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Merge pull request #13103 from tschaub/limited-precision-rounding

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Assume limited precision when rounding
This commit is contained in:
Tim Schaub
2021-12-13 11:23:12 -07:00
committed by GitHub
parent 4f6f66f966 78bf0a3679
commit 35a6825f74
4 changed files with 179 additions and 12 deletions
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44
src/ol/math.js
View File

@@ -204,3 +204,47 @@ export function modulo(a, b) {
export function lerp(a, b, x) {
return a + x * (b - a);
}
/**
* Returns a number with a limited number of decimal digits.
* @param {number} n The input number.
* @param {number} decimals The maximum number of decimal digits.
* @return {number} The input number with a limited number of decimal digits.
*/
export function toFixed(n, decimals) {
const factor = Math.pow(10, decimals);
return Math.round(n * factor) / factor;
}
/**
* Rounds a number to the nearest integer value considering only the given number
* of decimal digits (with rounding on the final digit).
* @param {number} n The input number.
* @param {number} decimals The maximum number of decimal digits.
* @return {number} The nearest integer.
*/
export function round(n, decimals) {
return Math.round(toFixed(n, decimals));
}
/**
* Rounds a number to the next smaller integer considering only the given number
* of decimal digits (with rounding on the final digit).
* @param {number} n The input number.
* @param {number} decimals The maximum number of decimal digits.
* @return {number} The next smaller integer.
*/
export function floor(n, decimals) {
return Math.floor(toFixed(n, decimals));
}
/**
* Rounds a number to the next bigger integer considering only the given number
* of decimal digits (with rounding on the final digit).
* @param {number} n The input number.
* @param {number} decimals The maximum number of decimal digits.
* @return {number} The next bigger integer.
*/
export function ceil(n, decimals) {
return Math.ceil(toFixed(n, decimals));
}

35
src/ol/source/ImageWMS.js
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@@ -12,6 +12,7 @@ import {appendParams} from '../uri.js';
import {assert} from '../asserts.js';
import {assign} from '../obj.js';
import {calculateSourceResolution} from '../reproj.js';
import {ceil, floor, round} from '../math.js';
import {compareVersions} from '../string.js';
import {
containsExtent,
@@ -22,6 +23,12 @@ import {
} from '../extent.js';
import {get as getProjection, transform} from '../proj.js';
/**
* Number of decimal digits to consider in integer values when rounding.
* @type {number}
*/
const DECIMALS = 4;
/**
* @const
* @type {import("../size.js").Size}
@@ -197,8 +204,8 @@ class ImageWMS extends ImageSource {
};
assign(baseParams, this.params_, params);
const x = Math.floor((coordinate[0] - extent[0]) / resolution);
const y = Math.floor((extent[3] - coordinate[1]) / resolution);
const x = floor((coordinate[0] - extent[0]) / resolution, DECIMALS);
const y = floor((extent[3] - coordinate[1]) / resolution, DECIMALS);
baseParams[this.v13_ ? 'I' : 'X'] = x;
baseParams[this.v13_ ? 'J' : 'Y'] = y;
@@ -290,17 +297,19 @@ class ImageWMS extends ImageSource {
const imageResolution = resolution / pixelRatio;
const center = getCenter(extent);
const viewWidth = Math.ceil(getWidth(extent) / imageResolution);
const viewHeight = Math.ceil(getHeight(extent) / imageResolution);
const viewWidth = ceil(getWidth(extent) / imageResolution, DECIMALS);
const viewHeight = ceil(getHeight(extent) / imageResolution, DECIMALS);
const viewExtent = getForViewAndSize(center, imageResolution, 0, [
viewWidth,
viewHeight,
]);
const requestWidth = Math.ceil(
(this.ratio_ * getWidth(extent)) / imageResolution
const requestWidth = ceil(
(this.ratio_ * getWidth(extent)) / imageResolution,
DECIMALS
);
const requestHeight = Math.ceil(
(this.ratio_ * getHeight(extent)) / imageResolution
const requestHeight = ceil(
(this.ratio_ * getHeight(extent)) / imageResolution,
DECIMALS
);
const requestExtent = getForViewAndSize(center, imageResolution, 0, [
requestWidth,
@@ -327,8 +336,14 @@ class ImageWMS extends ImageSource {
};
assign(params, this.params_);
this.imageSize_[0] = Math.round(getWidth(requestExtent) / imageResolution);
this.imageSize_[1] = Math.round(getHeight(requestExtent) / imageResolution);
this.imageSize_[0] = round(
getWidth(requestExtent) / imageResolution,
DECIMALS
);
this.imageSize_[1] = round(
getHeight(requestExtent) / imageResolution,
DECIMALS
);
const url = this.getRequestUrl_(
requestExtent,

30
test/browser/spec/ol/source/imagewms.test.js → test/browser/spec/ol/source/ImageWMS.test.js
View File

@@ -3,10 +3,14 @@ import ImageState from '../../../../../src/ol/ImageState.js';
import ImageWMS from '../../../../../src/ol/source/ImageWMS.js';
import Map from '../../../../../src/ol/Map.js';
import View from '../../../../../src/ol/View.js';
import {getHeight, getWidth} from '../../../../../src/ol/extent.js';
import {
getForViewAndSize,
getHeight,
getWidth,
} from '../../../../../src/ol/extent.js';
import {get as getProjection} from '../../../../../src/ol/proj.js';
describe('ol.source.ImageWMS', function () {
describe('ol/source/ImageWMS', function () {
let extent, pixelRatio, options, optionsReproj, projection, resolution;
beforeEach(function () {
extent = [10, 20, 30, 40];
@@ -87,6 +91,28 @@ describe('ol.source.ImageWMS', function () {
expect(height).to.be(Math.round(height));
});
it('does not request extra pixels due to floating point issues', function () {
const source = new ImageWMS({
params: {LAYERS: 'layer'},
url: 'http://example.com/wms',
ratio: 1,
});
const mapSize = [1110, 670];
const rotation = 0;
const resolution = 354.64216525539024;
const center = [1224885.7248147277, 6681822.177576577];
const extent = getForViewAndSize(center, resolution, rotation, mapSize);
const projection = getProjection('EPSG:3857');
const image = source.getImage(extent, resolution, 1, projection);
const params = new URL(image.src_).searchParams;
const imageWidth = Number(params.get('WIDTH'));
const imageHeight = Number(params.get('HEIGHT'));
expect(imageWidth).to.be(mapSize[0]);
expect(imageHeight).to.be(mapSize[1]);
});
it('sets WIDTH and HEIGHT to match the aspect ratio of BBOX', function () {
const source = new ImageWMS(options);
const image = source.getImage(extent, resolution, pixelRatio, projection);

82
test/node/ol/math.test.js
View File

@@ -1,12 +1,16 @@
import expect from '../expect.js';
import {
ceil,
clamp,
cosh,
floor,
lerp,
log2,
modulo,
round,
solveLinearSystem,
toDegrees,
toFixed,
toRadians,
} from '../../../src/ol/math.js';
@@ -162,4 +166,82 @@ describe('ol/math.js', () => {
expect(lerp(0.25, 0.75, 0.5)).to.be(0.5);
});
});
describe('toFixed', () => {
it('returns a number with a limited number of decimals', () => {
expect(toFixed(0.123456789, 3)).to.be(0.123);
});
it('rounds up', () => {
expect(toFixed(0.123456789, 4)).to.be(0.1235);
});
const cases = [
[1.23456789, 0],
[1.23456789, 1],
[1.23456789, 2],
[1.23456789, 3],
[1.23456789, 4],
[1.23456789, 5],
[1.23456789, 6],
[1.23456789, 7],
[1.23456789, 8],
[1.23456789, 9],
[1.23456789, 10],
];
for (const c of cases) {
it(`provides numeric equivalent of (${c[0]}).toFixed(${c[1]})`, () => {
const string = c[0].toFixed(c[1]);
const expected = parseFloat(string);
const actual = toFixed(c[0], c[1]);
expect(actual).to.be(expected);
});
}
});
describe('round', () => {
const cases = [
[1.23, 2, 1],
[3.45, 1, 4],
[3.45, 2, 3],
[-3.45, 1, -3],
[-3.45, 2, -3],
];
for (const c of cases) {
it(`works for round(${c[0]}, ${c[1]})`, () => {
expect(round(c[0], c[1])).to.be(c[2]);
});
}
});
describe('floor', () => {
const cases = [
[3.999, 4, 3],
[3.999, 2, 4],
[-3.01, 2, -4],
[-3.01, 1, -3],
];
for (const c of cases) {
it(`works for floor(${c[0]}, ${c[1]})`, () => {
expect(floor(c[0], c[1])).to.be(c[2]);
});
}
});
describe('ceil', () => {
const cases = [
[4.001, 4, 5],
[4.001, 2, 4],
[-3.99, 3, -3],
[-3.99, 1, -4],
];
for (const c of cases) {
it(`works for ceil(${c[0]}, ${c[1]})`, () => {
expect(ceil(c[0], c[1])).to.be(c[2]);
});
}
});
});