From: Roland Dobai Date: Mon, 10 Sep 2018 08:28:14 +0000 (+0200) Subject: Docs: Remove unused kconfiglib.py X-Git-Tag: v3.2-beta1~190^2 X-Git-Url: https://granicus.if.org/sourcecode?a=commitdiff_plain;h=004c6fb7ff643128f0add6b98b0992ec8388b451;p=esp-idf Docs: Remove unused kconfiglib.py --- diff --git a/docs/kconfiglib.py b/docs/kconfiglib.py deleted file mode 100644 index 6e7302de11..0000000000 --- a/docs/kconfiglib.py +++ /dev/null @@ -1,3468 +0,0 @@ -# This is Kconfiglib, a Python library for scripting, debugging, and extracting -# information from Kconfig-based configuration systems. To view the -# documentation, run -# -# $ pydoc kconfiglib -# -# or, if you prefer HTML, -# -# $ pydoc -w kconfiglib -# -# The examples/ subdirectory contains examples, to be run with e.g. -# -# $ make scriptconfig SCRIPT=Kconfiglib/examples/print_tree.py -# -# Look in testsuite.py for the test suite. - -""" -Kconfiglib is a Python library for scripting and extracting information from -Kconfig-based configuration systems. Features include the following: - - - Symbol values and properties can be looked up and values assigned - programmatically. - - .config files can be read and written. - - Expressions can be evaluated in the context of a Kconfig configuration. - - Relations between symbols can be quickly determined, such as finding all - symbols that reference a particular symbol. - - Highly compatible with the scripts/kconfig/*conf utilities. The test suite - automatically compares outputs between Kconfiglib and the C implementation - for a large number of cases. - -For the Linux kernel, scripts are run using - - $ make scriptconfig [ARCH=] SCRIPT= [SCRIPT_ARG=] - -Using the 'scriptconfig' target ensures that required environment variables -(SRCARCH, ARCH, srctree, KERNELVERSION, etc.) are set up correctly. - -Scripts receive the name of the Kconfig file to load in sys.argv[1]. As of -Linux 4.1.0-rc5, this is always "Kconfig" from the kernel top-level directory. -If an argument is provided with SCRIPT_ARG, it appears as sys.argv[2]. - -To get an interactive Python prompt with Kconfiglib preloaded and a Config -object 'c' created, run - - $ make iscriptconfig [ARCH=] - -Kconfiglib supports both Python 2 and Python 3. For (i)scriptconfig, the Python -interpreter to use can be passed in PYTHONCMD, which defaults to 'python'. PyPy -works well too, and might give a nice speedup for long-running jobs. - -The examples/ directory contains short example scripts, which can be run with -e.g. - - $ make scriptconfig SCRIPT=Kconfiglib/examples/print_tree.py - -or - - $ make scriptconfig SCRIPT=Kconfiglib/examples/help_grep.py SCRIPT_ARG=kernel - -testsuite.py contains the test suite. See the top of the script for how to run -it. - -Credits: Written by Ulf "Ulfalizer" Magnusson - -Send bug reports, suggestions and other feedback to ulfalizer a.t Google's -email service. Don't wrestle with internal APIs. Tell me what you need and I -might add it in a safe way as a client API instead.""" -from __future__ import unicode_literals - -from builtins import str -from builtins import hex -from builtins import range -from builtins import object -from io import open -import os -import re -import sys -import platform - -# File layout: -# -# Public classes -# Public functions -# Internal classes -# Internal functions -# Internal global constants - -# Line length: 79 columns - -# -# Public classes -# - -class Config(object): - - """Represents a Kconfig configuration, e.g. for i386 or ARM. This is the - set of symbols and other items appearing in the configuration together with - their values. Creating any number of Config objects -- including for - different architectures -- is safe; Kconfiglib has no global state.""" - - # - # Public interface - # - - def __init__(self, filename="Kconfig", base_dir=None, print_warnings=True, - print_undef_assign=False): - """Creates a new Config object, representing a Kconfig configuration. - Raises Kconfig_Syntax_Error on syntax errors. - - filename (default: "Kconfig"): The base Kconfig file of the - configuration. For the Linux kernel, you'll probably want "Kconfig" - from the top-level directory, as environment variables will make - sure the right Kconfig is included from there - (arch//Kconfig). If you are using Kconfiglib via 'make - scriptconfig', the filename of the base base Kconfig file will be in - sys.argv[1]. - - base_dir (default: None): The base directory relative to which 'source' - statements within Kconfig files will work. For the Linux kernel this - should be the top-level directory of the kernel tree. $-references - to existing environment variables will be expanded. - - If None (the default), the environment variable 'srctree' will be - used if set, and the current directory otherwise. 'srctree' is set - by the Linux makefiles to the top-level kernel directory. A default - of "." would not work with an alternative build directory. - - print_warnings (default: True): Set to True if warnings related to this - configuration should be printed to stderr. This can be changed later - with Config.set_print_warnings(). It is provided as a constructor - argument since warnings might be generated during parsing. - - print_undef_assign (default: False): Set to True if informational - messages related to assignments to undefined symbols should be - printed to stderr for this configuration. Can be changed later with - Config.set_print_undef_assign().""" - - # The set of all symbols, indexed by name (a string) - self.syms = {} - # Python 2/3 compatibility hack. This is the only one needed. - self.syms_iter = self.syms.values if sys.version_info[0] >= 3 else \ - self.syms.itervalues - - # The set of all defined symbols in the configuration in the order they - # appear in the Kconfig files. This excludes the special symbols n, m, - # and y as well as symbols that are referenced but never defined. - self.kconfig_syms = [] - - # The set of all named choices (yes, choices can have names), indexed - # by name (a string) - self.named_choices = {} - - # Lists containing all choices, menus and comments in the configuration - self.choices = [] - self.menus = [] - self.comments = [] - - def register_special_symbol(type_, name, val): - sym = Symbol() - sym.is_special_ = True - sym.is_defined_ = True - sym.config = self - sym.name = name - sym.type = type_ - sym.cached_val = val - self.syms[name] = sym - return sym - - # The special symbols n, m and y, used as shorthand for "n", "m" and - # "y" - self.n = register_special_symbol(TRISTATE, "n", "n") - self.m = register_special_symbol(TRISTATE, "m", "m") - self.y = register_special_symbol(TRISTATE, "y", "y") - # DEFCONFIG_LIST uses this - # changed os.uname to platform.uname for compatibility with Windows - register_special_symbol(STRING, "UNAME_RELEASE", platform.uname()[2]) - - # The symbol with "option defconfig_list" set, containing a list of - # default .config files - self.defconfig_sym = None - - # See Symbol.get_(src)arch() - self.arch = os.environ.get("ARCH") - self.srcarch = os.environ.get("SRCARCH") - - # If you set CONFIG_ in the environment, Kconfig will prefix all symbols - # with its value when saving the configuration, instead of using the default, "CONFIG_". - self.config_prefix = os.environ.get("CONFIG_") - if self.config_prefix is None: - self.config_prefix = "CONFIG_" - - # See Config.__init__(). We need this for get_defconfig_filename(). - self.srctree = os.environ.get("srctree") - if self.srctree is None: - self.srctree = "." - - self.filename = filename - self.base_dir = self.srctree if base_dir is None else \ - os.path.expandvars(base_dir) - - # The 'mainmenu' text - self.mainmenu_text = None - - # The filename of the most recently loaded .config file - self.config_filename = None - # The textual header of the most recently loaded .config, uncommented - self.config_header = None - - self.print_warnings = print_warnings - self.print_undef_assign = print_undef_assign - - # For parsing routines that stop when finding a line belonging to a - # different construct, these holds that line and the tokenized version - # of that line. The purpose is to avoid having to re-tokenize the line, - # which is inefficient and causes problems when recording references to - # symbols. - self.end_line = None - self.end_line_tokens = None - - # See the comment in _parse_expr(). - self._cur_item = None - self._line = None - self._filename = None - self._linenr = None - self._transform_m = None - - # Parse the Kconfig files - self.top_block = self._parse_file(filename, None, None, None) - - # Build Symbol.dep for all symbols - self._build_dep() - - def get_arch(self): - """Returns the value the environment variable ARCH had at the time the - Config instance was created, or None if ARCH was not set. For the - kernel, this corresponds to the architecture being built for, with - values such as "i386" or "mips".""" - return self.arch - - def get_srcarch(self): - """Returns the value the environment variable SRCARCH had at the time - the Config instance was created, or None if SRCARCH was not set. For - the kernel, this corresponds to the particular arch/ subdirectory - containing architecture-specific code.""" - return self.srcarch - - def get_srctree(self): - """Returns the value the environment variable srctree had at the time - the Config instance was created, or None if srctree was not defined. - This variable points to the source directory and is used when building - in a separate directory.""" - return self.srctree - - def get_base_dir(self): - """Returns the base directory relative to which 'source' statements - will work, passed as an argument to Config.__init__().""" - return self.base_dir - - def get_kconfig_filename(self): - """Returns the name of the (base) kconfig file this configuration was - loaded from.""" - return self.filename - - def get_config_filename(self): - """Returns the filename of the most recently loaded configuration file, - or None if no configuration has been loaded.""" - return self.config_filename - - def get_config_header(self): - """Returns the (uncommented) textual header of the .config file most - recently loaded with load_config(). Returns None if no .config file has - been loaded or if the most recently loaded .config file has no header. - The header consists of all lines up to but not including the first line - that either - - 1. Does not start with "#" - 2. Has the form "# CONFIG_FOO is not set." - """ - return self.config_header - - def get_mainmenu_text(self): - """Returns the text of the 'mainmenu' statement (with $-references to - symbols replaced by symbol values), or None if the configuration has no - 'mainmenu' statement.""" - return None if self.mainmenu_text is None else \ - self._expand_sym_refs(self.mainmenu_text) - - def get_defconfig_filename(self): - """Returns the name of the defconfig file, which is the first existing - file in the list given in a symbol having 'option defconfig_list' set. - $-references to symbols will be expanded ("$FOO bar" -> "foo bar" if - FOO has the value "foo"). Returns None in case of no defconfig file. - Setting 'option defconfig_list' on multiple symbols currently results - in undefined behavior. - - If the environment variable 'srctree' was set when the Config was - created, get_defconfig_filename() will first look relative to that - directory before looking in the current directory; see - Config.__init__(). - - WARNING: A wart here is that scripts/kconfig/Makefile sometimes uses - the --defconfig= option when calling the C implementation of - e.g. 'make defconfig'. This option overrides the 'option - defconfig_list' symbol, meaning the result from - get_defconfig_filename() might not match what 'make defconfig' would - use. That probably ought to be worked around somehow, so that this - function always gives the "expected" result.""" - if self.defconfig_sym is None: - return None - for filename, cond_expr in self.defconfig_sym.def_exprs: - if self._eval_expr(cond_expr) == "y": - filename = self._expand_sym_refs(filename) - # We first look in $srctree. os.path.join() won't work here as - # an absolute path in filename would override $srctree. - srctree_filename = os.path.normpath(self.srctree + "/" + - filename) - if os.path.exists(srctree_filename): - return srctree_filename - if os.path.exists(filename): - return filename - return None - - def get_symbol(self, name): - """Returns the symbol with name 'name', or None if no such symbol - appears in the configuration. An alternative shorthand is conf[name], - where conf is a Config instance, though that will instead raise - KeyError if the symbol does not exist.""" - return self.syms.get(name) - - def __getitem__(self, name): - """Returns the symbol with name 'name'. Raises KeyError if the symbol - does not appear in the configuration.""" - return self.syms[name] - - def get_symbols(self, all_symbols=True): - """Returns a list of symbols from the configuration. An alternative for - iterating over all defined symbols (in the order of definition) is - - for sym in config: - ... - - which relies on Config implementing __iter__() and is equivalent to - - for sym in config.get_symbols(False): - ... - - all_symbols (default: True): If True, all symbols -- including special - and undefined symbols -- will be included in the result, in an - undefined order. If False, only symbols actually defined and not - merely referred to in the configuration will be included in the - result, and will appear in the order that they are defined within - the Kconfig configuration files.""" - return list(self.syms.values()) if all_symbols else self.kconfig_syms - - def __iter__(self): - """Convenience function for iterating over the set of all defined - symbols in the configuration, used like - - for sym in conf: - ... - - The iteration happens in the order of definition within the Kconfig - configuration files. Symbols only referred to but not defined will not - be included, nor will the special symbols n, m, and y. If you want to - include such symbols as well, see config.get_symbols().""" - return iter(self.kconfig_syms) - - def get_choices(self): - """Returns a list containing all choice statements in the - configuration, in the order they appear in the Kconfig files.""" - return self.choices - - def get_menus(self): - """Returns a list containing all menus in the configuration, in the - order they appear in the Kconfig files.""" - return self.menus - - def get_comments(self): - """Returns a list containing all comments in the configuration, in the - order they appear in the Kconfig files.""" - return self.comments - - def get_top_level_items(self): - """Returns a list containing the items (symbols, menus, choices, and - comments) at the top level of the configuration -- that is, all items - that do not appear within a menu or choice. The items appear in the - same order as within the configuration.""" - return self.top_block - - def load_config(self, filename, replace=True): - """Loads symbol values from a file in the familiar .config format. - Equivalent to calling Symbol.set_user_value() to set each of the - values. - - "# CONFIG_FOO is not set" within a .config file is treated specially - and sets the user value of FOO to 'n'. The C implementation works the - same way. - - filename: The .config file to load. $-references to existing - environment variables will be expanded. For scripts to work even when - an alternative build directory is used with the Linux kernel, you - need to refer to the top-level kernel directory with "$srctree". - - replace (default: True): True if the configuration should replace the - old configuration; False if it should add to it.""" - - # Regular expressions for parsing .config files - _set_re_match = re.compile(r"{}(\w+)=(.*)".format(self.config_prefix)).match - _unset_re_match = re.compile(r"# {}(\w+) is not set".format(self.config_prefix)).match - - # Put this first so that a missing file doesn't screw up our state - filename = os.path.expandvars(filename) - line_feeder = _FileFeed(filename) - - self.config_filename = filename - - # - # Read header - # - - def is_header_line(line): - return line is not None and line.startswith("#") and \ - not _unset_re_match(line) - - self.config_header = None - - line = line_feeder.peek_next() - if is_header_line(line): - self.config_header = "" - while is_header_line(line_feeder.peek_next()): - self.config_header += line_feeder.get_next()[1:] - # Remove trailing newline - if self.config_header.endswith("\n"): - self.config_header = self.config_header[:-1] - - # - # Read assignments. Hotspot for some workloads. - # - - def warn_override(filename, linenr, name, old_user_val, new_user_val): - self._warn('overriding the value of {0}. ' - 'Old value: "{1}", new value: "{2}".' - .format(name, old_user_val, new_user_val), - filename, linenr) - - # Invalidate everything to keep things simple. It might be possible to - # improve performance for the case where multiple configurations are - # loaded by only invalidating a symbol (and its dependent symbols) if - # the new user value differs from the old. One complication would be - # that symbols not mentioned in the .config must lose their user value - # when replace = True, which is the usual case. - if replace: - self.unset_user_values() - else: - self._invalidate_all() - - while 1: - line = line_feeder.get_next() - if line is None: - return - - line = line.rstrip() - - set_match = _set_re_match(line) - if set_match: - name, val = set_match.groups() - - if val.startswith('"'): - if len(val) < 2 or val[-1] != '"': - _parse_error(line, "malformed string literal", - line_feeder.filename, line_feeder.linenr) - # Strip quotes and remove escapings. The unescaping - # procedure should be safe since " can only appear as \" - # inside the string. - val = val[1:-1].replace('\\"', '"').replace("\\\\", "\\") - - if name in self.syms: - sym = self.syms[name] - if sym.user_val is not None: - warn_override(line_feeder.filename, line_feeder.linenr, - name, sym.user_val, val) - - if sym.is_choice_sym: - user_mode = sym.parent.user_mode - if user_mode is not None and user_mode != val: - self._warn("assignment to {0} changes mode of " - 'containing choice from "{1}" to "{2}".' - .format(name, val, user_mode), - line_feeder.filename, - line_feeder.linenr) - - sym._set_user_value_no_invalidate(val, True) - else: - if self.print_undef_assign: - _stderr_msg('note: attempt to assign the value "{0}" ' - "to the undefined symbol {1}." - .format(val, name), - line_feeder.filename, line_feeder.linenr) - else: - unset_match = _unset_re_match(line) - if unset_match: - name = unset_match.group(1) - if name in self.syms: - sym = self.syms[name] - if sym.user_val is not None: - warn_override(line_feeder.filename, - line_feeder.linenr, - name, sym.user_val, "n") - - sym._set_user_value_no_invalidate("n", True) - - def write_config(self, filename, header=None): - """Writes out symbol values in the familiar .config format. - - Kconfiglib makes sure the format matches what the C implementation - would generate, down to whitespace. This eases testing. - - filename: The filename under which to save the configuration. - - header (default: None): A textual header that will appear at the - beginning of the file, with each line commented out automatically. - None means no header.""" - - for sym in self.syms_iter(): - sym.already_written = False - - with open(filename, "w", encoding='utf-8') as f: - # Write header - if header is not None: - f.write(_comment(header)) - f.write("\n") - - # Build and write configuration - conf_strings = [] - _make_block_conf(self.top_block, conf_strings.append) - f.write("\n".join(conf_strings)) - f.write("\n") - - def eval(self, s): - """Returns the value of the expression 's' -- where 's' is represented - as a string -- in the context of the configuration. Raises - Kconfig_Syntax_Error if syntax errors are detected in 's'. - - For example, if FOO and BAR are tristate symbols at least one of which - has the value "y", then config.eval("y && (FOO || BAR)") => "y" - - This function always yields a tristate value. To get the value of - non-bool, non-tristate symbols, use Symbol.get_value(). - - The result of this function is consistent with how evaluation works for - conditional expressions in the configuration as well as in the C - implementation. "m" and m are rewritten as '"m" && MODULES' and 'm && - MODULES', respectively, and a result of "m" will get promoted to "y" if - we're running without modules. - - Syntax checking is somewhat lax, partly to be compatible with lax - parsing in the C implementation.""" - return self._eval_expr(self._parse_expr(self._tokenize(s, True), # Feed - None, # Current symbol/choice - s)) # line - - def unset_user_values(self): - """Resets the values of all symbols, as if Config.load_config() or - Symbol.set_user_value() had never been called.""" - for sym in self.syms_iter(): - sym._unset_user_value_no_recursive_invalidate() - - def set_print_warnings(self, print_warnings): - """Determines whether warnings related to this configuration (for - things like attempting to assign illegal values to symbols with - Symbol.set_user_value()) should be printed to stderr. - - print_warnings: True if warnings should be printed.""" - self.print_warnings = print_warnings - - def set_print_undef_assign(self, print_undef_assign): - """Determines whether informational messages related to assignments to - undefined symbols should be printed to stderr for this configuration. - - print_undef_assign: If True, such messages will be printed.""" - self.print_undef_assign = print_undef_assign - - def __str__(self): - """Returns a string containing various information about the Config.""" - return _lines("Configuration", - "File : " + - self.filename, - "Base directory : " + - self.base_dir, - "Value of $ARCH at creation time : " + - ("(not set)" if self.arch is None else self.arch), - "Value of $SRCARCH at creation time : " + - ("(not set)" if self.srcarch is None else - self.srcarch), - "Source tree (derived from $srctree;", - "defaults to '.' if $srctree isn't set) : " + - self.srctree, - "Most recently loaded .config : " + - ("(no .config loaded)" - if self.config_filename is None else - self.config_filename), - "Print warnings : " + - BOOL_STR[self.print_warnings], - "Print assignments to undefined symbols : " + - BOOL_STR[self.print_undef_assign]) - - # - # Private methods - # - - # - # Kconfig parsing - # - - def _parse_file(self, filename, parent, deps, visible_if_deps, res=None): - """Parses the Kconfig file 'filename'. Returns a list with the Items in - the file. See _parse_block() for the meaning of the parameters.""" - return self._parse_block(_FileFeed(filename), None, parent, deps, - visible_if_deps, res) - - def _parse_block(self, line_feeder, end_marker, parent, deps, - visible_if_deps, res=None): - """Parses a block, which is the contents of either a file or an if, - menu, or choice statement. Returns a list with the Items in the block. - - line_feeder: A _FileFeed instance feeding lines from a file. The - Kconfig language is line-based in practice. - - end_marker: The token that ends the block, e.g. T_ENDIF ("endif") for - ifs. None for files. - - parent: The enclosing menu or choice, or None if we're at the top - level. - - deps: Dependencies from enclosing menus, choices and ifs. - - visible_if_deps (default: None): 'visible if' dependencies from - enclosing menus. - - res (default: None): The list to add items to. If None, a new list is - created to hold the items.""" - - block = [] if res is None else res - - while 1: - # Do we already have a tokenized line that we determined wasn't - # part of whatever we were parsing earlier? See comment in - # Config.__init__(). - if self.end_line is not None: - line = self.end_line - tokens = self.end_line_tokens - tokens.unget_all() - - self.end_line = None - self.end_line_tokens = None - else: - line = line_feeder.get_next() - if line is None: - if end_marker is not None: - raise Kconfig_Syntax_Error("Unexpected end of file {0}" - .format(line_feeder.filename)) - return block - - tokens = self._tokenize(line, False, line_feeder.filename, - line_feeder.linenr) - - t0 = tokens.get_next() - if t0 is None: - continue - - # Cases are ordered roughly by frequency, which speeds things up a - # bit - - if t0 == T_CONFIG or t0 == T_MENUCONFIG: - # The tokenizer will automatically allocate a new Symbol object - # for any new names it encounters, so we don't need to worry - # about that here. - sym = tokens.get_next() - - # Symbols defined in multiple places get the parent of their - # first definition. However, for symbols whose parents are - # choice statements, the choice statement takes precedence. - if not sym.is_defined_ or isinstance(parent, Choice): - sym.parent = parent - - sym.is_defined_ = True - - self.kconfig_syms.append(sym) - block.append(sym) - - self._parse_properties(line_feeder, sym, deps, visible_if_deps) - - elif t0 == T_SOURCE: - kconfig_file = tokens.get_next() - exp_kconfig_file = self._expand_sym_refs(kconfig_file) - f = os.path.join(self.base_dir, exp_kconfig_file) - if not os.path.exists(f): - raise IOError('{0}:{1}: sourced file "{2}" (expands to ' - '"{3}") not found. Perhaps base_dir ' - '(argument to Config.__init__(), currently ' - '"{4}") is set to the wrong value.' - .format(line_feeder.filename, - line_feeder.linenr, - kconfig_file, exp_kconfig_file, - self.base_dir)) - # Add items to the same block - self._parse_file(f, parent, deps, visible_if_deps, block) - - elif t0 == end_marker: - # We have reached the end of the block - return block - - elif t0 == T_IF: - # If statements are treated as syntactic sugar for adding - # dependencies to enclosed items and do not have an explicit - # object representation. - - dep_expr = self._parse_expr(tokens, None, line, - line_feeder.filename, - line_feeder.linenr) - # Add items to the same block - self._parse_block(line_feeder, T_ENDIF, parent, - _make_and(dep_expr, deps), - visible_if_deps, block) - - elif t0 == T_COMMENT: - comment = Comment() - - comment.config = self - comment.parent = parent - comment.filename = line_feeder.filename - comment.linenr = line_feeder.linenr - comment.text = tokens.get_next() - - self.comments.append(comment) - block.append(comment) - - self._parse_properties(line_feeder, comment, deps, - visible_if_deps) - - elif t0 == T_MENU: - menu = Menu() - - menu.config = self - menu.parent = parent - menu.filename = line_feeder.filename - menu.linenr = line_feeder.linenr - menu.title = tokens.get_next() - - self.menus.append(menu) - block.append(menu) - - # Parse properties and contents - self._parse_properties(line_feeder, menu, deps, - visible_if_deps) - menu.block = self._parse_block(line_feeder, T_ENDMENU, menu, - menu.dep_expr, - _make_and(visible_if_deps, - menu.visible_if_expr)) - - elif t0 == T_CHOICE: - name = tokens.get_next() - if name is None: - choice = Choice() - self.choices.append(choice) - else: - # Named choice - choice = self.named_choices.get(name) - if choice is None: - choice = Choice() - choice.name = name - self.named_choices[name] = choice - self.choices.append(choice) - - choice.config = self - choice.parent = parent - - choice.def_locations.append((line_feeder.filename, - line_feeder.linenr)) - - # Parse properties and contents - self._parse_properties(line_feeder, choice, deps, - visible_if_deps) - choice.block = self._parse_block(line_feeder, T_ENDCHOICE, - choice, deps, visible_if_deps) - - choice._determine_actual_symbols() - - # If no type is specified for the choice, its type is that of - # the first choice item with a specified type - if choice.type == UNKNOWN: - for item in choice.actual_symbols: - if item.type != UNKNOWN: - choice.type = item.type - break - - # Each choice item of UNKNOWN type gets the type of the choice - for item in choice.actual_symbols: - if item.type == UNKNOWN: - item.type = choice.type - - block.append(choice) - - elif t0 == T_MAINMENU: - text = tokens.get_next() - if self.mainmenu_text is not None: - self._warn("overriding 'mainmenu' text. " - 'Old value: "{0}", new value: "{1}".' - .format(self.mainmenu_text, text), - line_feeder.filename, line_feeder.linenr) - self.mainmenu_text = text - - else: - _parse_error(line, "unrecognized construct", - line_feeder.filename, line_feeder.linenr) - - def _parse_properties(self, line_feeder, stmt, deps, visible_if_deps): - """Parsing of properties for symbols, menus, choices, and comments. - Takes care of propagating dependencies from enclosing menus and ifs.""" - - def parse_val_and_cond(tokens, line, filename, linenr): - """Parses ' if ' constructs, where the 'if' part is - optional. Returns a tuple containing the parsed expressions, with - None as the second element if the 'if' part is missing.""" - return (self._parse_expr(tokens, stmt, line, filename, linenr, - False), - self._parse_expr(tokens, stmt, line, filename, linenr) - if tokens.check(T_IF) else None) - - # In case the symbol is defined in multiple locations, we need to - # remember what prompts, defaults, and selects are new for this - # definition, as "depends on" should only apply to the local - # definition. - new_prompt = None - new_def_exprs = [] - new_selects = [] - - # Dependencies from 'depends on' statements - depends_on_expr = None - - while 1: - line = line_feeder.get_next() - if line is None: - break - - filename = line_feeder.filename - linenr = line_feeder.linenr - - tokens = self._tokenize(line, False, filename, linenr) - - t0 = tokens.get_next() - if t0 is None: - continue - - # Cases are ordered roughly by frequency, which speeds things up a - # bit - - if t0 == T_DEPENDS: - if not tokens.check(T_ON): - _parse_error(line, 'expected "on" after "depends"', - filename, linenr) - - parsed_deps = self._parse_expr(tokens, stmt, line, filename, - linenr) - - if isinstance(stmt, (Menu, Comment)): - stmt.orig_deps = _make_and(stmt.orig_deps, parsed_deps) - else: - depends_on_expr = _make_and(depends_on_expr, parsed_deps) - - elif t0 == T_HELP: - # Find first non-blank (not all-space) line and get its - # indentation - line = line_feeder.next_nonblank() - if line is None: - stmt.help = "" - break - indent = _indentation(line) - if indent == 0: - # If the first non-empty lines has zero indent, there is no - # help text - stmt.help = "" - line_feeder.unget() - break - - # The help text goes on till the first non-empty line with less - # indent - help_lines = [_deindent(line, indent)] - while 1: - line = line_feeder.get_next() - if line is None or \ - (not line.isspace() and _indentation(line) < indent): - stmt.help = "".join(help_lines) - break - help_lines.append(_deindent(line, indent)) - - if line is None: - break - - line_feeder.unget() - - elif t0 == T_SELECT: - target = tokens.get_next() - - stmt.referenced_syms.add(target) - stmt.selected_syms.add(target) - - new_selects.append( - (target, - self._parse_expr(tokens, stmt, line, filename, linenr) - if tokens.check(T_IF) else None)) - - elif t0 in (T_BOOL, T_TRISTATE, T_INT, T_HEX, T_STRING): - stmt.type = TOKEN_TO_TYPE[t0] - if tokens.peek_next() is not None: - new_prompt = parse_val_and_cond(tokens, line, filename, - linenr) - - elif t0 == T_DEFAULT: - new_def_exprs.append(parse_val_and_cond(tokens, line, filename, - linenr)) - - elif t0 == T_DEF_BOOL: - stmt.type = BOOL - if tokens.peek_next() is not None: - new_def_exprs.append(parse_val_and_cond(tokens, line, - filename, linenr)) - - elif t0 == T_PROMPT: - # 'prompt' properties override each other within a single - # definition of a symbol, but additional prompts can be added - # by defining the symbol multiple times; hence 'new_prompt' - # instead of 'prompt'. - new_prompt = parse_val_and_cond(tokens, line, filename, linenr) - - elif t0 == T_RANGE: - low = tokens.get_next() - high = tokens.get_next() - stmt.referenced_syms.add(low) - stmt.referenced_syms.add(high) - - stmt.ranges.append( - (low, high, - self._parse_expr(tokens, stmt, line, filename, linenr) - if tokens.check(T_IF) else None)) - - elif t0 == T_DEF_TRISTATE: - stmt.type = TRISTATE - if tokens.peek_next() is not None: - new_def_exprs.append(parse_val_and_cond(tokens, line, - filename, linenr)) - - elif t0 == T_OPTION: - if tokens.check(T_ENV) and tokens.check(T_EQUAL): - env_var = tokens.get_next() - - stmt.is_special_ = True - stmt.is_from_env = True - - if env_var not in os.environ: - self._warn("The symbol {0} references the " - "non-existent environment variable {1} and " - "will get the empty string as its value. " - "If you're using Kconfiglib via " - "'make (i)scriptconfig', it should have " - "set up the environment correctly for you. " - "If you still got this message, that " - "might be an error, and you should email " - "ulfalizer a.t Google's email service.""" - .format(stmt.name, env_var), - filename, linenr) - - stmt.cached_val = "" - else: - stmt.cached_val = os.environ[env_var] - - elif tokens.check(T_DEFCONFIG_LIST): - self.defconfig_sym = stmt - - elif tokens.check(T_MODULES): - # To reduce warning spam, only warn if 'option modules' is - # set on some symbol that isn't MODULES, which should be - # safe. I haven't run into any projects that make use - # modules besides the kernel yet, and there it's likely to - # keep being called "MODULES". - if stmt.name != "MODULES": - self._warn("the 'modules' option is not supported. " - "Let me know if this is a problem for you; " - "it shouldn't be that hard to implement. " - "(Note that modules are still supported -- " - "Kconfiglib just assumes the symbol name " - "MODULES, like older versions of the C " - "implementation did when 'option modules' " - "wasn't used.)", - filename, linenr) - - elif tokens.check(T_ALLNOCONFIG_Y): - if not isinstance(stmt, Symbol): - _parse_error(line, - "the 'allnoconfig_y' option is only " - "valid for symbols", - filename, linenr) - stmt.allnoconfig_y = True - - else: - _parse_error(line, "unrecognized option", filename, linenr) - - elif t0 == T_VISIBLE: - if not tokens.check(T_IF): - _parse_error(line, 'expected "if" after "visible"', - filename, linenr) - if not isinstance(stmt, Menu): - _parse_error(line, - "'visible if' is only valid for menus", - filename, linenr) - - parsed_deps = self._parse_expr(tokens, stmt, line, filename, - linenr) - stmt.visible_if_expr = _make_and(stmt.visible_if_expr, - parsed_deps) - - elif t0 == T_OPTIONAL: - if not isinstance(stmt, Choice): - _parse_error(line, - '"optional" is only valid for choices', - filename, - linenr) - stmt.optional = True - - else: - # See comment in Config.__init__() - self.end_line = line - self.end_line_tokens = tokens - break - - # Done parsing properties. Now propagate 'depends on' and enclosing - # menu/if dependencies to expressions. - - # The set of symbols referenced directly by the statement plus all - # symbols referenced by enclosing menus and ifs - stmt.all_referenced_syms = stmt.referenced_syms | _get_expr_syms(deps) - - # Save original dependencies from enclosing menus and ifs - stmt.deps_from_containing = deps - - if isinstance(stmt, (Menu, Comment)): - stmt.dep_expr = _make_and(stmt.orig_deps, deps) - else: - # Symbol or Choice - - # See comment for 'menu_dep' - stmt.menu_dep = depends_on_expr - - # Propagate dependencies to prompts - - if new_prompt is not None: - # Propagate 'visible if' dependencies from enclosing menus - prompt, cond_expr = new_prompt - cond_expr = _make_and(cond_expr, visible_if_deps) - # Propagate 'depends on' dependencies - new_prompt = (prompt, _make_and(cond_expr, depends_on_expr)) - # Save original - stmt.orig_prompts.append(new_prompt) - # Finalize with dependencies from enclosing menus and ifs - stmt.prompts.append((new_prompt[0], - _make_and(new_prompt[1], deps))) - - # Propagate dependencies to defaults - - # Propagate 'depends on' dependencies - new_def_exprs = [(val_expr, _make_and(cond_expr, depends_on_expr)) - for val_expr, cond_expr in new_def_exprs] - # Save original - stmt.orig_def_exprs.extend(new_def_exprs) - # Finalize with dependencies from enclosing menus and ifs - stmt.def_exprs.extend([(val_expr, _make_and(cond_expr, deps)) - for val_expr, cond_expr in new_def_exprs]) - - # Propagate dependencies to selects - - # Only symbols can select - if isinstance(stmt, Symbol): - # Propagate 'depends on' dependencies - new_selects = [(target, _make_and(cond_expr, depends_on_expr)) - for target, cond_expr in new_selects] - # Save original - stmt.orig_selects.extend(new_selects) - # Finalize with dependencies from enclosing menus and ifs - for target, cond in new_selects: - target.rev_dep = _make_or(target.rev_dep, - _make_and(stmt, - _make_and(cond, deps))) - - def _parse_expr(self, feed, cur_item, line, filename=None, linenr=None, - transform_m=True): - """Parses an expression from the tokens in 'feed' using a simple - top-down approach. The result has the form - '(, [])', where is e.g. - kconfiglib.AND. If there is only one operand (i.e., no && or ||), then - the operand is returned directly. This also goes for subexpressions. - - feed: _Feed instance containing the tokens for the expression. - - cur_item: The item (Symbol, Choice, Menu, or Comment) currently being - parsed, or None if we're not parsing an item. Used for recording - references to symbols. - - line: The line containing the expression being parsed. - - filename (default: None): The file containing the expression. - - linenr (default: None): The line number containing the expression. - - transform_m (default: False): Determines if 'm' should be rewritten to - 'm && MODULES' -- see parse_val_and_cond(). - - Expression grammar, in decreasing order of precedence: - - -> - '=' - '!=' - '(' ')' - '!' - '&&' - '||' """ - - # Use instance variables to avoid having to pass these as arguments - # through the top-down parser in _parse_expr_rec(), which is tedious - # and obfuscates the code. A profiler run shows no noticeable - # performance difference. - self._cur_item = cur_item - self._transform_m = transform_m - self._line = line - self._filename = filename - self._linenr = linenr - - return self._parse_expr_rec(feed) - - def _parse_expr_rec(self, feed): - or_term = self._parse_or_term(feed) - if not feed.check(T_OR): - # Common case -- no need for an OR node since it's just a single - # operand - return or_term - or_terms = [or_term, self._parse_or_term(feed)] - while feed.check(T_OR): - or_terms.append(self._parse_or_term(feed)) - return (OR, or_terms) - - def _parse_or_term(self, feed): - and_term = self._parse_factor(feed) - if not feed.check(T_AND): - # Common case -- no need for an AND node since it's just a single - # operand - return and_term - and_terms = [and_term, self._parse_factor(feed)] - while feed.check(T_AND): - and_terms.append(self._parse_factor(feed)) - return (AND, and_terms) - - def _parse_factor(self, feed): - token = feed.get_next() - - if isinstance(token, (Symbol, str)): - if self._cur_item is not None and isinstance(token, Symbol): - self._cur_item.referenced_syms.add(token) - - next_token = feed.peek_next() - # For conditional expressions ('depends on ', - # '... if ', # etc.), "m" and m are rewritten to - # "m" && MODULES. - if next_token != T_EQUAL and next_token != T_UNEQUAL: - if self._transform_m and (token is self.m or token == "m"): - return (AND, ["m", self._sym_lookup("MODULES")]) - return token - - relation = EQUAL if (feed.get_next() == T_EQUAL) else UNEQUAL - token_2 = feed.get_next() - if self._cur_item is not None and isinstance(token_2, Symbol): - self._cur_item.referenced_syms.add(token_2) - return (relation, token, token_2) - - if token == T_NOT: - return (NOT, self._parse_factor(feed)) - - if token == T_OPEN_PAREN: - expr_parse = self._parse_expr_rec(feed) - if not feed.check(T_CLOSE_PAREN): - _parse_error(self._line, "missing end parenthesis", - self._filename, self._linenr) - return expr_parse - - _parse_error(self._line, "malformed expression", self._filename, - self._linenr) - - def _tokenize(self, s, for_eval, filename=None, linenr=None): - """Returns a _Feed instance containing tokens derived from the string - 's'. Registers any new symbols encountered (via _sym_lookup()). - - (I experimented with a pure regular expression implementation, but it - came out slower, less readable, and wouldn't have been as flexible.) - - for_eval: True when parsing an expression for a call to Config.eval(), - in which case we should not treat the first token specially nor - register new symbols.""" - - s = s.strip() - if s == "" or s[0] == "#": - return _Feed([]) - - if for_eval: - previous = None # The previous token seen - tokens = [] - i = 0 # The current index in the string being tokenized - - else: - # The initial word on a line is parsed specially. Let - # command_chars = [A-Za-z0-9_]. Then - # - leading non-command_chars characters are ignored, and - # - the first token consists the following one or more - # command_chars characters. - # This is why things like "----help--" are accepted. - initial_token_match = _initial_token_re_match(s) - if initial_token_match is None: - return _Feed([]) - keyword = _get_keyword(initial_token_match.group(1)) - if keyword == T_HELP: - # Avoid junk after "help", e.g. "---", being registered as a - # symbol - return _Feed([T_HELP]) - if keyword is None: - # We expect a keyword as the first token - _tokenization_error(s, filename, linenr) - - previous = keyword - tokens = [keyword] - # The current index in the string being tokenized - i = initial_token_match.end() - - # _tokenize() is a hotspot during parsing, and this speeds things up a - # bit - strlen = len(s) - append = tokens.append - - # Main tokenization loop. (Handles tokens past the first one.) - while i < strlen: - # Test for an identifier/keyword preceded by whitespace first; this - # is the most common case. - id_keyword_match = _id_keyword_re_match(s, i) - if id_keyword_match: - # We have an identifier or keyword. The above also stripped any - # whitespace for us. - name = id_keyword_match.group(1) - # Jump past it - i = id_keyword_match.end() - - keyword = _get_keyword(name) - if keyword is not None: - # It's a keyword - append(keyword) - elif previous in STRING_LEX: - # What would ordinarily be considered an identifier is - # treated as a string after certain tokens - append(name) - else: - # It's a symbol name. _sym_lookup() will take care of - # allocating a new Symbol instance if it's the first time - # we see it. - sym = self._sym_lookup(name, for_eval) - - if previous == T_CONFIG or previous == T_MENUCONFIG: - # If the previous token is T_(MENU)CONFIG - # ("(menu)config"), we're tokenizing the first line of - # a symbol definition, and should remember this as a - # location where the symbol is defined - sym.def_locations.append((filename, linenr)) - else: - # Otherwise, it's a reference to the symbol - sym.ref_locations.append((filename, linenr)) - - append(sym) - - else: - # Not an identifier/keyword - - while i < strlen and s[i].isspace(): - i += 1 - if i == strlen: - break - c = s[i] - i += 1 - - # String literal (constant symbol) - if c == '"' or c == "'": - if "\\" in s: - # Slow path: This could probably be sped up, but it's a - # very unusual case anyway. - quote = c - val = "" - while 1: - if i >= len(s): - _tokenization_error(s, filename, linenr) - c = s[i] - if c == quote: - break - if c == "\\": - if i + 1 >= len(s): - _tokenization_error(s, filename, linenr) - val += s[i + 1] - i += 2 - else: - val += c - i += 1 - i += 1 - append(val) - else: - # Fast path: If the string contains no backslashes - # (almost always) we can simply look for the matching - # quote. - end = s.find(c, i) - if end == -1: - _tokenization_error(s, filename, linenr) - append(s[i:end]) - i = end + 1 - - elif c == "&": - # Invalid characters are ignored - if i >= len(s) or s[i] != "&": continue - append(T_AND) - i += 1 - - elif c == "|": - # Invalid characters are ignored - if i >= len(s) or s[i] != "|": continue - append(T_OR) - i += 1 - - elif c == "!": - if i < len(s) and s[i] == "=": - append(T_UNEQUAL) - i += 1 - else: - append(T_NOT) - - elif c == "=": append(T_EQUAL) - elif c == "(": append(T_OPEN_PAREN) - elif c == ")": append(T_CLOSE_PAREN) - elif c == "#": break # Comment - - else: continue # Invalid characters are ignored - - previous = tokens[-1] - - return _Feed(tokens) - - def _sym_lookup(self, name, for_eval=False): - """Fetches the symbol 'name' from the symbol table, creating and - registering it if it does not exist. If 'for_eval' is True, the symbol - won't be added to the symbol table if it does not exist -- this is for - Config.eval().""" - if name in self.syms: - return self.syms[name] - - new_sym = Symbol() - new_sym.config = self - new_sym.name = name - if for_eval: - self._warn("no symbol {0} in configuration".format(name)) - else: - self.syms[name] = new_sym - return new_sym - - # - # Expression evaluation - # - - def _eval_expr(self, expr): - """Evaluates an expression to "n", "m", or "y".""" - - # Handles e.g. an "x if y" condition where the "if y" part is missing. - if expr is None: - return "y" - - res = self._eval_expr_rec(expr) - if res == "m": - # Promote "m" to "y" if we're running without modules. - # - # Internally, "m" is often rewritten to "m" && MODULES by both the - # C implementation and Kconfiglib, which takes care of cases where - # "m" should be demoted to "n" instead. - modules_sym = self.syms.get("MODULES") - if modules_sym is None or modules_sym.get_value() != "y": - return "y" - return res - - def _eval_expr_rec(self, expr): - if isinstance(expr, Symbol): - # Non-bool/tristate symbols are always "n" in a tristate sense, - # regardless of their value - if expr.type != BOOL and expr.type != TRISTATE: - return "n" - return expr.get_value() - - if isinstance(expr, str): - return expr if (expr == "y" or expr == "m") else "n" - - # Ordered by frequency - - if expr[0] == AND: - res = "y" - for subexpr in expr[1]: - ev = self._eval_expr_rec(subexpr) - # Return immediately upon discovering an "n" term - if ev == "n": - return "n" - if ev == "m": - res = "m" - # 'res' is either "m" or "y" here; we already handled the - # short-circuiting "n" case in the loop. - return res - - if expr[0] == NOT: - ev = self._eval_expr_rec(expr[1]) - if ev == "y": - return "n" - return "y" if (ev == "n") else "m" - - if expr[0] == OR: - res = "n" - for subexpr in expr[1]: - ev = self._eval_expr_rec(subexpr) - # Return immediately upon discovering a "y" term - if ev == "y": - return "y" - if ev == "m": - res = "m" - # 'res' is either "n" or "m" here; we already handled the - # short-circuiting "y" case in the loop. - return res - - if expr[0] == EQUAL: - return "y" if (_str_val(expr[1]) == _str_val(expr[2])) else "n" - - if expr[0] == UNEQUAL: - return "y" if (_str_val(expr[1]) != _str_val(expr[2])) else "n" - - _internal_error("Internal error while evaluating expression: " - "unknown operation {0}.".format(expr[0])) - - def _eval_min(self, e1, e2): - """Returns the minimum value of the two expressions. Equates None with - 'y'.""" - e1_eval = self._eval_expr(e1) - e2_eval = self._eval_expr(e2) - return e1_eval if tri_less(e1_eval, e2_eval) else e2_eval - - def _eval_max(self, e1, e2): - """Returns the maximum value of the two expressions. Equates None with - 'y'.""" - e1_eval = self._eval_expr(e1) - e2_eval = self._eval_expr(e2) - return e1_eval if tri_greater(e1_eval, e2_eval) else e2_eval - - # - # Dependency tracking (for caching and invalidation) - # - - def _build_dep(self): - """Populates the Symbol.dep sets, linking the symbol to the symbols - that immediately depend on it in the sense that changing the value of - the symbol might affect the values of those other symbols. This is used - for caching/invalidation purposes. The calculated sets might be larger - than necessary as we don't do any complicated analysis of the - expressions.""" - - # Adds 'sym' as a directly dependent symbol to all symbols that appear - # in the expression 'e' - def add_expr_deps(e, sym): - for s in _get_expr_syms(e): - s.dep.add(sym) - - # The directly dependent symbols of a symbol are: - # - Any symbols whose prompts, default values, rev_dep (select - # condition), or ranges depend on the symbol - # - Any symbols that belong to the same choice statement as the symbol - # (these won't be included in 'dep' as that makes the dependency - # graph unwieldy, but Symbol._get_dependent() will include them) - # - Any symbols in a choice statement that depends on the symbol - for sym in self.syms_iter(): - for _, e in sym.prompts: - add_expr_deps(e, sym) - - for v, e in sym.def_exprs: - add_expr_deps(v, sym) - add_expr_deps(e, sym) - - add_expr_deps(sym.rev_dep, sym) - - for l, u, e in sym.ranges: - add_expr_deps(l, sym) - add_expr_deps(u, sym) - add_expr_deps(e, sym) - - if sym.is_choice_sym: - choice = sym.parent - for _, e in choice.prompts: - add_expr_deps(e, sym) - for _, e in choice.def_exprs: - add_expr_deps(e, sym) - - def _eq_to_sym(self, eq): - """_expr_depends_on() helper. For (in)equalities of the form sym = y/m - or sym != n, returns sym. For other (in)equalities, returns None.""" - relation, left, right = eq - - def transform_y_m_n(item): - if item is self.y: return "y" - if item is self.m: return "m" - if item is self.n: return "n" - return item - - left = transform_y_m_n(left) - right = transform_y_m_n(right) - - # Make sure the symbol (if any) appears to the left - if not isinstance(left, Symbol): - left, right = right, left - if not isinstance(left, Symbol): - return None - if (relation == EQUAL and (right == "y" or right == "m")) or \ - (relation == UNEQUAL and right == "n"): - return left - return None - - def _expr_depends_on(self, expr, sym): - """Reimplementation of expr_depends_symbol() from mconf.c. Used to - determine if a submenu should be implicitly created, which influences - what items inside choice statements are considered choice items.""" - if expr is None: - return False - - def rec(expr): - if isinstance(expr, str): - return False - if isinstance(expr, Symbol): - return expr is sym - - if expr[0] in (EQUAL, UNEQUAL): - return self._eq_to_sym(expr) is sym - if expr[0] == AND: - for and_expr in expr[1]: - if rec(and_expr): - return True - return False - - return rec(expr) - - def _invalidate_all(self): - for sym in self.syms_iter(): - sym._invalidate() - - # - # Printing and misc. - # - - def _expand_sym_refs(self, s): - """Expands $-references to symbols in 's' to symbol values, or to the - empty string for undefined symbols.""" - - while 1: - sym_ref_match = _sym_ref_re_search(s) - if sym_ref_match is None: - return s - - sym_name = sym_ref_match.group(0)[1:] - sym = self.syms.get(sym_name) - expansion = "" if sym is None else sym.get_value() - - s = s[:sym_ref_match.start()] + \ - expansion + \ - s[sym_ref_match.end():] - - def _expr_val_str(self, expr, no_value_str="(none)", - get_val_instead_of_eval=False): - """Printing helper. Returns a string with 'expr' and its value. - - no_value_str: String to return when 'expr' is missing (None). - - get_val_instead_of_eval: Assume 'expr' is a symbol or string (constant - symbol) and get its value directly instead of evaluating it to a - tristate value.""" - - if expr is None: - return no_value_str - - if get_val_instead_of_eval: - if isinstance(expr, str): - return _expr_to_str(expr) - val = expr.get_value() - else: - val = self._eval_expr(expr) - - return "{0} (value: {1})".format(_expr_to_str(expr), _expr_to_str(val)) - - def _get_sym_or_choice_str(self, sc): - """Symbols and choices have many properties in common, so we factor out - common __str__() stuff here. "sc" is short for "symbol or choice".""" - - # As we deal a lot with string representations here, use some - # convenient shorthand: - s = _expr_to_str - - # - # Common symbol/choice properties - # - - user_val_str = "(no user value)" if sc.user_val is None else \ - s(sc.user_val) - - # Build prompts string - if not sc.prompts: - prompts_str = " (no prompts)" - else: - prompts_str_rows = [] - for prompt, cond_expr in sc.orig_prompts: - prompts_str_rows.append( - ' "{0}"'.format(prompt) if cond_expr is None else - ' "{0}" if {1}'.format(prompt, - self._expr_val_str(cond_expr))) - prompts_str = "\n".join(prompts_str_rows) - - # Build locations string - locations_str = "(no locations)" if not sc.def_locations else \ - " ".join(["{0}:{1}".format(filename, linenr) for - filename, linenr in sc.def_locations]) - - # Build additional-dependencies-from-menus-and-ifs string - additional_deps_str = " " + \ - self._expr_val_str(sc.deps_from_containing, - "(no additional dependencies)") - - # - # Symbol-specific stuff - # - - if isinstance(sc, Symbol): - # Build ranges string - if isinstance(sc, Symbol): - if not sc.ranges: - ranges_str = " (no ranges)" - else: - ranges_str_rows = [] - for l, u, cond_expr in sc.ranges: - ranges_str_rows.append( - " [{0}, {1}]".format(s(l), s(u)) - if cond_expr is None else - " [{0}, {1}] if {2}" - .format(s(l), s(u), self._expr_val_str(cond_expr))) - ranges_str = "\n".join(ranges_str_rows) - - # Build default values string - if not sc.def_exprs: - defaults_str = " (no default values)" - else: - defaults_str_rows = [] - for val_expr, cond_expr in sc.orig_def_exprs: - row_str = " " + self._expr_val_str(val_expr, "(none)", - sc.type == STRING) - defaults_str_rows.append(row_str) - defaults_str_rows.append(" Condition: " + - self._expr_val_str(cond_expr)) - defaults_str = "\n".join(defaults_str_rows) - - # Build selects string - if not sc.orig_selects: - selects_str = " (no selects)" - else: - selects_str_rows = [] - for target, cond_expr in sc.orig_selects: - selects_str_rows.append( - " {0}".format(target.name) if cond_expr is None else - " {0} if {1}".format(target.name, - self._expr_val_str(cond_expr))) - selects_str = "\n".join(selects_str_rows) - - res = _lines("Symbol " + - ("(no name)" if sc.name is None else sc.name), - "Type : " + TYPENAME[sc.type], - "Value : " + s(sc.get_value()), - "User value : " + user_val_str, - "Visibility : " + s(_get_visibility(sc)), - "Is choice item : " + BOOL_STR[sc.is_choice_sym], - "Is defined : " + BOOL_STR[sc.is_defined_], - "Is from env. : " + BOOL_STR[sc.is_from_env], - "Is special : " + BOOL_STR[sc.is_special_] + "\n") - if sc.ranges: - res += _lines("Ranges:", ranges_str + "\n") - res += _lines("Prompts:", - prompts_str, - "Default values:", - defaults_str, - "Selects:", - selects_str, - "Reverse (select-related) dependencies:", - " (no reverse dependencies)" if sc.rev_dep == "n" - else " " + self._expr_val_str(sc.rev_dep), - "Additional dependencies from enclosing menus " - "and ifs:", - additional_deps_str, - "Locations: " + locations_str) - - return res - - # - # Choice-specific stuff - # - - # Build selected symbol string - sel = sc.get_selection() - sel_str = "(no selection)" if sel is None else sel.name - - # Build default values string - if not sc.def_exprs: - defaults_str = " (no default values)" - else: - defaults_str_rows = [] - for sym, cond_expr in sc.orig_def_exprs: - defaults_str_rows.append( - " {0}".format(sym.name) if cond_expr is None else - " {0} if {1}".format(sym.name, - self._expr_val_str(cond_expr))) - defaults_str = "\n".join(defaults_str_rows) - - # Build contained symbols string - names = [sym.name for sym in sc.actual_symbols] - syms_string = " ".join(names) if names else "(empty)" - - return _lines("Choice", - "Name (for named choices): " + - ("(no name)" if sc.name is None else sc.name), - "Type : " + TYPENAME[sc.type], - "Selected symbol : " + sel_str, - "User value : " + user_val_str, - "Mode : " + s(sc.get_mode()), - "Visibility : " + s(_get_visibility(sc)), - "Optional : " + BOOL_STR[sc.optional], - "Prompts:", - prompts_str, - "Defaults:", - defaults_str, - "Choice symbols:", - " " + syms_string, - "Additional dependencies from enclosing menus and " - "ifs:", - additional_deps_str, - "Locations: " + locations_str) - - def _warn(self, msg, filename=None, linenr=None): - """For printing warnings to stderr.""" - if self.print_warnings: - _stderr_msg("warning: " + msg, filename, linenr) - -class Item(object): - - """Base class for symbols and other Kconfig constructs. Subclasses are - Symbol, Choice, Menu, and Comment.""" - - def is_symbol(self): - """Returns True if the item is a symbol. Short for - isinstance(item, kconfiglib.Symbol).""" - return isinstance(self, Symbol) - - def is_choice(self): - """Returns True if the item is a choice. Short for - isinstance(item, kconfiglib.Choice).""" - return isinstance(self, Choice) - - def is_menu(self): - """Returns True if the item is a menu. Short for - isinstance(item, kconfiglib.Menu).""" - return isinstance(self, Menu) - - def is_comment(self): - """Returns True if the item is a comment. Short for - isinstance(item, kconfiglib.Comment).""" - return isinstance(self, Comment) - -class Symbol(Item): - - """Represents a configuration symbol - e.g. FOO for - - config FOO - ...""" - - # - # Public interface - # - - def get_config(self): - """Returns the Config instance this symbol is from.""" - return self.config - - def get_name(self): - """Returns the name of the symbol.""" - return self.name - - def get_type(self): - """Returns the type of the symbol: one of UNKNOWN, BOOL, TRISTATE, - STRING, HEX, or INT. These are defined at the top level of the module, - so you'd do something like - - if sym.get_type() == kconfiglib.STRING: - ...""" - return self.type - - def get_prompts(self): - """Returns a list of prompts defined for the symbol, in the order they - appear in the configuration files. Returns the empty list for symbols - with no prompt. - - This list will have a single entry for the vast majority of symbols - having prompts, but having multiple prompts for a single symbol is - possible through having multiple 'config' entries for it.""" - return [prompt for prompt, _ in self.orig_prompts] - - def get_help(self): - """Returns the help text of the symbol, or None if the symbol has no - help text.""" - return self.help - - def get_parent(self): - """Returns the menu or choice statement that contains the symbol, or - None if the symbol is at the top level. Note that if statements are - treated as syntactic and do not have an explicit class - representation.""" - return self.parent - - def get_def_locations(self): - """Returns a list of (filename, linenr) tuples, where filename (string) - and linenr (int) represent a location where the symbol is defined. For - the vast majority of symbols this list will only contain one element. - For the following Kconfig, FOO would get two entries: the lines marked - with *. - - config FOO * - bool "foo prompt 1" - - config FOO * - bool "foo prompt 2" - """ - return self.def_locations - - def get_ref_locations(self): - """Returns a list of (filename, linenr) tuples, where filename (string) - and linenr (int) represent a location where the symbol is referenced in - the configuration. For example, the lines marked by * would be included - for FOO below: - - config A - bool - default BAR || FOO * - - config B - tristate - depends on FOO * - default m if FOO * - - if FOO * - config A - bool "A" - endif - - config FOO (definition not included) - bool - """ - return self.ref_locations - - def get_value(self): - """Calculate and return the value of the symbol. See also - Symbol.set_user_value().""" - - if self.cached_val is not None: - return self.cached_val - - # As a quirk of Kconfig, undefined symbols get their name as their - # value. This is why things like "FOO = bar" work for seeing if FOO has - # the value "bar". - if self.type == UNKNOWN: - self.cached_val = self.name - return self.name - - new_val = DEFAULT_VALUE[self.type] - vis = _get_visibility(self) - - # This is easiest to calculate together with the value - self.write_to_conf = False - - if self.type == BOOL or self.type == TRISTATE: - # The visibility and mode (modules-only or single-selection) of - # choice items will be taken into account in _get_visibility() - if self.is_choice_sym: - if vis != "n": - choice = self.parent - mode = choice.get_mode() - - self.write_to_conf = (mode != "n") - - if mode == "y": - new_val = "y" if choice.get_selection() is self \ - else "n" - elif mode == "m": - if self.user_val == "m" or self.user_val == "y": - new_val = "m" - - else: - # If the symbol is visible and has a user value, use that. - # Otherwise, look at defaults. - use_defaults = True - - if vis != "n": - self.write_to_conf = True - if self.user_val is not None: - new_val = self.config._eval_min(self.user_val, vis) - use_defaults = False - - if use_defaults: - for val_expr, cond_expr in self.def_exprs: - cond_eval = self.config._eval_expr(cond_expr) - if cond_eval != "n": - self.write_to_conf = True - new_val = self.config._eval_min(val_expr, - cond_eval) - break - - # Reverse (select-related) dependencies take precedence - rev_dep_val = self.config._eval_expr(self.rev_dep) - if rev_dep_val != "n": - self.write_to_conf = True - new_val = self.config._eval_max(new_val, rev_dep_val) - - # Promote "m" to "y" for booleans - if new_val == "m" and self.type == BOOL: - new_val = "y" - - elif self.type == INT or self.type == HEX: - has_active_range = False - low = None - high = None - use_defaults = True - - base = 16 if self.type == HEX else 10 - - for l, h, cond_expr in self.ranges: - if self.config._eval_expr(cond_expr) != "n": - has_active_range = True - - low_str = _str_val(l) - high_str = _str_val(h) - low = int(low_str, base) if \ - _is_base_n(low_str, base) else 0 - high = int(high_str, base) if \ - _is_base_n(high_str, base) else 0 - - break - - if vis != "n": - self.write_to_conf = True - - if self.user_val is not None and \ - _is_base_n(self.user_val, base) and \ - (not has_active_range or - low <= int(self.user_val, base) <= high): - - # If the user value is OK, it is stored in exactly the same - # form as specified in the assignment (with or without - # "0x", etc). - - use_defaults = False - new_val = self.user_val - - if use_defaults: - for val_expr, cond_expr in self.def_exprs: - if self.config._eval_expr(cond_expr) != "n": - self.write_to_conf = True - - # If the default value is OK, it is stored in exactly - # the same form as specified. Otherwise, it is clamped - # to the range, and the output has "0x" as appropriate - # for the type. - - new_val = _str_val(val_expr) - - if _is_base_n(new_val, base): - new_val_num = int(new_val, base) - if has_active_range: - clamped_val = None - - if new_val_num < low: - clamped_val = low - elif new_val_num > high: - clamped_val = high - - if clamped_val is not None: - new_val = (hex(clamped_val) if \ - self.type == HEX else str(clamped_val)) - - break - else: # For the for loop - # If no user value or default kicks in but the hex/int has - # an active range, then the low end of the range is used, - # provided it's > 0, with "0x" prepended as appropriate. - if has_active_range and low > 0: - new_val = (hex(low) if self.type == HEX else str(low)) - - elif self.type == STRING: - use_defaults = True - - if vis != "n": - self.write_to_conf = True - if self.user_val is not None: - new_val = self.user_val - use_defaults = False - - if use_defaults: - for val_expr, cond_expr in self.def_exprs: - if self.config._eval_expr(cond_expr) != "n": - self.write_to_conf = True - new_val = _str_val(val_expr) - break - - self.cached_val = new_val - return new_val - - def get_user_value(self): - """Returns the value assigned to the symbol in a .config or via - Symbol.set_user_value() (provided the value was valid for the type of - the symbol). Returns None in case of no user value.""" - return self.user_val - - def get_upper_bound(self): - """For string/hex/int symbols and for bool and tristate symbols that - cannot be modified (see is_modifiable()), returns None. - - Otherwise, returns the highest value the symbol can be set to with - Symbol.set_user_value() (that will not be truncated): one of "m" or - "y", arranged from lowest to highest. This corresponds to the highest - value the symbol could be given in e.g. the 'make menuconfig' - interface. - - See also the tri_less*() and tri_greater*() functions, which could come - in handy.""" - if self.type != BOOL and self.type != TRISTATE: - return None - rev_dep = self.config._eval_expr(self.rev_dep) - # A bool selected to "m" gets promoted to "y", pinning it - if rev_dep == "m" and self.type == BOOL: - return None - vis = _get_visibility(self) - if TRI_TO_INT[vis] > TRI_TO_INT[rev_dep]: - return vis - return None - - def get_lower_bound(self): - """For string/hex/int symbols and for bool and tristate symbols that - cannot be modified (see is_modifiable()), returns None. - - Otherwise, returns the lowest value the symbol can be set to with - Symbol.set_user_value() (that will not be truncated): one of "n" or - "m", arranged from lowest to highest. This corresponds to the lowest - value the symbol could be given in e.g. the 'make menuconfig' - interface. - - See also the tri_less*() and tri_greater*() functions, which could come - in handy.""" - if self.type != BOOL and self.type != TRISTATE: - return None - rev_dep = self.config._eval_expr(self.rev_dep) - # A bool selected to "m" gets promoted to "y", pinning it - if rev_dep == "m" and self.type == BOOL: - return None - if TRI_TO_INT[_get_visibility(self)] > TRI_TO_INT[rev_dep]: - return rev_dep - return None - - def get_assignable_values(self): - """For string/hex/int symbols and for bool and tristate symbols that - cannot be modified (see is_modifiable()), returns the empty list. - - Otherwise, returns a list containing the user values that can be - assigned to the symbol (that won't be truncated). Usage example: - - if "m" in sym.get_assignable_values(): - sym.set_user_value("m") - - This is basically a more convenient interface to - get_lower/upper_bound() when wanting to test if a particular tristate - value can be assigned.""" - if self.type != BOOL and self.type != TRISTATE: - return [] - rev_dep = self.config._eval_expr(self.rev_dep) - # A bool selected to "m" gets promoted to "y", pinning it - if rev_dep == "m" and self.type == BOOL: - return [] - res = ["n", "m", "y"][TRI_TO_INT[rev_dep] : - TRI_TO_INT[_get_visibility(self)] + 1] - return res if len(res) > 1 else [] - - def get_visibility(self): - """Returns the visibility of the symbol: one of "n", "m" or "y". For - bool and tristate symbols, this is an upper bound on the value users - can set for the symbol. For other types of symbols, a visibility of "n" - means the user value will be ignored. A visibility of "n" corresponds - to not being visible in the 'make *config' interfaces. - - Example (assuming we're running with modules enabled -- i.e., MODULES - set to 'y'): - - # Assume this has been assigned 'n' - config N_SYM - tristate "N_SYM" - - # Assume this has been assigned 'm' - config M_SYM - tristate "M_SYM" - - # Has visibility 'n' - config A - tristate "A" - depends on N_SYM - - # Has visibility 'm' - config B - tristate "B" - depends on M_SYM - - # Has visibility 'y' - config C - tristate "C" - - # Has no prompt, and hence visibility 'n' - config D - tristate - - Having visibility be tri-valued ensures that e.g. a symbol cannot be - set to "y" by the user if it depends on a symbol with value "m", which - wouldn't be safe. - - You should probably look at get_lower/upper_bound(), - get_assignable_values() and is_modifiable() before using this.""" - return _get_visibility(self) - - def get_referenced_symbols(self, refs_from_enclosing=False): - """Returns the set() of all symbols referenced by this symbol. For - example, the symbol defined by - - config FOO - bool - prompt "foo" if A && B - default C if D - depends on E - select F if G - - references the symbols A through G. - - refs_from_enclosing (default: False): If True, the symbols referenced - by enclosing menus and ifs will be included in the result.""" - return self.all_referenced_syms if refs_from_enclosing else \ - self.referenced_syms - - def get_selected_symbols(self): - """Returns the set() of all symbols X for which this symbol has a - 'select X' or 'select X if Y' (regardless of whether Y is satisfied or - not). This is a subset of the symbols returned by - get_referenced_symbols().""" - return self.selected_syms - - def set_user_value(self, v): - """Sets the user value of the symbol. - - Equal in effect to assigning the value to the symbol within a .config - file. Use get_lower/upper_bound() or get_assignable_values() to find - the range of currently assignable values for bool and tristate symbols; - setting values outside this range will cause the user value to differ - from the result of Symbol.get_value() (be truncated). Values that are - invalid for the type (such as a_bool.set_user_value("foo")) are - ignored, and a warning is emitted if an attempt is made to assign such - a value. - - For any type of symbol, is_modifiable() can be used to check if a user - value will currently have any effect on the symbol, as determined by - its visibility and range of assignable values. Any value that is valid - for the type (bool, tristate, etc.) will end up being reflected in - get_user_value() though, and might have an effect later if conditions - change. To get rid of the user value, use unset_user_value(). - - Any symbols dependent on the symbol are (recursively) invalidated, so - things will just work with regards to dependencies. - - v: The user value to give to the symbol.""" - self._set_user_value_no_invalidate(v, False) - - # There might be something more efficient you could do here, but play - # it safe. - if self.name == "MODULES": - self.config._invalidate_all() - return - - self._invalidate() - self._invalidate_dependent() - - def unset_user_value(self): - """Resets the user value of the symbol, as if the symbol had never - gotten a user value via Config.load_config() or - Symbol.set_user_value().""" - self._unset_user_value_no_recursive_invalidate() - self._invalidate_dependent() - - def is_modifiable(self): - """Returns True if the value of the symbol could be modified by calling - Symbol.set_user_value(). - - For bools and tristates, this corresponds to the symbol being visible - in the 'make menuconfig' interface and not already being pinned to a - specific value (e.g. because it is selected by another symbol). - - For strings and numbers, this corresponds to just being visible. (See - Symbol.get_visibility().)""" - if self.is_special_: - return False - if self.type == BOOL or self.type == TRISTATE: - rev_dep = self.config._eval_expr(self.rev_dep) - # A bool selected to "m" gets promoted to "y", pinning it - if rev_dep == "m" and self.type == BOOL: - return False - return TRI_TO_INT[_get_visibility(self)] > TRI_TO_INT[rev_dep] - return _get_visibility(self) != "n" - - def is_defined(self): - """Returns False if the symbol is referred to in the Kconfig but never - actually defined.""" - return self.is_defined_ - - def is_special(self): - """Returns True if the symbol is one of the special symbols n, m, y, or - UNAME_RELEASE, or gets its value from the environment.""" - return self.is_special_ - - def is_from_environment(self): - """Returns True if the symbol gets its value from the environment.""" - return self.is_from_env - - def has_ranges(self): - """Returns True if the symbol is of type INT or HEX and has ranges that - limit what values it can take on.""" - return bool(self.ranges) - - def is_choice_symbol(self): - """Returns True if the symbol is in a choice statement and is an actual - choice symbol (see Choice.get_symbols()).""" - return self.is_choice_sym - - def is_choice_selection(self): - """Returns True if the symbol is contained in a choice statement and is - the selected item. Equivalent to - - sym.is_choice_symbol() and sym.get_parent().get_selection() is sym""" - return self.is_choice_sym and self.parent.get_selection() is self - - def is_allnoconfig_y(self): - """Returns True if the symbol has the 'allnoconfig_y' option set.""" - return self.allnoconfig_y - - def __str__(self): - """Returns a string containing various information about the symbol.""" - return self.config._get_sym_or_choice_str(self) - - # - # Private methods - # - - def __init__(self): - """Symbol constructor -- not intended to be called directly by - Kconfiglib clients.""" - - self.name = None - self.type = UNKNOWN - self.prompts = [] - self.def_exprs = [] # 'default' properties - self.ranges = [] # 'range' properties (for int and hex) - self.help = None # Help text - self.rev_dep = "n" # Reverse (select-related) dependencies - self.config = None - self.parent = None - - self.user_val = None # Value set by user - - # The prompt, default value and select conditions without any - # dependencies from menus and ifs propagated to them - self.orig_prompts = [] - self.orig_def_exprs = [] - self.orig_selects = [] - - # Dependencies inherited from containing menus and ifs - self.deps_from_containing = None - # The set of symbols referenced by this symbol (see - # get_referenced_symbols()) - self.referenced_syms = set() - # The set of symbols selected by this symbol (see - # get_selected_symbols()) - self.selected_syms = set() - # Like 'referenced_syms', but includes symbols from - # dependencies inherited from enclosing menus and ifs - self.all_referenced_syms = set() - - # This records only dependencies specified with 'depends on'. Needed - # when determining actual choice items (hrrrr...). See also - # Choice._determine_actual_symbols(). - self.menu_dep = None - - # See Symbol.get_ref/def_locations(). - self.def_locations = [] - self.ref_locations = [] - - # Populated in Config._build_dep() after parsing. Links the symbol to - # the symbols that immediately depend on it (in a caching/invalidation - # sense). The total set of dependent symbols for the symbol (the - # transitive closure) is calculated on an as-needed basis in - # _get_dependent(). - self.dep = set() - - # Cached values - - # Caches the calculated value - self.cached_val = None - # Caches the visibility, which acts as an upper bound on the value - self.cached_visibility = None - # Caches the total list of dependent symbols. Calculated in - # _get_dependent(). - self.cached_deps = None - - # Flags - - # Does the symbol have an entry in the Kconfig file? The trailing - # underscore avoids a collision with is_defined(). - self.is_defined_ = False - # Should the symbol get an entry in .config? - self.write_to_conf = False - # Set to true when _make_conf() is called on a symbol, so that symbols - # defined in multiple locations only get one .config entry. We need to - # reset it prior to writing out a new .config. - self.already_written = False - # This is set to True for "actual" choice symbols; see - # Choice._determine_actual_symbols(). - self.is_choice_sym = False - # Does the symbol get its value in some special way, e.g. from the - # environment or by being one of the special symbols n, m, and y? If - # so, the value is stored in self.cached_val, which is never - # invalidated. The trailing underscore avoids a collision with - # is_special(). - self.is_special_ = False - # Does the symbol get its value from the environment? - self.is_from_env = False - # Does the symbol have the 'allnoconfig_y' option set? - self.allnoconfig_y = False - - def _invalidate(self): - if self.is_special_: - return - - if self.is_choice_sym: - self.parent._invalidate() - - self.cached_val = None - self.cached_visibility = None - - def _invalidate_dependent(self): - for sym in self._get_dependent(): - sym._invalidate() - - def _set_user_value_no_invalidate(self, v, suppress_load_warnings): - """Like set_user_value(), but does not invalidate any symbols. - - suppress_load_warnings: some warnings are annoying when loading a - .config that can be helpful when manually invoking set_user_value(). - This flag is set to True to suppress such warnings. - - Perhaps this could be made optional for load_config() instead.""" - - if self.is_special_: - if self.is_from_env: - self.config._warn('attempt to assign the value "{0}" to the ' - 'symbol {1}, which gets its value from the ' - 'environment. Assignment ignored.' - .format(v, self.name)) - else: - self.config._warn('attempt to assign the value "{0}" to the ' - 'special symbol {1}. Assignment ignored.' - .format(v, self.name)) - return - - if not self.is_defined_: - filename, linenr = self.ref_locations[0] - if self.config.print_undef_assign: - _stderr_msg('note: attempt to assign the value "{0}" to {1}, ' - "which is referenced at {2}:{3} but never " - "defined. Assignment ignored." - .format(v, self.name, filename, linenr)) - return - - # Check if the value is valid for our type - if not ((self.type == BOOL and (v == "y" or v == "n") ) or - (self.type == TRISTATE and (v == "y" or v == "m" or - v == "n") ) or - (self.type == STRING ) or - (self.type == INT and _is_base_n(v, 10) ) or - (self.type == HEX and _is_base_n(v, 16) )): - self.config._warn('the value "{0}" is invalid for {1}, which has ' - "type {2}. Assignment ignored." - .format(v, self.name, TYPENAME[self.type])) - return - - if not self.prompts and not suppress_load_warnings: - self.config._warn('assigning "{0}" to the symbol {1} which ' - 'lacks prompts and thus has visibility "n". ' - 'The assignment will have no effect.' - .format(v, self.name)) - - self.user_val = v - - if self.is_choice_sym and (self.type == BOOL or self.type == TRISTATE): - choice = self.parent - if v == "y": - choice.user_val = self - choice.user_mode = "y" - elif v == "m": - choice.user_val = None - choice.user_mode = "m" - - def _unset_user_value_no_recursive_invalidate(self): - self._invalidate() - self.user_val = None - - if self.is_choice_sym: - self.parent._unset_user_value() - - def _make_conf(self, append_fn): - if self.already_written: - return - - self.already_written = True - - # Note: write_to_conf is determined in get_value() - val = self.get_value() - if not self.write_to_conf: - return - - if self.type == BOOL or self.type == TRISTATE: - append_fn("{0}{1}={2}".format(self.config.config_prefix, self.name, val) - if val == "y" or val == "m" else - "# {0}{1} is not set".format(self.config.config_prefix, self.name)) - - elif self.type == INT or self.type == HEX: - append_fn("{0}{1}={2}".format(self.config.config_prefix, self.name, val)) - - elif self.type == STRING: - # Escape \ and " - append_fn('{0}{1}="{2}"' - .format(self.config.config_prefix, self.name, - val.replace("\\", "\\\\").replace('"', '\\"'))) - - else: - _internal_error("Internal error while creating .config: unknown " - 'type "{0}".'.format(self.type)) - - def _get_dependent(self): - """Returns the set of symbols that should be invalidated if the value - of the symbol changes, because they might be affected by the change. - Note that this is an internal API -- it's probably of limited - usefulness to clients.""" - if self.cached_deps is not None: - return self.cached_deps - - res = set(self.dep) - for s in self.dep: - res |= s._get_dependent() - - if self.is_choice_sym: - # Choice symbols also depend (recursively) on their siblings. The - # siblings are not included in 'dep' to avoid dependency loops. - for sibling in self.parent.actual_symbols: - if sibling is not self: - res.add(sibling) - res |= sibling.dep - for s in sibling.dep: - res |= s._get_dependent() - - self.cached_deps = res - return res - - def _has_auto_menu_dep_on(self, on): - """See Choice._determine_actual_symbols().""" - if not isinstance(self.parent, Choice): - _internal_error("Attempt to determine auto menu dependency for " - "symbol ouside of choice.") - - if not self.prompts: - # If we have no prompt, use the menu dependencies instead (what was - # specified with 'depends on') - return self.menu_dep is not None and \ - self.config._expr_depends_on(self.menu_dep, on) - - for _, cond_expr in self.prompts: - if self.config._expr_depends_on(cond_expr, on): - return True - - return False - -class Menu(Item): - - """Represents a menu statement.""" - - # - # Public interface - # - - def get_config(self): - """Return the Config instance this menu is from.""" - return self.config - - def get_title(self): - """Returns the title text of the menu.""" - return self.title - - def get_parent(self): - """Returns the menu or choice statement that contains the menu, or - None if the menu is at the top level. Note that if statements are - treated as syntactic sugar and do not have an explicit class - representation.""" - return self.parent - - def get_location(self): - """Returns the location of the menu as a (filename, linenr) tuple, - where filename is a string and linenr an int.""" - return (self.filename, self.linenr) - - def get_items(self, recursive=False): - """Returns a list containing the items (symbols, menus, choice - statements and comments) in in the menu, in the same order that the - items appear within the menu. - - recursive (default: False): True if items contained in items within the - menu should be included recursively (preorder).""" - - if not recursive: - return self.block - - res = [] - for item in self.block: - res.append(item) - if isinstance(item, Menu): - res.extend(item.get_items(True)) - elif isinstance(item, Choice): - res.extend(item.get_items()) - return res - - def get_symbols(self, recursive=False): - """Returns a list containing the symbols in the menu, in the same order - that they appear within the menu. - - recursive (default: False): True if symbols contained in items within - the menu should be included recursively.""" - - return [item for item in self.get_items(recursive) if - isinstance(item, Symbol)] - - def get_visibility(self): - """Returns the visibility of the menu. This also affects the visibility - of subitems. See also Symbol.get_visibility().""" - return self.config._eval_expr(self.dep_expr) - - def get_visible_if_visibility(self): - """Returns the visibility the menu gets from its 'visible if' - condition. "y" if the menu has no 'visible if' condition.""" - return self.config._eval_expr(self.visible_if_expr) - - def get_referenced_symbols(self, refs_from_enclosing=False): - """See Symbol.get_referenced_symbols().""" - return self.all_referenced_syms if refs_from_enclosing else \ - self.referenced_syms - - def __str__(self): - """Returns a string containing various information about the menu.""" - depends_on_str = self.config._expr_val_str(self.orig_deps, - "(no dependencies)") - visible_if_str = self.config._expr_val_str(self.visible_if_expr, - "(no dependencies)") - - additional_deps_str = " " + \ - self.config._expr_val_str(self.deps_from_containing, - "(no additional dependencies)") - - return _lines("Menu", - "Title : " + self.title, - "'depends on' dependencies : " + depends_on_str, - "'visible if' dependencies : " + visible_if_str, - "Additional dependencies from enclosing menus and " - "ifs:", - additional_deps_str, - "Location: {0}:{1}".format(self.filename, self.linenr)) - - # - # Private methods - # - - def __init__(self): - """Menu constructor -- not intended to be called directly by - Kconfiglib clients.""" - - self.title = None - self.dep_expr = None - self.visible_if_expr = None - self.block = None - self.config = None - self.parent = None - - # Dependency expression without dependencies from enclosing menus and - # ifs propagated - self.orig_deps = None - - # Dependencies inherited from containing menus and ifs - self.deps_from_containing = None - # The set of symbols referenced by this menu (see - # get_referenced_symbols()) - self.referenced_syms = set() - # Like 'referenced_syms', but includes symbols from - # dependencies inherited from enclosing menus and ifs - self.all_referenced_syms = None - - self.filename = None - self.linenr = None - - def _make_conf(self, append_fn): - if self.config._eval_expr(self.dep_expr) != "n" and \ - self.config._eval_expr(self.visible_if_expr) != "n": - append_fn("\n#\n# {0}\n#".format(self.title)) - _make_block_conf(self.block, append_fn) - -class Choice(Item): - - """Represents a choice statement. A choice can be in one of three modes: - - "n" - The choice is not visible and no symbols can be selected. - - "m" - Any number of symbols can be set to "m". The rest will be "n". This - is safe since potentially conflicting options don't actually get - compiled into the kernel simultaneously with "m". - - "y" - One symbol will be "y" while the rest are "n". - - Only tristate choices can be in "m" mode, and the visibility of the choice - is an upper bound on the mode, so that e.g. a choice that depends on a - symbol with value "m" will be in "m" mode. - - The mode changes automatically when a value is assigned to a symbol within - the choice. - - See Symbol.get_visibility() too.""" - - # - # Public interface - # - - def get_config(self): - """Returns the Config instance this choice is from.""" - return self.config - - def get_name(self): - """For named choices, returns the name. Returns None for unnamed - choices. No named choices appear anywhere in the kernel Kconfig files - as of Linux 3.7.0-rc8.""" - return self.name - - def get_type(self): - """Returns the type of the choice. See Symbol.get_type().""" - return self.type - - def get_prompts(self): - """Returns a list of prompts defined for the choice, in the order they - appear in the configuration files. Returns the empty list for choices - with no prompt. - - This list will have a single entry for the vast majority of choices - having prompts, but having multiple prompts for a single choice is - possible through having multiple 'choice' entries for it (though I'm - not sure if that ever happens in practice).""" - return [prompt for prompt, _ in self.orig_prompts] - - def get_help(self): - """Returns the help text of the choice, or None if the choice has no - help text.""" - return self.help - - def get_parent(self): - """Returns the menu or choice statement that contains the choice, or - None if the choice is at the top level. Note that if statements are - treated as syntactic sugar and do not have an explicit class - representation.""" - return self.parent - - def get_def_locations(self): - """Returns a list of (filename, linenr) tuples, where filename (string) - and linenr (int) represent a location where the choice is defined. For - the vast majority of choices (all of them as of Linux 3.7.0-rc8) this - list will only contain one element, but its possible for named choices - to be defined in multiple locations.""" - return self.def_locations - - def get_selection(self): - """Returns the symbol selected (either by the user or through - defaults), or None if either no symbol is selected or the mode is not - "y".""" - if self.cached_selection is not None: - if self.cached_selection == NO_SELECTION: - return None - return self.cached_selection - - if self.get_mode() != "y": - return self._cache_ret(None) - - # User choice available? - if self.user_val is not None and _get_visibility(self.user_val) == "y": - return self._cache_ret(self.user_val) - - if self.optional: - return self._cache_ret(None) - - return self._cache_ret(self.get_selection_from_defaults()) - - def get_selection_from_defaults(self): - """Like Choice.get_selection(), but acts as if no symbol has been - selected by the user and no 'optional' flag is in effect.""" - - if not self.actual_symbols: - return None - - for symbol, cond_expr in self.def_exprs: - if self.config._eval_expr(cond_expr) != "n": - chosen_symbol = symbol - break - else: - chosen_symbol = self.actual_symbols[0] - - # Is the chosen symbol visible? - if _get_visibility(chosen_symbol) != "n": - return chosen_symbol - # Otherwise, pick the first visible symbol - for sym in self.actual_symbols: - if _get_visibility(sym) != "n": - return sym - return None - - def get_user_selection(self): - """If the choice is in "y" mode and has a user-selected symbol, returns - that symbol. Otherwise, returns None.""" - return self.user_val - - def get_items(self): - """Gets all items contained in the choice in the same order as within - the configuration ("items" instead of "symbols" since choices and - comments might appear within choices. This only happens in one place as - of Linux 3.7.0-rc8, in drivers/usb/gadget/Kconfig).""" - return self.block - - def get_symbols(self): - """Returns a list containing the choice's symbols. - - A quirk (perhaps a bug) of Kconfig is that you can put items within a - choice that will not be considered members of the choice insofar as - selection is concerned. This happens for example if one symbol within a - choice 'depends on' the symbol preceding it, or if you put non-symbol - items within choices. - - As of Linux 3.7.0-rc8, this seems to be used intentionally in one - place: drivers/usb/gadget/Kconfig. - - This function returns the "proper" symbols of the choice in the order - they appear in the choice, excluding such items. If you want all items - in the choice, use get_items().""" - return self.actual_symbols - - def get_referenced_symbols(self, refs_from_enclosing=False): - """See Symbol.get_referenced_symbols().""" - return self.all_referenced_syms if refs_from_enclosing else \ - self.referenced_syms - - def get_visibility(self): - """Returns the visibility of the choice statement: one of "n", "m" or - "y". This acts as an upper limit on the mode of the choice (though bool - choices can only have the mode "y"). See the class documentation for an - explanation of modes.""" - return _get_visibility(self) - - def get_mode(self): - """Returns the mode of the choice. See the class documentation for - an explanation of modes.""" - minimum_mode = "n" if self.optional else "m" - mode = self.user_mode if self.user_mode is not None else minimum_mode - mode = self.config._eval_min(mode, _get_visibility(self)) - - # Promote "m" to "y" for boolean choices - if mode == "m" and self.type == BOOL: - return "y" - - return mode - - def is_optional(self): - """Returns True if the choice has the 'optional' flag set (and so will - default to "n" mode).""" - return self.optional - - def __str__(self): - """Returns a string containing various information about the choice - statement.""" - return self.config._get_sym_or_choice_str(self) - - # - # Private methods - # - - def __init__(self): - """Choice constructor -- not intended to be called directly by - Kconfiglib clients.""" - - self.name = None # Yes, choices can be named - self.type = UNKNOWN - self.prompts = [] - self.def_exprs = [] # 'default' properties - self.help = None # Help text - self.block = None # List of contained items - self.config = None - self.parent = None - - self.user_val = None - self.user_mode = None - - # We need to filter out symbols that appear within the choice block but - # are not considered choice items (see - # Choice._determine_actual_symbols()) This list holds the "actual" - # choice items. - self.actual_symbols = [] - - # The prompts and default values without any dependencies from - # enclosing menus and ifs propagated - self.orig_prompts = [] - self.orig_def_exprs = [] - - # Dependencies inherited from containing menus and ifs - self.deps_from_containing = None - # The set of symbols referenced by this choice (see - # get_referenced_symbols()) - self.referenced_syms = set() - # Like 'referenced_syms', but includes symbols from - # dependencies inherited from enclosing menus and ifs - self.all_referenced_syms = set() - - # See Choice.get_def_locations() - self.def_locations = [] - - # Cached values - self.cached_selection = None - self.cached_visibility = None - - self.optional = False - - def _determine_actual_symbols(self): - """If a symbol's visibility depends on the preceding symbol within a - choice, it is no longer viewed as a choice item. (This is quite - possibly a bug, but some things consciously use it... ugh. It stems - from automatic submenu creation.) In addition, it's possible to have - choices and comments within choices, and those shouldn't be considered - choice items either. Only drivers/usb/gadget/Kconfig seems to depend on - any of this. This method computes the "actual" items in the choice and - sets the is_choice_sym flag on them (retrieved via is_choice_symbol()). - - Don't let this scare you: an earlier version simply checked for a - sequence of symbols where all symbols after the first appeared in the - 'depends on' expression of the first, and that worked fine. The added - complexity is to be future-proof in the event that - drivers/usb/gadget/Kconfig turns even more sinister. It might very well - be overkilling things (especially if that file is refactored ;).""" - - # Items might depend on each other in a tree structure, so we need a - # stack to keep track of the current tentative parent - stack = [] - - for item in self.block: - if not isinstance(item, Symbol): - stack = [] - continue - - while stack: - if item._has_auto_menu_dep_on(stack[-1]): - # The item should not be viewed as a choice item, so don't - # set item.is_choice_sym - stack.append(item) - break - else: - stack.pop() - else: - item.is_choice_sym = True - self.actual_symbols.append(item) - stack.append(item) - - def _cache_ret(self, selection): - # As None is used to indicate the lack of a cached value we can't use - # that to cache the fact that the choice has no selection. Instead, we - # use the symbolic constant NO_SELECTION. - if selection is None: - self.cached_selection = NO_SELECTION - else: - self.cached_selection = selection - - return selection - - def _invalidate(self): - self.cached_selection = None - self.cached_visibility = None - - def _unset_user_value(self): - self._invalidate() - self.user_val = None - self.user_mode = None - - def _make_conf(self, append_fn): - _make_block_conf(self.block, append_fn) - -class Comment(Item): - - """Represents a comment statement.""" - - # - # Public interface - # - - def get_config(self): - """Returns the Config instance this comment is from.""" - return self.config - - def get_text(self): - """Returns the text of the comment.""" - return self.text - - def get_parent(self): - """Returns the menu or choice statement that contains the comment, or - None if the comment is at the top level. Note that if statements are - treated as syntactic sugar and do not have an explicit class - representation.""" - return self.parent - - def get_location(self): - """Returns the location of the comment as a (filename, linenr) tuple, - where filename is a string and linenr an int.""" - return (self.filename, self.linenr) - - def get_visibility(self): - """Returns the visibility of the comment. See also - Symbol.get_visibility().""" - return self.config._eval_expr(self.dep_expr) - - def get_referenced_symbols(self, refs_from_enclosing=False): - """See Symbol.get_referenced_symbols().""" - return self.all_referenced_syms if refs_from_enclosing else \ - self.referenced_syms - - def __str__(self): - """Returns a string containing various information about the - comment.""" - dep_str = self.config._expr_val_str(self.orig_deps, - "(no dependencies)") - - additional_deps_str = " " + \ - self.config._expr_val_str(self.deps_from_containing, - "(no additional dependencies)") - - return _lines("Comment", - "Text: " + str(self.text), - "Dependencies: " + dep_str, - "Additional dependencies from enclosing menus and " - "ifs:", - additional_deps_str, - "Location: {0}:{1}".format(self.filename, self.linenr)) - - # - # Private methods - # - - def __init__(self): - """Comment constructor -- not intended to be called directly by - Kconfiglib clients.""" - - self.text = None - self.dep_expr = None - self.config = None - self.parent = None - - # Dependency expression without dependencies from enclosing menus and - # ifs propagated - self.orig_deps = None - - # Dependencies inherited from containing menus and ifs - self.deps_from_containing = None - # The set of symbols referenced by this comment (see - # get_referenced_symbols()) - self.referenced_syms = set() - # Like 'referenced_syms', but includes symbols from - # dependencies inherited from enclosing menus and ifs - self.all_referenced_syms = None - - self.filename = None - self.linenr = None - - def _make_conf(self, append_fn): - if self.config._eval_expr(self.dep_expr) != "n": - append_fn("\n#\n# {0}\n#".format(self.text)) - -class Kconfig_Syntax_Error(Exception): - """Exception raised for syntax errors.""" - pass - -class Internal_Error(Exception): - """Exception raised for internal errors.""" - pass - -# -# Public functions -# - -def tri_less(v1, v2): - """Returns True if the tristate v1 is less than the tristate v2, where "n", - "m" and "y" are ordered from lowest to highest.""" - return TRI_TO_INT[v1] < TRI_TO_INT[v2] - -def tri_less_eq(v1, v2): - """Returns True if the tristate v1 is less than or equal to the tristate - v2, where "n", "m" and "y" are ordered from lowest to highest.""" - return TRI_TO_INT[v1] <= TRI_TO_INT[v2] - -def tri_greater(v1, v2): - """Returns True if the tristate v1 is greater than the tristate v2, where - "n", "m" and "y" are ordered from lowest to highest.""" - return TRI_TO_INT[v1] > TRI_TO_INT[v2] - -def tri_greater_eq(v1, v2): - """Returns True if the tristate v1 is greater than or equal to the tristate - v2, where "n", "m" and "y" are ordered from lowest to highest.""" - return TRI_TO_INT[v1] >= TRI_TO_INT[v2] - -# -# Internal classes -# - -class _Feed(object): - - """Class for working with sequences in a stream-like fashion; handy for - tokens.""" - - # This would be more helpful on the item classes, but would remove some - # flexibility - __slots__ = ['items', 'length', 'i'] - - def __init__(self, items): - self.items = items - self.length = len(self.items) - self.i = 0 - - def get_next(self): - if self.i >= self.length: - return None - item = self.items[self.i] - self.i += 1 - return item - - def peek_next(self): - return None if self.i >= self.length else self.items[self.i] - - def check(self, token): - """Check if the next token is 'token'. If so, remove it from the token - feed and return True. Otherwise, leave it in and return False.""" - if self.i < self.length and self.items[self.i] == token: - self.i += 1 - return True - return False - - def unget_all(self): - self.i = 0 - -class _FileFeed(object): - - """Feeds lines from a file. Keeps track of the filename and current line - number. Joins any line ending in \\ with the following line. We need to be - careful to get the line number right in the presence of continuation - lines.""" - - __slots__ = ['filename', 'lines', 'length', 'linenr'] - - def __init__(self, filename): - self.filename = _clean_up_path(filename) - with open(filename, "r", encoding='utf-8') as f: - # No interleaving of I/O and processing yet. Don't know if it would - # help. - self.lines = f.readlines() - self.length = len(self.lines) - self.linenr = 0 - - def get_next(self): - if self.linenr >= self.length: - return None - line = self.lines[self.linenr] - self.linenr += 1 - while line.endswith("\\\n"): - line = line[:-2] + self.lines[self.linenr] - self.linenr += 1 - return line - - def peek_next(self): - linenr = self.linenr - if linenr >= self.length: - return None - line = self.lines[linenr] - while line.endswith("\\\n"): - linenr += 1 - line = line[:-2] + self.lines[linenr] - return line - - def unget(self): - self.linenr -= 1 - while self.lines[self.linenr].endswith("\\\n"): - self.linenr -= 1 - - def next_nonblank(self): - """Removes lines up to and including the next non-blank (not all-space) - line and returns it. Returns None if there are no more non-blank - lines.""" - while 1: - line = self.get_next() - if line is None or not line.isspace(): - return line - -# -# Internal functions -# - -def _get_visibility(sc): - """Symbols and Choices have a "visibility" that acts as an upper bound on - the values a user can set for them, corresponding to the visibility in e.g. - 'make menuconfig'. This function calculates the visibility for the Symbol - or Choice 'sc' -- the logic is nearly identical.""" - if sc.cached_visibility is None: - vis = "n" - for _, cond_expr in sc.prompts: - vis = sc.config._eval_max(vis, cond_expr) - - if isinstance(sc, Symbol) and sc.is_choice_sym: - vis = sc.config._eval_min(vis, _get_visibility(sc.parent)) - - # Promote "m" to "y" if we're dealing with a non-tristate - if vis == "m" and sc.type != TRISTATE: - vis = "y" - - sc.cached_visibility = vis - - return sc.cached_visibility - -def _make_and(e1, e2): - """Constructs an AND (&&) expression. Performs trivial simplification. - Nones equate to 'y'. - - Note: returns None if e1 == e2 == None.""" - if e1 is None or e1 == "y": - return e2 - if e2 is None or e2 == "y": - return e1 - - # Prefer to merge argument lists if possible to reduce the number of nodes - - if isinstance(e1, tuple) and e1[0] == AND: - if isinstance(e2, tuple) and e2[0] == AND: - return (AND, e1[1] + e2[1]) - return (AND, e1[1] + [e2]) - - if isinstance(e2, tuple) and e2[0] == AND: - return (AND, e2[1] + [e1]) - - return (AND, [e1, e2]) - -def _make_or(e1, e2): - """Constructs an OR (||) expression. Performs trivial simplification and - avoids Nones. Nones equate to 'y', which is usually what we want, but needs - to be kept in mind.""" - - # Perform trivial simplification and avoid None's (which - # correspond to y's) - if e1 is None or e2 is None or e1 == "y" or e2 == "y": - return "y" - if e1 == "n": - return e2 - - # Prefer to merge argument lists if possible to reduce the number of nodes - - if isinstance(e1, tuple) and e1[0] == OR: - if isinstance(e2, tuple) and e2[0] == OR: - return (OR, e1[1] + e2[1]) - return (OR, e1[1] + [e2]) - - if isinstance(e2, tuple) and e2[0] == OR: - return (OR, e2[1] + [e1]) - - return (OR, [e1, e2]) - -def _get_expr_syms_rec(expr, res): - """_get_expr_syms() helper. Recurses through expressions.""" - if isinstance(expr, Symbol): - res.add(expr) - elif isinstance(expr, str): - return - elif expr[0] == AND or expr[0] == OR: - for term in expr[1]: - _get_expr_syms_rec(term, res) - elif expr[0] == NOT: - _get_expr_syms_rec(expr[1], res) - elif expr[0] == EQUAL or expr[0] == UNEQUAL: - if isinstance(expr[1], Symbol): - res.add(expr[1]) - if isinstance(expr[2], Symbol): - res.add(expr[2]) - else: - _internal_error("Internal error while fetching symbols from an " - "expression with token stream {0}.".format(expr)) - -def _get_expr_syms(expr): - """Returns the set() of symbols appearing in expr.""" - res = set() - if expr is not None: - _get_expr_syms_rec(expr, res) - return res - -def _str_val(obj): - """Returns the value of obj as a string. If obj is not a string (constant - symbol), it must be a Symbol.""" - return obj if isinstance(obj, str) else obj.get_value() - -def _make_block_conf(block, append_fn): - """Returns a list of .config strings for a block (list) of items.""" - - # Collect the substrings in a list and later use join() instead of += to - # build the final .config contents. With older Python versions, this yields - # linear instead of quadratic complexity. - for item in block: - item._make_conf(append_fn) - -def _sym_str_string(sym_or_str): - if isinstance(sym_or_str, str): - return '"' + sym_or_str + '"' - return sym_or_str.name - -def _intersperse(lst, op): - """_expr_to_str() helper. Gets the string representation of each expression - in lst and produces a list where op has been inserted between the - elements.""" - if not lst: - return "" - - res = [] - - def handle_sub_expr(expr): - no_parens = isinstance(expr, (str, Symbol)) or \ - expr[0] in (EQUAL, UNEQUAL) or \ - PRECEDENCE[op] <= PRECEDENCE[expr[0]] - if not no_parens: - res.append("(") - res.extend(_expr_to_str_rec(expr)) - if not no_parens: - res.append(")") - - op_str = OP_TO_STR[op] - - handle_sub_expr(lst[0]) - for expr in lst[1:]: - res.append(op_str) - handle_sub_expr(expr) - - return res - -def _expr_to_str_rec(expr): - if expr is None: - return [""] - - if isinstance(expr, (Symbol, str)): - return [_sym_str_string(expr)] - - if expr[0] in (AND, OR): - return _intersperse(expr[1], expr[0]) - - if expr[0] == NOT: - need_parens = not isinstance(expr[1], (str, Symbol)) - - res = ["!"] - if need_parens: - res.append("(") - res.extend(_expr_to_str_rec(expr[1])) - if need_parens: - res.append(")") - return res - - if expr[0] in (EQUAL, UNEQUAL): - return [_sym_str_string(expr[1]), - OP_TO_STR[expr[0]], - _sym_str_string(expr[2])] - -def _expr_to_str(expr): - return "".join(_expr_to_str_rec(expr)) - -def _indentation(line): - """Returns the length of the line's leading whitespace, treating tab stops - as being spaced 8 characters apart.""" - line = line.expandtabs() - return len(line) - len(line.lstrip()) - -def _deindent(line, indent): - """Deindent 'line' by 'indent' spaces.""" - line = line.expandtabs() - if len(line) <= indent: - return line - return line[indent:] - -def _is_base_n(s, n): - try: - int(s, n) - return True - except ValueError: - return False - -def _lines(*args): - """Returns a string consisting of all arguments, with newlines inserted - between them.""" - return "\n".join(args) - -def _comment(s): - """Returns a new string with "#" inserted before each line in 's'.""" - if not s: - return "#" - res = "".join(["#" + line for line in s.splitlines(True)]) - if s.endswith("\n"): - return res + "#" - return res - -def _clean_up_path(path): - """Strips an initial "./" and any trailing slashes from 'path'.""" - if path.startswith("./"): - path = path[2:] - return path.rstrip("/") - -def _stderr_msg(msg, filename, linenr): - if filename is not None: - sys.stderr.write("{0}:{1}: ".format(_clean_up_path(filename), linenr)) - sys.stderr.write(msg + "\n") - -def _tokenization_error(s, filename, linenr): - loc = "" if filename is None else "{0}:{1}: ".format(filename, linenr) - raise Kconfig_Syntax_Error("{0}Couldn't tokenize '{1}'" - .format(loc, s.strip())) - -def _parse_error(s, msg, filename, linenr): - loc = "" if filename is None else "{0}:{1}: ".format(filename, linenr) - raise Kconfig_Syntax_Error("{0}Couldn't parse '{1}'{2}" - .format(loc, s.strip(), - "." if msg is None else ": " + msg)) - -def _internal_error(msg): - raise Internal_Error(msg + - "\nSorry! You may want to send an email to ulfalizer a.t Google's " - "email service to tell me about this. Include the message above and the " - "stack trace and describe what you were doing.") - -# -# Internal global constants -# - -# Tokens -(T_AND, T_OR, T_NOT, - T_OPEN_PAREN, T_CLOSE_PAREN, - T_EQUAL, T_UNEQUAL, - T_MAINMENU, T_MENU, T_ENDMENU, - T_SOURCE, T_CHOICE, T_ENDCHOICE, - T_COMMENT, T_CONFIG, T_MENUCONFIG, - T_HELP, T_IF, T_ENDIF, T_DEPENDS, T_ON, - T_OPTIONAL, T_PROMPT, T_DEFAULT, - T_BOOL, T_TRISTATE, T_HEX, T_INT, T_STRING, - T_DEF_BOOL, T_DEF_TRISTATE, - T_SELECT, T_RANGE, T_OPTION, T_ALLNOCONFIG_Y, T_ENV, - T_DEFCONFIG_LIST, T_MODULES, T_VISIBLE) = list(range(39)) - -# The leading underscore before the function assignments below prevent pydoc -# from listing them. The constants could be hidden too, but they're fairly -# obviously internal anyway, so don't bother spamming the code. - -# Keyword to token map. Note that the get() method is assigned directly as a -# small optimization. -_get_keyword = \ - {"mainmenu": T_MAINMENU, "menu": T_MENU, "endmenu": T_ENDMENU, - "endif": T_ENDIF, "endchoice": T_ENDCHOICE, "source": T_SOURCE, - "choice": T_CHOICE, "config": T_CONFIG, "comment": T_COMMENT, - "menuconfig": T_MENUCONFIG, "help": T_HELP, "if": T_IF, - "depends": T_DEPENDS, "on": T_ON, "optional": T_OPTIONAL, - "prompt": T_PROMPT, "default": T_DEFAULT, "bool": T_BOOL, "boolean": T_BOOL, - "tristate": T_TRISTATE, "int": T_INT, "hex": T_HEX, "def_bool": T_DEF_BOOL, - "def_tristate": T_DEF_TRISTATE, "string": T_STRING, "select": T_SELECT, - "range": T_RANGE, "option": T_OPTION, "allnoconfig_y": T_ALLNOCONFIG_Y, - "env": T_ENV, "defconfig_list": T_DEFCONFIG_LIST, "modules": T_MODULES, - "visible": T_VISIBLE}.get - -# Strings to use for True and False -BOOL_STR = {False: "false", True: "true"} - -# Tokens after which identifier-like lexemes are treated as strings. T_CHOICE -# is included to avoid symbols being registered for named choices. -STRING_LEX = frozenset((T_BOOL, T_TRISTATE, T_INT, T_HEX, T_STRING, T_CHOICE, - T_PROMPT, T_MENU, T_COMMENT, T_SOURCE, T_MAINMENU)) - -# Matches the initial token on a line; see _tokenize(). Also eats trailing -# whitespace as an optimization. -_initial_token_re_match = re.compile(r"[^\w]*(\w+)\s*").match - -# Matches an identifier/keyword optionally preceded by whitespace. Also eats -# trailing whitespace as an optimization. -_id_keyword_re_match = re.compile(r"\s*([\w./-]+)\s*").match - -# Regular expression for finding $-references to symbols in strings -_sym_ref_re_search = re.compile(r"\$[A-Za-z0-9_]+").search - -# Integers representing symbol types -UNKNOWN, BOOL, TRISTATE, STRING, HEX, INT = list(range(6)) - -# Strings to use for types -TYPENAME = {UNKNOWN: "unknown", BOOL: "bool", TRISTATE: "tristate", - STRING: "string", HEX: "hex", INT: "int"} - -# Token to type mapping -TOKEN_TO_TYPE = {T_BOOL: BOOL, T_TRISTATE: TRISTATE, T_STRING: STRING, - T_INT: INT, T_HEX: HEX} - -# Default values for symbols of different types (the value the symbol gets if -# it is not assigned a user value and none of its 'default' clauses kick in) -DEFAULT_VALUE = {BOOL: "n", TRISTATE: "n", STRING: "", INT: "", HEX: ""} - -# Indicates that no item is selected in a choice statement -NO_SELECTION = 0 - -# Integers representing expression types -AND, OR, NOT, EQUAL, UNEQUAL = list(range(5)) - -# Map from tristate values to integers -TRI_TO_INT = {"n": 0, "m": 1, "y": 2} - -# Printing-related stuff - -OP_TO_STR = {AND: " && ", OR: " || ", EQUAL: " = ", UNEQUAL: " != "} -PRECEDENCE = {OR: 0, AND: 1, NOT: 2}