xsheetjs/modules/83_numbers.ts
2022-03-24 17:12:55 -07:00

1022 lines
38 KiB
TypeScript

/*! sheetjs (C) 2013-present SheetJS -- http://sheetjs.com */
/// <reference path="src/types.ts"/>
/* these are type imports and do not show up in the generated JS */
import { CFB$Container, CFB$Entry } from 'cfb';
import { WorkBook, WorkSheet, Range, CellObject } from '../';
import type { utils } from "../";
declare var encode_cell: typeof utils.encode_cell;
declare var encode_range: typeof utils.encode_range;
declare var book_new: typeof utils.book_new;
declare var book_append_sheet: typeof utils.book_append_sheet;
declare var sheet_to_json: typeof utils.sheet_to_json;
declare var decode_range: typeof utils.decode_range;
import * as _CFB from 'cfb';
declare var CFB: typeof _CFB;
//<<import { utils } from "../../";
//<<const { encode_cell, encode_range, book_new, book_append_sheet } = utils;
function u8_to_dataview(array: Uint8Array): DataView { return new DataView(array.buffer, array.byteOffset, array.byteLength); }
//<<export { u8_to_dataview };
function u8str(u8: Uint8Array): string { return /* Buffer.isBuffer(u8) ? u8.toString() :*/ typeof TextDecoder != "undefined" ? new TextDecoder().decode(u8) : utf8read(a2s(u8)); }
function stru8(str: string): Uint8Array { return typeof TextEncoder != "undefined" ? new TextEncoder().encode(str) : s2a(utf8write(str)) as Uint8Array; }
//<<export { u8str, stru8 };
function u8contains(body: Uint8Array, search: Uint8Array): boolean {
outer: for(var L = 0; L <= body.length - search.length; ++L) {
for(var j = 0; j < search.length; ++j) if(body[L+j] != search[j]) continue outer;
return true;
}
return false;
}
//<<export { u8contains }
/** Concatenate Uint8Arrays */
function u8concat(u8a: Uint8Array[]): Uint8Array {
var len = u8a.reduce((acc: number, x: Uint8Array) => acc + x.length, 0);
var out = new Uint8Array(len);
var off = 0;
u8a.forEach(u8 => { out.set(u8, off); off += u8.length; });
return out;
}
//<<export { u8concat };
/** Count the number of bits set (assuming int32_t interpretation) */
function popcnt(x: number): number {
x -= ((x >> 1) & 0x55555555);
x = (x & 0x33333333) + ((x >> 2) & 0x33333333);
return (((x + (x >> 4)) & 0x0F0F0F0F) * 0x01010101) >>> 24;
}
/** Read a 128-bit decimal from the modern cell storage */
function readDecimal128LE(buf: Uint8Array, offset: number): number {
var exp = ((buf[offset + 15] & 0x7F) << 7) | (buf[offset + 14] >> 1);
var mantissa = buf[offset + 14] & 1;
for(var j = offset + 13; j >= offset; --j) mantissa = mantissa * 256 + buf[j];
return ((buf[offset+15] & 0x80) ? -mantissa : mantissa) * Math.pow(10, exp - 0x1820);
}
/** Write a 128-bit decimal to the modern cell storage */
function writeDecimal128LE(buf: Uint8Array, offset: number, value: number): void {
// TODO: something more correct than this
var exp = Math.floor(value == 0 ? 0 : /*Math.log10*/Math.LOG10E * Math.log(Math.abs(value))) + 0x1820 - 20;
var mantissa = (value / Math.pow(10, exp - 0x1820));
buf[offset+15] |= exp >> 7;
buf[offset+14] |= (exp & 0x7F) << 1;
for(var i = 0; mantissa >= 1; ++i, mantissa /= 256) buf[offset + i] = mantissa & 0xFF;
buf[offset+15] |= (value >= 0 ? 0 : 0x80);
}
type Ptr = [number];
/** Parse an integer from the varint that can be exactly stored in a double */
function parse_varint49(buf: Uint8Array, ptr?: Ptr): number {
var l = ptr ? ptr[0] : 0;
var usz = buf[l] & 0x7F;
varint: if(buf[l++] >= 0x80) {
usz |= (buf[l] & 0x7F) << 7; if(buf[l++] < 0x80) break varint;
usz |= (buf[l] & 0x7F) << 14; if(buf[l++] < 0x80) break varint;
usz |= (buf[l] & 0x7F) << 21; if(buf[l++] < 0x80) break varint;
usz += (buf[l] & 0x7F) * Math.pow(2, 28); ++l; if(buf[l++] < 0x80) break varint;
usz += (buf[l] & 0x7F) * Math.pow(2, 35); ++l; if(buf[l++] < 0x80) break varint;
usz += (buf[l] & 0x7F) * Math.pow(2, 42); ++l; if(buf[l++] < 0x80) break varint;
}
if(ptr) ptr[0] = l;
return usz;
}
function write_varint49(v: number): Uint8Array {
var usz = new Uint8Array(7);
usz[0] = (v & 0x7F);
var L = 1;
sz: if(v > 0x7F) {
usz[L-1] |= 0x80; usz[L] = (v >> 7) & 0x7F; ++L;
if(v <= 0x3FFF) break sz;
usz[L-1] |= 0x80; usz[L] = (v >> 14) & 0x7F; ++L;
if(v <= 0x1FFFFF) break sz;
usz[L-1] |= 0x80; usz[L] = (v >> 21) & 0x7F; ++L;
if(v <= 0xFFFFFFF) break sz;
usz[L-1] |= 0x80; usz[L] = ((v/0x100) >>> 21) & 0x7F; ++L;
if(v <= 0x7FFFFFFFF) break sz;
usz[L-1] |= 0x80; usz[L] = ((v/0x10000) >>> 21) & 0x7F; ++L;
if(v <= 0x3FFFFFFFFFF) break sz;
usz[L-1] |= 0x80; usz[L] = ((v/0x1000000) >>> 21) & 0x7F; ++L;
}
return usz.slice(0, L);
}
//<<export { parse_varint49, write_varint49 };
/** Parse a 32-bit signed integer from the raw varint */
function varint_to_i32(buf: Uint8Array): number {
var l = 0, i32 = buf[l] & 0x7F;
varint: if(buf[l++] >= 0x80) {
i32 |= (buf[l] & 0x7F) << 7; if(buf[l++] < 0x80) break varint;
i32 |= (buf[l] & 0x7F) << 14; if(buf[l++] < 0x80) break varint;
i32 |= (buf[l] & 0x7F) << 21; if(buf[l++] < 0x80) break varint;
i32 |= (buf[l] & 0x7F) << 28;
}
return i32;
}
//<<export { varint_to_i32 };
interface ProtoItem {
data: Uint8Array;
type: number;
}
type ProtoField = Array<ProtoItem>
type ProtoMessage = Array<ProtoField>;
/** Shallow parse of a Protobuf message */
function parse_shallow(buf: Uint8Array): ProtoMessage {
var out: ProtoMessage = [], ptr: Ptr = [0];
while(ptr[0] < buf.length) {
var off = ptr[0];
var num = parse_varint49(buf, ptr);
var type = num & 0x07; num = Math.floor(num / 8);
var len = 0;
var res: Uint8Array;
if(num == 0) break;
switch(type) {
case 0: {
var l = ptr[0];
while(buf[ptr[0]++] >= 0x80);
res = buf.slice(l, ptr[0]);
} break;
case 5: len = 4; res = buf.slice(ptr[0], ptr[0] + len); ptr[0] += len; break;
case 1: len = 8; res = buf.slice(ptr[0], ptr[0] + len); ptr[0] += len; break;
case 2: len = parse_varint49(buf, ptr); res = buf.slice(ptr[0], ptr[0] + len); ptr[0] += len; break;
case 3: // Start group
case 4: // End group
default: throw new Error(`PB Type ${type} for Field ${num} at offset ${off}`);
}
var v: ProtoItem = { data: res, type };
if(out[num] == null) out[num] = [v];
else out[num].push(v);
}
return out;
}
/** Serialize a shallow parse */
function write_shallow(proto: ProtoMessage): Uint8Array {
var out: Uint8Array[] = [];
proto.forEach((field, idx) => {
if(idx == 0) return;
field.forEach(item => {
if(!item.data) return;
out.push(write_varint49(idx * 8 + item.type));
if(item.type == 2) out.push(write_varint49(item.data.length));
out.push(item.data);
});
});
return u8concat(out);
}
//<<export { parse_shallow, write_shallow };
/** Map over each entry in a repeated (or single-value) field */
function mappa<U>(data: ProtoField, cb:(Uint8Array) => U): U[] {
return data?.map(d => cb(d.data)) || [];
}
interface IWAMessage {
/** Metadata in .TSP.MessageInfo */
meta: ProtoMessage;
data: Uint8Array;
}
interface IWAArchiveInfo {
id?: number;
merge?: boolean;
messages?: IWAMessage[];
}
/** Extract all messages from a IWA file */
function parse_iwa_file(buf: Uint8Array): IWAArchiveInfo[] {
var out: IWAArchiveInfo[] = [], ptr: Ptr = [0];
while(ptr[0] < buf.length) {
/* .TSP.ArchiveInfo */
var len = parse_varint49(buf, ptr);
var ai = parse_shallow(buf.slice(ptr[0], ptr[0] + len));
ptr[0] += len;
var res: IWAArchiveInfo = {
/* TODO: technically ID is optional */
id: varint_to_i32(ai[1][0].data),
messages: []
};
ai[2].forEach(b => {
var mi = parse_shallow(b.data);
var fl = varint_to_i32(mi[3][0].data);
res.messages.push({
meta: mi,
data: buf.slice(ptr[0], ptr[0] + fl)
});
ptr[0] += fl;
});
if(ai[3]?.[0]) res.merge = (varint_to_i32(ai[3][0].data) >>> 0) > 0;
out.push(res);
}
return out;
}
function write_iwa_file(ias: IWAArchiveInfo[]): Uint8Array {
var bufs: Uint8Array[] = [];
ias.forEach(ia => {
var ai: ProtoMessage = [ [],
[ {data: write_varint49(ia.id), type: 0} ],
[]
];
if(ia.merge != null) ai[3] = [ { data: write_varint49(+!!ia.merge), type: 0 } ];
var midata: Uint8Array[] = [];
ia.messages.forEach(mi => {
midata.push(mi.data);
mi.meta[3] = [ { type: 0, data: write_varint49(mi.data.length) } ];
ai[2].push({data: write_shallow(mi.meta), type: 2});
});
var aipayload = write_shallow(ai);
bufs.push(write_varint49(aipayload.length));
bufs.push(aipayload);
midata.forEach(mid => bufs.push(mid));
});
return u8concat(bufs);
}
//<<export { IWAMessage, IWAArchiveInfo, parse_iwa_file, write_iwa_file };
/** Decompress a snappy chunk */
function parse_snappy_chunk(type: number, buf: Uint8Array): Uint8Array {
if(type != 0) throw new Error(`Unexpected Snappy chunk type ${type}`);
var ptr: Ptr = [0];
var usz = parse_varint49(buf, ptr);
var chunks = [];
while(ptr[0] < buf.length) {
var tag = buf[ptr[0]] & 0x3;
if(tag == 0) {
var len = buf[ptr[0]++] >> 2;
if(len < 60) ++len;
else {
var c = len - 59;
len = buf[ptr[0]];
if(c > 1) len |= (buf[ptr[0]+1]<<8);
if(c > 2) len |= (buf[ptr[0]+2]<<16);
if(c > 3) len |= (buf[ptr[0]+3]<<24);
len >>>=0; len++;
ptr[0] += c;
}
chunks.push(buf.slice(ptr[0], ptr[0] + len)); ptr[0] += len; continue;
} else {
var offset = 0, length = 0;
if(tag == 1) {
length = ((buf[ptr[0]] >> 2) & 0x7) + 4;
offset = (buf[ptr[0]++] & 0xE0) << 3;
offset |= buf[ptr[0]++];
} else {
length = (buf[ptr[0]++] >> 2) + 1;
if(tag == 2) { offset = buf[ptr[0]] | (buf[ptr[0]+1]<<8); ptr[0] += 2; }
else { offset = (buf[ptr[0]] | (buf[ptr[0]+1]<<8) | (buf[ptr[0]+2]<<16) | (buf[ptr[0]+3]<<24))>>>0; ptr[0] += 4; }
}
chunks = [u8concat(chunks)];
if(offset == 0) throw new Error("Invalid offset 0");
if(offset > chunks[0].length) throw new Error("Invalid offset beyond length");
if(length >= offset) {
chunks.push(chunks[0].slice(-offset)); length -= offset;
while(length >= chunks[chunks.length-1].length) {
chunks.push(chunks[chunks.length - 1]);
length -= chunks[chunks.length - 1].length;
}
}
chunks.push(chunks[0].slice(-offset, -offset + length));
}
}
var o = u8concat(chunks);
if(o.length != usz) throw new Error(`Unexpected length: ${o.length} != ${usz}`);
return o;
}
/** Decompress IWA file */
function decompress_iwa_file(buf: Uint8Array): Uint8Array {
var out = [];
var l = 0;
while(l < buf.length) {
var t = buf[l++];
var len = buf[l] | (buf[l+1]<<8) | (buf[l+2] << 16); l += 3;
out.push(parse_snappy_chunk(t, buf.slice(l, l + len)));
l += len;
}
if(l !== buf.length) throw new Error("data is not a valid framed stream!");
return u8concat(out);
}
/** Compress IWA file */
function compress_iwa_file(buf: Uint8Array): Uint8Array {
var out: Uint8Array[] = [];
var l = 0;
while(l < buf.length) {
var c = Math.min(buf.length - l, 0xFFFFFFF);
var frame = new Uint8Array(4);
out.push(frame);
var usz = write_varint49(c);
var L = usz.length;
out.push(usz);
if(c <= 60) { L++; out.push(new Uint8Array([(c - 1)<<2])); }
else if(c <= 0x100) { L += 2; out.push(new Uint8Array([0xF0, (c-1) & 0xFF])); }
else if(c <= 0x10000) { L += 3; out.push(new Uint8Array([0xF4, (c-1) & 0xFF, ((c-1) >> 8) & 0xFF])); }
else if(c <= 0x1000000) { L += 4; out.push(new Uint8Array([0xF8, (c-1) & 0xFF, ((c-1) >> 8) & 0xFF, ((c-1) >> 16) & 0xFF])); }
else if(c <= 0x100000000) { L += 5; out.push(new Uint8Array([0xFC, (c-1) & 0xFF, ((c-1) >> 8) & 0xFF, ((c-1) >> 16) & 0xFF, ((c-1) >>> 24) & 0xFF])); }
out.push(buf.slice(l, l + c)); L += c;
frame[0] = 0;
frame[1] = L & 0xFF; frame[2] = (L >> 8) & 0xFF; frame[3] = (L >> 16) & 0xFF;
l += c;
}
return u8concat(out);
}
//<<export { decompress_iwa_file, compress_iwa_file };
/** Parse "old storage" (version 0..3) */
function parse_old_storage(buf: Uint8Array, sst: string[], rsst: string[], v: 0|1|2|3): CellObject {
var dv = u8_to_dataview(buf);
var flags = dv.getUint32(4, true);
/* TODO: find the correct field position of number formats, formulae, etc */
var data_offset = (v > 1 ? 12 : 8) + popcnt(flags & (v > 1 ? 0x0D8E : 0x018E)) * 4;
var ridx = -1, sidx = -1, ieee = NaN, dt = new Date(2001, 0, 1);
if(flags & 0x0200) { ridx = dv.getUint32(data_offset, true); data_offset += 4; }
data_offset += popcnt(flags & (v > 1 ? 0x3000 : 0x1000)) * 4;
if(flags & 0x0010) { sidx = dv.getUint32(data_offset, true); data_offset += 4; }
if(flags & 0x0020) { ieee = dv.getFloat64(data_offset, true); data_offset += 8; }
if(flags & 0x0040) { dt.setTime(dt.getTime() + dv.getFloat64(data_offset, true) * 1000); data_offset += 8; }
var ret: CellObject;
switch(buf[2]) {
case 0: break; // return { t: "z" }; // blank?
case 2: ret = { t: "n", v: ieee }; break; // number
case 3: ret = { t: "s", v: sst[sidx] }; break; // string
case 5: ret = { t: "d", v: dt }; break; // date-time
case 6: ret = { t: "b", v: ieee > 0 }; break; // boolean
case 7: ret = { t: "n", v: ieee / 86400 }; break; // duration in seconds TODO: emit [hh]:[mm] style format with adjusted value
case 8: ret = { t: "e", v: 0}; break; // "formula error" TODO: enumerate and map errors to csf equivalents
case 9: { // "automatic"?
if(ridx > -1) ret = { t: "s", v: rsst[ridx] };
else if(sidx > -1) ret = { t: "s", v: sst[sidx] };
else if(!isNaN(ieee)) ret = { t: "n", v: ieee };
else throw new Error(`Unsupported cell type ${buf.slice(0,4)}`);
} break;
default: throw new Error(`Unsupported cell type ${buf.slice(0,4)}`);
}
/* TODO: Some fields appear after the cell data */
return ret;
}
/** Parse "new storage" (version 5) */
function parse_new_storage(buf: Uint8Array, sst: string[], rsst: string[]): CellObject {
var dv = u8_to_dataview(buf);
var flags = dv.getUint32(8, true);
/* TODO: find the correct field position of number formats, formulae, etc */
var data_offset = 12;
var ridx = -1, sidx = -1, d128 = NaN, ieee = NaN, dt = new Date(2001, 0, 1);
if(flags & 0x0001) { d128 = readDecimal128LE(buf, data_offset); data_offset += 16; }
if(flags & 0x0002) { ieee = dv.getFloat64(data_offset, true); data_offset += 8; }
if(flags & 0x0004) { dt.setTime(dt.getTime() + dv.getFloat64(data_offset, true) * 1000); data_offset += 8; }
if(flags & 0x0008) { sidx = dv.getUint32(data_offset, true); data_offset += 4; }
if(flags & 0x0010) { ridx = dv.getUint32(data_offset, true); data_offset += 4; }
var ret: CellObject;
switch(buf[1]) {
case 0: break; // return { t: "z" }; // blank?
case 2: ret = { t: "n", v: d128 }; break; // number
case 3: ret = { t: "s", v: sst[sidx] }; break; // string
case 5: ret = { t: "d", v: dt }; break; // date-time
case 6: ret = { t: "b", v: ieee > 0 }; break; // boolean
case 7: ret = { t: "n", v: ieee / 86400 }; break; // duration in seconds TODO: emit [hh]:[mm] style format with adjusted value
case 8: ret = { t: "e", v: 0}; break; // "formula error" TODO: enumerate and map errors to csf equivalents
case 9: { // "automatic"?
if(ridx > -1) ret = { t: "s", v: rsst[ridx] };
else throw new Error(`Unsupported cell type ${buf[1]} : ${flags & 0x1F} : ${buf.slice(0,4)}`);
} break;
case 10: ret = { t: "n", v: d128 }; break; // currency
default: throw new Error(`Unsupported cell type ${buf[1]} : ${flags & 0x1F} : ${buf.slice(0,4)}`);
}
/* TODO: All styling fields appear after the cell data */
return ret;
}
function write_new_storage(cell: CellObject, sst: string[]): Uint8Array {
var out = new Uint8Array(32), dv = u8_to_dataview(out), l = 12, flags = 0;
out[0] = 5;
switch(cell.t) {
case "n": out[1] = 2; writeDecimal128LE(out, l, cell.v as number); flags |= 1; l += 16; break;
case "b": out[1] = 6; dv.setFloat64(l, cell.v ? 1 : 0, true); flags |= 2; l += 8; break;
case "s":
if(sst.indexOf(cell.v as string) == -1) throw new Error(`Value ${cell.v} missing from SST!`);
out[1] = 3; dv.setUint32(l, sst.indexOf(cell.v as string), true); flags |= 8; l += 4; break;
default: throw "unsupported cell type " + cell.t;
}
dv.setUint32(8, flags, true);
return out.slice(0, l);
}
function write_old_storage(cell: CellObject, sst: string[]): Uint8Array {
var out = new Uint8Array(32), dv = u8_to_dataview(out), l = 12, flags = 0;
out[0] = 3;
switch(cell.t) {
case "n": out[2] = 2; dv.setFloat64(l, cell.v as number, true); flags |= 0x20; l += 8; break;
case "b": out[2] = 6; dv.setFloat64(l, cell.v ? 1 : 0, true); flags |= 0x20; l += 8; break;
case "s":
if(sst.indexOf(cell.v as string) == -1) throw new Error(`Value ${cell.v} missing from SST!`);
out[2] = 3; dv.setUint32(l, sst.indexOf(cell.v as string), true); flags |= 0x10; l += 4; break;
default: throw "unsupported cell type " + cell.t;
}
dv.setUint32(4, flags, true);
return out.slice(0, l);
}
//<<export { write_new_storage, write_old_storage };
function parse_cell_storage(buf: Uint8Array, sst: string[], rsst: string[]): CellObject {
switch(buf[0]) {
case 0: case 1:
case 2: case 3: return parse_old_storage(buf, sst, rsst, buf[0]);
case 5: return parse_new_storage(buf, sst, rsst);
default: throw new Error(`Unsupported payload version ${buf[0]}`);
}
}
/** .TSS.StylesheetArchive */
//function parse_TSS_StylesheetArchive(M: IWAMessage[][], root: IWAMessage): void {
// var pb = parse_shallow(root.data);
//}
/** .TSP.Reference */
function parse_TSP_Reference(buf: Uint8Array): number {
var pb = parse_shallow(buf);
return parse_varint49(pb[1][0].data);
}
function write_TSP_Reference(idx: number): Uint8Array {
return write_shallow([
[],
[ { type: 0, data: write_varint49(idx) } ]
]);
}
//<<export { parse_TSP_Reference, write_TSP_Reference };
type MessageSpace = {[id: number]: IWAMessage[]};
/** .TST.TableDataList */
function parse_TST_TableDataList(M: MessageSpace, root: IWAMessage): string[] {
var pb = parse_shallow(root.data);
// .TST.TableDataList.ListType
var type = varint_to_i32(pb[1][0].data);
var entries = pb[3];
var data = [];
(entries||[]).forEach(entry => {
// .TST.TableDataList.ListEntry
var le = parse_shallow(entry.data);
var key = varint_to_i32(le[1][0].data)>>>0;
switch(type) {
case 1: data[key] = u8str(le[3][0].data); break;
case 8: {
// .TSP.RichTextPayloadArchive
var rt = M[parse_TSP_Reference(le[9][0].data)][0];
var rtp = parse_shallow(rt.data);
// .TSWP.StorageArchive
var rtpref = M[parse_TSP_Reference(rtp[1][0].data)][0];
var mtype = varint_to_i32(rtpref.meta[1][0].data);
if(mtype != 2001) throw new Error(`2000 unexpected reference to ${mtype}`);
var tswpsa = parse_shallow(rtpref.data);
data[key] = tswpsa[3].map(x => u8str(x.data)).join("");
} break;
}
});
return data;
}
type TileStorageType = -1 | 0 | 1;
interface TileRowInfo {
/** Row Index */
R: number;
/** Cell Storage */
cells?: Uint8Array[];
}
/** .TSP.TileRowInfo */
function parse_TST_TileRowInfo(u8: Uint8Array, type: TileStorageType): TileRowInfo {
var pb = parse_shallow(u8);
var R = varint_to_i32(pb[1][0].data) >>> 0;
var cnt = varint_to_i32(pb[2][0].data) >>> 0;
// var version = pb?.[5]?.[0] && (varint_to_i32(pb[5][0].data) >>> 0);
var wide_offsets = pb[8]?.[0]?.data && varint_to_i32(pb[8][0].data) > 0 || false;
/* select storage by type (1 = modern / 0 = old / -1 = try modern, old) */
var used_storage_u8: Uint8Array, used_storage: Uint8Array;
if(pb[7]?.[0]?.data && type != 0) { used_storage_u8 = pb[7]?.[0]?.data; used_storage = pb[6]?.[0]?.data; }
else if(pb[4]?.[0]?.data && type != 1) { used_storage_u8 = pb[4]?.[0]?.data; used_storage = pb[3]?.[0]?.data; }
else throw `NUMBERS Tile missing ${type} cell storage`;
/* find all offsets -- 0xFFFF means cells are not present */
var width = wide_offsets ? 4 : 1;
var used_storage_offsets = u8_to_dataview(used_storage_u8);
var offsets: Array<[number, number]> = [];
for(var C = 0; C < used_storage_u8.length / 2; ++C) {
var off = used_storage_offsets.getUint16(C*2, true);
if(off < 65535) offsets.push([C, off]);
}
if(offsets.length != cnt) throw `Expected ${cnt} cells, found ${offsets.length}`;
var cells: Uint8Array[] = [];
for(C = 0; C < offsets.length - 1; ++C) cells[offsets[C][0]] = used_storage.subarray(offsets[C][1] * width, offsets[C+1][1] * width);
if(offsets.length >= 1) cells[offsets[offsets.length - 1][0]] = used_storage.subarray(offsets[offsets.length - 1][1] * width);
return { R, cells };
}
interface TileInfo {
data: Uint8Array[][];
nrows: number;
}
/** .TST.Tile */
function parse_TST_Tile(M: MessageSpace, root: IWAMessage): TileInfo {
var pb = parse_shallow(root.data);
var storage: TileStorageType = (pb?.[7]?.[0]) ? ((varint_to_i32(pb[7][0].data)>>>0) > 0 ? 1 : 0 ) : -1;
var ri = mappa(pb[5], (u8: Uint8Array) => parse_TST_TileRowInfo(u8, storage));
return {
nrows: varint_to_i32(pb[4][0].data)>>>0,
data: ri.reduce((acc, x) => {
if(!acc[x.R]) acc[x.R] = [];
x.cells.forEach((cell, C) => {
if(acc[x.R][C]) throw new Error(`Duplicate cell r=${x.R} c=${C}`);
acc[x.R][C] = cell;
});
return acc;
}, [] as Uint8Array[][])
};
}
/** .TST.TableModelArchive (6001) */
function parse_TST_TableModelArchive(M: MessageSpace, root: IWAMessage, ws: WorkSheet) {
var pb = parse_shallow(root.data);
var range: Range = { s: {r:0, c:0}, e: {r:0, c:0} };
range.e.r = (varint_to_i32(pb[6][0].data) >>> 0) - 1;
if(range.e.r < 0) throw new Error(`Invalid row varint ${pb[6][0].data}`);
range.e.c = (varint_to_i32(pb[7][0].data) >>> 0) - 1;
if(range.e.c < 0) throw new Error(`Invalid col varint ${pb[7][0].data}`);
ws["!ref"] = encode_range(range);
// .TST.DataStore
var store = parse_shallow(pb[4][0].data);
var sst = parse_TST_TableDataList(M, M[parse_TSP_Reference(store[4][0].data)][0]);
var rsst: string[] = store[17]?.[0] ? parse_TST_TableDataList(M, M[parse_TSP_Reference(store[17][0].data)][0]) : [];
// .TST.TileStorage
var tile = parse_shallow(store[3][0].data);
var _R = 0;
/* TODO: should this list be sorted by id ? */
tile[1].forEach(t => {
var tl = (parse_shallow(t.data));
// var id = varint_to_i32(tl[1][0].data);
var ref = M[parse_TSP_Reference(tl[2][0].data)][0];
var mtype = varint_to_i32(ref.meta[1][0].data);
if(mtype != 6002) throw new Error(`6001 unexpected reference to ${mtype}`);
var _tile = parse_TST_Tile(M, ref);
_tile.data.forEach((row, R) => {
row.forEach((buf, C) => {
var addr = encode_cell({r:_R + R,c:C});
var res = parse_cell_storage(buf, sst, rsst);
if(res) ws[addr] = res;
});
});
_R += _tile.nrows;
});
}
/** .TST.TableInfoArchive (6000) */
function parse_TST_TableInfoArchive(M: MessageSpace, root: IWAMessage): WorkSheet {
var pb = parse_shallow(root.data);
var out: WorkSheet = { "!ref": "A1" };
var tableref = M[parse_TSP_Reference(pb[2][0].data)];
var mtype = varint_to_i32(tableref[0].meta[1][0].data);
if(mtype != 6001) throw new Error(`6000 unexpected reference to ${mtype}`);
parse_TST_TableModelArchive(M, tableref[0], out);
return out;
}
interface NSheet {
name: string;
sheets: WorkSheet[];
}
/** .TN.SheetArchive (2) */
function parse_TN_SheetArchive(M: MessageSpace, root: IWAMessage): NSheet {
var pb = parse_shallow(root.data);
var out: NSheet = {
name: (pb[1]?.[0] ? u8str(pb[1][0].data) : ""),
sheets: []
};
var shapeoffs = mappa(pb[2], parse_TSP_Reference);
shapeoffs.forEach((off) => {
M[off].forEach((m: IWAMessage) => {
var mtype = varint_to_i32(m.meta[1][0].data);
if(mtype == 6000) out.sheets.push(parse_TST_TableInfoArchive(M, m));
});
});
return out;
}
/** .TN.DocumentArchive */
function parse_TN_DocumentArchive(M: MessageSpace, root: IWAMessage): WorkBook {
var out = book_new();
var pb = parse_shallow(root.data);
// var stylesheet = mappa(pb[4], parse_TSP_Reference)[0];
// if(varint_to_i32(M[stylesheet][0].meta[1][0].data) == 401) parse_TSS_StylesheetArchive(M, M[stylesheet][0]);
// var sidebar = mappa(pb[5], parse_TSP_Reference);
// var theme = mappa(pb[6], parse_TSP_Reference);
// var docinfo = parse_shallow(pb[8][0].data);
// var tskinfo = parse_shallow(docinfo[1][0].data);
// var author_storage = mappa(tskinfo[7], parse_TSP_Reference);
var sheetoffs = mappa(pb[1], parse_TSP_Reference);
sheetoffs.forEach((off) => {
M[off].forEach((m: IWAMessage) => {
var mtype = varint_to_i32(m.meta[1][0].data);
if(mtype == 2) {
var root = parse_TN_SheetArchive(M, m);
root.sheets.forEach((sheet, idx) => { book_append_sheet(out, sheet, idx == 0 ? root.name : root.name + "_" + idx, true); });
}
});
});
if(out.SheetNames.length == 0) throw new Error("Empty NUMBERS file");
return out;
}
/** Parse NUMBERS file */
function parse_numbers_iwa(cfb: CFB$Container): WorkBook {
var M: MessageSpace = {}, indices: number[] = [];
cfb.FullPaths.forEach(p => { if(p.match(/\.iwpv2/)) throw new Error(`Unsupported password protection`); });
/* collect entire message space */
cfb.FileIndex.forEach(s => {
if(!s.name.match(/\.iwa$/)) return;
var o: Uint8Array;
try { o = decompress_iwa_file(s.content as Uint8Array); } catch(e) { return console.log("?? " + s.content.length + " " + (e.message || e)); }
var packets: IWAArchiveInfo[];
try { packets = parse_iwa_file(o); } catch(e) { return console.log("## " + (e.message || e)); }
packets.forEach(packet => { M[packet.id] = packet.messages; indices.push(packet.id); });
});
if(!indices.length) throw new Error("File has no messages");
/* find document root */
var docroot: IWAMessage = M?.[1]?.[0]?.meta?.[1]?.[0].data && varint_to_i32(M[1][0].meta[1][0].data) == 1 && M[1][0];
if(!docroot) indices.forEach((idx) => {
M[idx].forEach((iwam) => {
var mtype = varint_to_i32(iwam.meta[1][0].data) >>> 0;
if(mtype == 1) {
if(!docroot) docroot = iwam;
else throw new Error("Document has multiple roots");
}
});
});
if(!docroot) throw new Error("Cannot find Document root");
return parse_TN_DocumentArchive(M, docroot);
}
//<<export { parse_numbers_iwa };
interface DependentInfo {
deps: number[];
location: string;
type: number;
}
function write_tile_row(tri: ProtoMessage, data: any[], SST: string[]): number {
if(!tri[6]?.[0] || !tri[7]?.[0]) throw "Mutation only works on post-BNC storages!";
var wide_offsets = tri[8]?.[0]?.data && varint_to_i32(tri[8][0].data) > 0 || false;
if(wide_offsets) throw "Math only works with normal offsets";
var cnt = 0;
var dv = u8_to_dataview(tri[7][0].data), last_offset = 0, cell_storage: Uint8Array[] = [];
var _dv = u8_to_dataview(tri[4][0].data), _last_offset = 0, _cell_storage: Uint8Array[] = [];
for(var C = 0; C < data.length; ++C) {
if(data[C] == null) { dv.setUint16(C*2, 0xFFFF, true); _dv.setUint16(C*2, 0xFFFF); continue; }
dv.setUint16(C*2, last_offset, true);
_dv.setUint16(C*2, _last_offset, true);
var celload: Uint8Array, _celload: Uint8Array;
switch(typeof data[C]) {
case "string":
celload = write_new_storage({t: "s", v: data[C]}, SST);
_celload = write_old_storage({t: "s", v: data[C]}, SST);
break;
case "number":
celload = write_new_storage({t: "n", v: data[C]}, SST);
_celload = write_old_storage({t: "n", v: data[C]}, SST);
break;
case "boolean":
celload = write_new_storage({t: "b", v: data[C]}, SST);
_celload = write_old_storage({t: "b", v: data[C]}, SST);
break;
default: throw new Error("Unsupported value " + data[C]);
}
cell_storage.push(celload); last_offset += celload.length;
_cell_storage.push(_celload); _last_offset += _celload.length;
++cnt;
}
tri[2][0].data = write_varint49(cnt);
for(; C < tri[7][0].data.length/2; ++C) {
dv.setUint16(C*2, 0xFFFF, true);
_dv.setUint16(C*2, 0xFFFF, true);
}
tri[6][0].data = u8concat(cell_storage);
tri[3][0].data = u8concat(_cell_storage);
return cnt;
}
function write_iwam(type: number, payload: Uint8Array): IWAMessage {
return {
meta: [ [], [ { type: 0, data: write_varint49(type) } ] ],
data: payload
};
}
function write_numbers_iwa(wb: WorkBook, opts: any): CFB$Container {
if(!opts || !opts.numbers) throw new Error("Must pass a `numbers` option -- check the README");
/* TODO: support multiple worksheets, larger ranges, more data types, etc */
var ws = wb.Sheets[wb.SheetNames[0]];
if(wb.SheetNames.length > 1) console.error("The Numbers writer currently writes only the first table");
var range = decode_range(ws["!ref"]);
range.s.r = range.s.c = 0;
var trunc = false;
if(range.e.c > 9) { trunc = true; range.e.c = 9; }
if(range.e.r > 49) { trunc = true; range.e.r = 49; }
if(trunc) console.error(`The Numbers writer is currently limited to ${encode_range(range)}`);
var data = sheet_to_json<any>(ws, { range, header: 1 });
var SST = ["~Sh33tJ5~"];
data.forEach(row => row.forEach(cell => { if(typeof cell == "string") SST.push(cell); }))
var dependents: {[x:number]: DependentInfo} = {};
var indices: number[] = [];
var cfb: CFB$Container = CFB.read(opts.numbers, { type: "base64" });
cfb.FileIndex.map((fi, idx): [CFB$Entry, string] => ([fi, cfb.FullPaths[idx]])).forEach(row => {
var fi = row[0], fp = row[1];
if(fi.type != 2) return;
if(!fi.name.match(/\.iwa/)) return;
/* Reframe .iwa files */
var old_content = fi.content;
var raw1 = decompress_iwa_file(old_content as Uint8Array);
var x = parse_iwa_file(raw1);
x.forEach(packet => {
indices.push(packet.id);
dependents[packet.id] = { deps: [], location: fp, type: varint_to_i32(packet.messages[0].meta[1][0].data) };
});
});
indices.sort((x,y) => x-y);
var indices_varint: Array<[number, Uint8Array]> = indices.filter(x => x > 1).map(x => [x, write_varint49(x)] );
cfb.FileIndex.map((fi, idx): [CFB$Entry, string] => ([fi, cfb.FullPaths[idx]])).forEach(row => {
var fi = row[0], fp = row[1];
if(!fi.name.match(/\.iwa/)) return;
var x = parse_iwa_file(decompress_iwa_file(fi.content as Uint8Array));
x.forEach(ia => {
ia.messages.forEach(m => {
indices_varint.forEach(ivi => {
if(ia.messages.some(mess => varint_to_i32(mess.meta[1][0].data) != 11006 && u8contains(mess.data, ivi[1]))) {
dependents[ivi[0]].deps.push(ia.id);
}
})
});
});
});
function get_unique_msgid(dep: DependentInfo) {
for(var i = 927262; i < 2000000; ++i) if(!dependents[i]) {
dependents[i] = dep;
return i;
}
throw new Error("Too many messages");
}
/* .TN.DocumentArchive */
var entry = CFB.find(cfb, dependents[1].location);
var x = parse_iwa_file(decompress_iwa_file(entry.content as Uint8Array));
var docroot: IWAArchiveInfo;
for(var xi = 0; xi < x.length; ++xi) {
var packet = x[xi];
if(packet.id == 1) docroot = packet;
}
/* .TN.SheetArchive */
var sheetrootref = parse_TSP_Reference(parse_shallow(docroot.messages[0].data)[1][0].data);
entry = CFB.find(cfb, dependents[sheetrootref].location);
x = parse_iwa_file(decompress_iwa_file(entry.content as Uint8Array));
for(xi = 0; xi < x.length; ++xi) {
packet = x[xi];
if(packet.id == sheetrootref) docroot = packet;
}
/* .TST.TableInfoArchive */
sheetrootref = parse_TSP_Reference(parse_shallow(docroot.messages[0].data)[2][0].data);
entry = CFB.find(cfb, dependents[sheetrootref].location);
x = parse_iwa_file(decompress_iwa_file(entry.content as Uint8Array));
for(xi = 0; xi < x.length; ++xi) {
packet = x[xi];
if(packet.id == sheetrootref) docroot = packet;
}
/* .TST.TableModelArchive */
sheetrootref = parse_TSP_Reference(parse_shallow(docroot.messages[0].data)[2][0].data);
entry = CFB.find(cfb, dependents[sheetrootref].location);
x = parse_iwa_file(decompress_iwa_file(entry.content as Uint8Array));
for(xi = 0; xi < x.length; ++xi) {
packet = x[xi];
if(packet.id == sheetrootref) docroot = packet;
}
var pb = parse_shallow(docroot.messages[0].data);
{
pb[6][0].data = write_varint49(range.e.r + 1);
pb[7][0].data = write_varint49(range.e.c + 1);
// pb[22] = [ { type: 0, data: write_varint49(1) } ]; // enables table display
var cruidsref = parse_TSP_Reference(pb[46][0].data);
var oldbucket = CFB.find(cfb, dependents[cruidsref].location);
var _x = parse_iwa_file(decompress_iwa_file(oldbucket.content as Uint8Array));
{
for(var j = 0; j < _x.length; ++j) {
if(_x[j].id == cruidsref) break;
}
if(_x[j].id != cruidsref) throw "Bad ColumnRowUIDMapArchive";
var cruids = parse_shallow(_x[j].messages[0].data);
cruids[1] = []; cruids[2] = [], cruids[3] = [];
for(var C = 0; C <= range.e.c; ++C) {
cruids[1].push({type: 2, data: write_shallow([ [],
[ { type: 0, data: write_varint49(C + 420690) } ],
[ { type: 0, data: write_varint49(C + 420690) } ]
])});
cruids[2].push({type: 0, data: write_varint49(C)});
cruids[3].push({type: 0, data: write_varint49(C)});
}
cruids[4] = []; cruids[5] = [], cruids[6] = [];
for(var R = 0; R <= range.e.r; ++R) {
cruids[4].push({type: 2, data: write_shallow([ [],
[ { type: 0, data: write_varint49(R + 726270)} ],
[ { type: 0, data: write_varint49(R + 726270)} ]
])});
cruids[5].push({type: 0, data: write_varint49(R)});
cruids[6].push({type: 0, data: write_varint49(R)});
}
_x[j].messages[0].data = write_shallow(cruids);
}
oldbucket.content = compress_iwa_file(write_iwa_file(_x)); oldbucket.size = oldbucket.content.length;
delete pb[46];
var store = parse_shallow(pb[4][0].data);
{
store[7][0].data = write_varint49(range.e.r + 1);
var row_headers = parse_shallow(store[1][0].data);
var row_header_ref = parse_TSP_Reference(row_headers[2][0].data);
oldbucket = CFB.find(cfb, dependents[row_header_ref].location);
_x = parse_iwa_file(decompress_iwa_file(oldbucket.content as Uint8Array));
{
if(_x[0].id != row_header_ref) throw "Bad HeaderStorageBucket";
var base_bucket = parse_shallow(_x[0].messages[0].data);
for(R = 0; R < data.length; ++R) {
var _bucket = parse_shallow(base_bucket[2][0].data);
_bucket[1][0].data = write_varint49(R);
_bucket[4][0].data = write_varint49(data[R].length);
base_bucket[2][R] = { type: base_bucket[2][0].type, data: write_shallow(_bucket) };
}
_x[0].messages[0].data = write_shallow(base_bucket);
}
oldbucket.content = compress_iwa_file(write_iwa_file(_x)); oldbucket.size = oldbucket.content.length;
var col_header_ref = parse_TSP_Reference(store[2][0].data);
oldbucket = CFB.find(cfb, dependents[col_header_ref].location);
_x = parse_iwa_file(decompress_iwa_file(oldbucket.content as Uint8Array));
{
if(_x[0].id != col_header_ref) throw "Bad HeaderStorageBucket";
base_bucket = parse_shallow(_x[0].messages[0].data);
for(C = 0; C <= range.e.c; ++C) {
_bucket = parse_shallow(base_bucket[2][0].data);
_bucket[1][0].data = write_varint49(C);
_bucket[4][0].data = write_varint49(range.e.r + 1);
base_bucket[2][C] = { type: base_bucket[2][0].type, data: write_shallow(_bucket) };
}
_x[0].messages[0].data = write_shallow(base_bucket);
}
oldbucket.content = compress_iwa_file(write_iwa_file(_x)); oldbucket.size = oldbucket.content.length;
if(ws["!merges"]) {
var mergeid = get_unique_msgid({
type: 6144,
deps: [sheetrootref],
location: dependents[sheetrootref].location
});
var mergedata: ProtoMessage = [ [], [] ];
ws["!merges"].forEach(m => { mergedata[1].push({ type: 2, data: write_shallow([ [],
[{ type: 2, data: write_shallow([ [],
[{ type: 5, data: new Uint8Array(new Uint16Array([m.s.r, m.s.c]).buffer) }],
])}],
[{ type: 2, data: write_shallow([ [],
[{ type: 5, data: new Uint8Array(new Uint16Array([m.e.r - m.s.r + 1, m.e.c - m.s.c + 1]).buffer) }],
]) }]
]) }); });
store[13] = [ { type: 2, data: write_TSP_Reference(mergeid) } ];
x.push({
id: mergeid,
messages: [ write_iwam(6144, write_shallow(mergedata)) ]
});
}
/* ref to string table */
var sstref = parse_TSP_Reference(store[4][0].data);
(() => {
var sentry = CFB.find(cfb, dependents[sstref].location);
var sx = parse_iwa_file(decompress_iwa_file(sentry.content as Uint8Array));
var sstroot: IWAArchiveInfo;
for(var sxi = 0; sxi < sx.length; ++sxi) {
var packet = sx[sxi];
if(packet.id == sstref) sstroot = packet;
}
var sstdata = parse_shallow(sstroot.messages[0].data);
{
sstdata[3] = [];
SST.forEach((str, i) => {
sstdata[3].push({type: 2, data: write_shallow([ [],
[ { type: 0, data: write_varint49(i) } ],
[ { type: 0, data: write_varint49(1) } ],
[ { type: 2, data: stru8(str) } ]
])});
});
}
sstroot.messages[0].data = write_shallow(sstdata);
var sy = write_iwa_file(sx);
var raw3 = compress_iwa_file(sy);
sentry.content = raw3; sentry.size = sentry.content.length;
})();
var tile = parse_shallow(store[3][0].data); // TileStorage
{
var t = tile[1][0];
delete tile[2];
var tl = parse_shallow(t.data); // first Tile
{
var tileref = parse_TSP_Reference(tl[2][0].data);
(() => {
var tentry = CFB.find(cfb, dependents[tileref].location);
var tx = parse_iwa_file(decompress_iwa_file(tentry.content as Uint8Array));
var tileroot: IWAArchiveInfo;
for(var sxi = 0; sxi < tx.length; ++sxi) {
var packet = tx[sxi];
if(packet.id == tileref) tileroot = packet;
}
// .TST.Tile
var tiledata = parse_shallow(tileroot.messages[0].data);
{
delete tiledata[6]; delete tile[7];
var rowload = new Uint8Array(tiledata[5][0].data);
tiledata[5] = [];
var cnt = 0;
for(var R = 0; R <= range.e.r; ++R) {
var tilerow = parse_shallow(rowload);
cnt += write_tile_row(tilerow, data[R], SST);
tilerow[1][0].data = write_varint49(R);
tiledata[5].push({data: write_shallow(tilerow), type: 2});
}
tiledata[1] = [{type: 0, data: write_varint49(range.e.c + 1)}];
tiledata[2] = [{type: 0, data: write_varint49(range.e.r + 1)}];
tiledata[3] = [{type: 0, data: write_varint49(cnt)}];
tiledata[4] = [{type: 0, data: write_varint49(range.e.r + 1)}];
}
tileroot.messages[0].data = write_shallow(tiledata);
var ty = write_iwa_file(tx);
var raw3 = compress_iwa_file(ty);
tentry.content = raw3; tentry.size = tentry.content.length;
//throw dependents[tileref];
})();
}
t.data = write_shallow(tl);
}
store[3][0].data = write_shallow(tile);
}
pb[4][0].data = write_shallow(store);
}
docroot.messages[0].data = write_shallow(pb);
var y = write_iwa_file(x);
var raw3 = compress_iwa_file(y);
entry.content = raw3; entry.size = entry.content.length;
return cfb;
}