major cleanup for comprehension code to remove redundant classes

eee86b80 · Stefan Behnel · 21ffedf5 · eee86b80 · eee86b80 · eee86b80
Commit eee86b80 authored Dec 19, 2008 by Stefan Behnel
Showing with 59 additions and 87 deletions

Cython/Compiler/ExprNodes.py Cython/Compiler/ExprNodes.py +25 -55

Cython/Compiler/Optimize.py Cython/Compiler/Optimize.py +5 -3

Cython/Compiler/Parsing.py Cython/Compiler/Parsing.py +29 -29

No files found.
--- a/Cython/Compiler/ExprNodes.py
+++ b/Cython/Compiler/ExprNodes.py
@@ -3180,63 +3180,33 @@ class ListNode(SequenceNode):
            # generate_evaluation_code which will do that.
-class ComprehensionNode(SequenceNode):
+class ComprehensionNode(NewTempExprNode):
-    subexprs = []
+    subexprs = ["target"]
-    is_sequence_constructor = 0 # not unpackable
-    comp_result_type = py_object_type
    child_attrs = ["loop", "append"]
    def analyse_types(self, env):
-        self.type = self.comp_result_type
+        self.target.analyse_expressions(env)
-        self.is_temp = 1
+        self.type = self.target.type
        self.append.target = self # this is a CloneNode used in the PyList_Append in the inner loop
+        self.loop.analyse_declarations(env)
+        self.loop.analyse_expressions(env)
    def allocate_temps(self, env, result = None): 
        if debug_temp_alloc:
            print("%s Allocating temps" % self)
        self.allocate_temp(env, result)
-        self.loop.analyse_declarations(env)
-        self.loop.analyse_expressions(env)
-    def generate_operation_code(self, code):
-        code.putln("%s = PyList_New(%s); %s" %
-            (self.result(),
-            0,
-            code.error_goto_if_null(self.result(), self.pos)))
-        self.loop.generate_execution_code(code)
-    def annotate(self, code):
-        self.loop.annotate(code)
-class ListComprehensionNode(ComprehensionNode):
+    def calculate_result_code(self):
-    comp_result_type = list_type
+        return self.target.result()
-    def generate_operation_code(self, code):
-        code.putln("%s = PyList_New(%s); %s" %
-            (self.result(),
-            0,
-            code.error_goto_if_null(self.result(), self.pos)))
-        self.loop.generate_execution_code(code)
-class SetComprehensionNode(ComprehensionNode):
+    def generate_result_code(self, code):
-    comp_result_type = set_type
+        self.generate_operation_code(code)
    def generate_operation_code(self, code):
-        code.putln("%s = PySet_New(0); %s" %    # arg == iterable, not size!
-            (self.result(),
-            code.error_goto_if_null(self.result(), self.pos)))
        self.loop.generate_execution_code(code)
-class DictComprehensionNode(ComprehensionNode):
+    def annotate(self, code):
-    comp_result_type = dict_type
+        self.loop.annotate(code)
-    def generate_operation_code(self, code):
-        code.putln("%s = PyDict_New(); %s" %
-            (self.result(),
-            code.error_goto_if_null(self.result(), self.pos)))
-        self.loop.generate_execution_code(code)
 class ComprehensionAppendNode(NewTempExprNode):
@@ -3251,18 +3221,18 @@ class ComprehensionAppendNode(NewTempExprNode):
        self.type = PyrexTypes.c_int_type
        self.is_temp = 1
-class ListComprehensionAppendNode(ComprehensionAppendNode):
    def generate_result_code(self, code):
-        code.putln("%s = PyList_Append(%s, (PyObject*)%s); %s" %
+        if self.target.type is list_type:
-            (self.result(),
+            function = "PyList_Append"
-             self.target.result(),
+        elif self.target.type is set_type:
-             self.expr.result(),
+            function = "PySet_Add"
-             code.error_goto_if(self.result(), self.pos)))
+        else:
+            raise InternalError(
+                "Invalid type for comprehension node: %s" % self.target.type)
-class SetComprehensionAppendNode(ComprehensionAppendNode):
+        code.putln("%s = %s(%s, (PyObject*)%s); %s" %
-    def generate_result_code(self, code):
-        code.putln("%s = PySet_Add(%s, (PyObject*)%s); %s" %
            (self.result(),
+             function,
             self.target.result(),
             self.expr.result(),
             code.error_goto_if(self.result(), self.pos)))

--- a/Cython/Compiler/Optimize.py
+++ b/Cython/Compiler/Optimize.py
@@ -488,9 +488,11 @@ class FlattenBuiltinTypeCreation(Visitor.VisitorTransform):
        if isinstance(iterable, (ExprNodes.ListNode, ExprNodes.TupleNode)):
            return ExprNodes.SetNode(node.pos, args=iterable.args,
                                     type=Builtin.set_type, is_temp=1)
-        elif isinstance(iterable, ExprNodes.ListComprehensionNode):
+        elif isinstance(iterable, ExprNodes.ComprehensionNode) and \
-            iterable.__class__ = ExprNodes.SetComprehensionNode
+                iterable.type is Builtin.list_type:
-            iterable.append.__class__ = ExprNodes.SetComprehensionAppendNode
+            iterable.target = ExprNodes.SetNode(
+                node.pos, args=[], type=Builtin.set_type, is_temp=1)
+            iterable.type = Builtin.set_type
            iterable.pos = node.pos
            return iterable
        else:

--- a/Cython/Compiler/Parsing.py
+++ b/Cython/Compiler/Parsing.py
@@ -699,11 +699,13 @@ def p_list_maker(s):
        return ExprNodes.ListNode(pos, args = [])
    expr = p_simple_expr(s)
    if s.sy == 'for':
-        loop = p_list_for(s)
+        target = ExprNodes.ListNode(pos, args = [])
+        append = ExprNodes.ComprehensionAppendNode(
+            pos, expr=expr, target=ExprNodes.CloneNode(target))
+        loop = p_list_for(s, Nodes.ExprStatNode(append.pos, expr=append))
        s.expect(']')
-        append = ExprNodes.ListComprehensionAppendNode( pos, expr = expr )
+        return ExprNodes.ComprehensionNode(
-        set_inner_comp_append(loop, append)
+            pos, loop=loop, append=append, target=target)
-        return ExprNodes.ListComprehensionNode(pos, loop = loop, append = append)
    else:
        exprs = [expr]
        if s.sy == ',':
@@ -712,40 +714,34 @@ def p_list_maker(s):
        s.expect(']')
        return ExprNodes.ListNode(pos, args = exprs)
-def p_list_iter(s):
+def p_list_iter(s, body):
    if s.sy == 'for':
-        return p_list_for(s)
+        return p_list_for(s, body)
    elif s.sy == 'if':
-        return p_list_if(s)
+        return p_list_if(s, body)
    else:
-        return Nodes.PassStatNode(s.position())
+        # insert the 'append' operation into the loop
+        return body
-def p_list_for(s):
+def p_list_for(s, body):
    # s.sy == 'for'
    pos = s.position()
    s.next()
    kw = p_for_bounds(s)
    kw['else_clause'] = None
-    kw['body'] = p_list_iter(s)
+    kw['body'] = p_list_iter(s, body)
    return Nodes.ForStatNode(pos, **kw)
-def p_list_if(s):
+def p_list_if(s, body):
    # s.sy == 'if'
    pos = s.position()
    s.next()
    test = p_test(s)
    return Nodes.IfStatNode(pos, 
-        if_clauses = [Nodes.IfClauseNode(pos, condition = test, body = p_list_iter(s))],
+        if_clauses = [Nodes.IfClauseNode(pos, condition = test,
+                                         body = p_list_iter(s, body))],
        else_clause = None )
-def set_inner_comp_append(loop, append):
-    inner_loop = loop
-    while not isinstance(inner_loop.body, Nodes.PassStatNode):
-        inner_loop = inner_loop.body
-        if isinstance(inner_loop, Nodes.IfStatNode):
-             inner_loop = inner_loop.if_clauses[0]
-    inner_loop.body = Nodes.ExprStatNode(append.pos, expr = append)
 #dictmaker: test ':' test (',' test ':' test)* [',']
 def p_dict_or_set_maker(s):
@@ -768,11 +764,13 @@ def p_dict_or_set_maker(s):
        return ExprNodes.SetNode(pos, args=values)
    elif s.sy == 'for':
        # set comprehension
-        loop = p_list_for(s)
+        target = ExprNodes.SetNode(pos, args=[])
+        append = ExprNodes.ComprehensionAppendNode(
+            item.pos, expr=item, target=ExprNodes.CloneNode(target))
+        loop = p_list_for(s, Nodes.ExprStatNode(append.pos, expr=append))
        s.expect('}')
-        append = ExprNodes.SetComprehensionAppendNode(item.pos, expr=item)
+        return ExprNodes.ComprehensionNode(
-        set_inner_comp_append(loop, append)
+            pos, loop=loop, append=append, target=target)
-        return ExprNodes.SetComprehensionNode(pos, loop=loop, append=append)
    elif s.sy == ':':
        # dict literal or comprehension
        key = item
@@ -780,12 +778,14 @@ def p_dict_or_set_maker(s):
        value = p_simple_expr(s)
        if s.sy == 'for':
            # dict comprehension
-            loop = p_list_for(s)
+            target = ExprNodes.DictNode(pos, key_value_pairs = [])
-            s.expect('}')
            append = ExprNodes.DictComprehensionAppendNode(
-                item.pos, key_expr = key, value_expr = value)
+                item.pos, key_expr=key, value_expr=value,
-            set_inner_comp_append(loop, append)
+                target=ExprNodes.CloneNode(target))
-            return ExprNodes.DictComprehensionNode(pos, loop=loop, append=append)
+            loop = p_list_for(s, Nodes.ExprStatNode(append.pos, expr=append))
+            s.expect('}')
+            return ExprNodes.ComprehensionNode(
+                pos, loop=loop, append=append, target=target)
        else:
            # dict literal
            items = [ExprNodes.DictItemNode(key.pos, key=key, value=value)]