"use strict"; /** * @license * Copyright 2017 Google Inc. All Rights Reserved. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ============================================================================= */ var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var _this = this; Object.defineProperty(exports, "__esModule", { value: true }); var tf = require("../index"); var jasmine_util_1 = require("../jasmine_util"); var test_util_1 = require("../test_util"); var util = require("../util"); var selu_util = require("./selu_util"); jasmine_util_1.describeWithFlags('relu', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, 0, 3, -0.1]); result = tf.relu(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 3, 0]]); return [2 /*return*/]; } }); }); }); it('basic relu6', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, 0, 8, -0.1]); result = tf.relu6(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 6, 0]]); return [2 /*return*/]; } }); }); }); it('5D', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor5d([1, -2, 5, -3], [1, 2, 2, 1, 1]); result = tf.relu(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 5, 0]]); return [2 /*return*/]; } }); }); }); it('6D', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor6d([1, -2, 5, -3, -1, 4, 7, 8], [1, 2, 2, 2, 1, 1]); result = tf.relu(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 5, 0, 0, 4, 7, 8]]); return [2 /*return*/]; } }); }); }); it('does nothing to positive values', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(1); result = tf.relu(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1]]); return [2 /*return*/]; } }); }); }); it('sets negative values to 0', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-1); result = tf.relu(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('preserves zero values', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0); result = tf.relu(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('propagates NaNs, float32', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, 0, 3, -0.1, NaN]); result = tf.relu(a); expect(result.dtype).toBe('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 3, 0, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: positive scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, grad, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(3); dy = tf.scalar(5); grad = tf.grad(function (a) { return tf.relu(a); }); da = grad(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [5]]); return [2 /*return*/]; } }); }); }); it('gradients: relu6', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, grad, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(8); dy = tf.scalar(5); grad = tf.grad(function (a) { return tf.relu6(a); }); da = grad(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, grad, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(3); dy = tf.scalar(5); grad = tf.grad(function (a) { return tf.relu(a.clone()).clone(); }); da = grad(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [5]]); return [2 /*return*/]; } }); }); }); it('gradients: negative scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, grad, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-3); dy = tf.scalar(5); grad = tf.grad(function (a) { return tf.relu(a); }); da = grad(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: array', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, grad, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([1, -1, 0, .1], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); grad = tf.grad(function (a) { return tf.relu(a); }); da = grad(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 4]]); return [2 /*return*/]; } }); }); }); it('gradients: relu6 array', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, grad, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([8, -1, 0, .1], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); grad = tf.grad(function (a) { return tf.relu6(a); }); da = grad(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 4]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.relu({}); }) .toThrowError(/Argument 'x' passed to 'relu' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.relu([1, -2, 0, 3, -0.1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 3, 0]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.relu('q'); }) .toThrowError(/Argument 'x' passed to 'relu' must be numeric/); }); }); jasmine_util_1.describeWithFlags('abs', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, 0, 3, -0.1]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 0, 3, 0.1]]); return [2 /*return*/]; } }); }); }); it('5D', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor5d([1, -2, 0, -3], [1, 2, 2, 1, 1]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 0, 3]]); return [2 /*return*/]; } }); }); }); it('6D', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor6d([1, -2, 5, -3, -1, 4, 7, 8], [1, 2, 2, 2, 1, 1]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 5, 3, 1, 4, 7, 8]]); return [2 /*return*/]; } }); }); }); it('complex64 rank-1', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.complex([-2, -1, 0, 1, 2], [1, 2, 3, 0, -1]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [ Math.sqrt(-2 * -2 + 1 * 1), Math.sqrt(-1 * -1 + 2 * 2), Math.sqrt(0 * 0 + 3 * 3), Math.sqrt(1 * 1 + 0 * 0), Math.sqrt(2 * 2 + -1 * -1) ]]); expect(result.shape).toEqual([5]); return [2 /*return*/]; } }); }); }); it('complex64 rank-2', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.complex([[-3, -2, -1], [0, 1, 2]], [[4, 1, 2], [3, 0, -1]]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [ Math.sqrt(-3 * -3 + 4 * 4), Math.sqrt(-2 * -2 + 1 * 1), Math.sqrt(-1 * -1 + 2 * 2), Math.sqrt(0 * 0 + 3 * 3), Math.sqrt(1 * 1 + 0 * 0), Math.sqrt(2 * 2 + -1 * -1) ]]); expect(result.shape).toEqual([2, 3]); return [2 /*return*/]; } }); }); }); it('complex64 rank-3', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.complex([[[-3, -2], [-1, 0]], [[1, 2], [3, 4]]], [[[4, 1], [2, 3]], [[0, -1], [-3, -4]]]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [ Math.sqrt(-3 * -3 + 4 * 4), Math.sqrt(-2 * -2 + 1 * 1), Math.sqrt(-1 * -1 + 2 * 2), Math.sqrt(0 * 0 + 3 * 3), Math.sqrt(1 * 1 + 0 * 0), Math.sqrt(2 * 2 + -1 * -1), Math.sqrt(3 * 3 + -3 * -3), Math.sqrt(4 * 4 + -4 * -4) ]]); expect(result.shape).toEqual([2, 2, 2]); return [2 /*return*/]; } }); }); }); it('is underflow-safe for complex64', function () { return __awaiter(_this, void 0, void 0, function () { var floatBits, small, a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: floatBits = tf.backend().floatPrecision(); switch (floatBits) { case 32: small = 1e-30; break; case 16: small = 1e-4; break; default: throw new Error("Test not implemented for ENV.engine.floatPrecision()=" + floatBits + "."); } a = tf.complex([small, 0, small, 0], [small, small, 0, 0]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [ Math.hypot(small, small), Math.hypot(0, small), Math.hypot(small, 0), Math.hypot(0, 0) ], /*tolerance=*/ small / 100]); expect(result.shape).toEqual([4]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, 0, 3, -0.1, NaN]); result = tf.abs(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 0, 3, 0.1, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.abs(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * 1]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { var a = tf.scalar(4); var dy = tf.scalar(8); var da = tf.grad(function (a) { return a.clone().abs().clone(); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); da = tf.grad(function (a) { return tf.abs(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * 1, 2 * 1, 3 * -1, 4 * 1]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([3, -1, -2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); da = tf.grad(function (a) { return tf.abs(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * 1, 2 * -1, 3 * -1, 4 * 1]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.abs({}); }) .toThrowError(/Argument 'x' passed to 'abs' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.abs([1, -2, 0, 3, -0.1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 0, 3, 0.1]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.abs('q'); }) .toThrowError(/Argument 'x' passed to 'abs' must be numeric/); }); }); jasmine_util_1.describeWithFlags('step', jasmine_util_1.ALL_ENVS, function () { it('with 1d tensor', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, -.01, 3, -0.1]); result = tf.step(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 1, 0]]); return [2 /*return*/]; } }); }); }); it('with 1d tensor and alpha', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, -.01, 3, NaN]); result = tf.step(a, 0.1); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0.1, 0.1, 1, NaN]]); return [2 /*return*/]; } }); }); }); it('with 2d tensor', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([1, -5, -3, 4], [2, 2]); result = tf.step(a); expect(result.shape).toEqual([2, 2]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 1]]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -2, -.01, 3, NaN]); result = tf.step(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 1, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-4); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.step(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-4); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.step(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.step(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([3, -1, -2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.step(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.step({}); }) .toThrowError(/Argument 'x' passed to 'step' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.step([1, -2, -.01, 3, -0.1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 1, 0]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.step('q'); }) .toThrowError(/Argument 'x' passed to 'step' must be numeric/); }); }); jasmine_util_1.describeWithFlags('neg', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -3, 2, 7, -4]); result = tf.neg(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [-1, 3, -2, -7, 4]]); return [2 /*return*/]; } }); }); }); it('propagate NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -3, 2, 7, NaN]); result = tf.neg(a); expected = [-1, 3, -2, -7, NaN]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.neg(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.neg(a.clone()).clone(); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); da = tf.grad(function (a) { return tf.neg(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * -1, 2 * -1, 3 * -1, 4 * -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([3, -1, -2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); da = tf.grad(function (a) { return tf.neg(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * -1, 2 * -1, 3 * -1, 4 * -1]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.neg({}); }) .toThrowError(/Argument 'x' passed to 'neg' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.neg([1, -3, 2, 7, -4]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [-1, 3, -2, -7, 4]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.neg('q'); }) .toThrowError(/Argument 'x' passed to 'neg' must be numeric/); }); }); jasmine_util_1.describeWithFlags('sigmoid', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.sigmoid(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = 1 / (1 + Math.exp(-values[i])); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('6D', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.ones([2, 2, 2, 2, 2, 2]); result = tf.sigmoid(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = 1 / (1 + Math.exp(-1.0)); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([3, NaN]); res = tf.sigmoid(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / (1 + Math.exp(-3)), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, aVals, dyVals, expected, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); da = tf.grad(function (a) { return tf.sigmoid(a); })(a, dy); return [4 /*yield*/, a.array()]; case 1: aVals = _b.sent(); return [4 /*yield*/, dy.array()]; case 2: dyVals = _b.sent(); expected = []; for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(-aVals[i])); expected[i] = dyVals[i] * y * (1 - y); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, aVals, dyVals, expected, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); da = tf.grad(function (a) { return tf.sigmoid(a.clone()).clone(); })(a, dy); return [4 /*yield*/, a.array()]; case 1: aVals = _b.sent(); return [4 /*yield*/, dy.array()]; case 2: dyVals = _b.sent(); expected = []; for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(-aVals[i])); expected[i] = dyVals[i] * y * (1 - y); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.sigmoid({}); }) .toThrowError(/Argument 'x' passed to 'sigmoid' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.sigmoid(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = 1 / (1 + Math.exp(-values[i])); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.sigmoid('q'); }) .toThrowError(/Argument 'x' passed to 'sigmoid' must be numeric/); }); }); jasmine_util_1.describeWithFlags('logSigmoid', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.logSigmoid(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.log(1 / (1 + Math.exp(-values[i]))); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-2); result = tf.logSigmoid(a); expected = [Math.log(1 / (1 + Math.exp(2)))]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, 2, -3, 5]; a = tf.tensor2d(values, [2, 2]); result = tf.logSigmoid(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.log(1 / (1 + Math.exp(-values[i]))); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('larger magnitude negative inputs', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [-100, -200, -3000]; a = tf.tensor1d(values); result = tf.logSigmoid(a); expected = [-100, -200, -3000]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('larger magnitude positive inputs', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [100, 200, 3000, 50000]; a = tf.tensor1d(values); result = tf.logSigmoid(a); expected = [0, 0, 0, 0]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([3, NaN]); res = tf.logSigmoid(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log(1 / (1 + Math.exp(-3))), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, dyVal, da, aVal, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(3); dy = tf.scalar(4); return [4 /*yield*/, dy.array()]; case 1: dyVal = _b.sent(); da = tf.grad(function (a) { return tf.logSigmoid(a); })(a, dy); return [4 /*yield*/, a.array()]; case 2: aVal = _b.sent(); y = 1 / (1 + Math.exp(aVal)); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), [dyVal * y]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, aVals, dy, dyVals, da, expected, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); return [4 /*yield*/, a.array()]; case 1: aVals = _b.sent(); dy = tf.tensor1d([1, 2, 3, 4]); return [4 /*yield*/, dy.array()]; case 2: dyVals = _b.sent(); da = tf.grad(function (a) { return tf.logSigmoid(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(aVals[i])); expected[i] = dyVals[i] * y; } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, aVals, dy, dyVals, da, expected, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); return [4 /*yield*/, a.array()]; case 1: aVals = _b.sent(); dy = tf.tensor1d([1, 2, 3, 4]); return [4 /*yield*/, dy.array()]; case 2: dyVals = _b.sent(); da = tf.grad(function (a) { return tf.logSigmoid(a.clone()).clone(); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(aVals[i])); expected[i] = dyVals[i] * y; } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, expected, aVals, dyVals, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([1, 2, -3, 5], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); da = tf.grad(function (a) { return tf.logSigmoid(a); })(a, dy); expected = []; return [4 /*yield*/, a.data()]; case 1: aVals = _b.sent(); return [4 /*yield*/, dy.data()]; case 2: dyVals = _b.sent(); for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(aVals[i])); expected[i] = dyVals[i] * y; } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.logSigmoid({}); }) .toThrowError(/Argument 'x' passed to 'logSigmoid' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.logSigmoid(-2); expected = [Math.log(1 / (1 + Math.exp(2)))]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.logSigmoid('q'); }) .toThrowError(/Argument 'x' passed to 'logSigmoid' must be numeric/); }); }); jasmine_util_1.describeWithFlags('softplus', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.softplus(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.log((1 + Math.exp(values[i]))); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-2); result = tf.softplus(a); expected = [Math.log((1 + Math.exp(-2)))]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, 2, -3, 5]; a = tf.tensor2d(values, [2, 2]); result = tf.softplus(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.log((1 + Math.exp(values[i]))); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('larger magnitude negative inputs', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [-100, -200, -3000, -50000]; a = tf.tensor1d(values); result = tf.softplus(a); expected = [0, 0, 0, 0]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('larger magnitude positive inputs', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [100, 200, 3000]; a = tf.tensor1d(values); result = tf.softplus(a); expected = [100, 200, 3000]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([3, NaN]); res = tf.softplus(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log((1 + Math.exp(3))), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, aVal, dyVal, da, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(3); dy = tf.scalar(4); return [4 /*yield*/, a.array()]; case 1: aVal = _b.sent(); return [4 /*yield*/, dy.array()]; case 2: dyVal = _b.sent(); da = tf.grad(function (a) { return tf.softplus(a); })(a, dy); y = 1 / (1 + Math.exp(-aVal)); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), [dyVal * y]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, aVal, dyVal, da, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(3); dy = tf.scalar(4); return [4 /*yield*/, a.array()]; case 1: aVal = _b.sent(); return [4 /*yield*/, dy.array()]; case 2: dyVal = _b.sent(); da = tf.grad(function (a) { return tf.softplus(a.clone()).clone(); })(a, dy); y = 1 / (1 + Math.exp(-aVal)); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), [dyVal * y]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, aVals, dy, dyVals, da, expected, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, -3, 5]); return [4 /*yield*/, a.array()]; case 1: aVals = _b.sent(); dy = tf.tensor1d([1, 2, 3, 4]); return [4 /*yield*/, dy.array()]; case 2: dyVals = _b.sent(); da = tf.grad(function (a) { return tf.softplus(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(-aVals[i])); expected[i] = dyVals[i] * y; } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, expected, aVals, dyVals, i, y, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([1, 2, -3, 5], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); da = tf.grad(function (a) { return tf.softplus(a); })(a, dy); expected = []; return [4 /*yield*/, a.data()]; case 1: aVals = _b.sent(); return [4 /*yield*/, dy.data()]; case 2: dyVals = _b.sent(); for (i = 0; i < a.size; i++) { y = 1 / (1 + Math.exp(-aVals[i])); expected[i] = dyVals[i] * y; } _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 3: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.softplus({}); }) .toThrowError(/Argument 'x' passed to 'softplus' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.softplus(-2); expected = [Math.log((1 + Math.exp(-2)))]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.softplus('q'); }) .toThrowError(/Argument 'x' passed to 'softplus' must be numeric/); }); }); jasmine_util_1.describeWithFlags('sqrt', jasmine_util_1.ALL_ENVS, function () { it('sqrt', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([2, 4]); r = tf.sqrt(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.sqrt(2), Math.sqrt(4)]]); return [2 /*return*/]; } }); }); }); it('sqrt propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN]); r = tf.sqrt(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.sqrt(1), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.sqrt(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (2 * Math.sqrt(4))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.sqrt(a.clone()).clone(); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (2 * Math.sqrt(4))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, 3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.sqrt(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ 1 / (2 * Math.sqrt(1)), 2 / (2 * Math.sqrt(2)), 3 / (2 * Math.sqrt(3)), 4 / (2 * Math.sqrt(5)) ], 1e-1]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.sqrt(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ 1 / (2 * Math.sqrt(3)), 2 / (2 * Math.sqrt(1)), 3 / (2 * Math.sqrt(2)), 4 / (2 * Math.sqrt(3)) ], 1e-1]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.sqrt({}); }) .toThrowError(/Argument 'x' passed to 'sqrt' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.sqrt([2, 4]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.sqrt(2), Math.sqrt(4)]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.sqrt('q'); }) .toThrowError(/Argument 'x' passed to 'sqrt' must be numeric/); }); }); jasmine_util_1.describeWithFlags('rsqrt', jasmine_util_1.ALL_ENVS, function () { it('rsqrt', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([2, 4]); r = tf.rsqrt(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / Math.sqrt(2), 1 / Math.sqrt(4)]]); return [2 /*return*/]; } }); }); }); it('rsqrt propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN]); r = tf.rsqrt(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / Math.sqrt(1), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.rsqrt(a); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [(-1 * 8) / (2 * Math.pow(4, 1.5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, da, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(4); dy = tf.scalar(8); da = tf.grad(function (a) { return tf.rsqrt(a.clone()).clone(); })(a, dy); expect(da.shape).toEqual(a.shape); expect(da.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, da.data()]; case 1: _a.apply(void 0, [_b.sent(), [(-1 * 8) / (2 * Math.pow(4, 1.5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, 3, 5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.rsqrt(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ -1 * 1 / (2 * Math.pow(1, 1.5)), -1 * 2 / (2 * Math.pow(2, 1.5)), -1 * 3 / (2 * Math.pow(3, 1.5)), -1 * 4 / (2 * Math.pow(5, 1.5)) ], 1e-1]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.rsqrt(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ -1 * 1 / (2 * Math.pow(3, 1.5)), -1 * 2 / (2 * Math.pow(1, 1.5)), -1 * 3 / (2 * Math.pow(2, 1.5)), -1 * 4 / (2 * Math.pow(3, 1.5)) ], 1e-1]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.rsqrt({}); }) .toThrowError(/Argument 'x' passed to 'rsqrt' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.rsqrt([2, 4]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / Math.sqrt(2), 1 / Math.sqrt(4)]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.rsqrt('q'); }) .toThrowError(/Argument 'x' passed to 'rsqrt' must be numeric/); }); }); jasmine_util_1.describeWithFlags('square', jasmine_util_1.ALL_ENVS, function () { it('1D array', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([2, 4, Math.sqrt(2)]); r = tf.square(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [4, 16, 2]]); return [2 /*return*/]; } }); }); }); it('2D array', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([1, 2, Math.sqrt(2), Math.sqrt(3)], [2, 2]); r = tf.square(a); expect(r.shape).toEqual([2, 2]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 4, 2, 3]]); return [2 /*return*/]; } }); }); }); it('5D array', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor5d([1, 2, Math.sqrt(2), Math.sqrt(3)], [1, 1, 2, 2, 1]); r = tf.square(a); expect(r.shape).toEqual([1, 1, 2, 2, 1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 4, 2, 3]]); return [2 /*return*/]; } }); }); }); it('6D array', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor6d([1, 2, Math.sqrt(2), Math.sqrt(3), 3, 4, Math.sqrt(7), Math.sqrt(13)], [1, 1, 2, 2, 2, 1]); r = tf.square(a); expect(r.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 4, 2, 3, 9, 16, 7, 13]]); return [2 /*return*/]; } }); }); }); it('square propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, NaN]); r = tf.square(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [2.25, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.square(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [2 * 5 * 8]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.square(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [2 * 5 * 8]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.square(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [-2, 4 * 2, 6 * 3, -10 * 4]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.square(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [-6 * 1, 2 * 2, 4 * 3, 6 * 4]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor5D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor5d([-3, 1, 2, 3], [1, 1, 1, 2, 2]); dy = tf.tensor5d([1, 2, 3, 4], [1, 1, 1, 2, 2]); gradients = tf.grad(function (a) { return tf.square(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [-6 * 1, 2 * 2, 4 * 3, 6 * 4]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor6D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor6d([-3, 1, 2, 3, -4, 5, 12, 3], [1, 1, 1, 2, 2, 2]); dy = tf.tensor6d([1, 2, 3, 4, 5, 6, 7, 8], [1, 1, 1, 2, 2, 2]); gradients = tf.grad(function (a) { return tf.square(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [-6 * 1, 2 * 2, 4 * 3, 6 * 4, -8 * 5, 10 * 6, 24 * 7, 6 * 8]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.square({}); }) .toThrowError(/Argument 'x' passed to 'square' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.square([2, 4, Math.sqrt(2)]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [4, 16, 2]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.square('q'); }) .toThrowError(/Argument 'x' passed to 'square' must be numeric/); }); }); jasmine_util_1.describeWithFlags('reciprocal', jasmine_util_1.ALL_ENVS, function () { it('1D array', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([2, 3, 0, NaN]); r = tf.reciprocal(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / 2, 1 / 3, Infinity, NaN]]); return [2 /*return*/]; } }); }); }); it('2D array', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([1, Infinity, 0, NaN], [2, 2]); r = tf.reciprocal(a); expect(r.shape).toEqual([2, 2]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / 1, 0, Infinity, NaN]]); return [2 /*return*/]; } }); }); }); it('reciprocal propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, NaN]); r = tf.reciprocal(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / 1.5, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.reciprocal(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [-1 * 8 * (1 / (5 * 5))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.reciprocal(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [-1 * 8 * (1 / (5 * 5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.reciprocal(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ -1 * 1 * (1 / (-1 * -1)), -1 * 2 * (1 / (2 * 2)), -1 * 3 * (1 / (3 * 3)), -1 * 4 * (1 / (-5 * -5)) ]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-1, 2, 3, -5], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.reciprocal(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ -1 * 1 * (1 / (-1 * -1)), -1 * 2 * (1 / (2 * 2)), -1 * 3 * (1 / (3 * 3)), -1 * 4 * (1 / (-5 * -5)) ]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.reciprocal({}); }) .toThrowError(/Argument 'x' passed to 'reciprocal' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.reciprocal([2, 3, 0, NaN]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / 2, 1 / 3, Infinity, NaN]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.reciprocal('q'); }) .toThrowError(/Argument 'x' passed to 'reciprocal' must be numeric/); }); }); jasmine_util_1.describeWithFlags('log', jasmine_util_1.ALL_ENVS, function () { it('log', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2]); r = tf.log(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log(1), Math.log(2)]]); return [2 /*return*/]; } }); }); }); it('log 6D', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, expectedResult, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.range(1, 65).reshape([2, 2, 2, 2, 2, 2]); r = tf.log(a); expectedResult = []; for (i = 1; i < 65; i++) { expectedResult[i - 1] = Math.log(i); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), expectedResult]); return [2 /*return*/]; } }); }); }); it('log propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN]); r = tf.log(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log(1), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.log(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 / 5]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.log(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 / 5]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.log(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / -1, 2 / 2, 3 / 3, 4 / -5]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.log(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / -3, 2 / 1, 3 / 2, 4 / 3]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.log({}); }) .toThrowError(/Argument 'x' passed to 'log' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.log([1, 2]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log(1), Math.log(2)]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.log('q'); }) .toThrowError(/Argument 'x' passed to 'log' must be numeric/); }); }); jasmine_util_1.describeWithFlags('log1p', jasmine_util_1.ALL_ENVS, function () { it('log1p', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2]); r = tf.log1p(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log1p(1), Math.log1p(2)]]); return [2 /*return*/]; } }); }); }); it('log1p propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN]); r = tf.log1p(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log1p(1), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.log1p(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 / (1 + 5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { var a = tf.scalar(5); var gradients = tf.grad(function (a) { return a.clone().log1p().clone(); })(a); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.log1p(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [Infinity, 2 / (1 + 2), 3 / (1 + 3), 4 / (1 + -5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.log1p(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 / (1 + -3), 2 / (1 + 1), 3 / (1 + 2), 4 / (1 + 3)]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.log1p({}); }) .toThrowError(/Argument 'x' passed to 'log1p' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.log1p([1, 2]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.log1p(1), Math.log1p(2)]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.log1p('q'); }) .toThrowError(/Argument 'x' passed to 'log1p' must be numeric/); }); }); jasmine_util_1.describeWithFlags('ceil', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, 2.1, -1.4]); r = tf.ceil(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [2, 3, -1]]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, NaN, -1.4]); r = tf.ceil(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [2, NaN, -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.ceil(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.ceil(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1.1, 2.6, 3, -5.9]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.ceil(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2.2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.ceil(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.ceil({}); }) .toThrowError(/Argument 'x' passed to 'ceil' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.ceil([1.5, 2.1, -1.4]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [2, 3, -1]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.ceil('q'); }) .toThrowError(/Argument 'x' passed to 'ceil' must be numeric/); }); }); jasmine_util_1.describeWithFlags('floor', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, 2.1, -1.4]); r = tf.floor(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, -2]]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, NaN, -1.4]); r = tf.floor(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, NaN, -2]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.floor(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.floor(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1.1, 2.6, 3, -5.9]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.floor(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2.2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.floor(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.floor({}); }) .toThrowError(/Argument 'x' passed to 'floor' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.floor([1.5, 2.1, -1.4]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, -2]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.floor('q'); }) .toThrowError(/Argument 'x' passed to 'floor' must be numeric/); }); }); jasmine_util_1.describeWithFlags('sign', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, 0, NaN, -1.4]); r = tf.sign(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, -1]]); return [2 /*return*/]; } }); }); }); it('does not propagate NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, NaN, -1.4]); r = tf.sign(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.sign(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.sign(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1.1, 2.6, 3, -5.9]); dy = tf.tensor1d([-1, 1, 1, -1]); gradients = tf.grad(function (a) { return tf.sign(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2.2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.sign(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.sign({}); }) .toThrowError(/Argument 'x' passed to 'sign' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.sign([1.5, 0, NaN, -1.4]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, -1]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.sign('q'); }) .toThrowError(/Argument 'x' passed to 'sign' must be numeric/); }); }); jasmine_util_1.describeWithFlags('isNaN', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([NaN, Infinity, -Infinity, 0, 1]); r = tf.isNaN(a); expect(r.dtype).toEqual('bool'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(NaN); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.isNaN(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([NaN, Infinity, -Infinity, 0, 1]); dy = tf.tensor1d([1, 1, 1, 1, 1]); gradients = tf.grad(function (a) { return tf.isNaN(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([NaN, Infinity, -Infinity, 0], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.isNaN(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.isNaN({}); }) .toThrowError(/Argument 'x' passed to 'isNaN' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.isNaN([NaN, Infinity, -Infinity, 0, 1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.isNaN('q'); }) .toThrowError(/Argument 'x' passed to 'isNaN' must be numeric/); }); }); jasmine_util_1.describeWithFlags('isInf', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([NaN, Infinity, -Infinity, 0, 1]); r = tf.isInf(a); expect(r.dtype).toEqual('bool'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 1, 1, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(NaN); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.isInf(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([NaN, Infinity, -Infinity, 0, 1]); dy = tf.tensor1d([1, 1, 1, 1, 1]); gradients = tf.grad(function (a) { return tf.isInf(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([NaN, Infinity, -Infinity, 0], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.isInf(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.isInf({}); }) .toThrowError(/Argument 'x' passed to 'isInf' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.isInf([NaN, Infinity, -Infinity, 0, 1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 1, 1, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.isInf('q'); }) .toThrowError(/Argument 'x' passed to 'isInf' must be numeric/); }); }); jasmine_util_1.describeWithFlags('isFinite', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([NaN, Infinity, -Infinity, 0, 1]); r = tf.isFinite(a); expect(r.dtype).toEqual('bool'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 1, 1]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(NaN); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.isFinite(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([NaN, Infinity, -Infinity, 0, 1]); dy = tf.tensor1d([1, 1, 1, 1, 1]); gradients = tf.grad(function (a) { return tf.isFinite(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([NaN, Infinity, -Infinity, 0], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.isFinite(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.isFinite({}); }) .toThrowError(/Argument 'x' passed to 'isFinite' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.isFinite([NaN, Infinity, -Infinity, 0, 1]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 1, 1]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.isFinite('q'); }) .toThrowError(/Argument 'x' passed to 'isFinite' must be numeric/); }); }); jasmine_util_1.describeWithFlags('exp', jasmine_util_1.ALL_ENVS, function () { it('exp', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, 0]); r = tf.exp(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.exp(1), Math.exp(2), 1]]); return [2 /*return*/]; } }); }); }); it('exp propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN, 0]); r = tf.exp(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.exp(1), NaN, 1]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.exp(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 * Math.exp(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.exp(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 * Math.exp(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.exp(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * Math.exp(-1), 2 * Math.exp(2), 3 * Math.exp(3), 4 * Math.exp(-5)], 1e-1]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.exp(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * Math.exp(-3), 2 * Math.exp(1), 3 * Math.exp(2), 4 * Math.exp(3)], 1e-1]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.exp({}); }) .toThrowError(/Argument 'x' passed to 'exp' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.exp([1, 2, 0]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.exp(1), Math.exp(2), 1]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.exp('q'); }) .toThrowError(/Argument 'x' passed to 'exp' must be numeric/); }); }); jasmine_util_1.describeWithFlags('expm1', jasmine_util_1.ALL_ENVS, function () { it('expm1', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, 2, 0]); r = tf.expm1(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.expm1(1), Math.expm1(2), Math.expm1(0)]]); return [2 /*return*/]; } }); }); }); it('expm1 propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN, 0]); r = tf.expm1(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.expm1(1), NaN, Math.expm1(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.expm1(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 * Math.exp(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.expm1(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [3 * Math.exp(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.expm1(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * Math.exp(-1), 2 * Math.exp(2), 3 * Math.exp(3), 4 * Math.exp(-5)], 1e-1]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.expm1(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * Math.exp(-3), 2 * Math.exp(1), 3 * Math.exp(2), 4 * Math.exp(3)], 1e-1]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.expm1({}); }) .toThrowError(/Argument 'x' passed to 'expm1' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.expm1([1, 2, 0]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.expm1(1), Math.expm1(2), Math.expm1(0)]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.expm1('q'); }) .toThrowError(/Argument 'x' passed to 'expm1' must be numeric/); }); }); jasmine_util_1.describeWithFlags('sin', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.sin(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.sin(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.sin(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.sin(4), NaN, Math.sin(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.sin(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.cos(5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.sin(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.cos(5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.sin(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * Math.cos(-1), 2 * Math.cos(2), 3 * Math.cos(3), 4 * Math.cos(-5)], 1e-1]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.sin(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1 * Math.cos(-3), 2 * Math.cos(1), 3 * Math.cos(2), 4 * Math.cos(3)], 1e-1]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.sin({}); }) .toThrowError(/Argument 'x' passed to 'sin' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.sin(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.sin(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.sin('q'); }) .toThrowError(/Argument 'x' passed to 'sin' must be numeric/); }); }); jasmine_util_1.describeWithFlags('cos', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.cos(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.cos(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.cos(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.cos(4), NaN, Math.cos(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.cos(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.sin(5) * -1]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.cos(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.sin(5) * -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1, 2, 3, -5]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.cos(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ 1 * Math.sin(-1) * -1, 2 * Math.sin(2) * -1, 3 * Math.sin(3) * -1, 4 * Math.sin(-5) * -1 ], 1e-1]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.cos(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [ 1 * Math.sin(-3) * -1, 2 * Math.sin(1) * -1, 3 * Math.sin(2) * -1, 4 * Math.sin(3) * -1 ], 1e-1]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.cos({}); }) .toThrowError(/Argument 'x' passed to 'cos' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.cos(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.cos(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.cos('q'); }) .toThrowError(/Argument 'x' passed to 'cos' must be numeric/); }); }); jasmine_util_1.describeWithFlags('tan', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.tan(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.tan(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.tan(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.tan(4), NaN, Math.tan(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.tan(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (Math.cos(0.5) * Math.cos(0.5))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.tan(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (Math.cos(0.5) * Math.cos(0.5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-1, 2, 3, -5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.tan(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / (Math.cos(aValues[i]) * Math.cos(aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); // The grad(tan(x)) which relies on 1/cos(x) is less precise on Windows. _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: // The grad(tan(x)) which relies on 1/cos(x) is less precise on Windows. _a.apply(void 0, [_b.sent(), expected, test_util_1.TEST_EPSILON_FLOAT16]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-3, 1, 2, 3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.tan(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / (Math.cos(aValues[i]) * Math.cos(aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.tan({}); }) .toThrowError(/Argument 'x' passed to 'tan' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.tan(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.tan(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.tan('q'); }) .toThrowError(/Argument 'x' passed to 'tan' must be numeric/); }); }); jasmine_util_1.describeWithFlags('asin', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [.1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.asin(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.asin(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.asin(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.asin(4), NaN, Math.asin(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.asin(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / Math.sqrt(1 - (0.5 * 0.5))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.asin(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / Math.sqrt(1 - (0.5 * 0.5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.1, 0.2, 0.3, -0.5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.asin(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / Math.sqrt(1 - (aValues[i] * aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.3, 0.1, 0.2, 0.3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.asin(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / Math.sqrt(1 - (aValues[i] * aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.asin({}); }) .toThrowError(/Argument 'x' passed to 'asin' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [.1, -3, 2, 7, -4]; result = tf.asin(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.asin(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.asin('q'); }) .toThrowError(/Argument 'x' passed to 'asin' must be numeric/); }); }); jasmine_util_1.describeWithFlags('acos', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [.1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.acos(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.acos(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.acos(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.acos(4), NaN, Math.acos(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.acos(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [(-1 * 8) / Math.sqrt(1 - (0.5 * 0.5))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.acos(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [(-1 * 8) / Math.sqrt(1 - (0.5 * 0.5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.1, 0.2, 0.3, -0.5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.acos(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = (-1 * dyValues[i]) / Math.sqrt(1 - (aValues[i] * aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.3, 0.1, 0.2, 0.3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.acos(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = (-1 * dyValues[i]) / Math.sqrt(1 - (aValues[i] * aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.acos({}); }) .toThrowError(/Argument 'x' passed to 'acos' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [.1, -3, 2, 7, -4]; result = tf.acos(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.acos(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.acos('q'); }) .toThrowError(/Argument 'x' passed to 'acos' must be numeric/); }); }); jasmine_util_1.describeWithFlags('atan', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.atan(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.atan(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('6D atan', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.range(1, 65).reshape([2, 2, 2, 2, 2, 2]); result = tf.atan(a); expected = []; for (i = 1; i < 65; ++i) { expected[i - 1] = Math.atan(i); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.atan(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.atan(4), NaN, Math.atan(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.atan(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (1 + (0.5 * 0.5))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.atan(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (1 + (0.5 * 0.5))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.1, 0.2, 0.3, -0.5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.atan(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / (1 + (aValues[i] * aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.3, 0.1, 0.2, 0.3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.atan(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / (1 + (aValues[i] * aValues[i])); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.atan({}); }) .toThrowError(/Argument 'x' passed to 'atan' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.atan(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.atan(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.atan('q'); }) .toThrowError(/Argument 'x' passed to 'atan' must be numeric/); }); }); jasmine_util_1.describeWithFlags('sinh', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, -1, -4]; a = tf.tensor1d(values); result = tf.sinh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.sinh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.sinh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.sinh(4), NaN, Math.sinh(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.sinh(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.cosh(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.sinh(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.cosh(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-1, 2, 3, -5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.sinh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * Math.cosh(aValues[i]); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-3, 1, 2, 3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.sinh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * Math.cosh(aValues[i]); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.sinh({}); }) .toThrowError(/Argument 'x' passed to 'sinh' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, -1, -4]; result = tf.sinh(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.sinh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.sinh('q'); }) .toThrowError(/Argument 'x' passed to 'sinh' must be numeric/); }); }); jasmine_util_1.describeWithFlags('cosh', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, -1, -4]; a = tf.tensor1d(values); result = tf.cosh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.cosh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.cosh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.cosh(4), NaN, Math.cosh(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.cosh(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.sinh(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.cosh(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * Math.sinh(0.5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-1, 2, 3, -5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.cosh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * Math.sinh(aValues[i]); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-3, 1, 2, 3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.cosh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * Math.sinh(aValues[i]); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.cosh({}); }) .toThrowError(/Argument 'x' passed to 'cosh' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, -1, -4]; result = tf.cosh(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.cosh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.cosh('q'); }) .toThrowError(/Argument 'x' passed to 'cosh' must be numeric/); }); }); jasmine_util_1.describeWithFlags('tanh', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.tanh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = util.tanh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.tanh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [util.tanh(4), NaN, util.tanh(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.tanh(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * (1 - (Math.tanh(0.5) * Math.tanh(0.5)))]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.tanh(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * (1 - (Math.tanh(0.5) * Math.tanh(0.5)))]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-1, 2, 3, -5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.tanh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * (1 - (Math.tanh(aValues[i]) * Math.tanh(aValues[i]))); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-3, 1, 2, 3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.tanh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * (1 - (Math.tanh(aValues[i]) * Math.tanh(aValues[i]))); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.tanh({}); }) .toThrowError(/Argument 'x' passed to 'tanh' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.tanh(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = util.tanh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.tanh('q'); }) .toThrowError(/Argument 'x' passed to 'tanh' must be numeric/); }); }); jasmine_util_1.describeWithFlags('leakyRelu', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([0, 1, -2]); result = tf.leakyRelu(a); expect(result.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 1, -0.4]]); return [2 /*return*/]; } }); }); }); it('propagates NaN', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([0, 1, NaN]); result = tf.leakyRelu(a); expect(result.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 1, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, alpha, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-4); dy = tf.scalar(8); alpha = 0.1; gradients = tf.grad(function (a) { return tf.leakyRelu(a, alpha); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * alpha]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, alpha, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(-4); dy = tf.scalar(8); alpha = 0.1; gradients = tf.grad(function (a) { return tf.leakyRelu(a.clone(), alpha).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * alpha]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, alpha, a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [1, -1, 0.1]; dyValues = [1, 2, 3]; alpha = 0.1; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.leakyRelu(a, alpha); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2 * alpha, 3]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, alpha, a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [1, -1, 0.1, 0.5]; dyValues = [1, 2, 3, 4]; alpha = 0.1; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.leakyRelu(a, alpha); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2 * alpha, 3, 4]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.leakyRelu({}); }) .toThrowError(/Argument 'x' passed to 'leakyRelu' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.leakyRelu([0, 1, -2]); expect(result.shape).toEqual([3]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 1, -0.4]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.leakyRelu('q'); }) .toThrowError(/Argument 'x' passed to 'leakyRelu' must be numeric/); }); }); jasmine_util_1.describeWithFlags('elu', jasmine_util_1.ALL_ENVS, function () { it('calculate elu', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -1, 0]); result = tf.elu(a); expect(result.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, -0.6321, 0]]); return [2 /*return*/]; } }); }); }); it('elu propagates NaN', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN]); result = tf.elu(a); expect(result.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, NaN]]); return [2 /*return*/]; } }); }); }); it('derivative', function () { return __awaiter(_this, void 0, void 0, function () { var x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: x = tf.tensor1d([1, 3, -2]); dy = tf.tensor1d([5, 50, 500]); gradients = tf.grad(function (a) { return tf.elu(a); })(x, dy); expect(gradients.shape).toEqual(x.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [5, 50, 500 * Math.exp(-2)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: x = tf.tensor1d([1, 3, -2]); dy = tf.tensor1d([5, 50, 500]); gradients = tf.grad(function (a) { return tf.elu(a.clone()).clone(); })(x, dy); expect(gradients.shape).toEqual(x.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [5, 50, 500 * Math.exp(-2)]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.elu({}); }) .toThrowError(/Argument 'x' passed to 'elu' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.elu([1, -1, 0]); expect(result.shape).toEqual(result.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, -0.6321, 0]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.elu('q'); }) .toThrowError(/Argument 'x' passed to 'elu' must be numeric/); }); }); jasmine_util_1.describeWithFlags('selu', jasmine_util_1.ALL_ENVS, function () { var scaleAlpha = selu_util.SELU_SCALEALPHA; var scale = selu_util.SELU_SCALE; it('calculate selu', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, -1, 0]); result = tf.selu(a); expect(result.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1.0507, -1.1113, 0]]); return [2 /*return*/]; } }); }); }); it('selu propagates NaN', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1, NaN]); result = tf.selu(a); expect(result.shape).toEqual(a.shape); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1.0507, NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var aValue, dyValue, a, dy, gradients, _a, _b; return __generator(this, function (_c) { switch (_c.label) { case 0: aValue = 1; dyValue = 1; a = tf.scalar(aValue); dy = tf.scalar(dyValue); gradients = tf.grad(function (a) { return tf.selu(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_c.sent(), [dyValue * scale]]); aValue = -1; dyValue = 2; a = tf.scalar(aValue); dy = tf.scalar(dyValue); gradients = tf.grad(function (a) { return tf.selu(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _b = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 2: _b.apply(void 0, [_c.sent(), [dyValue * scaleAlpha * Math.exp(aValue)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var aValue, dyValue, a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValue = 1; dyValue = 1; a = tf.scalar(aValue); dy = tf.scalar(dyValue); gradients = tf.grad(function (a) { return tf.selu(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [dyValue * scale]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [1, -1, 0]; dyValues = [1, 2, 3]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.selu(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { if (aValues[i] > 0) { expected[i] = dyValues[i] * scale; } else { expected[i] = dyValues[i] * scaleAlpha * Math.exp(aValues[i]); } } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [1, -1, 0, 0.5]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.selu(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { if (aValues[i] > 0) { expected[i] = dyValues[i] * scale; } else { expected[i] = dyValues[i] * scaleAlpha * Math.exp(aValues[i]); } } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.selu({}); }) .toThrowError(/Argument 'x' passed to 'selu' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.selu([1, -1, 0]); expect(result.shape).toEqual([3]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [1.0507, -1.1113, 0]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.selu('q'); }) .toThrowError(/Argument 'x' passed to 'selu' must be numeric/); }); }); jasmine_util_1.describeWithFlags('clip', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, min, max, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([3, -1, 0, 100, -7, 2]); min = -1; max = 50; result = tf.clipByValue(a, min, max); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [3, -1, 0, 50, -1, 2]]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, min, max, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([3, -1, 0, 100, -7, 2, NaN]); min = -1; max = 50; result = tf.clipByValue(a, min, max); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [3, -1, 0, 50, -1, 2, NaN]]); return [2 /*return*/]; } }); }); }); it('min greater than max', function () { var a = tf.tensor1d([3, -1, 0, 100, -7, 2]); var min = 1; var max = -1; var f = function () { tf.clipByValue(a, min, max); }; expect(f).toThrowError(); }); it('gradient: 1D tensor', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: min = -1; max = 2; x = tf.tensor1d([3, -2, 1]); dy = tf.tensor1d([5, 50, 500]); gradients = tf.grad(function (x) { return x.clipByValue(min, max); })(x, dy); expect(gradients.shape).toEqual(x.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 500]]); return [2 /*return*/]; } }); }); }); it('gradient: 1D tensor with max or min value', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: min = -1; max = 2; x = tf.tensor1d([-1, 1, 2, 3]); dy = tf.tensor1d([1, 10, 100, 1000]); gradients = tf.grad(function (x) { return x.clipByValue(min, max); })(x, dy); expect(gradients.shape).toEqual(x.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 10, 100, 0]]); return [2 /*return*/]; } }); }); }); it('gradient: scalar', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: min = -1; max = 2; x = tf.scalar(-10); dy = tf.scalar(5); gradients = tf.grad(function (x) { return x.clipByValue(min, max); })(x, dy); expect(gradients.shape).toEqual(x.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: min = -1; max = 2; x = tf.scalar(-10); dy = tf.scalar(5); gradients = tf.grad(function (x) { return x.clone().clipByValue(min, max).clone(); })(x, dy); expect(gradients.shape).toEqual(x.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with primitive as input', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, x, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: min = -1; max = 2; x = -10; dy = tf.scalar(5); gradients = tf.grad(function (x) { return x.clipByValue(min, max); })(x, dy); expect(gradients.shape).toEqual([]); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.clipByValue({}, 0, 1); }) .toThrowError(/Argument 'x' passed to 'clipByValue' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: min = -1; max = 50; result = tf.clipByValue([3, -1, 0, 100, -7, 2], min, max); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [3, -1, 0, 50, -1, 2]]); return [2 /*return*/]; } }); }); }); it('clip(x, eps, 1-eps) never returns 0 or 1', function () { return __awaiter(_this, void 0, void 0, function () { var min, max, res; return __generator(this, function (_a) { switch (_a.label) { case 0: min = tf.backend().epsilon(); max = 0.5; return [4 /*yield*/, tf.clipByValue([0, 1], min, max).data()]; case 1: res = _a.sent(); expect(res[0]).toBeGreaterThan(0); expect(res[1]).toBeCloseTo(max); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.clipByValue('q', 0, 1); }) .toThrowError(/Argument 'x' passed to 'clipByValue' must be numeric/); }); }); jasmine_util_1.describeWithFlags('round', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([0.9, 2.5, 2.3, 1.5, -4.5]); r = a.round(); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 2, 2, -4]]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([1.5, NaN, -1.4]); r = tf.round(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [2, NaN, -1]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.round(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(5.2); dy = tf.scalar(3); gradients = tf.grad(function (a) { return tf.round(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-1.1, 2.6, 3, -5.9]); dy = tf.tensor1d([1, 2, 3, 4]); gradients = tf.grad(function (a) { return tf.round(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor2d([-3, 1, 2.2, 3], [2, 2]); dy = tf.tensor2d([1, 2, 3, 4], [2, 2]); gradients = tf.grad(function (a) { return tf.round(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [0, 0, 0, 0]]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.round({}); }) .toThrowError(/Argument 'x' passed to 'round' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var r, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: r = tf.round([0.9, 2.5, 2.3, 1.5, -4.5]); _a = test_util_1.expectArraysClose; return [4 /*yield*/, r.data()]; case 1: _a.apply(void 0, [_b.sent(), [1, 2, 2, 2, -4]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.round('q'); }) .toThrowError(/Argument 'x' passed to 'round' must be numeric/); }); }); jasmine_util_1.describeWithFlags('asinh', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; a = tf.tensor1d(values); result = tf.asinh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.asinh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(1); result = tf.asinh(a); expected = [Math.asinh(1)]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7]; a = tf.tensor2d(values, [2, 2]); result = tf.asinh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.asinh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 0]); res = tf.asinh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.asinh(4), NaN, Math.asinh(0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.asinh(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / Math.sqrt(1.0 + 0.5 * 0.5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.asinh(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / Math.sqrt(1.0 + 0.5 * 0.5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-1, 2, 3, -5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.asinh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / Math.sqrt(1 + aValues[i] * aValues[i]); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-3, 1, 2, 3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.asinh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / Math.sqrt(1 + aValues[i] * aValues[i]); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.asinh({}); }) .toThrowError(/Argument 'x' passed to 'asinh' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [1, -3, 2, 7, -4]; result = tf.asinh(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.asinh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.asinh('q'); }) .toThrowError(/Argument 'x' passed to 'asinh' must be numeric/); }); }); jasmine_util_1.describeWithFlags('acosh', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [2, 3, 4, 5, 6]; a = tf.tensor1d(values); result = tf.acosh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.acosh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar', function () { return __awaiter(_this, void 0, void 0, function () { var value, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: value = 2; a = tf.scalar(value); result = tf.acosh(a); expected = [Math.acosh(value)]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('tensor2d', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [2, 3, 4, 5]; a = tf.tensor2d(values, [2, 2]); result = tf.acosh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.acosh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, NaN, 2]); res = tf.acosh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.acosh(4), NaN, Math.acosh(2)]]); return [2 /*return*/]; } }); }); }); it('NaN outside function domain', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([4, -1, 2]); res = tf.acosh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.acosh(4), NaN, Math.acosh(2)]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(1.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.acosh(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8.0 / Math.sqrt(1.5 * 1.5 - 1.0)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(1.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.acosh(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8.0 / Math.sqrt(1.5 * 1.5 - 1.0)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [2, 3, 5, 10]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.acosh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / Math.sqrt(Math.pow(aValues[i], 2) - 1.0); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [2, 3, 5, 7]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.acosh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / Math.sqrt(Math.pow(aValues[i], 2) - 1.0); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.acosh({}); }) .toThrowError(/Argument 'x' passed to 'acosh' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var values, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [2, 3, 4, 5, 6]; result = tf.acosh(values); expected = []; for (i = 0; i < values.length; i++) { expected[i] = Math.acosh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.acosh('q'); }) .toThrowError(/Argument 'x' passed to 'acosh' must be numeric/); }); }); jasmine_util_1.describeWithFlags('atanh', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [-0.25, 0.25, 0.5, .75, -0.4]; a = tf.tensor1d(values); result = tf.atanh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.atanh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar', function () { return __awaiter(_this, void 0, void 0, function () { var value, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: value = 0.2; a = tf.scalar(value); result = tf.atanh(a); expected = [Math.atanh(value)]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('tensor2d', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [0.2, 0.3, 0.4, 0.5]; a = tf.tensor2d(values, [2, 2]); result = tf.atanh(a); expected = []; for (i = 0; i < a.size; i++) { expected[i] = Math.atanh(values[i]); } _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([0.5, NaN, 0]); res = tf.atanh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.atanh(0.5), NaN, Math.atanh(0)]]); return [2 /*return*/]; } }); }); }); it('NaN outside function domain', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([-2, 0, 2]); res = tf.atanh(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [NaN, Math.atanh(0), NaN]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.atanh(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (1 - 0.5 * 0.5)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.atanh(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 / (1 - 0.5 * 0.5)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.1, 0.2, 0.3, -0.5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.atanh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / (1 - Math.pow(aValues[i], 2)); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.3, 0.1, 0.2, 0.3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.atanh(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] / (1 - Math.pow(aValues[i], 2)); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.atanh({}); }) .toThrowError(/Argument 'x' passed to 'atanh' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.atanh(0.2); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [Math.atanh(0.2)]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.atanh('q'); }) .toThrowError(/Argument 'x' passed to 'atanh' must be numeric/); }); }); jasmine_util_1.describeWithFlags('erf', jasmine_util_1.ALL_ENVS, function () { it('basic', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [-0.25, 0.25, 0.5, .75, -0.4]; a = tf.tensor1d(values); result = tf.erf(a); expected = [-0.2763264, 0.2763264, 0.5204999, 0.7111556, -0.4283924]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('blowup', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [-1.4, -2.5, -3.1, -4.4]; a = tf.tensor1d(values); result = tf.erf(a); expected = [-0.9522852, -0.999593, -0.9999883, -1]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(1); result = tf.erf(a); expected = [0.8427008]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('scalar in int32', function () { return __awaiter(_this, void 0, void 0, function () { var a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(1, 'int32'); result = tf.erf(a); expected = [0.8427008]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('tensor2d', function () { return __awaiter(_this, void 0, void 0, function () { var values, a, result, expected, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: values = [0.2, 0.3, 0.4, 0.5]; a = tf.tensor2d(values, [2, 2]); result = tf.erf(a); expected = [0.2227026, 0.32862678, 0.42839235, 0.5204999]; _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('propagates NaNs', function () { return __awaiter(_this, void 0, void 0, function () { var a, res, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.tensor1d([0.5, NaN, 0]); res = tf.erf(a); _a = test_util_1.expectArraysClose; return [4 /*yield*/, res.data()]; case 1: _a.apply(void 0, [_b.sent(), [0.5204999, NaN, 0.0]]); return [2 /*return*/]; } }); }); }); it('gradients: Scalar', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.erf(a); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * 2 * Math.exp(-0.5 * 0.5) / Math.sqrt(Math.PI)]]); return [2 /*return*/]; } }); }); }); it('gradient with clones', function () { return __awaiter(_this, void 0, void 0, function () { var a, dy, gradients, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: a = tf.scalar(0.5); dy = tf.scalar(8); gradients = tf.grad(function (a) { return tf.erf(a.clone()).clone(); })(a, dy); expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), [8 * 2 * Math.exp(-0.5 * 0.5) / Math.sqrt(Math.PI)]]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor1D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.1, 0.2, 0.3, -0.5]; dyValues = [1, 2, 3, 4]; a = tf.tensor1d(aValues); dy = tf.tensor1d(dyValues); gradients = tf.grad(function (a) { return tf.erf(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * 2 * Math.exp(-aValues[i] * aValues[i]) / Math.sqrt(Math.PI); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('gradients: Tensor2D', function () { return __awaiter(_this, void 0, void 0, function () { var aValues, dyValues, a, dy, gradients, expected, i, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: aValues = [-0.3, 0.1, 0.2, 0.3]; dyValues = [1, 2, 3, 4]; a = tf.tensor2d(aValues, [2, 2]); dy = tf.tensor2d(dyValues, [2, 2]); gradients = tf.grad(function (a) { return tf.erf(a); })(a, dy); expected = []; for (i = 0; i < a.size; i++) { expected[i] = dyValues[i] * 2 * Math.exp(-aValues[i] * aValues[i]) / Math.sqrt(Math.PI); } expect(gradients.shape).toEqual(a.shape); expect(gradients.dtype).toEqual('float32'); _a = test_util_1.expectArraysClose; return [4 /*yield*/, gradients.data()]; case 1: _a.apply(void 0, [_b.sent(), expected]); return [2 /*return*/]; } }); }); }); it('throws when passed a non-tensor', function () { expect(function () { return tf.erf({}); }) .toThrowError(/Argument 'x' passed to 'erf' must be a Tensor/); }); it('accepts a tensor-like object', function () { return __awaiter(_this, void 0, void 0, function () { var result, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: result = tf.erf(1); _a = test_util_1.expectArraysClose; return [4 /*yield*/, result.data()]; case 1: _a.apply(void 0, [_b.sent(), [0.8427008]]); return [2 /*return*/]; } }); }); }); it('throws for string tensor', function () { expect(function () { return tf.erf('q'); }) .toThrowError(/Argument 'x' passed to 'erf' must be numeric/); }); }); //# sourceMappingURL=unary_ops_test.js.map