/* * disj := conj "|" disj * | conj * * conj := cmp "&" conj * | cmpEq * * cmpEq := cmpRel "=" cmpEq * | cmpRel "!=" cmpEq * * cmpRel := sum "<=" cmpRel * | sum "<" cmpRel * | sum ">" cmpRel * | sum ">=" cmpRel * | sum * * sum := prod "+" sum * | prod "-" sum * | prod * * prod := exp "*" prod * | exp "/" prod * | exp * * exp := unary "^" exp * | unary * * unary := "-" unary * | "!" unary * | prim * * prim := nLit * | bLit * | sLit * | ident "(" [disj ["," disj...]] ")" * | ident * | "(" disj ")" */ // a list of tokens indexed by a single pointer class TokenList { constructor(tokens) { this.tokens = tokens; this.ptr = 0; } get here() { if (this.ptr >= this.tokens.length) throw new Error('Reached end of expression'); return this.tokens[this.ptr]; } advance(steps = 1) { this.ptr = Math.min(this.ptr + steps, this.tokens.length); } } // type casts function checkBool(v) { if (typeof v !== 'boolean') throw new Error(`Expected boolean, but got ${typeof v}`); return v; } function checkNum(v) { if (typeof v !== 'number') throw new Error(`Expected number, but got ${typeof v}`); return v; } function checkStr(v) { if (typeof v !== 'string') throw new Error(`Expected string, but got ${typeof v}`); return v; } // properties of items that can be looked up const itemQueryProps = (function() { const props = {}; function prop(names, getProp) { if (Array.isArray(names)) { for (name of names) { props[name] = getProp; } } else { props[names] = getProp; } } function maxId(names, idKey) { prop(names, (i, ie) => ie.get('maxRolls').get(idKey) || 0); } function minId(names, idKey) { prop(names, (i, ie) => ie.get('minRolls').get(idKey) || 0); } function rangeAvg(names, getProp) { prop(names, (i, ie) => { const range = getProp(i, ie); if (!range) return 0; const ndx = range.indexOf('-'); return (parseInt(range.substring(0, ndx), 10) + parseInt(range.substring(ndx + 1), 10)) / 2; }); } function map(names, comps, f) { return prop(names, (i, ie) => { const args = []; for (let k = 0; k < comps.length; k++) args.push(comps[k](i, ie)); return f.apply(null, args); }); } function sum(names, ...comps) { return map(names, comps, (...summands) => { let total = 0; for (let i = 0; i < summands.length; i++) total += summands[i]; return total; }); } prop('name', (i, ie) => i.displayName || i.name); prop('type', (i, ie) => i.type); prop(['cat', 'category'], (i, ie) => i.category); const tierIndices = { Normal: 0, Unique: 1, Set: 2, Rare: 3, Legendary: 4, Fabled: 5, Mythic: 6 }; prop(['rarityname', 'raritystr', 'tiername', 'tierstr'], (i, ie) => i.tier); prop(['rarity', 'tier'], (i, ie) => tierIndices[i.tier]); prop(['level', 'lvl', 'combatlevel', 'combatlvl'], (i, ie) => i.lvl); prop(['strmin', 'strreq'], (i, ie) => i.strReq); prop(['dexmin', 'dexreq'], (i, ie) => i.dexReq); prop(['intmin', 'intreq'], (i, ie) => i.intReq); prop(['defmin', 'defreq'], (i, ie) => i.defReq); prop(['agimin', 'agireq'], (i, ie) => i.agiReq); sum(['summin', 'sumreq', 'totalmin', 'totalreq'], props.strmin, props.dexmin, props.intmin, props.defmin, props.agimin); prop('str', (i, ie) => i.str); prop('dex', (i, ie) => i.dex); prop('int', (i, ie) => i.int); prop('def', (i, ie) => i.def); prop('agi', (i, ie) => i.agi); sum(['skillpoints', 'skillpts', 'attributes', 'attrs'], props.str, props.dex, props.int, props.def, props.agi); rangeAvg(['neutraldmg', 'neutraldam', 'ndmg', 'ndam'], (i, ie) => i.nDam); rangeAvg(['earthdmg', 'earthdam', 'edmg', 'edam'], (i, ie) => i.eDam); rangeAvg(['thunderdmg', 'thunderdam', 'tdmg', 'tdam'], (i, ie) => i.tDam); rangeAvg(['waterdmg', 'waterdam', 'wdmg', 'wdam'], (i, ie) => i.wDam); rangeAvg(['firedmg', 'firedam', 'fdmg', 'fdam'], (i, ie) => i.fDam); rangeAvg(['airdmg', 'airdam', 'admg', 'adam'], (i, ie) => i.aDam); sum(['sumdmg', 'sumdam', 'totaldmg', 'totaldam'], props.ndam, props.edam, props.tdam, props.wdam, props.fdam, props.adam); maxId(['earthdmg%', 'earthdam%', 'edmg%', 'edam%', 'edampct'], 'eDamPct'); maxId(['thunderdmg%', 'thunderdam%', 'tdmg%', 'tdam%', 'tdampct'], 'tDamPct'); maxId(['waterdmg%', 'waterdam%', 'wdmg%', 'wdam%', 'wdampct'], 'wDamPct'); maxId(['firedmg%', 'firedam%', 'fdmg%', 'fdam%', 'fdampct'], 'fDamPct'); maxId(['airdmg%', 'airdam%', 'admg%', 'adam%', 'adampct'], 'aDamPct'); sum(['sumdmg%', 'sumdam%', 'totaldmg%', 'totaldam%', 'sumdampct', 'totaldampct'], props.edampct, props.tdampct, props.wdampct, props.fdampct, props.adampct); maxId(['mainatkdmg', 'mainatkdam', 'mainatkdmg%', 'mainatkdam%', 'meleedmg', 'meleedam', 'meleedmg%', 'meleedam%', 'mdpct'], 'mdPct'); maxId(['mainatkrawdmg', 'mainatkrawdam', 'mainatkneutraldmg', 'mainatkneutraldam', 'meleerawdmg', 'meleerawdam', 'meleeneutraldmg', 'meleeneutraldam', 'mdraw'], 'mdRaw'); maxId(['spelldmg', 'spelldam', 'spelldmg%', 'spelldam%', 'sdpct'], 'sdPct'); maxId(['spellrawdmg', 'spellrawdam', 'spellneutraldmg', 'spellneutraldam', 'sdraw'], 'sdRaw'); const atkSpdIndices = { SUPER_SLOW: -3, VERY_SLOW: -2, SLOW: -1, NORMAL: 0, FAST: 1, VERY_FAST: 2, SUPER_FAST: 3 }; prop(['attackspeed', 'atkspd'], (i, ie) => i.atkSpd ? atkSpdIndices[i.atkSpd] : 0); maxId(['bonusattackspeed', 'bonusatkspd', 'attackspeedid', 'atkspdid', 'attackspeed+', 'atkspd+', 'atktier'], 'atkTier'); sum(['sumattackspeed', 'totalattackspeed', 'sumatkspd', 'totalatkspd', 'sumatktier', 'totalatktier'], props.atkspd, props.atktier); prop(['earthdef', 'edef'], (i, ie) => i.eDef || 0); prop(['thunderdef', 'tdef'], (i, ie) => i.tDef || 0); prop(['waterdef', 'wdef'], (i, ie) => i.wDef || 0); prop(['firedef', 'fdef'], (i, ie) => i.fDef || 0); prop(['airdef', 'adef'], (i, ie) => i.aDef || 0); sum(['sumdef', 'totaldef'], props.edef, props.tdef, props.wdef, props.fdef, props.adef); maxId(['earthdef%', 'edef%', 'edefpct'], 'eDefPct'); maxId(['thunderdef%', 'tdef%', 'tdefpct'], 'tDefPct'); maxId(['waterdef%', 'wdef%', 'wdefpct'], 'wDefPct'); maxId(['firedef%', 'fdef%', 'fdefpct'], 'fDefPct'); maxId(['airdef%', 'adef%', 'adefpct'], 'aDefPct'); sum(['sumdef%', 'totaldef%', 'sumdefpct', 'totaldefpct'], props.edefpct, props.tdefpct, props.wdefpct, props.fdefpct, props.adefpct); prop(['health', 'hp'], (i, ie) => i.hp || 0); maxId(['bonushealth', 'healthid', 'bonushp', 'hpid', 'health+', 'hp+', 'hpbonus'], 'hpBonus'); sum(['sumhealth', 'sumhp', 'totalhealth', 'totalhp'], props.hp, props.hpid); maxId(['hpregen', 'hpr', 'hr', 'hprraw'], 'hprRaw'); maxId(['hpregen%', 'hpr%', 'hr%', 'hprpct'], 'hprPct'); maxId(['lifesteal', 'ls'], 'ls'); maxId(['manaregen', 'mr'], 'mr'); maxId(['manasteal', 'ms'], 'ms'); maxId(['walkspeed', 'movespeed', 'ws', 'spd'], 'spd'); maxId('sprint', 'sprint'); maxId(['sprintregen', 'sprintreg'], 'sprintReg'); maxId(['jumpheight', 'jh'], 'jh'); minId(['spellcost1', 'rawspellcost1', 'spcost1', 'spraw1'], 'spRaw1'); minId(['spellcost1%', 'spcost1%', 'sppct1'], 'spPct1'); minId(['spellcost2', 'rawspellcost2', 'spcost2', 'spraw2'], 'spRaw2'); minId(['spellcost2%', 'spcost2%', 'sppct2'], 'spPct2'); minId(['spellcost3', 'rawspellcost3', 'spcost3', 'spraw3'], 'spRaw3'); minId(['spellcost3%', 'spcost3%', 'sppct3'], 'spPct3'); minId(['spellcost4', 'rawspellcost4', 'spcost4', 'spraw4'], 'spRaw4'); minId(['spellcost4%', 'spcost4%', 'sppct4'], 'spPct4'); sum(['sumspellcost', 'totalspellcost', 'sumrawspellcost', 'totalrawspellcost', 'sumspcost', 'totalspcost', 'sumspraw', 'totalspraw'], props.spraw1, props.spraw2, props.spraw3, props.spraw4); sum(['sumspellcost%', 'totalspellcost%', 'sumspcost%', 'totalspcost%', 'sumsppct', 'totalsppct'], props.sppct1, props.sppct2, props.sppct3, props.sppct4); maxId(['exploding', 'expl', 'expd'], 'expd'); maxId('poison', 'poison'); maxId('thorns', 'thorns'); maxId(['reflection', 'refl', 'ref'], 'ref'); maxId(['soulpointregen', 'spr', 'spregen'], 'spRegen'); maxId(['lootbonus', 'lb'], 'lb'); maxId(['xpbonus', 'xpb', 'xb'], 'xpb'); maxId(['stealing', 'esteal'], 'eSteal'); prop(['powderslots', 'powders', 'slots', 'sockets'], (i, ie) => i.slots || 0); return props; })(); // functions that can be called in query expressions const itemQueryFuncs = { max(args) { if (args.length < 1) throw new Error('Not enough args to max()'); let runningMax = -Infinity; for (let i = 0; i < args.length; i++) { if (checkNum(args[i]) > runningMax) runningMax = args[i]; } return runningMax; }, min(args) { if (args.length < 1) throw new Error('Not enough args to min()'); let runningMin = Infinity; for (let i = 0; i < args.length; i++) { if (checkNum(args[i]) < runningMin) runningMin = args[i]; } return runningMin; }, floor(args) { if (args.length < 1) throw new Error('Not enough args to floor()'); return Math.floor(checkNum(args[0])); }, ceil(args) { if (args.length < 1) throw new Error('Not enough args to ceil()'); return Math.ceil(checkNum(args[0])); }, round(args) { if (args.length < 1) throw new Error('Not enough args to ceil()'); return Math.round(checkNum(args[0])); }, sqrt(args) { if (args.length < 1) throw new Error('Not enough args to ceil()'); return Math.sqrt(checkNum(args[0])); }, abs(args) { if (args.length < 1) throw new Error('Not enough args to ceil()'); return Math.abs(checkNum(args[0])); }, contains(args) { if (args.length < 2) throw new Error('Not enough args to contains()'); return checkStr(args[0]).toLowerCase().includes(checkStr(args[1]).toLowerCase()); }, atkspdmod(args) { if (args.length < 1) throw new Error('Not enough args to atkSpdMod()'); switch (checkNum(args[0])) { case 2: return 3.1; case 1: return 2.5; case 0: return 2.05; case -1: return 1.5; case -2: return 0.83; } if (args[0] <= -3) return 0.51; if (args[0] >= 3) return 4.3; throw new Error('Invalid argument to atkSpdMod()'); } }; // the compiler itself const compileQueryExpr = (function() { // tokenize an expression string function tokenize(exprStr) { exprStr = exprStr.trim(); const tokens = []; let col = 0; function pushSymbol(sym) { tokens.push({ type: 'sym', sym }); col += sym.length; } while (col < exprStr.length) { // parse fixed symbols, like operators and stuff switch (exprStr[col]) { case '(': case ')': case ',': case '&': case '|': case '+': case '-': case '*': case '/': case '^': case '=': pushSymbol(exprStr[col]); continue; case '>': pushSymbol(exprStr[col + 1] === '=' ? '>=' : '>'); continue; case '<': pushSymbol(exprStr[col + 1] === '=' ? '<=' : '<'); continue; case '!': pushSymbol(exprStr[col + 1] === '=' ? '!=' : '!'); continue; case ' ': // ignore extra whitespace ++col; continue; } // parse a numeric literal let m; if ((m = /^\d+(?:\.\d*)?/.exec(exprStr.substring(col))) !== null) { tokens.push({ type: 'num', value: parseFloat(m[0]) }); col += m[0].length; continue; } // parse a string literal if ((m = /^"([^"]+)"/.exec(exprStr.substring(col))) !== null) { // with double-quotes tokens.push({ type: 'str', value: m[1] }); col += m[0].length; continue; } if ((m = /^'([^']+)'/.exec(exprStr.substring(col))) !== null) { // with single-quotes tokens.push({ type: 'str', value: m[1] }); col += m[0].length; continue; } // parse an identifier or boolean literal if ((m = /^\w[\w\d+%]*/.exec(exprStr.substring(col))) !== null) { switch (m[0]) { case 'true': tokens.push({ type: 'bool', value: true }); col += 4; continue; case 'false': tokens.push({ type: 'bool', value: false }); col += 5; continue; } tokens.push({ type: 'id', id: m[0] }); col += m[0].length; continue; } // if we reach here without successfully parsing a token, it's an error throw new Error(`Could not parse character "${exprStr[col]}" at position ${col}`); } tokens.push({ type: 'eof' }); return new TokenList(tokens); } // parse tokens into an ast function takeDisj(tokens) { const left = takeConj(tokens); if (tokens.here.type === 'sym' && tokens.here.sym === '|') { tokens.advance(); const right = takeDisj(tokens); return (i, ie) => checkBool(left(i, ie)) || checkBool(right(i, ie)); } return left; } function takeConj(tokens) { const left = takeCmpEq(tokens); if (tokens.here.type === 'sym' && tokens.here.sym === '&') { tokens.advance(); const right = takeConj(tokens); return (i, ie) => checkBool(left(i, ie)) && checkBool(right(i, ie)); } return left; } function takeCmpEq(tokens) { const left = takeCmpRel(tokens); if (tokens.here.type === 'sym') { switch (tokens.here.sym) { case '=': { tokens.advance(); const right = takeCmpEq(tokens); return (i, ie) => { const a = left(i, ie), b = right(i, ie); if (typeof a !== typeof b) return false; switch (typeof a) { case 'number': return Math.abs(left(i, ie) - right(i, ie)) < 1e-4; case 'boolean': return a === b; case 'string': return a.toLowerCase() === b.toLowerCase(); } throw new Error('???'); // wut }; } case '!=': { tokens.advance(); const right = takeCmpEq(tokens); return (i, ie) => { const a = left(i, ie), b = right(i, ie); if (typeof a !== typeof b) return false; switch (typeof a) { case 'number': return Math.abs(left(i, ie) - right(i, ie)) >= 1e-4; case 'boolean': return a !== b; case 'string': return a.toLowerCase() !== b.toLowerCase(); } throw new Error('???'); // wtf }; } } } return left; } function takeCmpRel(tokens) { const left = takeSum(tokens); if (tokens.here.type === 'sym') { switch (tokens.here.sym) { case '<=': { tokens.advance(); const right = takeCmpRel(tokens); return (i, ie) => checkNum(left(i, ie)) <= checkNum(right(i, ie)); } case '<': { tokens.advance(); const right = takeCmpRel(tokens); return (i, ie) => checkNum(left(i, ie)) < checkNum(right(i, ie)); } case '>': { tokens.advance(); const right = takeCmpRel(tokens); return (i, ie) => checkNum(left(i, ie)) > checkNum(right(i, ie)); } case '>=': { tokens.advance(); const right = takeCmpRel(tokens); return (i, ie) => checkNum(left(i, ie)) >= checkNum(right(i, ie)); } } } return left; } function takeSum(tokens) { const left = takeProd(tokens); if (tokens.here.type === 'sym') { switch (tokens.here.sym) { case '+': { tokens.advance(); const right = takeSum(tokens); return (i, ie) => checkNum(left(i, ie)) + checkNum(right(i, ie)); } case '-': { tokens.advance(); const right = takeSum(tokens); return (i, ie) => checkNum(left(i, ie)) - checkNum(right(i, ie)); } } } return left; } function takeProd(tokens) { const left = takeExp(tokens); if (tokens.here.type === 'sym') { switch (tokens.here.sym) { case '*': { tokens.advance(); const right = takeProd(tokens); return (i, ie) => checkNum(left(i, ie)) * checkNum(right(i, ie)); } case '/': { tokens.advance(); const right = takeProd(tokens); return (i, ie) => checkNum(left(i, ie)) / checkNum(right(i, ie)); } } } return left; } function takeExp(tokens) { const left = takeUnary(tokens); if (tokens.here.type === 'sym' && tokens.here.sym === '^') { tokens.advance(); const right = takeExp(tokens); return (i, ie) => checkNum(left(i, ie)) ** checkNum(right(i, ie)); } return left; } function takeUnary(tokens) { if (tokens.here.type === 'sym') { switch (tokens.here.sym) { case '-': { tokens.advance(); const operand = takeUnary(tokens); return (i, ie) => -checkNum(operand(i, ie)); } case '!': { tokens.advance(); const operand = takeUnary(tokens); return (i, ie) => !checkBool(operand(i, ie)); } } } return takePrim(tokens); } function takePrim(tokens) { switch (tokens.here.type) { case 'num': { const lit = tokens.here.value; tokens.advance(); return (i, ie) => lit; } case 'bool': { const lit = tokens.here.value; tokens.advance(); return (i, ie) => lit; } case 'str': { const lit = tokens.here.value; tokens.advance(); console.log(lit); return (i, ie) => lit; } case 'id': const id = tokens.here.id; tokens.advance(); if (tokens.here.type === 'sym' && tokens.here.sym === '(') { // it's a function call tokens.advance(); const argExprs = []; if (tokens.here.type !== 'sym' || tokens.here.sym !== ')') { arg_iter: // collect arg expressions, if there are any while (true) { argExprs.push(takeDisj(tokens)); if (tokens.here.type === 'sym') { switch (tokens.here.sym) { case ')': tokens.advance(); break arg_iter; case ',': tokens.advance(); continue; } } throw new Error(`Expected "," or ")", but got ${JSON.stringify(tokens.here)}`); } } const func = itemQueryFuncs[id.toLowerCase()]; if (!func) throw new Error(`Unknown function: ${id}`); return (i, ie) => { const args = []; for (let k = 0; k < argExprs.length; k++) args.push(argExprs[k](i, ie)); return func(args); }; } else { // not a function call const prop = itemQueryProps[id.toLowerCase()]; if (!prop) throw new Error(`Unknown property: ${id}`); return prop; } case 'sym': if (tokens.here.sym === '(') { tokens.advance(); const expr = takeDisj(tokens); if (tokens.here.type !== 'sym' || tokens.here.sym !== ')') throw new Error('Bracket mismatch'); tokens.advance(); return expr; } break; } throw new Error(tokens.here.type === 'eof' ? 'Reached end of expression' : `Unexpected token: ${JSON.stringify(tokens.here)}`); } // full compilation function, with extra safety for empty input strings return function(exprStr) { const tokens = tokenize(exprStr); return tokens.tokens.length <= 1 ? null : takeDisj(tokens); }; })();