masahi commented on a change in pull request #4497: [Relay] Add a PyTorch to Relay Parser URL: https://github.com/apache/incubator-tvm/pull/4497#discussion_r380058573
########## File path: python/tvm/relay/frontend/pytorch.py ########## @@ -0,0 +1,1026 @@ +# Licensed to the Apache Software Foundation (ASF) under one +# or more contributor license agreements. See the NOTICE file +# distributed with this work for additional information +# regarding copyright ownership. The ASF licenses this file +# to you under the Apache License, Version 2.0 (the +# "License"); you may not use this file except in compliance +# with the License. You may obtain a copy of the License at +# +# http://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, +# software distributed under the License is distributed on an +# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY +# KIND, either express or implied. See the License for the +# specific language governing permissions and limitations +# under the License. +# pylint: disable=import-self, too-many-lines, len-as-condition, no-else-return, unused-variable, too-many-nested-blocks +# pylint: disable=consider-iterating-dictionary, invalid-name, unused-argument, unused-variable, broad-except +# pylint: disable=import-outside-toplevel, simplifiable-if-expression, unnecessary-comprehension +"""PT: PyTorch frontend.""" +import numpy as np + +import tvm +from tvm.ir import module as _module + +from .. import analysis as _analysis +from .. import expr as _expr +from .. import op as _op +from .common import get_relay_op +from .common import infer_shape as _infer_shape + +__all__ = ["from_pytorch"] + +# operator implementation +def _elemwise(name): + def _impl(inputs, input_types): + # TODO: Figure out a better way to get typing to work for tensor + scalar + type0 = input_types[0] + if isinstance(inputs[1], _expr.Expr): + type0 = input_types[1] + + type1 = input_types[1] + if isinstance(inputs[0], _expr.Expr): + type1 = input_types[0] + + data0 = _convert_elemwise_input(inputs[0], type0) + data1 = _convert_elemwise_input(inputs[1], type1) + + return get_relay_op(name)(data0, data1) + return _impl + +def _unsqueeze(): + def _impl(inputs, input_types): + data = inputs[0] + axis = inputs[1] + + return _op.transform.expand_dims(data, int(axis), 1) + return _impl + +def _concatenate(): + def _impl(inputs, input_types): + data = inputs[0] + axis = inputs[1] + + if isinstance(data, _expr.Expr): + data = [data] + + return _op.tensor.concatenate(data, int(axis)) + return _impl + +def _slice(): + def _impl(inputs, input_types): + data = inputs[0] + strides = [] + + if isinstance(data, _expr.Expr): + inferred_shape = _infer_shape(data) + end = [] + for infer in inferred_shape: + end.append(int(infer)) + if isinstance(data, _expr.Var): + end = inferred_shape + end = list(end) + else: + end = data.shape + + begin = [0]*len(end) + dim = int(inputs[1]) + begin[dim] = int(inputs[2]) + + if isinstance(inputs[3], str) and inputs[3].isdigit(): + end[dim] = min(end[dim], int(inputs[3])) + else: + end[dim] = inputs[3] + + strides.append(int(inputs[4])) + return _op.transform.strided_slice(data, begin, end, strides) + return _impl + +def _select(): + def _impl(inputs, input_types): + data = inputs[0] + dim = int(inputs[1]) + index = int(inputs[2]) + + return _op.transform.take(data, _expr.const(index, dtype="int32"), axis=dim) + return _impl + +def _ones(): + def _impl(inputs, input_types): + data = inputs[0] + + import torch + if isinstance(data, _expr.Expr): + shape = _infer_shape(data) + elif isinstance(data, list): + shape = data + elif isinstance(data, (torch.Tensor, np.ndarray)): + shape = data.shape + else: + assert "data type {} could not be parsed in ones op" % (type(data)) + + return _op.full(_expr.const(1), shape, dtype=_convert_data_type(input_types[0])) + return _impl + +def _zeros(): + def _impl(inputs, input_types): + data = inputs[0] + + import torch + if isinstance(data, _expr.Expr): + shape = _infer_shape(data) + elif isinstance(data, list): + shape = data + elif isinstance(data, (torch.Tensor, np.ndarray)): + shape = data.shape + else: + assert "data type {} could not be parsed in zeros op" % (type(data)) + + return _op.full(_expr.const(0), shape, dtype=_convert_data_type(input_types[0])) + return _impl + +def _relu(): + def _impl(inputs, input_types): + data = inputs[0] + return _op.nn.relu(data) + return _impl + +def _adaptive_avg_2d(): + def _impl(inputs, input_types): + data = inputs[0] + output_size = _infer_shape(inputs[1]) + + return _op.contrib.contrib.adaptive_avg_pool2d( + data, + output_size=output_size) + return _impl + +def _adaptive_max_2d(): + def _impl(inputs, input_types): + data = inputs[0] + output_size = _infer_shape(inputs[1]) + + return _op.contrib.contrib.adaptive_max_pool2d( + data, + output_size=output_size) + return _impl + +def _maxpool_2d(): + def _impl(inputs, input_types): + data = inputs[0] + + pool_size = _infer_shape(inputs[1]) + strides = _infer_shape(inputs[2]) + padding = _infer_shape(inputs[3]) + + ceil_mode = int(inputs[5]) + + return _op.nn.max_pool2d(data, pool_size, strides, padding, "NCHW", ceil_mode) + return _impl + +def _hardtanh(): + def _impl(inputs, input_types): + a = inputs[0] + tanh_min = float(inputs[1]) + tanh_max = float(inputs[2]) + return _op.tensor.clip(a, tanh_min, tanh_max) + return _impl + +def _convolution(): + def _impl(inputs, input_types): + # Use transpose or normal + use_transpose = True if inputs[6] == "1" else False + + data = inputs[0] + weight = inputs[1] + bias = inputs[2] + strides = inputs[3] + padding = inputs[4] + dilation = inputs[5] + + if isinstance(weight, _expr.Expr): + inferred_shape = _infer_shape(weight) + weight_shape = [] + for infer in inferred_shape: + weight_shape.append(infer) + else: + assert "data type {} could not be parsed in conv op" % (type(weight)) + + channels = weight_shape[0] Review comment: I expect your PR will merged sooner than this one. We can add a multiplier > 1 test here after rebase. ---------------------------------------------------------------- This is an automated message from the Apache Git Service. To respond to the message, please log on to GitHub and use the URL above to go to the specific comment. For queries about this service, please contact Infrastructure at: us...@infra.apache.org With regards, Apache Git Services
