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# Copyright 2012 Jussi Pakkanen
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import ply.lex as lex
import ply.yacc as yacc
import nodes
from coredata import MesonException
class ParserException(MesonException):
def __init__(self, text, lineno):
MesonException.__init__(self, text)
self.lineno = lineno
reserved = {'true' : 'TRUE',
'false' : 'FALSE',
'if' : 'IF',
'endif' : 'ENDIF',
'else' : 'ELSE',
'and' : 'AND',
'or' : 'OR',
'not' : 'NOT',
}
tokens = ['LPAREN',
'RPAREN',
'LBRACKET',
'RBRACKET',
'ATOM',
'COMMENT',
'ASSIGN',
'EQUALS',
'NEQUALS',
'COMMA',
'DOT',
'STRING',
'MULTILINE_STRING',
'INT',
'EOL_CONTINUE',
'EOL',
'COLON',
] + list(reserved.values())
t_ASSIGN = '='
t_EQUALS = '=='
t_NEQUALS = '\!='
t_LPAREN = '\('
t_RPAREN = '\)'
t_LBRACKET = '\['
t_RBRACKET = '\]'
t_ignore_COMMENT = '\\#.*?(?=\\n)'
t_COMMA = ','
t_DOT = '\.'
t_COLON = ':'
t_ignore = ' \t'
precedence = (
('left', 'COMMA'),
('left', 'ASSIGN'),
('nonassoc', 'EQUALS', 'NEQUALS'),
('left', 'OR'),
('left', 'AND'),
('nonassoc', 'COLON')
('left', 'DOT'),
)
def t_ATOM(t):
'[a-zA-Z][_0-9a-zA-Z]*'
t.type = reserved.get(t.value, 'ATOM')
return t
def t_MULTILINE_STRING(t):
r"'''(.|\n)*?'''"
t.value = t.value[3:-3]
t.lexer.lineno += t.value.count('\n')
return t
def t_STRING(t):
"'[^']*'"
t.value = t.value[1:-1]
return t
def t_INT(t):
'[0-9]+'
t.value = int(t.value)
return t
def t_EOL(t):
r'\n'
t.lexer.lineno += 1
return t
def t_EOL_CONTINUE(t):
r'\\[ \t]*\n'
t.lexer.lineno += 1
def t_error(t):
raise ParserException("Illegal character '%s'." % t.value[0], t.lineno)
# Yacc part
def p_codeblock(t):
'codeblock : statement EOL codeblock'
cb = t[3]
cb.prepend(t[1])
t[0] = cb
def p_codeblock_emptyline(t):
'codeblock : EOL codeblock'
t[0] = t[2]
def p_codeblock_last(t):
'codeblock : statement EOL'
cb = nodes.CodeBlock(t[1].lineno())
cb.prepend(t[1])
t[0] = cb
def p_expression_atom(t):
'expression : ATOM'
t[0] = nodes.AtomExpression(t[1], t.lineno(1))
def p_expression_int(t):
'expression : INT'
t[0] = nodes.IntExpression(t[1], t.lineno(1))
def p_expression_bool(t):
'''expression : TRUE
| FALSE'''
if t[1] == 'true':
t[0] = nodes.BoolExpression(True, t.lineno(1))
else:
t[0] = nodes.BoolExpression(False, t.lineno(1))
def p_expression_string(t):
'expression : STRING'
t[0] = nodes.StringExpression(t[1], t.lineno(1))
def p_expression_multiline_string(t):
'expression : MULTILINE_STRING'
t[0] = nodes.StringExpression(t[1], t.lineno(1))
def p_statement_assign(t):
'statement : expression ASSIGN statement'
t[0] = nodes.Assignment(t[1], t[3], t[1].lineno())
def p_statement_comparison(t):
'''statement : statement EQUALS statement
| statement NEQUALS statement'''
t[0] = nodes.Comparison(t[1], t[2], t[3], t[1].lineno())
def p_statement_array(t):
'''statement : LBRACKET args RBRACKET
| LBRACKET EOL args RBRACKET'''
if len(t) == 4:
t[0] = nodes.ArrayStatement(t[2], t.lineno(1))
else:
t[0] = nodes.ArrayStatement(t[3], t.lineno(1))
def p_statement_array2(t):
'''statement : LBRACKET args EOL RBRACKET
| LBRACKET EOL args EOL RBRACKET'''
if len(t) == 5:
t[0] = nodes.ArrayStatement(t[2], t.lineno(1))
else:
t[0] = nodes.ArrayStatement(t[3], t.lineno(1))
def p_statement_func_call(t):
'statement : expression LPAREN args RPAREN'
t[0] = nodes.FunctionCall(t[1], t[3], t[1].lineno())
def p_statement_method_call(t):
'statement : statement DOT expression LPAREN args RPAREN'
t[0] = nodes.MethodCall(t[1], t[3], t[5], t[1].lineno())
def p_statement_if(t):
'statement : IF statement EOL codeblock elseblock ENDIF'
t[0] = nodes.IfStatement(t[2], t[4], t[5], t.lineno(1))
def p_statement_parentheses(t):
'statement : LPAREN statement RPAREN'
t[0] = t[2]
def p_statement_and(t):
'statement : statement AND statement'
t[0] = nodes.AndStatement(t[1], t[3])
def p_empty_else(t):
'elseblock : '
return None
def p_else(t):
'elseblock : ELSE EOL codeblock'
t[0] = t[3]
def p_statement_expression(t):
'statement : expression'
t[0] = nodes.statement_from_expression(t[1])
def p_args_multiple(t):
'''args : statement COMMA args
| statement COMMA EOL args
| statement EOL COMMA args'''
if len(t) == 5:
args = t[4]
else:
args = t[3]
args.prepend(t[1])
t[0] = args
def p_kwargs_multiple(t):
'''args : expression COLON statement COMMA args
| expression COLON statement COMMA EOL args
| expression COLON statement EOL COMMA args'''
if len(t) == 7:
args = t[6]
else:
args = t[5]
args.set_kwarg(t[1], t[3])
t[0] = args
def p_args_single_pos(t):
'args : statement'
args = nodes.Arguments(t[1].lineno())
args.prepend(t[1])
t[0] = args
def p_args_single_kw(t):
'args : expression COLON statement'
a = nodes.Arguments(t[1].lineno())
a.set_kwarg(t[1], t[3])
t[0] = a
def p_args_none(t):
'args :'
t[0] = nodes.Arguments(t.lineno(0))
def p_error(t):
lineno = -1
if t is None:
txt = 'NONE'
else:
txt = t.value
lineno = t.lineno
raise ParserException('Parser errored out at: %s.' % txt, lineno)
def test_lexer():
s = """hello = (something) # this = (that)
two = ['file1', 'file2']
function(h) { stuff }
obj.method(lll, \\
'string')
"""
lexer = lex.lex()
lexer.input(s)
while True:
tok = lexer.token()
if not tok:
break
print(tok)
def generate_parser_files(outputdir):
code = """project('empty', 'c')
"""
build_ast(code, outputdir=outputdir)
def build_ast(code, outputdir=None):
code = code.rstrip() + '\n'
lex.lex()
if outputdir:
parser = yacc.yacc(outputdir=outputdir)
else:
parser = yacc.yacc()
result = parser.parse(code)
return result
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