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# -*- coding: utf-8 -*- | |
""" | |
codegen | |
~~~~~~~ | |
Extension to ast that allow ast -> python code generation. | |
:copyright: Copyright 2008 by Armin Ronacher. | |
:license: BSD. | |
""" | |
from ast import * | |
BOOLOP_SYMBOLS = { | |
And: 'and', | |
Or: 'or' | |
} | |
BINOP_SYMBOLS = { | |
Add: '+', | |
Sub: '-', | |
Mult: '*', | |
Div: '/', | |
FloorDiv: '//', | |
Mod: '%', | |
LShift: '<<', | |
RShift: '>>', | |
BitOr: '|', | |
BitAnd: '&', | |
BitXor: '^' | |
} | |
CMPOP_SYMBOLS = { | |
Eq: '==', | |
Gt: '>', | |
GtE: '>=', | |
In: 'in', | |
Is: 'is', | |
IsNot: 'is not', | |
Lt: '<', | |
LtE: '<=', | |
NotEq: '!=', | |
NotIn: 'not in' | |
} | |
UNARYOP_SYMBOLS = { | |
Invert: '~', | |
Not: 'not', | |
UAdd: '+', | |
USub: '-' | |
} | |
ALL_SYMBOLS = {} | |
ALL_SYMBOLS.update(BOOLOP_SYMBOLS) | |
ALL_SYMBOLS.update(BINOP_SYMBOLS) | |
ALL_SYMBOLS.update(CMPOP_SYMBOLS) | |
ALL_SYMBOLS.update(UNARYOP_SYMBOLS) | |
def to_source(node, indent_with=' ' * 4, add_line_information=False): | |
"""This function can convert a node tree back into python sourcecode. | |
This is useful for debugging purposes, especially if you're dealing with | |
custom asts not generated by python itself. | |
It could be that the sourcecode is evaluable when the AST itself is not | |
compilable / evaluable. The reason for this is that the AST contains some | |
more data than regular sourcecode does, which is dropped during | |
conversion. | |
Each level of indentation is replaced with `indent_with`. Per default this | |
parameter is equal to four spaces as suggested by PEP 8, but it might be | |
adjusted to match the application's styleguide. | |
If `add_line_information` is set to `True` comments for the line numbers | |
of the nodes are added to the output. This can be used to spot wrong line | |
number information of statement nodes. | |
""" | |
generator = SourceGenerator(indent_with, add_line_information) | |
generator.visit(node) | |
return ''.join(str(s) for s in generator.result) | |
class SourceGenerator(NodeVisitor): | |
"""This visitor is able to transform a well formed syntax tree into python | |
sourcecode. For more details have a look at the docstring of the | |
`node_to_source` function. | |
""" | |
def __init__(self, indent_with, add_line_information=False): | |
self.result = [] | |
self.indent_with = indent_with | |
self.add_line_information = add_line_information | |
self.indentation = 0 | |
self.new_lines = 0 | |
def write(self, x): | |
if self.new_lines: | |
if self.result: | |
self.result.append('\n' * self.new_lines) | |
self.result.append(self.indent_with * self.indentation) | |
self.new_lines = 0 | |
self.result.append(x) | |
def newline(self, node=None, extra=0): | |
self.new_lines = max(self.new_lines, 1 + extra) | |
if node is not None and self.add_line_information: | |
self.write('# line: %s' % node.lineno) | |
self.new_lines = 1 | |
def body(self, statements): | |
self.new_line = True | |
self.indentation += 1 | |
for stmt in statements: | |
self.visit(stmt) | |
self.indentation -= 1 | |
def body_or_else(self, node): | |
self.body(node.body) | |
if node.orelse: | |
self.newline() | |
self.write('else:') | |
self.body(node.orelse) | |
def signature(self, node): | |
want_comma = [] | |
def write_comma(): | |
if want_comma: | |
self.write(', ') | |
else: | |
want_comma.append(True) | |
padding = [None] * (len(node.args) - len(node.defaults)) | |
for arg, default in zip(node.args, padding + node.defaults): | |
write_comma() | |
self.visit(arg) | |
if default is not None: | |
self.write('=') | |
self.visit(default) | |
if node.vararg is not None: | |
write_comma() | |
self.write('*' + node.vararg) | |
if node.kwarg is not None: | |
write_comma() | |
self.write('**' + node.kwarg) | |
def decorators(self, node): | |
for decorator in node.decorator_list: | |
self.newline(decorator) | |
self.write('@') | |
self.visit(decorator) | |
# Statements | |
def visit_Assign(self, node): | |
self.newline(node) | |
for idx, target in enumerate(node.targets): | |
if idx: | |
self.write(', ') | |
self.visit(target) | |
self.write(' = ') | |
self.visit(node.value) | |
def visit_AugAssign(self, node): | |
self.newline(node) | |
self.visit(node.target) | |
self.write(BINOP_SYMBOLS[type(node.op)] + '=') | |
self.visit(node.value) | |
def visit_ImportFrom(self, node): | |
self.newline(node) | |
self.write('from %s%s import ' % ('.' * node.level, node.module)) | |
for idx, item in enumerate(node.names): | |
if idx: | |
self.write(', ') | |
self.write(item) | |
def visit_Import(self, node): | |
self.newline(node) | |
for item in node.names: | |
self.write('import ') | |
self.visit(item) | |
def visit_Expr(self, node): | |
self.newline(node) | |
self.generic_visit(node) | |
def visit_FunctionDef(self, node): | |
self.newline(extra=1) | |
self.decorators(node) | |
self.newline(node) | |
self.write('def %s(' % node.name) | |
self.signature(node.args) | |
self.write('):') | |
self.body(node.body) | |
def visit_ClassDef(self, node): | |
have_args = [] | |
def paren_or_comma(): | |
if have_args: | |
self.write(', ') | |
else: | |
have_args.append(True) | |
self.write('(') | |
self.newline(extra=2) | |
self.decorators(node) | |
self.newline(node) | |
self.write('class %s' % node.name) | |
for base in node.bases: | |
paren_or_comma() | |
self.visit(base) | |
# XXX: the if here is used to keep this module compatible | |
# with python 2.6. | |
if hasattr(node, 'keywords'): | |
for keyword in node.keywords: | |
paren_or_comma() | |
self.write(keyword.arg + '=') | |
self.visit(keyword.value) | |
if node.starargs is not None: | |
paren_or_comma() | |
self.write('*') | |
self.visit(node.starargs) | |
if node.kwargs is not None: | |
paren_or_comma() | |
self.write('**') | |
self.visit(node.kwargs) | |
self.write(have_args and '):' or ':') | |
self.body(node.body) | |
def visit_If(self, node): | |
self.newline(node) | |
self.write('if ') | |
self.visit(node.test) | |
self.write(':') | |
self.body(node.body) | |
while True: | |
else_ = node.orelse | |
if len(else_) == 1 and isinstance(else_[0], If): | |
node = else_[0] | |
self.newline() | |
self.write('elif ') | |
self.visit(node.test) | |
self.write(':') | |
self.body(node.body) | |
else: | |
self.newline() | |
self.write('else:') | |
self.body(else_) | |
break | |
def visit_For(self, node): | |
self.newline(node) | |
self.write('for ') | |
self.visit(node.target) | |
self.write(' in ') | |
self.visit(node.iter) | |
self.write(':') | |
self.body_or_else(node) | |
def visit_While(self, node): | |
self.newline(node) | |
self.write('while ') | |
self.visit(node.test) | |
self.write(':') | |
self.body_or_else(node) | |
def visit_With(self, node): | |
self.newline(node) | |
self.write('with ') | |
self.visit(node.context_expr) | |
if node.optional_vars is not None: | |
self.write(' as ') | |
self.visit(node.optional_vars) | |
self.write(':') | |
self.body(node.body) | |
def visit_Pass(self, node): | |
self.newline(node) | |
self.write('pass') | |
def visit_Print(self, node): | |
# XXX: python 2.6 only | |
self.newline(node) | |
self.write('print ') | |
want_comma = False | |
if node.dest is not None: | |
self.write(' >> ') | |
self.visit(node.dest) | |
want_comma = True | |
for value in node.values: | |
if want_comma: | |
self.write(', ') | |
self.visit(value) | |
want_comma = True | |
if not node.nl: | |
self.write(',') | |
def visit_Delete(self, node): | |
self.newline(node) | |
self.write('del ') | |
for idx, target in enumerate(node): | |
if idx: | |
self.write(', ') | |
self.visit(target) | |
def visit_TryExcept(self, node): | |
self.newline(node) | |
self.write('try:') | |
self.body(node.body) | |
for handler in node.handlers: | |
self.visit(handler) | |
def visit_TryFinally(self, node): | |
self.newline(node) | |
self.write('try:') | |
self.body(node.body) | |
self.newline(node) | |
self.write('finally:') | |
self.body(node.finalbody) | |
def visit_Global(self, node): | |
self.newline(node) | |
self.write('global ' + ', '.join(node.names)) | |
def visit_Nonlocal(self, node): | |
self.newline(node) | |
self.write('nonlocal ' + ', '.join(node.names)) | |
def visit_Return(self, node): | |
self.newline(node) | |
if node.value: | |
self.write('return ') | |
self.visit(node.value) | |
else: | |
self.write('return') | |
def visit_Break(self, node): | |
self.newline(node) | |
self.write('break') | |
def visit_Continue(self, node): | |
self.newline(node) | |
self.write('continue') | |
def visit_Raise(self, node): | |
# XXX: Python 2.6 / 3.0 compatibility | |
self.newline(node) | |
self.write('raise') | |
if hasattr(node, 'exc') and node.exc is not None: | |
self.write(' ') | |
self.visit(node.exc) | |
if node.cause is not None: | |
self.write(' from ') | |
self.visit(node.cause) | |
elif hasattr(node, 'type') and node.type is not None: | |
self.visit(node.type) | |
if node.inst is not None: | |
self.write(', ') | |
self.visit(node.inst) | |
if node.tback is not None: | |
self.write(', ') | |
self.visit(node.tback) | |
# Expressions | |
def visit_Attribute(self, node): | |
self.visit(node.value) | |
self.write('.' + node.attr) | |
def visit_Call(self, node): | |
want_comma = [] | |
def write_comma(): | |
if want_comma: | |
self.write(', ') | |
else: | |
want_comma.append(True) | |
self.visit(node.func) | |
self.write('(') | |
for arg in node.args: | |
write_comma() | |
self.visit(arg) | |
for keyword in node.keywords: | |
write_comma() | |
self.write(keyword.arg + '=') | |
self.visit(keyword.value) | |
if node.starargs is not None: | |
write_comma() | |
self.write('*') | |
self.visit(node.starargs) | |
if node.kwargs is not None: | |
write_comma() | |
self.write('**') | |
self.visit(node.kwargs) | |
self.write(')') | |
def visit_Name(self, node): | |
self.write(node.id) | |
def visit_Str(self, node): | |
self.write(repr(node.s)) | |
def visit_Bytes(self, node): | |
self.write(repr(node.s)) | |
def visit_Num(self, node): | |
self.write(repr(node.n)) | |
def visit_Tuple(self, node): | |
self.write('(') | |
idx = -1 | |
for idx, item in enumerate(node.elts): | |
if idx: | |
self.write(', ') | |
self.visit(item) | |
self.write(idx and ')' or ',)') | |
def sequence_visit(left, right): | |
def visit(self, node): | |
self.write(left) | |
for idx, item in enumerate(node.elts): | |
if idx: | |
self.write(', ') | |
self.visit(item) | |
self.write(right) | |
return visit | |
visit_List = sequence_visit('[', ']') | |
visit_Set = sequence_visit('{', '}') | |
del sequence_visit | |
def visit_Dict(self, node): | |
self.write('{') | |
for idx, (key, value) in enumerate(zip(node.keys, node.values)): | |
if idx: | |
self.write(', ') | |
self.visit(key) | |
self.write(': ') | |
self.visit(value) | |
self.write('}') | |
def visit_BinOp(self, node): | |
self.visit(node.left) | |
self.write(' %s ' % BINOP_SYMBOLS[type(node.op)]) | |
self.visit(node.right) | |
def visit_BoolOp(self, node): | |
self.write('(') | |
for idx, value in enumerate(node.values): | |
if idx: | |
self.write(' %s ' % BOOLOP_SYMBOLS[type(node.op)]) | |
self.visit(value) | |
self.write(')') | |
def visit_Compare(self, node): | |
self.write('(') | |
self.write(node.left) | |
for op, right in zip(node.ops, node.comparators): | |
self.write(' %s %%' % CMPOP_SYMBOLS[type(op)]) | |
self.visit(right) | |
self.write(')') | |
def visit_UnaryOp(self, node): | |
self.write('(') | |
op = UNARYOP_SYMBOLS[type(node.op)] | |
self.write(op) | |
if op == 'not': | |
self.write(' ') | |
self.visit(node.operand) | |
self.write(')') | |
def visit_Subscript(self, node): | |
self.visit(node.value) | |
self.write('[') | |
self.visit(node.slice) | |
self.write(']') | |
def visit_Slice(self, node): | |
if node.lower is not None: | |
self.visit(node.lower) | |
self.write(':') | |
if node.upper is not None: | |
self.visit(node.upper) | |
if node.step is not None: | |
self.write(':') | |
if not (isinstance(node.step, Name) and node.step.id == 'None'): | |
self.visit(node.step) | |
def visit_ExtSlice(self, node): | |
for idx, item in node.dims: | |
if idx: | |
self.write(', ') | |
self.visit(item) | |
def visit_Yield(self, node): | |
self.write('yield ') | |
self.visit(node.value) | |
def visit_Lambda(self, node): | |
self.write('lambda ') | |
self.signature(node.args) | |
self.write(': ') | |
self.visit(node.body) | |
def visit_Ellipsis(self, node): | |
self.write('Ellipsis') | |
def generator_visit(left, right): | |
def visit(self, node): | |
self.write(left) | |
self.visit(node.elt) | |
for comprehension in node.generators: | |
self.visit(comprehension) | |
self.write(right) | |
return visit | |
visit_ListComp = generator_visit('[', ']') | |
visit_GeneratorExp = generator_visit('(', ')') | |
visit_SetComp = generator_visit('{', '}') | |
del generator_visit | |
def visit_DictComp(self, node): | |
self.write('{') | |
self.visit(node.key) | |
self.write(': ') | |
self.visit(node.value) | |
for comprehension in node.generators: | |
self.visit(comprehension) | |
self.write('}') | |
def visit_IfExp(self, node): | |
self.visit(node.body) | |
self.write(' if ') | |
self.visit(node.test) | |
self.write(' else ') | |
self.visit(node.orelse) | |
def visit_Starred(self, node): | |
self.write('*') | |
self.visit(node.value) | |
def visit_Repr(self, node): | |
# XXX: python 2.6 only | |
self.write('`') | |
self.visit(node.value) | |
self.write('`') | |
# Helper Nodes | |
def visit_alias(self, node): | |
self.write(node.name) | |
if node.asname is not None: | |
self.write(' as ' + node.asname) | |
def visit_comprehension(self, node): | |
self.write(' for ') | |
self.visit(node.target) | |
self.write(' in ') | |
self.visit(node.iter) | |
if node.ifs: | |
for if_ in node.ifs: | |
self.write(' if ') | |
self.visit(if_) | |
def visit_excepthandler(self, node): | |
self.newline(node) | |
self.write('except') | |
if node.type is not None: | |
self.write(' ') | |
self.visit(node.type) | |
if node.name is not None: | |
self.write(' as ') | |
self.visit(node.name) | |
self.write(':') | |
self.body(node.body) |
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