A code generator from ONNX to PyTorch code

Related tags

Deep Learningonnx-pytorch
Overview

onnx-pytorch

Build Status

Generating pytorch code from ONNX. Currently support onnx==1.9.0 and torch==1.8.1.

Installation

  • From PyPI
pip install onnx-pytorch
  • From source
git clone https://github.com/fumihwh/onnx-pytorch.git
pip install -r requirements.txt
pip install -e .

Usage

from onnx_pytorch import code_gen
code_gen.gen("/path/to/onnx_model", "/path/to/output_dir")

A model.py file and variables folder will be created under output_dir.

Tutorial

  • Download resnet18 onnx model

wget https://github.com/onnx/models/raw/master/vision/classification/resnet/model/resnet18-v2-7.onnx

  • Use onnx-pytorch to generate pytorch code and variables.
from onnx_pytorch import code_gen
code_gen.gen("resnet18-v2-7.onnx", "./")
  • Test result
import numpy as np
import onnx
import onnxruntime
import torch
torch.set_printoptions(8)

from model import Model

model = Model()
model.eval()
inp = np.random.randn(1, 3, 224, 224).astype(np.float32)
with torch.no_grad():
  torch_outputs = model(torch.from_numpy(inp))

onnx_model = onnx.load("resnet18-v2-7.onnx")
sess_options = onnxruntime.SessionOptions()
session = onnxruntime.InferenceSession(onnx_model.SerializeToString(),
                                       sess_options)
inputs = {"data": inp}
ort_outputs = session.run(None, inputs)

print(
    "Comparison result:",
    np.allclose(torch_outputs.detach().numpy(),
                ort_outputs[0],
                atol=1e-5,
                rtol=1e-5))
Comments
  • latest version of onnx or torch fails pytest

    latest version of onnx or torch fails pytest

    latest version of onnx or torch fails pytest: pip install onnx onnxruntime --upgrade produces Successfully installed onnx-1.10.2 onnxruntime-1.9.0

    which fails the pipeline

    ================================================================================================================================== test session starts ===================================================================================================================================
platform linux -- Python 3.9.7, pytest-6.2.5, py-1.11.0, pluggy-1.0.0
rootdir: <me>/Documents/travail/programs/onnx-pytorch
plugins: dash-2.0.0
collected 88 items                                                                                                                                                                                                                                                                       

onnx_pytorch/tests/test_base.py .F.................F..................s.................................................                                                                                                                                                           [100%]

======================================================================================================================================== FAILURES ========================================================================================================================================
_________________________________________________________________________________________________________________ TestBase.test_conv_batchnorm_maxpool_flatten_add_relu __________________________________________________________________________________________________________________

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7fce8a666880>

    def test_conv_batchnorm_maxpool_flatten_add_relu(self):
      reset_model(13)
      nps = [np.random.randn(1, 3, 224, 224).astype(np.float32)]
      inputs = Input(*nps)
      conv_node = Conv(inputs[0],
                       np.random.randn(32, 3, 3, 3).astype(np.float32),
                       np.random.randn(32).astype(np.float32))
      bn_node = BatchNormalization(
          conv_node,
          np.ones(32,).astype(np.float32),
          np.zeros(32,).astype(np.float32),
          np.random.randn(32).astype(np.float32),
          np.abs(np.random.randn(32).astype(np.float32)),
      )
      max_pool_node = MaxPool(bn_node,
                              kernel_shape=(3, 3),
                              strides=(2, 2),
                              pads=(0, 0, 1, 1))
      flatten_node = Flatten(max_pool_node, axis=1)
      add_node = Add(flatten_node, np.random.randn(1).astype(np.float32))
      relu_node = Relu(add_node)
      Output(relu_node)
>     self._run(list(zip(inputs, nps)))

onnx_pytorch/tests/test_base.py:103: 
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7fce8a666880>
inputs_np = [('_t_Input_0', array([[[[ 1.0018734 , -0.62048906,  1.2765806 , ...,  0.25725722,
          -1.1847678 ,  1.8534303 ]...     [-0.86980325, -0.2758593 ,  0.05530448, ...,  0.2182875 ,
           0.33060816,  0.6260562 ]]]], dtype=float32))]

    def _run(self, inputs_np):
      inputs_np_dict = {k: v for k, v in inputs_np if k != ""}
      model = onnx.ModelProto()
      model.CopyFrom(omm.model)
      sess_options = onnxruntime.SessionOptions()
      session = onnxruntime.InferenceSession(model.SerializeToString(),
                                             sess_options)
      ort_outputs = session.run(None, inputs_np_dict)
      model.graph.ClearField("value_info")
      initializers = {i.name: i for i in model.graph.initializer}
      for i in model.graph.input:
        if i.name in initializers:
          continue
        for idx, d in enumerate(i.type.tensor_type.shape.dim):
          if d.dim_param != "":
            d.ClearField("dim_param")
          d.dim_value = inputs_np_dict[i.name].shape[idx]
      try:
        model = SymbolicShapeInference.infer_shapes(model, 2**31 - 1, True, True,
                                                    1)
      except:
        logging.warning("Shape infer by onnxruntime failed.")
      with TemporaryDirectory() as tmpdir:
        clear_op_code_generator()
        model_code_generator = code_gen.get_model_code_generator(
            model,
            output_dir=tmpdir,
            tensor_inplace=True,
            simplify_names=True,
            shape_infer=False)
        model_code_generator.run()
        spec = importlib.util.spec_from_file_location(
            "model", os.path.join(tmpdir, "model.py"))
        mod = importlib.util.module_from_spec(spec)
        spec.loader.exec_module(mod)
        pt_outputs = mod.test_run_model(
            [torch.from_numpy(v) for k, v in inputs_np if k != ""])
        if type(pt_outputs) == torch.Tensor:
          pt_outputs = [pt_outputs.detach().numpy()]
        elif type(pt_outputs) in (list, tuple):
          pt_outputs = [o.detach().numpy() for o in pt_outputs]
        for l, r in zip(ort_outputs, pt_outputs):
>         assert np.allclose(l, r, atol=1e-4, rtol=1e-4, equal_nan=True)
E         assert False
E          +  where False = <function allclose at 0x7fcee3f60550>(array([[1.3416731 , 0.8318468 , 0.6191998 , ..., 1.1701062 , 0.6089205 ,\n        0.57694536]], dtype=float32), array([[10.049213 ,  6.957016 ,  5.667273 , ..., 10.965231 ,  7.2742968,\n         7.0639963]], dtype=float32), atol=0.0001, rtol=0.0001, equal_nan=True)
E          +    where <function allclose at 0x7fcee3f60550> = np.allclose

onnx_pytorch/tests/test_base.py:67: AssertionError
---------------------------------------------------------------------------------------------------------------------------------- Captured stdout call ----------------------------------------------------------------------------------------------------------------------------------
# Autogenerated by onnx-pytorch.

import glob
import os
import math

import numpy as np
import torch
import torch.nn as nn
import torch.nn.functional as F
import torchvision


class Model(nn.Module):
  def __init__(self):
    super(Model, self).__init__()
    self._vars = nn.ParameterDict()
    self._regularizer_params = []
    for b in glob.glob(
        os.path.join(os.path.dirname(__file__), "variables", "*.npy")):
      v = torch.from_numpy(np.load(b))
      requires_grad = v.dtype.is_floating_point or v.dtype.is_complex
      self._vars[os.path.basename(b)[:-4]] = nn.Parameter(v, requires_grad=requires_grad)
    self.n_Conv_0 = nn.Conv2d(**{'groups': 1, 'dilation': 1, 'out_channels': 32, 'padding': 0, 'kernel_size': (3, 3), 'stride': 1, 'in_channels': 3, 'bias': True})
    self.n_Conv_0.weight.data = self._vars["t_0"]
    self.n_Conv_0.bias.data = self._vars["t_1"]
    self.n_BatchNormalization_0 = nn.BatchNorm2d(**{'num_features': 32, 'eps': 9.999999747378752e-06, 'momentum': 0.8999999761581421})
    self.n_BatchNormalization_0.weight.data = self._vars["t_2"]
    self.n_BatchNormalization_0.bias.data = self._vars["t_3"]
    self.n_BatchNormalization_0.running_mean.data = self._vars["t_4"]
    self.n_BatchNormalization_0.running_var.data = self._vars["t_5"]
    self.n_MaxPool_0 = nn.MaxPool2d(**{'dilation': 1, 'kernel_size': [3, 3], 'ceil_mode': False, 'stride': [2, 2], 'return_indices': True})
    self.n_Flatten_0 = nn.Flatten(**{'start_dim': 1})

  def forward(self, *inputs):
    t_7, = inputs
    t_8 = self.n_Conv_0(t_7)
    t_9 = self.n_BatchNormalization_0(t_8)
    t_9 = F.pad(t_9, [0, 1, 0, 1], value=float('-inf'))
    t_14, t_15 = self.n_MaxPool_0(t_9)
    t_16 = self.n_Flatten_0(t_14)
    t_17 = torch.add(t_16, self._vars["t_6"])
    t_18 = F.relu(t_17)
    return t_18

  def compatible_auto_pad(self, input, kernel_spatial_shape, nn_mod, auto_pad=None, **kwargs):
    input_spatial_shape = input.shape[2:]
    d = len(input_spatial_shape)
    strides = nn_mod.stride
    dilations = nn_mod.dilation
    output_spatial_shape = [math.ceil(float(l) / float(r)) for l, r in zip(input.shape[2:], strides)]
    pt_padding = [0] * 2 * d
    pad_shape = [0] * d
    for i in range(d):
      pad_shape[i] = (output_spatial_shape[i] - 1) * strides[i] + ((kernel_spatial_shape[i] - 1) * dilations[i] + 1) - input_spatial_shape[i]
      mean = pad_shape[i] // 2
      if auto_pad == b"SAME_UPPER":
        l, r = pad_shape[i] - mean, mean
      else:
        l, r = mean, pad_shape[i] - mean
      pt_padding.insert(0, r)
      pt_padding.insert(0, l)
    return F.pad(input, pt_padding)

@torch.no_grad()
def test_run_model(inputs=[torch.from_numpy(np.random.randn(*[1, 3, 224, 224]).astype(np.float32))]):
  model = Model()
  model.eval()
  rs = model(*inputs)
  print(rs)
  return rs

tensor([[10.04921341,  6.95701599,  5.66727304,  ..., 10.96523094,
          7.27429676,  7.06399632]])
----------------------------------------------------------------------------------------------------------------------------------- Captured log call ------------------------------------------------------------------------------------------------------------------------------------
WARNING  root:__init__.py:41 Cannot get default value for dilations of MaxPool.
WARNING  root:__init__.py:41 Cannot get default value for kernel_shape of MaxPool.
WARNING  root:__init__.py:41 Cannot get default value for pads of MaxPool.
WARNING  root:__init__.py:41 Cannot get default value for strides of MaxPool.
WARNING  root:MaxPool.py:47 MaxPool with asymmetric padding will get incorrect indices.
___________________________________________________________________________________________________________________________ TestBase.test_batch_normalization ____________________________________________________________________________________________________________________________

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7fce88ce44c0>

    def test_batch_normalization(self):
      reset_model(13)
      nps = [np.random.randn(1, 32, 3, 3).astype(np.float32)]
      inputs = Input(*nps)
      Output(BatchNormalization(
          inputs[0],
          np.ones(32,).astype(np.float32),
          np.zeros(32,).astype(np.float32),
          np.random.randn(32).astype(np.float32),
          np.abs(np.random.randn(32).astype(np.float32)),
      ),
             output_num=1)
>     self._run(list(zip(inputs, nps)))

onnx_pytorch/tests/test_base.py:239: 
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7fce88ce44c0>
inputs_np = [('_t_Input_0', array([[[[ 6.35267049e-02,  5.02886951e-01, -6.22651100e-01],
         [ 1.44260633e+00,  1.56048670e-...51401734e-01,  5.14413416e-01],
         [-1.90268409e+00, -7.60383308e-02,  2.99409509e-01]]]],
      dtype=float32))]

    def _run(self, inputs_np):
      inputs_np_dict = {k: v for k, v in inputs_np if k != ""}
      model = onnx.ModelProto()
      model.CopyFrom(omm.model)
      sess_options = onnxruntime.SessionOptions()
      session = onnxruntime.InferenceSession(model.SerializeToString(),
                                             sess_options)
      ort_outputs = session.run(None, inputs_np_dict)
      model.graph.ClearField("value_info")
      initializers = {i.name: i for i in model.graph.initializer}
      for i in model.graph.input:
        if i.name in initializers:
          continue
        for idx, d in enumerate(i.type.tensor_type.shape.dim):
          if d.dim_param != "":
            d.ClearField("dim_param")
          d.dim_value = inputs_np_dict[i.name].shape[idx]
      try:
        model = SymbolicShapeInference.infer_shapes(model, 2**31 - 1, True, True,
                                                    1)
      except:
        logging.warning("Shape infer by onnxruntime failed.")
      with TemporaryDirectory() as tmpdir:
        clear_op_code_generator()
        model_code_generator = code_gen.get_model_code_generator(
            model,
            output_dir=tmpdir,
            tensor_inplace=True,
            simplify_names=True,
            shape_infer=False)
        model_code_generator.run()
        spec = importlib.util.spec_from_file_location(
            "model", os.path.join(tmpdir, "model.py"))
        mod = importlib.util.module_from_spec(spec)
        spec.loader.exec_module(mod)
        pt_outputs = mod.test_run_model(
            [torch.from_numpy(v) for k, v in inputs_np if k != ""])
        if type(pt_outputs) == torch.Tensor:
          pt_outputs = [pt_outputs.detach().numpy()]
        elif type(pt_outputs) in (list, tuple):
          pt_outputs = [o.detach().numpy() for o in pt_outputs]
        for l, r in zip(ort_outputs, pt_outputs):
>         assert np.allclose(l, r, atol=1e-4, rtol=1e-4, equal_nan=True)
E         assert False
E          +  where False = <function allclose at 0x7fcee3f60550>(array([[[[-0.13030988,  0.44412366, -1.0274405 ],\n         [ 1.6727427 , -0.00934371, -0.14003941],\n         [ 1.48930...,\n         [ 0.7121257 , -0.5435372 ,  0.5330533 ],\n         [-1.9084809 , -0.06336791,  0.31587568]]]], dtype=float32), array([[[[ 1.03302915e-02,  4.43110734e-01, -6.65571392e-01],\n         [ 1.36875701e+00,  1.01466656e-01,  3.00002005e...8.79306126e+00,  1.40610695e+01],\n         [ 2.11407280e+00,  1.11426420e+01,  1.29983692e+01]]]],\n      dtype=float32), atol=0.0001, rtol=0.0001, equal_nan=True)
E          +    where <function allclose at 0x7fcee3f60550> = np.allclose

onnx_pytorch/tests/test_base.py:67: AssertionError
---------------------------------------------------------------------------------------------------------------------------------- Captured stdout call ----------------------------------------------------------------------------------------------------------------------------------
# Autogenerated by onnx-pytorch.

import glob
import os
import math

import numpy as np
import torch
import torch.nn as nn
import torch.nn.functional as F
import torchvision


class Model(nn.Module):
  def __init__(self):
    super(Model, self).__init__()
    self._vars = nn.ParameterDict()
    self._regularizer_params = []
    for b in glob.glob(
        os.path.join(os.path.dirname(__file__), "variables", "*.npy")):
      v = torch.from_numpy(np.load(b))
      requires_grad = v.dtype.is_floating_point or v.dtype.is_complex
      self._vars[os.path.basename(b)[:-4]] = nn.Parameter(v, requires_grad=requires_grad)
    self.n_BatchNormalization_0 = nn.BatchNorm2d(**{'num_features': 32, 'eps': 9.999999747378752e-06, 'momentum': 0.8999999761581421})
    self.n_BatchNormalization_0.weight.data = self._vars["t_0"]
    self.n_BatchNormalization_0.bias.data = self._vars["t_1"]
    self.n_BatchNormalization_0.running_mean.data = self._vars["t_2"]
    self.n_BatchNormalization_0.running_var.data = self._vars["t_3"]

  def forward(self, *inputs):
    t_4, = inputs
    t_5 = self.n_BatchNormalization_0(t_4)
    return t_5

  
@torch.no_grad()
def test_run_model(inputs=[torch.from_numpy(np.random.randn(*[1, 32, 3, 3]).astype(np.float32))]):
  model = Model()
  model.eval()
  rs = model(*inputs)
  print(rs)
  return rs

tensor([[[[ 1.03302915e-02,  4.43110734e-01, -6.65571392e-01],
          [ 1.36875701e+00,  1.01466656e-01,  3.00002005e-03],
          [ 1.23055291e+00, -6.36751056e-01, -8.78339052e-01]],

         [[-4.64856595e-01,  1.01388752e+00,  2.45039845e+00],
          [-1.51369238e+00, -7.56639481e-01, -1.26973033e+00],
          [ 3.04206324e+00, -1.07024908e+00,  1.22984998e-01]],

         [[-2.69752383e-01, -9.64242399e-01, -2.14787436e+00],
          [-3.66215348e-01, -7.90006399e-01, -1.19138491e+00],
          [-6.34383440e-01,  4.39469069e-01, -1.50392938e+00]],

         [[ 5.44885218e-01,  1.98177516e+00,  2.14701653e+00],
          [ 2.57987189e+00,  6.98854351e+00,  5.21536064e+00],
          [-1.14435458e+00,  1.33780324e+00,  3.80742407e+00]],

         [[-1.26968300e+00, -4.35954601e-01,  5.31747639e-01],
          [-2.33643723e+00, -2.31319714e+00, -1.69136405e+00],
          [-1.01814747e+00, -1.30057871e+00,  1.37861446e-01]],

         [[-7.35616326e-01, -1.18806839e+00, -1.10327315e+00],
          [-1.21497869e+00,  2.44642749e-01, -1.08295512e+00],
          [-7.17091501e-01, -2.20478797e+00, -1.50086403e+00]],

         [[-3.56589526e-01, -1.32543945e+00, -3.12406365e-02],
          [-7.59021521e-01,  8.00770998e-01, -1.86119422e-01],
          [-2.47674465e-01,  3.34041089e-01,  4.68768179e-01]],

         [[-3.02949500e+00, -9.34190691e-01, -6.01976514e-01],
          [-1.39591777e+00,  9.02901888e-01, -1.70761660e-01],
          [-7.49238193e-01, -8.39863300e-01, -1.61441386e+00]],

         [[ 5.27461350e-01, -1.29779911e+00, -1.84558618e+00],
          [-1.37622201e+00, -2.75002476e-02, -4.80182886e-01],
          [-1.48854208e+00, -2.23460600e-01, -1.37674761e+00]],

         [[ 8.06057811e-01,  8.74002814e-01, -1.36947542e-01],
          [ 1.77069342e+00,  1.01755619e+00,  3.84808660e-01],
          [ 6.74725831e-01,  3.76408148e+00,  2.22828791e-01]],

         [[ 3.71400404e+00,  2.69624019e+00,  1.77703583e+00],
          [ 2.33299780e+00,  2.48477370e-01,  3.29037476e+00],
          [ 1.03505504e+00,  2.66409278e+00,  3.81201744e+00]],

         [[ 1.02166690e-01, -1.42813325e-01, -4.73593771e-01],
          [-2.43843883e-01,  4.17272627e-01,  8.99561644e-01],
          [-7.05574870e-01,  2.67669708e-01,  5.22894859e-01]],

         [[-1.17352533e+00, -5.71887255e-01, -3.19737315e-01],
          [-1.18356705e+00, -2.85988569e+00, -7.28449404e-01],
          [-1.39273572e+00, -1.43941092e+00, -4.75017697e-01]],

         [[-9.16496933e-01, -1.37783527e+00,  1.75405681e+00],
          [-2.10685277e+00, -1.30036724e+00,  2.50304151e+00],
          [ 3.88478422e+00,  8.30973566e-01,  3.44308519e+00]],

         [[-1.08552837e+00, -1.35483885e+00,  9.10718501e-01],
          [ 7.22618103e-01, -3.82872492e-01,  3.09645385e-01],
          [ 1.25192356e+00,  1.48433483e+00, -7.20467627e-01]],

         [[ 2.90476012e+00,  2.38905120e+00,  3.20962930e+00],
          [ 4.72063154e-01,  1.03854692e+00,  1.42332995e+00],
          [-2.65931457e-01,  2.61525941e+00,  1.36843193e+00]],

         [[ 2.29905200e+00,  7.33413887e+00, -2.16392994e+01],
          [-9.26441479e+00, -4.63282776e+00,  8.38395882e+00],
          [-6.14768124e+00, -1.39623775e+01, -5.33043909e+00]],

         [[-1.18203115e+00,  7.83545434e-01, -1.33013463e+00],
          [ 1.55748868e+00,  2.99707323e-01, -1.74411178e-01],
          [-3.15904379e-01, -1.27137268e+00,  2.87169278e-01]],

         [[ 2.82064867e+00, -3.11068088e-01, -7.12420881e-01],
          [ 1.99217871e-01,  8.75358164e-01,  5.74787557e-01],
          [ 1.21458745e+00,  1.32562840e+00,  1.46251321e-01]],

         [[-2.08626246e+00, -1.01060474e+00, -1.84688258e+00],
          [-1.30853727e-01, -7.70996749e-01,  7.53721535e-01],
          [ 1.19904697e+00, -1.62641481e-01, -8.22388411e-01]],

         [[ 1.33589315e+00,  3.14021409e-01,  2.48438573e+00],
          [-2.21844530e+00,  5.82929230e+00,  2.27573776e+00],
          [ 5.50253439e+00,  2.19331694e+00,  4.72958851e+00]],

         [[-1.88447189e+00, -9.36176181e-01, -1.94018316e+00],
          [-1.43561804e+00, -4.47861242e+00, -3.19850969e+00],
          [-9.75790977e-01, -2.53019547e+00, -2.31218606e-01]],

         [[ 1.56031847e+00, -8.49840164e-01,  2.18206739e+00],
          [ 1.86757004e+00, -9.00376320e-01, -3.14888433e-02],
          [-2.60793537e-01,  3.81440073e-01,  1.87343729e+00]],

         [[-2.49012423e+00, -1.80255661e+01, -1.39246368e+01],
          [-7.12090111e+00, -1.14031210e+01, -3.02313328e+00],
          [-5.08311844e+00, -7.04758024e+00, -8.73173904e+00]],

         [[-3.17438930e-01, -5.40359974e-01, -8.29769790e-01],
          [-2.39079952e+00, -7.72985220e-01, -1.00527453e+00],
          [-4.49523091e-01, -1.43823814e+00, -8.15485835e-01]],

         [[-1.75956070e+00, -3.46495295e+00, -5.70724130e-01],
          [-1.35396278e+00, -1.52985775e+00, -9.15392518e-01],
          [ 1.32145539e-01, -1.15701056e+00, -3.28669786e+00]],

         [[ 9.83868241e-01,  1.86329472e+00,  3.16185784e+00],
          [ 3.53541660e+00,  3.46067637e-01, -4.36942726e-01],
          [ 8.96343887e-01,  1.15589023e+00,  1.66808695e-01]],

         [[ 1.45385325e+00, -2.57331681e+00,  2.47062397e+00],
          [ 5.09636497e+00, -4.55582333e+00,  6.47839642e+00],
          [ 6.10593510e+00,  8.07678998e-01,  2.03531766e+00]],

         [[-7.87889004e+00,  2.15410185e+00, -1.72434068e+00],
          [-4.13584518e+00, -5.07564878e+00, -7.04525948e+00],
          [-4.00902462e+00,  6.43981886e+00,  4.90088892e+00]],

         [[-8.97298872e-01, -6.58248663e-01,  3.97185832e-01],
          [ 1.26078165e+00, -5.88805914e-01, -1.58723903e+00],
          [ 1.83342293e-01,  5.42823195e-01, -8.95587146e-01]],

         [[-2.58091998e+00,  1.56836367e+00,  4.73235160e-01],
          [ 6.95867360e-01,  3.10397220e+00,  8.56488526e-01],
          [-5.79270065e-01, -1.23413563e+00,  2.25809479e+00]],

         [[ 1.47533607e+01,  5.50610733e+00,  1.87684441e+01],
          [ 1.49373131e+01,  8.79306126e+00,  1.40610695e+01],
          [ 2.11407280e+00,  1.11426420e+01,  1.29983692e+01]]]])
==================================================================================================================================== warnings summary ====================================================================================================================================
../../../../anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/mapping.py:27
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/mapping.py:27: DeprecationWarning: `np.object` is a deprecated alias for the builtin `object`. To silence this warning, use `object` by itself. Doing this will not modify any behavior and is safe. 
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations
    int(TensorProto.STRING): np.dtype(np.object)

onnx_pytorch/tests/test_base.py: 186 warnings
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/numpy_helper.py:93: DeprecationWarning: `np.object` is a deprecated alias for the builtin `object`. To silence this warning, use `object` by itself. Doing this will not modify any behavior and is safe. 
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations
    if arr.dtype == np.object:

onnx_pytorch/tests/test_base.py::TestBase::test_conv_batchnorm_maxpool_flatten_add_relu
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/helper.py:365: DeprecationWarning: Using or importing the ABCs from 'collections' instead of from 'collections.abc' is deprecated since Python 3.3, and in 3.10 it will stop working
    is_iterable = isinstance(value, collections.Iterable)

onnx_pytorch/tests/test_base.py::TestBase::test_and
onnx_pytorch/tests/test_base.py::TestBase::test_and
  /tmp/tmpdcjl7rk5/model.py:33: DeprecationWarning: `np.bool` is a deprecated alias for the builtin `bool`. To silence this warning, use `bool` by itself. Doing this will not modify any behavior and is safe. If you specifically wanted the numpy scalar type, use `np.bool_` here.
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations

onnx_pytorch/tests/test_base.py::TestBase::test_non_zero
  /tmp/tmpxjta2pa8/model.py:33: DeprecationWarning: `np.bool` is a deprecated alias for the builtin `bool`. To silence this warning, use `bool` by itself. Doing this will not modify any behavior and is safe. If you specifically wanted the numpy scalar type, use `np.bool_` here.
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations

onnx_pytorch/tests/test_base.py::TestBase::test_resize_downsample_sizes_linear_pytorch_half_pixel
onnx_pytorch/tests/test_base.py::TestBase::test_resize_pt_bilinear
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/torch/nn/functional.py:3454: UserWarning: Default upsampling behavior when mode=bilinear is changed to align_corners=False since 0.4.0. Please specify align_corners=True if the old behavior is desired. See the documentation of nn.Upsample for details.
    warnings.warn(

-- Docs: https://docs.pytest.org/en/stable/warnings.html
================================================================================================================================ short test summary info =================================================================================================================================
FAILED onnx_pytorch/tests/test_base.py::TestBase::test_conv_batchnorm_maxpool_flatten_add_relu - assert False
FAILED onnx_pytorch/tests/test_base.py::TestBase::test_batch_normalization - assert False
================================================================================================================= 2 failed, 85 passed, 1 skipped, 193 warnings in 1.50s ==================================================================================================================
    opened by helion-du-mas-des-bourboux-thales 3
  • Function `code_gen.gen` failed with layer `LayerNormalization`. However, `BatchNormalization` succeeds.

    Function `code_gen.gen` failed with layer `LayerNormalization`. However, `BatchNormalization` succeeds.

    This is ipython code (at colab) which makes an error.

    Code

    !pip install tensorflow==2.6.4 onnx==1.12.0 onnx-pytorch git+https://github.com/onnx/tensorflow-onnx

import tensorflow as tf
import onnx

from onnx_pytorch import code_gen

with tf.device("/cpu:0"):
    tf_model = tf.keras.Sequential()
    tf_model.add(tf.keras.layers.Input((123,)))
    tf_model.add(tf.keras.layers.LayerNormalization())
    tf.keras.models.save_model(
        tf_model,
        "model.tf",
        overwrite=True,
        include_optimizer=False,
        save_format=None,
        signatures=None,
        options=None,
        save_traces=True
    )
!python -m tf2onnx.convert --saved-model model.tf --output model.onnx --opset 11 --verbose
code_gen.gen("model.onnx", "./")

    Error Message

    ---------------------------------------------------------------------------
NotImplementedError                       Traceback (most recent call last)
[<ipython-input-8-b7c6a94144c8>](https://localhost:8080/#) in <module>()
     21     )
     22 get_ipython().system('python -m tf2onnx.convert --saved-model model.tf --output model.onnx --opset 11 --verbose')
---> 23 code_gen.gen("model.onnx", "./")

1 frames
[/usr/local/lib/python3.7/dist-packages/onnx_pytorch/code_gen.py](https://localhost:8080/#) in gen(onnx_model, output_dir, overwrite, tensor_inplace, simplify_names, continue_on_error, embedding_conf_file, shape_infer)
    289       onnx_model, output_dir, overwrite, tensor_inplace, simplify_names,
    290       continue_on_error, embedding_conf_file, shape_infer)
--> 291   model_code_generator.run()
    292 
    293 

[/usr/local/lib/python3.7/dist-packages/onnx_pytorch/code_gen.py](https://localhost:8080/#) in run(self)
    245         else:
    246           raise NotImplementedError(
--> 247               f"OpCodeGenerator is unimplemented for {n.op_type}.")
    248       else:
    249         try:

NotImplementedError: OpCodeGenerator is unimplemented for ReduceSumSquare.
    opened by klae01 2
  • latest onnxruntime fails test

    latest onnxruntime fails test

    onnxruntime==1.9.0

    (onnx-pytorch) <me>:<me>/onnx-pytorch$ pytest onnx_pytorch/tests/test_base.py 
=============================================================================================== test session starts ===============================================================================================
platform linux -- Python 3.9.7, pytest-6.2.5, py-1.11.0, pluggy-1.0.0
rootdir: <me>//onnx-pytorch
plugins: dash-2.0.0
collected 88 items                                                                                                                                                                                                

onnx_pytorch/tests/test_base.py .F.................F..................s...........................s.....................                                                                                    [100%]

==================================================================================================== FAILURES =====================================================================================================
______________________________________________________________________________ TestBase.test_conv_batchnorm_maxpool_flatten_add_relu ______________________________________________________________________________

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7f7aa0349d90>

    def test_conv_batchnorm_maxpool_flatten_add_relu(self):
      reset_model(13)
      nps = [np.random.randn(1, 3, 224, 224).astype(np.float32)]
      inputs = Input(*nps)
      conv_node = Conv(inputs[0],
                       np.random.randn(32, 3, 3, 3).astype(np.float32),
                       np.random.randn(32).astype(np.float32))
      bn_node = BatchNormalization(
          conv_node,
          np.ones(32,).astype(np.float32),
          np.zeros(32,).astype(np.float32),
          np.random.randn(32).astype(np.float32),
          np.abs(np.random.randn(32).astype(np.float32)),
      )
      max_pool_node = MaxPool(bn_node,
                              kernel_shape=(3, 3),
                              strides=(2, 2),
                              pads=(0, 0, 1, 1))
      flatten_node = Flatten(max_pool_node, axis=1)
      add_node = Add(flatten_node, np.random.randn(1).astype(np.float32))
      relu_node = Relu(add_node)
      Output(relu_node)
>     self._run(list(zip(inputs, nps)))

onnx_pytorch/tests/test_base.py:103: 
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7f7aa0349d90>
inputs_np = [('_t_Input_0', array([[[[ 0.08681966,  0.31802994, -0.46221298, ...,  0.86617213,
          -0.37778926, -0.6164783 ]...     [-0.22646298, -0.44820276, -0.9840031 , ...,  0.5185814 ,
           1.3545119 , -0.98803467]]]], dtype=float32))]

    def _run(self, inputs_np):
      inputs_np_dict = {k: v for k, v in inputs_np if k != ""}
      model = onnx.ModelProto()
      model.CopyFrom(omm.model)
      sess_options = onnxruntime.SessionOptions()
      session = onnxruntime.InferenceSession(model.SerializeToString(),
                                             sess_options)
      ort_outputs = session.run(None, inputs_np_dict)
      model.graph.ClearField("value_info")
      initializers = {i.name: i for i in model.graph.initializer}
      for i in model.graph.input:
        if i.name in initializers:
          continue
        for idx, d in enumerate(i.type.tensor_type.shape.dim):
          if d.dim_param != "":
            d.ClearField("dim_param")
          d.dim_value = inputs_np_dict[i.name].shape[idx]
      try:
        model = SymbolicShapeInference.infer_shapes(model, 2**31 - 1, True, True,
                                                    1)
      except:
        logging.warning("Shape infer by onnxruntime failed.")
      with TemporaryDirectory() as tmpdir:
        clear_op_code_generator()
        model_code_generator = code_gen.get_model_code_generator(
            model,
            output_dir=tmpdir,
            tensor_inplace=True,
            simplify_names=True,
            shape_infer=False)
        model_code_generator.run()
        spec = importlib.util.spec_from_file_location(
            "model", os.path.join(tmpdir, "model.py"))
        mod = importlib.util.module_from_spec(spec)
        spec.loader.exec_module(mod)
        pt_outputs = mod.test_run_model(
            [torch.from_numpy(v) for k, v in inputs_np if k != ""])
        if type(pt_outputs) == torch.Tensor:
          pt_outputs = [pt_outputs.detach().numpy()]
        elif type(pt_outputs) in (list, tuple):
          pt_outputs = [o.detach().numpy() for o in pt_outputs]
        for l, r in zip(ort_outputs, pt_outputs):
>         assert np.allclose(l, r, atol=1e-4, rtol=1e-4, equal_nan=True)
E         assert False
E          +  where False = <function allclose at 0x7f7b043f61f0>(array([[1.2242965 , 0.41702545, 0.28294265, ..., 0.12723899, 0.12723899,\n        0.        ]], dtype=float32), array([[5.1290994, 2.8178134, 2.4339228, ..., 7.237103 , 7.237103 ,\n        0.       ]], dtype=float32), atol=0.0001, rtol=0.0001, equal_nan=True)
E          +    where <function allclose at 0x7f7b043f61f0> = np.allclose

onnx_pytorch/tests/test_base.py:67: AssertionError
---------------------------------------------------------------------------------------------- Captured stdout call -----------------------------------------------------------------------------------------------
# Autogenerated by onnx-pytorch.

import glob
import os
import math

import numpy as np
import torch
import torch.nn as nn
import torch.nn.functional as F
import torchvision


class Model(nn.Module):
  def __init__(self):
    super(Model, self).__init__()
    self._vars = nn.ParameterDict()
    self._regularizer_params = []
    for b in glob.glob(
        os.path.join(os.path.dirname(__file__), "variables", "*.npy")):
      v = torch.from_numpy(np.load(b))
      requires_grad = v.dtype.is_floating_point or v.dtype.is_complex
      self._vars[os.path.basename(b)[:-4]] = nn.Parameter(v, requires_grad=requires_grad)
    self.n_Conv_0 = nn.Conv2d(**{'groups': 1, 'dilation': 1, 'out_channels': 32, 'padding': 0, 'kernel_size': (3, 3), 'stride': 1, 'in_channels': 3, 'bias': True})
    self.n_Conv_0.weight.data = self._vars["t_0"]
    self.n_Conv_0.bias.data = self._vars["t_1"]
    self.n_BatchNormalization_0 = nn.BatchNorm2d(**{'num_features': 32, 'eps': 9.999999747378752e-06, 'momentum': 0.8999999761581421})
    self.n_BatchNormalization_0.weight.data = self._vars["t_2"]
    self.n_BatchNormalization_0.bias.data = self._vars["t_3"]
    self.n_BatchNormalization_0.running_mean.data = self._vars["t_4"]
    self.n_BatchNormalization_0.running_var.data = self._vars["t_5"]
    self.n_MaxPool_0 = nn.MaxPool2d(**{'dilation': 1, 'kernel_size': [3, 3], 'ceil_mode': False, 'stride': [2, 2], 'return_indices': True})
    self.n_Flatten_0 = nn.Flatten(**{'start_dim': 1})

  def forward(self, *inputs):
    t_7, = inputs
    t_8 = self.n_Conv_0(t_7)
    t_9 = self.n_BatchNormalization_0(t_8)
    t_9 = F.pad(t_9, [0, 1, 0, 1], value=float('-inf'))
    t_14, t_15 = self.n_MaxPool_0(t_9)
    t_16 = self.n_Flatten_0(t_14)
    t_17 = torch.add(t_16, self._vars["t_6"])
    t_18 = F.relu(t_17)
    return t_18

  def compatible_auto_pad(self, input, kernel_spatial_shape, nn_mod, auto_pad=None, **kwargs):
    input_spatial_shape = input.shape[2:]
    d = len(input_spatial_shape)
    strides = nn_mod.stride
    dilations = nn_mod.dilation
    output_spatial_shape = [math.ceil(float(l) / float(r)) for l, r in zip(input.shape[2:], strides)]
    pt_padding = [0] * 2 * d
    pad_shape = [0] * d
    for i in range(d):
      pad_shape[i] = (output_spatial_shape[i] - 1) * strides[i] + ((kernel_spatial_shape[i] - 1) * dilations[i] + 1) - input_spatial_shape[i]
      mean = pad_shape[i] // 2
      if auto_pad == b"SAME_UPPER":
        l, r = pad_shape[i] - mean, mean
      else:
        l, r = mean, pad_shape[i] - mean
      pt_padding.insert(0, r)
      pt_padding.insert(0, l)
    return F.pad(input, pt_padding)

@torch.no_grad()
def test_run_model(inputs=[torch.from_numpy(np.random.randn(*[1, 3, 224, 224]).astype(np.float32))]):
  model = Model()
  model.eval()
  rs = model(*inputs)
  print(rs)
  return rs

tensor([[5.12909937, 2.81781340, 2.43392277,  ..., 7.23710299, 7.23710299,
         0.00000000]])
------------------------------------------------------------------------------------------------ Captured log call ------------------------------------------------------------------------------------------------
WARNING  root:__init__.py:41 Cannot get default value for dilations of MaxPool.
WARNING  root:__init__.py:41 Cannot get default value for kernel_shape of MaxPool.
WARNING  root:__init__.py:41 Cannot get default value for pads of MaxPool.
WARNING  root:__init__.py:41 Cannot get default value for strides of MaxPool.
WARNING  root:MaxPool.py:47 MaxPool with asymmetric padding will get incorrect indices.
________________________________________________________________________________________ TestBase.test_batch_normalization ________________________________________________________________________________________

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7f7a9eacfa00>

    def test_batch_normalization(self):
      reset_model(13)
      nps = [np.random.randn(1, 32, 3, 3).astype(np.float32)]
      inputs = Input(*nps)
      Output(BatchNormalization(
          inputs[0],
          np.ones(32,).astype(np.float32),
          np.zeros(32,).astype(np.float32),
          np.random.randn(32).astype(np.float32),
          np.abs(np.random.randn(32).astype(np.float32)),
      ),
             output_num=1)
>     self._run(list(zip(inputs, nps)))

onnx_pytorch/tests/test_base.py:239: 
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

self = <onnx_pytorch.tests.test_base.TestBase object at 0x7f7a9eacfa00>
inputs_np = [('_t_Input_0', array([[[[ 0.7745172 , -1.4926829 , -1.6556902 ],
         [-0.7622266 ,  0.04088752,  0.83572936],
  ...         [ 0.5896988 , -0.8963601 ,  0.9315137 ],
         [-1.5789044 , -0.9300383 , -0.8664075 ]]]], dtype=float32))]

    def _run(self, inputs_np):
      inputs_np_dict = {k: v for k, v in inputs_np if k != ""}
      model = onnx.ModelProto()
      model.CopyFrom(omm.model)
      sess_options = onnxruntime.SessionOptions()
      session = onnxruntime.InferenceSession(model.SerializeToString(),
                                             sess_options)
      ort_outputs = session.run(None, inputs_np_dict)
      model.graph.ClearField("value_info")
      initializers = {i.name: i for i in model.graph.initializer}
      for i in model.graph.input:
        if i.name in initializers:
          continue
        for idx, d in enumerate(i.type.tensor_type.shape.dim):
          if d.dim_param != "":
            d.ClearField("dim_param")
          d.dim_value = inputs_np_dict[i.name].shape[idx]
      try:
        model = SymbolicShapeInference.infer_shapes(model, 2**31 - 1, True, True,
                                                    1)
      except:
        logging.warning("Shape infer by onnxruntime failed.")
      with TemporaryDirectory() as tmpdir:
        clear_op_code_generator()
        model_code_generator = code_gen.get_model_code_generator(
            model,
            output_dir=tmpdir,
            tensor_inplace=True,
            simplify_names=True,
            shape_infer=False)
        model_code_generator.run()
        spec = importlib.util.spec_from_file_location(
            "model", os.path.join(tmpdir, "model.py"))
        mod = importlib.util.module_from_spec(spec)
        spec.loader.exec_module(mod)
        pt_outputs = mod.test_run_model(
            [torch.from_numpy(v) for k, v in inputs_np if k != ""])
        if type(pt_outputs) == torch.Tensor:
          pt_outputs = [pt_outputs.detach().numpy()]
        elif type(pt_outputs) in (list, tuple):
          pt_outputs = [o.detach().numpy() for o in pt_outputs]
        for l, r in zip(ort_outputs, pt_outputs):
>         assert np.allclose(l, r, atol=1e-4, rtol=1e-4, equal_nan=True)
E         assert False
E          +  where False = <function allclose at 0x7f7b043f61f0>(array([[[[ 9.91475940e-01, -1.39311564e+00, -1.56456316e+00],\n         [-6.24837637e-01,  2.19860300e-01,  1.05585766e...7.59569287e-01,  1.25005341e+00],\n         [-1.50998020e+00, -7.96596169e-01, -7.26638436e-01]]]],\n      dtype=float32), array([[[[ 2.11514905e-02, -1.92307127e+00, -2.06285715e+00],\n         [-1.29667318e+00, -6.07967854e-01,  7.36436024e...8.19936633e-01,  1.26697469e+00],\n         [-1.59920776e+00, -8.58387530e-01, -7.85739303e-01]]]],\n      dtype=float32), atol=0.0001, rtol=0.0001, equal_nan=True)
E          +    where <function allclose at 0x7f7b043f61f0> = np.allclose

onnx_pytorch/tests/test_base.py:67: AssertionError
---------------------------------------------------------------------------------------------- Captured stdout call -----------------------------------------------------------------------------------------------
# Autogenerated by onnx-pytorch.

import glob
import os
import math

import numpy as np
import torch
import torch.nn as nn
import torch.nn.functional as F
import torchvision


class Model(nn.Module):
  def __init__(self):
    super(Model, self).__init__()
    self._vars = nn.ParameterDict()
    self._regularizer_params = []
    for b in glob.glob(
        os.path.join(os.path.dirname(__file__), "variables", "*.npy")):
      v = torch.from_numpy(np.load(b))
      requires_grad = v.dtype.is_floating_point or v.dtype.is_complex
      self._vars[os.path.basename(b)[:-4]] = nn.Parameter(v, requires_grad=requires_grad)
    self.n_BatchNormalization_0 = nn.BatchNorm2d(**{'num_features': 32, 'eps': 9.999999747378752e-06, 'momentum': 0.8999999761581421})
    self.n_BatchNormalization_0.weight.data = self._vars["t_0"]
    self.n_BatchNormalization_0.bias.data = self._vars["t_1"]
    self.n_BatchNormalization_0.running_mean.data = self._vars["t_2"]
    self.n_BatchNormalization_0.running_var.data = self._vars["t_3"]

  def forward(self, *inputs):
    t_4, = inputs
    t_5 = self.n_BatchNormalization_0(t_4)
    return t_5

  
@torch.no_grad()
def test_run_model(inputs=[torch.from_numpy(np.random.randn(*[1, 32, 3, 3]).astype(np.float32))]):
  model = Model()
  model.eval()
  rs = model(*inputs)
  print(rs)
  return rs

tensor([[[[ 2.11514905e-02, -1.92307127e+00, -2.06285715e+00],
          [-1.29667318e+00, -6.07967854e-01,  7.36436024e-02],
          [-1.24425519e+00, -4.32142057e-03, -4.06830050e-02]],

         [[ 4.27835196e-01, -4.02293563e-01,  1.25209391e+00],
          [-1.35146415e+00, -2.52955347e-01,  1.47779858e+00],
          [-6.49659276e-01,  4.79720533e-01,  2.22885060e+00]],

         [[-2.09176064e+00, -1.05400944e+00, -2.06602669e+00],
          [-1.94747806e+00, -2.88019228e+00, -2.62886310e+00],
          [-3.44989538e+00, -2.75009131e+00, -2.39562416e+00]],

         [[ 1.11013091e+00,  1.28344691e+00, -6.32941604e-01],
          [ 7.57854998e-01, -2.10156515e-01,  1.47328424e+00],
          [-2.59426326e-01, -2.84430325e-01,  9.00919676e-01]],

         [[ 4.08791155e-01,  2.89755702e-01,  6.62197396e-02],
          [-1.76871634e+00, -5.03794849e-01, -4.27903265e-01],
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         [[-1.45369780e+00,  2.33676344e-01, -1.03255248e+00],
          [ 1.32926130e+00,  2.23724812e-01, -2.06382227e+00],
          [-7.27365375e-01, -3.29207569e-01, -1.84505939e+00]],

         [[-7.30695367e-01, -9.48697507e-01,  1.02768219e+00],
          [-3.11210537e+00, -2.19822788e+00,  1.94993824e-01],
          [-5.17953396e-01,  9.80266273e-01,  1.58678629e-02]],

         [[-5.50329685e-01, -2.20515108e+00,  5.57632744e-01],
          [-4.76857811e-01,  1.53507262e-01, -1.43097568e+00],
          [ 4.82103467e-01, -1.68012989e+00,  3.24517749e-02]],

         [[-5.33442855e-01,  5.51209152e-01,  9.62817371e-01],
          [ 2.40877175e+00,  1.32837451e+00,  1.65606558e+00],
          [-4.13032651e-01,  3.72783518e+00,  3.40976954e-01]],

         [[ 6.73895895e-01, -2.66826779e-01,  2.70163131e+00],
          [ 1.51779735e+00,  1.03770292e+00,  3.58062625e-01],
          [ 3.07913351e+00,  1.82803762e+00,  1.80789387e+00]],

         [[-5.71182489e-01, -9.17714715e-01, -1.13700569e+00],
          [-1.86594054e-01, -3.26027721e-01, -7.83864677e-01],
          [-8.37005913e-01, -1.44201532e-01, -1.28018081e+00]],

         [[-2.11968374e+00,  4.36148047e-01, -2.25281045e-01],
          [-2.65030837e+00, -2.46051192e+00, -7.95132637e-01],
          [-2.29407355e-01, -2.05399799e+00, -3.97852802e+00]],

         [[ 1.99362409e+00, -2.22769213e+00,  3.03191710e+00],
          [ 6.41038036e+00,  7.57672191e-01,  2.30211586e-01],
          [ 4.41129446e+00,  5.71550274e+00,  2.88953924e+00]],

         [[-1.67502999e+00,  4.71590012e-01,  4.20928180e-01],
          [ 1.42629158e+00,  2.22070456e+00, -2.48521614e+00],
          [-2.90164924e+00, -1.70486748e+00,  3.05718213e-01]],

         [[ 1.31291842e+00,  1.51544333e+00,  9.34356451e-01],
          [ 2.45068908e+00,  9.35024202e-01,  1.16957915e+00],
          [ 1.73736286e+00,  1.44560516e+00,  1.79951024e+00]],

         [[-1.78257480e-01, -1.50668001e+00, -3.93693089e-01],
          [ 9.00940716e-01,  1.75067687e+00,  1.56921744e-01],
          [-1.68945998e-01, -7.10348845e-01,  2.69243687e-01]],

         [[-1.44925761e+00, -8.86168003e-01, -2.19026709e+00],
          [-5.69859803e-01,  6.73547387e-01, -1.53828010e-01],
          [-3.62083554e+00, -1.68905407e-02, -1.03936875e+00]],

         [[-2.79535174e+00, -3.87425613e+00,  4.66894388e+00],
          [-3.84637070e+00, -1.71726680e+00, -3.25723600e+00],
          [-6.84032822e+00, -1.06125496e-01,  2.27101946e+00]],

         [[ 9.65043604e-01, -3.17505288e+00,  1.14182040e-01],
          [-2.67569017e+00,  1.84636426e+00, -7.68563211e-01],
          [-2.11804008e+00, -2.63963199e+00, -2.71025586e+00]],

         [[-4.97454464e-01, -1.84077692e+00, -1.13075355e-03],
          [-2.12281924e-02,  1.43575883e+00, -9.79906857e-01],
          [-1.43173182e+00, -1.10443759e+00, -1.83555901e+00]],

         [[ 6.83952451e-01,  3.86664987e+00,  6.27903759e-01],
          [ 6.22224391e-01,  3.38052392e+00,  2.65812469e+00],
          [ 1.35363007e+00, -1.32484972e+00,  2.16152740e+00]],

         [[-2.97609538e-01, -5.97289562e-01, -5.53929061e-02],
          [-9.01254416e-01, -1.31918341e-01, -1.91106975e+00],
          [ 1.30615933e-02, -1.13118947e+00, -1.71910405e+00]],

         [[-3.56180477e+00,  1.03958499e+00, -2.59528255e+00],
          [-3.63754392e-01,  1.45368779e+00,  6.28106117e-01],
          [-1.52019906e+00,  2.27045107e+00, -2.04589820e+00]],

         [[ 2.96379948e+00,  1.40205872e+00,  6.10626042e-01],
          [ 9.29273069e-01, -2.59484500e-01,  1.29350579e+00],
          [-2.03710818e+00,  2.09723279e-01,  3.75842363e-01]],

         [[ 1.15190208e+00, -1.79379475e+00, -1.03870857e+00],
          [-2.49877191e+00,  5.20503461e-01, -1.32148862e+00],
          [ 1.14259291e+00, -1.22499466e+00, -1.77996016e+00]],

         [[ 5.53968525e+00,  2.88090467e+00,  1.01117289e+00],
          [ 5.58917379e+00,  6.44941425e+00,  4.39829063e+00],
          [ 5.66234684e+00,  6.48445272e+00,  7.14439631e+00]],

         [[ 2.75992036e-01,  2.69333333e-01,  2.09721066e-02],
          [-3.83876115e-01, -8.62384975e-01, -9.11671594e-02],
          [ 6.93263173e-01,  1.74463049e-01,  4.79215592e-01]],

         [[-1.01199875e+01, -7.20881653e+00, -5.04845047e+00],
          [-6.25630283e+00, -1.05240383e+01, -2.73052502e+00],
          [-7.76849747e+00, -2.49891591e+00, -8.07278156e+00]],

         [[ 1.54215002e+00,  1.09585929e+00,  1.14009336e-01],
          [ 1.12563217e+00,  2.39603353e+00,  1.73558319e+00],
          [-3.81684572e-01,  5.00159383e-01,  1.24173117e+00]],

         [[-1.65010154e-01, -5.65712094e-01,  3.59763801e-02],
          [-3.90798420e-01, -1.16110936e-01, -1.36400402e-01],
          [-1.34565961e+00,  4.39721853e-01,  8.28600407e-01]],

         [[-4.84672832e+00, -6.60604596e-01,  1.73845172e-01],
          [-5.31565666e-01, -1.43216908e-01,  3.46095473e-01],
          [-2.08822680e+00, -1.05168688e+00, -1.98360145e-01]],

         [[ 1.07395852e+00,  1.13209188e+00, -5.66867292e-01],
          [ 8.76719356e-01, -8.19936633e-01,  1.26697469e+00],
          [-1.59920776e+00, -8.58387530e-01, -7.85739303e-01]]]])
================================================================================================ warnings summary =================================================================================================
../../../../anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/mapping.py:27
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/mapping.py:27: DeprecationWarning: `np.object` is a deprecated alias for the builtin `object`. To silence this warning, use `object` by itself. Doing this will not modify any behavior and is safe. 
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations
    int(TensorProto.STRING): np.dtype(np.object)

onnx_pytorch/tests/test_base.py: 182 warnings
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/numpy_helper.py:93: DeprecationWarning: `np.object` is a deprecated alias for the builtin `object`. To silence this warning, use `object` by itself. Doing this will not modify any behavior and is safe. 
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations
    if arr.dtype == np.object:

onnx_pytorch/tests/test_base.py::TestBase::test_conv_batchnorm_maxpool_flatten_add_relu
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/onnx/helper.py:365: DeprecationWarning: Using or importing the ABCs from 'collections' instead of from 'collections.abc' is deprecated since Python 3.3, and in 3.10 it will stop working
    is_iterable = isinstance(value, collections.Iterable)

onnx_pytorch/tests/test_base.py::TestBase::test_and
onnx_pytorch/tests/test_base.py::TestBase::test_and
  /tmp/tmpms_osm8m/model.py:33: DeprecationWarning: `np.bool` is a deprecated alias for the builtin `bool`. To silence this warning, use `bool` by itself. Doing this will not modify any behavior and is safe. If you specifically wanted the numpy scalar type, use `np.bool_` here.
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations

onnx_pytorch/tests/test_base.py::TestBase::test_non_zero
  /tmp/tmpjqh2vsx2/model.py:33: DeprecationWarning: `np.bool` is a deprecated alias for the builtin `bool`. To silence this warning, use `bool` by itself. Doing this will not modify any behavior and is safe. If you specifically wanted the numpy scalar type, use `np.bool_` here.
  Deprecated in NumPy 1.20; for more details and guidance: https://numpy.org/devdocs/release/1.20.0-notes.html#deprecations

onnx_pytorch/tests/test_base.py::TestBase::test_resize_pt_bilinear
  <me>/anaconda3/envs/onnx-pytorch/lib/python3.9/site-packages/torch/nn/functional.py:3631: UserWarning: Default upsampling behavior when mode=bilinear is changed to align_corners=False since 0.4.0. Please specify align_corners=True if the old behavior is desired. See the documentation of nn.Upsample for details.
    warnings.warn(

-- Docs: https://docs.pytest.org/en/stable/warnings.html
============================================================================================= short test summary info =============================================================================================
FAILED onnx_pytorch/tests/test_base.py::TestBase::test_conv_batchnorm_maxpool_flatten_add_relu - assert False
FAILED onnx_pytorch/tests/test_base.py::TestBase::test_batch_normalization - assert False
============================================================================== 2 failed, 84 passed, 2 skipped, 188 warnings in 1.47s ==============================================================================
    opened by helion-du-mas-des-bourboux-thales 2
  • Tensors in the converted model are being placed in the wrong device

    Tensors in the converted model are being placed in the wrong device

    I've converted a BiT model (https://tfhub.dev/google/bit/m-r101x1/1) from TF to ONNX, and then used this package to convert to Pytorch.

    The result works out-of-the-box in the CPU, I get the same outputs as the TF model. But when I try it in the GPU, I get some fatal errors saying that some ops are using tensors in different devices. Looking into the generated code, I see a lot of calls like these in forward(): t_323 = torch.tensor(t_321.shape)

    These are being created in the CPU, so operations with these tensors (when the input is in the GPU) result in error. I can fix it manually by changing all such calls to: torch.tensor(..., device=inputs[0].device), and then everything works well: the results are the same as TF, and the performance is also the same.

    opened by jorgemcgomes 2
  • change directory is missing

    change directory is missing

    https://github.com/fumihwh/onnx-pytorch/blob/29cd1dafb47e4e4bc598c700c44f53815e7b8c9a/README.md?plain=1#L19

    the command line block should be

    git clone https://github.com/fumihwh/onnx-pytorch.git
cd onnx-pytorch
pip install -r requirements.txt
pip install -e .
    opened by londumas 1
  • input name in onnxruntime is hardcoded in README

    input name in onnxruntime is hardcoded in README

    https://github.com/fumihwh/onnx-pytorch/blob/29cd1dafb47e4e4bc598c700c44f53815e7b8c9a/README.md?plain=1#L87

    I would suggest changing the following line

    inputs = {"data": inp}

    to this one, in the README

    inputs = {session.get_inputs()[0].name: inp}

    This allows to adapt to a way larger variety of model, without hardcoding the input name.

    opened by londumas 1
  • DecodeError: Unexpected end-group tag.

    DecodeError: Unexpected end-group tag.

    Hi, I tried this tool for the first time

    I did it the following way:

    1. pip install onnx_pytorch

    2. from onnx_pytorch import code_gen

    3. code_gen.gen('resnet18-v2-7.onnx', './')

    But, there is an error about: DecodeError: Unexpected end-group tag.

    How to deal it?

    opened by xiaopengaia 1
  • OpCodeGenerator is unimplemented for Softplus

    OpCodeGenerator is unimplemented for Softplus

    When trying to convert a Yolov4 ONNX model with onnx-pytorch I get the following error. Seems to be an unimplemented OpCode for Softplus.

    WARNING:root:Cannot get default value for dilations of Conv. WARNING:root:Cannot get default value for kernel_shape of Conv. WARNING:root:Cannot get default value for pads of Conv. WARNING:root:Cannot get default value for strides of Conv. Traceback (most recent call last): File "/usr/lib/python3.8/runpy.py", line 194, in _run_module_as_main return _run_code(code, main_globals, None, File "/usr/lib/python3.8/runpy.py", line 87, in _run_code exec(code, run_globals) File "/someenv/lib/python3.8/site-packages/onnx_pytorch/code_gen.py", line 378, in main() File "/someenv/python3.8/site-packages/onnx_pytorch/code_gen.py", line 368, in main gen(onnx_model=args.onnx_model_path, File "/someenv/python3.8/site-packages/onnx_pytorch/code_gen.py", line 291, in gen model_code_generator.run() File "/someenv/python3.8/site-packages/onnx_pytorch/code_gen.py", line 246, in run raise NotImplementedError( NotImplementedError: OpCodeGenerator is unimplemented for Softplus.

    Installed version:

    pip show onnx_pytorch Name: onnx-pytorch Version: 0.1.4 Summary: Convert ONNX to PyTorch code. Home-page: https://github.com/fumihwh/onnx-pytorch Author: fumihwh Author-email: [email protected] License: Apache 2.0 Location: /someenv/lib/python3.8/site-packages Requires: torchvision, setuptools, torch, PyYAML, tqdm, onnxruntime, onnx, sympy, pytest, numpy Required-by:

    opened by juhan 1
  • NotImplementedError: OpCodeGenerator is unimplemented for DequantizeLinear.

    NotImplementedError: OpCodeGenerator is unimplemented for DequantizeLinear.

    opened by LiuFeiOne 1
Releases(v0.1.5)

  • v0.1.5(Aug 3, 2022)

    What's Changed

    • create python publish action by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/42

    Full Changelog: https://github.com/fumihwh/onnx-pytorch/compare/v0.1.4...v0.1.5

    Source code(tar.gz)
    Source code(zip)

  • v0.1.4(Nov 23, 2021)

    What's Changed

    • Add some ops by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/13
    • Bump up to 0.1.3 by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/14
    • Add ops and model test cases by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/15
    • Support frcnn by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/16
    • Support mask rcnn, ssd and style transfer models by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/17
    • refactor: Small readability improvements by @rogier-stegeman in https://github.com/fumihwh/onnx-pytorch/pull/4
    • Fix CI by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/25
    • Some nit by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/24
    • add OP Elu/Sub/Tanh by @maimaixiong in https://github.com/fumihwh/onnx-pytorch/pull/19
    • Adds device information when creating new tensors by @jorgemcgomes in https://github.com/fumihwh/onnx-pytorch/pull/29
    • Ci by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/40
    • add version by @helion-du-mas-des-bourboux-thales in https://github.com/fumihwh/onnx-pytorch/pull/33
    • more general tutorial by @helion-du-mas-des-bourboux-thales in https://github.com/fumihwh/onnx-pytorch/pull/37
    • Fix dependencies by @helion-du-mas-des-bourboux-thales in https://github.com/fumihwh/onnx-pytorch/pull/35
    • Release 0.1.4 by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/41

    New Contributors

    • @rogier-stegeman made their first contribution in https://github.com/fumihwh/onnx-pytorch/pull/4
    • @maimaixiong made their first contribution in https://github.com/fumihwh/onnx-pytorch/pull/19
    • @jorgemcgomes made their first contribution in https://github.com/fumihwh/onnx-pytorch/pull/29
    • @helion-du-mas-des-bourboux-thales made their first contribution in https://github.com/fumihwh/onnx-pytorch/pull/33

    Full Changelog: https://github.com/fumihwh/onnx-pytorch/compare/v0.1.3...v0.1.4

    Source code(tar.gz)
    Source code(zip)

  • v0.1.3(Nov 18, 2021)

    What's Changed

    • Develop by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/1
    • Add tutorial and fix some bugs by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/2
    • Bump up to 0.1.2 by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/3
    • Introduce new features and some bug fix by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/5
    • Ci by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/6
    • Add some ops by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/7
    • Improve ci by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/8
    • Add some ops by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/9
    • Fix ops and use ParameterDict by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/10
    • Ci by @fumihwh in https://github.com/fumihwh/onnx-pytorch/pull/11

    Full Changelog: https://github.com/fumihwh/onnx-pytorch/compare/v0.1.2...v0.1.3

    Source code(tar.gz)
    Source code(zip)
Owner
Wenhao Hu
Wenhao Hu
GitHub Repository
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Deep-learning X-Ray Micro-CT image enhancement, pore-network modelling and continuum modelling

EDSR modelling A Github repository for deep-learning image enhancement, pore-network and continuum modelling from X-Ray Micro-CT images. The repositor

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Implementation of self-attention mechanisms for general purpose. Focused on computer vision modules. Ongoing repository.

Self-attention building blocks for computer vision applications in PyTorch Implementation of self attention mechanisms for computer vision in PyTorch

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Cold Brew: Distilling Graph Node Representations with Incomplete or Missing Neighborhoods

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This repository contains the DendroMap implementation for scalable and interactive exploration of image datasets in machine learning.

DendroMap DendroMap is an interactive tool to explore large-scale image datasets used for machine learning. A deep understanding of your data can be v

DIV Lab 33 Dec 30, 2022
A Peer-to-peer Platform for Secure, Privacy-preserving, Decentralized Data Science

PyGrid is a peer-to-peer network of data owners and data scientists who can collectively train AI models using PySyft. PyGrid is also the central serv

OpenMined 615 Jan 03, 2023
MSG-Transformer: Exchanging Local Spatial Information by Manipulating Messenger Tokens

MSG-Transformer Official implementation of the paper MSG-Transformer: Exchanging Local Spatial Information by Manipulating Messenger Tokens, by Jiemin

Hust Visual Learning Team 68 Nov 16, 2022
Vision Transformer for 3D medical image registration (Pytorch).

ViT-V-Net: Vision Transformer for Volumetric Medical Image Registration keywords: vision transformer, convolutional neural networks, image registratio

Junyu Chen 192 Dec 20, 2022
Learning Modified Indicator Functions for Surface Reconstruction

Learning Modified Indicator Functions for Surface Reconstruction In this work, we propose a learning-based approach for implicit surface reconstructio

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