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# Copyright 2019 The Meson development team
# 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.
# This class contains the basic functionality needed to run any interpreter
# or an interpreter-based tool
from .. import mparser
from . import AstVisitor
import re
import typing as T
arithmic_map = {
'add': '+',
'sub': '-',
'mod': '%',
'mul': '*',
'div': '/'
}
class AstPrinter(AstVisitor):
def __init__(self, indent: int = 2, arg_newline_cutoff: int = 5):
self.result = ''
self.indent = indent
self.arg_newline_cutoff = arg_newline_cutoff
self.ci = ''
self.is_newline = True
self.last_level = 0
def post_process(self) -> None:
self.result = re.sub(r'\s+\n', '\n', self.result)
def append(self, data: str, node: mparser.BaseNode) -> None:
self.last_level = node.level
if self.is_newline:
self.result += ' ' * (node.level * self.indent)
self.result += data
self.is_newline = False
def append_padded(self, data: str, node: mparser.BaseNode) -> None:
if self.result[-1] not in [' ', '\n']:
data = ' ' + data
self.append(data + ' ', node)
def newline(self) -> None:
self.result += '\n'
self.is_newline = True
def visit_BooleanNode(self, node: mparser.BooleanNode) -> None:
self.append('true' if node.value else 'false', node)
def visit_IdNode(self, node: mparser.IdNode) -> None:
assert isinstance(node.value, str)
self.append(node.value, node)
def visit_NumberNode(self, node: mparser.NumberNode) -> None:
self.append(str(node.value), node)
def visit_StringNode(self, node: mparser.StringNode) -> None:
assert isinstance(node.value, str)
self.append("'" + node.value + "'", node)
def visit_ContinueNode(self, node: mparser.ContinueNode) -> None:
self.append('continue', node)
def visit_BreakNode(self, node: mparser.BreakNode) -> None:
self.append('break', node)
def visit_ArrayNode(self, node: mparser.ArrayNode) -> None:
self.append('[', node)
node.args.accept(self)
self.append(']', node)
def visit_DictNode(self, node: mparser.DictNode) -> None:
self.append('{', node)
node.args.accept(self)
self.append('}', node)
def visit_OrNode(self, node: mparser.OrNode) -> None:
node.left.accept(self)
self.append_padded('or', node)
node.right.accept(self)
def visit_AndNode(self, node: mparser.AndNode) -> None:
node.left.accept(self)
self.append_padded('and', node)
node.right.accept(self)
def visit_ComparisonNode(self, node: mparser.ComparisonNode) -> None:
node.left.accept(self)
self.append_padded(node.ctype, node)
node.right.accept(self)
def visit_ArithmeticNode(self, node: mparser.ArithmeticNode) -> None:
node.left.accept(self)
self.append_padded(arithmic_map[node.operation], node)
node.right.accept(self)
def visit_NotNode(self, node: mparser.NotNode) -> None:
self.append_padded('not', node)
node.value.accept(self)
def visit_CodeBlockNode(self, node: mparser.CodeBlockNode) -> None:
for i in node.lines:
i.accept(self)
self.newline()
def visit_IndexNode(self, node: mparser.IndexNode) -> None:
node.iobject.accept(self)
self.append('[', node)
node.index.accept(self)
self.append(']', node)
def visit_MethodNode(self, node: mparser.MethodNode) -> None:
node.source_object.accept(self)
self.append('.' + node.name + '(', node)
node.args.accept(self)
self.append(')', node)
def visit_FunctionNode(self, node: mparser.FunctionNode) -> None:
self.append(node.func_name + '(', node)
node.args.accept(self)
self.append(')', node)
def visit_AssignmentNode(self, node: mparser.AssignmentNode) -> None:
self.append(node.var_name + ' = ', node)
node.value.accept(self)
def visit_PlusAssignmentNode(self, node: mparser.PlusAssignmentNode) -> None:
self.append(node.var_name + ' += ', node)
node.value.accept(self)
def visit_ForeachClauseNode(self, node: mparser.ForeachClauseNode) -> None:
varnames = [x for x in node.varnames]
self.append_padded('foreach', node)
self.append_padded(', '.join(varnames), node)
self.append_padded(':', node)
node.items.accept(self)
self.newline()
node.block.accept(self)
self.append('endforeach', node)
def visit_IfClauseNode(self, node: mparser.IfClauseNode) -> None:
prefix = ''
for i in node.ifs:
self.append_padded(prefix + 'if', node)
prefix = 'el'
i.accept(self)
if not isinstance(node.elseblock, mparser.EmptyNode):
self.append('else', node)
node.elseblock.accept(self)
self.append('endif', node)
def visit_UMinusNode(self, node: mparser.UMinusNode) -> None:
self.append_padded('-', node)
node.value.accept(self)
def visit_IfNode(self, node: mparser.IfNode) -> None:
node.condition.accept(self)
self.newline()
node.block.accept(self)
def visit_TernaryNode(self, node: mparser.TernaryNode) -> None:
node.condition.accept(self)
self.append_padded('?', node)
node.trueblock.accept(self)
self.append_padded(':', node)
node.falseblock.accept(self)
def visit_ArgumentNode(self, node: mparser.ArgumentNode) -> None:
break_args = (len(node.arguments) + len(node.kwargs)) > self.arg_newline_cutoff
for i in node.arguments + list(node.kwargs.values()):
if not isinstance(i, (mparser.ElementaryNode, mparser.IndexNode)):
break_args = True
if break_args:
self.newline()
for i in node.arguments:
i.accept(self)
self.append(', ', node)
if break_args:
self.newline()
for key, val in node.kwargs.items():
key.accept(self)
self.append_padded(':', node)
val.accept(self)
self.append(', ', node)
if break_args:
self.newline()
if break_args:
self.result = re.sub(r', \n$', '\n', self.result)
else:
self.result = re.sub(r', $', '', self.result)
class AstJSONPrinter(AstVisitor):
def __init__(self) -> None:
self.result = {} # type: T.Dict[str, T.Any]
self.current = self.result
def _accept(self, key: str, node: mparser.BaseNode) -> None:
old = self.current
data = {} # type: T.Dict[str, T.Any]
self.current = data
node.accept(self)
self.current = old
self.current[key] = data
def _accept_list(self, key: str, nodes: T.Sequence[mparser.BaseNode]) -> None:
old = self.current
datalist = [] # type: T.List[T.Dict[str, T.Any]]
for i in nodes:
self.current = {}
i.accept(self)
datalist += [self.current]
self.current = old
self.current[key] = datalist
def _raw_accept(self, node: mparser.BaseNode, data: T.Dict[str, T.Any]) -> None:
old = self.current
self.current = data
node.accept(self)
self.current = old
def setbase(self, node: mparser.BaseNode) -> None:
self.current['node'] = type(node).__name__
self.current['lineno'] = node.lineno
self.current['colno'] = node.colno
self.current['end_lineno'] = node.end_lineno
self.current['end_colno'] = node.end_colno
def visit_default_func(self, node: mparser.BaseNode) -> None:
self.setbase(node)
def gen_ElementaryNode(self, node: mparser.ElementaryNode) -> None:
self.current['value'] = node.value
self.setbase(node)
def visit_BooleanNode(self, node: mparser.BooleanNode) -> None:
self.gen_ElementaryNode(node)
def visit_IdNode(self, node: mparser.IdNode) -> None:
self.gen_ElementaryNode(node)
def visit_NumberNode(self, node: mparser.NumberNode) -> None:
self.gen_ElementaryNode(node)
def visit_StringNode(self, node: mparser.StringNode) -> None:
self.gen_ElementaryNode(node)
def visit_ArrayNode(self, node: mparser.ArrayNode) -> None:
self._accept('args', node.args)
self.setbase(node)
def visit_DictNode(self, node: mparser.DictNode) -> None:
self._accept('args', node.args)
self.setbase(node)
def visit_OrNode(self, node: mparser.OrNode) -> None:
self._accept('left', node.left)
self._accept('right', node.right)
self.setbase(node)
def visit_AndNode(self, node: mparser.AndNode) -> None:
self._accept('left', node.left)
self._accept('right', node.right)
self.setbase(node)
def visit_ComparisonNode(self, node: mparser.ComparisonNode) -> None:
self._accept('left', node.left)
self._accept('right', node.right)
self.current['ctype'] = node.ctype
self.setbase(node)
def visit_ArithmeticNode(self, node: mparser.ArithmeticNode) -> None:
self._accept('left', node.left)
self._accept('right', node.right)
self.current['op'] = arithmic_map[node.operation]
self.setbase(node)
def visit_NotNode(self, node: mparser.NotNode) -> None:
self._accept('right', node.value)
self.setbase(node)
def visit_CodeBlockNode(self, node: mparser.CodeBlockNode) -> None:
self._accept_list('lines', node.lines)
self.setbase(node)
def visit_IndexNode(self, node: mparser.IndexNode) -> None:
self._accept('object', node.iobject)
self._accept('index', node.index)
self.setbase(node)
def visit_MethodNode(self, node: mparser.MethodNode) -> None:
self._accept('object', node.source_object)
self._accept('args', node.args)
self.current['name'] = node.name
self.setbase(node)
def visit_FunctionNode(self, node: mparser.FunctionNode) -> None:
self._accept('args', node.args)
self.current['name'] = node.func_name
self.setbase(node)
def visit_AssignmentNode(self, node: mparser.AssignmentNode) -> None:
self._accept('value', node.value)
self.current['var_name'] = node.var_name
self.setbase(node)
def visit_PlusAssignmentNode(self, node: mparser.PlusAssignmentNode) -> None:
self._accept('value', node.value)
self.current['var_name'] = node.var_name
self.setbase(node)
def visit_ForeachClauseNode(self, node: mparser.ForeachClauseNode) -> None:
self._accept('items', node.items)
self._accept('block', node.block)
self.current['varnames'] = node.varnames
self.setbase(node)
def visit_IfClauseNode(self, node: mparser.IfClauseNode) -> None:
self._accept_list('ifs', node.ifs)
self._accept('else', node.elseblock)
self.setbase(node)
def visit_UMinusNode(self, node: mparser.UMinusNode) -> None:
self._accept('right', node.value)
self.setbase(node)
def visit_IfNode(self, node: mparser.IfNode) -> None:
self._accept('condition', node.condition)
self._accept('block', node.block)
self.setbase(node)
def visit_TernaryNode(self, node: mparser.TernaryNode) -> None:
self._accept('condition', node.condition)
self._accept('true', node.trueblock)
self._accept('false', node.falseblock)
self.setbase(node)
def visit_ArgumentNode(self, node: mparser.ArgumentNode) -> None:
self._accept_list('positional', node.arguments)
kwargs_list = [] # type: T.List[T.Dict[str, T.Dict[str, T.Any]]]
for key, val in node.kwargs.items():
key_res = {} # type: T.Dict[str, T.Any]
val_res = {} # type: T.Dict[str, T.Any]
self._raw_accept(key, key_res)
self._raw_accept(val, val_res)
kwargs_list += [{'key': key_res, 'val': val_res}]
self.current['kwargs'] = kwargs_list
self.setbase(node)
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