# Copyright (c) Qualcomm Innovation Center, Inc.
# All rights reserved
#
# This source code is licensed under the BSD-style license found in the
# LICENSE file in the root directory of this source tree.
from typing import Dict

import executorch.backends.qualcomm.python.PyQnnManagerAdaptor as PyQnnManager

import numpy as np
import torch

from executorch.backends.qualcomm.utils.constants import QCOM_AXIS_ORDER

from .node_visitor import NodeVisitor
from .node_visitor_manager import register_node_visitor
from .qnn_constants import OpStridedSlice, QNN_OP_PACKAGE_NAME_QTI_AISW


@register_node_visitor
class Flip(NodeVisitor):
    target = ["aten.flip.default"]

    def __init__(self, *args) -> None:
        super().__init__(*args)

    def define_node(
        self,
        node: torch.fx.Node,
        nodes_to_wrappers: Dict[torch.fx.Node, PyQnnManager.TensorWrapper],
    ) -> PyQnnManager.PyQnnOpWrapper:
        input_node = self.get_node(node.args[0])
        input_tensor = self.get_tensor(input_node, node)
        tensor_type = PyQnnManager.Qnn_TensorType_t.QNN_TENSOR_TYPE_NATIVE

        input_tensor_wrapper = self.define_tensor(
            input_node,
            node,
            input_tensor,
            tensor_type,
            nodes_to_wrappers,
        )

        output_tensor = self.get_tensor(node, node)
        output_tensor_wrapper = self.define_tensor(
            node,
            node,
            output_tensor,
            PyQnnManager.Qnn_TensorType_t.QNN_TENSOR_TYPE_NATIVE,
            nodes_to_wrappers,
        )
        ranges = []

        dims = node.args[1]
        if QCOM_AXIS_ORDER in node.meta:
            dims = [node.meta[QCOM_AXIS_ORDER].index(dim) for dim in dims]

        for dim, size in enumerate(output_tensor.shape):
            if dim in dims:
                ranges.extend([size - 1, -1, -1])
            else:
                ranges.extend([0, size, 1])

        range_shape = [input_tensor.dim(), 3]
        stride_slice_op = PyQnnManager.PyQnnOpWrapper(
            node.name,
            QNN_OP_PACKAGE_NAME_QTI_AISW,
            OpStridedSlice.op_name,
        )
        stride_slice_op.AddInputTensors([input_tensor_wrapper])
        stride_slice_op.AddOutputTensors([output_tensor_wrapper])
        stride_slice_op.AddTensorParam(
            OpStridedSlice.param_ranges,
            PyQnnManager.Qnn_DataType_t.QNN_DATATYPE_INT_32,
            len(range_shape),
            range_shape,
            np.array(ranges, dtype=np.int32),
            True,
        )

        return stride_slice_op