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jiuyiUniapp/service/node_modules/react-native/Libraries/StyleSheet/processBackgroundImage.js

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九亿商家端静态页
2025-02-13 09:59:20 +08:00
/**
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*
* @format
* @flow strict-local
*/
'use strict';
import type {ProcessedColorValue} from './processColor';
import type {GradientValue} from './StyleSheetTypes';
const processColor = require('./processColor').default;
const DIRECTION_KEYWORD_REGEX =
/^to\s+(?:top|bottom|left|right)(?:\s+(?:top|bottom|left|right))?/i;
const ANGLE_UNIT_REGEX = /^([+-]?\d*\.?\d+)(deg|grad|rad|turn)$/i;
type LinearGradientDirection =
| {type: 'angle', value: number}
| {type: 'keyword', value: string};
type ParsedGradientValue = {
type: 'linearGradient',
direction: LinearGradientDirection,
colorStops: $ReadOnlyArray<{
color: ProcessedColorValue,
position: number,
}>,
};
const DEFAULT_DIRECTION: LinearGradientDirection = {
type: 'angle',
value: 180,
};
export default function processBackgroundImage(
backgroundImage: ?($ReadOnlyArray<GradientValue> | string),
): $ReadOnlyArray<ParsedGradientValue> {
let result: $ReadOnlyArray<ParsedGradientValue> = [];
if (backgroundImage == null) {
return result;
}
if (typeof backgroundImage === 'string') {
result = parseCSSLinearGradient(backgroundImage.replace(/\n/g, ' '));
} else if (Array.isArray(backgroundImage)) {
for (const bgImage of backgroundImage) {
const processedColorStops: Array<{
color: ProcessedColorValue,
position: number | null,
}> = [];
for (let index = 0; index < bgImage.colorStops.length; index++) {
const colorStop = bgImage.colorStops[index];
const processedColor = processColor(colorStop.color);
if (processedColor == null) {
// If a color is invalid, return an empty array and do not apply gradient. Same as web.
return [];
}
if (colorStop.positions != null && colorStop.positions.length > 0) {
for (const position of colorStop.positions) {
if (position.endsWith('%')) {
processedColorStops.push({
color: processedColor,
position: parseFloat(position) / 100,
});
} else {
// If a position is invalid, return an empty array and do not apply gradient. Same as web.
return [];
}
}
} else {
processedColorStops.push({
color: processedColor,
position: null,
});
}
}
let direction: LinearGradientDirection = DEFAULT_DIRECTION;
const bgDirection =
bgImage.direction != null ? bgImage.direction.toLowerCase() : null;
if (bgDirection != null) {
if (ANGLE_UNIT_REGEX.test(bgDirection)) {
const parsedAngle = getAngleInDegrees(bgDirection);
if (parsedAngle != null) {
direction = {
type: 'angle',
value: parsedAngle,
};
} else {
// If an angle is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
} else if (DIRECTION_KEYWORD_REGEX.test(bgDirection)) {
const parsedDirection = getDirectionForKeyword(bgDirection);
if (parsedDirection != null) {
direction = parsedDirection;
} else {
// If a direction is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
} else {
// If a direction is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
}
const fixedColorStops = getFixedColorStops(processedColorStops);
result = result.concat({
type: 'linearGradient',
direction,
colorStops: fixedColorStops,
});
}
}
return result;
}
function parseCSSLinearGradient(
cssString: string,
): $ReadOnlyArray<ParsedGradientValue> {
const gradients = [];
let match;
// matches one or more linear-gradient functions in CSS
const linearGradientRegex = /linear-gradient\s*\(((?:\([^)]*\)|[^())])*)\)/gi;
while ((match = linearGradientRegex.exec(cssString))) {
const gradientContent = match[1];
const parts = gradientContent.split(',');
let direction: LinearGradientDirection = DEFAULT_DIRECTION;
const trimmedDirection = parts[0].trim().toLowerCase();
// matches individual color stops in a gradient function
// supports various color formats: named colors, hex colors, rgb(a), and hsl(a)
// e.g. "red 20%", "blue 50%", "rgba(0, 0, 0, 0.5) 30% 50%"
// TODO: does not support color hint syntax yet. It is WIP.
const colorStopRegex =
/\s*((?:(?:rgba?|hsla?)\s*\([^)]+\))|#[0-9a-fA-F]+|[a-zA-Z]+)(?:\s+(-?[0-9.]+%?)(?:\s+(-?[0-9.]+%?))?)?\s*/gi;
if (ANGLE_UNIT_REGEX.test(trimmedDirection)) {
const parsedAngle = getAngleInDegrees(trimmedDirection);
if (parsedAngle != null) {
direction = {
type: 'angle',
value: parsedAngle,
};
parts.shift();
} else {
// If an angle is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
} else if (DIRECTION_KEYWORD_REGEX.test(trimmedDirection)) {
const parsedDirection = getDirectionForKeyword(trimmedDirection);
if (parsedDirection != null) {
direction = parsedDirection;
parts.shift();
} else {
// If a direction is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
} else if (!colorStopRegex.test(trimmedDirection)) {
// If first part is not an angle/direction or a color stop, return an empty array and do not apply any gradient. Same as web.
return [];
}
colorStopRegex.lastIndex = 0;
const colorStops = [];
const fullColorStopsStr = parts.join(',');
let colorStopMatch;
while ((colorStopMatch = colorStopRegex.exec(fullColorStopsStr))) {
const [, color, position1, position2] = colorStopMatch;
const processedColor = processColor(color.trim().toLowerCase());
if (processedColor == null) {
// If a color is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
if (typeof position1 !== 'undefined') {
if (position1.endsWith('%')) {
colorStops.push({
color: processedColor,
position: parseFloat(position1) / 100,
});
} else {
// If a position is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
} else {
colorStops.push({
color: processedColor,
position: null,
});
}
if (typeof position2 !== 'undefined') {
if (position2.endsWith('%')) {
colorStops.push({
color: processedColor,
position: parseFloat(position2) / 100,
});
} else {
// If a position is invalid, return an empty array and do not apply any gradient. Same as web.
return [];
}
}
}
const fixedColorStops = getFixedColorStops(colorStops);
gradients.push({
type: 'linearGradient',
direction,
colorStops: fixedColorStops,
});
}
return gradients;
}
function getDirectionForKeyword(direction?: string): ?LinearGradientDirection {
if (direction == null) {
return null;
}
// Remove extra whitespace
const normalized = direction.replace(/\s+/g, ' ').toLowerCase();
switch (normalized) {
case 'to top':
return {type: 'angle', value: 0};
case 'to right':
return {type: 'angle', value: 90};
case 'to bottom':
return {type: 'angle', value: 180};
case 'to left':
return {type: 'angle', value: 270};
case 'to top right':
case 'to right top':
return {type: 'keyword', value: 'to top right'};
case 'to bottom right':
case 'to right bottom':
return {type: 'keyword', value: 'to bottom right'};
case 'to top left':
case 'to left top':
return {type: 'keyword', value: 'to top left'};
case 'to bottom left':
case 'to left bottom':
return {type: 'keyword', value: 'to bottom left'};
default:
return null;
}
}
function getAngleInDegrees(angle?: string): ?number {
if (angle == null) {
return null;
}
const match = angle.match(ANGLE_UNIT_REGEX);
if (!match) {
return null;
}
const [, value, unit] = match;
const numericValue = parseFloat(value);
switch (unit) {
case 'deg':
return numericValue;
case 'grad':
return numericValue * 0.9; // 1 grad = 0.9 degrees
case 'rad':
return (numericValue * 180) / Math.PI;
case 'turn':
return numericValue * 360; // 1 turn = 360 degrees
default:
return null;
}
}
// https://drafts.csswg.org/css-images-4/#color-stop-fixup
function getFixedColorStops(
colorStops: $ReadOnlyArray<{
color: ProcessedColorValue,
position: number | null,
}>,
): Array<{
color: ProcessedColorValue,
position: number,
}> {
let fixedColorStops: Array<{
color: ProcessedColorValue,
position: number,
}> = [];
let hasNullPositions = false;
let maxPositionSoFar = colorStops[0].position ?? 0;
for (let i = 0; i < colorStops.length; i++) {
const colorStop = colorStops[i];
let newPosition = colorStop.position;
if (newPosition === null) {
// Step 1:
// If the first color stop does not have a position,
// set its position to 0%. If the last color stop does not have a position,
// set its position to 100%.
if (i === 0) {
newPosition = 0;
} else if (i === colorStops.length - 1) {
newPosition = 1;
}
}
// Step 2:
// If a color stop or transition hint has a position
// that is less than the specified position of any color stop or transition hint
// before it in the list, set its position to be equal to the
// largest specified position of any color stop or transition hint before it.
if (newPosition !== null) {
newPosition = Math.max(newPosition, maxPositionSoFar);
fixedColorStops[i] = {
color: colorStop.color,
position: newPosition,
};
maxPositionSoFar = newPosition;
} else {
hasNullPositions = true;
}
}
// Step 3:
// If any color stop still does not have a position,
// then, for each run of adjacent color stops without positions,
// set their positions so that they are evenly spaced between the preceding and
// following color stops with positions.
if (hasNullPositions) {
let lastDefinedIndex = 0;
for (let i = 1; i < fixedColorStops.length; i++) {
if (fixedColorStops[i] !== undefined) {
const unpositionedStops = i - lastDefinedIndex - 1;
if (unpositionedStops > 0) {
const startPosition = fixedColorStops[lastDefinedIndex].position;
const endPosition = fixedColorStops[i].position;
const increment =
(endPosition - startPosition) / (unpositionedStops + 1);
for (let j = 1; j <= unpositionedStops; j++) {
fixedColorStops[lastDefinedIndex + j] = {
color: colorStops[lastDefinedIndex + j].color,
position: startPosition + increment * j,
};
}
}
lastDefinedIndex = i;
}
}
}
return fixedColorStops;
}