import { ParseTree, renderToText, replaceNodesMatching } from "$sb/lib/tree.ts"; import { FunctionMap, KV, Query, QueryExpression } from "$sb/types.ts"; export function evalQueryExpression( val: QueryExpression, obj: any, functionMap: FunctionMap = {}, ): any { const [type, op1] = val; switch (type) { // Logical operators case "and": return evalQueryExpression(op1, obj, functionMap) && evalQueryExpression(val[2], obj, functionMap); case "or": return evalQueryExpression(op1, obj, functionMap) || evalQueryExpression(val[2], obj, functionMap); // Value types case "null": return null; // TODO: Add this to the actualy query syntax case "not": return !evalQueryExpression(op1, obj, functionMap); case "number": case "string": case "boolean": return op1; case "regexp": return [op1, val[2]]; case "attr": { let attributeVal = obj; if (val.length === 3) { attributeVal = evalQueryExpression(val[1], obj, functionMap); if (attributeVal) { return attributeVal[val[2]]; } else { return null; } } else if (!val[1]) { return obj; } else { return attributeVal[val[1]]; } } case "array": { return op1.map((v) => evalQueryExpression(v, obj, functionMap)); } case "object": return obj; case "call": { const fn = functionMap[op1]; if (!fn) { throw new Error(`Unknown function: ${op1}`); } return fn( ...val[2].map((v) => evalQueryExpression(v, obj, functionMap)), ); } } // Binary operators, here we can pre-calculate the two operand values const val1 = evalQueryExpression(op1, obj, functionMap); const val2 = evalQueryExpression(val[2], obj, functionMap); switch (type) { case "+": return val1 + val2; case "-": return val1 - val2; case "*": return val1 * val2; case "/": return val1 / val2; case "%": return val1 % val2; case "=": { if (Array.isArray(val1) && !Array.isArray(val2)) { // Record property is an array, and value is a scalar: find the value in the array return val1.includes(val2); } else if (Array.isArray(val1) && Array.isArray(val2)) { // Record property is an array, and value is an array: compare the arrays return val1.length === val2.length && val1.every((v) => val2.includes(v)); } return val1 == val2; } case "!=": { if (Array.isArray(val1) && !Array.isArray(val2)) { // Record property is an array, and value is a scalar: find the value in the array return !val1.includes(val2); } else if (Array.isArray(val1) && Array.isArray(val2)) { // Record property is an array, and value is an array: compare the arrays return !(val1.length === val2.length && val1.every((v) => val2.includes(v))); } return val1 != val2; } case "=~": { if (!Array.isArray(val2)) { throw new Error(`Invalid regexp: ${val2}`); } const r = new RegExp(val2[0], val2[1]); return r.test(val1); } case "!=~": { if (!Array.isArray(val2)) { throw new Error(`Invalid regexp: ${val2}`); } const r = new RegExp(val2[0], val2[1]); return !r.test(val1); } case "<": return val1 < val2; case "<=": return val1 <= val2; case ">": return val1 > val2; case ">=": return val1 >= val2; case "in": return val2.includes(val1); default: throw new Error(`Unupported operator: ${type}`); } } /** * Looks for an attribute assignment in the expression, and returns the expression assigned to the attribute or throws an error when not found * Side effect: effectively removes the attribute assignment from the expression (by replacing it with true = true) */ export function liftAttributeFilter( expression: QueryExpression | undefined, attributeName: string, ): QueryExpression { if (!expression) { throw new Error(`Cannot find attribute assignment for ${attributeName}`); } switch (expression[0]) { case "=": { if (expression[1][0] === "attr" && expression[1][1] === attributeName) { const val = expression[2]; // Remove the filter by changing it to true = true expression[1] = ["boolean", true]; expression[2] = ["boolean", true]; return val; } break; } case "and": case "or": { const newOp1 = liftAttributeFilter(expression[1], attributeName); if (newOp1) { return newOp1; } const newOp2 = liftAttributeFilter(expression[2], attributeName); if (newOp2) { return newOp2; } throw new Error(`Cannot find attribute assignment for ${attributeName}`); } } throw new Error(`Cannot find attribute assignment for ${attributeName}`); } export function applyQuery(query: Query, allItems: T[]): T[] { // Filter if (query.filter) { allItems = allItems.filter((item) => evalQueryExpression(query.filter!, item) ); } // Add dummy keys, then remove them return applyQueryNoFilterKV( query, allItems.map((v) => ({ key: [], value: v })), ).map((v) => v.value); } export function applyQueryNoFilterKV( query: Query, allItems: KV[], functionMap: FunctionMap = {}, // TODO: Figure this out later ): KV[] { // Order by if (query.orderBy) { allItems = allItems.sort((a, b) => { const aVal = a.value; const bVal = b.value; for (const { expr, desc } of query.orderBy!) { const evalA = evalQueryExpression(expr, aVal, functionMap); const evalB = evalQueryExpression(expr, bVal, functionMap); if ( evalA < evalB || evalA === undefined ) { return desc ? 1 : -1; } if ( evalA > evalB || evalB === undefined ) { return desc ? -1 : 1; } } // Consider them equal. This helps with comparing arrays (like tags) return 0; }); } if (query.select) { for (let i = 0; i < allItems.length; i++) { const rec = allItems[i].value; const newRec: any = {}; for (const { name, expr } of query.select) { newRec[name] = expr ? evalQueryExpression(expr, rec, functionMap) : rec[name]; } allItems[i].value = newRec; } } if (query.distinct) { // Remove duplicates const valueSet = new Set(); const uniqueItems: KV[] = []; for (const item of allItems) { const value = JSON.stringify(item.value); if (!valueSet.has(value)) { valueSet.add(value); uniqueItems.push(item); } } allItems = uniqueItems; } if (query.limit) { const limit = evalQueryExpression(query.limit, {}, functionMap); if (allItems.length > limit) { allItems = allItems.slice(0, limit); } } return allItems; }