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- # Copyright 2021 Tencent
- # SPDX-License-Identifier: BSD-3-Clause
-
- import torch
- import torch.nn as nn
- import torch.nn.functional as F
-
- class Model(nn.Module):
- def __init__(self):
- super(Model, self).__init__()
-
- self.w3 = nn.Parameter(torch.rand(16))
- self.b3 = nn.Parameter(torch.rand(16))
- self.w4 = nn.Parameter(torch.rand(12))
- self.b4 = nn.Parameter(torch.rand(12))
- self.w5 = nn.Parameter(torch.rand(32))
- self.b5 = nn.Parameter(torch.rand(32))
-
- def forward(self, x, y, z, w0, b0, w1, b1, w2, b2):
- x = F.group_norm(x, 2, w0, b0)
- x = F.group_norm(x, 1, None, None)
- x = F.group_norm(x, 4, self.w3, self.b3)
-
- y = F.group_norm(y, 3, w1, b1, eps=1e-4)
- y = F.group_norm(y, 4, None, None)
- y = F.group_norm(y, 6, self.w4, self.b4)
-
- z = F.group_norm(z, 32, w2, b2)
- z = F.group_norm(z, 4, None, None, eps=1e-2)
- z = F.group_norm(z, 8, self.w5, self.b5)
- return x, y, z
-
- def test():
- net = Model()
- net.eval()
-
- torch.manual_seed(0)
- x = torch.rand(1, 16)
- y = torch.rand(12, 12, 16)
- z = torch.rand(1, 32, 12, 16)
- w0 = torch.rand(16)
- b0 = torch.rand(16)
- w1 = torch.rand(12)
- b1 = torch.rand(12)
- w2 = torch.rand(32)
- b2 = torch.rand(32)
-
- a0, a1, a2 = net(x, y, z, w0, b0, w1, b1, w2, b2)
-
- # export torchscript
- mod = torch.jit.trace(net, (x, y, z, w0, b0, w1, b1, w2, b2))
- mod.save("test_F_group_norm.pt")
-
- # torchscript to pnnx
- import os
- os.system("../src/pnnx test_F_group_norm.pt inputshape=[1,16],[12,12,16],[1,32,12,16],[16],[16],[12],[12],[32],[32]")
-
- # pnnx inference
- import test_F_group_norm_pnnx
- b0, b1, b2 = test_F_group_norm_pnnx.test_inference()
-
- return torch.equal(a0, b0) and torch.equal(a1, b1) and torch.equal(a2, b2)
-
- if __name__ == "__main__":
- if test():
- exit(0)
- else:
- exit(1)
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