(Python) override modifier for cdef methods

15833ae4 · Robert Bradshaw · b9539756 · 15833ae4 · 15833ae4 · 15833ae4
Commit 15833ae4 authored Oct 02, 2007 by Robert Bradshaw
Showing with 101 additions and 16 deletions

Cython/Compiler/ExprNodes.py Cython/Compiler/ExprNodes.py +7 -5

Cython/Compiler/Nodes.py Cython/Compiler/Nodes.py +90 -7

Cython/Compiler/Parsing.py Cython/Compiler/Parsing.py +4 -4

No files found.
--- a/Cython/Compiler/ExprNodes.py
+++ b/Cython/Compiler/ExprNodes.py
@@ -1033,6 +1033,9 @@ class TempNode(AtomicExprNode):
        if type.is_pyobject:
            self.result_ctype = py_object_type
        self.is_temp = 1
+        
+    def analyse_types(self, env):
+        return self.type
    
    def generate_result_code(self, code):
        pass
@@ -1686,11 +1689,10 @@ class AttributeNode(ExprNode):
                    error(self.pos, "Illegal use of special attribute __weakref__")
                # methods need the normal attribute lookup
                # because they do not have struct entries
-                if not entry.is_method:
-                    if entry.is_variable or entry.is_cmethod:
-                        self.type = entry.type
-                        self.member = entry.cname
-                        return
+                if entry.is_variable or entry.is_cmethod:
+                    self.type = entry.type
+                    self.member = entry.cname
+                    return
                else:
                    # If it's not a variable or C method, it must be a Python
                    # method of an extension type, so we treat it like a Python

--- a/Cython/Compiler/Nodes.py
+++ b/Cython/Compiler/Nodes.py
@@ -534,6 +534,8 @@ class FuncDefNode(StatNode, BlockNode):
    #  #filename        string        C name of filename string const
    #  entry           Symtab.Entry
    
+    py_func = None
+    
    def analyse_expressions(self, env):
        pass
                
@@ -559,6 +561,10 @@ class FuncDefNode(StatNode, BlockNode):
        self.generate_const_definitions(lenv, code)
        # ----- Function header
        code.putln("")
+        if self.py_func:
+            self.py_func.generate_function_header(code, 
+                with_pymethdef = env.is_py_class_scope,
+                proto_only=True)
        self.generate_function_header(code,
            with_pymethdef = env.is_py_class_scope)
        # ----- Local variable declarations
@@ -639,7 +645,11 @@ class FuncDefNode(StatNode, BlockNode):
            #		retval_code)
            code.putln("return %s;" % retval_code)
        code.putln("}")
-    
+        # ----- Python version
+        if self.py_func:
+            self.py_func.generate_function_definitions(env, code)
+
+        
    def put_stararg_decrefs(self, code):
        pass

@@ -671,7 +681,7 @@ class FuncDefNode(StatNode, BlockNode):
 class CFuncDefNode(FuncDefNode):
    #  C function definition.
    #
-    #  modifiers     'inline ' or ''
+    #  modifiers     'inline ' or 'visible' or 'overrideable'
    #  visibility    'private' or 'public' or 'extern'
    #  base_type     CBaseTypeNode
    #  declarator    CDeclaratorNode
@@ -700,7 +710,34 @@ class CFuncDefNode(FuncDefNode):
            cname = cname, visibility = self.visibility,
            defining = self.body is not None)
        self.return_type = type.return_type
-    
+
+        if 'overrideable' in self.modifiers or 'visible' in self.modifiers:
+            if 'visible' in self.modifiers:
+                self.modifiers.remove('visible')
+            import ExprNodes
+            arg_names = [arg.name for arg in self.type.args]
+            self_arg = ExprNodes.NameNode(self.pos, name=arg_names[0])
+            cfunc = ExprNodes.AttributeNode(self.pos, obj=self_arg, attribute=self.declarator.base.name)
+            c_call = ExprNodes.SimpleCallNode(self.pos, function=cfunc, args=[ExprNodes.NameNode(self.pos, name=n) for n in arg_names[1:]])
+            py_func_body = ReturnStatNode(pos=self.pos, return_type=PyrexTypes.py_object_type, value=c_call)
+            self.py_func = DefNode(pos = self.pos, 
+                                   name = self.declarator.base.name,
+                                   args = self.declarator.args,
+                                   star_arg = None,
+                                   starstar_arg = None,
+                                   doc = None, # self.doc,
+                                   body = py_func_body)
+            self.py_func.analyse_declarations(env)
+            # Reset scope entry the above cfunction
+            env.entries[name] = self.entry
+            if Options.intern_names:
+                self.py_func.interned_attr_cname = env.intern(self.py_func.entry.name)
+            if 'overrideable' in self.modifiers:
+                self.modifiers.remove('overrideable')
+                self.override = OverrideCheckNode(self.pos, py_func = self.py_func)
+                self.body.stats.insert(0, self.override)
+            
+                    
    def declare_arguments(self, env):
        for arg in self.type.args:
            if not arg.name:
@@ -732,7 +769,7 @@ class CFuncDefNode(FuncDefNode):
            storage_class = ""
        code.putln("%s%s%s {" % (
            storage_class,
-            self.modifiers, 
+            ' '.join(self.modifiers).upper(), # macro forms 
            header))

    def generate_argument_declarations(self, env, code):
@@ -792,7 +829,7 @@ class CFuncDefNode(FuncDefNode):
            
    def caller_will_check_exceptions(self):
        return self.entry.type.exception_check
-
+                    

 class PyArgDeclNode(Node):
    # Argument which must be a Python object (used
@@ -923,7 +960,7 @@ class DefNode(FuncDefNode):
        else:
            self.entry.doc = self.doc
        self.entry.func_cname = \
-            Naming.func_prefix + env.scope_prefix + self.name
+            Naming.func_prefix + "py_" + env.scope_prefix + self.name
        self.entry.doc_cname = \
            Naming.funcdoc_prefix + env.scope_prefix + self.name
        self.entry.pymethdef_cname = \
@@ -989,7 +1026,7 @@ class DefNode(FuncDefNode):
        self.assmt.analyse_declarations(env)
        self.assmt.analyse_expressions(env)
            
-    def generate_function_header(self, code, with_pymethdef):
+    def generate_function_header(self, code, with_pymethdef, proto_only=0):
        arg_code_list = []
        sig = self.entry.signature
        if sig.has_dummy_arg:
@@ -1012,6 +1049,8 @@ class DefNode(FuncDefNode):
        dc = self.return_type.declaration_code(self.entry.func_cname)
        header = "static %s(%s)" % (dc, arg_code)
        code.putln("%s; /*proto*/" % header)
+        if proto_only:
+            return
        if self.entry.doc:
            code.putln(
                'static char %s[] = "%s";' % (
@@ -1272,6 +1311,50 @@ class DefNode(FuncDefNode):
    def caller_will_check_exceptions(self):
        return 1
            
+class OverrideCheckNode(StatNode):
+    # A Node for dispatching to the def method if it
+    # is overriden. 
+    #
+    #  py_func
+    #
+    #  args
+    #  func_temp
+    #  body
+    
+    def analyse_expressions(self, env):
+        self.args = env.arg_entries
+        import ExprNodes
+        self.func_node = ExprNodes.PyTempNode(self.pos, env)
+        call_tuple = ExprNodes.TupleNode(self.pos, args=[ExprNodes.NameNode(self.pos, name=arg.name) for arg in self.args[1:]])
+        call_node = ExprNodes.SimpleCallNode(self.pos,
+                                             function=self.func_node, 
+                                             args=[ExprNodes.NameNode(self.pos, name=arg.name) for arg in self.args[1:]])
+        self.body = ReturnStatNode(self.pos, value=call_node)
+#        self.func_temp = env.allocate_temp_pyobject()
+        self.body.analyse_expressions(env)
+#        env.release_temp(self.func_temp)
+        
+    def generate_execution_code(self, code):
+        # Check to see if we are an extension type
+        self_arg = "((PyObject *)%s)" % self.args[0].cname
+        code.putln("/* Check if overriden in Python */")
+        code.putln("if (unlikely(%s->ob_type->tp_dictoffset != 0)) {" % self_arg)
+        err = code.error_goto_if_null(self_arg, self.pos)
+        # need to get attribute manually--scope would return cdef method
+        if Options.intern_names:
+            code.putln("%s = PyObject_GetAttr(%s, %s); %s" % (self.func_node.result_code, self_arg, self.py_func.interned_attr_cname, err))
+        else:
+            code.putln('%s = PyObject_GetAttrString(%s, "%s"); %s' % (self.func_node.result_code, self_arg, self.py_func.entry.name, err))
+        # It appears that this type is not anywhere exposed in the Python/C API
+        is_builtin_function_or_method = '(strcmp(%s->ob_type->tp_name, "builtin_function_or_method") == 0)' % self.func_node.result_code
+        is_overridden = '(PyCFunction_GET_FUNCTION(%s) != &%s)' % (self.func_node.result_code, self.py_func.entry.func_cname)
+        code.putln('if (!%s || %s) {' % (is_builtin_function_or_method, is_overridden))
+        self.body.generate_execution_code(code)
+        code.putln('}')
+#        code.put_decref(self.func_temp, PyrexTypes.py_object_type)
+        code.putln("}")
+
+

 class PyClassDefNode(StatNode, BlockNode):
    #  A Python class definition.

--- a/Cython/Compiler/Parsing.py
+++ b/Cython/Compiler/Parsing.py
@@ -1691,11 +1691,11 @@ def p_visibility(s, prev_visibility):
    return visibility
    
 def p_c_modifiers(s):
-    if s.systring in ('inline', ):
-        modifier = s.systring.upper() # uppercase is macro defined for various compilers
+    if s.sy == 'IDENT' and s.systring in ('inline', 'visible', 'overrideable'):
+        modifier = s.systring
        s.next()
-        return modifier + ' ' + p_c_modifiers(s)
-    return ""
+        return [modifier] + p_c_modifiers(s)
+    return []

 def p_c_func_or_var_declaration(s, level, pos, visibility = 'private'):
    cmethod_flag = level in ('c_class', 'c_class_pxd')