Exemple #1
0
    def generate_subview(self, node: ast.Assign, view_name: str) -> cppast.DeclStmt:
        subview_args: List[cppast.Expr] = [cppast.DeclRefExpr(view_name)]

        slice_node = node.value
        for dim in slice_node.slice.dims:
            if isinstance(dim, ast.Index):
                subview_args.append(self.visit(dim))
            else:
                if dim.lower is None and dim.upper is None: 
                    subview_args.append(cppast.DeclRefExpr("Kokkos::ALL"))
                elif dim.lower is not None and dim.upper is not None:
                    make_pair = cppast.CallExpr("std::make_pair",
                            [self.visit(dim.lower), self.visit(dim.upper)])
                    subview_args.append(make_pair)
                else:
                    self.error(
                            slice_node, "Partial slice not supported, use [n:m] or [:]")

        if len(node.targets) > 1:
            self.error(node, "Multiple declarations of subview not supported")

        auto = cppast.ClassType("auto")
        target = node.targets[0]
        target_ref = cppast.DeclRefExpr(target.id)
        if target_ref in self.views:
            self.error(
                node, "Redeclaration of existing subview")
        else:
            self.views[target_ref] = None
            self.subviews[target_ref.declname] = view_name

        call = cppast.CallExpr("Kokkos::subview", subview_args)
        decl = cppast.DeclStmt(cppast.VarDecl(auto, self.visit(target), call))

        return decl 
Exemple #2
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    def visit_AnnAssign(self, node: ast.AnnAssign) -> cppast.Stmt:
        if isinstance(node.value, ast.Call):
            decltype: cppast.Type = visitors_util.get_type(
                node.annotation, self.pk_import)
            if decltype is None:
                self.error(node, "Type not supported")
            declname: cppast.DeclRefExpr = self.visit(node.target)
            function_name: str = visitors_util.get_node_name(node.value.func)

            # Call to a TeamMember method
            if function_name in dir(TeamMember):
                vardecl = cppast.VarDecl(decltype, declname,
                                         self.visit(node.value))
                return cppast.DeclStmt(vardecl)

            # Nested parallelism
            if function_name in ("parallel_reduce", "parallel_scan"):
                args: List[cppast.Expr] = [
                    self.visit(a) for a in node.value.args
                ]

                initial_value: cppast.Expr
                if len(args) == 3:
                    initial_value = args[2]
                else:
                    initial_value = cppast.IntegerLiteral(0)

                vardecl = cppast.VarDecl(decltype, declname, initial_value)
                declstmt = cppast.DeclStmt(vardecl)

                work_unit: str = args[1].declname
                function = cppast.DeclRefExpr(f"Kokkos::{function_name}")

                call: cppast.CallExpr
                if work_unit in self.nested_work_units:
                    call = cppast.CallExpr(
                        function,
                        [args[0], self.nested_work_units[work_unit], declname])
                else:
                    call = cppast.CallExpr(
                        function, [args[0], f"pk_id_{work_unit}", declname])

                callstmt = cppast.CallStmt(call)

                return cppast.CompoundStmt([declstmt, callstmt])

        return super().visit_AnnAssign(node)
Exemple #3
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    def visit_For(self, node: ast.For) -> cppast.ForStmt:
        if not isinstance(node.target, ast.Name):
            self.error(node.target, "Must use single loop variable")

        if node.orelse:
            self.error(node.orelse, "Else clause not supported for translation")

        if (
            not isinstance(node.iter, ast.Call)
            or node.iter.func.id != "range"
        ):
            # TODO: support other iterators?
            self.error(
                node.iter, "Only range() iterator is supported for translation")

        index: cppast.DeclRefExpr = self.visit(node.target)
        start: cppast.Expr
        end: cppast.Expr
        step: cppast.Expr = cppast.IntegerLiteral(1)
        op = cppast.BinaryOperatorKind.LT

        args = node.iter.args
        if len(args) == 1:
            start = cppast.IntegerLiteral(0)
            end = self.visit(args[0])

        else:
            start = self.visit(args[0])
            end = self.visit(args[1])

            if len(args) == 3:
                step = self.visit(args[2])

                # Negative step sizes are only handled correctly if they're
                # written with a preceeding minus sign
                if (
                    isinstance(args[2], ast.UnaryOp)
                    and isinstance(args[2].op, ast.USub)
                ):
                    op = cppast.BinaryOperatorKind.GT

        body = cppast.CompoundStmt([self.visit(b) for b in node.body])

        init = cppast.DeclStmt(cppast.VarDecl(
            cppast.PrimitiveType(cppast.BuiltinType.INT), index, start))
        condition = cppast.BinaryOperator(index, end, op)
        increment = cppast.BinaryOperator(
            index, step, cppast.BinaryOperatorKind.AddAssign)
        forstmt = cppast.ForStmt(init, condition, increment, body)

        return forstmt
Exemple #4
0
    def visit_AnnAssign(self, node: ast.AnnAssign) -> cppast.DeclStmt:
        if not isinstance(node.target, ast.Name):
            self.generic_error(node)

        decltype: cppast.Type = visitors_util.get_type(node.annotation, self.pk_import)
        if decltype is None:
            self.error(node, "Type not supported")
        target: cppast.DeclRefExpr = self.visit(node.target)
        value: cppast.Expr = self.visit(node.value)

        # Add the name of the list to self.lists
        # and add the length of the list to its name
        if isinstance(node.annotation, ast.Subscript):
            self.lists.append(target.declname)
            target.add_length(len(node.value.elts))

        annassign = cppast.DeclStmt(cppast.VarDecl(decltype, target, value))

        return annassign
    def visit_Assign(self, node: ast.Assign) -> cppast.Stmt:
        target = node.targets[0]

        if isinstance(node.value, ast.Call):
            name: str = visitors_util.get_node_name(node.value.func)

            # Create Timer object
            if name == "Timer":
                decltype = cppast.ClassType("Kokkos::Timer")
                declname = cppast.DeclRefExpr("timer")
                return cppast.DeclStmt(cppast.VarDecl(decltype, declname,
                                                      None))

            # Call Timer.seconds()
            if name == "seconds":
                target_name: str = visitors_util.get_node_name(target)
                if target_name not in self.timer_result_queue:
                    self.timer_result_queue.append(target_name)

                call = cppast.CallStmt(self.visit(node.value))
                target_ref = cppast.DeclRefExpr(target_name)
                target_view_ref = cppast.DeclRefExpr(
                    f"timer_result_{target_name}")
                subscript = cppast.ArraySubscriptExpr(
                    target_view_ref, [cppast.IntegerLiteral(0)])
                assign_op = cppast.BinaryOperatorKind.Assign

                # Holds the result of the reduction temporarily
                temp_ref = cppast.DeclRefExpr("pk_acc")
                target_assign = cppast.AssignOperator([target_ref], temp_ref,
                                                      assign_op)
                view_assign = cppast.AssignOperator([subscript], target_ref,
                                                    assign_op)

                return cppast.CompoundStmt([call, target_assign, view_assign])

            if name in ("BinSort", "BinOp1D", "BinOp3D"):
                args: List = node.value.args
                # if not isinstance(args[0], ast.Attribute):
                #     self.error(node.value, "First argument has to be a view")

                view = cppast.DeclRefExpr(visitors_util.get_node_name(args[0]))
                if view not in self.views:
                    self.error(args[0], "Undefined view")

                view_type: cppast.ClassType = self.views[view]
                is_subview: bool = view_type is None
                if is_subview:
                    parent_view = cppast.DeclRefExpr(
                        self.subviews[view.declname])
                    view_type = self.views[parent_view]

                view_type_str: str = visitors_util.cpp_view_type(view_type)

                if name != "BinSort":
                    dimension: int = 1 if name == "BinOp1D" else 3
                    cpp_type = cppast.DeclRefExpr(
                        BinOp.get_type(dimension, view_type_str))

                    # Do not translate the first argument (view)
                    constructor = cppast.CallExpr(
                        cpp_type, [self.visit(a) for a in args[1:]])

                else:
                    bin_op_type: str = f"decltype({visitors_util.get_node_name(args[1])})"
                    cpp_type = cppast.DeclRefExpr(
                        BinSort.get_type(view_type_str, bin_op_type))

                    binsort_args: List[cppast.DeclRefExpr] = [
                        self.visit(a) for a in args
                    ]
                    constructor = cppast.CallExpr(cpp_type, binsort_args)

                cpp_target: cppast.DeclRefExpr = self.visit(target)
                auto_type = cppast.ClassType("auto")

                return cppast.DeclStmt(
                    cppast.VarDecl(auto_type, cpp_target, constructor))

            if name in ("get_bin_count", "get_bin_offsets",
                        "get_permute_vector"):
                if not isinstance(target,
                                  ast.Attribute) or target.value.id != "self":
                    self.error(
                        node,
                        "Views defined in pk.main must be an instance variable"
                    )

                cpp_target: str = visitors_util.get_node_name(target)
                cpp_device_target = f"pk_d_{cpp_target}"
                cpp_target_ref = cppast.DeclRefExpr(cpp_device_target)
                sorter: cppast.DeclRefExpr = self.visit(node.value.func.value)

                initial_target_ref = cppast.DeclRefExpr(
                    f"_pk_{cpp_target_ref.declname}")

                function = cppast.MemberCallExpr(sorter,
                                                 cppast.DeclRefExpr(name), [])

                # Add to the dict of declarations made in pk.main
                if name == "get_permute_vector":
                    # This occurs when a workload is executed multiple times
                    # Initially the view has not been defined in the workload,
                    # so it needs to be classified as a pkmain_view.
                    if cpp_target in self.views:
                        self.views[cpp_target_ref].add_template_param(
                            cppast.PrimitiveType(cppast.BuiltinType.INT))

                        return cppast.AssignOperator(
                            [cpp_target_ref], function,
                            cppast.BinaryOperatorKind.Assign)
                        # return f"{cpp_target} = {sorter}.{name}();"

                    self.pkmain_views[cpp_target_ref] = cppast.ClassType(
                        "View1D")
                else:
                    self.pkmain_views[cpp_target_ref] = None

                auto_type = cppast.ClassType("auto")
                decl = cppast.DeclStmt(
                    cppast.VarDecl(auto_type, initial_target_ref, function))

                # resize the workload's vector to match the generated vector
                resize_call = cppast.CallStmt(
                    cppast.CallExpr(cppast.DeclRefExpr("Kokkos::resize"), [
                        cpp_target_ref,
                        cppast.MemberCallExpr(initial_target_ref,
                                              cppast.DeclRefExpr("extent"),
                                              [cppast.IntegerLiteral(0)])
                    ]))

                copy_call = cppast.CallStmt(
                    cppast.CallExpr(cppast.DeclRefExpr("Kokkos::deep_copy"),
                                    [cpp_target_ref, initial_target_ref]))

                # Assign to the functor after resizing
                functor = cppast.DeclRefExpr("pk_f")
                functor_access = cppast.MemberExpr(functor, cpp_target)
                functor_assign = cppast.AssignOperator(
                    [functor_access], cpp_target_ref,
                    cppast.BinaryOperatorKind.Assign)

                return cppast.CompoundStmt(
                    [decl, resize_call, copy_call, functor_assign])

        # Assign result of parallel_reduce
        if type(target) not in {ast.Name, ast.Subscript
                                } and target.value.id == "self":
            target_name: str = visitors_util.get_node_name(target)
            if target_name not in self.reduction_result_queue:
                self.reduction_result_queue.append(target_name)

            call = cppast.CallStmt(self.visit(node.value))
            target_ref = cppast.DeclRefExpr(target_name)
            target_view_ref = cppast.DeclRefExpr(
                f"reduction_result_{target_name}")
            subscript = cppast.ArraySubscriptExpr(target_view_ref,
                                                  [cppast.IntegerLiteral(0)])
            assign_op = cppast.BinaryOperatorKind.Assign

            # Holds the result of the reduction temporarily
            temp_ref = cppast.DeclRefExpr("pk_acc")
            target_assign = cppast.AssignOperator([target_ref], temp_ref,
                                                  assign_op)
            view_assign = cppast.AssignOperator([subscript], target_ref,
                                                assign_op)

            return cppast.CompoundStmt([call, target_assign, view_assign])

        return super().visit_Assign(node)