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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
"""

Miscellaneous utility functions

"""

import torch
from torch import nn
from torch.nn import functional as F
from maskrcnn_benchmark.config import cfg
from maskrcnn_benchmark.layers import Conv2d, DYReLU
from maskrcnn_benchmark.modeling.poolers import Pooler


def get_group_gn(dim, dim_per_gp, num_groups):
    """get number of groups used by GroupNorm, based on number of channels."""
    assert dim_per_gp == -1 or num_groups == -1, \
        "GroupNorm: can only specify G or C/G."

    if dim_per_gp > 0:
        assert dim % dim_per_gp == 0, \
            "dim: {}, dim_per_gp: {}".format(dim, dim_per_gp)
        group_gn = dim // dim_per_gp
    else:
        assert dim % num_groups == 0, \
            "dim: {}, num_groups: {}".format(dim, num_groups)
        group_gn = num_groups

    return group_gn


def group_norm(out_channels, affine=True, divisor=1):
    out_channels = out_channels // divisor
    dim_per_gp = cfg.MODEL.GROUP_NORM.DIM_PER_GP // divisor
    num_groups = cfg.MODEL.GROUP_NORM.NUM_GROUPS // divisor
    eps = cfg.MODEL.GROUP_NORM.EPSILON # default: 1e-5
    return torch.nn.GroupNorm(
        get_group_gn(out_channels, dim_per_gp, num_groups), 
        out_channels, 
        eps, 
        affine
    )


def make_conv3x3(

    in_channels, 

    out_channels, 

    dilation=1, 

    stride=1, 

    use_gn=False,

    use_relu=False,

    kaiming_init=True

):
    conv = Conv2d(
        in_channels, 
        out_channels, 
        kernel_size=3, 
        stride=stride, 
        padding=dilation, 
        dilation=dilation, 
        bias=False if use_gn else True
    )
    if kaiming_init:
        nn.init.kaiming_normal_(
            conv.weight, mode="fan_out", nonlinearity="relu"
        )
    else:
        torch.nn.init.normal_(conv.weight, std=0.01)
    if not use_gn:
        nn.init.constant_(conv.bias, 0)
    module = [conv,]
    if use_gn:
        module.append(group_norm(out_channels))
    if use_relu:
        module.append(nn.ReLU(inplace=True))
    if len(module) > 1:
        return nn.Sequential(*module)
    return conv


def make_fc(dim_in, hidden_dim, use_gn=False):
    '''

        Caffe2 implementation uses XavierFill, which in fact

        corresponds to kaiming_uniform_ in PyTorch

    '''
    if use_gn:
        fc = nn.Linear(dim_in, hidden_dim, bias=False)
        nn.init.kaiming_uniform_(fc.weight, a=1)
        return nn.Sequential(fc, group_norm(hidden_dim))
    fc = nn.Linear(dim_in, hidden_dim)
    nn.init.kaiming_uniform_(fc.weight, a=1)
    nn.init.constant_(fc.bias, 0)
    return fc


def conv_with_kaiming_uniform(use_gn=False, use_relu=False, use_dyrelu=False):
    def make_conv(

        in_channels, out_channels, kernel_size, stride=1, dilation=1

    ):
        conv = Conv2d(
            in_channels, 
            out_channels, 
            kernel_size=kernel_size, 
            stride=stride, 
            padding=dilation * (kernel_size - 1) // 2, 
            dilation=dilation, 
            bias=False if use_gn else True
        )
        # Caffe2 implementation uses XavierFill, which in fact
        # corresponds to kaiming_uniform_ in PyTorch
        nn.init.kaiming_uniform_(conv.weight, a=1)
        if not use_gn:
            nn.init.constant_(conv.bias, 0)
        module = [conv,]
        if use_gn:
            module.append(group_norm(out_channels))
        if use_relu:
            module.append(nn.ReLU(inplace=True))
        if use_dyrelu:
            module.append(DYReLU(out_channels, out_channels, use_spatial=True))
        if len(module) > 1:
            return nn.Sequential(*module)
        return conv

    return make_conv