mappings { frameworkName: "onnx" opName: "add" inputFrameworkOpName: "Add" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Add" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Add" } } mappings { frameworkName: "onnx" opName: "tan" inputFrameworkOpName: "Tan" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Tan" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Tan" } } mappings { frameworkName: "onnx" opName: "or" inputFrameworkOpName: "Or" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" outputTensorName: "input" inputToOutput { key: "input" value: "A" } ruleType: "tensor" inputFrameworkOpName: "Or" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Or" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "comparable" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "comparable" argType: DOUBLE } } inputFrameworkOpName: "Or" } } mappings { frameworkName: "onnx" opName: "reduce_max" inputFrameworkOpName: "ReduceMax" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceMax" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceMax" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceMax" } } mappings { frameworkName: "onnx" opName: "maxpool2d" inputFrameworkOpName: "MaxPool" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "MaxPool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "isNCHW" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isNCHW" argType: INT64 argIndex: 10 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "extraParam0" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "extraParam0" argType: INT64 argIndex: 9 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "isSameMode" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isSameMode" argType: INT64 argIndex: 8 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "dH" outputIntName: "dH" inputFloatName: "dilations" inputToOutput { key: "dH" value: "dilations" } ruleType: "attribute" transformerArgs { key: "dH" transformerArgs { name: "dilations" argIndex: 6 } transformerArgs { name: "dH" int64Value: 1 argType: INT64 argIndex: 6 } } transformerArgs { key: "dH" transformerArgs { name: "dilations" argIndex: 6 } transformerArgs { name: "dH" int64Value: 1 argType: INT64 argIndex: 6 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "dW" outputIntName: "dW" inputFloatName: "dilations" inputToOutput { key: "dW" value: "dilations" } ruleType: "attribute" transformerArgs { key: "dW" transformerArgs { name: "dilations" int64Value: 1 argIndex: 7 } transformerArgs { name: "dW" int64Value: 1 argType: INT64 argIndex: 7 } } transformerArgs { key: "dW" transformerArgs { name: "dilations" int64Value: 1 argIndex: 7 } transformerArgs { name: "dW" int64Value: 1 argType: INT64 argIndex: 7 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "pads" outputIntName: "pH" inputFloatName: "pads" inputToOutput { key: "pH" value: "pads" } ruleType: "attribute" transformerArgs { key: "pH" transformerArgs { name: "pads" argIndex: 4 } transformerArgs { name: "pads" argType: INT64 argIndex: 4 } } transformerArgs { key: "pH" transformerArgs { name: "pads" argIndex: 4 } transformerArgs { name: "pads" argType: INT64 argIndex: 4 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "pads" outputIntName: "pW" inputFloatName: "pads" inputToOutput { key: "pW" value: "pads" } ruleType: "attribute" transformerArgs { key: "pW" transformerArgs { name: "pads" int64Value: 1 argIndex: 5 } transformerArgs { name: "pads" argType: INT64 argIndex: 5 } } transformerArgs { key: "pW" transformerArgs { name: "pads" int64Value: 1 argIndex: 5 } transformerArgs { name: "pads" argType: INT64 argIndex: 5 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "sH" outputIntName: "sH" inputFloatName: "strides" inputToOutput { key: "sH" value: "strides" } ruleType: "attribute" transformerArgs { key: "sH" transformerArgs { name: "strides" argIndex: 2 } transformerArgs { name: "sH" int64Value: 1 argType: INT64 argIndex: 6 } } transformerArgs { key: "sH" transformerArgs { name: "strides" argIndex: 2 } transformerArgs { name: "sH" int64Value: 1 argType: INT64 argIndex: 6 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "sW" outputIntName: "sW" inputFloatName: "strides" inputToOutput { key: "sW" value: "strides" } ruleType: "attribute" transformerArgs { key: "sW" transformerArgs { name: "strides" int64Value: 1 argIndex: 3 } transformerArgs { name: "sW" int64Value: 1 argType: INT64 argIndex: 7 } } transformerArgs { key: "sW" transformerArgs { name: "strides" int64Value: 1 argIndex: 3 } transformerArgs { name: "sW" int64Value: 1 argType: INT64 argIndex: 7 } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "kH" inputFloatName: "kernel_shape" inputToOutput { key: "kH" value: "kernel_shape" } ruleType: "attribute" transformerArgs { key: "kH" transformerArgs { name: "kernel_shape" } } inputFrameworkOpName: "MaxPool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "kW" inputFloatName: "kernel_shape" inputToOutput { key: "kW" value: "kernel_shape" } ruleType: "attribute" transformerArgs { key: "kW" transformerArgs { name: "kernel_shape" int64Value: 1 argIndex: 1 } } inputFrameworkOpName: "MaxPool" } } mappings { frameworkName: "onnx" opName: "size" inputFrameworkOpName: "Size" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "Size" } } mappings { frameworkName: "onnx" opName: "lrn" inputFrameworkOpName: "LRN" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "LRN" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "size" outputIntName: "depth" inputFloatName: "alpha" inputFloatName: "beta" inputFloatName: "bias" outputDoubleName: "alpha" outputDoubleName: "beta" outputDoubleName: "bias" inputToOutput { key: "alpha" value: "alpha" } inputToOutput { key: "beta" value: "beta" } inputToOutput { key: "bias" value: "bias" } inputToOutput { key: "depth" value: "size" } ruleType: "attribute" inputFrameworkOpName: "LRN" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "LRN" } } mappings { frameworkName: "onnx" opName: "isinf" inputFrameworkOpName: "IsInf" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "IsInf" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "IsInf" } } mappings { frameworkName: "onnx" opName: "batchnorm" inputFrameworkOpName: "BatchNormalization" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" inputTensorName: "mean" inputTensorName: "var" inputTensorName: "scale" outputTensorName: "input" outputTensorName: "mean" outputTensorName: "variance" outputTensorName: "gamma" inputToOutput { key: "input" value: "X" } inputToOutput { key: "mean" value: "mean" } inputToOutput { key: "variance" value: "var" } inputToOutput { key: "gamma" value: "scale" } ruleType: "tensor" inputFrameworkOpName: "BatchNormalization" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputFloatName: "epsilon" outputDoubleName: "epsilon" inputToOutput { key: "epsilon" value: "epsilon" } ruleType: "attribute" inputFrameworkOpName: "BatchNormalization" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "BatchNormalization" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "applyGamma" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "applyGamma" boolValue: true argType: BOOL argIndex: 1 } } inputFrameworkOpName: "BatchNormalization" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "applyBeta" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "applyBeta" boolValue: true argType: BOOL argIndex: 2 } } inputFrameworkOpName: "BatchNormalization" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "applyScale" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "applyScale" int64Value: 1 argType: INT64 } } inputFrameworkOpName: "BatchNormalization" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "applyOffset" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "applyOffset" int64Value: 1 argType: INT64 argIndex: 1 } } inputFrameworkOpName: "BatchNormalization" } } mappings { frameworkName: "onnx" opName: "elu" inputFrameworkOpName: "Elu" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Elu" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputFloatName: "alpha" outputDoubleName: "alpha" inputToOutput { key: "alpha" value: "alpha" } ruleType: "attribute" inputFrameworkOpName: "Elu" } } mappings { frameworkName: "onnx" opName: "concat" inputFrameworkOpName: "Concat" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "inputs" outputTensorName: "input" inputToOutput { key: "input" value: "inputs" } ruleType: "tensor" inputFrameworkOpName: "Concat" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" inputToOutput { key: "concatDimension" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "Concat" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "isDynamicAxis" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isDynamicAxis" argType: BOOL } } inputFrameworkOpName: "Concat" } } mappings { frameworkName: "onnx" opName: "top_k" inputFrameworkOpName: "TopK" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "TopK" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "sorted" outputBooleanName: "needSort" inputToOutput { key: "needSort" value: "sorted" } ruleType: "attribute" inputFrameworkOpName: "TopK" } rule { ruleName: "ndarrayinputtonumericalattribute" functionName: "ndarrayinputtonumericalattribute" outputIntName: "k" inputToOutput { key: "k" value: "K" } ruleType: "attribute" inputFrameworkOpName: "TopK" } } mappings { frameworkName: "onnx" opName: "equals" inputFrameworkOpName: "Equal" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Equal" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Equal" } } mappings { frameworkName: "onnx" opName: "matmul" inputFrameworkOpName: "MatMul" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "MatMul" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "transposeX" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "transposeX" argType: BOOL } } inputFrameworkOpName: "MatMul" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "transposeY" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "transposeY" argType: BOOL argIndex: 1 } } inputFrameworkOpName: "MatMul" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "transposeZ" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "transposeZ" argType: BOOL argIndex: 2 } } inputFrameworkOpName: "MatMul" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "alpha" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "alpha" argType: DOUBLE } } inputFrameworkOpName: "MatMul" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "beta" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "beta" doubleValue: 1.0 argType: DOUBLE argIndex: 1 } } inputFrameworkOpName: "MatMul" } } mappings { frameworkName: "onnx" opName: "reduce_min" inputFrameworkOpName: "ReduceMin" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceMin" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceMin" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceMin" } } mappings { frameworkName: "onnx" opName: "sinh" inputFrameworkOpName: "Sinh" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Sinh" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Sinh" } } mappings { frameworkName: "onnx" opName: "asinh" inputFrameworkOpName: "Asinh" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Asinh" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Asinh" } } mappings { frameworkName: "onnx" opName: "gather_nd" inputFrameworkOpName: "GatherND" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "indices" inputTensorName: "data" outputTensorName: "indices" outputTensorName: "input" inputToOutput { key: "indices" value: "indices" } inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "GatherND" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "checkIndices" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "checkIndices" boolValue: true argType: BOOL } } inputFrameworkOpName: "GatherND" } } mappings { frameworkName: "onnx" opName: "squeeze" inputFrameworkOpName: "Squeeze" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "Squeeze" } rule { ruleName: "convertinputnumberlisttondarray" functionName: "convertinputnumberlisttondarray" inputToOutput { key: "a" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "Squeeze" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" outputIntName: "_a" inputToOutput { key: "_a" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "Squeeze" } } mappings { frameworkName: "onnx" opName: "identity" inputFrameworkOpName: "Identity" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Identity" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Identity" } } mappings { frameworkName: "onnx" opName: "less" inputFrameworkOpName: "Less" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Less" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Less" } } mappings { frameworkName: "onnx" opName: "softplus" inputFrameworkOpName: "Softplus" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Softplus" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Softplus" } } mappings { frameworkName: "onnx" opName: "reduce_sum" inputFrameworkOpName: "ReduceSum" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceSum" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceSum" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceSum" } } mappings { frameworkName: "onnx" opName: "tanh" inputFrameworkOpName: "Tanh" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Tanh" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Tanh" } } mappings { frameworkName: "onnx" opName: "subtract" inputFrameworkOpName: "Sub" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Sub" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Sub" } } mappings { frameworkName: "onnx" opName: "reduce_prod" inputFrameworkOpName: "ReduceProd" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceProd" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceProd" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceProd" } } mappings { frameworkName: "onnx" opName: "multiply" inputFrameworkOpName: "Mul" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Mul" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Mul" } } mappings { frameworkName: "onnx" opName: "log" inputFrameworkOpName: "Log" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Log" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Log" } } mappings { frameworkName: "onnx" opName: "flatten_2d" inputFrameworkOpName: "Flatten" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Flatten" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" outputIntName: "dimensions" inputToOutput { key: "dimensions" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "Flatten" } } mappings { frameworkName: "onnx" opName: "range" inputFrameworkOpName: "Range" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "start" inputTensorName: "limit" inputTensorName: "delta" outputTensorName: "from" outputTensorName: "to" outputTensorName: "step" inputToOutput { key: "from" value: "start" } inputToOutput { key: "to" value: "limit" } inputToOutput { key: "step" value: "delta" } ruleType: "tensor" inputFrameworkOpName: "Range" } rule { ruleName: "ndarrayinputtonumericalattribute" functionName: "ndarrayinputtonumericalattribute" inputToOutput { key: "from" value: "start" } ruleType: "attribute" inputFrameworkOpName: "Range" } rule { ruleName: "ndarrayinputtonumericalattribute" functionName: "ndarrayinputtonumericalattribute" inputToOutput { key: "to" value: "limit" } ruleType: "attribute" inputFrameworkOpName: "Range" } rule { ruleName: "ndarrayinputtonumericalattribute" functionName: "ndarrayinputtonumericalattribute" inputToOutput { key: "step" value: "delta" } ruleType: "attribute" inputFrameworkOpName: "Range" } } mappings { frameworkName: "onnx" opName: "transpose" inputFrameworkOpName: "Transpose" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "Transpose" } rule { ruleName: "listnumbertondarray" functionName: "listnumbertondarray" inputToOutput { key: "permutationVector" value: "perm" } ruleType: "attribute" inputFrameworkOpName: "Transpose" } } mappings { frameworkName: "onnx" opName: "gather" inputFrameworkOpName: "Gather" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "indices" inputTensorName: "data" outputTensorName: "indices" outputTensorName: "input" inputToOutput { key: "indices" value: "indices" } inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "Gather" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" outputIntName: "dimensions" inputToOutput { key: "dimensions" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "Gather" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Gather" } } mappings { frameworkName: "onnx" opName: "argmax" inputFrameworkOpName: "ArgMax" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ArgMax" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ArgMax" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" inputToOutput { key: "dimensions" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "ArgMax" } } mappings { frameworkName: "onnx" opName: "not" inputFrameworkOpName: "Not" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Not" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "comparable" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "comparable" argType: DOUBLE } } inputFrameworkOpName: "Not" } } mappings { frameworkName: "onnx" opName: "reduce_mean" inputFrameworkOpName: "ReduceMean" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceMean" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceMean" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceMean" } } mappings { frameworkName: "onnx" opName: "reshape" inputFrameworkOpName: "Reshape" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" inputTensorName: "shape" outputTensorName: "input" outputTensorName: "shape" inputToOutput { key: "input" value: "data" } inputToOutput { key: "shape" value: "shape" } ruleType: "tensor" inputFrameworkOpName: "Reshape" } rule { ruleName: "ndarraytointattributevalue" functionName: "ndarraytointattributevalue" outputIntName: "shapeArr" inputToOutput { key: "shapeArr" value: "shape" } ruleType: "attribute" inputFrameworkOpName: "Reshape" } } mappings { frameworkName: "onnx" opName: "randomuniform" inputFrameworkOpName: "RandomUniform" rule { ruleName: "valuemapping" functionName: "valuemapping" inputFloatName: "low" inputFloatName: "high" inputToOutput { key: "min" value: "low" } inputToOutput { key: "max" value: "high" } ruleType: "attribute" inputFrameworkOpName: "RandomUniform" } rule { ruleName: "listnumbertondarray" functionName: "listnumbertondarray" inputToOutput { key: "shape" value: "shape" } ruleType: "attribute" inputFrameworkOpName: "RandomUniform" } } mappings { frameworkName: "onnx" opName: "boolean_and" inputFrameworkOpName: "And" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "And" } } mappings { frameworkName: "onnx" opName: "softmax" inputFrameworkOpName: "Softmax" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Softmax" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" outputIntName: "dimension" inputToOutput { key: "dimension" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "Softmax" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Softmax" } } mappings { frameworkName: "onnx" opName: "leakyrelu" inputFrameworkOpName: "LeakyRelu" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "LeakyRelu" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputFloatName: "alpha" outputDoubleName: "alpha" inputToOutput { key: "alpha" value: "alpha" } ruleType: "attribute" inputFrameworkOpName: "LeakyRelu" } } mappings { frameworkName: "onnx" opName: "erf" inputFrameworkOpName: "Erf" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Erf" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Erf" } } mappings { frameworkName: "onnx" opName: "pow_pairwise" inputFrameworkOpName: "Pow" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" inputTensorName: "Y" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "X" } inputToOutput { key: "y" value: "Y" } ruleType: "tensor" inputFrameworkOpName: "Pow" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Pow" } } mappings { frameworkName: "onnx" opName: "acos" inputFrameworkOpName: "Acos" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Acos" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Acos" } } mappings { frameworkName: "onnx" opName: "sin" inputFrameworkOpName: "Sin" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Sin" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Sin" } } mappings { frameworkName: "onnx" opName: "bitwise_xor" inputFrameworkOpName: "Xor" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Xor" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Xor" } } mappings { frameworkName: "onnx" opName: "ceil" inputFrameworkOpName: "Ceil" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Ceil" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Ceil" } } mappings { frameworkName: "onnx" opName: "relu" inputFrameworkOpName: "Relu" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Relu" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Relu" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "cutoff" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "cutoff" argType: DOUBLE } } inputFrameworkOpName: "Relu" } } mappings { frameworkName: "onnx" opName: "split" inputFrameworkOpName: "Split" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "a" inputToOutput { key: "a" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Split" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" outputIntName: "dimensions" inputToOutput { key: "dimensions" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "Split" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "numSplit" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "numSplit" argType: INT64 } } inputFrameworkOpName: "Split" } rule { ruleName: "listnumbertondarray" functionName: "listnumbertondarray" inputToOutput { key: "b" value: "split" } ruleType: "attribute" inputFrameworkOpName: "Split" } } mappings { frameworkName: "onnx" opName: "reduce_logsumexp" inputFrameworkOpName: "ReduceLogSumExp" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceLogSumExp" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputDoubleName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceLogSumExp" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "keepdims" outputDoubleName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceLogSumExp" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceLogSumExp" } } mappings { frameworkName: "onnx" opName: "matmul" inputFrameworkOpName: "Gemm" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Gemm" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "transA" inputIntName: "transB" inputFloatName: "alpha" inputFloatName: "beta" outputDoubleName: "alpha" outputDoubleName: "beta" outputBooleanName: "transposeX" outputBooleanName: "transposeY" inputToOutput { key: "alpha" value: "alpha" } inputToOutput { key: "beta" value: "beta" } inputToOutput { key: "transposeX" value: "transA" } inputToOutput { key: "transposeY" value: "transB" } ruleType: "attribute" inputFrameworkOpName: "Gemm" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "transZ" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "transZ" argType: BOOL argIndex: 2 } } inputFrameworkOpName: "Gemm" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "transposeZ" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "transposeZ" argType: BOOL argIndex: 2 } } inputFrameworkOpName: "Gemm" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "transA" inputIntName: "transB" outputIntName: "transX" outputIntName: "transY" inputToOutput { key: "transX" value: "transA" } inputToOutput { key: "transY" value: "transB" } ruleType: "attribute" inputFrameworkOpName: "Gemm" } } mappings { frameworkName: "onnx" opName: "acosh" inputFrameworkOpName: "Acosh" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Acosh" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Acosh" } } mappings { frameworkName: "onnx" opName: "less_equal" inputFrameworkOpName: "LessOrEqual" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "LessOrEqual" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "LessOrEqual" } } mappings { frameworkName: "onnx" opName: "cosh" inputFrameworkOpName: "Cosh" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Cosh" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Cosh" } } mappings { frameworkName: "onnx" opName: "non_max_suppression_v3" inputFrameworkOpName: "NonMaxSuppression" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "boxes" inputTensorName: "scores" inputTensorName: "max_output_boxes_per_class" inputTensorName: "iou_threshold" inputTensorName: "score_threshold" outputTensorName: "boxes" outputTensorName: "scales" outputTensorName: "maxOutSize" outputTensorName: "iouThreshold" outputTensorName: "scoreThreshold" inputToOutput { key: "boxes" value: "boxes" } inputToOutput { key: "scales" value: "scores" } inputToOutput { key: "maxOutSize" value: "max_output_boxes_per_class" } inputToOutput { key: "iouThreshold" value: "iou_threshold" } inputToOutput { key: "scoreThreshold" value: "score_threshold" } ruleType: "tensor" inputFrameworkOpName: "NonMaxSuppression" } rule { ruleName: "ndarraytointattributevalue" functionName: "ndarraytointattributevalue" outputIntName: "maxOutputSize" inputToOutput { key: "maxOutputSize" value: "max_output_boxes_per_class" } ruleType: "attribute" inputFrameworkOpName: "NonMaxSuppression" } } mappings { frameworkName: "onnx" opName: "log_softmax" inputFrameworkOpName: "LogSoftmax" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "LogSoftmax" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" outputIntName: "dimension" inputToOutput { key: "dimension" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "LogSoftmax" } } mappings { frameworkName: "onnx" opName: "shape_of" inputFrameworkOpName: "Shape" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "Shape" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Shape" } } mappings { frameworkName: "onnx" opName: "random_normal" inputFrameworkOpName: "RandomNormal" rule { ruleName: "listnumbertondarray" functionName: "listnumbertondarray" inputToOutput { key: "input" value: "shape" } ruleType: "attribute" inputFrameworkOpName: "RandomNormal" } } mappings { frameworkName: "onnx" opName: "hard_sigmoid" inputFrameworkOpName: "HardSigmoid" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "HardSigmoid" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "HardSigmoid" } } mappings { frameworkName: "onnx" opName: "noop" inputFrameworkOpName: "Constant" } mappings { frameworkName: "onnx" opName: "cumsum" inputFrameworkOpName: "CumSum" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "x" outputTensorName: "input" inputToOutput { key: "input" value: "x" } ruleType: "tensor" inputFrameworkOpName: "CumSum" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "exclusive" inputIntName: "reverse" outputBooleanName: "exclusive" outputBooleanName: "reverse" inputToOutput { key: "exclusive" value: "exclusive" } inputToOutput { key: "reverse" value: "reverse" } ruleType: "attribute" inputFrameworkOpName: "CumSum" } rule { ruleName: "ndarraytointattributevalue" functionName: "ndarraytointattributevalue" inputToOutput { key: "dimensions" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "CumSum" } } mappings { frameworkName: "onnx" opName: "scatter_update" inputFrameworkOpName: "ScatterElements" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" inputTensorName: "updates" outputTensorName: "operand" outputTensorName: "updates" inputToOutput { key: "operand" value: "data" } inputToOutput { key: "updates" value: "updates" } ruleType: "tensor" inputFrameworkOpName: "ScatterElements" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" outputIntName: "dimension" inputToOutput { key: "dimension" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "ScatterElements" } rule { ruleName: "ndarraytointattributevalue" functionName: "ndarraytointattributevalue" outputIntName: "indices" inputToOutput { key: "indices" value: "indices" } ruleType: "attribute" inputFrameworkOpName: "ScatterElements" } } mappings { frameworkName: "onnx" opName: "gruCell" inputFrameworkOpName: "GRU" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" inputTensorName: "R" inputTensorName: "W" inputTensorName: "B" inputTensorName: "initial_h" inputTensorName: "B" outputTensorName: "input" outputTensorName: "Wru" outputTensorName: "Wc" outputTensorName: "bc" outputTensorName: "hLast" outputTensorName: "bru" inputToOutput { key: "input" value: "X" } inputToOutput { key: "Wru" value: "R" } inputToOutput { key: "Wc" value: "W" } inputToOutput { key: "bc" value: "B" } inputToOutput { key: "hLast" value: "initial_h" } inputToOutput { key: "bru" value: "B" } ruleType: "tensor" inputFrameworkOpName: "GRU" } } mappings { frameworkName: "onnx" opName: "reduce_norm1" inputFrameworkOpName: "ReduceL1" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceL1" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceL1" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceL1" } } mappings { frameworkName: "onnx" opName: "abs" inputFrameworkOpName: "Abs" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Abs" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Abs" } } mappings { frameworkName: "onnx" opName: "fill" inputFrameworkOpName: "ConstantOfShape" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "shapeArray" inputToOutput { key: "shapeArray" value: "input" } ruleType: "tensor" inputFrameworkOpName: "ConstantOfShape" } rule { ruleName: "attributendarraytoscalarattribute" functionName: "attributendarraytoscalarattribute" outputDoubleName: "value" inputTensorName: "value" inputToOutput { key: "value" value: "value" } ruleType: "attribute" inputFrameworkOpName: "ConstantOfShape" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "outputDataType" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "outputDataType" argType: INT64 } } inputFrameworkOpName: "ConstantOfShape" } } mappings { frameworkName: "onnx" opName: "reduce_norm2" inputFrameworkOpName: "ReduceL2" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ReduceL2" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ReduceL2" } rule { ruleName: "listnumbertolistnumber" functionName: "listnumbertolistnumber" inputToOutput { key: "dimensions" value: "axes" } ruleType: "attribute" inputFrameworkOpName: "ReduceL2" } } mappings { frameworkName: "onnx" opName: "round" inputFrameworkOpName: "Round" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Round" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Round" } } mappings { frameworkName: "onnx" opName: "selu" inputFrameworkOpName: "Selu" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Selu" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Selu" } } mappings { frameworkName: "onnx" opName: "argmin" inputFrameworkOpName: "ArgMin" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "ArgMin" } rule { ruleName: "invertbooleannumber" functionName: "invertbooleannumber" inputIntName: "keepdims" outputBooleanName: "keepDims" inputToOutput { key: "keepDims" value: "keepdims" } ruleType: "attribute" inputFrameworkOpName: "ArgMin" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "axis" inputToOutput { key: "dimensions" value: "axis" } ruleType: "attribute" inputFrameworkOpName: "ArgMin" } } mappings { frameworkName: "onnx" opName: "sigmoid" inputFrameworkOpName: "Sigmoid" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Sigmoid" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Sigmoid" } } mappings { frameworkName: "onnx" opName: "avgpool2d" inputFrameworkOpName: "AveragePool" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "AveragePool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "isNCHW" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isNCHW" int64Value: 1 argIndex: 10 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "dH" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "dH" argType: INT64 argIndex: 6 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "dW" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "dW" argType: INT64 argIndex: 7 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "extraParam0" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "extraParam0" argType: INT64 argIndex: 9 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "stringcontains" functionName: "stringcontains" inputStringAttrName: "auto_pad" outputIntName: "isSameMode" inputFloatName: "auto_pad" inputToOutput { key: "isSameMode" value: "auto_pad" } ruleType: "attribute" transformerArgs { key: "isSameMode" transformerArgs { name: "auto_pad" argIndex: 8 stringValue: "SAME" } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "pH" inputFloatName: "pads" inputToOutput { key: "pH" value: "pads" } ruleType: "attribute" transformerArgs { key: "pH" transformerArgs { name: "pads" argIndex: 4 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "pW" inputFloatName: "pads" inputToOutput { key: "pW" value: "pads" } ruleType: "attribute" transformerArgs { key: "pW" transformerArgs { name: "pads" int64Value: 1 argIndex: 5 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "sH" inputFloatName: "strides" inputToOutput { key: "sH" value: "strides" } ruleType: "attribute" transformerArgs { key: "sH" transformerArgs { name: "strides" argIndex: 2 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "sW" inputFloatName: "strides" inputToOutput { key: "sW" value: "strides" } ruleType: "attribute" transformerArgs { key: "sW" transformerArgs { name: "strides" int64Value: 1 argIndex: 3 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "kW" inputFloatName: "kernel_shape" inputToOutput { key: "kW" value: "kernel_shape" } ruleType: "attribute" transformerArgs { key: "kW" transformerArgs { name: "kernel_shape" int64Value: 1 argIndex: 1 } } inputFrameworkOpName: "AveragePool" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "kH" inputFloatName: "kernel_shape" inputToOutput { key: "kH" value: "kernel_shape" } ruleType: "attribute" transformerArgs { key: "kH" transformerArgs { name: "kernel_shape" } } inputFrameworkOpName: "AveragePool" } } mappings { frameworkName: "onnx" opName: "dropout_inverted" inputFrameworkOpName: "Dropout" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" outputTensorName: "input" inputToOutput { key: "input" value: "data" } ruleType: "tensor" inputFrameworkOpName: "Dropout" } rule { ruleName: "ndarrayinputtonumericalattribute" functionName: "ndarrayinputtonumericalattribute" outputDoubleName: "p" inputToOutput { key: "p" value: "ratio" } ruleType: "attribute" inputFrameworkOpName: "Dropout" } } mappings { frameworkName: "onnx" opName: "atan" inputFrameworkOpName: "Atan" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Atan" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Atan" } } mappings { frameworkName: "onnx" opName: "floor" inputFrameworkOpName: "Floor" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Floor" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Floor" } } mappings { frameworkName: "onnx" opName: "prelu" inputFrameworkOpName: "PRelu" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" inputTensorName: "slope" outputTensorName: "input" outputTensorName: "alpha" inputToOutput { key: "input" value: "X" } inputToOutput { key: "alpha" value: "slope" } ruleType: "tensor" inputFrameworkOpName: "PRelu" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "sharedAxes" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "sharedAxes" int64Value: -1 argType: INT64 } } inputFrameworkOpName: "PRelu" } } mappings { frameworkName: "onnx" opName: "atanh" inputFrameworkOpName: "Atanh" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Atanh" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Atanh" } } mappings { frameworkName: "onnx" opName: "mod" inputFrameworkOpName: "Mod" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Mod" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Mod" } } mappings { frameworkName: "onnx" opName: "lstmLayer" inputFrameworkOpName: "LSTM" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" inputTensorName: "W" inputTensorName: "R" inputTensorName: "P" inputTensorName: "B" inputTensorName: "sequence_lens" inputTensorName: "initial_h" inputTensorName: "initial_c" outputTensorName: "input" outputTensorName: "Wx" outputTensorName: "Wr" outputTensorName: "Wp" outputTensorName: "b" outputTensorName: "seqLen" outputTensorName: "hI" outputTensorName: "cI" inputToOutput { key: "input" value: "X" } inputToOutput { key: "Wx" value: "W" } inputToOutput { key: "Wr" value: "R" } inputToOutput { key: "Wp" value: "P" } inputToOutput { key: "b" value: "B" } inputToOutput { key: "seqLen" value: "sequence_lens" } inputToOutput { key: "hI" value: "initial_h" } inputToOutput { key: "cI" value: "initial_c" } ruleType: "tensor" inputFrameworkOpName: "LSTM" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputFloatName: "clip" outputDoubleName: "cellClip" inputToOutput { key: "cellClip" value: "clip" } ruleType: "attribute" inputFrameworkOpName: "LSTM" } rule { ruleName: "stringtoindex" functionName: "stringtoindex" inputStringAttrName: "direction" outputIntName: "directionMode" inputFloatName: "directionMode" inputFloatName: "directionMode" inputFloatName: "directionMode" inputToOutput { key: "directionMode" value: "direction" } ruleType: "attribute" transformerArgs { key: "directionMode" transformerArgs { name: "directionMode" argIndex: 1 stringValue: "forward" } transformerArgs { name: "directionMode" argIndex: 1 stringValue: "reverse" } transformerArgs { name: "directionMode" argIndex: 1 stringValue: "bidirectional" } } transformerArgs { key: "directionMode" transformerArgs { name: "directionMode" argIndex: 1 stringValue: "forward" } transformerArgs { name: "directionMode" argIndex: 1 stringValue: "reverse" } transformerArgs { name: "directionMode" argIndex: 1 stringValue: "bidirectional" } } transformerArgs { key: "directionMode" transformerArgs { name: "directionMode" argIndex: 1 stringValue: "forward" } transformerArgs { name: "directionMode" argIndex: 1 stringValue: "reverse" } transformerArgs { name: "directionMode" argIndex: 1 stringValue: "bidirectional" } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "dataFormat" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "dataFormat" argType: INT64 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "hasBiases" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "hasBiases" boolValue: true argType: BOOL } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "hasSeqLen" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "hasSeqLen" boolValue: true argType: BOOL argIndex: 1 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "hasInitH" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "hasInitH" boolValue: true argType: BOOL argIndex: 2 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "hasInitC" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "hasInitC" boolValue: true argType: BOOL argIndex: 3 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "hasPH" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "hasPH" boolValue: true argType: BOOL argIndex: 4 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "retFullSeq" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "retFullSeq" boolValue: true argType: BOOL argIndex: 5 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "retLastH" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "retLastH" boolValue: true argType: BOOL argIndex: 6 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "retLastC" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "retLastC" boolValue: true argType: BOOL argIndex: 7 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputFloatName: "activation_alpha" outputDoubleName: "gateAlpha" inputToOutput { key: "gateAlpha" value: "activation_alpha" } ruleType: "attribute" transformerArgs { key: "gateAlpha" transformerArgs { name: "activation_alpha" argIndex: 1 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputFloatName: "activation_alpha" outputDoubleName: "cellAlpha" inputToOutput { key: "cellAlpha" value: "activation_alpha" } ruleType: "attribute" transformerArgs { key: "cellAlpha" transformerArgs { name: "activation_alpha" int64Value: 1 argIndex: 3 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputFloatName: "activation_alpha" outputDoubleName: "outAlpha" inputToOutput { key: "outAlpha" value: "activation_alpha" } ruleType: "attribute" transformerArgs { key: "outAlpha" transformerArgs { name: "activation_alpha" int64Value: 2 argIndex: 5 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputFloatName: "activation_beta" outputDoubleName: "gateBeta" inputToOutput { key: "gateBeta" value: "activation_beta" } ruleType: "attribute" transformerArgs { key: "gateBeta" transformerArgs { name: "activation_beta" argIndex: 2 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputFloatName: "activation_beta" outputDoubleName: "cellBeta" inputToOutput { key: "cellBeta" value: "activation_beta" } ruleType: "attribute" transformerArgs { key: "cellBeta" transformerArgs { name: "activation_beta" int64Value: 1 argIndex: 4 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputFloatName: "activation_beta" outputDoubleName: "outBeta" inputToOutput { key: "outBeta" value: "activation_beta" } ruleType: "attribute" transformerArgs { key: "outBeta" transformerArgs { name: "activation_beta" int64Value: 2 argIndex: 6 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "mapstringtoindex" functionName: "mapstringtoindex" outputIntName: "gateAct" inputFloatName: "Relu" inputFloatName: "Tanh" inputFloatName: "Sigmoid" inputFloatName: "Affine" inputFloatName: "LeakyRelu" inputFloatName: "ThresholdedRelu" inputFloatName: "ScaledTanh" inputFloatName: "HardSigmoid" inputFloatName: "Elu" inputFloatName: "Softsign" inputFloatName: "Softplus" inputFloatName: "index" inputToOutput { key: "gateAct" value: "activations" } ruleType: "attribute" transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "gateAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 2 } transformerArgs { name: "Tanh" argIndex: 2 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 2 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 2 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 2 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 2 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 2 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 2 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 2 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 2 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 2 } } transformerArgs { key: "index" transformerArgs { name: "index" } } inputFrameworkOpName: "LSTM" } rule { ruleName: "mapstringtoindex" functionName: "mapstringtoindex" outputIntName: "cellAct" inputFloatName: "Relu" inputFloatName: "Tanh" inputFloatName: "Sigmoid" inputFloatName: "Affine" inputFloatName: "LeakyRelu" inputFloatName: "ThresholdedRelu" inputFloatName: "ScaledTanh" inputFloatName: "HardSigmoid" inputFloatName: "Elu" inputFloatName: "Softsign" inputFloatName: "Softplus" inputFloatName: "index" inputToOutput { key: "cellAct" value: "activations" } ruleType: "attribute" transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "cellAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 3 } transformerArgs { name: "Tanh" argIndex: 3 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 3 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 3 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 3 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 3 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 3 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 3 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 3 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 3 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 3 } } transformerArgs { key: "index" transformerArgs { name: "index" int64Value: 1 } } inputFrameworkOpName: "LSTM" } rule { ruleName: "mapstringtoindex" functionName: "mapstringtoindex" outputIntName: "outAct" inputFloatName: "Relu" inputFloatName: "Tanh" inputFloatName: "Sigmoid" inputFloatName: "Affine" inputFloatName: "LeakyRelu" inputFloatName: "ThresholdedRelu" inputFloatName: "ScaledTanh" inputFloatName: "HardSigmoid" inputFloatName: "Elu" inputFloatName: "Softsign" inputFloatName: "Softplus" inputFloatName: "index" inputToOutput { key: "outAct" value: "activations" } ruleType: "attribute" transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "outAct" transformerArgs { name: "Relu" int64Value: 1 argIndex: 4 } transformerArgs { name: "Tanh" argIndex: 4 } transformerArgs { name: "Sigmoid" int64Value: 2 argIndex: 4 } transformerArgs { name: "Affine" int64Value: 3 argIndex: 4 } transformerArgs { name: "LeakyRelu" int64Value: 4 argIndex: 4 } transformerArgs { name: "ThresholdedRelu" int64Value: 5 argIndex: 4 } transformerArgs { name: "ScaledTanh" int64Value: 6 argIndex: 4 } transformerArgs { name: "HardSigmoid" int64Value: 7 argIndex: 4 } transformerArgs { name: "Elu" int64Value: 8 argIndex: 4 } transformerArgs { name: "Softsign" int64Value: 9 argIndex: 4 } transformerArgs { name: "Softplus" int64Value: 10 argIndex: 4 } } transformerArgs { key: "index" transformerArgs { name: "index" int64Value: 2 } } inputFrameworkOpName: "LSTM" } } mappings { frameworkName: "onnx" opName: "cos" inputFrameworkOpName: "Cos" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Cos" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Cos" } } mappings { frameworkName: "onnx" opName: "sqrt" inputFrameworkOpName: "Sqrt" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Sqrt" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Sqrt" } } mappings { frameworkName: "onnx" opName: "asin" inputFrameworkOpName: "Asin" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Asin" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Asin" } } mappings { frameworkName: "onnx" opName: "space_to_depth" inputFrameworkOpName: "SpaceToDepth" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "SpaceToDepth" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "blocksize" outputIntName: "block_size" inputToOutput { key: "block_size" value: "blocksize" } ruleType: "attribute" inputFrameworkOpName: "SpaceToDepth" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "isNHWC" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isNHWC" int64Value: 1 argType: INT64 argIndex: 1 } } inputFrameworkOpName: "SpaceToDepth" } } mappings { frameworkName: "onnx" opName: "tile" inputFrameworkOpName: "Tile" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" inputTensorName: "repeats" outputTensorName: "input" outputTensorName: "reps_vector" inputToOutput { key: "input" value: "input" } inputToOutput { key: "reps_vector" value: "repeats" } ruleType: "tensor" inputFrameworkOpName: "Tile" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "is_static_reps" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "is_static_reps" boolValue: true argType: BOOL } } inputFrameworkOpName: "Tile" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "dimensions" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "dimensions" argType: INT64 } } inputFrameworkOpName: "Tile" } } mappings { frameworkName: "onnx" opName: "greater_equal" inputFrameworkOpName: "GreaterOrEqual" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "GreaterOrEqual" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "GreaterOrEqual" } } mappings { frameworkName: "onnx" opName: "depth_to_space" inputFrameworkOpName: "DepthToSpace" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "DepthToSpace" } rule { ruleName: "valuemapping" functionName: "valuemapping" inputIntName: "blocksize" outputIntName: "block_size" inputToOutput { key: "block_size" value: "blocksize" } ruleType: "attribute" inputFrameworkOpName: "DepthToSpace" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "isNHWC" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isNHWC" int64Value: 1 argType: INT64 argIndex: 1 } } inputFrameworkOpName: "DepthToSpace" } } mappings { frameworkName: "onnx" opName: "isnan" inputFrameworkOpName: "IsNaN" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "IsNaN" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "IsNaN" } } mappings { frameworkName: "onnx" opName: "divide" inputFrameworkOpName: "Div" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Div" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Div" } } mappings { frameworkName: "onnx" opName: "neg" inputFrameworkOpName: "Neg" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Neg" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Neg" } } mappings { frameworkName: "onnx" opName: "matrix_determinant" inputFrameworkOpName: "Det" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" outputTensorName: "input" inputToOutput { key: "input" value: "X" } ruleType: "tensor" inputFrameworkOpName: "Det" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Det" } } mappings { frameworkName: "onnx" opName: "pad" inputFrameworkOpName: "Pad" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "data" inputTensorName: "pads" outputTensorName: "input" outputTensorName: "paddings" inputToOutput { key: "input" value: "data" } inputToOutput { key: "paddings" value: "pads" } ruleType: "tensor" inputFrameworkOpName: "Pad" } rule { ruleName: "stringtoindex" functionName: "stringtoindex" inputStringAttrName: "mode" outputIntName: "mode" inputFloatName: "mode" inputFloatName: "mode" inputFloatName: "mode" inputToOutput { key: "mode" value: "mode" } ruleType: "attribute" transformerArgs { key: "mode" transformerArgs { name: "mode" stringValue: "constant" } transformerArgs { name: "mode" stringValue: "reflect" } transformerArgs { name: "mode" stringValue: "edge" } } transformerArgs { key: "mode" transformerArgs { name: "mode" stringValue: "constant" } transformerArgs { name: "mode" stringValue: "reflect" } transformerArgs { name: "mode" stringValue: "edge" } } transformerArgs { key: "mode" transformerArgs { name: "mode" stringValue: "constant" } transformerArgs { name: "mode" stringValue: "reflect" } transformerArgs { name: "mode" stringValue: "edge" } } inputFrameworkOpName: "Pad" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputFloatName: "padValue" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "padValue" argType: DOUBLE } } inputFrameworkOpName: "Pad" } } mappings { frameworkName: "onnx" opName: "conv2d" inputFrameworkOpName: "Conv" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "X" inputTensorName: "W" inputTensorName: "B" outputTensorName: "input" outputTensorName: "weights" outputTensorName: "bias" inputToOutput { key: "input" value: "X" } inputToOutput { key: "weights" value: "W" } inputToOutput { key: "bias" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Conv" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "isNCHW" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "isNCHW" argType: INT64 argIndex: 9 } } inputFrameworkOpName: "Conv" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputIntName: "wFormat" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "wFormat" int64Value: 1 argType: INT64 argIndex: 10 } } inputFrameworkOpName: "Conv" } rule { ruleName: "stringequals" functionName: "stringequals" inputStringAttrName: "auto_pad" outputIntName: "isSameMode" inputFloatName: "auto_pad" inputToOutput { key: "isSameMode" value: "auto_pad" } ruleType: "attribute" transformerArgs { key: "isSameMode" transformerArgs { name: "auto_pad" argIndex: 8 stringValue: "SAME" } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "dH" outputIntName: "dH" inputFloatName: "dilations" inputToOutput { key: "dH" value: "dilations" } ruleType: "attribute" transformerArgs { key: "dH" transformerArgs { name: "dilations" argIndex: 6 } transformerArgs { name: "dH" int64Value: 1 argType: INT64 argIndex: 6 } } transformerArgs { key: "dH" transformerArgs { name: "dilations" argIndex: 6 } transformerArgs { name: "dH" int64Value: 1 argType: INT64 argIndex: 6 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "dW" outputIntName: "dW" inputFloatName: "dilations" inputToOutput { key: "dW" value: "dilations" } ruleType: "attribute" transformerArgs { key: "dW" transformerArgs { name: "dilations" int64Value: 1 argIndex: 7 } transformerArgs { name: "dW" int64Value: 1 argType: INT64 argIndex: 7 } } transformerArgs { key: "dW" transformerArgs { name: "dilations" int64Value: 1 argIndex: 7 } transformerArgs { name: "dW" int64Value: 1 argType: INT64 argIndex: 7 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "pH" inputFloatName: "pads" inputToOutput { key: "pH" value: "pads" } ruleType: "attribute" transformerArgs { key: "pH" transformerArgs { name: "pads" argIndex: 4 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "pW" inputFloatName: "pads" inputToOutput { key: "pW" value: "pads" } ruleType: "attribute" transformerArgs { key: "pW" transformerArgs { name: "pads" int64Value: 1 argIndex: 5 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "strides" outputIntName: "sH" inputFloatName: "strides" inputToOutput { key: "sH" value: "strides" } ruleType: "attribute" transformerArgs { key: "sH" transformerArgs { name: "strides" argIndex: 2 } transformerArgs { name: "strides" int64Value: 1 argType: INT64 argIndex: 2 } } transformerArgs { key: "sH" transformerArgs { name: "strides" argIndex: 2 } transformerArgs { name: "strides" int64Value: 1 argType: INT64 argIndex: 2 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" inputIntName: "strides" outputIntName: "sW" inputFloatName: "strides" inputToOutput { key: "sW" value: "strides" } ruleType: "attribute" transformerArgs { key: "sW" transformerArgs { name: "strides" int64Value: 1 argIndex: 3 } transformerArgs { name: "strides" int64Value: 1 argType: INT64 argIndex: 3 } } transformerArgs { key: "sW" transformerArgs { name: "strides" int64Value: 1 argIndex: 3 } transformerArgs { name: "strides" int64Value: 1 argType: INT64 argIndex: 3 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "kW" inputFloatName: "kernel_shape" inputToOutput { key: "kW" value: "kernel_shape" } ruleType: "attribute" transformerArgs { key: "kW" transformerArgs { name: "kernel_shape" int64Value: 1 } } inputFrameworkOpName: "Conv" } rule { ruleName: "listattributevaluelookuptoindex" functionName: "listattributevaluelookuptoindex" outputIntName: "kH" inputFloatName: "kernel_shape" inputToOutput { key: "kH" value: "kernel_shape" } ruleType: "attribute" transformerArgs { key: "kH" transformerArgs { name: "kernel_shape" argIndex: 1 } } inputFrameworkOpName: "Conv" } } mappings { frameworkName: "onnx" opName: "greater" inputFrameworkOpName: "Greater" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "A" inputTensorName: "B" outputTensorName: "input" outputTensorName: "y" inputToOutput { key: "input" value: "A" } inputToOutput { key: "y" value: "B" } ruleType: "tensor" inputFrameworkOpName: "Greater" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Greater" } } mappings { frameworkName: "onnx" opName: "sign" inputFrameworkOpName: "Sign" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Sign" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Sign" } } mappings { frameworkName: "onnx" opName: "softsign" inputFrameworkOpName: "Softsign" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Softsign" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Softsign" } } mappings { frameworkName: "onnx" opName: "exp" inputFrameworkOpName: "Exp" rule { ruleName: "ndarraymapping" functionName: "ndarraymapping" inputTensorName: "input" outputTensorName: "input" inputToOutput { key: "input" value: "input" } ruleType: "tensor" inputFrameworkOpName: "Exp" } rule { ruleName: "argdescriptorconstant" functionName: "argdescriptorconstant" inputBooleanName: "inPlace" ruleType: "attribute" transformerArgs { key: "value" transformerArgs { name: "inPlace" argType: BOOL } } inputFrameworkOpName: "Exp" } }