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path: root/src/mem/slicc/parser.py
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# Copyright (c) 2009 The Hewlett-Packard Development Company
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Nathan Binkert

import os.path
import re
import sys

from m5.util.grammar import Grammar, TokenError, ParseError

import slicc.ast as ast
import slicc.util as util
from slicc.symbols import SymbolTable

def read_slicc(sources):
    if not isinstance(sources, (list,tuple)):
        sources = [ sources ]

    for source in sources:
        for sm_file in file(source, "r"):
            sm_file = sm_file.strip()
            if not sm_file:
                continue
            if sm_file.startswith("#"):
                continue
            yield sm_file

class SLICC(Grammar):
    def __init__(self, **kwargs):
        super(SLICC, self).__init__(**kwargs)
        self.decl_list_vec = []
        self.current_file = None
        self.symtab = SymbolTable()

    def parse(self, filename):
        self.current_file = filename
        f = file(filename, 'r')
        text = f.read()
        try:
            decl_list = super(SLICC, self).parse(text)
        except (TokenError, ParseError), e:
            sys.exit("%s: %s:%d" % (e, filename, e.token.lineno))
        self.decl_list_vec.append(decl_list)
        self.current_file = None

    def _load(self, *filenames):
        filenames = list(filenames)
        while filenames:
            f = filenames.pop(0)
            if isinstance(f, (list, tuple)):
                filenames[0:0] = list(f)
                continue

            yield f
            if f.endswith(".slicc"):
                dirname,basename = os.path.split(f)
                filenames[0:0] = [ os.path.join(dirname, x) \
                                   for x in read_slicc(f)]
            else:
                assert f.endswith(".sm")
                self.parse(f)

    def load(self, *filenames, **kwargs):
        verbose = kwargs.pop("verbose", False)
        if kwargs:
            raise TypeError

        gen = self._load(*filenames)
        if verbose:
            return gen
        else:
            # Run out the generator if we don't want the verbosity
            for foo in gen:
                pass

    def findMachines(self):
        for decl_list in self.decl_list_vec:
            decl_list.findMachines()

    def generate(self):
        for decl_list in self.decl_list_vec:
            decl_list.generate()

    def writeCodeFiles(self, code_path):
        util.makeDir(code_path)
        self.symtab.writeCodeFiles(code_path)

    def writeHTMLFiles(self, code_path):
        util.makeDir(code_path)
        self.symtab.writeHTMLFiles(code_path)

    def files(self):
        f = set([
            'ControllerFactory.cc',
            'ControllerFactory.hh',
            'MachineType.cc',
            'MachineType.hh',
            'Types.hh' ])

        for decl_list in self.decl_list_vec:
            f |= decl_list.files()

        return f

    t_ignore = '\t '

    # C or C++ comment (ignore)
    def t_c_comment(self, t):
        r'/\*(.|\n)*?\*/'
        t.lexer.lineno += t.value.count('\n')

    def t_cpp_comment(self, t):
        r'//.*'

    # Define a rule so we can track line numbers
    def t_newline(self, t):
        r'\n+'
        t.lexer.lineno += len(t.value)

    reserved = {
        'global' : 'GLOBAL',
        'machine' : 'MACHINE',
        'in_port' : 'IN_PORT',
        'out_port' : 'OUT_PORT',
        'action' : 'ACTION',
        'transition' : 'TRANS',
        'structure' : 'STRUCT',
        'external_type' : 'EXTERN_TYPE',
        'enumeration' : 'ENUM',
        'peek' : 'PEEK',
        'enqueue' : 'ENQUEUE',
        'copy_head' : 'COPY_HEAD',
        'check_allocate' : 'CHECK_ALLOCATE',
        'check_stop_slots' : 'CHECK_STOP_SLOTS',
        'if' : 'IF',
        'else' : 'ELSE',
        'return' : 'RETURN',
        'THIS' : 'THIS',
        'CHIP' : 'CHIP',
        'void' : 'VOID',
        'new' : 'NEW',
    }

    literals = ':[]{}(),='

    tokens = [ 'EQ', 'NE', 'LT', 'GT', 'LE', 'GE',
               'LEFTSHIFT', 'RIGHTSHIFT',
               'NOT', 'AND', 'OR',
               'PLUS', 'DASH', 'STAR', 'SLASH',
               'DOUBLE_COLON', 'SEMI',
               'ASSIGN', 'DOT',
               'IDENT', 'LIT_BOOL', 'FLOATNUMBER', 'NUMBER', 'STRING' ]
    tokens += reserved.values()

    t_EQ = r'=='
    t_NE = r'!='
    t_LT = r'<'
    t_GT = r'>'
    t_LE = r'<='
    t_GE = r'>='
    t_LEFTSHIFT = r'<<'
    t_RIGHTSHIFT = r'>>'
    t_NOT = r'!'
    t_AND = r'&&'
    t_OR = r'\|\|'
    t_PLUS = r'\+'
    t_DASH = r'-'
    t_STAR = r'\*'
    t_SLASH = r'/'
    t_DOUBLE_COLON = r'::'
    t_SEMI = r';'
    t_ASSIGN = r':='
    t_DOT = r'\.'

    precedence = (
        ('left', 'AND', 'OR'),
        ('left', 'EQ', 'NE'),
        ('left', 'LT', 'GT', 'LE', 'GE'),
        ('left', 'RIGHTSHIFT', 'LEFTSHIFT'),
        ('left', 'PLUS', 'DASH'),
        ('left', 'STAR', 'SLASH'),
        ('right', 'NOT', 'UMINUS'),
    )

    def t_IDENT(self, t):
        r'[a-zA-Z_][a-zA-Z_0-9]*'
        if t.value == 'true':
            t.type = 'LIT_BOOL'
            t.value = True
            return t

        if t.value == 'false':
            t.type = 'LIT_BOOL'
            t.value = False
            return t

        # Check for reserved words
        t.type = self.reserved.get(t.value, 'IDENT')
        return t

    def t_FLOATNUMBER(self, t):
        '[0-9]+[.][0-9]+'
        try:
            t.value = float(t.value)
        except ValueError:
            raise TokenError("Illegal float", t)
        return t

    def t_NUMBER(self, t):
        r'[0-9]+'
        try:
            t.value = int(t.value)
        except ValueError:
            raise TokenError("Illegal number", t)
        return t

    def t_STRING1(self, t):
        r'\"[^"\n]*\"'
        t.type = 'STRING'
        t.value = t.value[1:-1]
        return t

    def t_STRING2(self, t):
        r"\'[^'\n]*\'"
        t.type = 'STRING'
        t.value = t.value[1:-1]
        return t

    def p_file(self, p):
        "file : decls"
        p[0] = p[1]

    def p_empty(self, p):
        "empty :"

    def p_decls(self, p):
        "decls : declsx"
        p[0] = ast.DeclListAST(self, p[1])

    def p_declsx__list(self, p):
        "declsx : decl declsx"
        p[0] = [ p[1] ] + p[2]

    def p_declsx__none(self, p):
        "declsx : empty"
        p[0] = []

    def p_decl__machine(self, p):
        "decl : MACHINE '(' ident pairs ')' ':' params '{' decls '}'"
        p[0] = ast.MachineAST(self, p[3], p[4], p[7], p[9])

    def p_decl__action(self, p):
        "decl : ACTION '(' ident pairs ')' statements"
        p[0] = ast.ActionDeclAST(self, p[3], p[4], p[6])

    def p_decl__in_port(self, p):
        "decl : IN_PORT '(' ident ',' type ',' var pairs ')' statements"
        p[0] = ast.InPortDeclAST(self, p[3], p[5], p[7], p[8], p[10])

    def p_decl__out_port(self, p):
        "decl : OUT_PORT '(' ident ',' type ',' var pairs ')' SEMI"
        p[0] = ast.OutPortDeclAST(self, p[3], p[5], p[7], p[8])

    def p_decl__trans0(self, p):
        "decl : TRANS '(' idents ',' idents ',' ident pairs ')' idents"
        p[0] = ast.TransitionDeclAST(self, p[3], p[5], p[7], p[8], p[10])

    def p_decl__trans1(self, p):
        "decl : TRANS '(' idents ',' idents           pairs ')' idents"
        p[0] = ast.TransitionDeclAST(self, p[3], p[5], None, p[6], p[8])

    def p_decl__extern0(self, p):
        "decl : EXTERN_TYPE '(' type pairs ')' SEMI"
        p[4]["external"] = "yes"
        p[0] = ast.TypeDeclAST(self, p[3], p[4], [])

    def p_decl__extern1(self, p):
        "decl : EXTERN_TYPE '(' type pairs ')' '{' type_methods '}'"
        p[4]["external"] = "yes"
        p[0] = ast.TypeDeclAST(self, p[3], p[4], p[7])

    def p_decl__global(self, p):
        "decl : GLOBAL '(' type pairs ')' '{' type_members '}'"
        p[4]["global"] = "yes"
        p[0] = ast.TypeDeclAST(self, p[3], p[4], p[7])

    def p_decl__struct(self, p):
        "decl : STRUCT '(' type pairs ')' '{' type_members '}'"
        p[0] = ast.TypeDeclAST(self, p[3], p[4], p[7])

    def p_decl__enum(self, p):
        "decl : ENUM '(' type pairs ')' '{' type_enums   '}'"
        p[4]["enumeration"] = "yes"
        p[0] = ast.EnumDeclAST(self, p[3], p[4], p[7])

    def p_decl__object(self, p):
        "decl : type ident pairs SEMI"
        p[0] = ast.ObjDeclAST(self, p[1], p[2], p[3])

    def p_decl__func_decl(self, p):
        """decl : void ident '(' params ')' pairs SEMI
                | type ident '(' params ')' pairs SEMI"""
        p[0] = ast.FuncDeclAST(self, p[1], p[2], p[4], p[6], None)

    def p_decl__func_def(self, p):
        """decl : void ident '(' params ')' pairs statements
                | type ident '(' params ')' pairs statements"""
        p[0] = ast.FuncDeclAST(self, p[1], p[2], p[4], p[6], p[7])

    # Type fields
    def p_type_members__list(self, p):
        "type_members : type_member type_members"
        p[0] = [ p[1] ] + p[2]

    def p_type_members__empty(self, p):
        "type_members : empty"
        p[0] = []

    def p_type_member__1(self, p):
        "type_member : type ident pairs SEMI"
        p[0] = ast.TypeFieldMemberAST(self, p[1], p[2], p[3], None)

    def p_type_member__2(self, p):
        "type_member : type ident ASSIGN expr SEMI"
        p[0] = ast.TypeFieldMemberAST(self, p[1], p[2],
                                      ast.PairListAST(self), p[4])

    # Methods
    def p_type_methods__list(self, p):
        "type_methods : type_method type_methods"
        p[0] = [ p[1] ] + p[2]

    def p_type_methods(self, p):
        "type_methods : empty"
        p[0] = []

    def p_type_method(self, p):
        "type_method : type_or_void ident '(' types ')' pairs SEMI"
        p[0] = ast.TypeFieldMethodAST(self, p[1], p[2], p[4], p[6])

    # Enum fields
    def p_type_enums__list(self, p):
        "type_enums : type_enum type_enums"
        p[0] = [ p[1] ] + p[2]

    def p_type_enums__empty(self, p):
        "type_enums : empty"
        p[0] = []

    def p_type_enum(self, p):
        "type_enum : ident pairs SEMI"
        p[0] = ast.TypeFieldEnumAST(self, p[1], p[2])

    # Type
    def p_types__multiple(self, p):
        "types : type ',' types"
        p[0] = [ p[1] ] + p[3]

    def p_types__one(self, p):
        "types : type"
        p[0] = [ p[1] ]

    def p_types__empty(self, p):
        "types : empty"
        p[0] = []

    def p_type(self, p):
        "type : ident"
        p[0] = ast.TypeAST(self, p[1])

    def p_void(self, p):
        "void : VOID"
        p[0] = ast.TypeAST(self, p[1])

    def p_type_or_void(self, p):
        """type_or_void : type
                        | void"""
        p[0] = p[1]

    # Formal Param
    def p_params__many(self, p):
        "params : param ',' params"
        p[0] = [ p[1] ] + p[3]

    def p_params__one(self, p):
        "params : param"
        p[0] = [ p[1] ]

    def p_params__none(self, p):
        "params : empty"
        p[0] = []

    def p_param(self, p):
        "param : type ident"
        p[0] = ast.FormalParamAST(self, p[1], p[2])

    # Idents and lists
    def p_idents__braced(self, p):
        "idents : '{' identx '}'"
        p[0] = p[2]

    def p_idents__bare(self, p):
        "idents : ident"
        p[0] = [ p[1] ]

    def p_identx__multiple_1(self, p):
        """identx : ident SEMI identx
                  | ident ',' identx"""
        p[0] = [ p[1] ] + p[3]

    def p_identx__multiple_2(self, p):
        "identx : ident identx"
        p[0] = [ p[1] ] + p[2]

    def p_identx__single(self, p):
        "identx : empty"
        p[0] = [ ]

    def p_ident(self, p):
        "ident : IDENT"
        p[0] = p[1]

    # Pair and pair lists
    def p_pairs__list(self, p):
        "pairs : ',' pairsx"
        p[0] = p[2]

    def p_pairs__empty(self, p):
        "pairs : empty"
        p[0] = ast.PairListAST(self)

    def p_pairsx__many(self, p):
        "pairsx : pair ',' pairsx"
        p[0] = p[3]
        p[0].addPair(p[1])

    def p_pairsx__one(self, p):
        "pairsx : pair"
        p[0] = ast.PairListAST(self)
        p[0].addPair(p[1])

    def p_pair__assign(self, p):
        """pair : ident '=' STRING
                | ident '=' ident"""
        p[0] = ast.PairAST(self, p[1], p[3])

    def p_pair__literal(self, p):
        "pair : STRING"
        p[0] = ast.PairAST(self, "short", p[1])

    # Below are the rules for action descriptions
    def p_statements__inner(self, p):
        "statements : '{' statements_inner '}'"
        p[0] = ast.StatementListAST(self, p[2])

    def p_statements__none(self, p):
        "statements : '{' '}'"
        p[0] = ast.StatementListAST(self, [])

    def p_statements_inner__many(self, p):
        "statements_inner : statement statements_inner"
        p[0] = [ p[1] ] + p[2]

    def p_statements_inner__one(self, p):
        "statements_inner : statement"
        p[0] = [ p[1] ]

    def p_exprs__multiple(self, p):
        "exprs : expr ',' exprs"
        p[0] = [ p[1] ] + p[3]

    def p_exprs__one(self, p):
        "exprs : expr"
        p[0] = [ p[1] ]

    def p_exprs__empty(self, p):
        "exprs : empty"""
        p[0] = []

    def p_statement__expression(self, p):
        "statement : expr SEMI"
        p[0] = ast.ExprStatementAST(self, p[1])

    def p_statement__assign(self, p):
        "statement : expr ASSIGN expr SEMI"
        p[0] = ast.AssignStatementAST(self, p[1], p[3])

    def p_statement__enqueue(self, p):
        "statement : ENQUEUE '(' var ',' type pairs ')' statements"
        p[0] = ast.EnqueueStatementAST(self, p[3], p[5], p[6], p[8])

    def p_statement__peek(self, p):
        "statement : PEEK '(' var ',' type ')' statements"
        p[0] = ast.PeekStatementAST(self, p[3], p[5], p[7], "peek")

    def p_statement__copy_head(self, p):
        "statement : COPY_HEAD '(' var ',' var pairs ')' SEMI"
        p[0] = ast.CopyHeadStatementAST(self, p[3], p[5], p[6])

    def p_statement__check_allocate(self, p):
        "statement : CHECK_ALLOCATE '(' var ')' SEMI"
        p[0] = ast.CheckAllocateStatementAST(self, p[3])

    def p_statement__check_stop(self, p):
        "statement : CHECK_STOP_SLOTS '(' var ',' STRING ',' STRING ')' SEMI"
        p[0] = ast.CheckStopStatementAST(self, p[3], p[5], p[7])

    def p_statement__return(self, p):
        "statement : RETURN expr SEMI"
        p[0] = ast.ReturnStatementAST(self, p[2])

    def p_statement__if(self, p):
        "statement : if_statement"
        p[0] = p[1]

    def p_if_statement__if(self, p):
        "if_statement : IF '(' expr ')' statements"
        p[0] = ast.IfStatementAST(self, p[3], p[5], None)

    def p_if_statement__if_else(self, p):
        "if_statement : IF '(' expr ')' statements ELSE statements"
        p[0] = ast.IfStatementAST(self, p[3], p[5], p[7])

    def p_statement__if_else_if(self, p):
        "if_statement : IF '(' expr ')' statements ELSE if_statement"
        p[0] = ast.IfStatementAST(self, p[3], p[5],
                                  ast.StatementListAST(self, p[7]))

    def p_expr__var(self, p):
        "aexpr : var"
        p[0] = p[1]

    def p_expr__literal(self, p):
        "aexpr : literal"
        p[0] = p[1]

    def p_expr__enumeration(self, p):
        "aexpr : enumeration"
        p[0] = p[1]

    def p_expr__func_call(self, p):
        "aexpr : ident '(' exprs ')'"
        p[0] = ast.FuncCallExprAST(self, p[1], p[3])

    def p_expr__new(self, p):
        "aexpr : NEW type"
        p[0] = ast.NewExprAST(self, p[2])

    # globally access a local chip component and call a method
    def p_expr__local_chip_method(self, p):
        "aexpr : THIS DOT var '[' expr ']' DOT var DOT ident '(' exprs ')'"
        p[0] = ast.LocalChipMethodAST(self, p[3], p[5], p[8], p[10], p[12])

    # globally access a local chip component and access a data member
    def p_expr__local_chip_member(self, p):
        "aexpr : THIS DOT var '[' expr ']' DOT var DOT field"
        p[0] = ast.LocalChipMemberAST(self, p[3], p[5], p[8], p[10])

    # globally access a specified chip component and call a method
    def p_expr__specified_chip_method(self, p):
        "aexpr : CHIP '[' expr ']' DOT var '[' expr ']' DOT var DOT ident '(' exprs ')'"
        p[0] = ast.SpecifiedChipMethodAST(self, p[3], p[6], p[8], p[11], p[13],
                                          p[15])

    # globally access a specified chip component and access a data member
    def p_expr__specified_chip_member(self, p):
        "aexpr : CHIP '[' expr ']' DOT var '[' expr ']' DOT var DOT field"
        p[0] = ast.SpecifiedChipMemberAST(self, p[3], p[6], p[8], p[11], p[13])

    def p_expr__member(self, p):
        "aexpr : aexpr DOT ident"
        p[0] = ast.MemberExprAST(self, p[1], p[3])

    def p_expr__member_method_call(self, p):
        "aexpr : aexpr DOT ident '(' exprs ')'"
        p[0] = ast.MemberMethodCallExprAST(self, p[1], p[3], p[5])

    def p_expr__member_method_call_lookup(self, p):
        "aexpr : aexpr '[' exprs ']'"
        p[0] = ast.MemberMethodCallExprAST(self, p[1], "lookup", p[3])

    def p_expr__class_method_call(self, p):
        "aexpr : type DOUBLE_COLON ident '(' exprs ')'"
        p[0] = ast.ClassMethodCallExprAST(self, p[1], p[3], p[5])

    def p_expr__aexpr(self, p):
        "expr : aexpr"
        p[0] = p[1]

    def p_expr__binary_op(self, p):
        """expr : expr STAR  expr
                | expr SLASH expr
                | expr PLUS  expr
                | expr DASH  expr
                | expr LT    expr
                | expr GT    expr
                | expr LE    expr
                | expr GE    expr
                | expr EQ    expr
                | expr NE    expr
                | expr AND   expr
                | expr OR    expr
                | expr RIGHTSHIFT expr
                | expr LEFTSHIFT  expr"""
        p[0] = ast.InfixOperatorExprAST(self, p[1], p[2], p[3])

    # FIXME - unary not
    def p_expr__unary_op(self, p):
        """expr : NOT expr
                | DASH expr %prec UMINUS"""
        p[0] = PrefixOperatorExpr(p[1], p[2])

    def p_expr__parens(self, p):
        "aexpr : '(' expr ')'"
        p[0] = p[2]

    def p_literal__string(self, p):
        "literal : STRING"
        p[0] = ast.LiteralExprAST(self, p[1], "string")

    def p_literal__number(self, p):
        "literal : NUMBER"
        p[0] = ast.LiteralExprAST(self, p[1], "int")

    def p_literal__float(self, p):
        "literal : FLOATNUMBER"
        p[0] = ast.LiteralExprAST(self, p[1], "int")

    def p_literal__bool(self, p):
        "literal : LIT_BOOL"
        p[0] = ast.LiteralExprAST(self, p[1], "bool")

    def p_enumeration(self, p):
        "enumeration : ident ':' ident"
        p[0] = ast.EnumExprAST(self, ast.TypeAST(self, p[1]), p[3])

    def p_var(self, p):
        "var : ident"
        p[0] = ast.VarExprAST(self, p[1])

    def p_field(self, p):
        "field : ident"
        p[0] = p[1]