Add boolean/logical operations (and, or, not).

* Adds a new to_boolean op to evaluate a value as a truthy i1 * Uses cascading scf.if ops to properly evaluate and/or sequences (short-circuit and original value returning) * Adds a helper to construct select ops and uses it to implement 'not'
2020-06-09 00:01:21 -07:00 · 2020-06-09 00:01:21 -07:00 · e18e8e0a96
parent b0a80e04f1
commit e18e8e0a96
6 changed files with 152 additions and 1 deletions
--- a/include/npcomp/Dialect/Basicpy/BasicpyOps.td
+++ b/include/npcomp/Dialect/Basicpy/BasicpyOps.td
@ -240,6 +240,19 @@ def Basicpy_SingletonOp : Basicpy_Op<"singleton", [
  let assemblyFormat = "attr-dict `:` type($result)";
 }
 def Basicpy_ToBooleanOp : Basicpy_Op<"to_boolean", [NoSideEffect]> {
  let summary = "Evaluates an input to an i1 boolean value";
  let description = [{
    Applies the rules for interpreting a type as a boolean, returning an i1
    indicating the truthiness of the operand. Since the output of this op
    is intended to drive lower-level control flow, the i1 type is used (not
    the user level BoolType).
  }];
  let arguments = (ins AnyType:$operand);
  let results = (outs I1:$result);
  let assemblyFormat = "$operand attr-dict `:` type($operand)";
 }
 def Basicpy_UnknownCastOp : Basicpy_Op<"unknown_cast", [NoSideEffect]> {
  let summary = "Casts to and from the UnknownType";
  let arguments = (ins AnyType:$input);
--- a/pytest/Compiler/booleans.py
+++ b/pytest/Compiler/booleans.py
@ -0,0 +1,77 @@
 # RUN: %PYTHON %s | npcomp-opt -split-input-file | FileCheck %s --dump-input=fail
 from npcomp.compiler.frontend import *
 def import_global(f):
  fe = ImportFrontend()
  fe.import_global_function(f)
  print("// -----")
  print(fe.ir_module.to_asm())
  return f
 # CHECK-LABEL: func @logical_and
@import_global
 def logical_and():
  # CHECK: %[[X:.*]] = constant 1
  # CHECK: %[[Y:.*]] = constant 0
  # CHECK: %[[Z:.*]] = constant 2
  x = 1
  y = 0
  z = 2
  # CHECK: %[[XBOOL:.*]] = basicpy.to_boolean %[[X]]
  # CHECK: %[[IF0:.*]] = scf.if %[[XBOOL]] -> (!basicpy.UnknownType) {
  # CHECK:   %[[YBOOL:.*]] = basicpy.to_boolean %[[Y]]
  # CHECK:   %[[IF1:.*]] = scf.if %[[YBOOL]] -> (!basicpy.UnknownType) {
  # CHECK:     %[[ZCAST:.*]] = basicpy.unknown_cast %[[Z]]
  # CHECK:     scf.yield %[[ZCAST]]
  # CHECK:   } else {
  # CHECK:     %[[YCAST:.*]] = basicpy.unknown_cast %[[Y]]
  # CHECK:     scf.yield %[[YCAST]]
  # CHECK:   }
  # CHECK:   %[[IF1CAST:.*]] = basicpy.unknown_cast %[[IF1]]
  # CHECK:   scf.yield %[[IF1CAST]]
  # CHECK: } else {
  # CHECK:   %[[XCAST:.*]] = basicpy.unknown_cast %[[X]]
  # CHECK:   scf.yield %[[XCAST]]
  # CHECK: }
  return x and y and z
 # CHECK-LABEL: func @logical_or
@import_global
 def logical_or():
  # CHECK: %[[X:.*]] = constant 0
  # CHECK: %[[Y:.*]] = constant 1
  # CHECK: %[[Z:.*]] = constant 2
  # CHECK: %[[XBOOL:.*]] = basicpy.to_boolean %[[X]]
  # CHECK: %[[IF0:.*]] = scf.if %[[XBOOL]] -> (!basicpy.UnknownType) {
  # CHECK:   %[[XCAST:.*]] = basicpy.unknown_cast %[[X]]
  # CHECK:   scf.yield %[[XCAST]]
  # CHECK: } else {
  # CHECK:   %[[YBOOL:.*]] = basicpy.to_boolean %[[Y]]
  # CHECK:   %[[IF1:.*]] = scf.if %[[YBOOL]] -> (!basicpy.UnknownType) {
  # CHECK:     %[[YCAST:.*]] = basicpy.unknown_cast %[[Y]]
  # CHECK:     scf.yield %[[YCAST]]
  # CHECK:   } else {
  # CHECK:     %[[ZCAST:.*]] = basicpy.unknown_cast %[[Z]]
  # CHECK:     scf.yield %[[ZCAST]]
  # CHECK:   }
  # CHECK:   %[[IF1CAST:.*]] = basicpy.unknown_cast %[[IF1]]
  # CHECK:   scf.yield %[[IF1CAST]]
  # CHECK: }
  x = 0
  y = 1
  z = 2
  return x or y or z
 # CHECK-LABEL: func @logical_not
@import_global
 def logical_not():
  # CHECK: %[[X:.*]] = constant 1
  x = 1
  # CHECK-DAG: %[[TRUE:.*]] = basicpy.bool_constant 1 
  # CHECK-DAG: %[[FALSE:.*]] = basicpy.bool_constant 0
  # CHECK-DAG: %[[CONDITION:.*]] = basicpy.to_boolean %[[X]]
  # CHECK-DAG: %{{.*}} = select %[[CONDITION]], %[[FALSE]], %[[TRUE]] : !basicpy.BoolType
  return not x
--- a/python/npcomp/compiler/frontend.py
+++ b/python/npcomp/compiler/frontend.py
@ -237,6 +237,41 @@ class ExpressionImporter(BaseNodeVisitor):
        ir_h.basicpy_UnknownType, left, right,
        ast_node.op.__class__.__name__).result
  def visit_BoolOp(self, ast_node):
    ir_h = self.fctx.ir_h
    if isinstance(ast_node.op, ast.And):
      return_first_true = False
    elif isinstance(ast_node.op, ast.Or):
      return_first_true = True
    else:
      self.fctx.abort("unknown bool op %r" % (ast.dump(ast_node.op)))
    def emit_next(next_nodes):
      next_node = next_nodes[0]
      next_nodes = next_nodes[1:]
      next_value = self.sub_evaluate(next_node)
      if not next_nodes:
        return next_value
      condition_value = ir_h.basicpy_to_boolean_op(next_value).result
      if_op, then_ip, else_ip = ir_h.scf_if_op([ir_h.basicpy_UnknownType],
                                               condition_value, True)
      orig_ip = ir_h.builder.insertion_point
      # Short-circuit return case.
      ir_h.builder.insertion_point = then_ip if return_first_true else else_ip
      next_value_casted = ir_h.basicpy_unknown_cast_op(ir_h.basicpy_UnknownType,
                                                       next_value).result
      ir_h.scf_yield_op([next_value_casted])
      # Nested evaluate next case.
      ir_h.builder.insertion_point = else_ip if return_first_true else then_ip
      nested_value = emit_next(next_nodes)
      nested_value_casted = next_value_casted = ir_h.basicpy_unknown_cast_op(
          ir_h.basicpy_UnknownType, nested_value).result
      ir_h.scf_yield_op([nested_value_casted])
      ir_h.builder.insertion_point = orig_ip
      return if_op.result
    self.value = emit_next(ast_node.values)
  def visit_Compare(self, ast_node):
    # Short-circuit comparison (degenerates to binary comparison when just
    # two operands).
@ -284,6 +319,20 @@ class ExpressionImporter(BaseNodeVisitor):
      self.fctx.abort("Local variable '%s' has not been assigned" % ast_node.id)
    self.value = value
  def visit_UnaryOp(self, ast_node):
    ir_h = self.fctx.ir_h
    op = ast_node.op
    operand_value = self.sub_evaluate(ast_node.operand)
    if isinstance(op, ast.Not):
      # Special handling for logical-not.
      condition_value = ir_h.basicpy_to_boolean_op(operand_value).result
      true_value = ir_h.basicpy_bool_constant_op(True).result
      false_value = ir_h.basicpy_bool_constant_op(False).result
      self.value = ir_h.select_op(condition_value, false_value,
                                  true_value).result
    else:
      self.fctx.abort("Unknown unary op %r", (ast.dump(op)))
  if sys.version_info < (3, 8, 0):
    # <3.8 breaks these out into separate AST classes.
    def visit_Num(self, ast_node):
--- a/python/npcomp/dialect/Basicpy.py
+++ b/python/npcomp/dialect/Basicpy.py
@ -90,6 +90,9 @@ class DialectHelper(_BaseDialectHelper):
    attrs = c.dictionary_attr({"value": c.string_attr(value.encode("utf-8"))})
    return self.op("basicpy.str_constant", [self.basicpy_StrType], [], attrs)
  def basicpy_to_boolean_op(self, value):
    return self.op("basicpy.to_boolean", [self.i1_type], [value])
  def basicpy_unknown_cast_op(self, result_type, operand):
    return self.op("basicpy.unknown_cast", [result_type], [operand])
--- a/python_native/CoreDialects.cpp
+++ b/python_native/CoreDialects.cpp
@ -55,7 +55,7 @@ public:
                     op.getThenBodyBuilder().saveInsertionPoint());
               }
             },
-             py::arg("cond"), py::arg("result_types"),
+             py::arg("result_types"), py::arg("cond"),
             py::arg("with_else_region") = false);
  }
 };
--- a/python_native/MlirIr.cpp
+++ b/python_native/MlirIr.cpp
@ -248,6 +248,15 @@ void PyDialectHelper::bind(py::module m) {
           R"(Creates a new `func` op, optionally creating an entry block.
              If an entry block is created, the builder will be positioned
              to its start.)")
      .def("select_op",
           [](PyDialectHelper &self, PyValue conditionValue, PyValue trueValue,
              PyValue falseValue) -> PyOperationRef {
             OpBuilder &opBuilder = self.pyOpBuilder.getBuilder(true);
             Location loc = self.pyOpBuilder.getCurrentLoc();
             return PyOperationRef(opBuilder.create<SelectOp>(
                 loc, conditionValue, trueValue, falseValue));
           },
           py::arg("condition"), py::arg("true_value"), py::arg("false_value"))
      .def("return_op",
           [](PyDialectHelper &self, std::vector<PyValue> pyOperands) {
             OpBuilder &opBuilder = self.pyOpBuilder.getBuilder(true);