var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __hasOwnProp = Object.prototype.hasOwnProperty; var __markAsModule = (target) => __defProp(target, "__esModule", { value: true }); var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __reExport = (target, module2, copyDefault, desc) => { if (module2 && typeof module2 === "object" || typeof module2 === "function") { for (let key of __getOwnPropNames(module2)) if (!__hasOwnProp.call(target, key) && (copyDefault || key !== "default")) __defProp(target, key, { get: () => module2[key], enumerable: !(desc = __getOwnPropDesc(module2, key)) || desc.enumerable }); } return target; }; var __toCommonJS = /* @__PURE__ */ ((cache) => { return (module2, temp) => { return cache && cache.get(module2) || (temp = __reExport(__markAsModule({}), module2, 1), cache && cache.set(module2, temp), temp); }; })(typeof WeakMap !== "undefined" ? /* @__PURE__ */ new WeakMap() : 0); // dta.ts var dta_exports = {}; __export(dta_exports, { parse: () => parse, set_utils: () => set_utils }); var _utils; function set_utils(utils) { _utils = utils; } function u8_to_dataview(array) { return new DataView(array.buffer, array.byteOffset, array.byteLength); } function valid_inc(p, n) { if (p.str.slice(p.ptr, p.ptr + n.length) != n) return false; p.ptr += n.length; return true; } function skip_end(p, n) { const idx = p.str.indexOf(n, p.ptr); if (idx == -1) throw new Error(`Expected ${n} after offset ${p.ptr}`); p.ptr = idx + n.length; } function slice_end(p, n) { const idx = p.str.indexOf(n, p.ptr); if (idx == -1) throw new Error(`Expected ${n} after offset ${p.ptr}`); const raw = p.raw.slice(p.ptr, idx); const res = { ptr: 0, raw, str: p.str.slice(p.ptr, idx), dv: u8_to_dataview(raw) }; p.ptr = idx + n.length; return res; } function read_f64(p, LE) { p.ptr += 8; const d = p.dv.getFloat64(p.ptr - 8, LE); return d > 8988e304 ? null : d; } function read_f32(p, LE) { p.ptr += 4; const d = p.dv.getFloat32(p.ptr - 4, LE); return d > 1701e35 ? null : d; } function read_u32(p, LE) { p.ptr += 4; return p.dv.getUint32(p.ptr - 4, LE); } function read_i32(p, LE) { p.ptr += 4; const u = p.dv.getInt32(p.ptr - 4, LE); return u > 2147483620 ? null : u; } function read_u16(p, LE) { p.ptr += 2; return p.dv.getUint16(p.ptr - 2, LE); } function read_i16(p, LE) { p.ptr += 2; const u = p.dv.getInt16(p.ptr - 2, LE); return u > 32740 ? null : u; } function read_u8(p) { return p.raw[p.ptr++]; } function read_i8(p) { let u = p.raw[p.ptr++]; u = u < 128 ? u : u - 256; return u > 100 ? null : u; } var SUPPORTED_VERSIONS_TAGGED = [ "117", "118" ]; function parse_tagged(raw) { const err = "Not a DTA file"; const str = new TextDecoder("latin1").decode(raw); const d = { ptr: 0, raw, str, dv: u8_to_dataview(raw) }; let vers = 118; let LE = true; let nvar = 0, nobs = 0, nobs_lo = 0, nobs_hi = 0; let label = "", timestamp = ""; const var_types = []; const var_names = []; const formats = []; if (!valid_inc(d, "")) throw err; { if (!valid_inc(d, "
")) throw err; { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); if (SUPPORTED_VERSIONS_TAGGED.indexOf(res.str) == -1) throw `Unsupported DTA ${res.str} file`; vers = +res.str; } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); switch (res.str) { case "MSF": LE = false; break; case "LSF": LE = true; break; default: throw `Unsupported byteorder ${res.str}`; } } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); nvar = read_u16(res, LE); } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); if (vers == 117) nobs = nobs_lo = read_u32(res, LE); else { const lo = read_u32(res, LE), hi = read_u32(res, LE); nobs = LE ? (nobs_lo = lo) + (nobs_hi = hi) * Math.pow(2, 32) : (nobs_lo = hi) + (nobs_hi = lo) * Math.pow(2, 32); } if (nobs > 1e6) console.error(`More than 1 million observations -- extra rows will be dropped`); } { if (!valid_inc(d, ""); const w = vers >= 118 ? 2 : 1; const strlen = w == 1 ? read_u8(res) : read_u16(res, LE); if (strlen + w != res.str.length) throw `Expected string length ${strlen} but actual length was ${res.str.length - w}`; if (strlen > 0) label = new TextDecoder().decode(res.raw.slice(w)); } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); const strlen = read_u8(res); if (strlen + 1 != res.str.length) throw `Expected string length ${strlen} but actual length was ${res.str.length - 1}`; if (strlen > 0) timestamp = res.str.slice(1); } if (!valid_inc(d, "
")) throw err; } { if (!valid_inc(d, "")) throw err; skip_end(d, ""); } let stride = 0; { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); if (res.raw.length != 2 * nvar) throw `Expected variable_types length ${nvar * 2}, found ${res.raw.length}`; while (res.ptr < res.raw.length) { const type = read_u16(res, LE); var_types.push(type); if (type >= 1 && type <= 2045) stride += type; else switch (type) { case 32768: stride += 8; break; case 65526: stride += 8; break; case 65527: stride += 4; break; case 65528: stride += 4; break; case 65529: stride += 2; break; case 65530: stride += 1; break; default: throw `Unsupported field type ${type}`; } } } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); const w = vers >= 118 ? 129 : 33; if (res.raw.length != w * nvar) throw `Expected variable_types length ${nvar * w}, found ${res.raw.length}`; while (res.ptr < res.raw.length) { const name = new TextDecoder().decode(res.raw.slice(res.ptr, res.ptr + w)); res.ptr += w; var_names.push(name.replace(/\x00[\s\S]*/, "")); } } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); if (res.raw.length != 2 * nvar + 2) throw `Expected sortlist length ${nvar * 2 + 2}, found ${res.raw.length}`; } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); const w = vers >= 118 ? 57 : 49; if (res.raw.length != w * nvar) throw `Expected formats length ${nvar * w}, found ${res.raw.length}`; while (res.ptr < res.raw.length) { const name = new TextDecoder().decode(res.raw.slice(res.ptr, res.ptr + w)); res.ptr += w; formats.push(name.replace(/\x00[\s\S]*/, "")); } } { if (!valid_inc(d, "")) throw err; const w = vers >= 118 ? 129 : 33; const res = slice_end(d, ""); } { if (!valid_inc(d, "")) throw err; const w = vers >= 118 ? 321 : 81; const res = slice_end(d, ""); } { if (!valid_inc(d, "")) throw err; while (d.str.slice(d.ptr, d.ptr + 4) == "") { d.ptr += 4; const len = read_u32(d, LE); d.ptr += len; if (!valid_inc(d, "")) throw err; } if (!valid_inc(d, "")) throw err; } const ws = _utils.aoa_to_sheet([var_names], { dense: true }); var ptrs = []; { if (!valid_inc(d, "")) throw err; for (let R = 0; R < nobs; ++R) { const row = []; for (let C = 0; C < nvar; ++C) { let t = var_types[C]; if (t >= 1 && t <= 2045) { let s = new TextDecoder().decode(d.raw.slice(d.ptr, d.ptr + t)); s = s.replace(/\x00[\s\S]*/, ""); row[C] = s; d.ptr += t; } else switch (t) { case 65526: row[C] = read_f64(d, LE); break; case 65527: row[C] = read_f32(d, LE); break; case 65528: row[C] = read_i32(d, LE); break; case 65529: row[C] = read_i16(d, LE); break; case 65530: row[C] = read_i8(d); break; case 32768: { row[C] = "##SheetJStrL##"; ptrs.push([R + 1, C, d.raw.slice(d.ptr, d.ptr + 8)]); d.ptr += 8; } break; default: throw `Unsupported field type ${t} for ${var_names[C]}`; } } _utils.sheet_add_aoa(ws, [row], { origin: -1, sheetStubs: true }); } if (!valid_inc(d, "")) throw err; } { if (!valid_inc(d, "")) throw err; const strl_tbl = []; while (d.raw[d.ptr] == 71) { if (!valid_inc(d, "GSO")) throw err; const v = read_u32(d, LE); let o = 0; if (vers == 117) o = read_u32(d, LE); else { const lo = read_u32(d, LE), hi = read_u32(d, LE); o = LE ? lo + hi * Math.pow(2, 32) : hi + lo * Math.pow(2, 32); if (o > 1e6) console.error(`More than 1 million observations -- data will be dropped`); } const t = read_u8(d); const len = read_u32(d, LE); if (!strl_tbl[o]) strl_tbl[o] = []; let str2 = ""; if (t == 129) { str2 = new TextDecoder("latin1").decode(d.raw.slice(d.ptr, d.ptr + len)); d.ptr += len; } else { str2 = new TextDecoder("latin1").decode(d.raw.slice(d.ptr, d.ptr + len)).replace(/\x00$/, ""); d.ptr += len; } strl_tbl[o][v] = str2; } if (!valid_inc(d, "")) throw err; ptrs.forEach(([R, C, buf]) => { const dv = u8_to_dataview(buf); let v = 0, o = 0; switch (vers) { case 117: { v = dv.getUint32(0, LE); o = dv.getUint32(4, LE); } break; case 118: case 120: { v = dv.getUint16(0, LE); const o1 = dv.getUint16(2, LE), o2 = dv.getUint32(4, LE); o = LE ? o1 + o2 * 65536 : o2 + o1 * 2 ** 32; } break; case 119: case 121: { const v1 = dv.getUint16(0, LE), v2 = buf[2]; v = LE ? v1 + (v2 << 16) : v2 + (v1 << 8); const o1 = buf[3], o2 = dv.getUint32(4, LE); o = LE ? o1 + o2 * 256 : o2 + o1 * 2 ** 32; } } ws["!data"][R][C].v = strl_tbl[o][v]; }); } { if (!valid_inc(d, "")) throw err; const res = slice_end(d, ""); } if (!valid_inc(d, "
")) throw err; const wb = _utils.book_new(); _utils.book_append_sheet(wb, ws, "Sheet1"); return wb; } function parse_legacy(raw) { let vers = raw[0]; switch (vers) { case 102: case 112: throw `Unsupported DTA ${vers} file`; case 103: case 104: case 105: case 108: case 110: case 111: case 113: case 114: case 115: break; default: throw new Error("Not a DTA file"); } const d = { ptr: 1, raw, str: "", dv: u8_to_dataview(raw) }; let LE = true; let nvar = 0, nobs = 0; let label = "", timestamp = ""; const var_types = []; const var_names = []; const formats = []; { const byteorder = read_u8(d); switch (byteorder) { case 1: LE = false; break; case 2: LE = true; break; default: throw `DTA ${vers} Unexpected byteorder ${byteorder}`; } let byte = read_u8(d); if (byte != 1) throw `DTA ${vers} Unexpected filetype ${byte}`; d.ptr++; nvar = read_u16(d, LE); nobs = read_u32(d, LE); d.ptr += vers >= 108 ? 81 : 32; if (vers >= 105) d.ptr += 18; } { let C = 0; for (C = 0; C < nvar; ++C) var_types.push(read_u8(d)); const w = vers >= 110 ? 33 : 9; for (C = 0; C < nvar; ++C) { var_names.push(new TextDecoder().decode(d.raw.slice(d.ptr, d.ptr + w)).replace(/\x00[\s\S]*$/, "")); d.ptr += w; } d.ptr += 2 * (nvar + 1); const fw = vers >= 114 ? 49 : vers >= 105 ? 12 : 7; for (C = 0; C < nvar; ++C) { formats.push(new TextDecoder().decode(d.raw.slice(d.ptr, d.ptr + fw)).replace(/\x00[\s\S]*$/, "")); d.ptr += fw; } d.ptr += (vers >= 110 ? 33 : 9) * nvar; } d.ptr += (vers >= 106 ? 81 : 32) * nvar; if (vers >= 105) while (d.ptr < d.raw.length) { const dt = read_u8(d), len = (vers >= 111 ? read_u32 : read_u16)(d, LE); if (dt == 0 && len == 0) break; d.ptr += len; } const ws = _utils.aoa_to_sheet([var_names], { dense: true }); for (let R = 0; R < nobs; ++R) { const row = []; for (let C = 0; C < nvar; ++C) { let t = var_types[C]; if (vers >= 111 && t >= 1 && t <= 244) { let s = new TextDecoder().decode(d.raw.slice(d.ptr, d.ptr + t)); s = s.replace(/\x00[\s\S]*/, ""); row[C] = s; d.ptr += t; } else switch (t) { case 251: case 98: row[C] = read_i8(d); break; case 252: case 105: row[C] = read_i16(d, LE); break; case 253: case 108: row[C] = read_i32(d, LE); break; case 254: case 102: row[C] = read_f32(d, LE); break; case 255: case 100: row[C] = read_f64(d, LE); break; default: throw `Unsupported field type ${t} for ${var_names[C]}`; } } _utils.sheet_add_aoa(ws, [row], { origin: -1, sheetStubs: true }); } const wb = _utils.book_new(); _utils.book_append_sheet(wb, ws, "Sheet1"); return wb; } function parse(data) { if (data[0] >= 102 && data[0] <= 115) return parse_legacy(data); if (data[0] === 60) return parse_tagged(data); throw new Error("Not a DTA file"); } module.exports = __toCommonJS(dta_exports); // Annotate the CommonJS export names for ESM import in node: 0 && (module.exports = { parse, set_utils });