Complex numeber comparison, etc.

8af9a568 · Robert Bradshaw · 4f05119a · 8af9a568 · 8af9a568 · 8af9a568
Commit 8af9a568 authored May 14, 2009 by Robert Bradshaw
Showing with 80 additions and 22 deletions

Cython/Compiler/ExprNodes.py Cython/Compiler/ExprNodes.py +46 -10

Cython/Compiler/Nodes.py Cython/Compiler/Nodes.py +4 -2

Cython/Compiler/PyrexTypes.py Cython/Compiler/PyrexTypes.py +30 -10

No files found.
--- a/Cython/Compiler/ExprNodes.py
+++ b/Cython/Compiler/ExprNodes.py
@@ -4213,8 +4213,11 @@ class NumBinopNode(BinopNode):
                self.operator, 
                self.operand2.result())
        else:
+            func = self.type.binary_op(self.operator)
+            if func is None:
+                error(self.pos, "binary operator %s not supported for %s" % (self.operator, self.type))
            return "%s(%s, %s)" % (
-                self.type.binop(self.operator),
+                func,
                self.operand1.result(),
                self.operand2.result())
    
@@ -4318,7 +4321,7 @@ class DivNode(NumBinopNode):
            return "float division"

    def generate_evaluation_code(self, code):
-        if not self.type.is_pyobject:
+        if not self.type.is_pyobject and not self.type.is_complex:
            if self.cdivision is None:
                self.cdivision = (code.globalstate.directives['cdivision'] 
                                    or not self.type.signed
@@ -4331,7 +4334,11 @@ class DivNode(NumBinopNode):
    def generate_div_warning_code(self, code):
        if not self.type.is_pyobject:
            if self.zerodivision_check:
-                code.putln("if (unlikely(%s == 0)) {" % self.operand2.result())
+                if not self.infix:
+                    zero_test = "%s(%s)" % (self.type.unary_op('zero'), self.operand2.result())
+                else:
+                    zero_test = "%s == 0" % self.operand2.result()
+                code.putln("if (unlikely(%s)) {" % zero_test)
                code.putln('PyErr_Format(PyExc_ZeroDivisionError, "%s");' % self.zero_division_message())
                code.putln(code.error_goto(self.pos))
                code.putln("}")
@@ -4344,7 +4351,7 @@ class DivNode(NumBinopNode):
                    code.putln('PyErr_Format(PyExc_OverflowError, "value too large to perform division");')
                    code.putln(code.error_goto(self.pos))
                    code.putln("}")
-            if code.globalstate.directives['cdivision_warnings']:
+            if code.globalstate.directives['cdivision_warnings'] and self.operand != '/':
                code.globalstate.use_utility_code(cdivision_warning_utility_code)
                code.putln("if ((%s < 0) ^ (%s < 0)) {" % (
                                self.operand1.result(),
@@ -4355,7 +4362,9 @@ class DivNode(NumBinopNode):
                code.putln("}")
    
    def calculate_result_code(self):
-        if self.type.is_float and self.operator == '//':
+        if self.type.is_complex:
+            return NumBinopNode.calculate_result_code(self)
+        elif self.type.is_float and self.operator == '//':
            return "floor(%s / %s)" % (
                self.operand1.result(), 
                self.operand2.result())
@@ -4705,7 +4714,13 @@ class CmpNode(object):
            or (self.cascade and self.cascade.is_python_result()))

    def check_types(self, env, operand1, op, operand2):
-        if not self.types_okay(operand1, op, operand2):
+        if operand1.type.is_complex or operand2.type.is_complex:
+            if op not in ('==', '!='):
+                error(self.pos, "complex types unordered")
+            common_type = PyrexTypes.widest_numeric_type(operand1.type, operand2.type)
+            self.operand1 = operand1.coerce_to(common_type, env)
+            self.operand2 = operand2.coerce_to(common_type, env)
+        elif not self.types_okay(operand1, op, operand2):
            error(self.pos, "Invalid types for '%s' (%s, %s)" %
                (self.operator, operand1.type, operand2.type))
    
@@ -4754,6 +4769,16 @@ class CmpNode(object):
                        richcmp_constants[op],
                        code.error_goto_if_null(result_code, self.pos)))
                code.put_gotref(result_code)
+        elif operand1.type.is_complex and not code.globalstate.directives['c99_complex']:
+            if op == "!=": negation = "!"
+            else: negation = ""
+            code.putln("%s = %s(%s%s(%s, %s));" % (
+                result_code, 
+                coerce_result,
+                negation,
+                operand1.type.unary_op('eq'), 
+                operand1.result(), 
+                operand2.result()))
        else:
            type1 = operand1.type
            type2 = operand2.type
@@ -4881,10 +4906,21 @@ class PrimaryCmpNode(NewTempExprNode, CmpNode):
            self.not_const()

    def calculate_result_code(self):
-        return "(%s %s %s)" % (
-            self.operand1.result(),
-            self.c_operator(self.operator),
-            self.operand2.result())
+        if self.operand1.type.is_complex:
+            if self.operator == "!=":
+                negation = "!"
+            else:
+                negation = ""
+            return "(%s%s(%s, %s))" % (
+                negation,
+                self.operand1.type.binary_op('=='), 
+                self.operand1.result(), 
+                self.operand2.result())
+        else:
+            return "(%s %s %s)" % (
+                self.operand1.result(),
+                self.c_operator(self.operator),
+                self.operand2.result())

    def generate_evaluation_code(self, code):
        self.operand1.generate_evaluation_code(code)

--- a/Cython/Compiler/Nodes.py
+++ b/Cython/Compiler/Nodes.py
@@ -1921,6 +1921,10 @@ class DefNode(FuncDefNode):
        has_star_or_kw_args = self.star_arg is not None \
            or self.starstar_arg is not None or has_kwonly_args

+        for arg in self.args:
+            if not arg.type.is_pyobject and arg.type.from_py_function is None:
+                arg.type.create_from_py_utility_code(env)
+
        if not self.signature_has_generic_args():
            if has_star_or_kw_args:
                error(self.pos, "This method cannot have * or keyword arguments")
@@ -1951,8 +1955,6 @@ class DefNode(FuncDefNode):
                        error(arg.pos, "Non-default argument following default argument")
                    elif not arg.is_self_arg:
                        positional_args.append(arg)
-                if arg.type.from_py_function is None:
-                    arg.type.create_from_py_utility_code(env)

            self.generate_tuple_and_keyword_parsing_code(
                positional_args, kw_only_args, end_label, code)

--- a/Cython/Compiler/PyrexTypes.py
+++ b/Cython/Compiler/PyrexTypes.py
@@ -753,18 +753,33 @@ class CComplexType(CNumericType):
        self.from_py_function = "__pyx_PyObject_As_" + self.specalization_name()
        return True
    
-    def binop(self, op):
+    def lookup_op(self, nargs, op):
        try:
-            return self.binops[op]
+            return self.binops[nargs, op]
        except KeyError:
-            if op in "+-*/":
-                from ExprNodes import compile_time_binary_operators
-                op_name = compile_time_binary_operators[op].__name__
-                self.binops[op] = func_name = "%s_%s" % (self.specalization_name(), op_name)
-                return func_name
-            else:
-                error("Binary '%s' not supported in for %s" % (op, self))
-                return "<error>"
+            pass
+        try:
+            op_name = complex_ops[nargs, op]
+            self.binops[nargs, op] = func_name = "%s_%s" % (self.specalization_name(), op_name)
+            return func_name
+        except KeyError:
+            return None
+
+    def unary_op(self, op):
+        return self.lookup_op(1, op)
+        
+    def binary_op(self, op):
+        return self.lookup_op(2, op)
+        
+complex_ops = {
+    (1, '-'): 'neg',
+    (1, 'zero'): 'is_zero',
+    (2, '+'): 'add',
+    (2, '-') : 'sub',
+    (2, '*'): 'mul',
+    (2, '/'): 'div',
+    (2, '=='): 'eq',
+}

 complex_generic_utility_code = UtilityCode(
 proto="""
@@ -804,6 +819,7 @@ proto="""
    #define %(type_name)s_from_parts(x, y) ((x) + (y)*(%(type)s)_Complex_I)

    #define %(type_name)s_is_zero(a) ((a) == 0)
+    #define %(type_name)s_eq(a, b) ((a) == (b))
    #define %(type_name)s_add(a, b) ((a)+(b))
    #define %(type_name)s_sub(a, b) ((a)-(b))
    #define %(type_name)s_mul(a, b) ((a)*(b))
@@ -819,6 +835,10 @@ proto="""
       return (a.real == 0) & (a.imag == 0);
    }

+    static INLINE int %(type_name)s_eq(%(type)s a, %(type)s b) {
+       return (a.real == b.real) & (a.imag == b.imag);
+    }
+
    static INLINE %(type)s %(type_name)s_add(%(type)s a, %(type)s b) {
        %(type)s z;
        z.real = a.real + b.real;