# MIT License # # Copyright The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """Common routines for processing Java. """ import os import re import glob from pathlib import Path from typing import List java_parsing = True default_java_version = '1.4' # a switch for which jdk versions to use the Scope state for smarter # anonymous inner class parsing. scopeStateVersions = ('1.8',) # Glob patterns for use in finding where the JDK is. # # These are pairs, (*dir_glob, *version_dir_glob) depending on whether # a JDK version was requested or not. # For now only used for Windows, which doesn't install JDK in a # path that would be in env['ENV']['PATH']. The specific tool will # add the discovered path to this. Since Oracle changed the rules, # there are many possible vendors, we can't guess them all, but take a shot. java_win32_dir_glob = 'C:/Program Files*/*/*jdk*/bin' # On windows, since Java 9, there is a dash between 'jdk' and the version # string that wasn't there before. this glob should catch either way. java_win32_version_dir_glob = 'C:/Program Files*/*/*jdk*%s*/bin' # Glob patterns for use in finding where the JDK headers are. # These are pairs, *dir_glob used in the general case, # *version_dir_glob if matching only a specific version. java_macos_include_dir_glob = '/System/Library/Frameworks/JavaVM.framework/Headers/' java_macos_version_include_dir_glob = '/System/Library/Frameworks/JavaVM.framework/Versions/%s*/Headers/' java_linux_include_dirs_glob = [ '/usr/lib/jvm/default-java/include', '/usr/lib/jvm/java-*/include', '/opt/oracle-jdk-bin-*/include', '/opt/openjdk-bin-*/include', '/usr/lib/openjdk-*/include', ] # Need to match path like below (from Centos 7) # /usr/lib/jvm/java-1.8.0-openjdk-1.8.0.191.b12-0.el7_5.x86_64/include/ java_linux_version_include_dirs_glob = [ '/usr/lib/jvm/java-*-sun-%s*/include', '/usr/lib/jvm/java-%s*-openjdk*/include', '/usr/java/jdk%s*/include', ] if java_parsing: # Parse Java files for class names. # # This is a really cool parser from Charles Crain # that finds appropriate class names in Java source. # A regular expression that will find, in a java file: # newlines; # double-backslashes; # a single-line comment "//"; # single or double quotes preceeded by a backslash; # single quotes, double quotes, open or close braces, semi-colons, # periods, open or close parentheses; # floating-point numbers; # any alphanumeric token (keyword, class name, specifier); # any alphanumeric token surrounded by angle brackets (generics); # the multi-line comment begin and end tokens /* and */; # array declarations "[]". # Lambda function symbols: -> _reToken = re.compile(r'(\n|\\\\|//|\\[\'"]|[\'"{\};.()]|' + r'\d*\.\d*|[A-Za-z_][\w$.]*|<[A-Za-z_]\w+>|' + r'/\*|\*/|\[\]|->)') class OuterState: """The initial state for parsing a Java file for classes, interfaces, and anonymous inner classes.""" def __init__(self, version=default_java_version): if version not in ( '1.1', '1.2', '1.3', '1.4', '1.5', '1.6', '1.7', '1.8', '5', '6', '9.0', '10.0', '11.0', '12.0', '13.0', '14.0', '15.0', '16.0', '17.0', ): msg = "Java version %s not supported" % version raise NotImplementedError(msg) self.version = version self.listClasses = [] self.listOutputs = [] self.stackBrackets = [] self.brackets = 0 self.nextAnon = 1 self.localClasses = [] self.stackAnonClassBrackets = [] self.anonStacksStack = [[0]] self.package = None def trace(self): pass def __getClassState(self): try: return self.classState except AttributeError: ret = ClassState(self) self.classState = ret return ret def __getPackageState(self): try: return self.packageState except AttributeError: ret = PackageState(self) self.packageState = ret return ret def __getAnonClassState(self): try: return self.anonState except AttributeError: self.outer_state = self ret = SkipState(1, AnonClassState(self)) self.anonState = ret return ret def __getSkipState(self): try: return self.skipState except AttributeError: ret = SkipState(1, self) self.skipState = ret return ret def _getAnonStack(self): return self.anonStacksStack[-1] def openBracket(self): self.brackets = self.brackets + 1 def closeBracket(self): self.brackets = self.brackets - 1 if len(self.stackBrackets) and \ self.brackets == self.stackBrackets[-1]: self.listOutputs.append('$'.join(self.listClasses)) self.localClasses.pop() self.listClasses.pop() self.anonStacksStack.pop() self.stackBrackets.pop() if len(self.stackAnonClassBrackets) and \ self.brackets == self.stackAnonClassBrackets[-1] and \ self.version not in scopeStateVersions: self._getAnonStack().pop() self.stackAnonClassBrackets.pop() def parseToken(self, token): if token[:2] == '//': return IgnoreState('\n', self) elif token == '/*': return IgnoreState('*/', self) elif token == '{': self.openBracket() elif token == '}': self.closeBracket() elif token in ['"', "'"]: return IgnoreState(token, self) elif token == "new": # anonymous inner class if len(self.listClasses) > 0: return self.__getAnonClassState() return self.__getSkipState() # Skip the class name elif token in ['class', 'interface', 'enum']: if len(self.listClasses) == 0: self.nextAnon = 1 self.stackBrackets.append(self.brackets) return self.__getClassState() elif token == 'package': return self.__getPackageState() elif token == '.': # Skip the attribute, it might be named "class", in which # case we don't want to treat the following token as # an inner class name... return self.__getSkipState() return self def addAnonClass(self): """Add an anonymous inner class""" if self.version in ('1.1', '1.2', '1.3', '1.4'): clazz = self.listClasses[0] self.listOutputs.append('%s$%d' % (clazz, self.nextAnon)) # TODO: shouldn't need to repeat versions here and in OuterState elif self.version in ( '1.5', '1.6', '1.7', '1.8', '5', '6', '9.0', '10.0', '11.0', '12.0', '13.0', '14.0', '15.0', '16.0', '17.0', ): self.stackAnonClassBrackets.append(self.brackets) className = [] className.extend(self.listClasses) self._getAnonStack()[-1] = self._getAnonStack()[-1] + 1 for anon in self._getAnonStack(): className.append(str(anon)) self.listOutputs.append('$'.join(className)) self.nextAnon = self.nextAnon + 1 self._getAnonStack().append(0) def setPackage(self, package): self.package = package class ScopeState: """ A state that parses code within a scope normally, within the confines of a scope. """ def __init__(self, old_state): self.outer_state = old_state.outer_state self.old_state = old_state self.brackets = 0 def __getClassState(self): try: return self.classState except AttributeError: ret = ClassState(self) self.classState = ret return ret def __getAnonClassState(self): try: return self.anonState except AttributeError: ret = SkipState(1, AnonClassState(self)) self.anonState = ret return ret def __getSkipState(self): try: return self.skipState except AttributeError: ret = SkipState(1, self) self.skipState = ret return ret def openBracket(self): self.brackets = self.brackets + 1 def closeBracket(self): self.brackets = self.brackets - 1 def parseToken(self, token): # if self.brackets == 0: # return self.old_state.parseToken(token) if token[:2] == '//': return IgnoreState('\n', self) elif token == '/*': return IgnoreState('*/', self) elif token == '{': self.openBracket() elif token == '}': self.closeBracket() if self.brackets == 0: self.outer_state._getAnonStack().pop() return self.old_state elif token in ['"', "'"]: return IgnoreState(token, self) elif token == "new": # anonymous inner class return self.__getAnonClassState() elif token == '.': # Skip the attribute, it might be named "class", in which # case we don't want to treat the following token as # an inner class name... return self.__getSkipState() return self class AnonClassState: """A state that looks for anonymous inner classes.""" def __init__(self, old_state): # outer_state is always an instance of OuterState self.outer_state = old_state.outer_state self.old_state = old_state self.brace_level = 0 def parseToken(self, token): # This is an anonymous class if and only if the next # non-whitespace token is a bracket. Everything between # braces should be parsed as normal java code. if token[:2] == '//': return IgnoreState('\n', self) elif token == '/*': return IgnoreState('*/', self) elif token == '\n': return self elif token[0] == '<' and token[-1] == '>': return self elif token == '(': self.brace_level = self.brace_level + 1 return self if self.brace_level > 0: if token == 'new': # look further for anonymous inner class return SkipState(1, AnonClassState(self)) elif token in ['"', "'"]: return IgnoreState(token, self) elif token == ')': self.brace_level = self.brace_level - 1 return self if token == '{': self.outer_state.addAnonClass() if self.outer_state.version in scopeStateVersions: return ScopeState(old_state=self.old_state).parseToken(token) return self.old_state.parseToken(token) class SkipState: """A state that will skip a specified number of tokens before reverting to the previous state.""" def __init__(self, tokens_to_skip, old_state): self.tokens_to_skip = tokens_to_skip self.old_state = old_state def parseToken(self, token): self.tokens_to_skip = self.tokens_to_skip - 1 if self.tokens_to_skip < 1: return self.old_state return self class ClassState: """A state we go into when we hit a class or interface keyword.""" def __init__(self, outer_state): # outer_state is always an instance of OuterState self.outer_state = outer_state def parseToken(self, token): # the next non-whitespace token should be the name of the class if token == '\n': return self # If that's an inner class which is declared in a method, it # requires an index prepended to the class-name, e.g. # 'Foo$1Inner' # https://github.com/SCons/scons/issues/2087 if self.outer_state.localClasses and \ self.outer_state.stackBrackets[-1] > \ self.outer_state.stackBrackets[-2] + 1: locals = self.outer_state.localClasses[-1] try: idx = locals[token] locals[token] = locals[token] + 1 except KeyError: locals[token] = 1 token = str(locals[token]) + token self.outer_state.localClasses.append({}) self.outer_state.listClasses.append(token) self.outer_state.anonStacksStack.append([0]) return self.outer_state class IgnoreState: """A state that will ignore all tokens until it gets to a specified token.""" def __init__(self, ignore_until, old_state): self.ignore_until = ignore_until self.old_state = old_state def parseToken(self, token): if self.ignore_until == token: return self.old_state return self class PackageState: """The state we enter when we encounter the package keyword. We assume the next token will be the package name.""" def __init__(self, outer_state): # outer_state is always an instance of OuterState self.outer_state = outer_state def parseToken(self, token): self.outer_state.setPackage(token) return self.outer_state def parse_java_file(fn, version=default_java_version): with open(fn, 'r', encoding='utf-8') as f: data = f.read() return parse_java(data, version) def parse_java(contents, version=default_java_version, trace=None): """Parse a .java file and return a double of package directory, plus a list of .class files that compiling that .java file will produce""" package = None initial = OuterState(version) currstate = initial for token in _reToken.findall(contents): # The regex produces a bunch of groups, but only one will # have anything in it. currstate = currstate.parseToken(token) if trace: trace(token, currstate) if initial.package: package = initial.package.replace('.', os.sep) return (package, initial.listOutputs) else: # Don't actually parse Java files for class names. # # We might make this a configurable option in the future if # Java-file parsing takes too long (although it shouldn't relative # to how long the Java compiler itself seems to take...). def parse_java_file(fn): """ "Parse" a .java file. This actually just splits the file name, so the assumption here is that the file name matches the public class name, and that the path to the file is the same as the package name. """ return os.path.split(fn) def get_java_install_dirs(platform, version=None) -> List[str]: """ Find possible java jdk installation directories. Returns a list for use as `default_paths` when looking up actual java binaries with :meth:`SCons.Tool.find_program_path`. The paths are sorted by version, latest first. Args: platform: selector for search algorithm. version: if not None, restrict the search to this version. Returns: list of default paths for jdk. """ if platform == 'win32': paths = [] if version: paths = glob.glob(java_win32_version_dir_glob % version) else: paths = glob.glob(java_win32_dir_glob) def win32getvnum(java): """ Generates a sort key for win32 jdk versions. We'll have gotten a path like ...something/*jdk*/bin because that is the pattern we glob for. To generate the sort key, extracts the next-to-last component, then trims it further if it had a complex name, like 'java-1.8.0-openjdk-1.8.0.312-1', to try and put it on a common footing with the more common style, which looks like 'jdk-11.0.2'. This is certainly fragile, and if someone has a 9.0 it won't sort right since this will still be alphabetic, BUT 9.0 was not an LTS release and is 30 mos out of support as this note is written so just assume it will be okay. """ d = Path(java).parts[-2] if not d.startswith('jdk'): d = 'jdk' + d.rsplit('jdk', 1)[-1] return d return sorted(paths, key=win32getvnum, reverse=True) # other platforms, do nothing for now: we expect the standard # paths to be enough to find a jdk (e.g. use alternatives system) return [] def get_java_include_paths(env, javac, version) -> List[str]: """Find java include paths for JNI building. Cannot be called in isolation - `javac` refers to an already detected compiler. Normally would would call :func:`get_java_install_dirs` first and then do lookups on the paths it returns before calling us. Args: env: construction environment, used to extract platform. javac: path to detected javac. version: if not None, restrict the search to this version. Returns: list of include directory paths. """ if not javac: return [] # on Windows, we have a path to the actual javac, so look locally if env['PLATFORM'] == 'win32': javac_bin_dir = os.path.dirname(javac) java_inc_dir = os.path.normpath(os.path.join(javac_bin_dir, '..', 'include')) paths = [java_inc_dir, os.path.join(java_inc_dir, 'win32')] # for the others, we probably found something which isn't in the JDK dir, # so use the predefined patterns to glob for an include directory. elif env['PLATFORM'] == 'darwin': if not version: paths = [java_macos_include_dir_glob] else: paths = sorted(glob.glob(java_macos_version_include_dir_glob % version)) else: base_paths = [] if not version: for p in java_linux_include_dirs_glob: base_paths.extend(glob.glob(p)) else: for p in java_linux_version_include_dirs_glob: base_paths.extend(glob.glob(p % version)) paths = [] for p in base_paths: paths.extend([p, os.path.join(p, 'linux')]) return paths # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: