BA
/
BaBoRo_test2
Backup 1
mbed-os/tools/export/exporters.py
- Committer:
- borlanic
- Date:
- 2018-04-24
- Revision:
- 0:02dd72d1d465
File content as of revision 0:02dd72d1d465:
"""Just a template for subclassing""" import os from abc import abstractmethod, ABCMeta import logging from os.path import join, dirname, relpath, basename, realpath, normpath, exists from itertools import groupby from jinja2 import FileSystemLoader, StrictUndefined from jinja2.environment import Environment import copy from tools.targets import TARGET_MAP class TargetNotSupportedException(Exception): """Indicates that an IDE does not support a particular MCU""" pass class ExporterTargetsProperty(object): """ Exporter descriptor for TARGETS TARGETS as class attribute for backward compatibility (allows: if in Exporter.TARGETS) """ def __init__(self, func): self.func = func def __get__(self, inst, cls): return self.func(cls) def deprecated_exporter(CLS): old_init = CLS.__init__ old_name = CLS.NAME def __init__(*args, **kwargs): print("==================== DEPRECATION NOTICE ====================") print("The exporter %s is no longer maintained, and deprecated." % old_name) print("%s will be removed from mbed OS for the mbed OS 5.6 release." % old_name) old_init(*args, **kwargs) CLS.__init__ = __init__ CLS.NAME = "%s (DEPRECATED)" % old_name return CLS class Exporter(object): """Exporter base class This class is meant to be extended by individual exporters, and provides a few helper methods for implementing an exporter with either jinja2 or progen. """ __metaclass__ = ABCMeta TEMPLATE_DIR = dirname(__file__) DOT_IN_RELATIVE_PATH = False NAME = None TARGETS = set() TOOLCHAIN = None CLEAN_FILES = ("GettingStarted.html",) def __init__(self, target, export_dir, project_name, toolchain, extra_symbols=None, resources=None): """Initialize an instance of class exporter Positional arguments: target - the target mcu/board for this project export_dir - the directory of the exported project files project_name - the name of the project toolchain - an instance of class toolchain Keyword arguments: extra_symbols - a list of extra macros for the toolchain resources - an instance of class Resources """ self.export_dir = export_dir self.target = target self.project_name = project_name self.toolchain = toolchain jinja_loader = FileSystemLoader(os.path.dirname(os.path.abspath(__file__))) self.jinja_environment = Environment(loader=jinja_loader) self.resources = resources self.generated_files = [] self.static_files = ( join(self.TEMPLATE_DIR, "GettingStarted.html"), join(self.TEMPLATE_DIR, ".mbed"), ) self.builder_files_dict = {} self.add_config() def get_toolchain(self): """A helper getter function that we should probably eliminate""" return self.TOOLCHAIN def add_config(self): """Add the containgin directory of mbed_config.h to include dirs""" config = self.toolchain.get_config_header() if config: self.resources.inc_dirs.append( dirname(relpath(config, self.resources.file_basepath[config]))) @property def flags(self): """Returns a dictionary of toolchain flags. Keys of the dictionary are: cxx_flags - c++ flags c_flags - c flags ld_flags - linker flags asm_flags - assembler flags common_flags - common options """ config_header = self.toolchain.get_config_header() flags = {key + "_flags": copy.deepcopy(value) for key, value in self.toolchain.flags.items()} asm_defines = self.toolchain.get_compile_options( self.toolchain.get_symbols(for_asm=True), filter(None, self.resources.inc_dirs), for_asm=True) c_defines = ["-D" + symbol for symbol in self.toolchain.get_symbols()] flags['asm_flags'] += asm_defines flags['c_flags'] += c_defines flags['cxx_flags'] += c_defines if config_header: config_header = relpath(config_header, self.resources.file_basepath[config_header]) flags['c_flags'] += self.toolchain.get_config_option(config_header) flags['cxx_flags'] += self.toolchain.get_config_option( config_header) return flags def get_source_paths(self): """Returns a list of the directories where source files are contained""" source_keys = ['s_sources', 'c_sources', 'cpp_sources', 'hex_files', 'objects', 'libraries'] source_files = [] for key in source_keys: source_files.extend(getattr(self.resources, key)) return list(set([os.path.dirname(src) for src in source_files])) def gen_file_dest(self, target_file): """Generate the project file location in an exported project""" return join(self.export_dir, target_file) def gen_file(self, template_file, data, target_file, **kwargs): """Generates a project file from a template using jinja""" target_text = self._gen_file_inner(template_file, data, target_file, **kwargs) target_path = self.gen_file_dest(target_file) logging.debug("Generating: %s", target_path) open(target_path, "w").write(target_text) self.generated_files += [target_path] def gen_file_nonoverwrite(self, template_file, data, target_file, **kwargs): """Generates a project file from a template using jinja""" target_text = self._gen_file_inner(template_file, data, target_file, **kwargs) target_path = self.gen_file_dest(target_file) if exists(target_path): with open(target_path) as fdin: old_text = fdin.read() if target_text not in old_text: with open(target_path, "a") as fdout: fdout.write(target_text) else: logging.debug("Generating: %s", target_path) open(target_path, "w").write(target_text) self.generated_files += [target_path] def _gen_file_inner(self, template_file, data, target_file, **kwargs): """Generates a project file from a template using jinja""" jinja_loader = FileSystemLoader( os.path.dirname(os.path.abspath(__file__))) jinja_environment = Environment(loader=jinja_loader, undefined=StrictUndefined, **kwargs) template = jinja_environment.get_template(template_file) target_text = template.render(data) return target_text target_path = join(self.export_dir, target_file) logging.debug("Generating: %s", target_path) open(target_path, "w").write(target_text) self.generated_files += [target_path] def make_key(self, src): """From a source file, extract group name Positional Arguments: src - the src's location """ rel_path = relpath(src, self.resources.file_basepath[src]) path_list = os.path.normpath(rel_path).split(os.sep) assert len(path_list) >= 1 if len(path_list) == 1: key = self.project_name else: key = path_list[0] return key def group_project_files(self, sources): """Group the source files by their encompassing directory Positional Arguments: sources - array of source locations Returns a dictionary of {group name: list of source locations} """ data = sorted(sources, key=self.make_key) return {k: list(g) for k,g in groupby(data, self.make_key)} @staticmethod def build(project_name, log_name='build_log.txt', cleanup=True): """Invoke exporters build command within a subprocess. This method is assumed to be executed at the same level as exporter project files and project source code. See uvision/__init__.py, iar/__init__.py, and makefile/__init__.py for example implemenation. Positional Arguments: project_name - the name of the project to build; often required by exporter's build command. Keyword Args: log_name - name of the build log to create. Written and printed out, deleted if cleanup = True cleanup - a boolean dictating whether exported project files and build log are removed after build Returns -1 on failure and 0 on success """ raise NotImplementedError("Implement in derived Exporter class.") @staticmethod def clean(project_name): """Clean a previously exported project This method is assumed to be executed at the same level as exporter project files and project source code. See uvision/__init__.py, iar/__init__.py, and makefile/__init__.py for example implemenation. Positional Arguments: project_name - the name of the project to build; often required by exporter's build command. Returns nothing. May raise exceptions """ raise NotImplementedError("Implement in derived Exporter class.") @abstractmethod def generate(self): """Generate an IDE/tool specific project file""" raise NotImplementedError("Implement a generate function in Exporter child class") @classmethod def is_target_supported(cls, target_name): """Query support for a particular target NOTE: override this method if your exporter does not provide a static list of targets Positional Arguments: target_name - the name of the target. """ target = TARGET_MAP[target_name] return bool(set(target.resolution_order_names).intersection(set(cls.TARGETS))) \ and cls.TOOLCHAIN in target.supported_toolchains @classmethod def all_supported_targets(cls): return [t for t in TARGET_MAP.keys() if cls.is_target_supported(t)] @staticmethod def filter_dot(str): """ Remove the './' or '.\\' prefix, if present. """ if str == None: return None if str[:2] == './': return str[2:] if str[:2] == '.\\': return str[2:] return str def apply_supported_whitelist(compiler, whitelist, target): """Generate a list of supported targets for a given compiler and post-binary hook white-list.""" if compiler not in target.supported_toolchains: return False if not hasattr(target, "post_binary_hook"): return True if target.post_binary_hook['function'] in whitelist: return True else: return False