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// @ts-check
"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
Object.defineProperty(exports, "Offsets", {
enumerable: true,
get: function() {
return Offsets;
}
});
const _bigSign = /*#__PURE__*/ _interop_require_default(require("../util/bigSign"));
const _remapbitfield = require("./remap-bitfield.js");
function _interop_require_default(obj) {
return obj && obj.__esModule ? obj : {
default: obj
};
}
class Offsets {
constructor(){
/**
* Offsets for the next rule in a given layer
*
* @type {Record<Layer, bigint>}
*/ this.offsets = {
defaults: 0n,
base: 0n,
components: 0n,
utilities: 0n,
variants: 0n,
user: 0n
};
/**
* Positions for a given layer
*
* @type {Record<Layer, bigint>}
*/ this.layerPositions = {
defaults: 0n,
base: 1n,
components: 2n,
utilities: 3n,
// There isn't technically a "user" layer, but we need to give it a position
// Because it's used for ordering user-css from @apply
user: 4n,
variants: 5n
};
/**
* The total number of functions currently registered across all variants (including arbitrary variants)
*
* @type {bigint}
*/ this.reservedVariantBits = 0n;
/**
* Positions for a given variant
*
* @type {Map<string, bigint>}
*/ this.variantOffsets = new Map();
}
/**
* @param {Layer} layer
* @returns {RuleOffset}
*/ create(layer) {
return {
layer,
parentLayer: layer,
arbitrary: 0n,
variants: 0n,
parallelIndex: 0n,
index: this.offsets[layer]++,
propertyOffset: 0n,
property: "",
options: []
};
}
/**
* @param {string} name
* @returns {RuleOffset}
*/ arbitraryProperty(name) {
return {
...this.create("utilities"),
arbitrary: 1n,
property: name
};
}
/**
* Get the offset for a variant
*
* @param {string} variant
* @param {number} index
* @returns {RuleOffset}
*/ forVariant(variant, index = 0) {
let offset = this.variantOffsets.get(variant);
if (offset === undefined) {
throw new Error(`Cannot find offset for unknown variant ${variant}`);
}
return {
...this.create("variants"),
variants: offset << BigInt(index)
};
}
/**
* @param {RuleOffset} rule
* @param {RuleOffset} variant
* @param {VariantOption} options
* @returns {RuleOffset}
*/ applyVariantOffset(rule, variant, options) {
options.variant = variant.variants;
return {
...rule,
layer: "variants",
parentLayer: rule.layer === "variants" ? rule.parentLayer : rule.layer,
variants: rule.variants | variant.variants,
options: options.sort ? [].concat(options, rule.options) : rule.options,
// TODO: Technically this is wrong. We should be handling parallel index on a per variant basis.
// We'll take the max of all the parallel indexes for now.
// @ts-ignore
parallelIndex: max([
rule.parallelIndex,
variant.parallelIndex
])
};
}
/**
* @param {RuleOffset} offset
* @param {number} parallelIndex
* @returns {RuleOffset}
*/ applyParallelOffset(offset, parallelIndex) {
return {
...offset,
parallelIndex: BigInt(parallelIndex)
};
}
/**
* Each variant gets 1 bit per function / rule registered.
* This is because multiple variants can be applied to a single rule and we need to know which ones are present and which ones are not.
* Additionally, every unique group of variants is grouped together in the stylesheet.
*
* This grouping is order-independent. For instance, we do not differentiate between `hover:focus` and `focus:hover`.
*
* @param {string[]} variants
* @param {(name: string) => number} getLength
*/ recordVariants(variants, getLength) {
for (let variant of variants){
this.recordVariant(variant, getLength(variant));
}
}
/**
* The same as `recordVariants` but for a single arbitrary variant at runtime.
* @param {string} variant
* @param {number} fnCount
*
* @returns {RuleOffset} The highest offset for this variant
*/ recordVariant(variant, fnCount = 1) {
this.variantOffsets.set(variant, 1n << this.reservedVariantBits);
// Ensure space is reserved for each "function" in the parallel variant
// by offsetting the next variant by the number of parallel variants
// in the one we just added.
// Single functions that return parallel variants are NOT handled separately here
// They're offset by 1 (or the number of functions) as usual
// And each rule returned is tracked separately since the functions are evaluated lazily.
// @see `RuleOffset.parallelIndex`
this.reservedVariantBits += BigInt(fnCount);
return {
...this.create("variants"),
variants: this.variantOffsets.get(variant)
};
}
/**
* @param {RuleOffset} a
* @param {RuleOffset} b
* @returns {bigint}
*/ compare(a, b) {
// Sort layers together
if (a.layer !== b.layer) {
return this.layerPositions[a.layer] - this.layerPositions[b.layer];
}
// When sorting the `variants` layer, we need to sort based on the parent layer as well within
// this variants layer.
if (a.parentLayer !== b.parentLayer) {
return this.layerPositions[a.parentLayer] - this.layerPositions[b.parentLayer];
}
// Sort based on the sorting function
for (let aOptions of a.options){
for (let bOptions of b.options){
if (aOptions.id !== bOptions.id) continue;
if (!aOptions.sort || !bOptions.sort) continue;
var _max;
let maxFnVariant = (_max = max([
aOptions.variant,
bOptions.variant
])) !== null && _max !== void 0 ? _max : 0n;
// Create a mask of 0s from bits 1..N where N represents the mask of the Nth bit
let mask = ~(maxFnVariant | maxFnVariant - 1n);
let aVariantsAfterFn = a.variants & mask;
let bVariantsAfterFn = b.variants & mask;
// If the variants the same, we _can_ sort them
if (aVariantsAfterFn !== bVariantsAfterFn) {
continue;
}
let result = aOptions.sort({
value: aOptions.value,
modifier: aOptions.modifier
}, {
value: bOptions.value,
modifier: bOptions.modifier
});
if (result !== 0) return result;
}
}
// Sort variants in the order they were registered
if (a.variants !== b.variants) {
return a.variants - b.variants;
}
// Make sure each rule returned by a parallel variant is sorted in ascending order
if (a.parallelIndex !== b.parallelIndex) {
return a.parallelIndex - b.parallelIndex;
}
// Always sort arbitrary properties after other utilities
if (a.arbitrary !== b.arbitrary) {
return a.arbitrary - b.arbitrary;
}
// Always sort arbitrary properties alphabetically
if (a.propertyOffset !== b.propertyOffset) {
return a.propertyOffset - b.propertyOffset;
}
// Sort utilities, components, etc… in the order they were registered
return a.index - b.index;
}
/**
* Arbitrary variants are recorded in the order they're encountered.
* This means that the order is not stable between environments and sets of content files.
*
* In order to make the order stable, we need to remap the arbitrary variant offsets to
* be in alphabetical order starting from the offset of the first arbitrary variant.
*/ recalculateVariantOffsets() {
// Sort the variants by their name
let variants = Array.from(this.variantOffsets.entries()).filter(([v])=>v.startsWith("[")).sort(([a], [z])=>fastCompare(a, z));
// Sort the list of offsets
// This is not necessarily a discrete range of numbers which is why
// we're using sort instead of creating a range from min/max
let newOffsets = variants.map(([, offset])=>offset).sort((a, z)=>(0, _bigSign.default)(a - z));
// Create a map from the old offsets to the new offsets in the new sort order
/** @type {[bigint, bigint][]} */ let mapping = variants.map(([, oldOffset], i)=>[
oldOffset,
newOffsets[i]
]);
// Remove any variants that will not move letting us skip
// remapping if everything happens to be in order
return mapping.filter(([a, z])=>a !== z);
}
/**
* @template T
* @param {[RuleOffset, T][]} list
* @returns {[RuleOffset, T][]}
*/ remapArbitraryVariantOffsets(list) {
let mapping = this.recalculateVariantOffsets();
// No arbitrary variants? Nothing to do.
// Everyhing already in order? Nothing to do.
if (mapping.length === 0) {
return list;
}
// Remap every variant offset in the list
return list.map((item)=>{
let [offset, rule] = item;
offset = {
...offset,
variants: (0, _remapbitfield.remapBitfield)(offset.variants, mapping)
};
return [
offset,
rule
];
});
}
/**
* @template T
* @param {[RuleOffset, T][]} list
* @returns {[RuleOffset, T][]}
*/ sortArbitraryProperties(list) {
// Collect all known arbitrary properties
let known = new Set();
for (let [offset] of list){
if (offset.arbitrary === 1n) {
known.add(offset.property);
}
}
// No arbitrary properties? Nothing to do.
if (known.size === 0) {
return list;
}
// Sort the properties alphabetically
let properties = Array.from(known).sort();
// Create a map from the property name to its offset
let offsets = new Map();
let offset = 1n;
for (let property of properties){
offsets.set(property, offset++);
}
// Apply the sorted offsets to the list
return list.map((item)=>{
let [offset, rule] = item;
var _offsets_get;
offset = {
...offset,
propertyOffset: (_offsets_get = offsets.get(offset.property)) !== null && _offsets_get !== void 0 ? _offsets_get : 0n
};
return [
offset,
rule
];
});
}
/**
* @template T
* @param {[RuleOffset, T][]} list
* @returns {[RuleOffset, T][]}
*/ sort(list) {
// Sort arbitrary variants so they're in alphabetical order
list = this.remapArbitraryVariantOffsets(list);
// Sort arbitrary properties so they're in alphabetical order
list = this.sortArbitraryProperties(list);
return list.sort(([a], [b])=>(0, _bigSign.default)(this.compare(a, b)));
}
}
/**
*
* @param {bigint[]} nums
* @returns {bigint|null}
*/ function max(nums) {
let max = null;
for (const num of nums){
max = max !== null && max !== void 0 ? max : num;
max = max > num ? max : num;
}
return max;
}
/**
* A fast ASCII order string comparison function.
*
* Using `.sort()` without a custom compare function is faster
* But you can only use that if you're sorting an array of
* only strings. If you're sorting strings inside objects
* or arrays, you need must use a custom compare function.
*
* @param {string} a
* @param {string} b
*/ function fastCompare(a, b) {
let aLen = a.length;
let bLen = b.length;
let minLen = aLen < bLen ? aLen : bLen;
for(let i = 0; i < minLen; i++){
let cmp = a.charCodeAt(i) - b.charCodeAt(i);
if (cmp !== 0) return cmp;
}
return aLen - bLen;
}