Builder(generator = decode_actions,
                              suffix = '.decoded')
     env.Append(BUILDERS = {'Decode': decode_builder})

     # Build command that encodes a message using protoc
     def encode_actions(source, target, env, for_signature):
         esc = env['ESCAPE']
         dirs = ' '.join(['-I' + esc(env.GetBuildPath(d)) for d in env['PROTOCPATH']])
         return '$PROTOC $PROTOCFLAGS %s --encode=%s %s <%s >%s' % (
             dirs, env['MESSAGE'], esc(str(source[1])), esc(str(source[0])), esc(str(target[0])))

     encode_builder = Builder(generator = encode_actions,
                              suffix = '.encoded')
     env.Append(BUILDERS = {'Encode': encode_builder})

     # Build command that asserts that two files be equal
     def compare_files(target, source, env):
         data1 = open(str(source[0]), 'rb').read()
         data2 = open(str(source[1]), 'rb').read()
         if data1 == data2:
             print('\033[32m[ OK ]\033[0m   Files equal: ' + str(source[0]) + ' and ' + str(source[1]))
             return 0
         else:
             print('\033[31m[FAIL]\033[0m   Files differ: ' + str(source[0]) + ' and ' + str(source[1]))
             return 1

     compare_builder = Builder(action = compare_files,
                               suffix = '.equal')
     env.Append(BUILDERS = {'Compare': compare_builder})

     # Build command that checks that each pattern in source2 is found in source1.
     def match_files(target, source, env):
         data = open(str(source[0]), 'rU').read()
         patterns = open(str(source[1]))
         for pattern in patterns:
             if pattern.strip():
                 invert = False
                 if pattern.startswith('! '):
                     invert = True
                     pattern = pattern[2:]

                 status = re.search(pattern.strip(), data, re.MULTILINE)

                 if not status and not invert:
                     print('\033[31m[FAIL]\033[0m   Pattern not found in ' + str(source[0]) + ': ' + pattern)
                     return 1
                 elif status and invert:
                     print('\033[31m[FAIL]\033[0m   Pattern should not exist, but does in ' + str(source[0]) + ': ' + pattern)
                     return 1
         else:
             print('\033[32m[ OK ]\033[0m   All patterns found in ' + str(source[0]))
             return 0

     match_builder = Builder(action = match_files, suffix = '.matched')
     env.Append(BUILDERS = {'Match': match_builder})
	import subprocess
	import sys
	import re
	from platforms.stm32.stm32 import set_stm32_platform
	from platforms.avr.avr import set_avr_platform
	from platforms.mips.mips import set_mips_platform
	from platforms.mipsel.mipsel import set_mipsel_platform
	from platforms.riscv64.riscv64 import set_riscv64_platform

	platforms = {
	'STM32': set_stm32_platform,
	'AVR': set_avr_platform,
	'MIPS': set_mips_platform,
	'MIPSEL': set_mipsel_platform,
	'RISCV64': set_riscv64_platform,
	}

	try:
	# Make terminal colors work on windows
	import colorama
	colorama.init()
	except ImportError:
	pass

	def add_nanopb_builders(env):
	'''Add the necessary builder commands for nanopb tests.'''

	# Build command that runs a test program and saves the output
	def run_test(target, source, env):
	if len(source) > 1:
	infile = open(str(source[1]))
	else:
	infile = None

	if env.has_key("COMMAND"):
	args = [env["COMMAND"]]
	else:
	args = [str(source[0])]

	if env.has_key('ARGS'):
	args.extend(env['ARGS'])

	if env.has_key("TEST_RUNNER"):
	args = [env["TEST_RUNNER"]] + args

	print('Command line: ' + str(args))
	pipe = subprocess.Popen(args,
	stdin = infile,
	stdout = open(str(target[0]), 'w'),
	stderr = sys.stderr)
	result = pipe.wait()
	if result == 0:
	print('\033[32m[ OK ]\033[0m Ran ' + args[0])
	else:
	print('\033[31m[FAIL]\033[0m Program ' + args[0] + ' returned ' + str(result))
	return result

	run_test_builder = Builder(action = run_test,
	suffix = '.output')
	env.Append(BUILDERS = {'RunTest': run_test_builder})

	# Build command that decodes a message using protoc
	def decode_actions(source, target, env, for_signature):
	esc = env['ESCAPE']
	dirs = ' '.join(['-I' + esc(env.GetBuildPath(d)) for d in env['PROTOCPATH']])
	return '$PROTOC $PROTOCFLAGS %s --decode=%s %s <%s >%s' % (
	dirs, env['MESSAGE'], esc(str(source[1])), esc(str(source[0])), esc(str(target[0])))

	decode_builder = Builder(generator = decode_actions,
	suffix = '.decoded')
	env.Append(BUILDERS = {'Decode': decode_builder})

	# Build command that encodes a message using protoc
	def encode_actions(source, target, env, for_signature):
	esc = env['ESCAPE']
	dirs = ' '.join(['-I' + esc(env.GetBuildPath(d)) for d in env['PROTOCPATH']])
	return '$PROTOC $PROTOCFLAGS %s --encode=%s %s <%s >%s' % (
	dirs, env['MESSAGE'], esc(str(source[1])), esc(str(source[0])), esc(str(target[0])))

	encode_builder = Builder(generator = encode_actions,
	suffix = '.encoded')
	env.Append(BUILDERS = {'Encode': encode_builder})

	# Build command that asserts that two files be equal
	def compare_files(target, source, env):
	data1 = open(str(source[0]), 'rb').read()
	data2 = open(str(source[1]), 'rb').read()
	if data1 == data2:
	print('\033[32m[ OK ]\033[0m Files equal: ' + str(source[0]) + ' and ' + str(source[1]))
	return 0
	else:
	print('\033[31m[FAIL]\033[0m Files differ: ' + str(source[0]) + ' and ' + str(source[1]))
	return 1

	compare_builder = Builder(action = compare_files,
	suffix = '.equal')
	env.Append(BUILDERS = {'Compare': compare_builder})

	# Build command that checks that each pattern in source2 is found in source1.
	def match_files(target, source, env):
	data = open(str(source[0]), 'rU').read()
	patterns = open(str(source[1]))
	for pattern in patterns:
	if pattern.strip():
	invert = False
	if pattern.startswith('! '):
	invert = True
	pattern = pattern[2:]

	status = re.search(pattern.strip(), data, re.MULTILINE)

	if not status and not invert:
	print('\033[31m[FAIL]\033[0m Pattern not found in ' + str(source[0]) + ': ' + pattern)
	return 1
	elif status and invert:
	print('\033[31m[FAIL]\033[0m Pattern should not exist, but does in ' + str(source[0]) + ': ' + pattern)
	return 1
	else:
	print('\033[32m[ OK ]\033[0m All patterns found in ' + str(source[0]))
	return 0

	match_builder = Builder(action = match_files, suffix = '.matched')
	env.Append(BUILDERS = {'Match': match_builder})