""" Serializes a Cython code tree to Cython code. This is primarily useful for debugging and testing purposes. The output is in a strict format, no whitespace or comments from the input is preserved (and it could not be as it is not present in the code tree). """ from __future__ import absolute_import, print_function from .Compiler.Visitor import TreeVisitor from .Compiler.ExprNodes import * class LinesResult(object): def __init__(self): self.lines = [] self.s = u"" def put(self, s): self.s += s def newline(self): self.lines.append(self.s) self.s = u"" def putline(self, s): self.put(s) self.newline() class DeclarationWriter(TreeVisitor): indent_string = u" " def __init__(self, result=None): super(DeclarationWriter, self).__init__() if result is None: result = LinesResult() self.result = result self.numindents = 0 self.tempnames = {} self.tempblockindex = 0 def write(self, tree): self.visit(tree) return self.result def indent(self): self.numindents += 1 def dedent(self): self.numindents -= 1 def startline(self, s=u""): self.result.put(self.indent_string * self.numindents + s) def put(self, s): self.result.put(s) def putline(self, s): self.result.putline(self.indent_string * self.numindents + s) def endline(self, s=u""): self.result.putline(s) def line(self, s): self.startline(s) self.endline() def comma_separated_list(self, items, output_rhs=False): if len(items) > 0: for item in items[:-1]: self.visit(item) if output_rhs and item.default is not None: self.put(u" = ") self.visit(item.default) self.put(u", ") self.visit(items[-1]) def visit_Node(self, node): raise AssertionError("Node not handled by serializer: %r" % node) def visit_ModuleNode(self, node): self.visitchildren(node) def visit_StatListNode(self, node): self.visitchildren(node) def visit_CDefExternNode(self, node): if node.include_file is None: file = u'*' else: file = u'"%s"' % node.include_file self.putline(u"cdef extern from %s:" % file) self.indent() self.visit(node.body) self.dedent() def visit_CPtrDeclaratorNode(self, node): self.put('*') self.visit(node.base) def visit_CReferenceDeclaratorNode(self, node): self.put('&') self.visit(node.base) def visit_CArrayDeclaratorNode(self, node): self.visit(node.base) self.put(u'[') if node.dimension is not None: self.visit(node.dimension) self.put(u']') def visit_CArrayDeclaratorNode(self, node): self.visit(node.base) self.put(u'[') if node.dimension is not None: self.visit(node.dimension) self.put(u']') def visit_CFuncDeclaratorNode(self, node): # TODO: except, gil, etc. self.visit(node.base) self.put(u'(') self.comma_separated_list(node.args) self.endline(u')') def visit_CNameDeclaratorNode(self, node): self.put(node.name) def visit_CSimpleBaseTypeNode(self, node): # See Parsing.p_sign_and_longness if node.is_basic_c_type: self.put(("unsigned ", "", "signed ")[node.signed]) if node.longness < 0: self.put("short " * -node.longness) elif node.longness > 0: self.put("long " * node.longness) self.put(node.name) def visit_CComplexBaseTypeNode(self, node): self.put(u'(') self.visit(node.base_type) self.visit(node.declarator) self.put(u')') def visit_CNestedBaseTypeNode(self, node): self.visit(node.base_type) self.put(u'.') self.put(node.name) def visit_TemplatedTypeNode(self, node): self.visit(node.base_type_node) self.put(u'[') self.comma_separated_list(node.positional_args + node.keyword_args.key_value_pairs) self.put(u']') def visit_CVarDefNode(self, node): self.startline(u"cdef ") self.visit(node.base_type) self.put(u" ") self.comma_separated_list(node.declarators, output_rhs=True) self.endline() def visit_container_node(self, node, decl, extras, attributes): # TODO: visibility self.startline(decl) if node.name: self.put(u' ') self.put(node.name) if node.cname is not None: self.put(u' "%s"' % node.cname) if extras: self.put(extras) self.endline(':') self.indent() if not attributes: self.putline('pass') else: for attribute in attributes: self.visit(attribute) self.dedent() def visit_CStructOrUnionDefNode(self, node): if node.typedef_flag: decl = u'ctypedef ' else: decl = u'cdef ' if node.visibility == 'public': decl += u'public ' if node.packed: decl += u'packed ' decl += node.kind self.visit_container_node(node, decl, None, node.attributes) def visit_CppClassNode(self, node): extras = "" if node.templates: extras = u"[%s]" % ", ".join(node.templates) if node.base_classes: extras += "(%s)" % ", ".join(node.base_classes) self.visit_container_node(node, u"cdef cppclass", extras, node.attributes) def visit_CEnumDefNode(self, node): self.visit_container_node(node, u"cdef enum", None, node.items) def visit_CEnumDefItemNode(self, node): self.startline(node.name) if node.cname: self.put(u' "%s"' % node.cname) if node.value: self.put(u" = ") self.visit(node.value) self.endline() def visit_CClassDefNode(self, node): assert not node.module_name if node.decorators: for decorator in node.decorators: self.visit(decorator) self.startline(u"cdef class ") self.put(node.class_name) if node.base_class_name: self.put(u"(") if node.base_class_module: self.put(node.base_class_module) self.put(u".") self.put(node.base_class_name) self.put(u")") self.endline(u":") self.indent() self.visit(node.body) self.dedent() def visit_CTypeDefNode(self, node): self.startline(u"ctypedef ") self.visit(node.base_type) self.put(u" ") self.visit(node.declarator) self.endline() def visit_FuncDefNode(self, node): self.startline(u"def %s(" % node.name) self.comma_separated_list(node.args) self.endline(u"):") self.indent() self.visit(node.body) self.dedent() def visit_CArgDeclNode(self, node): if node.base_type.name is not None: self.visit(node.base_type) self.put(u" ") self.visit(node.declarator) if node.default is not None: self.put(u" = ") self.visit(node.default) def visit_CImportStatNode(self, node): self.startline(u"cimport ") self.put(node.module_name) if node.as_name: self.put(u" as ") self.put(node.as_name) self.endline() def visit_FromCImportStatNode(self, node): self.startline(u"from ") self.put(node.module_name) self.put(u" cimport ") first = True for pos, name, as_name, kind in node.imported_names: assert kind is None if first: first = False else: self.put(u", ") self.put(name) if as_name: self.put(u" as ") self.put(as_name) self.endline() def visit_NameNode(self, node): self.put(node.name) def visit_IntNode(self, node): self.put(node.value) def visit_NoneNode(self, node): self.put(u"None") def visit_NotNode(self, node): self.put(u"(not ") self.visit(node.operand) self.put(u")") def visit_DecoratorNode(self, node): self.startline("@") self.visit(node.decorator) self.endline() def visit_BinopNode(self, node): self.visit(node.operand1) self.put(u" %s " % node.operator) self.visit(node.operand2) def visit_AttributeNode(self, node): self.visit(node.obj) self.put(u".%s" % node.attribute) def visit_BoolNode(self, node): self.put(str(node.value)) # FIXME: represent string nodes correctly def visit_StringNode(self, node): value = node.value if value.encoding is not None: value = value.encode(value.encoding) self.put(repr(value)) def visit_PassStatNode(self, node): self.startline(u"pass") self.endline() class CodeWriter(DeclarationWriter): def visit_SingleAssignmentNode(self, node): self.startline() self.visit(node.lhs) self.put(u" = ") self.visit(node.rhs) self.endline() def visit_CascadedAssignmentNode(self, node): self.startline() for lhs in node.lhs_list: self.visit(lhs) self.put(u" = ") self.visit(node.rhs) self.endline() def visit_PrintStatNode(self, node): self.startline(u"print ") self.comma_separated_list(node.arg_tuple.args) if not node.append_newline: self.put(u",") self.endline() def visit_ForInStatNode(self, node): self.startline(u"for ") self.visit(node.target) self.put(u" in ") self.visit(node.iterator.sequence) self.endline(u":") self.indent() self.visit(node.body) self.dedent() if node.else_clause is not None: self.line(u"else:") self.indent() self.visit(node.else_clause) self.dedent() def visit_IfStatNode(self, node): # The IfClauseNode is handled directly without a separate match # for clariy. self.startline(u"if ") self.visit(node.if_clauses[0].condition) self.endline(":") self.indent() self.visit(node.if_clauses[0].body) self.dedent() for clause in node.if_clauses[1:]: self.startline("elif ") self.visit(clause.condition) self.endline(":") self.indent() self.visit(clause.body) self.dedent() if node.else_clause is not None: self.line("else:") self.indent() self.visit(node.else_clause) self.dedent() def visit_SequenceNode(self, node): self.comma_separated_list(node.args) # Might need to discover whether we need () around tuples...hmm... def visit_SimpleCallNode(self, node): self.visit(node.function) self.put(u"(") self.comma_separated_list(node.args) self.put(")") def visit_GeneralCallNode(self, node): self.visit(node.function) self.put(u"(") posarg = node.positional_args if isinstance(posarg, AsTupleNode): self.visit(posarg.arg) else: self.comma_separated_list(posarg.args) # TupleNode.args if node.keyword_args: if isinstance(node.keyword_args, DictNode): for i, (name, value) in enumerate(node.keyword_args.key_value_pairs): if i > 0: self.put(', ') self.visit(name) self.put('=') self.visit(value) else: raise Exception("Not implemented yet") self.put(u")") def visit_ExprStatNode(self, node): self.startline() self.visit(node.expr) self.endline() def visit_InPlaceAssignmentNode(self, node): self.startline() self.visit(node.lhs) self.put(u" %s= " % node.operator) self.visit(node.rhs) self.endline() def visit_WithStatNode(self, node): self.startline() self.put(u"with ") self.visit(node.manager) if node.target is not None: self.put(u" as ") self.visit(node.target) self.endline(u":") self.indent() self.visit(node.body) self.dedent() def visit_TryFinallyStatNode(self, node): self.line(u"try:") self.indent() self.visit(node.body) self.dedent() self.line(u"finally:") self.indent() self.visit(node.finally_clause) self.dedent() def visit_TryExceptStatNode(self, node): self.line(u"try:") self.indent() self.visit(node.body) self.dedent() for x in node.except_clauses: self.visit(x) if node.else_clause is not None: self.visit(node.else_clause) def visit_ExceptClauseNode(self, node): self.startline(u"except") if node.pattern is not None: self.put(u" ") self.visit(node.pattern) if node.target is not None: self.put(u", ") self.visit(node.target) self.endline(":") self.indent() self.visit(node.body) self.dedent() def visit_ReturnStatNode(self, node): self.startline("return ") self.visit(node.value) self.endline() def visit_ReraiseStatNode(self, node): self.line("raise") def visit_ImportNode(self, node): self.put(u"(import %s)" % node.module_name.value) def visit_TempsBlockNode(self, node): """ Temporaries are output like $1_1', where the first number is an index of the TempsBlockNode and the second number is an index of the temporary which that block allocates. """ idx = 0 for handle in node.temps: self.tempnames[handle] = "$%d_%d" % (self.tempblockindex, idx) idx += 1 self.tempblockindex += 1 self.visit(node.body) def visit_TempRefNode(self, node): self.put(self.tempnames[node.handle]) class PxdWriter(DeclarationWriter): def __call__(self, node): print(u'\n'.join(self.write(node).lines)) return node def visit_CFuncDefNode(self, node): if 'inline' in node.modifiers: return if node.overridable: self.startline(u'cpdef ') else: self.startline(u'cdef ') if node.visibility != 'private': self.put(node.visibility) self.put(u' ') if node.api: self.put(u'api ') self.visit(node.declarator) def visit_StatNode(self, node): pass class ExpressionWriter(TreeVisitor): def __init__(self, result=None): super(ExpressionWriter, self).__init__() if result is None: result = u"" self.result = result self.precedence = [0] def write(self, tree): self.visit(tree) return self.result def put(self, s): self.result += s def remove(self, s): if self.result.endswith(s): self.result = self.result[:-len(s)] def comma_separated_list(self, items): if len(items) > 0: for item in items[:-1]: self.visit(item) self.put(u", ") self.visit(items[-1]) def visit_Node(self, node): raise AssertionError("Node not handled by serializer: %r" % node) def visit_NameNode(self, node): self.put(node.name) def visit_NoneNode(self, node): self.put(u"None") def visit_EllipsisNode(self, node): self.put(u"...") def visit_BoolNode(self, node): self.put(str(node.value)) def visit_ConstNode(self, node): self.put(str(node.value)) def visit_ImagNode(self, node): self.put(node.value) self.put(u"j") def emit_string(self, node, prefix=u""): repr_val = repr(node.value) if repr_val[0] in 'ub': repr_val = repr_val[1:] self.put(u"%s%s" % (prefix, repr_val)) def visit_BytesNode(self, node): self.emit_string(node, u"b") def visit_StringNode(self, node): self.emit_string(node) def visit_UnicodeNode(self, node): self.emit_string(node, u"u") def emit_sequence(self, node, parens=(u"", u"")): open_paren, close_paren = parens items = node.subexpr_nodes() self.put(open_paren) self.comma_separated_list(items) self.put(close_paren) def visit_ListNode(self, node): self.emit_sequence(node, u"[]") def visit_TupleNode(self, node): self.emit_sequence(node, u"()") def visit_SetNode(self, node): if len(node.subexpr_nodes()) > 0: self.emit_sequence(node, u"{}") else: self.put(u"set()") def visit_DictNode(self, node): self.emit_sequence(node, u"{}") def visit_DictItemNode(self, node): self.visit(node.key) self.put(u": ") self.visit(node.value) unop_precedence = { 'not': 3, '!': 3, '+': 11, '-': 11, '~': 11, } binop_precedence = { 'or': 1, 'and': 2, # unary: 'not': 3, '!': 3, 'in': 4, 'not_in': 4, 'is': 4, 'is_not': 4, '<': 4, '<=': 4, '>': 4, '>=': 4, '!=': 4, '==': 4, '|': 5, '^': 6, '&': 7, '<<': 8, '>>': 8, '+': 9, '-': 9, '*': 10, '@': 10, '/': 10, '//': 10, '%': 10, # unary: '+': 11, '-': 11, '~': 11 '**': 12, } def operator_enter(self, new_prec): old_prec = self.precedence[-1] if old_prec > new_prec: self.put(u"(") self.precedence.append(new_prec) def operator_exit(self): old_prec, new_prec = self.precedence[-2:] if old_prec > new_prec: self.put(u")") self.precedence.pop() def visit_NotNode(self, node): op = 'not' prec = self.unop_precedence[op] self.operator_enter(prec) self.put(u"not ") self.visit(node.operand) self.operator_exit() def visit_UnopNode(self, node): op = node.operator prec = self.unop_precedence[op] self.operator_enter(prec) self.put(u"%s" % node.operator) self.visit(node.operand) self.operator_exit() def visit_BinopNode(self, node): op = node.operator prec = self.binop_precedence.get(op, 0) self.operator_enter(prec) self.visit(node.operand1) self.put(u" %s " % op.replace('_', ' ')) self.visit(node.operand2) self.operator_exit() def visit_BoolBinopNode(self, node): self.visit_BinopNode(node) def visit_PrimaryCmpNode(self, node): self.visit_BinopNode(node) def visit_IndexNode(self, node): self.visit(node.base) self.put(u"[") if isinstance(node.index, TupleNode): if node.index.subexpr_nodes(): self.emit_sequence(node.index) else: self.put(u"()") else: self.visit(node.index) self.put(u"]") def visit_SliceIndexNode(self, node): self.visit(node.base) self.put(u"[") if node.start: self.visit(node.start) self.put(u":") if node.stop: self.visit(node.stop) if node.slice: self.put(u":") self.visit(node.slice) self.put(u"]") def visit_SliceNode(self, node): if not node.start.is_none: self.visit(node.start) self.put(u":") if not node.stop.is_none: self.visit(node.stop) if not node.step.is_none: self.put(u":") self.visit(node.step) def visit_CondExprNode(self, node): self.visit(node.true_val) self.put(u" if ") self.visit(node.test) self.put(u" else ") self.visit(node.false_val) def visit_AttributeNode(self, node): self.visit(node.obj) self.put(u".%s" % node.attribute) def visit_SimpleCallNode(self, node): self.visit(node.function) self.put(u"(") self.comma_separated_list(node.args) self.put(")") def emit_pos_args(self, node): if node is None: return if isinstance(node, AddNode): self.emit_pos_args(node.operand1) self.emit_pos_args(node.operand2) elif isinstance(node, TupleNode): for expr in node.subexpr_nodes(): self.visit(expr) self.put(u", ") elif isinstance(node, AsTupleNode): self.put("*") self.visit(node.arg) self.put(u", ") else: self.visit(node) self.put(u", ") def emit_kwd_args(self, node): if node is None: return if isinstance(node, MergedDictNode): for expr in node.subexpr_nodes(): self.emit_kwd_args(expr) elif isinstance(node, DictNode): for expr in node.subexpr_nodes(): self.put(u"%s=" % expr.key.value) self.visit(expr.value) self.put(u", ") else: self.put(u"**") self.visit(node) self.put(u", ") def visit_GeneralCallNode(self, node): self.visit(node.function) self.put(u"(") self.emit_pos_args(node.positional_args) self.emit_kwd_args(node.keyword_args) self.remove(u", ") self.put(")") def emit_comprehension(self, body, target, sequence, condition, parens=(u"", u"")): open_paren, close_paren = parens self.put(open_paren) self.visit(body) self.put(u" for ") self.visit(target) self.put(u" in ") self.visit(sequence) if condition: self.put(u" if ") self.visit(condition) self.put(close_paren) def visit_ComprehensionAppendNode(self, node): self.visit(node.expr) def visit_DictComprehensionAppendNode(self, node): self.visit(node.key_expr) self.put(u": ") self.visit(node.value_expr) def visit_ComprehensionNode(self, node): tpmap = {'list': u"[]", 'dict': u"{}", 'set': u"{}"} parens = tpmap[node.type.py_type_name()] body = node.loop.body target = node.loop.target sequence = node.loop.iterator.sequence condition = None if hasattr(body, 'if_clauses'): # type(body) is Nodes.IfStatNode condition = body.if_clauses[0].condition body = body.if_clauses[0].body self.emit_comprehension(body, target, sequence, condition, parens) def visit_GeneratorExpressionNode(self, node): body = node.loop.body target = node.loop.target sequence = node.loop.iterator.sequence condition = None if hasattr(body, 'if_clauses'): # type(body) is Nodes.IfStatNode condition = body.if_clauses[0].condition body = body.if_clauses[0].body.expr.arg elif hasattr(body, 'expr'): # type(body) is Nodes.ExprStatNode body = body.expr.arg self.emit_comprehension(body, target, sequence, condition, u"()")