958 lines
32 KiB
Python
958 lines
32 KiB
Python
#!/usr/bin/env python
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from __future__ import absolute_import
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from __future__ import division
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from __future__ import print_function
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from __future__ import unicode_literals
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from collections import defaultdict, OrderedDict
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from io import StringIO
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import io
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import os
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import sys
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import datetime
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import argparse
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import numpy as np # type: ignore
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from onnx import defs, FunctionProto, helper, OperatorStatus
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from onnx.defs import OpSchema, ONNX_DOMAIN, ONNX_ML_DOMAIN
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from onnx.backend.test.case import collect_snippets
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from onnx.backend.sample.ops import collect_sample_implementations
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from typing import Any, Text, Sequence, Dict, List, Type, Set, Tuple
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import pprint
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parser = argparse.ArgumentParser()
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parser.add_argument("--dry-run-onnx-ops",
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help="Output ONNXOps.td.inc content to stdout.",
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action="store_true",
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default=False)
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parser.add_argument("--dry-run-op-build-table",
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help="Output OpBuildTable.inc content to stdout.",
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action="store_true",
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default=False)
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parser.add_argument("--check-operation-version",
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help="check whether the imported onnx package has new operation or "
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" newer version of operation compared with version stored in version_dicts",
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action="store_true",
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default=False)
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parser.add_argument("--domain",
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help="specify domain, ONNX or ONNX_ML",
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default = "ONNX")
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args = parser.parse_args()
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check_operation_version = args.check_operation_version
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# Record the version of each operation that is treated as the current version.
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# To check whether the onnx package being used has newer version operation,
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# run this script with --check-operation-version flag.
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# Update this dictionary when a newer version is implemented
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# TODO: how to keep the old version
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onnx_version_dict = {'Abs': 6,
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'Acos': 7,
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'Acosh': 9,
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'Add': 7,
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'And': 7,
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'ArgMax': 11,
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'ArgMin': 11,
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'Asin': 7,
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'Asinh': 9,
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'Atan': 7,
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'Atanh': 9,
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'AveragePool': 11,
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'BatchNormalization': 9,
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'BitShift': 11,
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'Cast': 9,
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'Ceil': 6,
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'Clip': 11,
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'Compress': 11,
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'Concat': 11,
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'ConcatFromSequence': 11,
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'Constant': 11,
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'ConstantOfShape': 9,
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'Conv': 11,
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'ConvInteger': 10,
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'ConvTranspose': 11,
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'Cos': 7,
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'Cosh': 9,
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'CumSum': 11,
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'DepthToSpace': 11,
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'DequantizeLinear': 10,
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'Det': 11,
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'Div': 7,
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'Dropout': 10,
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'DynamicQuantizeLinear': 11,
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'Elu': 6,
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'Equal': 11,
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'Erf': 9,
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'Exp': 6,
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'Expand': 8,
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'EyeLike': 9,
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'Flatten': 11,
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'Floor': 6,
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'GRU': 7,
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'Gather': 11,
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'GatherElements': 11,
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'GatherND': 11,
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'Gemm': 11,
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'GlobalAveragePool': 1,
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'GlobalLpPool': 2,
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'GlobalMaxPool': 1,
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'Greater': 9,
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'HardSigmoid': 6,
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'Hardmax': 11,
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'Identity': 1,
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'If': 11,
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'InstanceNormalization': 6,
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'IsInf': 10,
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'IsNaN': 9,
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'LRN': 1,
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'LSTM': 7,
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'LeakyRelu': 6,
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'Less': 9,
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'Log': 6,
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'LogSoftmax': 11,
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'Loop': 11,
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'LpNormalization': 1,
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'LpPool': 11,
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'MatMul': 9,
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'MatMulInteger': 10,
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'Max': 8,
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'MaxPool': 11,
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'MaxRoiPool': 1,
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'MaxUnpool': 11,
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'Mean': 8,
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'MeanVarianceNormalization': 9,
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'Min': 8,
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'Mod': 10,
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'Mul': 7,
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'Multinomial': 7,
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'Neg': 6,
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'NonMaxSuppression': 11,
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'NonZero': 9,
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'Not': 1,
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'OneHot': 11,
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'Or': 7,
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'PRelu': 9,
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'Pad': 11,
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'Pow': 7,
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'QLinearConv': 10,
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'QLinearMatMul': 10,
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'QuantizeLinear': 10,
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'RNN': 7,
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'RandomNormal': 1,
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'RandomNormalLike': 1,
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'RandomUniform': 1,
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'RandomUniformLike': 1,
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'Range': 11,
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'Reciprocal': 6,
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'ReduceL1': 11,
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'ReduceL2': 11,
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'ReduceLogSum': 11,
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'ReduceLogSumExp': 11,
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'ReduceMax': 11,
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'ReduceMean': 11,
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'ReduceMin': 11,
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'ReduceProd': 11,
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'ReduceSum': 11,
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'ReduceSumSquare': 11,
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'Relu': 6,
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'Reshape': 5,
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'Resize': 11,
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'ReverseSequence': 10,
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'RoiAlign': 10,
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'Round': 11,
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'Scan': 11,
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'Scatter': 11,
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'ScatterElements': 11,
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'ScatterND': 11,
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'Selu': 6,
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'SequenceAt': 11,
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'SequenceConstruct': 11,
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'SequenceEmpty': 11,
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'SequenceErase': 11,
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'SequenceInsert': 11,
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'SequenceLength': 11,
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'Shape': 1,
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'Shrink': 9,
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'Sigmoid': 6,
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'Sign': 9,
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'Sin': 7,
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'Sinh': 9,
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'Size': 1,
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'Slice': 11,
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'Softmax': 11,
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'Softplus': 1,
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'Softsign': 1,
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'SpaceToDepth': 1,
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'Split': 11,
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'SplitToSequence': 11,
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'Sqrt': 6,
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'Squeeze': 11,
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'StringNormalizer': 10,
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'Sub': 7,
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'Sum': 8,
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'Tan': 7,
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'Tanh': 6,
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'TfIdfVectorizer': 9,
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'ThresholdedRelu': 10,
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'Tile': 6,
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'TopK': 11,
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'Transpose': 1,
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'Unique': 11,
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'Unsqueeze': 11,
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'Upsample': 10,
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'Where': 9,
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'Xor': 7}
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onnx_ml_version_dict = {'ArrayFeatureExtractor': 1,
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'Binarizer': 1,
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'CastMap': 1,
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'CategoryMapper': 1,
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'DictVectorizer': 1,
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'FeatureVectorizer': 1,
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'Imputer': 1,
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'LabelEncoder': 2,
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'LinearClassifier': 1,
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'LinearRegressor': 1,
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'Normalizer': 1,
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'OneHotEncoder': 1,
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'SVMClassifier': 1,
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'SVMRegressor': 1,
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'Scaler': 1,
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'TreeEnsembleClassifier': 1,
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'TreeEnsembleRegressor': 1,
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'ZipMap': 1}
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# Manual specification of attribute defaults.
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special_attr_defaults = dict([
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# ("AveragePool.kernel_shape", ('ints', '{}')),
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# ("MaxPool.kernel_shape", ('ints', '{}')),
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# ("Cast.to", ('int', '0')),
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# ("Concat.axis", ('int', '0')),
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# ("Conv.group", ('int', '1')),
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# ("Unsqueeze.axes", ('ints', '{}')),
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# ("RNN.activation_alpha", ('floats', '{}')),
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# ("RNN.activation_beta", ('floats', '{}')),
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])
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# Special operation importing handlers.
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special_op_handler = dict([
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("MaxPool", "ImportNodeMaxPool"),
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("BatchNormalization", "ImportNodeBatchNormalization"),
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("Pad", "ImportNodePad"),
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("Reshape", "ImportNodeReshape"),
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#("Transpose", "ImportNodeTranspose")
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])
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# Operations supporting shape inference.
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OpsWithShapeInference = [
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'Exp', 'Tanh', 'Sinh', 'Cosh', 'Sigmoid', 'Relu', 'Add', 'Mul', 'Div',
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'Sub', 'And', 'Or', 'Xor', 'Sum', 'Max', 'Min', 'MatMul', 'Gemm',
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'LeakyRelu', 'Elu', 'Selu', 'HardSigmoid', 'Reshape', 'Reciprocal',
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'Identity', 'Cos', 'Log', 'Transpose', 'Softmax', 'ReduceMax', 'ReduceMin',
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'ReduceProd', 'ReduceSum', 'Softplus', 'Softsign', 'Sqrt', 'Unsqueeze',
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'Sign', 'Constant', 'AveragePool', 'Abs', 'Conv', 'Concat', 'Neg', 'RNN',
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'LSTM', 'GRU', 'Split', 'Pad'
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]
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# Operations supporting canonicalization.
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OpsWithCanonicalizer = ['Add', 'Identity', 'Gemm', 'Conv']
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# Operations who have operands that, if produced by constant operations, should
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# be promoted to become an attribute (via attribute promotion).
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#
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# For each operation, a key/value pair is used to specify how attribute promotion
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# should proceed. The key is the operation's name and the value is a list of
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# tuples, whose first item is the attribute/operand name, and the second item is
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# the index at which such operand occurs in the list of the operation's inputs.
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OpsWithPromotableConstOperands = {"Reshape": [("shape", 1)],
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"Pad": [("pads", 1), ("constant_value", 2)]}
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# Interface for special handling of type inference
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# The common code are put into get_type_inference_func
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OpsWithResultTypeInference = {
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"Constant":
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'''if (auto attr = valueAttr()) {
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resultTypes.push_back(attr.getType());
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} else if (auto attr = sparse_valueAttr()) {
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resultTypes.push_back(attr.getType());
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}''',
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"Cast":
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'''auto toAttr = to().getSExtValue();
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auto builder = mlir::OpBuilder(getContext());
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resultTypes.push_back(mlir::UnrankedTensorType::get(
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convertONNXTypeToMLIRType(builder, static_cast<onnx::TensorProto_DataType>(toAttr))));'''
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}
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# Add an Op in this list if the Op needs result type deduction which is required
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# when writing declarative rewriting rules. Deduced type is always
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# an UnrankedTensorType whose element type is the same as the first operand's
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# element type.
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#
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# Currenlty, there are only two build methods generated:
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# - one with operands and attributes having a separate parameter, and
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# - one with operands and attributes having aggregated parameters.
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custom_builder_ops_list = ['Abs', 'Mul', 'Exp', 'ReduceSum', 'ReduceSumSquare', 'Pad']
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#a dictionary to add any special definition for an operation
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custom_definition_misc = dict([ ('Constant',
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''' let builders = [
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OpBuilder<"OpBuilder &builder, OperationState &state, Attribute sparse_value, Attribute value", [{
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if (value) {
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auto tensorType = value.getType();
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build(builder, state, tensorType, sparse_value, value);
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} else {
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auto tensorType = sparse_value.getType();
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build(builder, state, tensorType, sparse_value, value);
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}
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}]>
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];'''
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)])
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onnx_types = (
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'bool', 'int8', 'int16', 'int32', 'int64', 'unkown', 'float16',
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'float', 'double', 'complex64', 'complex128'
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)
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tblgen_types = ('I1', 'I8', 'I16', 'I32', 'I64', 'BF16', 'F16', 'F32', 'F64',
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'Complex<F32>', 'Complex<F64>'
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)
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MAX_NUM_TYPES=20
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SNIPPETS = collect_snippets()
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SAMPLE_IMPLEMENTATIONS = collect_sample_implementations()
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ONNX_ML = bool(args.domain == "ONNX_ML")
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sys.stderr.write("ONNX_ML {}\n".format(ONNX_ML))
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def should_render_domain(domain): # type: (Text) -> bool
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if domain == ONNX_ML_DOMAIN and not ONNX_ML:
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return False
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elif ONNX_ML and domain != ONNX_ML_DOMAIN:
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return False
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return True
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def display_attr_type(v): # type: (OpSchema.AttrType) -> Text
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assert isinstance(v, OpSchema.AttrType)
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s = Text(v)
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s = s[s.rfind('.') + 1:].lower()
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if s[-1] == 's':
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s = 'list of ' + s
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return s
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def get_unique_output_name(schema, name):
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for input in schema.inputs:
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if input.name == name:
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return 'out_' + name
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return name
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def onnx_attr_type_to_mlir_attr_type(t):
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onnx_attr_type = Text(t)
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onnx_attr_type = onnx_attr_type[onnx_attr_type.rfind('.') + 1:].lower()
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if onnx_attr_type == 'int':
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mlir_attr_type = 'I64Attr'
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elif onnx_attr_type == 'float':
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mlir_attr_type = 'F32Attr'
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elif onnx_attr_type == 'ints':
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mlir_attr_type = 'I64ArrayAttr'
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elif onnx_attr_type == 'floats':
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mlir_attr_type = 'F32ArrayAttr'
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elif onnx_attr_type == "string":
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mlir_attr_type = 'StrAttr'
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elif onnx_attr_type == "strings":
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mlir_attr_type = 'StrArrayAttr'
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else:
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mlir_attr_type = 'AnyAttr'
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#TODO: tensor and sparse tensor
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return mlir_attr_type
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#TODO: any better way to do this.
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def tblgen_attr_type_to_cpp_type(t):
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if 'I64Attr' in t:
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cpp_type = 'IntegerAttr'
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elif 'F32Attr' in t:
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cpp_type = 'FloatAttr'
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elif 'I64ArrayAttr' in t or 'F32ArrayAttr' in t:
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cpp_type = 'ArrayAttr'
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elif 'StrAttr' in t:
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cpp_type = 'StringAttr'
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elif 'strings' in t:
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cpp_type = 'ArrayAttr'
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else:
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cpp_type = 'Attribute'
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return cpp_type
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def tblgen_operand_type_to_cpp_type(op_type):
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if op_type.startswith('Variadic'):
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mytype = 'ValueRange'
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else:
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mytype = 'Value'
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return mytype
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def np_type_to_tblgen_attr_type(tstr):
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index = -1
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for i in range(len(onnx_types)):
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if onnx_types[i] in tstr:
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index = i
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break
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if index == -1:
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return None
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else:
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return tblgen_types[i]
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def get_tblgen_type_index(type_str):
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return tblgen_types.index(type_str)
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#the possible data structures are tensor, map and seq(tensor())
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#TOFIX: currently, only tensor structure is supported
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def get_data_structure_element(allowed_type_str):
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if allowed_type_str.startswith('tensor') :
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element = allowed_type_str.replace('tensor(', '', 1).replace(')', '', 1)
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return ('tensor', element)
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else :
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return (None, None)
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def get_allowed_elem_types(schema, input):
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#allowed_types_str = None
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# return allowed_types_str
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# TODO: enable type constraints.
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if input.typeStr :
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tstr = input.typeStr
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else :
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return None
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if schema.type_constraints:
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for type_constraint in schema.type_constraints:
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if type_constraint.type_param_str != tstr :
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continue
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allowed_type_list=[]
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allowedTypes = type_constraint.allowed_type_strs
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for allowedType in allowedTypes:
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structure, element = get_data_structure_element(allowedType);
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if structure == None or element == None:
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return None
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t = np_type_to_tblgen_attr_type(element)
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if t == None :
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return None
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if not t in allowed_type_list :
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allowed_tyoe_list = allowed_type_list.append(t)
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return allowed_type_list
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return None
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def inc_indent(indent=None):
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return "" if indent is None else indent + ' ' * 2
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def dec_indent(indent):
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return indent[:-2]
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def join_args(args):
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return ", ".join(args)
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def get_operands_or_results(schema, is_input):
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value_list = schema.inputs if is_input else schema.outputs
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if not value_list:
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return OrderedDict()
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def any_type_of(types):
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assert isinstance(types, list)
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if len(types) == 1:
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return types[0]
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else:
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return "AnyTypeOf<[{}]>".format(", ".join(types))
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name_to_types = OrderedDict()
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for i, value in enumerate(value_list):
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elem_types = get_allowed_elem_types(schema, value)
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if elem_types is None:
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types = ["AnyMemRef", "AnyTensor"]
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else:
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elem_types_str = ','.join(elem_types)
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types = ["TensorOf<[{}]>", "MemRefOf<[{}]>"]
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types = list(map(lambda x: x.format(elem_types_str), types))
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# If operand is promotable to an attribute, then it must be
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# nullable in case it migrates to be an attribute.
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if schema.name in OpsWithPromotableConstOperands:
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idxs = dict(OpsWithPromotableConstOperands[schema.name]).values()
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if i in idxs and not OpSchema.FormalParameterOption.Optional == value.option:
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types.append("NoneType")
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if OpSchema.FormalParameterOption.Optional == value.option:
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types.append("NoneType")
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elif OpSchema.FormalParameterOption.Variadic == value.option:
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if value.isHomogeneous:
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types = ["Variadic<{}>".format(any_type_of(types))]
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else:
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#TODO handle(variadic, heterogeneous) "
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sys.stderr.write("warning: (variadic, heterogeneous) for" + schema.name +
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' ' + value.name + "\n")
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# Since output name can coincide with that of an input, we explicitly
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# append a suffix "_out" to such names for disambiguation.
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if is_input:
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value_name = value.name
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else:
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value_name = get_unique_output_name(schema, value.name)
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|
|
name_to_types[value_name] = any_type_of(types)
|
|
return name_to_types
|
|
|
|
|
|
def get_attrs(schema):
|
|
def get_attr_type_optional(attr_type):
|
|
return 'OptionalAttr<{}>'.format(
|
|
onnx_attr_type_to_mlir_attr_type(attr_type))
|
|
|
|
def get_attr_type_with_default(attr_type, attr_default):
|
|
return 'DefaultValuedAttr<{}, "{}">'.format(
|
|
onnx_attr_type_to_mlir_attr_type(attr_type), attr_default)
|
|
|
|
if not schema.attributes:
|
|
return OrderedDict()
|
|
|
|
name_to_type = OrderedDict()
|
|
for _, attr in sorted(schema.attributes.items()):
|
|
qualified_attr_name = "{}.{}".format(schema.name, attr.name)
|
|
if qualified_attr_name in special_attr_defaults:
|
|
name_to_type[attr.name] = get_attr_type_with_default(
|
|
*special_attr_defaults[qualified_attr_name])
|
|
|
|
# option holds either required or default value
|
|
elif attr.required:
|
|
name_to_type[attr.name] = onnx_attr_type_to_mlir_attr_type(
|
|
attr.type)
|
|
elif attr.default_value.name:
|
|
|
|
def format_value(value): # type: (Any) -> Text
|
|
if isinstance(value, float):
|
|
formatted = str(np.round(value, 5))
|
|
# use default formatting, unless too long.
|
|
if (len(formatted) > 10):
|
|
formatted = str("({:e})".format(value))
|
|
return formatted
|
|
elif isinstance(
|
|
value,
|
|
(bytes, bytearray)) and sys.version_info[0] == 3:
|
|
return str(value.decode('utf-8'))
|
|
return str(value)
|
|
|
|
default_value = helper.get_attribute_value(attr.default_value)
|
|
if isinstance(default_value, list):
|
|
default_value = [format_value(val) for val in default_value]
|
|
default_value_str = '{}'.format(default_value)
|
|
default_value_str = default_value_str.replace('[', '{', 1)
|
|
default_value_str = default_value_str.replace(']', '}', 1)
|
|
if Text(attr.type) == "AttrType.STRINGS":
|
|
default_value_str = default_value_str.replace("'", '\\"')
|
|
else:
|
|
default_value_str = default_value_str.replace("'", '')
|
|
else:
|
|
default_value = format_value(default_value)
|
|
default_value_str = default_value
|
|
|
|
name_to_type[attr.name] = get_attr_type_with_default(
|
|
attr.type, default_value_str)
|
|
else:
|
|
name_to_type[attr.name] = get_attr_type_optional(attr.type)
|
|
return name_to_type
|
|
|
|
def get_numberof_list(mylist):
|
|
expected_num = len(mylist)
|
|
for element in mylist :
|
|
if OpSchema.FormalParameterOption.Variadic == element.option:
|
|
expected_num = -1
|
|
return expected_num
|
|
|
|
def get_output_type_mapping(schema):
|
|
mapping=[]
|
|
for output in schema.outputs :
|
|
#if only one type is allowed, just set that
|
|
allowed_elem_types = get_allowed_elem_types(schema, output)
|
|
if allowed_elem_types != None and len(allowed_elem_types) == 1 :
|
|
mapping.append(str(get_tblgen_type_index(allowed_elem_types[0])))
|
|
continue
|
|
|
|
#map the type string
|
|
if output.typeStr :
|
|
tstr = output.typeStr
|
|
found = False
|
|
for i, input in enumerate(schema.inputs):
|
|
if input.typeStr and input.typeStr == tstr:
|
|
mapping.append(str(i+MAX_NUM_TYPES))
|
|
found = True
|
|
break
|
|
if found:
|
|
continue
|
|
|
|
#unknown output type
|
|
mapping.append(str(-1))
|
|
|
|
return mapping
|
|
|
|
def get_numberof_inout(s, indent, schema):
|
|
expected_num_operands = get_numberof_list(schema.inputs)
|
|
indent = inc_indent(indent)
|
|
s += indent + "static int getNumberOfOperands() {\n"
|
|
indent = inc_indent(indent)
|
|
s += indent + "return {};\n".format(expected_num_operands)
|
|
indent = dec_indent(indent)
|
|
s += indent + "}\n"
|
|
|
|
expected_num_results = get_numberof_list(schema.outputs)
|
|
s += indent + "static int getNumberOfResults() {\n"
|
|
indent = inc_indent(indent)
|
|
s += indent + "return {};\n".format(expected_num_results)
|
|
indent = dec_indent(indent)
|
|
s += indent + "}\n"
|
|
|
|
s += indent + "static std::vector<int> getTypeMap() {\n"
|
|
mapping = get_output_type_mapping(schema)
|
|
indent = inc_indent(indent)
|
|
s += indent + "return {" + ",".join(mapping) + "};\n"
|
|
indent = dec_indent(indent)
|
|
s += indent + "}\n"
|
|
|
|
return s
|
|
|
|
|
|
def get_promotable_const_operands_func(s, indent, const_operands_name_to_idx):
|
|
cpp_name_to_idx_literal = "{" + ", ".join([
|
|
"{{\"{}\", {}}}".format(*name_to_idx)
|
|
for name_to_idx in const_operands_name_to_idx
|
|
]) + "}"
|
|
|
|
#s += indent + "let extraClassDeclaration = [{\n"
|
|
indent = inc_indent(indent)
|
|
s += indent + "std::map<std::string, size_t> promotableConstOperands() {\n"
|
|
indent = inc_indent(indent)
|
|
s += indent + "return {};\n".format(cpp_name_to_idx_literal)
|
|
indent = dec_indent(indent)
|
|
s += indent + "}\n"
|
|
#indent = dec_indent(indent)
|
|
#s += indent + "}];\n"
|
|
|
|
return s
|
|
|
|
def get_type_inference_func(s, indent, type_inference_code):
|
|
indent = inc_indent(indent)
|
|
|
|
s += indent + "std::vector<mlir::Type> resultTypeInference() {" + "\n"
|
|
indent = inc_indent(indent)
|
|
s += indent + "std::vector<mlir::Type> resultTypes;" + "\n"
|
|
|
|
s += indent + type_inference_code + '\n'
|
|
|
|
s += indent + "return resultTypes;" + "\n"
|
|
indent = dec_indent(indent)
|
|
s += indent + "}" + "\n"
|
|
|
|
indent = dec_indent(indent)
|
|
return s
|
|
|
|
|
|
|
|
def gen_op_def(schema):
|
|
indent = inc_indent()
|
|
if (ONNX_ML) :
|
|
s = 'def MLONNX{0}Op:MLONNX_Op<"{0}",\n'.format(schema.name)
|
|
else :
|
|
s = 'def ONNX{0}Op:ONNX_Op<"{0}",\n'.format(schema.name)
|
|
|
|
# Generate decl for op traits.
|
|
traits = ["NoSideEffect"]
|
|
if schema.name in OpsWithShapeInference:
|
|
traits.append("DeclareOpInterfaceMethods<ShapeInferenceOpInterface>")
|
|
if schema.name in OpsWithPromotableConstOperands.keys():
|
|
traits.append("OpInterface<\"PromotableConstOperandsOpInterface\">")
|
|
if schema.name in OpsWithResultTypeInference.keys():
|
|
traits.append("OpInterface<\"ResultTypeInferenceOpInterface\">")
|
|
s += inc_indent(indent) + '[{}]> {{\n'.format(join_args(traits))
|
|
|
|
# Generate decl for canonicalizer.
|
|
indent = inc_indent(indent)
|
|
if schema.name in OpsWithCanonicalizer:
|
|
s += indent + 'let hasCanonicalizer = 1;\n'
|
|
|
|
# Generate decl for summary.
|
|
s += indent + 'let summary = "ONNX {} operation";\n'.format(schema.name)
|
|
|
|
# Generate description.
|
|
s += indent + 'let description = [{\n'
|
|
if schema.doc:
|
|
lines = schema.doc.lstrip().splitlines()
|
|
for line in lines:
|
|
escaped_line = line.replace('"', '\\"')\
|
|
.replace('}]', '\\}\\]')
|
|
s += indent + '"{}"\n'.format(escaped_line)
|
|
s += indent + '}];\n'
|
|
|
|
# Generate ins (consisting of operands and attributes).
|
|
ins = get_operands_or_results(schema, is_input=True)
|
|
ins.update(get_attrs(schema))
|
|
ins_strs = ["{1}:${0}".format(*i) for i in ins.items()]
|
|
s += indent + 'let arguments = (ins {});\n'.format(
|
|
(',\n' + inc_indent(indent)).join(ins_strs))
|
|
|
|
# Generate outs (operation results).
|
|
outs = get_operands_or_results(schema, is_input=False)
|
|
outs_strs = ["{1}:${0}".format(*i) for i in outs.items()]
|
|
s += indent + 'let results = (outs {});\n'.format(
|
|
(',\n' + inc_indent(indent)).join(outs_strs))
|
|
|
|
# add custom builders
|
|
# use element type of the first operand to construct an UnrankedTensorType for the output.
|
|
if schema.name in custom_builder_ops_list:
|
|
if len(ins) == 0:
|
|
raise RuntimeWarning(
|
|
"warning: not generate custom build methods for " +
|
|
schema.name + " since it does not have operands.")
|
|
else:
|
|
s += indent + 'let builders = [\n'
|
|
# Custom builders with operands and attributes having a seperate parameter.
|
|
# E.g. OpBuilder<"OpBuilder &builder, OperationState &state, Value X, Value, Y, Attribute A", [{}]>
|
|
indent = inc_indent(indent)
|
|
s += indent + 'OpBuilder<"OpBuilder &builder, OperationState &state'
|
|
operands_dict = get_operands_or_results(schema, is_input=True)
|
|
for name, ty in operands_dict.items():
|
|
s += ', {} {}'.format(tblgen_operand_type_to_cpp_type(ty),
|
|
name)
|
|
for name, ty in get_attrs(schema).items():
|
|
s += ', {} {}'.format(tblgen_attr_type_to_cpp_type(ty), name)
|
|
s += '", [{\n'
|
|
indent = inc_indent(indent)
|
|
|
|
# Get output type from first operand's type.
|
|
first_operand_name = list(ins.items())[0][0]
|
|
s += indent + 'auto elementType = {}.getType().cast<TensorType>().getElementType();\n'.format(
|
|
first_operand_name)
|
|
s += indent + 'build(builder, state, UnrankedTensorType::get(elementType)'
|
|
for name, _ in ins.items():
|
|
s += ', ' + name
|
|
s += ');\n'
|
|
indent = dec_indent(indent)
|
|
s += indent + '}]>,\n'
|
|
|
|
# Custom builders with all operands and attributes having aggregate parameters.
|
|
# E.g. OpBuilder<"OpBuilder &builder, OperationState &state, ValueRange operands, ArrayRef<NamedAttribute> attributes", [{}]>'
|
|
s += indent + 'OpBuilder<"OpBuilder &builder, OperationState &state, ValueRange operands, ArrayRef<NamedAttribute> attributes", [{\n'
|
|
indent = inc_indent(indent)
|
|
s += indent + 'auto elementType = operands[0].getType().cast<TensorType>().getElementType();\n'
|
|
s += indent + 'std::vector<mlir::Type> outputTypes;\n'
|
|
s += indent + 'outputTypes.emplace_back(UnrankedTensorType::get(elementType));\n'
|
|
s += indent + 'build(builder, state, outputTypes, operands, attributes);\n'
|
|
indent = dec_indent(indent)
|
|
s += indent + '}]>'
|
|
|
|
s += '\n' + indent + '];\n'
|
|
|
|
# generate extracClassDeclaration
|
|
s += indent + "let extraClassDeclaration = [{\n"
|
|
#indent = inc_indent(indent)
|
|
|
|
# generate input/output number
|
|
s = get_numberof_inout(s, indent, schema)
|
|
|
|
# generate ProtableConst
|
|
if schema.name in OpsWithPromotableConstOperands:
|
|
s = get_promotable_const_operands_func(
|
|
s, indent, OpsWithPromotableConstOperands[schema.name])
|
|
|
|
if schema.name in OpsWithResultTypeInference:
|
|
s = get_type_inference_func(
|
|
s, indent, OpsWithResultTypeInference[schema.name])
|
|
|
|
s += indent + '}];\n'
|
|
|
|
if ( schema.name in custom_definition_misc) :
|
|
s += custom_definition_misc[schema.name] + '\n'
|
|
|
|
s += '}\n\n'
|
|
return s
|
|
|
|
|
|
"""
|
|
special cases:
|
|
* Split: attr split default value: sizeof(output1) namely 1
|
|
* Conv: attr dilations default value is {num_dim of first input - 2, 1}
|
|
* Conv: attr kernel_shape type is ints
|
|
* Transpose: attr perm default value is {} empty int list
|
|
"""
|
|
|
|
|
|
def gen_op_importer(schema, file):
|
|
indent = inc_indent()
|
|
s = indent + 'if (opName == "' + schema.name + '")\n'
|
|
|
|
expected_num_operands = len(schema.inputs)
|
|
expected_num_results = len(schema.outputs)
|
|
for input in schema.inputs:
|
|
if OpSchema.FormalParameterOption.Variadic == input.option:
|
|
expected_num_operands = -1
|
|
for output in schema.outputs:
|
|
if OpSchema.FormalParameterOption.Variadic == output.option:
|
|
expected_num_results = -1
|
|
|
|
if ONNX_ML:
|
|
handler_func = special_op_handler.get(
|
|
schema.name, "buildOperation<mlir::MLONNX{}Op>".format(schema.name))
|
|
else:
|
|
handler_func = special_op_handler.get(
|
|
schema.name, "buildOperation<mlir::ONNX{}Op>".format(schema.name))
|
|
|
|
# Special handlers currently require expected num operands/results to be specified.
|
|
# TODO: remove special handlers.
|
|
args = ["node"]
|
|
"""
|
|
if expected_num_operands != -1 or expected_num_results != -1 or "buildOperation" not in handler_func:
|
|
args.append(
|
|
"/* expected_num_operands = */ {}".format(expected_num_operands))
|
|
args.append(
|
|
'/* expected_num_results = */ {}'.format(expected_num_results))
|
|
"""
|
|
s += inc_indent(indent) + " {}({});\n".format(
|
|
handler_func, ", ".join(args))
|
|
|
|
file.write(s)
|
|
|
|
|
|
def build_operator_schemas():
|
|
# domain -> support level -> name -> [schema]
|
|
index = defaultdict(lambda: defaultdict(lambda: defaultdict(
|
|
list))) # type: Dict[Text, Dict[int, Dict[Text, List[OpSchema]]]]
|
|
for schema in defs.get_all_schemas_with_history():
|
|
index[schema.domain][int(
|
|
schema.support_level)][schema.name].append(schema)
|
|
|
|
# Preprocess the Operator Schemas
|
|
# [(domain, [(support_level, [(schema name, current schema, all versions schemas)])])]
|
|
operator_schemas = list(
|
|
) # type: List[Tuple[Text, List[Tuple[int, List[Tuple[Text, OpSchema, List[OpSchema]]]]]]]
|
|
exsting_ops = set() # type: Set[Text]
|
|
for domain, _supportmap in sorted(index.items()):
|
|
if not should_render_domain(domain):
|
|
continue
|
|
if domain == ONNX_ML_DOMAIN:
|
|
version_dict = onnx_ml_version_dict
|
|
else:
|
|
version_dict = onnx_version_dict
|
|
processed_supportmap = list()
|
|
for _support, _namemap in sorted(_supportmap.items()):
|
|
processed_namemap = list()
|
|
for n, unsorted_versions in sorted(_namemap.items()):
|
|
versions = sorted(unsorted_versions,
|
|
key=lambda s: s.since_version)
|
|
schema = versions[-1]
|
|
if schema.name in exsting_ops:
|
|
continue
|
|
|
|
if check_operation_version :
|
|
# Generate operation of the latest version of your onnx.
|
|
exsting_ops.add(schema.name)
|
|
processed_namemap.append((n, schema, versions))
|
|
|
|
# Add checks against version_dict
|
|
if schema.name not in version_dict :
|
|
print("Check-operation-version: Operation {} with version is new".format(
|
|
schema.since_version, schema.name))
|
|
elif schema.since_version > version_dict[schema.name]:
|
|
print("Check-operation-version: Operation {} has a newer version {}"+
|
|
"(old version {})".format( schema.name,
|
|
schema.since_version, version_dict[schema.name]))
|
|
else:
|
|
# Generate operation according to the version in version_dict.
|
|
if schema.name not in version_dict :
|
|
continue
|
|
found = False
|
|
for schema in reversed(versions):
|
|
# Check the version number against the version_dict
|
|
if schema.since_version == version_dict[schema.name]:
|
|
exsting_ops.add(schema.name)
|
|
processed_namemap.append((n, schema, versions))
|
|
found = True
|
|
break
|
|
if not found:
|
|
print("Your onnx may be too old."
|
|
"right version for opertion {} not found".format(
|
|
schema.name))
|
|
sys.exit()
|
|
processed_supportmap.append((_support, processed_namemap))
|
|
operator_schemas.append((domain, processed_supportmap))
|
|
return operator_schemas
|
|
|
|
|
|
def main(args): # type: (Type[Args]) -> None
|
|
curr_utc_time = datetime.datetime.now(
|
|
datetime.timezone.utc).strftime("%m/%d/%Y, %H:%M:%S")
|
|
autogen_warning = (
|
|
'//********************************************************\n'
|
|
'// Do not modify this file directly.\n'
|
|
'// This file is automatically generated via script.\n'
|
|
'// Details can be found in docs/readonnxdefs.md .\n'
|
|
'//********************************************************\n\n')
|
|
autogen_warning = autogen_warning.format(curr_utc_time)
|
|
|
|
op_def = args.op_def
|
|
op_def.write(autogen_warning)
|
|
|
|
op_importer = args.op_importer
|
|
op_importer.write(autogen_warning)
|
|
|
|
version_dict = dict()
|
|
for domain, supportmap in build_operator_schemas():
|
|
for _, namemap in supportmap:
|
|
for op_type, schema, versions in namemap:
|
|
if check_operation_version:
|
|
version_dict[schema.name] = schema.since_version
|
|
else:
|
|
gen_op_importer(schema, op_importer)
|
|
r = gen_op_def(schema)
|
|
op_def.write(r)
|
|
if check_operation_version :
|
|
pprint.pprint(version_dict)
|
|
|
|
if __name__ == '__main__':
|
|
curr_dir = os.path.dirname(os.path.realpath(__file__))
|
|
|
|
class Args(object):
|
|
if args.dry_run_onnx_ops:
|
|
op_def = StringIO()
|
|
else:
|
|
if args.domain == 'ONNX_ML':
|
|
op_def_file_path = os.path.join(curr_dir, 'MLONNXOps.td.inc')
|
|
else:
|
|
op_def_file_path = os.path.join(curr_dir, 'ONNXOps.td.inc')
|
|
op_def = io.open(op_def_file_path, 'w', newline='')
|
|
|
|
if args.dry_run_op_build_table:
|
|
op_importer = StringIO()
|
|
else:
|
|
if args.domain == 'ONNX_ML':
|
|
op_importer_file_path = os.path.join(curr_dir, 'MLOpBuildTable.inc')
|
|
else :
|
|
op_importer_file_path = os.path.join(curr_dir, 'OpBuildTable.inc')
|
|
op_importer = io.open(op_importer_file_path, 'w', newline='')
|
|
main(Args)
|
|
|
|
if args.dry_run_onnx_ops:
|
|
sys.stdout.write(Args.op_def.getvalue())
|
|
if args.dry_run_op_build_table:
|
|
sys.stdout.write(Args.op_importer.getvalue())
|
|
|