mirror of
https://github.com/saymrwulf/onnxruntime.git
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89 lines
3.1 KiB
TypeScript
89 lines
3.1 KiB
TypeScript
// Copyright (c) Microsoft Corporation. All rights reserved.
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// Licensed under the MIT License.
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import {DataType} from '../../../wasm-common';
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import {TensorView} from '../../tensor-view';
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import {ShapeUtil} from '../../util';
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import {ComputeContext, ProgramInfo} from '../types';
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import {inputVariable, outputVariable, ShaderHelper} from './common';
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const getRepeats = (repeatsTensorView: TensorView): readonly number[] =>
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Array.from(repeatsTensorView.getBigInt64Array(), Number);
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const validateInputs = (inputs: readonly TensorView[]): void => {
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if (!inputs || inputs.length !== 2) {
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throw new Error('Tile requires 2 inputs.');
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}
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if (inputs[0].dataType !== DataType.float && inputs[0].dataType !== DataType.int32 &&
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inputs[0].dataType !== DataType.uint32) {
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throw new Error('Tile only support float, int32, and uint32 data types');
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}
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if (inputs[1].dataType !== DataType.int64) {
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throw new Error('Tile `repeats` input should be of int64 data type');
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}
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if (inputs[1].dims.length !== 1) {
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throw new Error('Tile `repeats` input should be 1-D');
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}
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const repeats: readonly number[] = getRepeats(inputs[1]);
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if (repeats.length !== inputs[0].dims.length) {
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throw new Error('Tile `repeats` input should have same number of elements as rank of input data tensor');
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}
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};
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const getOutputShape = (inputShape: readonly number[], repeats: readonly number[]): readonly number[] => {
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const outputShape: number[] = [];
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for (let i = 0; i < inputShape.length; ++i) {
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outputShape.push(inputShape[i] * repeats[i]);
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}
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return outputShape;
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};
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export const createTileProgramInfo = (inputs: readonly TensorView[]): ProgramInfo => {
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const inputShape = inputs[0].dims;
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const repeats: readonly number[] = getRepeats(inputs[1]);
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const outputShape = getOutputShape(inputShape, repeats);
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const outputSize = ShapeUtil.size(outputShape);
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const dataType = inputs[0].dataType;
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const input = inputVariable('input', dataType, inputShape);
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const output = outputVariable('output', dataType, outputShape);
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const getShaderSource = (shaderHelper: ShaderHelper) => `
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const inputShape = ${input.indices(...inputShape)};
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${shaderHelper.declareVariables(input, output)}
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${shaderHelper.mainStart()}
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${shaderHelper.guardAgainstOutOfBoundsWorkgroupSizes(outputSize)}
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let outputIndices = ${output.offsetToIndices('global_idx')};
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var inputIndices: ${input.type.indices};
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for (var i = 0; i < ${inputShape.length}; i++) {
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let inputDimValue = ${output.indicesGet('outputIndices', 'i')} % ${input.indicesGet('inputShape', 'i')};
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${input.indicesSet('inputIndices', 'i', 'inputDimValue')}
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}
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${output.setByOffset('global_idx', input.getByIndices('inputIndices'))}
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}`;
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return {
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name: 'Tile',
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shaderCache: {hint: `${repeats}`},
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getRunData: () => ({
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outputs: [{dims: outputShape, dataType: inputs[0].dataType}],
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dispatchGroup: {x: Math.ceil(outputSize / 64 /* workgroup size */)},
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}),
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getShaderSource,
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};
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};
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export const tile = (context: ComputeContext): void => {
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validateInputs(context.inputs);
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context.compute(createTileProgramInfo(context.inputs), {inputs: [0]});
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};
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