import torch
import torch.nn.quantized.dynamic as nnqd
import torch.nn.intrinsic as nni

class LinearReLU(nnqd.Linear):
    r"""
    A LinearReLU module fused from Linear and ReLU modules that can be used
    for dynamic quantization.
    Supports both, FP16 and INT8 quantization.

    We adopt the same interface as :class:`torch.nn.quantized.dynamic.Linear`.

    Attributes:
        Same as torch.nn.quantized.dynamic.Linear

    Examples::

        >>> m = nn.intrinsic.quantized.dynamic.LinearReLU(20, 30)
        >>> input = torch.randn(128, 20)
        >>> output = m(input)
        >>> print(output.size())
        torch.Size([128, 30])
    """
    _FLOAT_MODULE = nni.LinearReLU  # type: ignore[assignment]

    def __init__(self, in_features, out_features, bias=True, dtype=torch.qint8):
        super().__init__(in_features, out_features, bias, dtype)

    def forward(self, x: torch.Tensor) -> torch.Tensor:
        if self._packed_params.dtype == torch.qint8:
            # TODO check if we should set reduce_rage = True by default here
            Y = torch.ops.quantized.linear_relu_dynamic(
                x, self._packed_params._packed_params, reduce_range=True)
        elif self._packed_params.dtype == torch.float16:
            Y = torch.ops.quantized.linear_relu_dynamic_fp16(
                x, self._packed_params._packed_params)
        else:
            raise RuntimeError('Unsupported dtype on dynamic quantized linear relu!')
        return Y.to(x.dtype)

    def _get_name(self):
        return 'DynamicQuantizedLinearReLU'

    @classmethod
    def from_float(cls, mod):
        return super(LinearReLU, cls).from_float(mod)

    @classmethod
    def from_reference(cls, ref_qlinear_relu):
        return super().from_reference(ref_qlinear_relu[0])