/**
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* @license
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* Copyright 2018 Google LLC. All Rights Reserved.
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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* =============================================================================
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*/
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import {ENGINE} from './engine';
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import {env} from './environment';
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import {Tensor} from './tensor';
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import {DataType, TensorLike} from './types';
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import {assert, flatten, inferDtype, isTypedArray, toTypedArray} from './util';
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export function inferShape(val: TensorLike, dtype?: DataType): number[] {
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let firstElem: typeof val = val;
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if (isTypedArray(val)) {
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return dtype === 'string' ? [] : [val.length];
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}
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if (!Array.isArray(val)) {
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return []; // Scalar.
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}
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const shape: number[] = [];
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while (Array.isArray(firstElem) ||
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isTypedArray(firstElem) && dtype !== 'string') {
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shape.push(firstElem.length);
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firstElem = firstElem[0];
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}
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if (Array.isArray(val) &&
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env().getBool('TENSORLIKE_CHECK_SHAPE_CONSISTENCY')) {
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deepAssertShapeConsistency(val, shape, []);
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}
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return shape;
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}
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function deepAssertShapeConsistency(
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val: TensorLike, shape: number[], indices: number[]) {
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indices = indices || [];
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if (!(Array.isArray(val)) && !isTypedArray(val)) {
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assert(
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shape.length === 0,
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() => `Element arr[${indices.join('][')}] is a primitive, ` +
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`but should be an array/TypedArray of ${shape[0]} elements`);
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return;
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}
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assert(
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shape.length > 0,
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() => `Element arr[${indices.join('][')}] should be a primitive, ` +
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`but is an array of ${val.length} elements`);
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assert(
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val.length === shape[0],
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() => `Element arr[${indices.join('][')}] should have ${shape[0]} ` +
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`elements, but has ${val.length} elements`);
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const subShape = shape.slice(1);
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for (let i = 0; i < val.length; ++i) {
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deepAssertShapeConsistency(val[i], subShape, indices.concat(i));
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}
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}
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function assertDtype(
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expectedDtype: DataType|'numeric', actualDType: DataType, argName: string,
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functionName: string) {
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if (expectedDtype == null) {
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return;
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}
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if (expectedDtype !== 'numeric' && expectedDtype !== actualDType ||
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expectedDtype === 'numeric' && actualDType === 'string') {
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throw new Error(
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`Argument '${argName}' passed to '${functionName}' must ` +
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`be ${expectedDtype} tensor, but got ${actualDType} tensor`);
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}
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}
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export function convertToTensor<T extends Tensor>(
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x: T|TensorLike, argName: string, functionName: string,
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parseAsDtype: DataType|'numeric' = 'numeric'): T {
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if (x instanceof Tensor) {
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assertDtype(parseAsDtype, x.dtype, argName, functionName);
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return x;
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}
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let inferredDtype = inferDtype(x);
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// If the user expects a bool/int/float, use that info to update the
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// inferredDtype when it is not a string.
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if (inferredDtype !== 'string' &&
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['bool', 'int32', 'float32'].indexOf(parseAsDtype) >= 0) {
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inferredDtype = parseAsDtype as DataType;
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}
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assertDtype(parseAsDtype, inferredDtype, argName, functionName);
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if ((x == null) ||
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(!isTypedArray(x) && !Array.isArray(x) && typeof x !== 'number' &&
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typeof x !== 'boolean' && typeof x !== 'string')) {
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const type = x == null ? 'null' : (x as {}).constructor.name;
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throw new Error(
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`Argument '${argName}' passed to '${functionName}' must be a ` +
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`Tensor or TensorLike, but got '${type}'`);
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}
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const inferredShape = inferShape(x, inferredDtype);
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if (!isTypedArray(x) && !Array.isArray(x)) {
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x = [x] as number[];
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}
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const skipTypedArray = true;
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const values = inferredDtype !== 'string' ?
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toTypedArray(x, inferredDtype as DataType, env().getBool('DEBUG')) :
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flatten(x as string[], [], skipTypedArray) as string[];
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return ENGINE.makeTensor(values, inferredShape, inferredDtype) as T;
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}
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export function convertToTensorArray<T extends Tensor>(
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arg: Array<T|TensorLike>, argName: string, functionName: string,
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parseAsDtype: DataType|'numeric' = 'numeric'): T[] {
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if (!Array.isArray(arg)) {
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throw new Error(
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`Argument ${argName} passed to ${functionName} must be a ` +
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'`Tensor[]` or `TensorLike[]`');
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}
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const tensors = arg as T[];
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return tensors.map(
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(t, i) => convertToTensor(t, `${argName}[${i}]`, functionName),
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parseAsDtype);
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}
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