scripts/tools/zap_regen_all.py - third_party/github/project-chip/connectedhomeip - Git at Google

 #!/usr/bin/env python3
 #
 #    Copyright (c) 2020 Project CHIP Authors
 #
 #    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 argparse
 import logging
 import multiprocessing
 import os
 import shutil
 import subprocess
 import sys
 import tempfile
 import time
 from dataclasses import dataclass
 from enum import Flag, auto
 from pathlib import Path

 CHIP_ROOT_DIR = os.path.realpath(
     os.path.join(os.path.dirname(__file__), '../..'))


 # Type of targets that can be re-generated
 class TargetType(Flag):

     # Tests for golden images
     TESTS = auto()

     # Global templates: generally examples and chip controller
     GLOBAL = auto()

     # codgen.py templates (generally java templates, which cannot be built
     # at compile time currently)
     IDL_CODEGEN = auto()

     # App-specific templates (see getSpecificTemplatesTargets)
     SPECIFIC = auto()

     # Golden compares for unit tests of zap codegen
     GOLDEN_TEST_IMAGES = auto()

     # All possible targets. Convenience constant
     ALL = TESTS | GLOBAL | IDL_CODEGEN | SPECIFIC | GOLDEN_TEST_IMAGES


 __TARGET_TYPES__ = {
     'tests': TargetType.TESTS,
     'global': TargetType.GLOBAL,
     'idl_codegen': TargetType.IDL_CODEGEN,
     'specific': TargetType.SPECIFIC,
     'golden_test_images': TargetType.GOLDEN_TEST_IMAGES,
     'all': TargetType.ALL,
 }


 @dataclass
 class TargetRunStats:
     config: str
     template: str
     generate_time: float


 @dataclass(eq=True, frozen=True)
 class ZapDistinctOutput:
     """Defines the properties that determine if some output seems unique or
        not, for the purposes of detecting codegen overlap.

        Not perfect, since separate templates may use the same file names, but
        better than nothing.
     """

     input_template: str
     output_directory: str


 class ZAPGenerateTarget:

     @staticmethod
     def MatterIdlTarget(zap_config, client_side=False):
         if client_side:
             return ZAPGenerateTarget(zap_config, template="src/app/zap-templates/matter-idl-client.json", output_dir=None)
         else:
             # NOTE: this assumes `src/app/zap-templates/matter-idl-server.json` is the
             #       DEFAULT generation target and it needs no output_dir
             return ZAPGenerateTarget(zap_config, template=None, output_dir=None)

     def __init__(self, zap_config, template, output_dir=None):
         self.script = './scripts/tools/zap/generate.py'
         self.zap_config = str(zap_config)
         self.template = template

         if output_dir:
             # make sure we convert  any os.PathLike object to string
             self.output_dir = str(output_dir)
         else:
             self.output_dir = None

     @property
     def is_matter_idl_generation(self):
         return (self.output_dir is None)

     def distinct_output(self):
         if not self.template and not self.output_dir:
             # Matter IDL templates have no template/output dir as they go with the
             # default.
             #
             # output_directory is MIS-USED here because zap files may reside in the same
             # directory (e.g. chef) so we claim the zap config is an output directory
             # for uniqueness
             return ZapDistinctOutput(input_template=None, output_directory=self.zap_config)
         else:
             return ZapDistinctOutput(input_template=self.template, output_directory=self.output_dir)

     def log_command(self):
         """Log the command that will get run for this target
         """
         logging.info("  %s" % " ".join(self.build_cmd()))

     def build_cmd(self):
         """Builds the command line we would run to generate this target.
         """
         cmd = [self.script, self.zap_config]

         if self.template:
             cmd.append('-t')
             cmd.append(self.template)

         if self.output_dir:
             if not os.path.exists(self.output_dir):
                 os.makedirs(self.output_dir)
             cmd.append('-o')
             cmd.append(self.output_dir)

         return cmd

     def generate(self) -> TargetRunStats:
         """Runs a ZAP generate command on the configured zap/template/outputs.
         """
         cmd = self.build_cmd()
         logging.info("Generating target: %s" % " ".join(cmd))

         generate_start = time.time()
         subprocess.check_call(cmd)
         generate_end = time.time()

         if "chef" in self.zap_config:
             idl_path = self.zap_config.replace(".zap", ".matter")
             target_path = os.path.join("examples",
                                        "chef",
                                        "devices",
                                        os.path.basename(idl_path))
             os.rename(idl_path, target_path)
         return TargetRunStats(
             generate_time=generate_end - generate_start,
             config=self.zap_config,
             template=self.template,
         )


 class GoldenTestImageTarget():
     def __init__(self):
         # NOTE: output-path is inside the tree. This is because clang-format
         #       will search for a .clang-format file in the directory tree
         #       so attempts to format outside the tree will generate diffs.
         # NOTE: relative path because this script generally does a
         #       os.chdir to CHIP_ROOT anyway.
         os.makedirs('./out', exist_ok=True)
         self.tempdir = tempfile.mkdtemp(prefix='test_golden', dir='./out')

         # This runs a test, but the important bit is we pass `--regenerate`
         # to it and this will cause it to OVERWRITE golden images.
         self.command = ["./scripts/tools/zap/test_generate.py",
                         "--output", self.tempdir, "--regenerate"]

     def __del__(self):
         # Clean up
         if os.path.isdir(self.tempdir):
             shutil.rmtree(self.tempdir)

     def generate(self) -> TargetRunStats:
         generate_start = time.time()
         subprocess.check_call(self.command)
         generate_end = time.time()

         return TargetRunStats(
             generate_time=generate_end - generate_start,
             config='./scripts/tools/zap/test_generate.py',
             template='./scripts/tools/zap/test_generate.py',
         )

     def distinct_output(self):
         # Fake output - this is a single target that generates golden images
         return ZapDistinctOutput(input_template='GOLDEN_IMAGES', output_directory='GOLDEN_IMAGES')

     def log_command(self):
         logging.info("  %s" % " ".join(self.command))


 class JinjaCodegenTarget():
     def __init__(self, generator: str, output_directory: str, idl_path: str):
         # This runs a test, but the important bit is we pass `--regenerate`
         # to it and this will cause it to OVERWRITE golden images.
         self.idl_path = idl_path
         self.generator = generator
         self.output_directory = output_directory
         self.command = ["./scripts/codegen.py", "--output-dir", output_directory,
                         "--generator", generator, idl_path]

     def generate(self) -> TargetRunStats:
         generate_start = time.time()

         subprocess.check_call(self.command)

         generate_end = time.time()

         return TargetRunStats(
             generate_time=generate_end - generate_start,
             config=f'codegen:{self.generator}',
             template=self.idl_path,
         )

     def distinct_output(self):
         # Fake output - this is a single target that generates golden images
         return ZapDistinctOutput(input_template=f'{self.generator}{self.idl_path}', output_directory=self.output_directory)

     def log_command(self):
         logging.info("  %s" % " ".join(self.command))


 def checkPythonVersion():
     if sys.version_info[0] < 3:
         print('Must use Python 3. Current version is ' +
               str(sys.version_info[0]))
         exit(1)


 def setupArgumentsParser():
     parser = argparse.ArgumentParser(
         description='Generate content from ZAP files')
     parser.add_argument('--type', action='append', choices=__TARGET_TYPES__.keys(),
                         help='Choose which content type to generate (default: all)')
     parser.add_argument('--tests', default='all', choices=['all', 'chip-tool', 'darwin-framework-tool', 'app1', 'app2'],
                         help='When generating tests only target, Choose which tests to generate (default: all)')
     parser.add_argument('--dry-run', default=False, action='store_true',
                         help="Don't do any generation, just log what targets would be generated (default: False)")
     parser.add_argument('--run-bootstrap', default=None, action='store_true',
                         help='Automatically run ZAP bootstrap. By default the bootstrap is not triggered')

     parser.add_argument('--parallel', action='store_true')
     parser.add_argument('--no-parallel', action='store_false', dest='parallel')
     parser.set_defaults(parallel=True)

     args = parser.parse_args()

     # Convert a list of target_types (as strings)
     # into a single flag value
     if not args.type:
         args.type = TargetType.ALL  # default instead of a list
     else:
         # convert the list into a single flag value
         types = [t for t in map(lambda x: __TARGET_TYPES__[
                                 x.lower()], args.type)]
         args.type = types[0]
         for t in types:
             args.type = args.type | t

     return args


 def getGlobalTemplatesTargets():
     targets = []

     for filepath in Path('./examples').rglob('*.zap'):
         example_name = filepath.as_posix()
         example_name = example_name[example_name.index('examples/') + 9:]
         example_name = example_name[:example_name.index('/')]

         # Place holder has apps within each build
         if example_name == "placeholder":
             example_name = filepath.as_posix()
             example_name = example_name[example_name.index(
                 'apps/') + len('apps/'):]
             example_name = example_name[:example_name.index('/')]
             logging.info("Found example %s (via %s)" %
                          (example_name, str(filepath)))

             # The name zap-generated is to make includes clear by using
             # a name like <zap-generated/foo.h>
             output_dir = os.path.join(
                 'zzz_generated', 'placeholder', example_name, 'zap-generated')
             template = os.path.join(
                 'examples', 'placeholder', 'linux', 'apps', example_name, 'templates', 'templates.json')

             targets.append(ZAPGenerateTarget.MatterIdlTarget(filepath))
             targets.append(ZAPGenerateTarget(filepath, output_dir=output_dir, template=template))
             continue

         if example_name == "chef":
             if os.path.join("chef", "devices") not in str(filepath):
                 continue
             example_name = "chef-"+os.path.basename(filepath)[:-len(".zap")]

         logging.info("Found example %s (via %s)" %
                      (example_name, str(filepath)))

         generate_subdir = example_name

         # Special casing lighting app because separate folders
         if example_name == "lighting-app" or example_name == "lock-app":
             if 'nxp' in str(filepath):
                 generate_subdir = f"{example_name}/nxp"

         # The name zap-generated is to make includes clear by using
         # a name like <zap-generated/foo.h>
         output_dir = os.path.join(
             'zzz_generated', generate_subdir, 'zap-generated')
         targets.append(ZAPGenerateTarget.MatterIdlTarget(filepath))

     targets.append(ZAPGenerateTarget.MatterIdlTarget('src/controller/data_model/controller-clusters.zap', client_side=True))

     return targets


 def getCodegenTemplates():
     targets = []

     targets.append(JinjaCodegenTarget(
         generator="java-class",
         idl_path="src/controller/data_model/controller-clusters.matter",
         output_directory="src/controller/java/generated"))

     return targets


 def getTestsTemplatesTargets(test_target):
     templates = {
         'chip-tool': {
             'zap': 'src/controller/data_model/controller-clusters.zap',
             'template': 'examples/chip-tool/templates/tests/templates.json',
             'output_dir': 'zzz_generated/chip-tool/zap-generated'
         },
         'darwin-framework-tool': {
             'zap': 'src/controller/data_model/controller-clusters.zap',
             'template': 'examples/darwin-framework-tool/templates/tests/templates.json',
             'output_dir': 'zzz_generated/darwin-framework-tool/zap-generated'
         }
     }

     targets = []
     for key, target in templates.items():
         if test_target == 'all' or test_target == key:
             logging.info("Found test target %s (via %s)" %
                          (key, target['template']))
             targets.append(ZAPGenerateTarget(
                 target['zap'], template=target['template'], output_dir=target['output_dir']))

     return targets


 def getGoldenTestImageTargets():
     return [GoldenTestImageTarget()]


 def getSpecificTemplatesTargets():
     zap_filepath = 'src/controller/data_model/controller-clusters.zap'

     # Mapping of required template and output directory
     templates = {
         'src/app/common/templates/templates.json': 'zzz_generated/app-common/app-common/zap-generated',
         'src/app/tests/suites/templates/templates.json': 'zzz_generated/app-common/app-common/zap-generated',
         'examples/chip-tool/templates/templates.json': 'zzz_generated/chip-tool/zap-generated',
         'examples/darwin-framework-tool/templates/templates.json': 'zzz_generated/darwin-framework-tool/zap-generated',
         'src/controller/python/templates/templates.json': None,
         'src/darwin/Framework/CHIP/templates/templates.json': None,
         'src/controller/java/templates/templates.json': None,
     }

     targets = []
     for template, output_dir in templates.items():
         logging.info("Found specific template %s" % template)
         targets.append(ZAPGenerateTarget(
             zap_filepath, template=template, output_dir=output_dir))

     return targets


 def getTargets(type, test_target):
     targets = []

     if type & TargetType.TESTS:
         targets.extend(getTestsTemplatesTargets(test_target))

     if type & TargetType.GLOBAL:
         targets.extend(getGlobalTemplatesTargets())

     if type & TargetType.SPECIFIC:
         targets.extend(getSpecificTemplatesTargets())

     if type & TargetType.IDL_CODEGEN:
         targets.extend(getCodegenTemplates())

     if type & TargetType.GOLDEN_TEST_IMAGES:
         targets.extend(getGoldenTestImageTargets())

     logging.info("Targets to be generated:")
     for target in targets:
         target.log_command()

     # validate that every target as a DISTINCT directory (we had bugs here
     # for various examples duplicating zap files)
     distinct_outputs = set()
     for target in targets:
         o = target.distinct_output()

         if o in distinct_outputs:
             logging.error("Same output %r:" % o)
             for t in targets:
                 if t.distinct_output() == o:
                     logging.error("   %s" % t.zap_config)

             raise Exception("Duplicate/overlapping output directory: %r" % o)

         distinct_outputs.add(o)

     return targets


 def _ParallelGenerateOne(target):
     """
     Helper method to be passed to multiprocessing parallel generation of
     items.
     """
     return target.generate()


 def main():
     logging.basicConfig(
         level=logging.INFO,
         format='%(asctime)s %(name)s %(levelname)-7s %(message)s'
     )
     checkPythonVersion()
     os.chdir(CHIP_ROOT_DIR)
     args = setupArgumentsParser()

     targets = getTargets(args.type, args.tests)

     if args.dry_run:
         sys.exit(0)

     if args.run_bootstrap:
         subprocess.check_call(os.path.join(
             CHIP_ROOT_DIR, "scripts/tools/zap/zap_bootstrap.sh"), shell=True)

     timings = []
     if args.parallel:
         # Ensure each zap run is independent
         os.environ['ZAP_TEMPSTATE'] = '1'

         # There is a sequencing here:
         #   - ZAP will generate ".matter" files
         #   - various codegen may generate from ".matter" files (like java)
         # We split codegen into two generations to not be racy
         first, second = [], []
         for target in targets:
             if isinstance(target, ZAPGenerateTarget) and target.is_matter_idl_generation:
                 first.append(target)
             else:
                 second.append(target)

         for items in [first, second]:
             with multiprocessing.Pool() as pool:
                 for timing in pool.imap_unordered(_ParallelGenerateOne, items):
                     timings.append(timing)
     else:
         for target in targets:
             timings.append(target.generate())

     timings.sort(key=lambda t: t.generate_time)

     print(" Time (s) | {:^50} | {:^50}".format("Config", "Template"))
     for timing in timings:
         tmpl = timing.template

         if tmpl is None:
             tmpl = '[NONE (matter idl generation)]'

         if len(tmpl) > 50:
             # easier to distinguish paths ... shorten common in-fixes
             tmpl = tmpl.replace("/zap-templates/", "/../")
             tmpl = tmpl.replace("/templates/", "/../")

         print(" %8d | %50s | %50s" % (
             timing.generate_time,
             ".." + timing.config[len(timing.config) -
                                  48:] if len(timing.config) > 50 else timing.config,
             ".." + tmpl[len(tmpl) - 48:] if len(tmpl) > 50 else tmpl,
         ))


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python3
	#
	# Copyright (c) 2020 Project CHIP Authors
	#
	# 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 argparse
	import logging
	import multiprocessing
	import os
	import shutil
	import subprocess
	import sys
	import tempfile
	import time
	from dataclasses import dataclass
	from enum import Flag, auto
	from pathlib import Path

	CHIP_ROOT_DIR = os.path.realpath(
	os.path.join(os.path.dirname(__file__), '../..'))


	# Type of targets that can be re-generated
	class TargetType(Flag):

	# Tests for golden images
	TESTS = auto()

	# Global templates: generally examples and chip controller
	GLOBAL = auto()

	# codgen.py templates (generally java templates, which cannot be built
	# at compile time currently)
	IDL_CODEGEN = auto()

	# App-specific templates (see getSpecificTemplatesTargets)
	SPECIFIC = auto()

	# Golden compares for unit tests of zap codegen
	GOLDEN_TEST_IMAGES = auto()

	# All possible targets. Convenience constant
	ALL = TESTS \| GLOBAL \| IDL_CODEGEN \| SPECIFIC \| GOLDEN_TEST_IMAGES


	__TARGET_TYPES__ = {
	'tests': TargetType.TESTS,
	'global': TargetType.GLOBAL,
	'idl_codegen': TargetType.IDL_CODEGEN,
	'specific': TargetType.SPECIFIC,
	'golden_test_images': TargetType.GOLDEN_TEST_IMAGES,
	'all': TargetType.ALL,
	}


	@dataclass
	class TargetRunStats:
	config: str
	template: str
	generate_time: float


	@dataclass(eq=True, frozen=True)
	class ZapDistinctOutput:
	"""Defines the properties that determine if some output seems unique or
	not, for the purposes of detecting codegen overlap.

	Not perfect, since separate templates may use the same file names, but
	better than nothing.
	"""

	input_template: str
	output_directory: str


	class ZAPGenerateTarget:

	@staticmethod
	def MatterIdlTarget(zap_config, client_side=False):
	if client_side:
	return ZAPGenerateTarget(zap_config, template="src/app/zap-templates/matter-idl-client.json", output_dir=None)
	else:
	# NOTE: this assumes `src/app/zap-templates/matter-idl-server.json` is the
	# DEFAULT generation target and it needs no output_dir
	return ZAPGenerateTarget(zap_config, template=None, output_dir=None)

	def __init__(self, zap_config, template, output_dir=None):
	self.script = './scripts/tools/zap/generate.py'
	self.zap_config = str(zap_config)
	self.template = template

	if output_dir:
	# make sure we convert any os.PathLike object to string
	self.output_dir = str(output_dir)
	else:
	self.output_dir = None

	@property
	def is_matter_idl_generation(self):
	return (self.output_dir is None)

	def distinct_output(self):
	if not self.template and not self.output_dir:
	# Matter IDL templates have no template/output dir as they go with the
	# default.
	#
	# output_directory is MIS-USED here because zap files may reside in the same
	# directory (e.g. chef) so we claim the zap config is an output directory
	# for uniqueness
	return ZapDistinctOutput(input_template=None, output_directory=self.zap_config)
	else:
	return ZapDistinctOutput(input_template=self.template, output_directory=self.output_dir)

	def log_command(self):
	"""Log the command that will get run for this target
	"""
	logging.info(" %s" % " ".join(self.build_cmd()))

	def build_cmd(self):
	"""Builds the command line we would run to generate this target.
	"""
	cmd = [self.script, self.zap_config]

	if self.template:
	cmd.append('-t')
	cmd.append(self.template)

	if self.output_dir:
	if not os.path.exists(self.output_dir):
	os.makedirs(self.output_dir)
	cmd.append('-o')
	cmd.append(self.output_dir)

	return cmd

	def generate(self) -> TargetRunStats:
	"""Runs a ZAP generate command on the configured zap/template/outputs.
	"""
	cmd = self.build_cmd()
	logging.info("Generating target: %s" % " ".join(cmd))

	generate_start = time.time()
	subprocess.check_call(cmd)
	generate_end = time.time()

	if "chef" in self.zap_config:
	idl_path = self.zap_config.replace(".zap", ".matter")
	target_path = os.path.join("examples",
	"chef",
	"devices",
	os.path.basename(idl_path))
	os.rename(idl_path, target_path)
	return TargetRunStats(
	generate_time=generate_end - generate_start,
	config=self.zap_config,
	template=self.template,
	)


	class GoldenTestImageTarget():
	def __init__(self):
	# NOTE: output-path is inside the tree. This is because clang-format
	# will search for a .clang-format file in the directory tree
	# so attempts to format outside the tree will generate diffs.
	# NOTE: relative path because this script generally does a
	# os.chdir to CHIP_ROOT anyway.
	os.makedirs('./out', exist_ok=True)
	self.tempdir = tempfile.mkdtemp(prefix='test_golden', dir='./out')

	# This runs a test, but the important bit is we pass `--regenerate`
	# to it and this will cause it to OVERWRITE golden images.
	self.command = ["./scripts/tools/zap/test_generate.py",
	"--output", self.tempdir, "--regenerate"]

	def __del__(self):
	# Clean up
	if os.path.isdir(self.tempdir):
	shutil.rmtree(self.tempdir)

	def generate(self) -> TargetRunStats:
	generate_start = time.time()
	subprocess.check_call(self.command)
	generate_end = time.time()

	return TargetRunStats(
	generate_time=generate_end - generate_start,
	config='./scripts/tools/zap/test_generate.py',
	template='./scripts/tools/zap/test_generate.py',
	)

	def distinct_output(self):
	# Fake output - this is a single target that generates golden images
	return ZapDistinctOutput(input_template='GOLDEN_IMAGES', output_directory='GOLDEN_IMAGES')

	def log_command(self):
	logging.info(" %s" % " ".join(self.command))


	class JinjaCodegenTarget():
	def __init__(self, generator: str, output_directory: str, idl_path: str):
	# This runs a test, but the important bit is we pass `--regenerate`
	# to it and this will cause it to OVERWRITE golden images.
	self.idl_path = idl_path
	self.generator = generator
	self.output_directory = output_directory
	self.command = ["./scripts/codegen.py", "--output-dir", output_directory,
	"--generator", generator, idl_path]

	def generate(self) -> TargetRunStats:
	generate_start = time.time()

	subprocess.check_call(self.command)

	generate_end = time.time()

	return TargetRunStats(
	generate_time=generate_end - generate_start,
	config=f'codegen:{self.generator}',
	template=self.idl_path,
	)

	def distinct_output(self):
	# Fake output - this is a single target that generates golden images
	return ZapDistinctOutput(input_template=f'{self.generator}{self.idl_path}', output_directory=self.output_directory)

	def log_command(self):
	logging.info(" %s" % " ".join(self.command))


	def checkPythonVersion():
	if sys.version_info[0] < 3:
	print('Must use Python 3. Current version is ' +
	str(sys.version_info[0]))
	exit(1)


	def setupArgumentsParser():
	parser = argparse.ArgumentParser(
	description='Generate content from ZAP files')
	parser.add_argument('--type', action='append', choices=__TARGET_TYPES__.keys(),
	help='Choose which content type to generate (default: all)')
	parser.add_argument('--tests', default='all', choices=['all', 'chip-tool', 'darwin-framework-tool', 'app1', 'app2'],
	help='When generating tests only target, Choose which tests to generate (default: all)')
	parser.add_argument('--dry-run', default=False, action='store_true',
	help="Don't do any generation, just log what targets would be generated (default: False)")
	parser.add_argument('--run-bootstrap', default=None, action='store_true',
	help='Automatically run ZAP bootstrap. By default the bootstrap is not triggered')

	parser.add_argument('--parallel', action='store_true')
	parser.add_argument('--no-parallel', action='store_false', dest='parallel')
	parser.set_defaults(parallel=True)

	args = parser.parse_args()

	# Convert a list of target_types (as strings)
	# into a single flag value
	if not args.type:
	args.type = TargetType.ALL # default instead of a list
	else:
	# convert the list into a single flag value
	types = [t for t in map(lambda x: __TARGET_TYPES__[
	x.lower()], args.type)]
	args.type = types[0]
	for t in types:
	args.type = args.type \| t

	return args


	def getGlobalTemplatesTargets():
	targets = []

	for filepath in Path('./examples').rglob('*.zap'):
	example_name = filepath.as_posix()
	example_name = example_name[example_name.index('examples/') + 9:]
	example_name = example_name[:example_name.index('/')]

	# Place holder has apps within each build
	if example_name == "placeholder":
	example_name = filepath.as_posix()
	example_name = example_name[example_name.index(
	'apps/') + len('apps/'):]
	example_name = example_name[:example_name.index('/')]
	logging.info("Found example %s (via %s)" %
	(example_name, str(filepath)))

	# The name zap-generated is to make includes clear by using
	# a name like <zap-generated/foo.h>
	output_dir = os.path.join(
	'zzz_generated', 'placeholder', example_name, 'zap-generated')
	template = os.path.join(
	'examples', 'placeholder', 'linux', 'apps', example_name, 'templates', 'templates.json')

	targets.append(ZAPGenerateTarget.MatterIdlTarget(filepath))
	targets.append(ZAPGenerateTarget(filepath, output_dir=output_dir, template=template))
	continue

	if example_name == "chef":
	if os.path.join("chef", "devices") not in str(filepath):
	continue
	example_name = "chef-"+os.path.basename(filepath)[:-len(".zap")]

	logging.info("Found example %s (via %s)" %
	(example_name, str(filepath)))

	generate_subdir = example_name

	# Special casing lighting app because separate folders
	if example_name == "lighting-app" or example_name == "lock-app":
	if 'nxp' in str(filepath):
	generate_subdir = f"{example_name}/nxp"

	# The name zap-generated is to make includes clear by using
	# a name like <zap-generated/foo.h>
	output_dir = os.path.join(
	'zzz_generated', generate_subdir, 'zap-generated')
	targets.append(ZAPGenerateTarget.MatterIdlTarget(filepath))

	targets.append(ZAPGenerateTarget.MatterIdlTarget('src/controller/data_model/controller-clusters.zap', client_side=True))

	return targets


	def getCodegenTemplates():
	targets = []

	targets.append(JinjaCodegenTarget(
	generator="java-class",
	idl_path="src/controller/data_model/controller-clusters.matter",
	output_directory="src/controller/java/generated"))

	return targets


	def getTestsTemplatesTargets(test_target):
	templates = {
	'chip-tool': {
	'zap': 'src/controller/data_model/controller-clusters.zap',
	'template': 'examples/chip-tool/templates/tests/templates.json',
	'output_dir': 'zzz_generated/chip-tool/zap-generated'
	},
	'darwin-framework-tool': {
	'zap': 'src/controller/data_model/controller-clusters.zap',
	'template': 'examples/darwin-framework-tool/templates/tests/templates.json',
	'output_dir': 'zzz_generated/darwin-framework-tool/zap-generated'
	}
	}

	targets = []
	for key, target in templates.items():
	if test_target == 'all' or test_target == key:
	logging.info("Found test target %s (via %s)" %
	(key, target['template']))
	targets.append(ZAPGenerateTarget(
	target['zap'], template=target['template'], output_dir=target['output_dir']))

	return targets


	def getGoldenTestImageTargets():
	return [GoldenTestImageTarget()]


	def getSpecificTemplatesTargets():
	zap_filepath = 'src/controller/data_model/controller-clusters.zap'

	# Mapping of required template and output directory
	templates = {
	'src/app/common/templates/templates.json': 'zzz_generated/app-common/app-common/zap-generated',
	'src/app/tests/suites/templates/templates.json': 'zzz_generated/app-common/app-common/zap-generated',
	'examples/chip-tool/templates/templates.json': 'zzz_generated/chip-tool/zap-generated',
	'examples/darwin-framework-tool/templates/templates.json': 'zzz_generated/darwin-framework-tool/zap-generated',
	'src/controller/python/templates/templates.json': None,
	'src/darwin/Framework/CHIP/templates/templates.json': None,
	'src/controller/java/templates/templates.json': None,
	}

	targets = []
	for template, output_dir in templates.items():
	logging.info("Found specific template %s" % template)
	targets.append(ZAPGenerateTarget(
	zap_filepath, template=template, output_dir=output_dir))

	return targets


	def getTargets(type, test_target):
	targets = []

	if type & TargetType.TESTS:
	targets.extend(getTestsTemplatesTargets(test_target))

	if type & TargetType.GLOBAL:
	targets.extend(getGlobalTemplatesTargets())

	if type & TargetType.SPECIFIC:
	targets.extend(getSpecificTemplatesTargets())

	if type & TargetType.IDL_CODEGEN:
	targets.extend(getCodegenTemplates())

	if type & TargetType.GOLDEN_TEST_IMAGES:
	targets.extend(getGoldenTestImageTargets())

	logging.info("Targets to be generated:")
	for target in targets:
	target.log_command()

	# validate that every target as a DISTINCT directory (we had bugs here
	# for various examples duplicating zap files)
	distinct_outputs = set()
	for target in targets:
	o = target.distinct_output()

	if o in distinct_outputs:
	logging.error("Same output %r:" % o)
	for t in targets:
	if t.distinct_output() == o:
	logging.error(" %s" % t.zap_config)

	raise Exception("Duplicate/overlapping output directory: %r" % o)

	distinct_outputs.add(o)

	return targets


	def _ParallelGenerateOne(target):
	"""
	Helper method to be passed to multiprocessing parallel generation of
	items.
	"""
	return target.generate()


	def main():
	logging.basicConfig(
	level=logging.INFO,
	format='%(asctime)s %(name)s %(levelname)-7s %(message)s'
	)
	checkPythonVersion()
	os.chdir(CHIP_ROOT_DIR)
	args = setupArgumentsParser()

	targets = getTargets(args.type, args.tests)

	if args.dry_run:
	sys.exit(0)

	if args.run_bootstrap:
	subprocess.check_call(os.path.join(
	CHIP_ROOT_DIR, "scripts/tools/zap/zap_bootstrap.sh"), shell=True)

	timings = []
	if args.parallel:
	# Ensure each zap run is independent
	os.environ['ZAP_TEMPSTATE'] = '1'

	# There is a sequencing here:
	# - ZAP will generate ".matter" files
	# - various codegen may generate from ".matter" files (like java)
	# We split codegen into two generations to not be racy
	first, second = [], []
	for target in targets:
	if isinstance(target, ZAPGenerateTarget) and target.is_matter_idl_generation:
	first.append(target)
	else:
	second.append(target)

	for items in [first, second]:
	with multiprocessing.Pool() as pool:
	for timing in pool.imap_unordered(_ParallelGenerateOne, items):
	timings.append(timing)
	else:
	for target in targets:
	timings.append(target.generate())

	timings.sort(key=lambda t: t.generate_time)

	print(" Time (s) \| {:^50} \| {:^50}".format("Config", "Template"))
	for timing in timings:
	tmpl = timing.template

	if tmpl is None:
	tmpl = '[NONE (matter idl generation)]'

	if len(tmpl) > 50:
	# easier to distinguish paths ... shorten common in-fixes
	tmpl = tmpl.replace("/zap-templates/", "/../")
	tmpl = tmpl.replace("/templates/", "/../")

	print(" %8d \| %50s \| %50s" % (
	timing.generate_time,
	".." + timing.config[len(timing.config) -
	48:] if len(timing.config) > 50 else timing.config,
	".." + tmpl[len(tmpl) - 48:] if len(tmpl) > 50 else tmpl,
	))


	if __name__ == '__main__':
	main()