import { lst } from "./misc.js" // BIDI HELPERS export function iterateBidiSections(order, from, to, f) { if (!order) return f(from, to, "ltr", 0) let found = false for (let i = 0; i < order.length; ++i) { let part = order[i] if (part.from < to && part.to > from || from == to && part.to == from) { f(Math.max(part.from, from), Math.min(part.to, to), part.level == 1 ? "rtl" : "ltr", i) found = true } } if (!found) f(from, to, "ltr") } export let bidiOther = null export function getBidiPartAt(order, ch, sticky) { let found bidiOther = null for (let i = 0; i < order.length; ++i) { let cur = order[i] if (cur.from < ch && cur.to > ch) return i if (cur.to == ch) { if (cur.from != cur.to && sticky == "before") found = i else bidiOther = i } if (cur.from == ch) { if (cur.from != cur.to && sticky != "before") found = i else bidiOther = i } } return found != null ? found : bidiOther } // Bidirectional ordering algorithm // See http://unicode.org/reports/tr9/tr9-13.html for the algorithm // that this (partially) implements. // One-char codes used for character types: // L (L): Left-to-Right // R (R): Right-to-Left // r (AL): Right-to-Left Arabic // 1 (EN): European Number // + (ES): European Number Separator // % (ET): European Number Terminator // n (AN): Arabic Number // , (CS): Common Number Separator // m (NSM): Non-Spacing Mark // b (BN): Boundary Neutral // s (B): Paragraph Separator // t (S): Segment Separator // w (WS): Whitespace // N (ON): Other Neutrals // Returns null if characters are ordered as they appear // (left-to-right), or an array of sections ({from, to, level} // objects) in the order in which they occur visually. let bidiOrdering = (function() { // Character types for codepoints 0 to 0xff let lowTypes = "bbbbbbbbbtstwsbbbbbbbbbbbbbbssstwNN%%%NNNNNN,N,N1111111111NNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNbbbbbbsbbbbbbbbbbbbbbbbbbbbbbbbbb,N%%%%NNNNLNNNNN%%11NLNNN1LNNNNNLLLLLLLLLLLLLLLLLLLLLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLN" // Character types for codepoints 0x600 to 0x6f9 let arabicTypes = "nnnnnnNNr%%r,rNNmmmmmmmmmmmrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrmmmmmmmmmmmmmmmmmmmmmnnnnnnnnnn%nnrrrmrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrmmmmmmmnNmmmmmmrrmmNmmmmrr1111111111" function charType(code) { if (code <= 0xf7) return lowTypes.charAt(code) else if (0x590 <= code && code <= 0x5f4) return "R" else if (0x600 <= code && code <= 0x6f9) return arabicTypes.charAt(code - 0x600) else if (0x6ee <= code && code <= 0x8ac) return "r" else if (0x2000 <= code && code <= 0x200b) return "w" else if (code == 0x200c) return "b" else return "L" } let bidiRE = /[\u0590-\u05f4\u0600-\u06ff\u0700-\u08ac]/ let isNeutral = /[stwN]/, isStrong = /[LRr]/, countsAsLeft = /[Lb1n]/, countsAsNum = /[1n]/ function BidiSpan(level, from, to) { this.level = level this.from = from; this.to = to } return function(str, direction) { let outerType = direction == "ltr" ? "L" : "R" if (str.length == 0 || direction == "ltr" && !bidiRE.test(str)) return false let len = str.length, types = [] for (let i = 0; i < len; ++i) types.push(charType(str.charCodeAt(i))) // W1. Examine each non-spacing mark (NSM) in the level run, and // change the type of the NSM to the type of the previous // character. If the NSM is at the start of the level run, it will // get the type of sor. for (let i = 0, prev = outerType; i < len; ++i) { let type = types[i] if (type == "m") types[i] = prev else prev = type } // W2. Search backwards from each instance of a European number // until the first strong type (R, L, AL, or sor) is found. If an // AL is found, change the type of the European number to Arabic // number. // W3. Change all ALs to R. for (let i = 0, cur = outerType; i < len; ++i) { let type = types[i] if (type == "1" && cur == "r") types[i] = "n" else if (isStrong.test(type)) { cur = type; if (type == "r") types[i] = "R" } } // W4. A single European separator between two European numbers // changes to a European number. A single common separator between // two numbers of the same type changes to that type. for (let i = 1, prev = types[0]; i < len - 1; ++i) { let type = types[i] if (type == "+" && prev == "1" && types[i+1] == "1") types[i] = "1" else if (type == "," && prev == types[i+1] && (prev == "1" || prev == "n")) types[i] = prev prev = type } // W5. A sequence of European terminators adjacent to European // numbers changes to all European numbers. // W6. Otherwise, separators and terminators change to Other // Neutral. for (let i = 0; i < len; ++i) { let type = types[i] if (type == ",") types[i] = "N" else if (type == "%") { let end for (end = i + 1; end < len && types[end] == "%"; ++end) {} let replace = (i && types[i-1] == "!") || (end < len && types[end] == "1") ? "1" : "N" for (let j = i; j < end; ++j) types[j] = replace i = end - 1 } } // W7. Search backwards from each instance of a European number // until the first strong type (R, L, or sor) is found. If an L is // found, then change the type of the European number to L. for (let i = 0, cur = outerType; i < len; ++i) { let type = types[i] if (cur == "L" && type == "1") types[i] = "L" else if (isStrong.test(type)) cur = type } // N1. A sequence of neutrals takes the direction of the // surrounding strong text if the text on both sides has the same // direction. European and Arabic numbers act as if they were R in // terms of their influence on neutrals. Start-of-level-run (sor) // and end-of-level-run (eor) are used at level run boundaries. // N2. Any remaining neutrals take the embedding direction. for (let i = 0; i < len; ++i) { if (isNeutral.test(types[i])) { let end for (end = i + 1; end < len && isNeutral.test(types[end]); ++end) {} let before = (i ? types[i-1] : outerType) == "L" let after = (end < len ? types[end] : outerType) == "L" let replace = before == after ? (before ? "L" : "R") : outerType for (let j = i; j < end; ++j) types[j] = replace i = end - 1 } } // Here we depart from the documented algorithm, in order to avoid // building up an actual levels array. Since there are only three // levels (0, 1, 2) in an implementation that doesn't take // explicit embedding into account, we can build up the order on // the fly, without following the level-based algorithm. let order = [], m for (let i = 0; i < len;) { if (countsAsLeft.test(types[i])) { let start = i for (++i; i < len && countsAsLeft.test(types[i]); ++i) {} order.push(new BidiSpan(0, start, i)) } else { let pos = i, at = order.length for (++i; i < len && types[i] != "L"; ++i) {} for (let j = pos; j < i;) { if (countsAsNum.test(types[j])) { if (pos < j) order.splice(at, 0, new BidiSpan(1, pos, j)) let nstart = j for (++j; j < i && countsAsNum.test(types[j]); ++j) {} order.splice(at, 0, new BidiSpan(2, nstart, j)) pos = j } else ++j } if (pos < i) order.splice(at, 0, new BidiSpan(1, pos, i)) } } if (direction == "ltr") { if (order[0].level == 1 && (m = str.match(/^\s+/))) { order[0].from = m[0].length order.unshift(new BidiSpan(0, 0, m[0].length)) } if (lst(order).level == 1 && (m = str.match(/\s+$/))) { lst(order).to -= m[0].length order.push(new BidiSpan(0, len - m[0].length, len)) } } return direction == "rtl" ? order.reverse() : order } })() // Get the bidi ordering for the given line (and cache it). Returns // false for lines that are fully left-to-right, and an array of // BidiSpan objects otherwise. export function getOrder(line, direction) { let order = line.order if (order == null) order = line.order = bidiOrdering(line.text, direction) return order }