react-native/Libraries/Utilities/buildStyleInterpolator.js

212 lines
5.4 KiB
JavaScript

/**
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*
* @format
*/
'use strict';
const keyOf = require('fbjs/lib/keyOf');
const X_DIM = keyOf({x: null});
const Y_DIM = keyOf({y: null});
const Z_DIM = keyOf({z: null});
const InitialOperationField = {
transformTranslate: [0, 0, 0],
transformScale: [1, 1, 1],
};
const InterpolateMatrix = {
transformScale: function(mat, x, y, z) {
mat[0] = mat[0] * x;
mat[1] = mat[1] * x;
mat[2] = mat[2] * x;
mat[3] = mat[3] * x;
mat[4] = mat[4] * y;
mat[5] = mat[5] * y;
mat[6] = mat[6] * y;
mat[7] = mat[7] * y;
mat[8] = mat[8] * z;
mat[9] = mat[9] * z;
mat[10] = mat[10] * z;
mat[11] = mat[11] * z;
},
transformTranslate: function(mat, x, y, z) {
mat[12] = mat[0] * x + mat[4] * y + mat[8] * z + mat[12];
mat[13] = mat[1] * x + mat[5] * y + mat[9] * z + mat[13];
mat[14] = mat[2] * x + mat[6] * y + mat[10] * z + mat[14];
mat[15] = mat[3] * x + mat[7] * y + mat[11] * z + mat[15];
},
};
const computeNextValLinear = function(anim, from, to, value) {
const hasRoundRatio = 'round' in anim;
const roundRatio = anim.round;
let ratio = (value - anim.min) / (anim.max - anim.min);
if (!anim.extrapolate) {
ratio = ratio > 1 ? 1 : ratio < 0 ? 0 : ratio;
}
let nextVal = from * (1 - ratio) + to * ratio;
if (hasRoundRatio) {
nextVal = Math.round(roundRatio * nextVal) / roundRatio;
}
if (!isFinite(nextVal)) {
nextVal = null;
}
return nextVal;
};
const computeNextValLinearScalar = function(anim, value) {
return computeNextValLinear(anim, anim.from, anim.to, value);
};
const setNextValAndDetectChange = function(result, name, nextVal, didChange) {
if (!didChange) {
const prevVal = result[name];
result[name] = nextVal;
didChange = didChange || nextVal !== prevVal;
} else {
result[name] = nextVal;
}
return didChange;
};
const initIdentity = function(mat) {
mat[0] = 1;
mat[1] = 0;
mat[2] = 0;
mat[3] = 0;
mat[4] = 0;
mat[5] = 1;
mat[6] = 0;
mat[7] = 0;
mat[8] = 0;
mat[9] = 0;
mat[10] = 1;
mat[11] = 0;
mat[12] = 0;
mat[13] = 0;
mat[14] = 0;
mat[15] = 1;
};
const computeNextMatrixOperationField = function(
anim,
name,
dim,
index,
value,
) {
if (anim.from[dim] !== undefined && anim.to[dim] !== undefined) {
return computeNextValLinear(anim, anim.from[dim], anim.to[dim], value);
} else {
return InitialOperationField[name][index];
}
};
const computeTransform = function(
anim,
name,
value,
result,
didChange,
didMatrix,
) {
const transform =
result.transform !== undefined
? result.transform
: (result.transform = [{matrix: []}]);
const mat = transform[0].matrix;
const m0 = mat[0];
const m1 = mat[1];
const m2 = mat[2];
const m3 = mat[3];
const m4 = mat[4];
const m5 = mat[5];
const m6 = mat[6];
const m7 = mat[7];
const m8 = mat[8];
const m9 = mat[9];
const m10 = mat[10];
const m11 = mat[11];
const m12 = mat[12];
const m13 = mat[13];
const m14 = mat[14];
const m15 = mat[15];
if (!didMatrix) {
initIdentity(mat); // This will be the first transform.
}
const x = computeNextMatrixOperationField(anim, name, X_DIM, 0, value);
const y = computeNextMatrixOperationField(anim, name, Y_DIM, 1, value);
const z = computeNextMatrixOperationField(anim, name, Z_DIM, 2, value);
InterpolateMatrix[name](mat, x, y, z);
if (!didChange) {
didChange =
m0 !== mat[0] ||
m1 !== mat[1] ||
m2 !== mat[2] ||
m3 !== mat[3] ||
m4 !== mat[4] ||
m5 !== mat[5] ||
m6 !== mat[6] ||
m7 !== mat[7] ||
m8 !== mat[8] ||
m9 !== mat[9] ||
m10 !== mat[10] ||
m11 !== mat[11] ||
m12 !== mat[12] ||
m13 !== mat[13] ||
m14 !== mat[14] ||
m15 !== mat[15];
}
return didChange;
};
/**
* @param {object} anims Animation configuration by style property name.
* @return {function} Function accepting style object, that mutates that style
* object and returns a boolean describing if any update was actually applied.
*/
const buildStyleInterpolator = function(anims) {
function styleInterpolator(result, value) {
let didChange = false;
let didMatrix = false;
for (const name in anims) {
const anim = anims[name];
if (anim.type === 'linear') {
if (name in InterpolateMatrix) {
didChange = computeTransform(
anim,
name,
value,
result,
didChange,
didMatrix,
);
didMatrix = true;
} else {
var next = computeNextValLinearScalar(anim, value);
didChange = setNextValAndDetectChange(result, name, next, didChange);
}
} else if (anim.type === 'constant') {
var next = anim.value;
didChange = setNextValAndDetectChange(result, name, next, didChange);
} else if (anim.type === 'step') {
var next = value >= anim.threshold ? anim.to : anim.from;
didChange = setNextValAndDetectChange(result, name, next, didChange);
} else if (anim.type === 'identity') {
var next = value;
didChange = setNextValAndDetectChange(result, name, next, didChange);
}
}
return didChange;
}
return styleInterpolator;
};
module.exports = buildStyleInterpolator;