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241 lines
5.5 KiB
241 lines
5.5 KiB
#!/usr/bin/python3 -tt |
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# Copyright 2012 Jussi Pakkanen |
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# Licensed under the Apache License, Version 2.0 (the "License"); |
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# you may not use this file except in compliance with the License. |
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# You may obtain a copy of the License at |
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# http://www.apache.org/licenses/LICENSE-2.0 |
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# Unless required by applicable law or agreed to in writing, software |
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# distributed under the License is distributed on an "AS IS" BASIS, |
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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# See the License for the specific language governing permissions and |
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# limitations under the License. |
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import ply.lex as lex |
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import ply.yacc as yacc |
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import nodes |
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reserved = {'true' : 'TRUE', |
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'false' : 'FALSE', |
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'if' : 'IF', |
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'endif' : 'ENDIF', |
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'else' : 'ELSE', |
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} |
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tokens = ['LPAREN', |
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'RPAREN', |
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'LBRACKET', |
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'RBRACKET', |
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'LBRACE', |
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'RBRACE', |
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'ATOM', |
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'COMMENT', |
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'ASSIGN', |
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'EQUALS', |
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'NEQUALS', |
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'COMMA', |
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'DOT', |
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'STRING', |
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'INT', |
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'EOL_CONTINUE', |
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'EOL', |
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'COLON', |
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] + list(reserved.values()) |
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t_ASSIGN = '=' |
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t_EQUALS = '==' |
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t_NEQUALS = '\!=' |
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t_LPAREN = '\(' |
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t_RPAREN = '\)' |
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t_LBRACKET = '\[' |
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t_RBRACKET = '\]' |
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t_LBRACE = '\{' |
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t_RBRACE = '\}' |
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t_ignore_COMMENT = '\\#.*?(?=\\n)' |
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t_COMMA = ',' |
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t_DOT = '\.' |
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t_COLON = ':' |
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t_ignore = ' \t' |
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def t_ATOM(t): |
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'[a-zA-Z][_0-9a-zA-Z]*' |
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t.type = reserved.get(t.value, 'ATOM') |
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return t |
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def t_STRING(t): |
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"'[^']*'" |
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t.value = t.value[1:-1] |
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return t |
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def t_INT(t): |
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'[0-9]+' |
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t.value = int(t.value) |
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return t |
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def t_EOL(t): |
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r'\n' |
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t.lexer.lineno += 1 |
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return t |
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def t_EOL_CONTINUE(t): |
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r'\\[ \t]*\n' |
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t.lexer.lineno += 1 |
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def t_error(t): |
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print("Illegal character '%s'" % t.value[0]) |
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t.lexer.skip(1) |
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# Yacc part |
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def p_codeblock(t): |
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'codeblock : statement EOL codeblock' |
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cb = t[3] |
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cb.prepend(t[1]) |
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t[0] = cb |
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def p_codeblock_emptyline(t): |
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'codeblock : EOL codeblock' |
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t[0] = t[2] |
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def p_codeblock_last(t): |
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'codeblock : statement EOL' |
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cb = nodes.CodeBlock(t[1].lineno()) |
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cb.prepend(t[1]) |
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t[0] = cb |
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def p_expression_atom(t): |
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'expression : ATOM' |
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t[0] = nodes.AtomExpression(t[1], t.lineno(1)) |
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def p_expression_int(t): |
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'expression : INT' |
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t[0] = nodes.IntExpression(t[1], t.lineno(1)) |
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def p_expression_bool(t): |
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'''expression : TRUE |
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| FALSE''' |
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if t[1] == 'true': |
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t[0] = nodes.BoolExpression(True, t.lineno(1)) |
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else: |
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t[0] = nodes.BoolExpression(False, t.lineno(1)) |
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def p_expression_string(t): |
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'expression : STRING' |
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t[0] = nodes.StringExpression(t[1], t.lineno(1)) |
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def p_statement_assign(t): |
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'statement : expression ASSIGN statement' |
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t[0] = nodes.Assignment(t[1], t[3], t[1].lineno()) |
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def p_statement_comparison(t): |
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'''statement : statement EQUALS statement |
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| statement NEQUALS statement''' |
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t[0] = nodes.Comparison(t[1], t[2], t[3], t[1].lineno()) |
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def p_statement_array(t): |
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'''statement : LBRACKET args RBRACKET''' |
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t[0] = nodes.ArrayStatement(t[2], t.lineno(1)) |
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def p_statement_func_call(t): |
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'statement : expression LPAREN args RPAREN' |
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t[0] = nodes.FunctionCall(t[1], t[3], t[1].lineno()) |
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def p_statement_method_call(t): |
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'statement : expression DOT expression LPAREN args RPAREN' |
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t[0] = nodes.MethodCall(t[1], t[3], t[5], t[1].lineno()) |
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def p_statement_if(t): |
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'statement : IF statement EOL codeblock elseblock ENDIF' |
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t[0] = nodes.IfStatement(t[2], t[4], t[5], t.lineno(1)) |
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def p_empty_else(t): |
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'elseblock : ' |
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return None |
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def p_else(t): |
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'elseblock : ELSE EOL codeblock' |
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t[0] = t[3] |
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def p_statement_expression(t): |
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'statement : expression' |
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t[0] = nodes.statement_from_expression(t[1]) |
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def p_args_multiple(t): |
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'''args : statement COMMA args |
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| statement COMMA EOL args |
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| statement EOL COMMA args''' |
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if len(t) == 5: |
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args = t[4] |
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else: |
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args = t[3] |
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args.prepend(t[1]) |
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t[0] = args |
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def p_kwargs_multiple(t): |
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'''args : expression COLON statement COMMA args |
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| expression COLON statement COMMA EOL args |
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| expression COLON statement EOL COMMA args''' |
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if len(t) == 7: |
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args = t[6] |
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else: |
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args = t[5] |
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args.set_kwarg(t[1], t[3]) |
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t[0] = args |
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def p_args_single_pos(t): |
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'args : statement' |
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args = nodes.Arguments(t[1].lineno()) |
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args.prepend(t[1]) |
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t[0] = args |
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def p_args_single_kw(t): |
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'args : expression COLON statement' |
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a = nodes.Arguments(t[1].lineno()) |
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a.set_kwarg(t[1], t[3]) |
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t[0] = a |
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def p_args_none(t): |
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'args :' |
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t[0] = nodes.Arguments(t.lineno(0)) |
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def p_error(t): |
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if t is None: |
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txt = 'NONE' |
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else: |
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txt = t.value |
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print('Parser errored out at: ' + txt) |
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def test_lexer(): |
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s = """hello = (something) # this = (that) |
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two = ['file1', 'file2'] |
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function(h) { stuff } |
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obj.method(lll, \\ |
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'string') |
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""" |
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lexer = lex.lex() |
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lexer.input(s) |
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while True: |
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tok = lexer.token() |
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if not tok: |
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break |
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print(tok) |
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def generate_parser_files(outputdir): |
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code = """project('empty', 'c') |
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""" |
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build_ast(code, outputdir=outputdir) |
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def build_ast(code, outputdir=None): |
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code = code.rstrip() + '\n' |
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lex.lex() |
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if outputdir: |
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parser = yacc.yacc(outputdir=outputdir) |
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else: |
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parser = yacc.yacc() |
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result = parser.parse(code) |
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return result
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