#!/usr/bin/env python3 """A glorified C pre-processor parser.""" import ctypes import logging import os import re import site import unittest import utils top = os.getenv('ANDROID_BUILD_TOP') if top is None: utils.panic('ANDROID_BUILD_TOP not set.\n') # Set up the env vars for libclang. site.addsitedir(os.path.join(top, 'prebuilts/clang/host/linux-x86/clang-stable/lib64/python3/site-packages/')) import clang.cindex from clang.cindex import conf from clang.cindex import Cursor from clang.cindex import CursorKind from clang.cindex import SourceLocation from clang.cindex import SourceRange from clang.cindex import TokenGroup from clang.cindex import TokenKind from clang.cindex import TranslationUnit # Set up LD_LIBRARY_PATH to include libclang.so, libLLVM.so, and etc. # Note that setting LD_LIBRARY_PATH with os.putenv() sometimes doesn't help. clang.cindex.Config.set_library_file(os.path.join(top, 'prebuilts/clang/host/linux-x86/clang-stable/lib64/libclang.so')) from defaults import * debugBlockParser = False debugCppExpr = False debugOptimIf01 = False ############################################################################### ############################################################################### ##### ##### ##### C P P T O K E N S ##### ##### ##### ############################################################################### ############################################################################### # the list of supported C-preprocessor tokens # plus a couple of C tokens as well tokEOF = "\0" tokLN = "\n" tokSTRINGIFY = "#" tokCONCAT = "##" tokLOGICAND = "&&" tokLOGICOR = "||" tokSHL = "<<" tokSHR = ">>" tokEQUAL = "==" tokNEQUAL = "!=" tokLT = "<" tokLTE = "<=" tokGT = ">" tokGTE = ">=" tokELLIPSIS = "..." tokSPACE = " " tokDEFINED = "defined" tokLPAREN = "(" tokRPAREN = ")" tokNOT = "!" tokPLUS = "+" tokMINUS = "-" tokMULTIPLY = "*" tokDIVIDE = "/" tokMODULUS = "%" tokBINAND = "&" tokBINOR = "|" tokBINXOR = "^" tokCOMMA = "," tokLBRACE = "{" tokRBRACE = "}" tokARROW = "->" tokINCREMENT = "++" tokDECREMENT = "--" tokNUMBER = "" tokIDENT = "" tokSTRING = "" class Token(clang.cindex.Token): """A class that represents one token after parsing. It inherits the class in libclang, with an extra id property to hold the new spelling of the token. The spelling property in the base class is defined as read-only. New names after macro instantiation are saved in their ids now. It also facilitates the renaming of directive optimizations like replacing 'ifndef X' with 'if !defined(X)'. It also overrides the cursor property of the base class. Because the one in libclang always queries based on a single token, which usually doesn't hold useful information. The cursor in this class can be set by calling CppTokenizer.getTokensWithCursors(). Otherwise it returns the one in the base class. """ def __init__(self, tu=None, group=None, int_data=None, ptr_data=None, cursor=None): clang.cindex.Token.__init__(self) self._id = None self._tu = tu self._group = group self._cursor = cursor # self.int_data and self.ptr_data are from the base class. But # self.int_data doesn't accept a None value. if int_data is not None: self.int_data = int_data self.ptr_data = ptr_data @property def id(self): """Name of the token.""" if self._id is None: return self.spelling else: return self._id @id.setter def id(self, new_id): """Setting name of the token.""" self._id = new_id @property def cursor(self): if self._cursor is None: self._cursor = clang.cindex.Token.cursor return self._cursor @cursor.setter def cursor(self, new_cursor): self._cursor = new_cursor def __repr__(self): if self.id == 'defined': return self.id elif self.kind == TokenKind.IDENTIFIER: return "(ident %s)" % self.id return self.id def __str__(self): return self.id class BadExpectedToken(Exception): """An exception that will be raised for unexpected tokens.""" pass # The __contains__ function in libclang SourceRange class contains a bug. It # gives wrong result when dealing with single line range. # Bug filed with upstream: # http://llvm.org/bugs/show_bug.cgi?id=22243, http://reviews.llvm.org/D7277 def SourceRange__contains__(self, other): """Determine if a given location is inside the range.""" if not isinstance(other, SourceLocation): return False if other.file is None and self.start.file is None: pass elif (self.start.file.name != other.file.name or other.file.name != self.end.file.name): # same file name return False # same file, in between lines if self.start.line < other.line < self.end.line: return True # same file, same line elif self.start.line == other.line == self.end.line: if self.start.column <= other.column <= self.end.column: return True elif self.start.line == other.line: # same file first line if self.start.column <= other.column: return True elif other.line == self.end.line: # same file last line if other.column <= self.end.column: return True return False SourceRange.__contains__ = SourceRange__contains__ ################################################################################ ################################################################################ ##### ##### ##### C P P T O K E N I Z E R ##### ##### ##### ################################################################################ ################################################################################ class CppTokenizer(object): """A tokenizer that converts some input text into a list of tokens. It calls libclang's tokenizer to get the parsed tokens. In addition, it updates the cursor property in each token after parsing, by calling getTokensWithCursors(). """ clang_flags = ['-E', '-x', 'c'] options = TranslationUnit.PARSE_DETAILED_PROCESSING_RECORD def __init__(self): """Initialize a new CppTokenizer object.""" self._indexer = clang.cindex.Index.create() self._tu = None self._index = 0 self.tokens = None def _getTokensWithCursors(self): """Helper method to return all tokens with their cursors. The cursor property in a clang Token doesn't provide enough information. Because it is queried based on single token each time without any context, i.e. via calling conf.lib.clang_annotateTokens() with only one token given. So we often see 'INVALID_FILE' in one token's cursor. In this function it passes all the available tokens to get more informative cursors. """ tokens_memory = ctypes.POINTER(clang.cindex.Token)() tokens_count = ctypes.c_uint() conf.lib.clang_tokenize(self._tu, self._tu.cursor.extent, ctypes.byref(tokens_memory), ctypes.byref(tokens_count)) count = int(tokens_count.value) # If we get no tokens, no memory was allocated. Be sure not to return # anything and potentially call a destructor on nothing. if count < 1: return cursors = (Cursor * count)() cursors_memory = ctypes.cast(cursors, ctypes.POINTER(Cursor)) conf.lib.clang_annotateTokens(self._tu, tokens_memory, count, cursors_memory) tokens_array = ctypes.cast( tokens_memory, ctypes.POINTER(clang.cindex.Token * count)).contents token_group = TokenGroup(self._tu, tokens_memory, tokens_count) tokens = [] for i in range(0, count): token = Token(self._tu, token_group, int_data=tokens_array[i].int_data, ptr_data=tokens_array[i].ptr_data, cursor=cursors[i]) # We only want non-comment tokens. if token.kind != TokenKind.COMMENT: tokens.append(token) return tokens def parseString(self, lines): """Parse a list of text lines into a BlockList object.""" file_ = 'no-filename-available.c' self._tu = self._indexer.parse(file_, self.clang_flags, unsaved_files=[(file_, lines)], options=self.options) self.tokens = self._getTokensWithCursors() def parseFile(self, file_): """Parse a file into a BlockList object.""" self._tu = self._indexer.parse(file_, self.clang_flags, options=self.options) self.tokens = self._getTokensWithCursors() def nextToken(self): """Return next token from the list.""" if self._index < len(self.tokens): t = self.tokens[self._index] self._index += 1 return t else: return None class CppStringTokenizer(CppTokenizer): """A CppTokenizer derived class that accepts a string of text as input.""" def __init__(self, line): CppTokenizer.__init__(self) self.parseString(line) class CppFileTokenizer(CppTokenizer): """A CppTokenizer derived class that accepts a file as input.""" def __init__(self, file_): CppTokenizer.__init__(self) self.parseFile(file_) # Unit testing # class CppTokenizerTests(unittest.TestCase): """CppTokenizer tests.""" def get_tokens(self, token_string, line_col=False): tokens = CppStringTokenizer(token_string) token_list = [] while True: token = tokens.nextToken() if not token: break if line_col: token_list.append((token.id, token.location.line, token.location.column)) else: token_list.append(token.id) return token_list def test_hash(self): self.assertEqual(self.get_tokens("#an/example && (01923_xy)"), ["#", "an", "/", "example", tokLOGICAND, tokLPAREN, "01923_xy", tokRPAREN]) def test_parens(self): self.assertEqual(self.get_tokens("FOO(BAR) && defined(BAZ)"), ["FOO", tokLPAREN, "BAR", tokRPAREN, tokLOGICAND, "defined", tokLPAREN, "BAZ", tokRPAREN]) def test_comment(self): self.assertEqual(self.get_tokens("/*\n#\n*/"), []) def test_line_cross(self): self.assertEqual(self.get_tokens("first\nsecond"), ["first", "second"]) def test_line_cross_line_col(self): self.assertEqual(self.get_tokens("first second\n third", True), [("first", 1, 1), ("second", 1, 7), ("third", 2, 3)]) def test_comment_line_col(self): self.assertEqual(self.get_tokens("boo /* what the\nhell */", True), [("boo", 1, 1)]) def test_escapes(self): self.assertEqual(self.get_tokens("an \\\n example", True), [("an", 1, 1), ("example", 2, 2)]) ################################################################################ ################################################################################ ##### ##### ##### C P P E X P R E S S I O N S ##### ##### ##### ################################################################################ ################################################################################ class CppExpr(object): """A class that models the condition of #if directives into an expr tree. Each node in the tree is of the form (op, arg) or (op, arg1, arg2) where "op" is a string describing the operation """ unaries = ["!", "~"] binaries = ["+", "-", "<", "<=", ">=", ">", "&&", "||", "*", "/", "%", "&", "|", "^", "<<", ">>", "==", "!=", "?", ":"] precedences = { "?": 1, ":": 1, "||": 2, "&&": 3, "|": 4, "^": 5, "&": 6, "==": 7, "!=": 7, "<": 8, "<=": 8, ">": 8, ">=": 8, "<<": 9, ">>": 9, "+": 10, "-": 10, "*": 11, "/": 11, "%": 11, "!": 12, "~": 12 } def __init__(self, tokens): """Initialize a CppExpr. 'tokens' must be a CppToken list.""" self.tokens = tokens self._num_tokens = len(tokens) self._index = 0 if debugCppExpr: print("CppExpr: trying to parse %s" % repr(tokens)) self.expr = self.parseExpression(0) if debugCppExpr: print("CppExpr: got " + repr(self.expr)) if self._index != self._num_tokens: self.throw(BadExpectedToken, "crap at end of input (%d != %d): %s" % (self._index, self._num_tokens, repr(tokens))) def throw(self, exception, msg): if self._index < self._num_tokens: tok = self.tokens[self._index] print("%d:%d: %s" % (tok.location.line, tok.location.column, msg)) else: print("EOF: %s" % msg) raise exception(msg) def expectId(self, id): """Check that a given token id is at the current position.""" token = self.tokens[self._index] if self._index >= self._num_tokens or token.id != id: self.throw(BadExpectedToken, "### expecting '%s' in expression, got '%s'" % ( id, token.id)) self._index += 1 def is_decimal(self): token = self.tokens[self._index].id if token[-1] in "ULul": token = token[:-1] try: val = int(token, 10) self._index += 1 return ('int', val) except ValueError: return None def is_octal(self): token = self.tokens[self._index].id if token[-1] in "ULul": token = token[:-1] if len(token) < 2 or token[0] != '0': return None try: val = int(token, 8) self._index += 1 return ('oct', val) except ValueError: return None def is_hexadecimal(self): token = self.tokens[self._index].id if token[-1] in "ULul": token = token[:-1] if len(token) < 3 or (token[:2] != '0x' and token[:2] != '0X'): return None try: val = int(token, 16) self._index += 1 return ('hex', val) except ValueError: return None def is_integer(self): if self.tokens[self._index].kind != TokenKind.LITERAL: return None c = self.is_hexadecimal() if c: return c c = self.is_octal() if c: return c c = self.is_decimal() if c: return c return None def is_number(self): t = self.tokens[self._index] if t.id == tokMINUS and self._index + 1 < self._num_tokens: self._index += 1 c = self.is_integer() if c: op, val = c return (op, -val) if t.id == tokPLUS and self._index + 1 < self._num_tokens: self._index += 1 c = self.is_integer() if c: return c return self.is_integer() def is_defined(self): t = self.tokens[self._index] if t.id != tokDEFINED: return None # We have the defined keyword, check the rest. self._index += 1 used_parens = False if (self._index < self._num_tokens and self.tokens[self._index].id == tokLPAREN): used_parens = True self._index += 1 if self._index >= self._num_tokens: self.throw(BadExpectedToken, "### 'defined' must be followed by macro name or left " "paren") t = self.tokens[self._index] if t.kind != TokenKind.IDENTIFIER: self.throw(BadExpectedToken, "### 'defined' must be followed by macro name") self._index += 1 if used_parens: self.expectId(tokRPAREN) return ("defined", t.id) def is_call_or_ident(self): if self._index >= self._num_tokens: return None t = self.tokens[self._index] if t.kind != TokenKind.IDENTIFIER: return None name = t.id self._index += 1 if (self._index >= self._num_tokens or self.tokens[self._index].id != tokLPAREN): return ("ident", name) params = [] depth = 1 self._index += 1 j = self._index while self._index < self._num_tokens: id = self.tokens[self._index].id if id == tokLPAREN: depth += 1 elif depth == 1 and (id == tokCOMMA or id == tokRPAREN): k = self._index param = self.tokens[j:k] params.append(param) if id == tokRPAREN: break j = self._index + 1 elif id == tokRPAREN: depth -= 1 self._index += 1 if self._index >= self._num_tokens: return None self._index += 1 return ("call", (name, params)) # Implements the "precedence climbing" algorithm from # http://www.engr.mun.ca/~theo/Misc/exp_parsing.htm. # The "classic" algorithm would be fine if we were using a tool to # generate the parser, but we're not. Dijkstra's "shunting yard" # algorithm hasn't been necessary yet. def parseExpression(self, minPrecedence): if self._index >= self._num_tokens: return None node = self.parsePrimary() while (self.token() and self.isBinary(self.token()) and self.precedence(self.token()) >= minPrecedence): op = self.token() self.nextToken() rhs = self.parseExpression(self.precedence(op) + 1) node = (op.id, node, rhs) return node def parsePrimary(self): op = self.token() if self.isUnary(op): self.nextToken() return (op.id, self.parseExpression(self.precedence(op))) primary = None if op.id == tokLPAREN: self.nextToken() primary = self.parseExpression(0) self.expectId(tokRPAREN) elif op.id == "?": self.nextToken() primary = self.parseExpression(0) self.expectId(":") elif op.id == '+' or op.id == '-' or op.kind == TokenKind.LITERAL: primary = self.is_number() # Checking for 'defined' needs to come first now because 'defined' is # recognized as IDENTIFIER. elif op.id == tokDEFINED: primary = self.is_defined() elif op.kind == TokenKind.IDENTIFIER: primary = self.is_call_or_ident() else: self.throw(BadExpectedToken, "didn't expect to see a %s in factor" % ( self.tokens[self._index].id)) return primary def isBinary(self, token): return token.id in self.binaries def isUnary(self, token): return token.id in self.unaries def precedence(self, token): return self.precedences.get(token.id) def token(self): if self._index >= self._num_tokens: return None return self.tokens[self._index] def nextToken(self): self._index += 1 if self._index >= self._num_tokens: return None return self.tokens[self._index] def dump_node(self, e): op = e[0] line = "(" + op if op == "int": line += " %d)" % e[1] elif op == "oct": line += " 0%o)" % e[1] elif op == "hex": line += " 0x%x)" % e[1] elif op == "ident": line += " %s)" % e[1] elif op == "defined": line += " %s)" % e[1] elif op == "call": arg = e[1] line += " %s [" % arg[0] prefix = "" for param in arg[1]: par = "" for tok in param: par += str(tok) line += "%s%s" % (prefix, par) prefix = "," line += "])" elif op in CppExpr.unaries: line += " %s)" % self.dump_node(e[1]) elif op in CppExpr.binaries: line += " %s %s)" % (self.dump_node(e[1]), self.dump_node(e[2])) else: line += " ?%s)" % repr(e[1]) return line def __repr__(self): return self.dump_node(self.expr) def source_node(self, e): op = e[0] if op == "int": return "%d" % e[1] if op == "hex": return "0x%x" % e[1] if op == "oct": return "0%o" % e[1] if op == "ident": # XXX: should try to expand return e[1] if op == "defined": return "defined(%s)" % e[1] prec = CppExpr.precedences.get(op, 1000) arg = e[1] if op in CppExpr.unaries: arg_src = self.source_node(arg) arg_op = arg[0] arg_prec = CppExpr.precedences.get(arg_op, 1000) if arg_prec < prec: return "!(" + arg_src + ")" else: return "!" + arg_src if op in CppExpr.binaries: arg2 = e[2] arg1_op = arg[0] arg2_op = arg2[0] arg1_src = self.source_node(arg) arg2_src = self.source_node(arg2) if CppExpr.precedences.get(arg1_op, 1000) < prec: arg1_src = "(%s)" % arg1_src if CppExpr.precedences.get(arg2_op, 1000) < prec: arg2_src = "(%s)" % arg2_src return "%s %s %s" % (arg1_src, op, arg2_src) return "???" def __str__(self): return self.source_node(self.expr) @staticmethod def int_node(e): if e[0] in ["int", "oct", "hex"]: return e[1] else: return None def toInt(self): return self.int_node(self.expr) def optimize_node(self, e, macros=None): if macros is None: macros = {} op = e[0] if op == "defined": op, name = e if name in macros: if macros[name] == kCppUndefinedMacro: return ("int", 0) else: try: value = int(macros[name]) return ("int", value) except ValueError: return ("defined", macros[name]) if kernel_remove_config_macros and name.startswith("CONFIG_"): return ("int", 0) return e elif op == "ident": op, name = e if name in macros: try: value = int(macros[name]) expanded = ("int", value) except ValueError: expanded = ("ident", macros[name]) return self.optimize_node(expanded, macros) return e elif op == "!": op, v = e v = self.optimize_node(v, macros) if v[0] == "int": if v[1] == 0: return ("int", 1) else: return ("int", 0) return ('!', v) elif op == "&&": op, l, r = e l = self.optimize_node(l, macros) r = self.optimize_node(r, macros) li = self.int_node(l) ri = self.int_node(r) if li is not None: if li == 0: return ("int", 0) else: return r elif ri is not None: if ri == 0: return ("int", 0) else: return l return (op, l, r) elif op == "||": op, l, r = e l = self.optimize_node(l, macros) r = self.optimize_node(r, macros) li = self.int_node(l) ri = self.int_node(r) if li is not None: if li == 0: return r else: return ("int", 1) elif ri is not None: if ri == 0: return l else: return ("int", 1) return (op, l, r) else: return e def optimize(self, macros=None): if macros is None: macros = {} self.expr = self.optimize_node(self.expr, macros) class CppExprTest(unittest.TestCase): """CppExpr unit tests.""" def get_expr(self, expr): return repr(CppExpr(CppStringTokenizer(expr).tokens)) def test_cpp_expr(self): self.assertEqual(self.get_expr("0"), "(int 0)") self.assertEqual(self.get_expr("1"), "(int 1)") self.assertEqual(self.get_expr("-5"), "(int -5)") self.assertEqual(self.get_expr("+1"), "(int 1)") self.assertEqual(self.get_expr("0U"), "(int 0)") self.assertEqual(self.get_expr("015"), "(oct 015)") self.assertEqual(self.get_expr("015l"), "(oct 015)") self.assertEqual(self.get_expr("0x3e"), "(hex 0x3e)") self.assertEqual(self.get_expr("(0)"), "(int 0)") self.assertEqual(self.get_expr("1 && 1"), "(&& (int 1) (int 1))") self.assertEqual(self.get_expr("1 && 0"), "(&& (int 1) (int 0))") self.assertEqual(self.get_expr("EXAMPLE"), "(ident EXAMPLE)") self.assertEqual(self.get_expr("EXAMPLE - 3"), "(- (ident EXAMPLE) (int 3))") self.assertEqual(self.get_expr("defined(EXAMPLE)"), "(defined EXAMPLE)") self.assertEqual(self.get_expr("defined ( EXAMPLE ) "), "(defined EXAMPLE)") self.assertEqual(self.get_expr("!defined(EXAMPLE)"), "(! (defined EXAMPLE))") self.assertEqual(self.get_expr("defined(ABC) || defined(BINGO)"), "(|| (defined ABC) (defined BINGO))") self.assertEqual(self.get_expr("FOO(BAR,5)"), "(call FOO [BAR,5])") self.assertEqual(self.get_expr("A == 1 || defined(B)"), "(|| (== (ident A) (int 1)) (defined B))") def get_expr_optimize(self, expr, macros=None): if macros is None: macros = {} e = CppExpr(CppStringTokenizer(expr).tokens) e.optimize(macros) return repr(e) def test_cpp_expr_optimize(self): self.assertEqual(self.get_expr_optimize("0"), "(int 0)") self.assertEqual(self.get_expr_optimize("1"), "(int 1)") self.assertEqual(self.get_expr_optimize("1 && 1"), "(int 1)") self.assertEqual(self.get_expr_optimize("1 && +1"), "(int 1)") self.assertEqual(self.get_expr_optimize("0x1 && 01"), "(oct 01)") self.assertEqual(self.get_expr_optimize("1 && 0"), "(int 0)") self.assertEqual(self.get_expr_optimize("0 && 1"), "(int 0)") self.assertEqual(self.get_expr_optimize("0 && 0"), "(int 0)") self.assertEqual(self.get_expr_optimize("1 || 1"), "(int 1)") self.assertEqual(self.get_expr_optimize("1 || 0"), "(int 1)") self.assertEqual(self.get_expr_optimize("0 || 1"), "(int 1)") self.assertEqual(self.get_expr_optimize("0 || 0"), "(int 0)") self.assertEqual(self.get_expr_optimize("A"), "(ident A)") self.assertEqual(self.get_expr_optimize("A", {"A": 1}), "(int 1)") self.assertEqual(self.get_expr_optimize("A || B", {"A": 1}), "(int 1)") self.assertEqual(self.get_expr_optimize("A || B", {"B": 1}), "(int 1)") self.assertEqual(self.get_expr_optimize("A && B", {"A": 1}), "(ident B)") self.assertEqual(self.get_expr_optimize("A && B", {"B": 1}), "(ident A)") self.assertEqual(self.get_expr_optimize("A && B"), "(&& (ident A) (ident B))") self.assertEqual(self.get_expr_optimize("EXAMPLE"), "(ident EXAMPLE)") self.assertEqual(self.get_expr_optimize("EXAMPLE - 3"), "(- (ident EXAMPLE) (int 3))") self.assertEqual(self.get_expr_optimize("defined(EXAMPLE)"), "(defined EXAMPLE)") self.assertEqual(self.get_expr_optimize("defined(EXAMPLE)", {"EXAMPLE": "XOWOE"}), "(defined XOWOE)") self.assertEqual(self.get_expr_optimize("defined(EXAMPLE)", {"EXAMPLE": kCppUndefinedMacro}), "(int 0)") self.assertEqual(self.get_expr_optimize("!defined(EXAMPLE)"), "(! (defined EXAMPLE))") self.assertEqual(self.get_expr_optimize("!defined(EXAMPLE)", {"EXAMPLE": "XOWOE"}), "(! (defined XOWOE))") self.assertEqual(self.get_expr_optimize("!defined(EXAMPLE)", {"EXAMPLE": kCppUndefinedMacro}), "(int 1)") self.assertEqual(self.get_expr_optimize("defined(A) || defined(B)"), "(|| (defined A) (defined B))") self.assertEqual(self.get_expr_optimize("defined(A) || defined(B)", {"A": "1"}), "(int 1)") self.assertEqual(self.get_expr_optimize("defined(A) || defined(B)", {"B": "1"}), "(int 1)") self.assertEqual(self.get_expr_optimize("defined(A) || defined(B)", {"B": kCppUndefinedMacro}), "(defined A)") self.assertEqual(self.get_expr_optimize("defined(A) || defined(B)", {"A": kCppUndefinedMacro, "B": kCppUndefinedMacro}), "(int 0)") self.assertEqual(self.get_expr_optimize("defined(A) && defined(B)"), "(&& (defined A) (defined B))") self.assertEqual(self.get_expr_optimize("defined(A) && defined(B)", {"A": "1"}), "(defined B)") self.assertEqual(self.get_expr_optimize("defined(A) && defined(B)", {"B": "1"}), "(defined A)") self.assertEqual(self.get_expr_optimize("defined(A) && defined(B)", {"B": kCppUndefinedMacro}), "(int 0)") self.assertEqual(self.get_expr_optimize("defined(A) && defined(B)", {"A": kCppUndefinedMacro}), "(int 0)") self.assertEqual(self.get_expr_optimize("A == 1 || defined(B)"), "(|| (== (ident A) (int 1)) (defined B))") self.assertEqual(self.get_expr_optimize( "defined(__KERNEL__) || !defined(__GLIBC__) || (__GLIBC__ < 2)", {"__KERNEL__": kCppUndefinedMacro}), "(|| (! (defined __GLIBC__)) (< (ident __GLIBC__) (int 2)))") def get_expr_string(self, expr): return str(CppExpr(CppStringTokenizer(expr).tokens)) def test_cpp_expr_string(self): self.assertEqual(self.get_expr_string("0"), "0") self.assertEqual(self.get_expr_string("1"), "1") self.assertEqual(self.get_expr_string("1 && 1"), "1 && 1") self.assertEqual(self.get_expr_string("1 && 0"), "1 && 0") self.assertEqual(self.get_expr_string("0 && 1"), "0 && 1") self.assertEqual(self.get_expr_string("0 && 0"), "0 && 0") self.assertEqual(self.get_expr_string("1 || 1"), "1 || 1") self.assertEqual(self.get_expr_string("1 || 0"), "1 || 0") self.assertEqual(self.get_expr_string("0 || 1"), "0 || 1") self.assertEqual(self.get_expr_string("0 || 0"), "0 || 0") self.assertEqual(self.get_expr_string("EXAMPLE"), "EXAMPLE") self.assertEqual(self.get_expr_string("EXAMPLE - 3"), "EXAMPLE - 3") self.assertEqual(self.get_expr_string("defined(EXAMPLE)"), "defined(EXAMPLE)") self.assertEqual(self.get_expr_string("defined EXAMPLE"), "defined(EXAMPLE)") self.assertEqual(self.get_expr_string("A == 1 || defined(B)"), "A == 1 || defined(B)") ################################################################################ ################################################################################ ##### ##### ##### C P P B L O C K ##### ##### ##### ################################################################################ ################################################################################ class Block(object): """A class used to model a block of input source text. There are two block types: - directive blocks: contain the tokens of a single pre-processor directive (e.g. #if) - text blocks, contain the tokens of non-directive blocks The cpp parser class below will transform an input source file into a list of Block objects (grouped in a BlockList object for convenience) """ def __init__(self, tokens, directive=None, lineno=0, identifier=None): """Initialize a new block, if 'directive' is None, it is a text block. NOTE: This automatically converts '#ifdef MACRO' into '#if defined(MACRO)' and '#ifndef MACRO' into '#if !defined(MACRO)'. """ if directive == "ifdef": tok = Token() tok.id = tokDEFINED tokens = [tok] + tokens directive = "if" elif directive == "ifndef": tok1 = Token() tok2 = Token() tok1.id = tokNOT tok2.id = tokDEFINED tokens = [tok1, tok2] + tokens directive = "if" self.tokens = tokens self.directive = directive self.define_id = identifier if lineno > 0: self.lineno = lineno else: self.lineno = self.tokens[0].location.line if self.isIf(): self.expr = CppExpr(self.tokens) def isDirective(self): """Return True iff this is a directive block.""" return self.directive is not None def isConditional(self): """Return True iff this is a conditional directive block.""" return self.directive in ["if", "ifdef", "ifndef", "else", "elif", "endif"] def isDefine(self): """Return the macro name in a #define directive, or None otherwise.""" if self.directive != "define": return None return self.define_id def isIf(self): """Return True iff this is an #if-like directive block.""" return self.directive in ["if", "ifdef", "ifndef", "elif"] def isEndif(self): """Return True iff this is an #endif directive block.""" return self.directive == "endif" def isInclude(self): """Check whether this is a #include directive. If true, returns the corresponding file name (with brackets or double-qoutes). None otherwise. """ if self.directive != "include": return None return ''.join([str(x) for x in self.tokens]) @staticmethod def format_blocks(tokens, indent=0): """Return the formatted lines of strings with proper indentation.""" newline = True result = [] buf = '' i = 0 while i < len(tokens): t = tokens[i] if t.id == '{': buf += ' {' result.append(strip_space(buf)) # Do not indent if this is extern "C" { if i < 2 or tokens[i-2].id != 'extern' or tokens[i-1].id != '"C"': indent += 2 buf = '' newline = True elif t.id == '}': if indent >= 2: indent -= 2 if not newline: result.append(strip_space(buf)) # Look ahead to determine if it's the end of line. if (i + 1 < len(tokens) and (tokens[i+1].id == ';' or tokens[i+1].id in ['else', '__attribute__', '__attribute', '__packed'] or tokens[i+1].kind == TokenKind.IDENTIFIER)): buf = ' ' * indent + '}' newline = False else: result.append(' ' * indent + '}') buf = '' newline = True elif t.id == ';': result.append(strip_space(buf) + ';') buf = '' newline = True # We prefer a new line for each constant in enum. elif t.id == ',' and t.cursor.kind == CursorKind.ENUM_DECL: result.append(strip_space(buf) + ',') buf = '' newline = True else: if newline: buf += ' ' * indent + str(t) else: buf += ' ' + str(t) newline = False i += 1 if buf: result.append(strip_space(buf)) return result, indent def write(self, out, indent): """Dump the current block.""" # removeWhiteSpace() will sometimes creates non-directive blocks # without any tokens. These come from blocks that only contained # empty lines and spaces. They should not be printed in the final # output, and then should not be counted for this operation. # if self.directive is None and not self.tokens: return indent if self.directive: out.write(str(self) + '\n') else: lines, indent = self.format_blocks(self.tokens, indent) for line in lines: out.write(line + '\n') return indent def __repr__(self): """Generate the representation of a given block.""" if self.directive: result = "#%s " % self.directive if self.isIf(): result += repr(self.expr) else: for tok in self.tokens: result += repr(tok) else: result = "" for tok in self.tokens: result += repr(tok) return result def __str__(self): """Generate the string representation of a given block.""" if self.directive: # "#if" if self.directive == "if": # small optimization to re-generate #ifdef and #ifndef e = self.expr.expr op = e[0] if op == "defined": result = "#ifdef %s" % e[1] elif op == "!" and e[1][0] == "defined": result = "#ifndef %s" % e[1][1] else: result = "#if " + str(self.expr) # "#define" elif self.isDefine(): result = "#%s %s" % (self.directive, self.define_id) if self.tokens: result += " " expr = strip_space(' '.join([tok.id for tok in self.tokens])) # remove the space between name and '(' in function call result += re.sub(r'(\w+) \(', r'\1(', expr) # "#error" # Concatenating tokens with a space separator, because they may # not be quoted and broken into several tokens elif self.directive == "error": result = "#error %s" % ' '.join([tok.id for tok in self.tokens]) else: result = "#%s" % self.directive if self.tokens: result += " " result += ''.join([tok.id for tok in self.tokens]) else: lines, _ = self.format_blocks(self.tokens) result = '\n'.join(lines) return result class BlockList(object): """A convenience class used to hold and process a list of blocks. It calls the cpp parser to get the blocks. """ def __init__(self, blocks): self.blocks = blocks def __len__(self): return len(self.blocks) def __getitem__(self, n): return self.blocks[n] def __repr__(self): return repr(self.blocks) def __str__(self): result = '\n'.join([str(b) for b in self.blocks]) return result def dump(self): """Dump all the blocks in current BlockList.""" print('##### BEGIN #####') for i, b in enumerate(self.blocks): print('### BLOCK %d ###' % i) print(b) print('##### END #####') def optimizeIf01(self): """Remove the code between #if 0 .. #endif in a BlockList.""" self.blocks = optimize_if01(self.blocks) def optimizeMacros(self, macros): """Remove known defined and undefined macros from a BlockList.""" for b in self.blocks: if b.isIf(): b.expr.optimize(macros) def removeStructs(self, structs): """Remove structs.""" for b in self.blocks: # Have to look in each block for a top-level struct definition. if b.directive: continue num_tokens = len(b.tokens) # A struct definition has at least 5 tokens: # struct # ident # { # } # ; if num_tokens < 5: continue # This is a simple struct finder, it might fail if a top-level # structure has an #if type directives that confuses the algorithm # for finding th end of the structure. Or if there is another # structure definition embedded in the structure. i = 0 while i < num_tokens - 2: if (b.tokens[i].kind != TokenKind.KEYWORD or b.tokens[i].id != "struct"): i += 1 continue if (b.tokens[i + 1].kind == TokenKind.IDENTIFIER and b.tokens[i + 2].kind == TokenKind.PUNCTUATION and b.tokens[i + 2].id == "{" and b.tokens[i + 1].id in structs): # Search forward for the end of the structure. # Very simple search, look for } and ; tokens. If something # more complicated is needed we can add it later. j = i + 3 while j < num_tokens - 1: if (b.tokens[j].kind == TokenKind.PUNCTUATION and b.tokens[j].id == "}" and b.tokens[j + 1].kind == TokenKind.PUNCTUATION and b.tokens[j + 1].id == ";"): b.tokens = b.tokens[0:i] + b.tokens[j + 2:num_tokens] num_tokens = len(b.tokens) j = i break j += 1 i = j continue i += 1 def optimizeAll(self, macros): self.optimizeMacros(macros) self.optimizeIf01() return def findIncludes(self): """Return the list of included files in a BlockList.""" result = [] for b in self.blocks: i = b.isInclude() if i: result.append(i) return result def write(self, out): indent = 0 for b in self.blocks: indent = b.write(out, indent) def removeVarsAndFuncs(self, keep): """Remove variable and function declarations. All extern and static declarations corresponding to variable and function declarations are removed. We only accept typedefs and enum/structs/union declarations. In addition, remove any macros expanding in the headers. Usually, these macros are static inline functions, which is why they are removed. However, we keep the definitions corresponding to the set of known static inline functions in the set 'keep', which is useful for optimized byteorder swap functions and stuff like that. """ # state = NORMAL => normal (i.e. LN + spaces) # state = OTHER_DECL => typedef/struct encountered, ends with ";" # state = VAR_DECL => var declaration encountered, ends with ";" # state = FUNC_DECL => func declaration encountered, ends with "}" NORMAL = 0 OTHER_DECL = 1 VAR_DECL = 2 FUNC_DECL = 3 state = NORMAL depth = 0 blocksToKeep = [] blocksInProgress = [] blocksOfDirectives = [] ident = "" state_token = "" macros = set() for block in self.blocks: if block.isDirective(): # Record all macros. if block.directive == 'define': macro_name = block.define_id paren_index = macro_name.find('(') if paren_index == -1: macros.add(macro_name) else: macros.add(macro_name[0:paren_index]) blocksInProgress.append(block) # If this is in a function/variable declaration, we might need # to emit the directives alone, so save them separately. blocksOfDirectives.append(block) continue numTokens = len(block.tokens) lastTerminatorIndex = 0 i = 0 while i < numTokens: token_id = block.tokens[i].id terminator = False if token_id == '{': depth += 1 if (i >= 2 and block.tokens[i-2].id == 'extern' and block.tokens[i-1].id == '"C"'): # For an extern "C" { pretend as though this is depth 0. depth -= 1 elif token_id == '}': if depth > 0: depth -= 1 if depth == 0: if state == OTHER_DECL: # Loop through until we hit the ';' i += 1 while i < numTokens: if block.tokens[i].id == ';': token_id = ';' break i += 1 # If we didn't hit the ';', just consider this the # terminator any way. terminator = True elif depth == 0: if token_id == ';': if state == NORMAL: blocksToKeep.extend(blocksInProgress) blocksInProgress = [] blocksOfDirectives = [] state = FUNC_DECL terminator = True elif (state == NORMAL and token_id == '(' and i >= 1 and block.tokens[i-1].kind == TokenKind.IDENTIFIER and block.tokens[i-1].id in macros): # This is a plain macro being expanded in the header # which needs to be removed. blocksToKeep.extend(blocksInProgress) if lastTerminatorIndex < i - 1: blocksToKeep.append(Block(block.tokens[lastTerminatorIndex:i-1])) blocksInProgress = [] blocksOfDirectives = [] # Skip until we see the terminating ')' i += 1 paren_depth = 1 while i < numTokens: if block.tokens[i].id == ')': paren_depth -= 1 if paren_depth == 0: break elif block.tokens[i].id == '(': paren_depth += 1 i += 1 lastTerminatorIndex = i + 1 elif (state != FUNC_DECL and token_id == '(' and state_token != 'typedef'): blocksToKeep.extend(blocksInProgress) blocksInProgress = [] blocksOfDirectives = [] state = VAR_DECL elif state == NORMAL and token_id in ['struct', 'typedef', 'enum', 'union', '__extension__']: state = OTHER_DECL state_token = token_id elif block.tokens[i].kind == TokenKind.IDENTIFIER: if state != VAR_DECL or ident == "": ident = token_id if terminator: if state != VAR_DECL and state != FUNC_DECL or ident in keep: blocksInProgress.append(Block(block.tokens[lastTerminatorIndex:i+1])) blocksToKeep.extend(blocksInProgress) else: # Only keep the directives found. blocksToKeep.extend(blocksOfDirectives) lastTerminatorIndex = i + 1 blocksInProgress = [] blocksOfDirectives = [] state = NORMAL ident = "" state_token = "" i += 1 if lastTerminatorIndex < numTokens: blocksInProgress.append(Block(block.tokens[lastTerminatorIndex:numTokens])) if len(blocksInProgress) > 0: blocksToKeep.extend(blocksInProgress) self.blocks = blocksToKeep def replaceTokens(self, replacements): """Replace tokens according to the given dict.""" extra_includes = [] for b in self.blocks: made_change = False if b.isInclude() is None: i = 0 while i < len(b.tokens): tok = b.tokens[i] if (tok.kind == TokenKind.KEYWORD and tok.id == 'struct' and (i + 2) < len(b.tokens) and b.tokens[i + 2].id == '{'): struct_name = b.tokens[i + 1].id if struct_name in kernel_struct_replacements: extra_includes.append("" % struct_name) end = i + 2 while end < len(b.tokens) and b.tokens[end].id != '}': end += 1 end += 1 # Swallow '}' while end < len(b.tokens) and b.tokens[end].id != ';': end += 1 end += 1 # Swallow ';' # Remove these tokens. We'll replace them later with a #include block. b.tokens[i:end] = [] made_change = True # We've just modified b.tokens, so revisit the current offset. continue if tok.kind == TokenKind.IDENTIFIER: if tok.id in replacements: tok.id = replacements[tok.id] made_change = True i += 1 if b.isDefine() and b.define_id in replacements: b.define_id = replacements[b.define_id] made_change = True if made_change and b.isIf(): # Keep 'expr' in sync with 'tokens'. b.expr = CppExpr(b.tokens) for extra_include in extra_includes: replacement = CppStringTokenizer(extra_include) self.blocks.insert(2, Block(replacement.tokens, directive='include')) def strip_space(s): """Strip out redundant space in a given string.""" # NOTE: It ought to be more clever to not destroy spaces in string tokens. replacements = {' . ': '.', ' [': '[', '[ ': '[', ' ]': ']', '( ': '(', ' )': ')', ' ,': ',', '# ': '#', ' ;': ';', '~ ': '~', ' -> ': '->'} result = s for r in replacements: result = result.replace(r, replacements[r]) # Remove the space between function name and the parenthesis. result = re.sub(r'(\w+) \(', r'\1(', result) return result class BlockParser(object): """A class that converts an input source file into a BlockList object.""" def __init__(self, tokzer=None): """Initialize a block parser. The input source is provided through a Tokenizer object. """ self._tokzer = tokzer self._parsed = False @property def parsed(self): return self._parsed @staticmethod def _short_extent(extent): return '%d:%d - %d:%d' % (extent.start.line, extent.start.column, extent.end.line, extent.end.column) def getBlocks(self, tokzer=None): """Return all the blocks parsed.""" def consume_extent(i, tokens, extent=None, detect_change=False): """Return tokens that belong to the given extent. It parses all the tokens that follow tokens[i], until getting out of the extent. When detect_change is True, it may terminate early when detecting preprocessing directives inside the extent. """ result = [] if extent is None: extent = tokens[i].cursor.extent while i < len(tokens) and tokens[i].location in extent: t = tokens[i] if debugBlockParser: print(' ' * 2, t.id, t.kind, t.cursor.kind) if (detect_change and t.cursor.extent != extent and t.cursor.kind == CursorKind.PREPROCESSING_DIRECTIVE): break result.append(t) i += 1 return (i, result) def consume_line(i, tokens): """Return tokens that follow tokens[i] in the same line.""" result = [] line = tokens[i].location.line while i < len(tokens) and tokens[i].location.line == line: if tokens[i].cursor.kind == CursorKind.PREPROCESSING_DIRECTIVE: break result.append(tokens[i]) i += 1 return (i, result) if tokzer is None: tokzer = self._tokzer tokens = tokzer.tokens blocks = [] buf = [] i = 0 while i < len(tokens): t = tokens[i] cursor = t.cursor if debugBlockParser: print ("%d: Processing [%s], kind=[%s], cursor=[%s], " "extent=[%s]" % (t.location.line, t.spelling, t.kind, cursor.kind, self._short_extent(cursor.extent))) if cursor.kind == CursorKind.PREPROCESSING_DIRECTIVE: if buf: blocks.append(Block(buf)) buf = [] j = i if j + 1 >= len(tokens): raise BadExpectedToken("### BAD TOKEN at %s" % (t.location)) directive = tokens[j+1].id if directive == 'define': if i+2 >= len(tokens): raise BadExpectedToken("### BAD TOKEN at %s" % (tokens[i].location)) # Skip '#' and 'define'. extent = tokens[i].cursor.extent i += 2 id = '' # We need to separate the id from the remaining of # the line, especially for the function-like macro. if (i + 1 < len(tokens) and tokens[i+1].id == '(' and (tokens[i].location.column + len(tokens[i].spelling) == tokens[i+1].location.column)): while i < len(tokens): id += tokens[i].id if tokens[i].spelling == ')': i += 1 break i += 1 else: id += tokens[i].id # Advance to the next token that follows the macro id i += 1 (i, ret) = consume_extent(i, tokens, extent=extent) blocks.append(Block(ret, directive=directive, lineno=t.location.line, identifier=id)) else: (i, ret) = consume_extent(i, tokens) blocks.append(Block(ret[2:], directive=directive, lineno=t.location.line)) elif cursor.kind == CursorKind.INCLUSION_DIRECTIVE: if buf: blocks.append(Block(buf)) buf = [] directive = tokens[i+1].id (i, ret) = consume_extent(i, tokens) blocks.append(Block(ret[2:], directive=directive, lineno=t.location.line)) elif cursor.kind == CursorKind.VAR_DECL: if buf: blocks.append(Block(buf)) buf = [] (i, ret) = consume_extent(i, tokens, detect_change=True) buf += ret elif cursor.kind == CursorKind.FUNCTION_DECL: if buf: blocks.append(Block(buf)) buf = [] (i, ret) = consume_extent(i, tokens, detect_change=True) buf += ret else: (i, ret) = consume_line(i, tokens) buf += ret if buf: blocks.append(Block(buf)) # _parsed=True indicates a successful parsing, although may result an # empty BlockList. self._parsed = True return BlockList(blocks) def parse(self, tokzer): return self.getBlocks(tokzer) def parseFile(self, path): return self.getBlocks(CppFileTokenizer(path)) class BlockParserTests(unittest.TestCase): """BlockParser unit tests.""" def get_blocks(self, lines): blocks = BlockParser().parse(CppStringTokenizer('\n'.join(lines))) return map(lambda a: str(a), blocks) def test_hash(self): self.assertEqual(self.get_blocks(["#error hello"]), ["#error hello"]) def test_empty_line(self): self.assertEqual(self.get_blocks(["foo", "", "bar"]), ["foo bar"]) def test_hash_with_space(self): # We currently cannot handle the following case with libclang properly. # Fortunately it doesn't appear in current headers. #self.assertEqual(self.get_blocks(["foo", " # ", "bar"]), ["foo", "bar"]) pass def test_with_comment(self): self.assertEqual(self.get_blocks(["foo", " # /* ahah */ if defined(__KERNEL__) /* more */", "bar", "#endif"]), ["foo", "#ifdef __KERNEL__", "bar", "#endif"]) ################################################################################ ################################################################################ ##### ##### ##### B L O C K L I S T O P T I M I Z A T I O N ##### ##### ##### ################################################################################ ################################################################################ def find_matching_endif(blocks, i): """Traverse the blocks to find out the matching #endif.""" n = len(blocks) depth = 1 while i < n: if blocks[i].isDirective(): dir_ = blocks[i].directive if dir_ in ["if", "ifndef", "ifdef"]: depth += 1 elif depth == 1 and dir_ in ["else", "elif"]: return i elif dir_ == "endif": depth -= 1 if depth == 0: return i i += 1 return i def optimize_if01(blocks): """Remove the code between #if 0 .. #endif in a list of CppBlocks.""" i = 0 n = len(blocks) result = [] while i < n: j = i while j < n and not blocks[j].isIf(): j += 1 if j > i: logging.debug("appending lines %d to %d", blocks[i].lineno, blocks[j-1].lineno) result += blocks[i:j] if j >= n: break expr = blocks[j].expr r = expr.toInt() if r is None: result.append(blocks[j]) i = j + 1 continue if r == 0: # if 0 => skip everything until the corresponding #endif start_dir = blocks[j].directive j = find_matching_endif(blocks, j + 1) if j >= n: # unterminated #if 0, finish here break dir_ = blocks[j].directive if dir_ == "endif": logging.debug("remove 'if 0' .. 'endif' (lines %d to %d)", blocks[i].lineno, blocks[j].lineno) if start_dir == "elif": # Put an endif since we started with an elif. result += blocks[j:j+1] i = j + 1 elif dir_ == "else": # convert 'else' into 'if 1' logging.debug("convert 'if 0' .. 'else' into 'if 1' (lines %d " "to %d)", blocks[i].lineno, blocks[j-1].lineno) if start_dir == "elif": blocks[j].directive = "elif" else: blocks[j].directive = "if" blocks[j].expr = CppExpr(CppStringTokenizer("1").tokens) i = j elif dir_ == "elif": # convert 'elif' into 'if' logging.debug("convert 'if 0' .. 'elif' into 'if'") if start_dir == "elif": blocks[j].directive = "elif" else: blocks[j].directive = "if" i = j continue # if 1 => find corresponding endif and remove/transform them k = find_matching_endif(blocks, j + 1) if k >= n: # unterminated #if 1, finish here logging.debug("unterminated 'if 1'") result += blocks[j+1:k] break start_dir = blocks[j].directive dir_ = blocks[k].directive if dir_ == "endif": logging.debug("convert 'if 1' .. 'endif' (lines %d to %d)", blocks[j].lineno, blocks[k].lineno) if start_dir == "elif": # Add the elif in to the results and convert it to an elif 1. blocks[j].tokens = CppStringTokenizer("1").tokens result += blocks[j:j+1] result += optimize_if01(blocks[j+1:k]) if start_dir == "elif": # Add the endif in to the results. result += blocks[k:k+1] i = k + 1 elif dir_ == "else": # convert 'else' into 'if 0' logging.debug("convert 'if 1' .. 'else' (lines %d to %d)", blocks[j].lineno, blocks[k].lineno) if start_dir == "elif": # Add the elif in to the results and convert it to an elif 1. blocks[j].tokens = CppStringTokenizer("1").tokens result += blocks[j:j+1] result += optimize_if01(blocks[j+1:k]) if start_dir == "elif": blocks[k].directive = "elif" else: blocks[k].directive = "if" blocks[k].expr = CppExpr(CppStringTokenizer("0").tokens) i = k elif dir_ == "elif": # convert 'elif' into 'if 0' logging.debug("convert 'if 1' .. 'elif' (lines %d to %d)", blocks[j].lineno, blocks[k].lineno) result += optimize_if01(blocks[j+1:k]) blocks[k].expr = CppExpr(CppStringTokenizer("0").tokens) i = k return result class OptimizerTests(unittest.TestCase): def parse(self, text, macros=None): out = utils.StringOutput() blocks = BlockParser().parse(CppStringTokenizer(text)) blocks.optimizeAll(macros) blocks.write(out) return out.get() def test_if1(self): text = """\ #if 1 #define GOOD #endif """ expected = """\ #define GOOD """ self.assertEqual(self.parse(text), expected) def test_if0(self): text = """\ #if 0 #define SHOULD_SKIP1 #define SHOULD_SKIP2 #endif """ expected = "" self.assertEqual(self.parse(text), expected) def test_if1_else(self): text = """\ #if 1 #define GOOD #else #define BAD #endif """ expected = """\ #define GOOD """ self.assertEqual(self.parse(text), expected) def test_if0_else(self): text = """\ #if 0 #define BAD #else #define GOOD #endif """ expected = """\ #define GOOD """ self.assertEqual(self.parse(text), expected) def test_if_elif1(self): text = """\ #if defined(something) #define EXISTS #elif 1 #define GOOD #endif """ expected = """\ #ifdef something #define EXISTS #elif 1 #define GOOD #endif """ self.assertEqual(self.parse(text), expected) def test_if_elif1_macro(self): text = """\ #if defined(something) #define EXISTS #elif defined(WILL_BE_ONE) #define GOOD #endif """ expected = """\ #ifdef something #define EXISTS #elif 1 #define GOOD #endif """ self.assertEqual(self.parse(text, {"WILL_BE_ONE": "1"}), expected) def test_if_elif1_else(self): text = """\ #if defined(something) #define EXISTS #elif 1 #define GOOD #else #define BAD #endif """ expected = """\ #ifdef something #define EXISTS #elif 1 #define GOOD #endif """ self.assertEqual(self.parse(text), expected) def test_if_elif1_else_macro(self): text = """\ #if defined(something) #define EXISTS #elif defined(WILL_BE_ONE) #define GOOD #else #define BAD #endif """ expected = """\ #ifdef something #define EXISTS #elif 1 #define GOOD #endif """ self.assertEqual(self.parse(text, {"WILL_BE_ONE": "1"}), expected) def test_if_elif1_else_macro(self): text = """\ #if defined(something) #define EXISTS #elif defined(WILL_BE_ONE) #define GOOD #else #define BAD #endif """ expected = """\ #ifdef something #define EXISTS #elif 1 #define GOOD #endif """ self.assertEqual(self.parse(text, {"WILL_BE_ONE": "1"}), expected) def test_macro_set_to_undefined_single(self): text = """\ #if defined(__KERNEL__) #define BAD_KERNEL #endif """ expected = "" macros = {"__KERNEL__": kCppUndefinedMacro} self.assertEqual(self.parse(text, macros), expected) def test_macro_set_to_undefined_if(self): text = """\ #if defined(__KERNEL__) || !defined(__GLIBC__) || (__GLIBC__ < 2) #define CHECK #endif """ expected = """\ #if !defined(__GLIBC__) || __GLIBC__ < 2 #define CHECK #endif """ macros = {"__KERNEL__": kCppUndefinedMacro} self.assertEqual(self.parse(text, macros), expected) def test_endif_comment_removed(self): text = """\ #ifndef SIGRTMAX #define SIGRTMAX 123 #endif /* SIGRTMAX */ """ expected = """\ #ifndef SIGRTMAX #define SIGRTMAX 123 #endif """ self.assertEqual(self.parse(text), expected) def test_multilevel_if0(self): text = """\ #if 0 #if 1 #define BAD_6 #endif #endif """ expected = "" self.assertEqual(self.parse(text), expected) class RemoveStructsTests(unittest.TestCase): def parse(self, text, structs): out = utils.StringOutput() blocks = BlockParser().parse(CppStringTokenizer(text)) blocks.removeStructs(structs) blocks.write(out) return out.get() def test_remove_struct_from_start(self): text = """\ struct remove { int val1; int val2; }; struct something { struct timeval val1; struct timeval val2; }; """ expected = """\ struct something { struct timeval val1; struct timeval val2; }; """ self.assertEqual(self.parse(text, set(["remove"])), expected) def test_remove_struct_from_end(self): text = """\ struct something { struct timeval val1; struct timeval val2; }; struct remove { int val1; int val2; }; """ expected = """\ struct something { struct timeval val1; struct timeval val2; }; """ self.assertEqual(self.parse(text, set(["remove"])), expected) def test_remove_minimal_struct(self): text = """\ struct remove { }; """ expected = ""; self.assertEqual(self.parse(text, set(["remove"])), expected) def test_remove_struct_with_struct_fields(self): text = """\ struct something { struct remove val1; struct remove val2; }; struct remove { int val1; struct something val3; int val2; }; """ expected = """\ struct something { struct remove val1; struct remove val2; }; """ self.assertEqual(self.parse(text, set(["remove"])), expected) def test_remove_consecutive_structs(self): text = """\ struct keep1 { struct timeval val1; struct timeval val2; }; struct remove1 { int val1; int val2; }; struct remove2 { int val1; int val2; int val3; }; struct keep2 { struct timeval val1; struct timeval val2; }; """ expected = """\ struct keep1 { struct timeval val1; struct timeval val2; }; struct keep2 { struct timeval val1; struct timeval val2; }; """ self.assertEqual(self.parse(text, set(["remove1", "remove2"])), expected) def test_remove_multiple_structs(self): text = """\ struct keep1 { int val; }; struct remove1 { int val1; int val2; }; struct keep2 { int val; }; struct remove2 { struct timeval val1; struct timeval val2; }; struct keep3 { int val; }; """ expected = """\ struct keep1 { int val; }; struct keep2 { int val; }; struct keep3 { int val; }; """ self.assertEqual(self.parse(text, set(["remove1", "remove2"])), expected) class FullPathTest(unittest.TestCase): """Test of the full path parsing.""" def parse(self, text, keep=None): if not keep: keep = set() out = utils.StringOutput() blocks = BlockParser().parse(CppStringTokenizer(text)) blocks.removeStructs(kernel_structs_to_remove) blocks.removeVarsAndFuncs(keep) blocks.replaceTokens(kernel_token_replacements) blocks.optimizeAll(None) blocks.write(out) return out.get() def test_function_removed(self): text = """\ static inline __u64 function() { } """ expected = "" self.assertEqual(self.parse(text), expected) def test_function_removed_with_struct(self): text = """\ static inline struct something* function() { } """ expected = "" self.assertEqual(self.parse(text), expected) def test_function_kept(self): text = """\ static inline __u64 function() { } """ expected = """\ static inline __u64 function() { } """ self.assertEqual(self.parse(text, set(["function"])), expected) def test_var_removed(self): text = "__u64 variable;" expected = "" self.assertEqual(self.parse(text), expected) def test_var_kept(self): text = "__u64 variable;" expected = "__u64 variable;\n" self.assertEqual(self.parse(text, set(["variable"])), expected) def test_keep_function_typedef(self): text = "typedef void somefunction_t(void);" expected = "typedef void somefunction_t(void);\n" self.assertEqual(self.parse(text), expected) def test_struct_keep_attribute(self): text = """\ struct something_s { __u32 s1; __u32 s2; } __attribute__((packed)); """ expected = """\ struct something_s { __u32 s1; __u32 s2; } __attribute__((packed)); """ self.assertEqual(self.parse(text), expected) def test_function_keep_attribute_structs(self): text = """\ static __inline__ struct some_struct1 * function(struct some_struct2 * e) { } """ expected = """\ static __inline__ struct some_struct1 * function(struct some_struct2 * e) { } """ self.assertEqual(self.parse(text, set(["function"])), expected) def test_struct_after_struct(self): text = """\ struct first { }; struct second { unsigned short s1; #define SOMETHING 8 unsigned short s2; }; """ expected = """\ struct first { }; struct second { unsigned short s1; #define SOMETHING 8 unsigned short s2; }; """ self.assertEqual(self.parse(text), expected) def test_other_not_removed(self): text = """\ typedef union { __u64 tu1; __u64 tu2; } typedef_name; union { __u64 u1; __u64 u2; }; struct { __u64 s1; __u64 s2; }; enum { ENUM1 = 0, ENUM2, }; __extension__ typedef __signed__ long long __s64; """ expected = """\ typedef union { __u64 tu1; __u64 tu2; } typedef_name; union { __u64 u1; __u64 u2; }; struct { __u64 s1; __u64 s2; }; enum { ENUM1 = 0, ENUM2, }; __extension__ typedef __signed__ long long __s64; """ self.assertEqual(self.parse(text), expected) def test_semicolon_after_function(self): text = """\ static inline __u64 function() { }; struct should_see { __u32 field; }; """ expected = """\ struct should_see { __u32 field; }; """ self.assertEqual(self.parse(text), expected) def test_define_in_middle_keep(self): text = """\ enum { ENUM0 = 0x10, ENUM1 = 0x20, #define SOMETHING SOMETHING_ELSE ENUM2 = 0x40, }; """ expected = """\ enum { ENUM0 = 0x10, ENUM1 = 0x20, #define SOMETHING SOMETHING_ELSE ENUM2 = 0x40, }; """ self.assertEqual(self.parse(text), expected) def test_define_in_middle_remove(self): text = """\ static inline function() { #define SOMETHING1 SOMETHING_ELSE1 i = 0; { i = 1; } #define SOMETHING2 SOMETHING_ELSE2 } """ expected = """\ #define SOMETHING1 SOMETHING_ELSE1 #define SOMETHING2 SOMETHING_ELSE2 """ self.assertEqual(self.parse(text), expected) def test_define_in_middle_force_keep(self): text = """\ static inline function() { #define SOMETHING1 SOMETHING_ELSE1 i = 0; { i = 1; } #define SOMETHING2 SOMETHING_ELSE2 } """ expected = """\ static inline function() { #define SOMETHING1 SOMETHING_ELSE1 i = 0; { i = 1; } #define SOMETHING2 SOMETHING_ELSE2 } """ self.assertEqual(self.parse(text, set(["function"])), expected) def test_define_before_remove(self): text = """\ #define SHOULD_BE_KEPT NOTHING1 #define ANOTHER_TO_KEEP NOTHING2 static inline function() { #define SOMETHING1 SOMETHING_ELSE1 i = 0; { i = 1; } #define SOMETHING2 SOMETHING_ELSE2 } """ expected = """\ #define SHOULD_BE_KEPT NOTHING1 #define ANOTHER_TO_KEEP NOTHING2 #define SOMETHING1 SOMETHING_ELSE1 #define SOMETHING2 SOMETHING_ELSE2 """ self.assertEqual(self.parse(text), expected) def test_extern_C(self): text = """\ #if defined(__cplusplus) extern "C" { #endif struct something { }; #if defined(__cplusplus) } #endif """ expected = """\ #ifdef __cplusplus extern "C" { #endif struct something { }; #ifdef __cplusplus } #endif """ self.assertEqual(self.parse(text), expected) def test_macro_definition_removed(self): text = """\ #define MACRO_FUNCTION_NO_PARAMS static inline some_func() {} MACRO_FUNCTION_NO_PARAMS() #define MACRO_FUNCTION_PARAMS(a) static inline some_func() { a; } MACRO_FUNCTION_PARAMS(a = 1) something that should still be kept MACRO_FUNCTION_PARAMS(b) """ expected = """\ #define MACRO_FUNCTION_NO_PARAMS static inline some_func() { } #define MACRO_FUNCTION_PARAMS(a) static inline some_func() { a; } something that should still be kept """ self.assertEqual(self.parse(text), expected) def test_verify_timeval_itemerval(self): text = """\ struct __kernel_old_timeval { struct something val; }; struct __kernel_old_itimerval { struct __kernel_old_timeval val; }; struct fields { struct __kernel_old_timeval timeval; struct __kernel_old_itimerval itimerval; }; """ expected = """\ struct fields { struct timeval timeval; struct itimerval itimerval; }; """ self.assertEqual(self.parse(text), expected) def test_token_replacement(self): text = """\ #define SIGRTMIN 32 #define SIGRTMAX _NSIG """ expected = """\ #define __SIGRTMIN 32 #define __SIGRTMAX _KERNEL__NSIG """ self.assertEqual(self.parse(text), expected) if __name__ == '__main__': unittest.main()