def handle_action(args): Core.preprocess_arguments(args) # populate args.architecture with sane values args.architecture = filter_architectures( args.architecture, Core.supported_architectures, TargetPlatform.instance.default_architectures() ) # Now that we have a list of architectures -- verify the target # platform can use that. for arch in args.architecture: if not TargetPlatform.compiler.supports_build_architecture( Language.CPP, arch ): raise Exception( "TargetPlatform does not support architecture: %s!" % arch ) global_params = Attributes() if args.command in ["generate", "build", "clean"]: # required for running command-line utils executor = Executor() # This first step accomplishes the following: # - loops through all product data in buildfile and generates dependencies # - use/generate BuildCache by associated products and dependencies with buildfiles gather_product_data( args, args.architecture, args.configuration, os.path.abspath(args.build_file), args.products if getattr(args, "products", None) else None, global_params, executor, [] ) # Using the buildcache we generated (or loaded) above, # execute the command on products in the correct order. BuildCache.execute_command(executor, args.command, execute_command) # save file manager data FileManager.instance.save() elif args.command in ["distclean"]: FileManager.instance.distclean()
def main():
Core.startup()
Environment.instance = Environment()
FileManager.instance = FileManager()
# load the file and any options it may contain
if len(sys.argv) < 2:
raise Exception("No build file specified.")
if len(sys.argv) > 1 and os.path.exists(sys.argv[1]):
buildfile = BuildFile(sys.argv[1])
else:
raise Exception("Build file: \"%s\" does not exist!" % sys.argv[1])
p = argparse.ArgumentParser(prog="pegasus")
p.add_argument(
"-q",
dest="quiet",
help="Log to a file, don't output to stdout",
action="store_true",
default=False
)
# position arguments
p.add_argument("build_file", help="Target build file")
# setup commands
p_cmd = p.add_subparsers(
dest="command",
title="Commands",
description="Available Commands"
)
p_list = p_cmd.add_parser(
"list",
help="List all products in the build file"
)
p_list.set_defaults(target_platform=None, command_callback=handle_list)
p_generate = p_cmd.add_parser(
"generate",
help="Generate projects for product(s)"
)
p_generate.set_defaults(
command_callback=handle_action,
use_cache=False,
action_name="generate"
)
add_common_options(buildfile, p_generate)
p_build = p_cmd.add_parser("build", help="Build the project")
p_build.set_defaults(
command_callback=handle_action,
use_cache=True,
action_name="build"
)
add_common_options(buildfile, p_build)
p_clean = p_cmd.add_parser("clean", help="Clean the project")
p_clean.set_defaults(
command_callback=handle_action,
use_cache=True,
action_name="clean"
)
add_common_options(buildfile, p_clean)
p_distclean = p_cmd.add_parser(
"distclean",
help="Purge directories of generated files"
)
p_distclean.set_defaults(
command_callback=handle_action,
use_cache=True,
action_name="distclean"
)
add_common_options(buildfile, p_distclean)
args = p.parse_args()
# setup environment
Environment.get().use_cache = \
args.use_cache if hasattr(args, "use_cache") else False
# register classes (HostPlatforms, Drivers)
Core.register_classes(args)
logging.info("HostPlatform is %s" % HostPlatform.get())
logging.info("TargetPlatform is %s" % TargetPlatform.get())
logging.info("Compiler is %s, version: %s" % (
TargetPlatform.get_compiler_name(),
TargetPlatform.compiler.get_version())
)
# run command
args.command_callback(args)
if not Environment.get().use_cache:
BuildCache.save_caches()
def gather_product_data(
cmd_args,
architectures,
configurations,
absolute_buildfile_path,
selected_product_names,
global_params,
executor,
context_list
):
prepend_dependency_values = True
operate_on_dependencies = True
process_configs_enabled = True
rootcd = None
# load the buildfile
buildfile = BuildFile.find_or_create(
build_file_path=absolute_buildfile_path,
architectures=architectures,
configurations=configurations
)
# fetch a list of potential products to operate on
all_products = buildfile.get_products(
args=cmd_args,
host_platform=HostPlatform,
target_platform=TargetPlatform.instance,
global_params=global_params
)
# need to filter products here
products = buildfile.filter_products(
selected_product_names,
all_products
)
for product in products:
# ignore targets unsupported by this driver
if not TargetPlatform.instance.product_supported(
product, Driver.instance, Driver.name
):
continue
BuildCache.add_product(buildfile.abs_buildfile_path, product)
# create the product context
context = ProductContext.find_or_create(buildfile=buildfile, product=product)
# determine if we need to process config files
if process_configs_enabled:
process_config_files(context)
# whitelist the product root so we don't remove it.
FileManager.instance.whitelist(context.abs_root)
# fetch architectures and configurations for this product
architectures, configurations = buildfile.get_layout_params(product)
dependencies = []
prebuild_commands = {}
postbuild_commands = []
dependency_contexts = []
if not Environment.get().use_cache:
BuildCache.add_product(
buildfile.abs_buildfile_path,
product
)
# fetch all direct dependencies for this product
# these are returned as Dependency instances
dependencies = product.get_dependencies(
context,
architectures,
configurations
)
if operate_on_dependencies and dependencies:
for dependency in dependencies:
# create a buildfile instance
dep_buildfile = BuildFile.find_or_create(
build_file_path=dependency.abs_file,
parent=buildfile,
architectures=architectures,
configurations=configurations,
)
# create a temp parser and parse the dependency's args
# if any exist
parser = argparse.ArgumentParser()
dep_buildfile.load_arguments(parser=parser)
dep_args = parser.parse_args(dependency.arguments)
# fetch ALL products for this dependency
all_products = dep_buildfile.get_products(
args=dep_args,
host_platform=HostPlatform,
target_platform=TargetPlatform.instance,
global_params=global_params
)
# filter out only the ones we're interested in using the
# dependency instance as a mask ("products")
filtered_products = dep_buildfile.filter_products(
dependency.products,
all_products
)
for p in filtered_products:
BuildCache.add_product(
dep_buildfile.abs_buildfile_path,
p
)
# NOTE: This is a temporary ProductContext
# So it does NOT go through the normal find_or_create
# mechanism.
dep_context = ProductContext(
buildfile=dep_buildfile,
product=p,
parent=context
)
#
# populate context with layout params
for architecture in architectures:
for configuration in configurations:
layout_params = LayoutParams(
TargetPlatform.instance,
dep_context,
architecture,
configuration
)
layout_params.populate()
dep_context.add_layout(layout_params)
dependency_contexts.append(dep_context)
# for each context, add layout params for
# arch/config permutations
# run command on dependencies
for dep_context in dependency_contexts:
if not Environment.get().use_cache:
BuildCache.add_dependency(
buildfile.abs_buildfile_path,
product.name,
dep_context.buildfile.abs_buildfile_path,
dep_context.product.name
)
if dep_context.product.output == ProductType.None:
continue
# run this command on the dependency (recursively)
if cmd_args.recurse_dependencies:
# for dependencies within the same file, we need to
# ensure correct build orders.
#
# Re-use the base level context_list if this dependency
# is in the same buildfile as the current one.
#
# Due to the recursive nature, dependencies will be
# prepended in the context list to their dependents.
dep_context_list = []
if buildfile.abs_buildfile_path == dep_context.buildfile.abs_buildfile_path:
dep_context_list = context_list
# recursive call...
gather_product_data(
cmd_args,
architectures,
configurations,
dep_context.buildfile.abs_buildfile_path,
[dep_context.product.name],
global_params,
executor,
dep_context_list
)
for architecture in architectures:
if architecture not in prebuild_commands:
prebuild_commands[architecture] = {}
for configuration in configurations:
if configuration not in prebuild_commands[architecture]:
prebuild_commands[architecture][configuration] = []
prebuild_commands[architecture][configuration] += \
Driver.instance.prebuild_commands_for_dependency(
architecture,
configuration,
TargetPlatform.instance,
context,
dep_context
)
# maintain a unique ordered set of ProductContexts.
if context not in context_list:
context_list.append(context)
for architecture in architectures:
for configuration in configurations:
# fetch the layout from the product
params = LayoutParams(
TargetPlatform.instance,
context,
architecture,
configuration
)
# populate params
params.populate(
global_params=global_params,
dependencies=dependency_contexts
)
prebuild_command_list = []
if architecture in prebuild_commands and configuration in prebuild_commands[architecture]:
prebuild_command_list = prebuild_commands[architecture][configuration]
params.prebuild_commands = \
prebuild_command_list + params.prebuild_commands
params.postbuild_commands = \
postbuild_commands + params.postbuild_commands
# process these through the target platform
output_params = \
TargetPlatform.instance.process_params_for_driver(
params,
Driver.instance,
Driver.instance.__class__.__name__.lower()
)
# create the abs_project_root
FileManager.instance.makedirs(output_params.abs_project_root)
# add these params to the context layout
context.add_layout(output_params)
product_data = BuildCache.get_product_data(buildfile.abs_buildfile_path, context.product.name)
if (not product_data.touched) and product._requires_action:
product_data.touched = True
product_data.built = False
BuildCache.queue_product(buildfile.abs_buildfile_path, product)
