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data.js
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data.js
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/**
* @license
* Copyright 2018 Google LLC. 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.
* =============================================================================
*/
const IMAGE_SIZE = 784;
const NUM_CLASSES = 10;
const NUM_DATASET_ELEMENTS = 65000;
const TRAIN_TEST_RATIO = 5 / 6;
const NUM_TRAIN_ELEMENTS = Math.floor(TRAIN_TEST_RATIO * NUM_DATASET_ELEMENTS);
const NUM_TEST_ELEMENTS = NUM_DATASET_ELEMENTS - NUM_TRAIN_ELEMENTS;
const MNIST_IMAGES_SPRITE_PATH =
'https://storage.googleapis.com/learnjs-data/model-builder/mnist_images.png';
const MNIST_LABELS_PATH =
'https://storage.googleapis.com/learnjs-data/model-builder/mnist_labels_uint8';
/**
* A class that fetches the sprited MNIST dataset and returns shuffled batches.
*
* NOTE: This will get much easier. For now, we do data fetching and
* manipulation manually.
*/
export class MnistData {
constructor() {
this.shuffledTrainIndex = 0;
this.shuffledTestIndex = 0;
}
async load() {
// Make a request for the MNIST sprited image.
const img = new Image();
const canvas = document.createElement('canvas');
const ctx = canvas.getContext('2d');
const imgRequest = new Promise((resolve, reject) => {
img.crossOrigin = '';
img.onload = () => {
img.width = img.naturalWidth;
img.height = img.naturalHeight;
const datasetBytesBuffer =
new ArrayBuffer(NUM_DATASET_ELEMENTS * IMAGE_SIZE * 4);
const chunkSize = 5000;
canvas.width = img.width;
canvas.height = chunkSize;
for (let i = 0; i < NUM_DATASET_ELEMENTS / chunkSize; i++) {
const datasetBytesView = new Float32Array(
datasetBytesBuffer, i * IMAGE_SIZE * chunkSize * 4,
IMAGE_SIZE * chunkSize);
ctx.drawImage(
img, 0, i * chunkSize, img.width, chunkSize, 0, 0, img.width,
chunkSize);
const imageData = ctx.getImageData(0, 0, canvas.width, canvas.height);
for (let j = 0; j < imageData.data.length / 4; j++) {
// All channels hold an equal value since the image is grayscale, so
// just read the red channel.
datasetBytesView[j] = imageData.data[j * 4] / 255;
}
}
this.datasetImages = new Float32Array(datasetBytesBuffer);
resolve();
};
img.src = MNIST_IMAGES_SPRITE_PATH;
});
const labelsRequest = fetch(MNIST_LABELS_PATH);
const [imgResponse, labelsResponse] =
await Promise.all([imgRequest, labelsRequest]);
this.datasetLabels = new Uint8Array(await labelsResponse.arrayBuffer());
// Create shuffled indices into the train/test set for when we select a
// random dataset element for training / validation.
this.trainIndices = tf.util.createShuffledIndices(NUM_TRAIN_ELEMENTS);
this.testIndices = tf.util.createShuffledIndices(NUM_TEST_ELEMENTS);
// Slice the the images and labels into train and test sets.
this.trainImages =
this.datasetImages.slice(0, IMAGE_SIZE * NUM_TRAIN_ELEMENTS);
this.testImages = this.datasetImages.slice(IMAGE_SIZE * NUM_TRAIN_ELEMENTS);
this.trainLabels =
this.datasetLabels.slice(0, NUM_CLASSES * NUM_TRAIN_ELEMENTS);
this.testLabels =
this.datasetLabels.slice(NUM_CLASSES * NUM_TRAIN_ELEMENTS);
}
nextTrainBatch(batchSize) {
return this.nextBatch(
batchSize, [this.trainImages, this.trainLabels], () => {
this.shuffledTrainIndex =
(this.shuffledTrainIndex + 1) % this.trainIndices.length;
return this.trainIndices[this.shuffledTrainIndex];
});
}
nextTestBatch(batchSize) {
return this.nextBatch(batchSize, [this.testImages, this.testLabels], () => {
this.shuffledTestIndex =
(this.shuffledTestIndex + 1) % this.testIndices.length;
return this.testIndices[this.shuffledTestIndex];
});
}
nextBatch(batchSize, data, index) {
const batchImagesArray = new Float32Array(batchSize * IMAGE_SIZE);
const batchLabelsArray = new Uint8Array(batchSize * NUM_CLASSES);
for (let i = 0; i < batchSize; i++) {
const idx = index();
const image =
data[0].slice(idx * IMAGE_SIZE, idx * IMAGE_SIZE + IMAGE_SIZE);
batchImagesArray.set(image, i * IMAGE_SIZE);
const label =
data[1].slice(idx * NUM_CLASSES, idx * NUM_CLASSES + NUM_CLASSES);
batchLabelsArray.set(label, i * NUM_CLASSES);
}
const xs = tf.tensor2d(batchImagesArray, [batchSize, IMAGE_SIZE]);
const labels = tf.tensor2d(batchLabelsArray, [batchSize, NUM_CLASSES]);
return {xs, labels};
}
}