sheetjs_sheetjs/test.ts
2022-08-08 19:55:25 -04:00

2819 lines
122 KiB
TypeScript
Raw Permalink Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/* xlsx.js (C) 2013-present SheetJS -- http://sheetjs.com */
/* vim: set ts=2: */
/*jshint mocha:true */
/* eslint-env mocha */
/*global process, document, require */
/*global ArrayBuffer, Uint8Array */
/*::
declare type EmptyFunc = (() => void) | null;
declare var afterEach:(test:EmptyFunc)=>void;
declare var cptable: any;
*/
import * as assert_ from 'https://deno.land/std/testing/asserts.ts';
import * as base64_ from 'https://deno.land/std/encoding/base64.ts';
const assert: any = {...assert_};
assert.throws = function(f: () => void) { assert.assertThrows(function() { try { f(); } catch(e) { throw e instanceof Error ? e : new Error(e); }})};
assert.doesNotThrow = function(f: ()=>void) { f(); };
assert.equal = assert.assertEquals;
assert.notEqual = assert.assertNotEquals;
assert.deepEqual = (x: any,y: any, z?: string) => assert.equal(JSON.stringify(x), JSON.stringify(y), z);
// @deno-types="./types/index.d.ts"
import * as X from './xlsx.mjs';
import * as cptable from './dist/cpexcel.full.mjs';
X.set_cptable(cptable);
import XLSX_ZAHL from './dist/xlsx.zahl.mjs';
var DIF_XL = true;
type BSEncoding = 'utf-8' | 'binary' | 'base64';
type BFEncoding = 'buffer';
type ShEncoding = BSEncoding | BFEncoding;
function readFileSync2(x: string): Uint8Array;
function readFileSync2(x: string, e: BSEncoding): string;
function readFileSync2(x: string, e: BFEncoding): Uint8Array;
function readFileSync2(x: string, e?: ShEncoding): Uint8Array | string {
const u8 = Deno.readFileSync(x);
if(!e) return u8;
switch(e) {
case 'utf-8': return new TextDecoder().decode(u8);
case 'base64': return base64_.encode(u8);
case 'buffer': return u8;
case 'binary': return Array.from({length: u8.length}, (_,i) => String.fromCharCode(u8[i])).join("");
}
throw new Error(`unsupported encoding ${e}`)
}
var fs = {
readFileSync: readFileSync2,
existsSync: (x: string): boolean => { try { Deno.readFileSync(x); } catch(e) { return false; } return true; },
readdirSync: (x: string) => ([...Deno.readDirSync(x)].filter(x => x.isFile).map(x => x.name))
};
var browser = false;
var Buffer_from = function(data: any, enc?: string): Uint8Array {
if(data instanceof Uint8Array) return data;
if((!enc || enc == "utf8") && typeof data == "string") return new TextEncoder().encode(data);
if(enc == "binary" && typeof data == "string") return Uint8Array.from({length: data.length}, (_,i) => data[i].charCodeAt(0))
throw `unsupported encoding ${enc}`;
}
var opts: any = {cellNF: true};
var TYPE: 'buffer' = "buffer";
opts.type = TYPE;
var fullex = [".xlsb", /*".xlsm",*/ ".xlsx"/*, ".xlml", ".xls"*/];
var ofmt: X.BookType[] = ["xlsb", "xlsm", "xlsx", "ods", "biff2", "biff5", "biff8", "xlml", "sylk", "dif", "dbf", "eth", "fods", "csv", "txt", "html"];
var ex = fullex.slice(); ex = ex.concat([".ods", ".xls", ".xml", ".fods"]);
opts.WTF = true;
opts.cellStyles = true;
if(Deno.env.get("FMTS") === "full") Deno.env.set("FMTS", ex.join(":"));
if(Deno.env.get("FMTS")) ex=(Deno.env.get("FMTS")||"").split(":").map(function(x){return x[0]==="."?x:"."+x;});
var exp = ex.map(function(x: string){ return x + ".pending"; });
function test_file(x: string){ return ex.indexOf(x.slice(-5))>=0||exp.indexOf(x.slice(-13))>=0 || ex.indexOf(x.slice(-4))>=0||exp.indexOf(x.slice(-12))>=0; }
var files: string[] = [], fileA: string[] = [];
if(!browser) {
var _files = fs.existsSync('tests.lst') ? fs.readFileSync('tests.lst', 'utf-8').split("\n").map(function(x) { return x.trim(); }) : fs.readdirSync('test_files');
for(var _filesi = 0; _filesi < _files.length; ++_filesi) if(test_file(_files[_filesi])) files.push(_files[_filesi]);
var _fileA = fs.existsSync('tests/testA.lst') ? fs.readFileSync('tests/testA.lst', 'utf-8').split("\n").map(function(x) { return x.trim(); }) : [];
for(var _fileAi = 0; _fileAi < _fileA.length; ++_fileAi) if(test_file(_fileA[_fileAi])) fileA.push(_fileA[_fileAi]);
}
/* Excel enforces 31 character sheet limit, although technical file limit is 255 */
function fixsheetname(x: string): string { return x.substr(0,31); }
function stripbom(x: string): string { return x.replace(/^\ufeff/,""); }
function fixcsv(x: string): string { return stripbom(x).replace(/\t/g,",").replace(/#{255}/g,"").replace(/"/g,"").replace(/[\n\r]+/g,"\n").replace(/\n*$/,""); }
function fixjson(x: string): string { return x.replace(/[\r\n]+$/,""); }
var dir = "./test_files/";
var dirwp = dir + "artifacts/wps/", dirqp = dir + "artifacts/quattro/";
var paths: any = {
aadbf: dirwp + 'write.dbf',
aadif: dirwp + 'write.dif',
aaxls: dirwp + 'write.xls',
aaxlsx: dirwp + 'write.xlsx',
aaxml: dirwp + 'write.xml',
abcsv: dirqp + 'write_.csv',
abdif: dirqp + 'write_.dif',
abslk: dirqp + 'write_.slk',
abx57: dirqp + 'write_57.xls',
abwb2: dirqp + 'write_6.wb2',
abwb2b: dirqp + 'write_6b.wb2',
abwb3: dirqp + 'write_8.wb3',
abqpw: dirqp + 'write_9.qpw',
abx97: dirqp + 'write_97.xls',
abwks: dirqp + 'write_L1.wks',
abwk1: dirqp + 'write_L2.wk1',
abwk3: dirqp + 'write_L3.wk3',
abwk4: dirqp + 'write_L45.wk4',
ab123: dirqp + 'write_L9.123',
ab124: dirqp + 'write_L97.123',
abwke2: dirqp + 'write_Led.wke',
abwq1: dirqp + 'write_qpdos.wq1',
abwb1: dirqp + 'write_qpw.wb1',
afxls: dir + 'AutoFilter.xls',
afxml: dir + 'AutoFilter.xml',
afods: dir + 'AutoFilter.ods',
afxlsx: dir + 'AutoFilter.xlsx',
afxlsb: dir + 'AutoFilter.xlsb',
asxls: dir + 'author_snowman.xls',
asxls5: dir + 'author_snowman.xls5',
asxml: dir + 'author_snowman.xml',
asods: dir + 'author_snowman.ods',
asxlsx: dir + 'author_snowman.xlsx',
asxlsb: dir + 'author_snowman.xlsb',
cpxls: dir + 'custom_properties.xls',
cpxml: dir + 'custom_properties.xls.xml',
cpxlsx: dir + 'custom_properties.xlsx',
cpxlsb: dir + 'custom_properties.xlsb',
cssxls: dir + 'cell_style_simple.xls',
cssxml: dir + 'cell_style_simple.xml',
cssxlsx: dir + 'cell_style_simple.xlsx',
cssxlsb: dir + 'cell_style_simple.xlsb',
cstxls: dir + 'comments_stress_test.xls',
cstxml: dir + 'comments_stress_test.xls.xml',
cstxlsx: dir + 'comments_stress_test.xlsx',
cstxlsb: dir + 'comments_stress_test.xlsb',
cstods: dir + 'comments_stress_test.ods',
cwxls: dir + 'column_width.xls',
cwxls5: dir + 'column_width.biff5',
cwxml: dir + 'column_width.xml',
cwxlsx: dir + 'column_width.xlsx',
cwxlsb: dir + 'column_width.xlsb',
cwslk: dir + 'column_width.slk',
dnsxls: dir + 'defined_names_simple.xls',
dnsxml: dir + 'defined_names_simple.xml',
dnsxlsx: dir + 'defined_names_simple.xlsx',
dnsxlsb: dir + 'defined_names_simple.xlsb',
dnsslk: dir + 'defined_names_simple.slk',
dnuxls: dir + 'defined_names_unicode.xls',
dnuxml: dir + 'defined_names_unicode.xml',
dnuods: dir + 'defined_names_unicode.ods',
dnuxlsx: dir + 'defined_names_unicode.xlsx',
dnuxlsb: dir + 'defined_names_unicode.xlsb',
dtxls: dir + 'xlsx-stream-d-date-cell.xls',
dtxml: dir + 'xlsx-stream-d-date-cell.xls.xml',
dtxlsx: dir + 'xlsx-stream-d-date-cell.xlsx',
dtxlsb: dir + 'xlsx-stream-d-date-cell.xlsb',
dtfxlsx: dir + 'DataTypesFormats.xlsx',
fstxls: dir + 'formula_stress_test.xls',
fstxml: dir + 'formula_stress_test.xls.xml',
fstxlsx: dir + 'formula_stress_test.xlsx',
fstxlsb: dir + 'formula_stress_test.xlsb',
fstods: dir + 'formula_stress_test.ods',
hlxls: dir + 'hyperlink_stress_test_2011.xls',
hlxml: dir + 'hyperlink_stress_test_2011.xml',
hlxlsx: dir + 'hyperlink_stress_test_2011.xlsx',
hlxlsb: dir + 'hyperlink_stress_test_2011.xlsb',
ilxls: dir + 'internal_link.xls',
ilxls5: dir + 'internal_link.biff5',
ilxml: dir + 'internal_link.xml',
ilxlsx: dir + 'internal_link.xlsx',
ilxlsb: dir + 'internal_link.xlsb',
ilods: dir + 'internal_link.ods',
lonxls: dir + 'LONumbers.xls',
lonxlsx: dir + 'LONumbers.xlsx',
m19xlsx: dir + 'metadata_2019.xlsx',
m19xlsb: dir + 'metadata_2019.xlsb',
mcxls: dir + 'merge_cells.xls',
mcxml: dir + 'merge_cells.xls.xml',
mcxlsx: dir + 'merge_cells.xlsx',
mcxlsb: dir + 'merge_cells.xlsb',
mcods: dir + 'merge_cells.ods',
nfxls: dir + 'number_format.xls',
nfxml: dir + 'number_format.xls.xml',
nfxlsx: dir + 'number_format.xlsm',
nfxlsb: dir + 'number_format.xlsb',
olxls: dir + 'outline.xls',
olxls5: dir + 'outline.biff5',
olxlsx: dir + 'outline.xlsx',
olxlsb: dir + 'outline.xlsb',
olods: dir + 'outline.ods',
pmxls: dir + 'page_margins_2016.xls',
pmxls5: dir + 'page_margins_2016_5.xls',
pmxml: dir + 'page_margins_2016.xml',
pmxlsx: dir + 'page_margins_2016.xlsx',
pmxlsb: dir + 'page_margins_2016.xlsb',
rhxls: dir + 'row_height.xls',
rhxls5: dir + 'row_height.biff5',
rhxml: dir + 'row_height.xml',
rhxlsx: dir + 'row_height.xlsx',
rhxlsb: dir + 'row_height.xlsb',
rhslk: dir + 'row_height.slk',
svxls: dir + 'sheet_visibility.xls',
svxls5: dir + 'sheet_visibility5.xls',
svxml: dir + 'sheet_visibility.xml',
svxlsx: dir + 'sheet_visibility.xlsx',
svxlsb: dir + 'sheet_visibility.xlsb',
svods: dir + 'sheet_visibility.ods',
swcxls: dir + 'apachepoi_SimpleWithComments.xls',
swcxml: dir + '2011/apachepoi_SimpleWithComments.xls.xml',
swcxlsx: dir + 'apachepoi_SimpleWithComments.xlsx',
swcxlsb: dir + '2013/apachepoi_SimpleWithComments.xlsx.xlsb'
};
function pathit(p: string, ext: string[]) { return ext.map(function(n) { return paths[p + n]; }); }
var FSTPaths = pathit("fst", ["xlsx", "xlsb", "xls", "xml", "ods"]);
var CSTPaths = pathit("cst", ["xlsx", "xlsb", "xls", "xml", "ods"]);
var MCPaths = pathit("mc", ["xlsx", "xlsb", "xls", "xml", "ods"]);
var CSSPaths = pathit("css", ["xlsx", "xlsb", "xls", "xml"]);
var NFPaths = pathit("nf", ["xlsx", "xlsb", "xls", "xml"]);
var DTPaths = pathit("dt", ["xlsx", "xlsb", "xls", "xml"]);
var HLPaths = pathit("hl", ["xlsx", "xlsb", "xls", "xml"]);
var ILPaths = pathit("il", ["xlsx", "xlsb", "xls", "xml", "ods", "xls5"]);
var OLPaths = pathit("ol", ["xlsx", "xlsb", "xls", "ods", "xls5"]);
var PMPaths = pathit("pm", ["xlsx", "xlsb", "xls", "xml", "xls5"]);
var SVPaths = pathit("sv", ["xlsx", "xlsb", "xls", "xml", "xls5"]);
var CWPaths = pathit("cw", ["xlsx", "xlsb", "xls", "xml", "xls5", "slk"]);
var RHPaths = pathit("rh", ["xlsx", "xlsb", "xls", "xml", "xls5", "slk"]);
var artifax = [
"cstods", "cstxls", "cstxlsb", "cstxlsb", "cstxml", "aadbf", "aadif",
"aaxls", "aaxml", "aaxlsx", "ab123", "ab124", "abcsv", "abdif", "abqpw",
"abslk", "abwb1", "abwb2", "abwb3", "abwk1", "abwk3", "abwk4", "abwks",
"abwq1", "abx57", "abx97", "abwke2", "abwb2b"
].map(function(x) { return paths[x]; });
async function parsetest(x: string, wb: X.WorkBook, full: boolean, ext: string, t: Deno.TestContext) {
ext = (ext ? " [" + ext + "]": "");
if(!full && ext) return;
await t.step(x + ext + ' should have all bits', async function(t) {
var sname = dir + '2016/' + x.substr(x.lastIndexOf('/')+1) + '.sheetnames';
if(!fs.existsSync(sname)) sname = dir + '2011/' + x.substr(x.lastIndexOf('/')+1) + '.sheetnames';
if(!fs.existsSync(sname)) sname = dir + '2013/' + x.substr(x.lastIndexOf('/')+1) + '.sheetnames';
await t.step('should have all sheets', async function(t) {
wb.SheetNames.forEach(function(y) { assert.assert(wb.Sheets[y], 'bad sheet ' + y); });
});
if(fs.existsSync(sname)) await t.step('should have the right sheet names', async function(t) {
var file = fs.readFileSync(sname, 'utf-8').replace(/\r/g,"");
var names = wb.SheetNames.map(fixsheetname).join("\n") + "\n";
if(file.length && !x.match(/artifacts/)) assert.equal(names, file);
});
});
await t.step(x + ext + ' should generate CSV', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
await t.step('#' + i + ' (' + ws + ')', async function(t) {
X.utils.sheet_to_csv(wb.Sheets[ws]);
});
}
});
await t.step(x + ext + ' should generate JSON', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
await t.step('#' + i + ' (' + ws + ')', async function(t) {
X.utils.sheet_to_json(wb.Sheets[ws]);
});
}
});
await t.step(x + ext + ' should generate formulae', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
await t.step('#' + i + ' (' + ws + ')', async function(t) {
X.utils.sheet_to_formulae(wb.Sheets[ws]);
});
}
});
if(!full) return;
var getfile = function(dir: string, x: string, i: number, type: string) {
var name = (dir + x + '.' + i + type);
var root = "";
if(x.substr(-5) === ".xlsb") {
root = x.slice(0,-5);
if(!fs.existsSync(name)) name=(dir + root + '.xlsx.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xlsm.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xls.' + i + type);
}
if(x.substr(-4) === ".xls") {
root = x.slice(0,-4);
if(!fs.existsSync(name)) name=(dir + root + '.xlsx.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xlsm.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xlsb.' + i + type);
}
return name;
};
await t.step(x + ext + ' should generate correct CSV output', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
var name = getfile(dir, x, i, ".csv");
if(fs.existsSync(name)) await t.step('#' + i + ' (' + ws + ')', async function(t) {
var file = fs.readFileSync(name, 'utf-8');
var csv = X.utils.sheet_to_csv(wb.Sheets[ws]);
assert.equal(fixcsv(csv), fixcsv(file), "CSV badness");
});
}
});
if(typeof JSON !== 'undefined') await t.step(x + ext + ' should generate correct JSON output', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
var rawjson = getfile(dir, x, i, ".rawjson");
if(fs.existsSync(rawjson)) await t.step('#' + i + ' (' + ws + ')', async function(t) {
var file = fs.readFileSync(rawjson, 'utf-8');
var json: Array<any> = X.utils.sheet_to_json(wb.Sheets[ws],{raw:true});
assert.equal(JSON.stringify(json), fixjson(file), "JSON badness");
});
var jsonf = getfile(dir, x, i, ".json");
if(fs.existsSync(jsonf)) await t.step('#' + i + ' (' + ws + ')', async function(t) {
var file = fs.readFileSync(jsonf, 'utf-8');
var json: Array<any> = X.utils.sheet_to_json(wb.Sheets[ws], {raw:false});
assert.equal(JSON.stringify(json), fixjson(file), "JSON badness");
});
}
});
if(fs.existsSync(dir + '2011/' + x + '.xml'))
await t.step(x + ext + '.xml from 2011', async function(t) {
await t.step('should parse', async function(t) {
/*var wb = */X.readFile(dir + '2011/' + x + '.xml', opts);
});
});
if(fs.existsSync(dir + '2013/' + x + '.xlsb'))
await t.step(x + ext + '.xlsb from 2013', async function(t) {
await t.step('should parse', async function(t) {
/*var wb = */X.readFile(dir + '2013/' + x + '.xlsb', opts);
});
});
if(fs.existsSync(dir + x + '.xml' + ext))
await t.step(x + '.xml', async function(t) {
await t.step('should parse', async function(t) {
/*var wb = */X.readFile(dir + x + '.xml', opts);
});
});
}
Deno.test('should parse test files', async function(t) {
var idx = 0, x = "";
for(idx = 0; idx < files.length; ++idx) { var x = files[idx];
if(x.slice(-8) == ".pending" || !fs.existsSync(dir + x)) continue;
await t.step(x, async function(t) {
var _wb = X.readFile(dir + x, opts);
await parsetest(x, _wb, true, "", t);
for(var fidx = 0; fidx < fullex.length; ++fidx) { var ext = fullex[fidx];
await t.step(x + ' [' + ext + ']', async function(t){
var wb = _wb;
wb = X.read(X.write(wb, {type:"buffer", bookType:(ext.replace(/\./,"") as X.BookType)}), {WTF:opts.WTF, cellNF: true});
await parsetest(x, wb, ext.replace(/\./,"") !== "xlsb", ext, t);
});
}
});
}
for(idx = 0; idx < fileA.length; ++idx) { var x = fileA[idx];
if(x.slice(-8) == ".pending" || !fs.existsSync(dir + x)) continue;
await t.step(x, async function(t) {
var wb = X.readFile(dir + x, {WTF:opts.WTF, sheetRows:10});
await parsetest(x, wb, false, "", t);
});
}
});
function get_cell(ws: X.WorkSheet, addr: string) {
if(!Array.isArray(ws)) return ws[addr];
var a = X.utils.decode_cell(addr);
return (ws[a.r]||[])[a.c];
}
function each_cell(ws: X.WorkSheet, f: (c: X.CellObject) => any) {
if(Array.isArray(ws)) ws.forEach(function(row) { if(row) row.forEach(f); });
else Object.keys(ws).forEach(function(addr) { if(addr[0] === "!" || !ws.hasOwnProperty(addr)) return; f(ws[addr]); });
}
function each_sheet(wb: X.WorkBook, f: (ws: X.WorkSheet, i: number)=>any) { wb.SheetNames.forEach(function(n, i) { f(wb.Sheets[n], i); }); }
/* comments_stress_test family */
function check_comments(wb: X.WorkBook) {
var ws0 = wb.Sheets["Sheet2"];
assert.equal(get_cell(ws0,"A1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"A1").c[0].t, 'Author:\nGod thinks this is good');
assert.equal(get_cell(ws0,"C1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"C1").c[0].t, 'I really hope that xlsx decides not to use magic like rPr');
var ws3 = wb.Sheets["Sheet4"];
assert.equal(get_cell(ws3,"B1").c[0].a, 'Author');
assert.equal(get_cell(ws3,"B1").c[0].t, 'The next comment is empty');
assert.equal(get_cell(ws3,"B2").c[0].a, 'Author');
assert.equal(get_cell(ws3,"B2").c[0].t, '');
}
Deno.test('parse options', async function(t) {
var html_cell_types = ['s'];
await t.step('cell', async function(t) {
await t.step('XLSX should generate HTML by default', async function(t) {
var wb = X.read(fs.readFileSync(paths.cstxlsx), {type:TYPE});
var ws = wb.Sheets["Sheet1"];
each_cell(ws, function(cell) {
assert.assert(html_cell_types.indexOf(cell.t) === -1 || cell.h);
});
});
await t.step('XLSX should not generate HTML when requested', async function(t) {
var wb = X.read(fs.readFileSync(paths.cstxlsx), {type:TYPE, cellHTML:false});
var ws = wb.Sheets["Sheet1"];
each_cell(ws, function(cell) {
assert.assert(typeof cell.h === 'undefined');
});
});
await t.step('should generate formulae by default', async function(t) {
FSTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
var found = false;
wb.SheetNames.forEach(function(s) {
each_cell(wb.Sheets[s], function(cell) {
if(typeof cell.f !== 'undefined') return (found = true);
});
});
assert.assert(found);
});
});
await t.step('should not generate formulae when requested', async function(t) {
FSTPaths.forEach(function(p) {
var wb =X.read(fs.readFileSync(p),{type:TYPE,cellFormula:false});
wb.SheetNames.forEach(function(s) {
each_cell(wb.Sheets[s], function(cell) {
assert.assert(typeof cell.f === 'undefined');
});
});
});
});
await t.step('should generate formatted text by default', async function(t) {
FSTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p),{type:TYPE});
var found = false;
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
if(typeof cell.w !== 'undefined') return (found = true);
});
});
assert.assert(found);
});
});
await t.step('should not generate formatted text when requested', async function(t) {
FSTPaths.forEach(function(p) {
var wb =X.read(fs.readFileSync(p),{type:TYPE, cellText:false});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(typeof cell.w === 'undefined');
});
});
});
});
await t.step('should not generate number formats by default', async function(t) {
NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(typeof cell.z === 'undefined');
});
});
});
});
await t.step('should generate number formats when requested', async function(t) {
NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, cellNF: true});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(cell.t!== 'n' || typeof cell.z !== 'undefined');
});
});
});
});
await t.step('should not generate cell styles by default', async function(t) {
CSSPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, WTF:true});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(typeof cell.s === 'undefined');
});
});
});
});
await t.step('should generate cell styles when requested', async function(t) {
/* TODO: XLS / XLML */
[paths.cssxlsx /*, paths.cssxlsb, paths.cssxls, paths.cssxml*/].forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, cellStyles:true});
var found = false;
each_sheet(wb, function(ws/*::, i*/) { /*:: void i; */each_cell(ws, function(cell) {
if(typeof cell.s !== 'undefined') return (found = true);
}); });
assert.assert(found);
});
});
await t.step('should not generate cell dates by default', async function(t) {
DTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
each_sheet(wb, function(ws/*::, i*/) { /*:: void i; */each_cell(ws, function(cell) {
assert.assert(cell.t !== 'd');
}); });
});
});
await t.step('should generate cell dates when requested', async function(t) {
DTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, cellDates: true, WTF:true});
var found = false;
each_sheet(wb, function(ws/*::, i*/) { /*:: void i; */each_cell(ws, function(cell) {
if(cell.t === 'd') return (found = true);
}); });
assert.assert(found);
});
});
await t.step('should preserve `_xlfn.` only when requested', async function(t) {
var wb = { SheetNames: ["Sheet1"], Sheets: { Sheet1: {
"!ref": "A1:A1",
"A1": { t:"n", v:2, f:"_xlfn.IFS(2>3,1,3>2,2)"}
} } };
var str = X.write(wb, {bookType: "xlsx", type: "binary"});
var wb2 = X.read(str, {type: "binary"});
/*jshint -W069 */
assert.equal(wb2.Sheets["Sheet1"]["A1"].f, "IFS(2>3,1,3>2,2)");
var wb3 = X.read(str, {type: "binary", xlfn: true});
assert.equal(wb3.Sheets["Sheet1"]["A1"].f, "_xlfn.IFS(2>3,1,3>2,2)");
/*jshint +W069 */
});
});
await t.step('sheet', async function(t) {
await t.step('should not generate sheet stubs by default', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
assert.throws(function() { return get_cell(wb.Sheets["Merge"], "A2").v; });
});
});
await t.step('should generate sheet stubs when requested', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, sheetStubs:true});
assert.assert(get_cell(wb.Sheets["Merge"], "A2").t == 'z');
});
});
await t.step('should handle stub cells', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, sheetStubs:true});
X.utils.sheet_to_csv(wb.Sheets["Merge"]);
X.utils.sheet_to_json(wb.Sheets["Merge"]);
X.utils.sheet_to_formulae(wb.Sheets["Merge"]);
ofmt.forEach(function(f) { if(f != "dbf") X.write(wb, {type:TYPE, bookType:f}); });
});
});
function checkcells(wb: X.WorkBook, A46: boolean, B26: boolean, C16: boolean, D2: boolean) {
([ ["A46", A46], ["B26", B26], ["C16", C16], ["D2", D2] ] as Array<[string, boolean]>).forEach(function(r: [string, boolean]) {
assert.assert((typeof get_cell(wb.Sheets["Text"], r[0]) !== 'undefined') == r[1]);
});
}
await t.step('should read all cells by default', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE}), true, true, true, true);
}); });
await t.step('sheetRows n=30', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE, sheetRows:30}), false, true, true, true);
}); });
await t.step('sheetRows n=20', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE, sheetRows:20}), false, false, true, true);
}); });
await t.step('sheetRows n=10', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE, sheetRows:10}), false, false, false, true);
}); });
await t.step('sheetRows n=1', async function(t) { ofmt.forEach(function(fmt) {
([TYPE, "base64", "binary", "array"] as Array<'binary' | 'base64' | 'binary' | 'array'>).forEach(function(ot) {
var data = [[1,2],[3,4],[5,6]];
var ws = X.utils.aoa_to_sheet(data);
assert.assert(ws['!ref'] === "A1:B3");
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, ws, "Sheet1");
var bs = X.write(wb, { bookType: fmt, type: ot, WTF:true });
var wb0 = X.read(bs, { type: ot, WTF:true });
var ws0 = wb0.Sheets["Sheet1"];
assert.equal(ws0['!ref'], "A1:B3");
assert.equal(get_cell(ws0, "A1").v, fmt == "dbf" ? "1" : 1);
assert.equal(get_cell(ws0, "B2").v, 4);
assert.equal(get_cell(ws0, "A3").v, 5);
var wb1 = X.read(bs, { type: ot, sheetRows: 1 });
var ws1 = wb1.Sheets["Sheet1"];
assert.equal(ws1['!ref'], "A1:B1");
assert.equal(get_cell(ws1, "A1").v, fmt == "dbf" ? "1" : 1);
assert.assert(!get_cell(ws1, "B2"));
assert.assert(!get_cell(ws1, "A3"));
if(ws1['!fullref']) assert.equal(ws1['!fullref'], "A1:B3");
var wb2 = X.read(bs, { type: ot, sheetRows: 2 });
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2['!ref'], "A1:B2");
assert.equal(get_cell(ws2, "A1").v, fmt == "dbf" ? "1" : 1);
assert.equal(get_cell(ws2, "B2").v, 4);
assert.assert(!get_cell(ws2, "A3"));
if(ws2['!fullref']) assert.equal(ws2['!fullref'], "A1:B3");
var wb3 = X.read(bs, { type: ot, sheetRows: 3 });
var ws3 = wb3.Sheets["Sheet1"];
assert.equal(ws3['!ref'], "A1:B3");
assert.equal(get_cell(ws3, "A1").v, fmt == "dbf" ? "1" : 1);
assert.equal(get_cell(ws3, "B2").v, 4);
assert.equal(get_cell(ws3, "A3").v, 5);
if(ws3['!fullref']) assert.equal(ws3['!fullref'], "A1:B3");
}); }); });
});
await t.step('book', async function(t) {
await t.step('bookSheets should not generate sheets', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, bookSheets:true});
assert.assert(typeof wb.Sheets === 'undefined');
});
});
await t.step('bookProps should not generate sheets', async function(t) {
NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, bookProps:true});
assert.assert(typeof wb.Sheets === 'undefined');
});
});
await t.step('bookProps && bookSheets should not generate sheets', async function(t) {
PMPaths.forEach(function(p) {
if(!fs.existsSync(p)) return;
var wb = X.read(fs.readFileSync(p), {type:TYPE, bookProps:true, bookSheets:true});
assert.assert(typeof wb.Sheets === 'undefined');
});
});
var FSTXL = [
[paths.fstxlsx, true],
[paths.fstxlsb, true],
[paths.fstxls, false]
];
await t.step('should not generate deps by default', async function(t) {
FSTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
//assert.assert(typeof wb.Deps === 'undefined' || !(wb.Deps && wb.Deps.length>0));
});
});
await t.step('bookDeps should generate deps (XLSX/XLSB)', async function(t) {
FSTXL.forEach(function(p) {
if(!p[1]) return;
var wb = X.read(fs.readFileSync(p[0]), {type:TYPE, bookDeps:true});
//assert.assert(typeof wb.Deps !== 'undefined' && wb.Deps.length > 0);
});
});
var ckf = function(wb: X.WorkBook, fields: string[], exists: boolean) { fields.forEach(function(f) { assert.assert((typeof (wb as any)[f] !== 'undefined') == exists); }); };
await t.step('should not generate book files by default', async function(t) {FSTXL.forEach(function(r) {
var wb = X.read(fs.readFileSync(r[0]), {type:TYPE});
ckf(wb, r[1] ? ['files', 'keys'] : ['cfb'], false);
}); });
await t.step('bookFiles should generate book files', async function(t) {FSTXL.forEach(function(r) {
var wb = X.read(fs.readFileSync(r[0]), {type:TYPE, bookFiles:true});
ckf(wb, r[1] ? ['files', 'keys'] : ['cfb'], true);
}); });
var NFVBA = ["nfxlsx", "nfxlsb", "nfxls"].map(function(n) { return paths[n]; });
await t.step('should not generate VBA by default', async function(t) { NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE}); assert.assert(typeof wb.vbaraw === 'undefined');
}); });
await t.step('bookVBA should generate vbaraw', async function(t) { NFVBA.forEach(function(p) {
var wb = X.read(fs.readFileSync(p),{type: TYPE, bookVBA: true});
assert.assert(wb.vbaraw);
var cfb = X.CFB.read(wb.vbaraw, {type: 'array'});
assert.assert(X.CFB.find(cfb, '/VBA/ThisWorkbook'));
}); });
});
});
Deno.test('input formats', async function(t) {
await t.step('should read binary strings', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p, 'binary'), {type: 'binary'});
}); });
await t.step('should read base64 strings', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p, 'base64'), {type: 'base64'});
}); });
await t.step('handles base64 within data URI scheme (gh-2762)', async function(t) {
var data = 'TmFtZXMNCkhhZmV6DQpTYW0NCg==';
var wb0 = X.read(data, { type: 'base64' }); // raw base64 string
var wb1 = X.read('data:;base64,' + data, { type: 'base64' }); // data URI, no media type
var wb2 = X.read('data:text/csv;base64,' + data, { type: 'base64' }); // data URI, CSV type
var wb3 = X.read('data:application/vnd.ms-excel;base64,' + data, { type: 'base64' }); // data URI, Excel
[wb0, wb1, wb2, wb3].forEach(function(wb) {
var ws = wb.Sheets.Sheet1;
assert.equal(ws["!ref"], "A1:A3");
assert.equal(get_cell(ws, "A1").v, "Names");
assert.equal(get_cell(ws, "A2").v, "Hafez");
assert.equal(get_cell(ws, "A3").v, "Sam");
});
});
if(typeof Uint8Array !== 'undefined') await t.step('should read array', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p, 'binary').split("").map(function(x) { return x.charCodeAt(0); }), {type:'array'});
}); });
await t.step('should read Buffers', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p), {type: 'buffer'});
}); });
if(typeof Uint8Array !== 'undefined') await t.step('should read ArrayBuffer / Uint8Array', async function(t) { artifax.forEach(function(p) {
var payload: any = fs.readFileSync(p, "buffer");
var ab = new ArrayBuffer(payload.length), vu = new Uint8Array(ab);
for(var i = 0; i < payload.length; ++i) vu[i] = payload[i];
X.read(ab, {type: 'array'});
X.read(vu, {type: 'array'});
}); });
await t.step('should throw if format is unknown', async function(t) { artifax.forEach(function(p) {
assert.throws(function() { X.read(fs.readFileSync(p), ({type: 'dafuq'} as any)); });
}); });
var T = browser ? 'base64' : 'buffer';
await t.step('should default to "' + T + '" type', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p));
}); });
if(!browser) await t.step('should read files', async function(t) { artifax.forEach(function(p) { X.readFile(p); }); });
});
Deno.test('output formats', async function(t) {
var fmts = [
/* fmt unicode str */
["xlsx", true, false],
["xlsb", true, false],
["xls", true, false],
["xlml", true, true],
["ods", true, false],
["fods", true, true],
["csv", true, true],
["txt", true, true],
["rtf", false, true],
["sylk", false, true],
["eth", false, true],
["html", true, true],
["dif", false, true],
["dbf", false, false],
["prn", false, true]
];
function RT(T: 'string' | 'binary' | 'base64' | 'array' | 'buffer') {
fmts.forEach(function(fmt) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([['R',"\u2603"],["\u0BEE",2]]), "Sheet1");
if(T == 'string' && !fmt[2]) return assert.throws(function() {X.write(wb, {type: T, bookType:(fmt[0] as X.BookType), WTF:true});});
var out = X.write(wb, {type: T, bookType:(fmt[0] as X.BookType), WTF:true});
var nwb = X.read(out, {type: T, PRN: fmt[0] == 'prn', WTF:true});
var nws = nwb.Sheets[nwb.SheetNames[0]];
assert.equal(get_cell(nws, "B2").v, 2);
assert.equal(get_cell(nws, "A1").v, "R");
if(fmt[1]) assert.equal(get_cell(nws, "A2").v, "\u0BEE");
if(fmt[1]) assert.equal(get_cell(nws, "B1").v, "\u2603");
});
}
await t.step('should write binary strings', async function(t) { RT('binary'); });
await t.step('should write base64 strings', async function(t) { RT('base64'); });
await t.step('should write JS strings', async function(t) { RT('string'); });
if(typeof ArrayBuffer !== 'undefined') await t.step('should write array buffers', async function(t) { RT('array'); });
if(!browser) await t.step('should write buffers', async function(t) { RT('buffer'); });
await t.step('should throw if format is unknown', async function(t) { assert.throws(function() { RT('dafuq' as any); }); });
});
function eqarr(a: any[],b: any[]) {
assert.equal(a.length, b.length);
a.forEach(function(x, i) { assert.equal(x, b[i]); });
}
Deno.test('API', async function(t) {
await t.step('book_append_sheet', async function(t) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]), "A");
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]));
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]));
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]), "B");
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]));
eqarr(wb.SheetNames, ["A","Sheet1","Sheet2","B","Sheet3"]);
});
await t.step('sheet_add_json', async function(t) {
var ws = X.utils.json_to_sheet([{A:"S", B:"h", C:"e", D:"e", E:"t", F:"J", G:"S"}], {header:["A","B","C","D","E","F","G"], skipHeader:true});
X.utils.sheet_add_json(ws, [{A:1, B:2}, {A:2, B:3}, {A:3, B:4}], {skipHeader:true, origin:"A2"});
X.utils.sheet_add_json(ws, [{A:5, B:6, C:7}, {A:6, B:7, C:8}, {A:7, B:8, C:9}], {skipHeader:true, origin:{r:1, c:4}, header:["A","B","C"]});
X.utils.sheet_add_json(ws, [{A:4, B:5, C:6, D:7, E:8, F:9, G:0}], {header:["A","B","C","D","E","F","G"], skipHeader:true, origin:-1});
assert.equal(X.utils.sheet_to_csv(ws).trim(), "S,h,e,e,t,J,S\n1,2,,,5,6,7\n2,3,,,6,7,8\n3,4,,,7,8,9\n4,5,6,7,8,9,0");
});
await t.step('sheet_add_aoa', async function(t) {
var ws = X.utils.aoa_to_sheet([ "SheetJS".split("") ]);
X.utils.sheet_add_aoa(ws, [[1,2], [2,3], [3,4]], {origin: "A2"});
X.utils.sheet_add_aoa(ws, [[5,6,7], [6,7,8], [7,8,9]], {origin:{r:1, c:4}});
X.utils.sheet_add_aoa(ws, [[4,5,6,7,8,9,0]], {origin: -1});
assert.equal(X.utils.sheet_to_csv(ws).trim(), "S,h,e,e,t,J,S\n1,2,,,5,6,7\n2,3,,,6,7,8\n3,4,,,7,8,9\n4,5,6,7,8,9,0");
});
await t.step('sheet_add_aoa support object cell', async function(t) {
var data = X.utils.aoa_to_sheet([
['url', 'name', 'id'],
[ { l: { Target: 'https://123.com' }, v: 'url', t: 's' }, 'tom', 'xxx' ]
]);
if(assert.deepEqual) assert.deepEqual(data.A2, { l: { Target: 'https://123.com' }, v: 'url', t: 's' });
});
await t.step('decode_range', async function(t) {
var _c = "ABC", _r = "123", _C = "DEF", _R = "456";
var r = X.utils.decode_range(_c + _r + ":" + _C + _R);
assert.assert(r.s != r.e);
assert.equal(r.s.c, X.utils.decode_col(_c)); assert.equal(r.s.r, X.utils.decode_row(_r));
assert.equal(r.e.c, X.utils.decode_col(_C)); assert.equal(r.e.r, X.utils.decode_row(_R));
r = X.utils.decode_range(_c + _r);
assert.assert(r.s != r.e);
assert.equal(r.s.c, X.utils.decode_col(_c)); assert.equal(r.s.r, X.utils.decode_row(_r));
assert.equal(r.e.c, X.utils.decode_col(_c)); assert.equal(r.e.r, X.utils.decode_row(_r));
});
});
function coreprop(props: X.Properties) {
assert.equal(props.Title, 'Example with properties');
assert.equal(props.Subject, 'Test it before you code it');
assert.equal(props.Author, 'Pony Foo');
assert.equal(props.Manager, 'Despicable Drew');
assert.equal(props.Company, 'Vector Inc');
assert.equal(props.Category, 'Quirky');
assert.equal(props.Keywords, 'example humor');
assert.equal(props.Comments, 'some comments');
assert.equal(props.LastAuthor, 'Hugues');
}
function custprop(props: any) {
assert.equal(props['I am a boolean'], true);
assert.equal(props['Date completed'].toISOString(), '1967-03-09T16:30:00.000Z');
assert.equal(props.Status, 2);
assert.equal(props.Counter, -3.14);
}
function cmparr(x: any[]){ for(var i=1;i<x.length;++i) assert.deepEqual(x[0], x[i]); }
function deepcmp(x: any, y: any, k: string, m?: string, c: number = 0): void {
var s = k.indexOf(".");
m = (m||"") + "|" + (s > -1 ? k.substr(0,s) : k);
if(s < 0) return assert[c<0?'notEqual':'equal'](x[k], y[k], m);
return deepcmp(x[k.substr(0,s)],y[k.substr(0,s)],k.substr(s+1),m,c);
}
var styexc = [
'A2|H10|bgColor.rgb',
'F6|H1|patternType'
];
var stykeys = [
"patternType",
"fgColor.rgb",
"bgColor.rgb"
];
function diffsty(ws: X.WorkSheet, r1: string,r2: string) {
var c1 = get_cell(ws,r1).s, c2 = get_cell(ws,r2).s;
stykeys.forEach(function(m) {
var c = -1;
if(styexc.indexOf(r1+"|"+r2+"|"+m) > -1) c = 1;
else if(styexc.indexOf(r2+"|"+r1+"|"+m) > -1) c = 1;
deepcmp(c1,c2,m,r1+","+r2,c);
});
}
function hlink1(ws: X.WorkSheet) {[
["A1", "http://www.sheetjs.com"],
["A2", "http://oss.sheetjs.com"],
["A3", "http://oss.sheetjs.com#foo"],
["A4", "mailto:dev@sheetjs.com"],
["A5", "mailto:dev@sheetjs.com?subject=hyperlink"],
["A6", "../../sheetjs/Documents/Test.xlsx"],
["A7", "http://sheetjs.com", "foo bar baz"]
].forEach(function(r) {
assert.equal(get_cell(ws, r[0]).l.Target, r[1]);
if(r[2]) assert.equal(get_cell(ws, r[0]).l.Tooltip, r[2]);
}); }
function hlink2(ws: X.WorkSheet) { [
["A1", "#Sheet2!A1"],
["A2", "#WBScope"],
["A3", "#Sheet1!WSScope1", "#Sheet1!C7:E8"],
["A5", "#Sheet1!A5"]
].forEach(function(r) {
if(r[2] && get_cell(ws, r[0]).l.Target == r[2]) return;
assert.equal(get_cell(ws, r[0]).l.Target, r[1]);
}); }
function check_margin(margins: X.MarginInfo, exp: number[]) {
(["left", "right", "top", "bottom", "header", "footer"] as Array<keyof X.MarginInfo>).forEach(function(m: keyof X.MarginInfo, i: number) {
assert.equal(margins[m], exp[i]);
});
}
Deno.test('parse features', async function(t) {
await t.step('sheet visibility', async function(t) {
var wbs = SVPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE}); });
await t.step('should detect visible sheets', async function(t) {
wbs.forEach(function(wb) {
assert.assert(!wb?.Workbook?.Sheets?.[0]?.Hidden);
});
});
await t.step('should detect all hidden sheets', async function(t) {
wbs.forEach(function(wb) {
assert.assert(wb?.Workbook?.Sheets?.[1]?.Hidden);
assert.assert(wb?.Workbook?.Sheets?.[2]?.Hidden);
});
});
await t.step('should distinguish very hidden sheets', async function(t) {
wbs.forEach(function(wb) {
assert.equal(wb?.Workbook?.Sheets?.[1]?.Hidden,1);
assert.equal(wb?.Workbook?.Sheets?.[2]?.Hidden,2);
});
});
});
await t.step('comments', async function(t) {
if(fs.existsSync(paths.swcxlsx)) await t.step('should have comment as part of cell properties', async function(t){
var sheet = 'Sheet1';
var wb1=X.read(fs.readFileSync(paths.swcxlsx), {type:TYPE});
var wb2=X.read(fs.readFileSync(paths.swcxlsb), {type:TYPE});
var wb3=X.read(fs.readFileSync(paths.swcxls), {type:TYPE});
var wb4=X.read(fs.readFileSync(paths.swcxml), {type:TYPE});
[wb1,wb2,wb3,wb4].map(function(wb: X.WorkBook) { return wb.Sheets[sheet]; }).forEach(function(ws, i) {
assert.equal(get_cell(ws, "B1").c.length, 1,"must have 1 comment");
assert.equal(get_cell(ws, "B1").c[0].a, "Yegor Kozlov","must have the same author");
assert.equal(get_cell(ws, "B1").c[0].t, "Yegor Kozlov:\nfirst cell", "must have the concatenated texts");
if(i > 0) return;
assert.equal(get_cell(ws, "B1").c[0].r, '<r><rPr><b/><sz val="8"/><color indexed="81"/><rFont val="Tahoma"/></rPr><t>Yegor Kozlov:</t></r><r><rPr><sz val="8"/><color indexed="81"/><rFont val="Tahoma"/></rPr><t xml:space="preserve">\r\nfirst cell</t></r>', "must have the rich text representation");
assert.equal(get_cell(ws, "B1").c[0].h, '<span style="font-size:8pt;"><b>Yegor Kozlov:</b></span><span style="font-size:8pt;"><br/>first cell</span>', "must have the html representation");
});
});
var stst = [
['xlsx', paths.cstxlsx],
['xlsb', paths.cstxlsb],
['xls', paths.cstxls],
['xlml', paths.cstxml],
['ods', paths.cstods]
]; for(var ststi = 0; ststi < stst.length; ++ststi) { let m = stst[ststi]; await t.step(m[0] + ' stress test', async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
check_comments(wb);
var ws0 = wb.Sheets["Sheet2"];
assert.equal(get_cell(ws0,"A1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"A1").c[0].t, 'Author:\nGod thinks this is good');
assert.equal(get_cell(ws0,"C1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"C1").c[0].t, 'I really hope that xlsx decides not to use magic like rPr');
}); }
});
await t.step('should parse core properties and custom properties', async function(t) {
var wbs = [
X.read(fs.readFileSync(paths.cpxlsx), {type:TYPE, WTF:true}),
X.read(fs.readFileSync(paths.cpxlsb), {type:TYPE, WTF:true}),
X.read(fs.readFileSync(paths.cpxls), {type:TYPE, WTF:true}),
X.read(fs.readFileSync(paths.cpxml), {type:TYPE, WTF:true})
];
var s1 = ['XLSX', 'XLSB', 'XLS', 'XML']; for(var i = 0; i < s1.length; ++i) { let x = s1[i];
await t.step(x + ' should parse core properties', async function(t) { var P = wbs?.[i]?.Props; if(typeof P == "undefined") throw "missing props"; coreprop(P); });
await t.step(x + ' should parse custom properties', async function(t) { custprop(wbs?.[i]?.Custprops); });
}
var s2 = [
["asxls", "BIFF8", "\u2603"],
["asxls5", "BIFF5", "_"],
["asxml", "XLML", "\u2603"],
["asods", "ODS", "God"],
["asxlsx", "XLSX", "\u2603"],
["asxlsb", "XLSB", "\u2603"]
]; for(var ii = 0; ii < s2.length; ++ii) { let x = s2[ii];
await t.step(x[1] + ' should read ' + (x[2] == "\u2603" ? 'unicode ' : "") + 'author', async function(t) {
var wb = X.read(fs.readFileSync(paths[x[0]]), {type:TYPE});
assert.equal(wb?.Props?.Author, x[2]);
}); }
var BASE = "இராமா";
/* TODO: ODS, XLS */
var s3:Array<X.BookType> = [ "xlsx", "xlsb", "xlml"/*, "ods", "xls" */]; for(var i = 0; i < s3.length; ++i) { let n = s3[i];
await t.step(n + ' should round-trip unicode category', async function(t) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([["a"]]), "Sheet1");
if(!wb.Props) wb.Props = {};
(wb.Props || (wb.Props = {})).Category = BASE;
var wb2 = X.read(X.write(wb, {bookType:n, type:TYPE}), {type:TYPE});
assert.equal(wb2?.Props?.Category,BASE);
}); }
});
await t.step('sheetRows', async function(t) {
await t.step('should use original range if not set', async function(t) {
var opts = {type:TYPE};
FSTPaths.map(function(p) { return X.read(fs.readFileSync(p), opts); }).forEach(function(wb) {
assert.equal(wb.Sheets["Text"]["!ref"],"A1:F49");
});
});
await t.step('should adjust range if set', async function(t) {
var opts = {type:TYPE, sheetRows:10};
var wbs = FSTPaths.map(function(p) { return X.read(fs.readFileSync(p), opts); });
/* TODO: XLS, XML, ODS */
wbs.slice(0,2).forEach(function(wb) {
assert.equal(wb.Sheets["Text"]["!fullref"],"A1:F49");
assert.equal(wb.Sheets["Text"]["!ref"],"A1:F10");
});
});
await t.step('should not generate comment cells', async function(t) {
var opts = {type:TYPE, sheetRows:10};
var wbs = CSTPaths.map(function(p) { return X.read(fs.readFileSync(p), opts); });
/* TODO: XLS, XML, ODS */
wbs.slice(0,2).forEach(function(wb) {
assert.equal(wb.Sheets["Sheet7"]["!fullref"],"A1:N34");
assert.equal(wb.Sheets["Sheet7"]["!ref"],"A1");
});
});
});
await t.step('column properties', async function(t) {
var wbs: X.WorkBook[] = [], wbs_no_slk: X.WorkBook[] = [];
wbs = CWPaths.map(function(n) { return X.read(fs.readFileSync(n), {type:TYPE, cellStyles:true}); });
wbs_no_slk = wbs.slice(0, 5);
await t.step('should have "!cols"', async function(t) {
wbs.forEach(function(wb) { assert.assert(wb.Sheets["Sheet1"]['!cols']); });
});
await t.step('should have correct widths', async function(t) {
/* SYLK rounds wch so skip non-integral */
wbs_no_slk.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[1]?.width, 0.1640625);
assert.equal(x?.[2]?.width, 16.6640625);
assert.equal(x?.[3]?.width, 1.6640625);
});
wbs.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[4]?.width, 4.83203125);
assert.equal(x?.[5]?.width, 8.83203125);
assert.equal(x?.[6]?.width, 12.83203125);
assert.equal(x?.[7]?.width, 16.83203125);
});
});
await t.step('should have correct pixels', async function(t) {
/* SYLK rounds wch so skip non-integral */
wbs_no_slk.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[1].wpx, 1);
assert.equal(x?.[2].wpx, 100);
assert.equal(x?.[3].wpx, 10);
});
wbs.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[4].wpx, 29);
assert.equal(x?.[5].wpx, 53);
assert.equal(x?.[6].wpx, 77);
assert.equal(x?.[7].wpx, 101);
});
});
});
await t.step('row properties', async function(t) {
var wbs = RHPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, cellStyles:true}); });
/* */
var ols = OLPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, cellStyles:true}); });
await t.step('should have "!rows"', async function(t) {
wbs.forEach(function(wb) { assert.assert(wb.Sheets["Sheet1"]['!rows']); });
});
await t.step('should have correct points', async function(t) {
wbs.map(function(x) { return x.Sheets["Sheet1"]['!rows']; }).forEach(function(x) {
assert.equal(x?.[1].hpt, 1);
assert.equal(x?.[2].hpt, 10);
assert.equal(x?.[3].hpt, 100);
});
});
await t.step('should have correct pixels', async function(t) {
wbs.map(function(x) { return x.Sheets["Sheet1"]['!rows']; }).forEach(function(x) {
/* note: at 96 PPI hpt == hpx */
assert.equal(x?.[1].hpx, 1);
assert.equal(x?.[2].hpx, 10);
assert.equal(x?.[3].hpx, 100);
});
});
await t.step('should have correct outline levels', async function(t) {
ols.map(function(x) { return x.Sheets["Sheet1"]; }).forEach(function(ws) {
var rows = ws['!rows'];
for(var i = 0; i < 29; ++i) {
var cell = get_cell(ws, "A" + X.utils.encode_row(i));
var lvl = (rows?.[i]||{}).level||0;
if(!cell || cell.t == 's') assert.equal(lvl, 0);
else if(cell.t == 'n') {
if(cell.v === 0) assert.equal(lvl, 0);
else assert.equal(lvl, cell.v);
}
}
assert.equal(rows?.[29]?.level, 7);
});
});
});
await t.step('merge cells',async function(t) {
var wbs = MCPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE}); });
await t.step('should have !merges', async function(t) {
wbs.forEach(function(wb) {
assert.assert(wb.Sheets["Merge"]['!merges']);
});
var m = wbs.map(function(x) { return x.Sheets["Merge"]?.['!merges']?.map(function(y) { return X.utils.encode_range(y); });});
m?.slice(1)?.forEach(function(x) {
assert.deepEqual(m?.[0]?.sort(),x?.sort());
});
});
});
await t.step('should find hyperlinks', async function(t) {
var wb1 = HLPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, WTF:true}); });
var wb2 = ILPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, WTF:true}); });
var ext1 = ['xlsx', 'xlsb', 'xls', 'xml']; for(let i = 0; i < ext1.length; ++i) { let x = ext1[i];
await t.step(x + " external", async function(t) { hlink1(wb1[i].Sheets["Sheet1"]); });
}
var ext2 = ['xlsx', 'xlsb', 'xls', 'xml', 'ods']; for(let i = 0; i < ext2.length; ++i) { let x = ext2[i];
await t.step(x + " internal", async function(t) { hlink2(wb2[i].Sheets["Sheet1"]); });
}
});
await t.step('should parse cells with date type (XLSX/XLSM)', async function(t) {
await t.step('Must have read the date', async function(t) {
var wb: X.WorkBook, ws: X.WorkSheet;
var sheetName = 'Sheet1';
wb = X.read(fs.readFileSync(paths.dtxlsx), {type:TYPE});
ws = wb.Sheets[sheetName];
var sheet: Array<any> = X.utils.sheet_to_json(ws, {raw: false});
assert.equal(sheet[3]['てすと'], '2/14/14');
});
await t.step('cellDates should not affect formatted text', async function(t) {
var sheetName = 'Sheet1';
var ws1 = X.read(fs.readFileSync(paths.dtxlsx), {type:TYPE}).Sheets[sheetName];
var ws2 = X.read(fs.readFileSync(paths.dtxlsb), {type:TYPE}).Sheets[sheetName];
assert.equal(X.utils.sheet_to_csv(ws1),X.utils.sheet_to_csv(ws2));
});
});
await t.step('cellDates', async function(t) {
var fmts = [
/* desc path sheet cell formatted */
['XLSX', paths.dtxlsx, 'Sheet1', 'B5', '2/14/14'],
['XLSB', paths.dtxlsb, 'Sheet1', 'B5', '2/14/14'],
['XLS', paths.dtxls, 'Sheet1', 'B5', '2/14/14'],
['XLML', paths.dtxml, 'Sheet1', 'B5', '2/14/14'],
['XLSM', paths.nfxlsx, 'Implied', 'B13', '18-Oct-33']
];
await t.step('should not generate date cells by default', async function(t) { fmts.forEach(function(f) {
var wb, ws;
wb = X.read(fs.readFileSync(f[1]), {type:TYPE});
ws = wb.Sheets[f[2]];
assert.equal(get_cell(ws, f[3]).w, f[4]);
assert.equal(get_cell(ws, f[3]).t, 'n');
}); });
await t.step('should generate date cells if cellDates is true', async function(t) { fmts.forEach(function(f) {
var wb, ws;
wb = X.read(fs.readFileSync(f[1]), {type:TYPE, cellDates:true});
ws = wb.Sheets[f[2]];
assert.equal(get_cell(ws, f[3]).w, f[4]);
assert.equal(get_cell(ws, f[3]).t, 'd');
}); });
});
await t.step('defined names', async function(t) {var dnp = [
/* desc path cmnt */
['xlsx', paths.dnsxlsx, true],
['xlsb', paths.dnsxlsb, true],
['xls', paths.dnsxls, true],
['xlml', paths.dnsxml, false],
['slk', paths.dnsslk, false]
] as Array<[string, string, boolean]>; for(var i = 0; i < dnp.length; ++i) { let m: [string, string, boolean] = dnp[i]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
var names = wb?.Workbook?.Names;
if(names) {
if(m[0] != 'slk') {
for(var i = 0; i < names?.length; ++i) if(names[i].Name == "SheetJS") break;
assert.assert(i < names?.length, "Missing name");
assert.equal(names[i].Sheet, void 0);
assert.equal(names[i].Ref, "Sheet1!$A$1");
if(m[2]) assert.equal(names[i].Comment, "defined names just suck excel formulae are bad MS should feel bad");
}
for(i = 0; i < names.length; ++i) if(names[i].Name == "SHEETjs") break;
assert.assert(i < names.length, "Missing name");
assert.equal(names[i].Sheet, 0);
assert.equal(names[i].Ref, "Sheet1!$A$2");
}
}); } });
await t.step('defined names unicode', async function(t) {var dnu=[
/* desc path RT */
['xlsx', paths.dnuxlsx, true],
['xlsb', paths.dnuxlsb, true],
['ods', paths.dnuods, true],
['xls', paths.dnuxls, false],
['xlml', paths.dnuxml, false]
]; for(var i = 0; i < dnu.length; ++i) { let m = dnu[i]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
var wb2 = X.read(X.write(wb, {type:TYPE, bookType: m[0]}), {type:TYPE});
[
"NoContainsJapanese",
"\u65E5\u672C\u8a9e\u306e\u307f",
"sheet\u65e5\u672c\u8a9e",
"\u65e5\u672c\u8a9esheet",
"sheet\u65e5\u672c\u8a9esheet"
].forEach(function(n, i) { assert.equal(wb.SheetNames[i], n); });
[
["name\u65e5\u672c\u8a9e", "sheet\u65e5\u672c\u8a9e!$A$1"],
["name\u65e5\u672c\u8a9ename", "sheet\u65e5\u672c\u8a9esheet!$B$2"],
["NoContainsJapaneseName", "\u65e5\u672c\u8a9e\u306e\u307f!$A$1"],
["sheet\u65e5\u672c\u8a9e", "sheet\u65e5\u672c\u8a9e!$A$1"],
["\u65e5\u672c\u8a9e", "NoContainsJapanese!$A$1"],
["\u65e5\u672c\u8a9ename", "\u65e5\u672c\u8a9esheet!$I$2"]
].forEach(function(n) {(m[2] ? [ wb, wb2 ] : [ wb ]).forEach(function(wb) {
var DN = null;
var arr = wb?.Workbook?.Names;
if(arr) for(var j = 0; j < arr.length; ++j) if(arr[j]?.Name == n?.[0]) DN = arr[j];
assert.assert(DN);
// $FlowIgnore
assert.equal(DN?.Ref, n?.[1]);
}); });
}); } });
await t.step('workbook codename unicode', async function(t) {
var wb = X.utils.book_new();
var ws = X.utils.aoa_to_sheet([[1]]);
X.utils.book_append_sheet(wb, ws, "Sheet1");
wb.Workbook = { WBProps: { CodeName: "本工作簿" } };
var exts = ['xlsx', 'xlsb'] as Array<X.BookType>; for(var i = 0; i < exts.length; ++i) { var m = exts[i]; await t.step(m, async function(t) {
var bstr = X.write(wb, {type: "binary", bookType: m});
var nwb = X.read(bstr, {type: "binary"});
assert.equal(nwb?.Workbook?.WBProps?.CodeName, wb?.Workbook?.WBProps?.CodeName);
}); }
});
await t.step('auto filter', async function(t) {var af = [
['xlsx', paths.afxlsx],
['xlsb', paths.afxlsb],
['xls', paths.afxls],
['xlml', paths.afxml],
['ods', paths.afods]
]; for(var j = 0; j < af.length; ++j) { var m = af[j]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
assert.assert(!wb.Sheets[wb.SheetNames[0]]['!autofilter']);
for(var i = 1; i < wb.SheetNames.length; ++i) {
assert.assert(wb.Sheets[wb.SheetNames[i]]['!autofilter']);
assert.equal(wb.Sheets[wb.SheetNames[i]]?.['!autofilter']?.ref,"A1:E22");
}
}); } });
await t.step('HTML', async function(t) {
var ws = X.utils.aoa_to_sheet([
["a","b","c"],
["&","<",">","\n"]
]);
var wb = {SheetNames:["Sheet1"],Sheets:{Sheet1:ws}};
var m: 'xlsx' = 'xlsx'; await t.step(m, async function(t) {
var wb2 = X.read(X.write(wb, {bookType:m, type:TYPE}),{type:TYPE, cellHTML:true});
assert.equal(get_cell(wb2.Sheets["Sheet1"], "A2").h, "&amp;");
assert.equal(get_cell(wb2.Sheets["Sheet1"], "B2").h, "&lt;");
assert.equal(get_cell(wb2.Sheets["Sheet1"], "C2").h, "&gt;");
var h = get_cell(wb2.Sheets["Sheet1"], "D2").h;
assert.assert(h == "&#x000a;" || h == "<br/>");
});
});
await t.step('page margins', async function(t) {
var wbs = PMPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, WTF:true}); });
var pm = ([
/* Sheet Name Margins: left right top bottom head foot */
["Normal", [0.70, 0.70, 0.75, 0.75, 0.30, 0.30]],
["Wide", [1.00, 1.00, 1.00, 1.00, 0.50, 0.50]],
["Narrow", [0.25, 0.25, 0.75, 0.75, 0.30, 0.30]],
["Custom 1 Inch Centered", [1.00, 1.00, 1.00, 1.00, 0.30, 0.30]],
["1 Inch HF", [0.70, 0.70, 0.75, 0.75, 1.00, 1.00]]
] as Array<[string, number[]]>); for(var pmi = 0; pmi < pm.length; ++pmi) { let tt = pm[pmi]; await t.step('should parse ' + tt[0] + ' margin', async function(t) { wbs.forEach(function(wb) {
check_margin(wb.Sheets[""+tt[0]]?.["!margins"] as any, tt[1]);
}); }); }
});
await t.step('should correctly handle styles', async function(t) {
var wsxls=X.read(fs.readFileSync(paths.cssxls), {type:TYPE,cellStyles:true,WTF:true}).Sheets["Sheet1"];
var wsxlsx=X.read(fs.readFileSync(paths.cssxlsx), {type:TYPE,cellStyles:true,WTF:true}).Sheets["Sheet1"];
var rn = function(range: string): string[] {
var r = X.utils.decode_range(range);
var out: string[] = [];
for(var R = r.s.r; R <= r.e.r; ++R) for(var C = r.s.c; C <= r.e.c; ++C)
out.push(X.utils.encode_cell({c:C,r:R}));
return out;
};
var rn2 = function(r: string): string[] { return ([] as string[]).concat.apply(([] as string[]), r.split(",").map(rn)); };
var ranges = [
'A1:D1,F1:G1', 'A2:D2,F2:G2', /* rows */
'A3:A10', 'B3:B10', 'E1:E10', 'F6:F8', /* cols */
'H1:J4', 'H10' /* blocks */
];
/*eslint-disable */
var exp/*:Array<any>*/ = [
{ patternType: 'darkHorizontal',
fgColor: { theme: 9, raw_rgb: 'F79646' },
bgColor: { theme: 5, raw_rgb: 'C0504D' } },
{ patternType: 'darkUp',
fgColor: { theme: 3, raw_rgb: '1F497D' },
bgColor: { theme: 7, raw_rgb: '8064A2' } },
{ patternType: 'darkGray',
fgColor: { theme: 3, raw_rgb: '1F497D' },
bgColor: { theme: 1, raw_rgb: '000000' } },
{ patternType: 'lightGray',
fgColor: { theme: 6, raw_rgb: '9BBB59' },
bgColor: { theme: 2, raw_rgb: 'EEECE1' } },
{ patternType: 'lightDown',
fgColor: { theme: 4, raw_rgb: '4F81BD' },
bgColor: { theme: 7, raw_rgb: '8064A2' } },
{ patternType: 'lightGrid',
fgColor: { theme: 6, raw_rgb: '9BBB59' },
bgColor: { theme: 9, raw_rgb: 'F79646' } },
{ patternType: 'lightGrid',
fgColor: { theme: 4, raw_rgb: '4F81BD' },
bgColor: { theme: 2, raw_rgb: 'EEECE1' } },
{ patternType: 'lightVertical',
fgColor: { theme: 3, raw_rgb: '1F497D' },
bgColor: { theme: 7, raw_rgb: '8064A2' } }
];
/*eslint-enable */
for(var rangei = 0; rangei < ranges.length; ++rangei) { let rng = ranges[rangei];
await t.step('XLS | ' + rng,async function(t){cmparr(rn2(rng).map(function(x){ return get_cell(wsxls,x).s; }));});
await t.step('XLSX | ' + rng,async function(t){cmparr(rn2(rng).map(function(x){ return get_cell(wsxlsx,x).s; }));});
}
await t.step('different styles', async function(t) {
for(var i = 0; i != ranges.length-1; ++i) {
for(var j = i+1; j != ranges.length; ++j) {
diffsty(wsxlsx, rn2(ranges[i])[0], rn2(ranges[j])[0]);
/* TODO: XLS */
//diffsty(wsxls, rn2(ranges[i])[0], rn2(ranges[j])[0]);
}
}
});
await t.step('correct styles', async function(t) {
//var stylesxls = ranges.map(function(r) { return rn2(r)[0]; }).map(function(r) { return get_cell(wsxls,r).s; });
var stylesxlsx = ranges.map(function(r) { return rn2(r)[0]; }).map(function(r) { return get_cell(wsxlsx,r).s; });
exp.forEach(function(e, i) {
[
"fgColor.theme","fgColor.raw_rgb",
"bgColor.theme","bgColor.raw_rgb",
"patternType"
].forEach(function(k) {
deepcmp(e, stylesxlsx[i], k, i + ":" + k, 0);
/* TODO: XLS */
//deepcmp(e, stylesxls[i], k, i + ":" + k, 0);
});
});
});
});
await t.step('data types formats', async function(t) {var dtf = [
['xlsx', paths.dtfxlsx],
]; for(var j = 0; j < dtf.length; ++j) { var m = dtf[j]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type: TYPE, cellDates: true});
var ws = wb.Sheets[wb.SheetNames[0]];
var data = X.utils.sheet_to_json<any>(ws, { header: 1, raw: true, rawNumbers: false });
assert.assert(data[0][1] instanceof Date);
assert.assert(data[1][1] instanceof Date);
assert.equal(data[2][1], '$123.00');
assert.equal(data[3][1], '98.76%');
assert.equal(data[4][1], '456.00');
assert.equal(data[5][1], '7,890');
}); } });
await t.step('date system', async function(t) {[
"biff5", "ods", "slk", "xls", "xlsb", "xlsx", "xml"
].forEach(function(ext) {
// TODO: verify actual date values
var wb0 = X.read(fs.readFileSync("./test_files/1904/1900." + ext), {type: TYPE, cellNF: true});
assert.assert(!(wb0?.Workbook?.WBProps?.date1904));
assert.equal(X.utils.sheet_to_csv(wb0.Sheets[wb0.SheetNames[0]]), [
"1,1900-01-01,1900-01-01,1900-01-01",
"11,1900-01-11,1900-01-11,1900-01-11",
"111,1900-04-20,1900-04-20,1900-04-20",
"1111,1903-01-15,1903-01-15,1903-01-15",
"11111,1930-06-02,1930-06-02,1930-06-02"
].join("\n"));
var wb4 = X.read(fs.readFileSync("./test_files/1904/1904." + ext), {type: TYPE, cellNF: true});
assert.assert(wb4?.Workbook?.WBProps?.date1904);
assert.equal(X.utils.sheet_to_csv(wb4.Sheets[wb4.SheetNames[0]]), [
"1,1904-01-02,1904-01-02,1904-01-02",
"11,1904-01-12,1904-01-12,1904-01-12",
"111,1904-04-21,1904-04-21,1904-04-21",
"1111,1907-01-16,1907-01-16,1907-01-16",
"11111,1934-06-03,1934-06-03,1934-06-03"
].join("\n"));
}); });
await t.step('bookType metadata', async function(t) {
([
// TODO: keep in sync with BookType, support other formats
"xlsx"/*, "xlsm" */, "xlsb"/* xls / xla / biff# */, "xlml", "ods", "fods"/*, "csv", "txt", */, "sylk", "html", "dif", "rtf"/*, "prn", "eth"*/, "dbf", "numbers"
] as X.BookType[]).forEach(function(r: X.BookType) {
var ws = X.utils.aoa_to_sheet([ ["a", "b", "c"], [1, 2, 3] ]);
var wb = X.utils.book_new(); X.utils.book_append_sheet(wb, ws, "Sheet1");
var data = X.write(wb, {type: TYPE, bookType: r, WTF: true, numbers:XLSX_ZAHL });
assert.equal(X.read(data, {type: TYPE, WTF: true}).bookType, r);
}); });
});
Deno.test('write features', async function(t) {
await t.step('props', async function(t) {
await t.step('core', async function(t) {
var baseprops: X.FullProperties = {
Category: "Newspaper",
ContentStatus: "Published",
Keywords: "☃",
LastAuthor: "Perry White",
LastPrinted: "1978-12-15",
//RevNumber: 6969, // TODO: this should actually be Revision
//AppVersion: 69, // TODO: this should actually be a number
Author: "Lois Lane",
Comments: "Needs work",
Identifier: "1d",
Language: "English",
Subject: "Superman",
Title: "Man of Steel"
};
var ws = X.utils.aoa_to_sheet([["a","b","c"],[1,2,3]]);
var bt1 = (['xlml', 'xlsx', 'xlsb'] as Array<X.BookType>); for(var bti = 0; bti < bt1.length; ++bti) { let w: X.BookType = bt1[bti]; await t.step(w, async function(t) {
var wb: X.WorkBook = {
Props: ({} as X.FullProperties),
SheetNames: ["Sheet1"],
Sheets: {Sheet1: ws}
};
(Object.keys(baseprops) as Array<keyof X.FullProperties>).forEach(function(k: keyof X.FullProperties) { if(wb.Props) (wb.Props as any)[k] = baseprops[k]; });
var wb2 = X.read(X.write(wb, {bookType:w, type:TYPE}), {type:TYPE});
(Object.keys(baseprops) as Array<keyof X.FullProperties>).forEach(function(k) { assert.equal(baseprops[k], wb2?.Props?.[k]); });
var wb3 = X.read(X.write(wb2, {bookType:w, type:TYPE, Props: {Author:"SheetJS"}}), {type:TYPE});
assert.equal("SheetJS", wb3?.Props?.Author);
}); }
});
});
await t.step('HTML', async function(t) {
await t.step('should use `h` value when present', async function(t) {
var sheet = X.utils.aoa_to_sheet([["abc"]]);
get_cell(sheet, "A1").h = "<b>abc</b>";
var wb = {SheetNames:["Sheet1"], Sheets:{Sheet1:sheet}};
var str = X.write(wb, {bookType:"html", type:"binary"});
assert.assert(str.indexOf("<b>abc</b>") > 0);
});
});
await t.step('sheet range limits', async function(t) { var b = ([
["biff2", "IV16384"],
["biff5", "IV16384"],
["biff8", "IV65536"],
["xlsx", "XFD1048576"],
["xlsb", "XFD1048576"]
] as Array<['biff2' | 'biff5' | 'biff8' | 'xlsx' | 'xlsb', string]>); for(var j = 0; j < b.length; ++j) { var r = b[j]; await t.step(r[0], async function(t) {
var C = X.utils.decode_cell(r[1]);
var wopts: X.WritingOptions = {bookType:r[0], type:'binary', WTF:true};
var wb = { SheetNames: ["Sheet1"], Sheets: { Sheet1: ({} as X.WorkSheet) } };
wb.Sheets["Sheet1"]['!ref'] = "A1:" + X.utils.encode_cell({r:0, c:C.c});
X.write(wb, wopts);
wb.Sheets["Sheet1"]['!ref'] = "A" + X.utils.encode_row(C.r - 5) + ":" + X.utils.encode_cell({r:C.r, c:0});
X.write(wb, wopts);
wb.Sheets["Sheet1"]['!ref'] = "A1:" + X.utils.encode_cell({r:0, c:C.c+1});
assert.throws(function() { X.write(wb, wopts); });
wb.Sheets["Sheet1"]['!ref'] = "A" + X.utils.encode_row(C.r - 5) + ":" + X.utils.encode_cell({r:C.r+1, c:0});
assert.throws(function() { X.write(wb, wopts); });
}); } });
await t.step('single worksheet formats', async function(t) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2],[3,4]]), "Sheet1");
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[5,6],[7,8]]), "Sheet2");
assert.equal(X.write(wb, {type:"string", bookType:"csv", sheet:"Sheet1"}), "1,2\n3,4");
assert.equal(X.write(wb, {type:"string", bookType:"csv", sheet:"Sheet2"}), "5,6\n7,8");
assert.throws(function() { X.write(wb, {type:"string", bookType:"csv", sheet:"Sheet3"}); });
});
await t.step('should create/update autofilter defined name on write', async function(t) {([
"xlsx", "xlsb", /* "xls", */ "xlml" /*, "ods" */
] as Array<X.BookType>).forEach(function(fmt) {
var wb = X.utils.book_new();
var ws = X.utils.aoa_to_sheet([["A","B","C"],[1,2,3]]);
ws["!autofilter"] = { ref: (ws["!ref"] as string) };
X.utils.book_append_sheet(wb, ws, "Sheet1");
var wb2 = X.read(X.write(wb, {bookType:fmt, type:TYPE}), {type:TYPE});
var Name: X.DefinedName = (null as any);
((wb2.Workbook||{}).Names || []).forEach(function(dn) { if(dn.Name == "_xlnm._FilterDatabase" && dn.Sheet == 0) Name = dn; });
assert.assert(!!Name, "Could not find _xlnm._FilterDatabases name WR");
assert.equal(Name.Ref, "Sheet1!$A$1:$C$2");
X.utils.sheet_add_aoa(wb2.Sheets["Sheet1"], [[4,5,6]], { origin: -1 });
(wb2.Sheets["Sheet1"]["!autofilter"] as any).ref = wb2.Sheets["Sheet1"]["!ref"];
var wb3 = X.read(X.write(wb2, {bookType:fmt, type:TYPE}), {type:TYPE});
Name = (null as any);
((wb3.Workbook||{}).Names || []).forEach(function(dn) { if(dn.Name == "_xlnm._FilterDatabase" && dn.Sheet == 0) Name = dn; });
assert.assert(!!Name, "Could not find _xlnm._FilterDatabases name WRWR");
assert.equal(Name.Ref, "Sheet1!$A$1:$C$3");
assert.equal(((wb2.Workbook as any).Names as any).length, ((wb3.Workbook as any).Names as any).length);
}); });
});
function seq(end: number, start?: number): Array<number> {
var s = start || 0;
var o = new Array(end - s);
for(var i = 0; i != o.length; ++i) o[i] = s + i;
return o;
}
var basedate = new Date(1899, 11, 30, 0, 0, 0); // 2209161600000
function datenum(v: Date, date1904?: boolean): number {
var epoch = v.getTime();
if(date1904) epoch -= 1462*24*60*60*1000;
var dnthresh = basedate.getTime() + (v.getTimezoneOffset() - basedate.getTimezoneOffset()) * 60000;
return (epoch - dnthresh) / (24 * 60 * 60 * 1000);
}
var good_pd_date = new Date('2017-02-19T19:06:09.000Z');
if(isNaN(good_pd_date.getFullYear())) good_pd_date = new Date('2017-02-19T19:06:09');
if(isNaN(good_pd_date.getFullYear())) good_pd_date = new Date('2/19/17');
var good_pd = good_pd_date.getFullYear() == 2017;
function parseDate(str: string|Date): Date {
var d = new Date(str);
if(good_pd) return d;
if(str instanceof Date) return str;
if(good_pd_date.getFullYear() == 1917 && !isNaN(d.getFullYear())) {
var s = d.getFullYear();
if(str.indexOf("" + s) > -1) return d;
d.setFullYear(d.getFullYear() + 100); return d;
}
var n = str.match(/\d+/g)||["2017","2","19","0","0","0"];
return new Date(Date.UTC(+n[0], +n[1] - 1, +n[2], +n[3], +n[4], +n[5]));
}
var fixdate = browser ? parseDate("2014-02-19T14:30:00.000Z") : new Date("2014-02-19T14:30Z");
Deno.test('roundtrip features', async function(t) {
await t.step('should preserve core properties', async function(t) { var cp = [
['xls', paths.cpxls],
['xlml', paths.cpxml],
['xlsx', paths.cpxlsx],
['xlsb', paths.cpxlsb]
]; for(var cpi = 0; cpi < cp.length; ++cpi) { var w = cp[cpi];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
coreprop(wb1.Props as any);
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
coreprop(wb2.Props as any);
});
} });
await t.step('should preserve custom properties', async function(t) { var cp = [
['xls', paths.cpxls],
['xlml', paths.cpxml],
['xlsx', paths.cpxlsx],
['xlsb', paths.cpxlsb]
]; for(var cpi = 0; cpi < cp.length; ++cpi) { var w = cp[cpi];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
custprop(wb1.Custprops);
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
custprop(wb2.Custprops);
});
} });
await t.step('should preserve merge cells', async function(t) {
var mcf = ["xlsx", "xlsb", "xlml", "ods", "biff8", "numbers"] as Array<X.BookType>; for(let mci = 0; mci < mcf.length; ++mci) { let f = mcf[mci]; await t.step(f, async function(t) {
var wb1 = X.read(fs.readFileSync(paths.mcxlsx), {type:TYPE});
var wb2 = X.read(X.write(wb1,{bookType:f,type:'binary',numbers:XLSX_ZAHL}),{type:'binary'});
var m1 = wb1.Sheets["Merge"]?.['!merges']?.map(X.utils.encode_range);
var m2 = wb2.Sheets["Merge"]?.['!merges']?.map(X.utils.encode_range);
assert.equal(m1?.length, m2?.length);
if(m1 && m2) for(var i = 0; i < m1?.length; ++i) assert.assert(m1?.indexOf(m2?.[i]) > -1);
}); }
});
await t.step('should preserve dates', async function(t) {
for(var n = 0; n < 16; ++n) {
var d = (n & 1) ? 'd' : 'n', dk = d === 'd';
var c = (n & 2) ? 'd' : 'n', dj = c === 'd';
var b = (n & 4) ? 'd' : 'n', di = b === 'd';
var a = (n & 8) ? 'd' : 'n', dh = a === 'd';
var f: string, sheet: string, addr: string;
if(dh) { f = paths.dtxlsx; sheet = 'Sheet1'; addr = 'B5'; }
else { f = paths.nfxlsx; sheet = '2011'; addr = 'J36'; }
await t.step('[' + a + '] -> (' + b + ') -> [' + c + '] -> (' + d + ')', async function(t) {
var wb1 = X.read(fs.readFileSync(f), {type:TYPE, cellNF: true, cellDates: di, WTF: opts.WTF});
var _f = X.write(wb1, {type:'binary', cellDates:dj, WTF:opts.WTF});
var wb2 = X.read(_f, {type:'binary', cellDates: dk, WTF: opts.WTF});
var m = [wb1,wb2].map(function(x: X.WorkBook) { return get_cell(x.Sheets[sheet], addr); });
assert.equal(m[0].w, m[1].w);
assert.equal(m[0].t, b);
assert.equal(m[1].t, d);
if(m[0].t === 'n' && m[1].t === 'n') assert.equal(m[0].v, m[1].v);
else if(m[0].t === 'd' && m[1].t === 'd') assert.equal(m[0].v.toString(), m[1].v.toString());
else if(m[1].t === 'n') assert.assert(Math.abs(datenum(browser ? parseDate(m[0].v) : new Date(m[0].v)) - m[1].v) < 0.01);
});
}
});
await t.step('should preserve formulae', async function(t) { var ff = [
['xlml', paths.fstxml],
['xlsx', paths.fstxlsx],
['ods', paths.fstods]
]; for(let ii = 0; ii < ff.length; ++ii) { let w = ff[ii]; await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE, cellFormula:true, WTF:true});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {cellFormula:true, type:TYPE, WTF:true});
wb1.SheetNames.forEach(function(n) {
assert.equal(
X.utils.sheet_to_formulae(wb1.Sheets[n]).sort().join("\n"),
X.utils.sheet_to_formulae(wb2.Sheets[n]).sort().join("\n")
);
});
}); } });
await t.step('should preserve dynamic array formulae', async function(t) { var m19 = [
['xlsx', paths.m19xlsx]
]; for(var h1 = 0; h1 < m19.length; ++h1) { var w = m19[h1]; await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {xlfn: true, type:TYPE, cellFormula:true, WTF:true});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {cellFormula:true, xlfn: true, type:TYPE, WTF:true});
assert.equal(!!get_cell(wb2.Sheets["Sheet1"], "B3").D, true);
assert.equal(!!get_cell(wb2.Sheets["Sheet1"], "B13").D, true);
assert.equal(!!get_cell(wb2.Sheets["Sheet1"], "C13").D, true);
get_cell(wb2.Sheets["Sheet1"], "B3").D = false;
var wb3 = X.read(X.write(wb2, {bookType:w[0], type:TYPE}), {cellFormula:true, xlfn: true, type:TYPE, WTF:true});
assert.equal(!!get_cell(wb3.Sheets["Sheet1"], "B3").D, false);
assert.equal(!!get_cell(wb3.Sheets["Sheet1"], "B13").D, true);
assert.equal(!!get_cell(wb3.Sheets["Sheet1"], "C13").D, true);
}); } });
await t.step('should preserve hyperlink', async function(t) { var hl = [
['xlml', paths.hlxml, true],
['xls', paths.hlxls, true],
['xlsx', paths.hlxlsx, true],
['xlsb', paths.hlxlsb, true],
['xlml', paths.ilxml, false],
['xls', paths.ilxls, false],
['xlsx', paths.ilxlsx, false],
['xlsb', paths.ilxlsb, false],
['ods', paths.ilods, false]
]; for(var h1 = 0; h1 < hl.length; ++h1) { var w = hl[h1]; await t.step(w[0]+" "+(w[2]?"ex":"in")+ "ternal", async function(t) {
var wb = X.read(fs.readFileSync(w[1]), {type:TYPE, WTF:opts.WTF});
var hlink = (w[2] ? hlink1 : hlink2); hlink(wb.Sheets["Sheet1"]);
wb = X.read(X.write(wb, {bookType:w[0], type:TYPE, WTF:opts.WTF}), {type:TYPE, WTF:opts.WTF});
hlink(wb.Sheets["Sheet1"]);
}); } });
await t.step('should preserve page margins', async function(t) { var pm = [
['xlml', paths.pmxml],
['xlsx', paths.pmxlsx],
['xlsb', paths.pmxlsb]
]; for(var p1 = 0; p1 < pm.length; ++p1) {var w = pm[p1]; await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:"binary"}), {type:"binary"});
([
/* Sheet Name Margins: left right top bottom head foot */
["Normal", [0.70, 0.70, 0.75, 0.75, 0.30, 0.30]],
["Wide", [1.00, 1.00, 1.00, 1.00, 0.50, 0.50]],
["Narrow", [0.25, 0.25, 0.75, 0.75, 0.30, 0.30]],
["Custom 1 Inch Centered", [1.00, 1.00, 1.00, 1.00, 0.30, 0.30]],
["1 Inch HF", [0.70, 0.70, 0.75, 0.75, 1.00, 1.00]]
] as Array<[string, number[]]>).forEach(function(t) {
check_margin(wb2.Sheets[t[0]]?.["!margins"] as X.MarginInfo, t[1]);
});
}); } });
await t.step('should preserve sheet visibility', async function(t) { var sv = [
['xlml', paths.svxml],
['xlsx', paths.svxlsx],
['xlsb', paths.svxlsb],
['xls', paths.svxls],
['biff5', paths.svxls5]
// ['ods', paths.svods]
] as Array<[X.BookType, string]>; for(var s1 = 0; s1 < sv.length; ++s1) { var w = sv[s1];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
var wbs1 = wb1?.Workbook?.Sheets;
var wbs2 = wb2?.Workbook?.Sheets;
assert.equal(wbs1?.length, wbs2?.length);
if(wbs1) for(var i = 0; i < wbs1?.length; ++i) {
assert.equal(wbs1?.[i].name, wbs2?.[i].name);
assert.equal(wbs1?.[i].Hidden, wbs2?.[i].Hidden);
}
});
}
});
await t.step('should preserve column properties', async function(t) { var bt = [
/*'xlml',*/ /*'biff2', 'biff8', */ 'xlsx', 'xlsb', 'slk'
] as Array<X.BookType>; for(var bti = 0; bti < bt.length; ++bti) { var w = bt[bti]; await t.step(w, async function(t) {
var ws1 = X.utils.aoa_to_sheet([["hpx12", "hpt24", "hpx48", "hidden"]]);
ws1['!cols'] = [{wch:9},{wpx:100},{width:80},{hidden:true}];
var wb1 = {SheetNames:["Sheet1"], Sheets:{Sheet1:ws1}};
var wb2 = X.read(X.write(wb1, {bookType:w, type:TYPE}), {type:TYPE, cellStyles:true});
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2?.['!cols']?.[3].hidden, true);
assert.equal(ws2?.['!cols']?.[0].wch, 9);
if(w == 'slk') return;
assert.equal(ws2?.['!cols']?.[1].wpx, 100);
/* xlml stores integral pixels -> approximate width */
if(w == 'xlml') assert.equal(Math.round(ws2['!cols']?.[2]?.width||0), 80);
else assert.equal(ws2['!cols']?.[2].width, 80);
}); }
});
/* TODO: ODS and BIFF5/8 */
await t.step('should preserve row properties', async function(t) { var bt = [
'xlml', /*'biff2', 'biff8', */ 'xlsx', 'xlsb', 'slk'
] as Array<X.BookType>; for(var bti = 0; bti < bt.length; ++bti) { var w = bt[bti]; await t.step(w, async function(t) {
var ws1 = X.utils.aoa_to_sheet([["hpx12"],["hpt24"],["hpx48"],["hidden"]]);
ws1['!rows'] = [{hpx:12},{hpt:24},{hpx:48},{hidden:true}];
for(var i = 0; i <= 7; ++i) ws1['!rows'].push({level:i});
var wb1 = {SheetNames:["Sheet1"], Sheets:{Sheet1:ws1}};
var wb2 = X.read(X.write(wb1, {bookType:w, type:TYPE, cellStyles:true}), {type:TYPE, cellStyles:true});
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2?.['!rows']?.[0]?.hpx, 12);
assert.equal(ws2?.['!rows']?.[1]?.hpt, 24);
assert.equal(ws2?.['!rows']?.[2]?.hpx, 48);
assert.equal(ws2?.['!rows']?.[3]?.hidden, true);
if(w == 'xlsb' || w == 'xlsx') for(i = 0; i <= 7; ++i) assert.equal((ws2?.['!rows']?.[4+i]||{}).level||0, i);
}); }
});
/* TODO: ODS and XLS */
await t.step('should preserve cell comments', async function(t) { var cc = [
['xlsx', paths.cstxlsx],
['xlsb', paths.cstxlsb],
//['xls', paths.cstxls],
['xlml', paths.cstxml]
//['ods', paths.cstods]
]; for(var cci = 0; cci < cc.length; ++cci) { let w = cc[cci];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
check_comments(wb1);
check_comments(wb2);
});
}
});
await t.step('should preserve JS objects', async function(t) {
var data: Array<any> = [
{a:1},
{b:2,c:3},
{b:"a",d:"b"},
{a:true, c:false},
{c:fixdate}
];
var o: Array<any> = X.utils.sheet_to_json(X.utils.json_to_sheet(data, {cellDates:true}));
data.forEach(function(row, i) {
Object.keys(row).forEach(function(k) { assert.equal(row[k], o[i][k]); });
});
});
await t.step('should preserve autofilter settings', async function(t) {[
['xlsx', paths.afxlsx],
['xlsb', paths.afxlsb],
// TODO:
//['xls', paths.afxls],
['xlml', paths.afxml]
//['ods', paths.afods]
].forEach(function(w) {
var wb = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb, {bookType:w[0], type: TYPE}), {type:TYPE});
assert.assert(!wb2.Sheets[wb2.SheetNames[0]]['!autofilter']);
for(var i = 1; i < wb2.SheetNames.length; ++i) {
assert.assert(wb2.Sheets[wb2.SheetNames[i]]['!autofilter']);
assert.equal((wb2.Sheets[wb2.SheetNames[i]]['!autofilter'] as any).ref,"A1:E22");
}
}); });
await t.step('should preserve date system', async function(t) {([
"biff5", "ods", "slk", "xls", "xlsb", "xlsx", "xml"
] as X.BookType[]).forEach(function(ext) {
// TODO: check actual date codes and actual date values
var wb0 = X.read(fs.readFileSync("./test_files/1904/1900." + ext), {type: TYPE});
assert.assert(!wb0.Workbook?.WBProps?.date1904);
var wb1 = X.read(X.write(wb0, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(!wb1.Workbook?.WBProps?.date1904);
var wb2 = X.utils.book_new(); X.utils.book_append_sheet(wb2, X.utils.aoa_to_sheet([[1]]), "Sheet1");
wb2.Workbook = { WBProps: { date1904: false } };
assert.assert(!wb2.Workbook?.WBProps?.date1904);
var wb3 = X.read(X.write(wb2, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(!wb3.Workbook?.WBProps?.date1904);
var wb4 = X.read(fs.readFileSync("./test_files/1904/1904." + ext), {type: TYPE});
assert.assert(wb4.Workbook?.WBProps?.date1904);
var wb5 = X.read(X.write(wb4, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(wb5.Workbook?.WBProps?.date1904); // xlsb, xml
var wb6 = X.utils.book_new(); X.utils.book_append_sheet(wb6, X.utils.aoa_to_sheet([[1]]), "Sheet1");
wb6.Workbook = { WBProps: { date1904: true } };
assert.assert(wb6.Workbook?.WBProps?.date1904);
var wb7 = X.read(X.write(wb6, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(wb7.Workbook?.WBProps?.date1904);
}); });
});
//function password_file(x){return x.match(/^password.*\.xls$/); }
var password_files = [
//"password_2002_40_972000.xls",
"password_2002_40_xor.xls"
];
Deno.test('invalid files', async function(t) {
await t.step('parse', async function(t) { var fl = [
['KEY files', 'numbers/Untitled.key'],
['PAGES files', 'numbers/Untitled.pages'],
['password', 'apachepoi_password.xls'],
['passwords', 'apachepoi_xor-encryption-abc.xls'],
['DOC files', 'word_doc.doc']
]; for(var f1 = 0; f1 < fl.length; ++f1) { let w = fl[f1]; await t.step('should fail on ' + w[0], async function(t) {
assert.throws(function() { X.read(fs.readFileSync(dir + w[1], 'binary'), {type:'binary'}); });
assert.throws(function() { X.read(fs.readFileSync(dir + w[1], 'base64'), {type:'base64'}); });
}); } });
await t.step('write', async function(t) {
await t.step('should pass -> XLSX', async function(t) { FSTPaths.forEach(function(p) {
X.write(X.read(fs.readFileSync(p), {type:TYPE}), {type:TYPE});
}); });
await t.step('should pass if a sheet is missing', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE}); delete wb.Sheets[wb.SheetNames[0]];
X.read(X.write(wb, {type:'binary'}), {type:'binary'});
});
var k1 = ['Props', 'Custprops', 'SSF']; for(var k1i = 0; k1i < k1.length; ++k1i) { var tt = k1[k1i]; await t.step('should pass if ' + tt + ' is missing', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE});
assert.doesNotThrow(function() { delete (wb as any)[tt]; X.write(wb, {type:'binary'}); });
}); }
var k2 = ['SheetNames', 'Sheets']; for(var k2i = 0; k2i < k2.length; ++k2i) { var tt = k2[k2i]; await t.step('should fail if ' + tt + ' is missing', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE});
assert.throws(function() { delete (wb as any)[tt]; X.write(wb, {type:'binary'}); });
}); }
await t.step('should fail if SheetNames has duplicate entries', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE});
wb.SheetNames.push(wb.SheetNames[0]);
assert.throws(function() { X.write(wb, {type:'binary'}); });
});
});
});
Deno.test('json output', async function(t) {
function seeker(json: Array<any>, _keys: string | any[], val: any) {
var keys: any[] = typeof _keys == "string" ? _keys.split("") : _keys;
for(var i = 0; i != json.length; ++i) {
for(var j = 0; j != keys.length; ++j) {
if(json[i][keys[j]] === val) throw new Error("found " + val + " in row " + i + " key " + keys[j]);
}
}
}
var data = [
[1,2,3],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
["baz", undefined, "qux"]
];
var ws = X.utils.aoa_to_sheet(data);
await t.step('should use first-row headers and full sheet by default', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {raw: false});
assert.equal(json.length, data.length - 1);
assert.equal(json[0][1], "TRUE");
assert.equal(json[1][2], "bar");
assert.equal(json[2][3], "qux");
assert.doesNotThrow(function() { seeker(json, [1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [1,2,3], "baz"); });
});
await t.step('should create array of arrays if header == 1', async function(t) {
var json: Array<Array<any>> = X.utils.sheet_to_json(ws, {header:1, raw:false});
assert.equal(json.length, data.length);
assert.equal(json[1][0], "TRUE");
assert.equal(json[2][1], "bar");
assert.equal(json[3][2], "qux");
assert.doesNotThrow(function() { seeker(json, [0,1,2], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2], "baz"); });
});
await t.step('should use column names if header == "A"', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {header:'A', raw:false});
assert.equal(json.length, data.length);
assert.equal(json[1].A, "TRUE");
assert.equal(json[2].B, "bar");
assert.equal(json[3].C, "qux");
assert.doesNotThrow(function() { seeker(json, "ABC", "sheetjs"); });
assert.throws(function() { seeker(json, "ABCD", "sheetjs"); });
assert.throws(function() { seeker(json, "ABC", "baz"); });
});
await t.step('should use column labels if specified', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {header:["O","D","I","N"], raw:false});
assert.equal(json.length, data.length);
assert.equal(json[1].O, "TRUE");
assert.equal(json[2].D, "bar");
assert.equal(json[3].I, "qux");
assert.doesNotThrow(function() { seeker(json, "ODI", "sheetjs"); });
assert.throws(function() { seeker(json, "ODIN", "sheetjs"); });
assert.throws(function() { seeker(json, "ODIN", "baz"); });
});
var payload = [["string", "A2:D4"], ["numeric", 1], ["object", {s:{r:1,c:0},e:{r:3,c:3}}]];
for(var payloadi = 0; payloadi < payload.length; ++payloadi) { var w = payload[payloadi];
await t.step('should accept custom ' + w[0] + ' range', async function(t) {
var json: any[][] = X.utils.sheet_to_json(ws, {header:1, range:w[1]});
assert.equal(json.length, 3);
assert.equal(json[0][0], true);
assert.equal(json[1][1], "bar");
assert.equal(json[2][2], "qux");
assert.doesNotThrow(function() { seeker(json, [0,1,2], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2], "baz"); });
});
}
await t.step('should use defval if requested', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {defval: 'jimjin'});
assert.equal(json.length, data.length - 1);
assert.equal(json[0][1], true);
assert.equal(json[1][2], "bar");
assert.equal(json[2][3], "qux");
assert.equal(json[2][2], "jimjin");
assert.equal(json[0][3], "jimjin");
assert.doesNotThrow(function() { seeker(json, [1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [1,2,3], "baz"); });
X.utils.sheet_to_json(ws, {raw:true});
X.utils.sheet_to_json(ws, {raw:true, defval: 'jimjin'});
});
await t.step('should handle skipHidden for rows if requested', async function(t) {
var ws2 = X.utils.aoa_to_sheet(data), json: Array<any> = X.utils.sheet_to_json(ws2);
assert.equal(json[0]["1"], true);
assert.equal(json[2]["3"], "qux");
ws2["!rows"] = []; ws2["!rows"][1] = {hidden:true}; json = X.utils.sheet_to_json(ws2, {skipHidden: true});
assert.equal(json[0]["1"], "foo");
assert.equal(json[1]["3"], "qux");
});
await t.step('should handle skipHidden for columns if requested', async function(t) {
var ws2 = X.utils.aoa_to_sheet(data), json: Array<any> = X.utils.sheet_to_json(ws2);
assert.equal(json[1]["2"], "bar");
assert.equal(json[2]["3"], "qux");
ws2["!cols"] = []; ws2["!cols"][1] = {hidden:true}; json = X.utils.sheet_to_json(ws2, {skipHidden: true});
assert.equal(json[1]["2"], void 0);
assert.equal(json[2]["3"], "qux");
});
await t.step('should handle skipHidden when first row is hidden', async function(t) {
var ws2 = X.utils.aoa_to_sheet(data), json: Array<any> = X.utils.sheet_to_json(ws2);
assert.equal(json[0]["1"], true);
assert.equal(json[2]["3"], "qux");
ws2["!rows"] = [{hidden:true}]; json = X.utils.sheet_to_json(ws2, {skipHidden: true});
assert.equal(json[1]["1"], "foo");
assert.equal(json[2]["3"], "qux");
});
await t.step('should disambiguate headers', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json: any[] = X.utils.sheet_to_json(_ws);
for(var i = 0; i < json.length; ++i) {
assert.equal(json[i].S, 1 + i);
assert.equal(json[i].h, 2 + i);
assert.equal(json[i].e, 3 + i);
assert.equal(json[i].e_1, 4 + i);
assert.equal(json[i].t, 5 + i);
assert.equal(json[i].J, 6 + i);
assert.equal(json[i].S_1, 7 + i);
}
});
await t.step('should handle collisions in disambiguation', async function(t) {
var _data = [["a_1","a","a"],[1,2,3]];
var _ws = X.utils.aoa_to_sheet(_data);
var json: any = X.utils.sheet_to_json(_ws);
assert.equal(json[0].a, 2);
assert.equal(json[0].a_1, 1);
assert.equal(json[0].a_2, 3);
});
await t.step('should handle raw data if requested', async function(t) {
var _ws = X.utils.aoa_to_sheet(data, {cellDates:true});
var json: Array<Array<any>> = X.utils.sheet_to_json(_ws, {header:1, raw:true});
assert.equal(json.length, data.length);
assert.equal(json[1][0], true);
assert.assert(json[1][2] == null);
assert.equal(json[2][1], "bar");
assert.equal(json[2][2].getTime(), fixdate.getTime());
assert.equal(json[3][2], "qux");
});
await t.step('should include __rowNum__', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json: Array<any> = X.utils.sheet_to_json(_ws);
assert.equal(json[0].__rowNum__, 1);
assert.equal(json[1].__rowNum__, 3);
});
await t.step('should handle blankrows', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json1: Array<any> = X.utils.sheet_to_json(_ws);
assert.equal(json1.length, 2); // = 2 non-empty records
var json2: Array<any> = X.utils.sheet_to_json(_ws, {header:1});
assert.equal(json2.length, 4); // = 4 sheet rows
var json3: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:true});
assert.equal(json3.length, 3); // = 2 records + 1 blank row
var json4: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:true, header:1});
assert.equal(json4.length, 4); // = 4 sheet rows
var json5: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:false});
assert.equal(json5.length, 2); // = 2 records
var json6: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:false, header:1});
assert.equal(json6.length, 3); // = 4 sheet rows - 1 blank row
});
await t.step('should have an index that starts with zero when selecting range', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[7,6,5,4,3,2,1],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json1: Array<any> = X.utils.sheet_to_json(_ws, { header:1, raw: true, range: "B1:F3" });
assert.equal(json1[0][3], "t");
assert.equal(json1[1][0], 2);
assert.equal(json1[2][1], 5);
assert.equal(json1[2][3], 3);
});
await t.step('should preserve values when column header is missing', async function(t) {
/*jshint elision:true */
var _data = [[,"a","b",,"c"], [1,2,3,,5],[,3,4,5,6]]; // eslint-disable-line no-sparse-arrays
/*jshint elision:false */
var _ws = X.utils.aoa_to_sheet(_data);
var json1: Array<any> = X.utils.sheet_to_json(_ws, { raw: true });
assert.equal(json1[0].__EMPTY, 1);
assert.equal(json1[1].__EMPTY_1, 5);
});
await t.step('should ignore errors and support default values', async function(t) {
var ws = {
A1: {t:'s', v:"Field"}, B1: {t:'s', v:"Text"},
A2: {t:'e', v:0x2A, w:"#N/A" }, B2: {t:'s', v:"#N/A"},
A3: {t:'e', v:0x0F }, B3: {t:'s', v:"#VALUE!"},
A4: {t:'e', w:"#NAME?" }, B4: {t:'s', v:"#NAME?"},
"!ref": "A1:B4" };
seq(8).forEach(function(n) {
var opts: X.Sheet2JSONOpts = {};
if(n & 1) opts.header = 1;
if(n & 2) opts.raw = true;
if(n & 4) opts.defval = null;
var J: Array<any> = X.utils.sheet_to_json(ws, opts);
for(var i = 0; i < 3; ++i) {
var k = ((n&1) ? J[i+1][0] : J[i].Field);
assert.assert((n&4) ? (k === null) : (k !== null));
}
});
});
});
var codes = [["あ 1", "\u00E3\u0081\u0082 1"]];
var plaintext_val = ([
["A1", 'n', -0.08, "-0.08"],
["B1", 'n', 4001, "4,001"],
["C1", 's', "あ 1", "あ 1"],
["A2", 'n', 41.08, "$41.08"],
["B2", 'n', 0.11, "11%"],
["C3", 'b', true, "TRUE"],
["D3", 'b', false, "FALSE"],
["B3", 's', " ", " "],
["A3"]
] as Array<[string, string, any, string] | [string] >);
function plaintext_test(wb: X.WorkBook, raw: boolean) {
var sheet = wb.Sheets[wb.SheetNames[0]];
plaintext_val.forEach(function(x) {
var cell = get_cell(sheet, x[0]);
var tcval = x[2+(!!raw ? 1 : 0)];
var type = raw ? 's' : x[1];
if(x.length == 1) { if(cell) { assert.equal(cell.t, 'z'); assert.assert(!cell.v); } return; }
assert.equal(cell.v, tcval); assert.equal(cell.t, type);
});
}
function make_html_str(idx: number) { return ["<table>",
"<tr><td>-0.08</td><td>4,001</td><td>", codes[0][idx], "</td></tr>",
"<tr><td>$41.08</td><td>11%</td></tr>",
"<tr><td></td><td> \n&nbsp;</td><td>TRUE</td><td>FALSE</td></tr>",
"</table>" ].join(""); }
function make_csv_str(idx: number) { return [ (idx == 1 ? '\u00EF\u00BB\u00BF' : "") +
'-0.08,"4,001",' + codes[0][idx] + '',
'$41.08,11%',
', ,TRUE,FALSE'
].join("\n"); }
var html_bstr = make_html_str(1), html_str = make_html_str(0);
var csv_bstr = make_csv_str(1), csv_str = make_csv_str(0);
Deno.test('CSV', async function(t) {
await t.step('input', async function(t){
var b = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,\n";
await t.step('should generate date numbers by default', async function(t) {
var opts: X.ParsingOptions = {type:"binary"};
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
assert.equal(cell.t, 'n');
assert.assert(typeof cell.v == "number");
});
await t.step('should generate dates when requested', async function(t) {
var opts: X.ParsingOptions = {type:"binary", cellDates:true};
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
assert.equal(cell.t, 'd');
assert.assert(cell.v instanceof Date || typeof cell.v == "string");
});
await t.step('should use US date code 14 by default', async function(t) {
var opts: X.ParsingOptions = { type:"binary" };
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
opts.cellDates = true;
cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
});
await t.step('should honor dateNF override', async function(t) {
var opts: X.ParsingOptions = ({type:"binary", dateNF:"YYYY-MM-DD"});
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
/* NOTE: IE interprets 2-digit years as 19xx */
assert.assert(cell.w == '2014-02-19' || cell.w == '1914-02-19');
opts.cellDates = true; opts.dateNF = "YY-MM-DD";
cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '14-02-19');
});
await t.step('should interpret dateNF', async function(t) {
var bb = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/3/14,0.3\n,,,\nbaz,,qux,\n";
var opts: X.ParsingOptions = {type:"binary", cellDates:true, dateNF:'m/d/yy'};
var cell = get_cell(X.read(bb, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.v.getMonth(), 1);
assert.equal(cell.w, "2/3/14");
opts = {type:"binary", cellDates:true, dateNF:'d/m/yy'};
cell = get_cell(X.read(bb, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.v.getMonth(), 2);
assert.equal(cell.w, "2/3/14");
});
await t.step('should interpret values by default', async function(t) { plaintext_test(X.read(csv_bstr, {type:"binary"}), false); });
await t.step('should generate strings if raw option is passed', async function(t) { plaintext_test(X.read(csv_str, {type:"string", raw:true}), true); });
await t.step('should handle formulae', async function(t) {
var bb = '=,=1+1,="100"';
var sheet = X.read(bb, {type:"binary"}).Sheets["Sheet1"];
assert.equal(get_cell(sheet, "A1").t, 's');
assert.equal(get_cell(sheet, "A1").v, '=');
assert.equal(get_cell(sheet, "B1").f, '1+1');
assert.equal(get_cell(sheet, "C1").t, 's');
assert.equal(get_cell(sheet, "C1").v, '100');
});
await t.step('should interpret CRLF newlines', async function(t) {
var wb = X.read("sep=&\r\n1&2&3\r\n4&5&6", {type: "string"});
assert.equal(wb.Sheets["Sheet1"]["!ref"], "A1:C2");
});
if(!browser || typeof cptable !== 'undefined') await t.step('should honor codepage for binary strings', async function(t) {
var data = "abc,def\nghi,j\xD3l";
([[1251, 'У'],[1252, 'Ó'], [1253, 'Σ'], [1254, 'Ó'], [1255, '׃'], [1256, 'س'], [10000, '”']] as Array<[number, string]>).forEach(function(m) {
var ws = X.read(data, {type:"binary", codepage:m[0]}).Sheets["Sheet1"];
assert.equal(get_cell(ws, "B2").v, "j" + m[1] + "l");
});
});
await t.step('should parse date-less meridien time values', async function(t) {
var aoa = [
["3a", "3 a", "3 a-1"],
["3b", "3 b", "3 b-1"],
["3p", "3 P", "3 p-1"],
]
var ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: true}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
var B1 = get_cell(ws, "B1"); console.log(B1); assert.equal(B1.t, "d"); assert.equal(B1.v.getHours(), 3);
var B3 = get_cell(ws, "B3"); assert.equal(B3.t, "d"); assert.equal(B3.v.getHours(), 15);
ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: false}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
var B1 = get_cell(ws, "B1"); assert.equal(B1.t, "n"); assert.equal(B1.v * 24, 3);
var B3 = get_cell(ws, "B3"); assert.equal(B3.t, "n"); assert.equal(B3.v * 24, 15);
});
});
await t.step('output', async function(t){
var data = [
[1,2,3,null],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
[null, null, null],
["baz", undefined, "qux"]
];
var ws = X.utils.aoa_to_sheet(data);
await t.step('should generate csv', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,";
assert.equal(baseline, X.utils.sheet_to_csv(ws));
});
await t.step('should handle FS', async function(t) {
assert.equal(X.utils.sheet_to_csv(ws, {FS:"|"}).replace(/[|]/g,","), X.utils.sheet_to_csv(ws));
assert.equal(X.utils.sheet_to_csv(ws, {FS:";"}).replace(/[;]/g,","), X.utils.sheet_to_csv(ws));
});
await t.step('should handle RS', async function(t) {
assert.equal(X.utils.sheet_to_csv(ws, {RS:"|"}).replace(/[|]/g,"\n"), X.utils.sheet_to_csv(ws));
assert.equal(X.utils.sheet_to_csv(ws, {RS:";"}).replace(/[;]/g,"\n"), X.utils.sheet_to_csv(ws));
});
await t.step('should handle dateNF', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,20140219,0.3\n,,,\nbaz,,qux,";
var _ws = X.utils.aoa_to_sheet(data, {cellDates:true});
delete get_cell(_ws,"C3").w;
delete get_cell(_ws,"C3").z;
assert.equal(baseline, X.utils.sheet_to_csv(_ws, {dateNF:"YYYYMMDD"}));
});
await t.step('should handle strip', async function(t) {
var baseline = "1,2,3\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n\nbaz,,qux";
assert.equal(baseline, X.utils.sheet_to_csv(ws, {strip:true}));
});
await t.step('should handle blankrows', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\nbaz,,qux,";
assert.equal(baseline, X.utils.sheet_to_csv(ws, {blankrows:false}));
});
await t.step('should handle various line endings', async function(t) {
var data = ["1,a", "2,b", "3,c"];
[ "\r", "\n", "\r\n" ].forEach(function(RS) {
var wb = X.read(data.join(RS), {type:'binary'});
assert.equal(get_cell(wb.Sheets["Sheet1"], "A1").v, 1);
assert.equal(get_cell(wb.Sheets["Sheet1"], "B3").v, "c");
assert.equal(wb.Sheets["Sheet1"]['!ref'], "A1:B3");
});
});
await t.step('should handle skipHidden for rows if requested', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,";
delete ws["!rows"];
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), baseline);
ws["!rows"] = ([,{hidden:true},,] as any);
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), "1,2,3,\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,");
delete ws["!rows"];
});
await t.step('should handle skipHidden for columns if requested', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,";
delete ws["!cols"];
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), baseline);
ws["!cols"] = ([,{hidden:true},,] as any);
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), "1,3,\nTRUE,,sheetjs\nfoo,2/19/14,0.3\n,,\nbaz,qux,");
ws["!cols"] = ([{hidden:true},,,] as any);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), "2,3,\nFALSE,,sheetjs\nbar,2/19/14,0.3\n,,\n,qux,");
delete ws["!cols"];
});
await t.step('should properly handle blankrows and strip options', async function(t) {
var _ws = X.utils.aoa_to_sheet([[""],[],["", ""]]);
assert.equal(X.utils.sheet_to_csv(_ws, {}), ",\n,\n,");
assert.equal(X.utils.sheet_to_csv(_ws, {strip: true}), "\n\n");
assert.equal(X.utils.sheet_to_csv(_ws, {blankrows: false}), ",\n,");
assert.equal(X.utils.sheet_to_csv(_ws, {blankrows: false, strip: true}), "");
});
});
});
Deno.test('sylk', async function(t) {
await t.step('input', async function(t){
await t.step('codepage', async function(t) {
var str = "ID;PWXL;N;E\r\nC;X1;Y1;K\"a b\"\r\nE", A1 = "a b";
assert.equal(get_cell(X.read(str, {type:"string"}).Sheets["Sheet1"], "A1").v, A1);
assert.equal(get_cell(X.read(str.replace(//, "\x96"), {type:"binary", codepage:1252}).Sheets["Sheet1"], "A1").v, A1);
if(true) {
assert.equal(get_cell(X.read(Buffer_from(str), {type:"buffer", codepage:65001}).Sheets["Sheet1"], "A1").v, A1);
assert.equal(get_cell(X.read(Buffer_from(str.replace(//, "\x96"), "binary"), {type:"buffer", codepage:1252}).Sheets["Sheet1"], "A1").v, A1);
}
});
});
await t.step('date system', async function(t) {
function make_slk(d1904?: number) { return "ID;PSheetJS\nP;Pd\\/m\\/yy\nP;Pd\\/m\\/yyyy\n" + (d1904 != null ? "O;D;V" + d1904 : "") + "\nF;P0;FG0G;X1;Y1\nC;K1\nE"; }
await t.step('should default to 1900', async function(t) {
assert.equal(get_cell(X.read(make_slk(), {type: "binary"}).Sheets["Sheet1"], "A1").v, 1);
assert.assert(get_cell(X.read(make_slk(), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() < 1902);
assert.equal(get_cell(X.read(make_slk(5), {type: "binary"}).Sheets["Sheet1"], "A1").v, 1);
assert.assert(get_cell(X.read(make_slk(5), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() < 1902);
});
await t.step('should use 1904 when specified', async function(t) {
assert.assert(get_cell(X.read(make_slk(1), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() > 1902);
assert.assert(get_cell(X.read(make_slk(4), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() > 1902);
});
});
});
if(typeof Uint8Array !== "undefined")
Deno.test('numbers', async function(t) {
await t.step('should parse files from Numbers 6.x', async function(t) {
var wb = X.read(fs.readFileSync(dir + 'numbers/types_61.numbers'), {type:TYPE, WTF:true});
var ws = wb.Sheets["Sheet 1"];
assert.equal(get_cell(ws, "A1").v, "Sheet");
assert.equal(get_cell(ws, "B1").v, "JS");
assert.equal(get_cell(ws, "B2").v, 123);
assert.equal(get_cell(ws, "B11").v, true);
assert.equal(get_cell(ws, "B13").v, 50);
});
await t.step('should cap cols at 1000 (ALL)', async function(t) {
var aoa = [[1], [], []]; aoa[1][999] = 2; aoa[2][1000] = 3;
var ws1 = X.utils.aoa_to_sheet(aoa);
var wb1 = X.utils.book_new(); X.utils.book_append_sheet(wb1, ws1, "Sheet1");
var wb2 = X.read(X.write(wb1,{bookType:"numbers",type:'binary',numbers:XLSX_ZAHL}),{type:'binary'});
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2["!ref"], "A1:ALL3");
assert.equal(get_cell(ws2, "A1").v, 1);
assert.equal(get_cell(ws2, "ALL2").v, 2);
});
await t.step('should support icloud.com files', async function(t) {
var wb = X.read(fs.readFileSync(dir + 'Attendance.numbers'), {type:TYPE, WTF:true});
var ws = wb.Sheets["Attendance"];
assert.equal(get_cell(ws, "A1").v, "Date");
});
});
Deno.test('dbf', async function(t) {
var wbs: Array<[string, X.WorkBook]> = ([
['d11', dir + 'dbf/d11.dbf'],
['vfp3', dir + 'dbf/vfp3.dbf']
]).map(function(x) { return [x[0], X.read(fs.readFileSync(x[1]), {type:TYPE})]; });
await t.step(wbs[1][0], async function(t) {
var ws = wbs[1][1].Sheets["Sheet1"];
([
["A1", "v", "CHAR10"], ["A2", "v", "test1"], ["B2", "v", 123.45],
["C2", "v", 12.345], ["D2", "v", 1234.1], ["E2", "w", "19170219"],
/* [F2", "w", "19170219"], */ ["G2", "v", 1231.4], ["H2", "v", 123234],
["I2", "v", true], ["L2", "v", "SheetJS"]
] as Array<[string, string, any]>).forEach(function(r) { assert.equal(get_cell(ws, r[0])[r[1]], r[2]); });
});
});
import { JSDOM } from 'jsdom';
var domtest = false; // error: Error: Not implemented: isContext
var inserted_dom_elements = [];
function get_dom_element(html: string) {
if(browser) {
var domelt = document.createElement('div');
domelt.innerHTML = html;
if(document.body) document.body.appendChild(domelt);
inserted_dom_elements.push(domelt);
return domelt.children[0];
}
if(!JSDOM) throw new Error("Browser test fail");
return new JSDOM(html).window.document.body.children[0];
}
Deno.test('HTML', async function(t) {
await t.step('input string', async function(t) {
await t.step('should interpret values by default', async function(t) { plaintext_test(X.read(html_bstr, {type:"binary"}), false); });
await t.step('should generate strings if raw option is passed', async function(t) { plaintext_test(X.read(html_bstr, {type:"binary", raw:true}), true); });
await t.step('should handle "string" type', async function(t) { plaintext_test(X.read(html_str, {type:"string"}), false); });
await t.step('should handle newlines correctly', async function(t) {
var table = "<table><tr><td>foo<br/>bar</td><td>baz</td></tr></table>";
var wb = X.read(table, {type:"string"});
assert.equal(get_cell(wb.Sheets["Sheet1"], "A1").v, "foo\nbar");
});
await t.step('should generate multi-sheet workbooks', async function(t) {
var table = "";
for(var i = 0; i < 4; ++i) table += "<table><tr><td>" + X.utils.encode_col(i) + "</td><td>" + i + "</td></tr></table>";
table += table; table += table;
var wb = X.read(table, {type: "string"});
assert.equal(wb.SheetNames.length, 16);
assert.equal(wb.SheetNames[1], "Sheet2");
for(var j = 0; j < 4; ++j) {
assert.equal(get_cell(wb.Sheets["Sheet" + (j+1)], "A1").v, X.utils.encode_col(j));
assert.equal(get_cell(wb.Sheets["Sheet" + (j+1)], "B1").v, j);
}
});
});
if(domtest) await t.step('input DOM', async function(t) {
await t.step('should interpret values by default', async function(t) { plaintext_test(X.utils.table_to_book(get_dom_element(html_str)), false); });
await t.step('should generate strings if raw option is passed', async function(t) { plaintext_test(X.utils.table_to_book(get_dom_element(html_str), {raw:true}), true); });
await t.step('should handle newlines correctly', async function(t) {
var table = get_dom_element("<table><tr><td>foo<br/>bar</td><td>baz</td></tr></table>");
var ws = X.utils.table_to_sheet(table);
assert.equal(get_cell(ws, "A1").v, "foo\nbar");
});
await t.step('should trim whitespace', async function(t) {
if(get_dom_element("foo <br> bar").innerHTML != "foo <br> bar") return;
var table = get_dom_element("<table><tr><td> foo <br/> bar </td><td> baz qux </td></tr></table>");
var ws = X.utils.table_to_sheet(table);
assert.equal(get_cell(ws, "A1").v.replace(/\n/g, "|"), "foo | bar");
assert.equal(get_cell(ws, "B1").v, "baz qux");
});
});
if(domtest) await t.step('should handle entities', async function(t) {
var html = "<table><tr><td>A&amp;B</td><td>A&middot;B</td></tr></table>";
var ws = X.utils.table_to_sheet(get_dom_element(html));
assert.equal(get_cell(ws, "A1").v, "A&B");
assert.equal(get_cell(ws, "B1").v, "A·B");
});
if(domtest) await t.step('should honor sheetRows', async function(t) {
var html = X.utils.sheet_to_html(X.utils.aoa_to_sheet([[1,2],[3,4],[5,6]]));
// $FlowIgnore
html = /<body[^>]*>([\s\S]*)<\/body>/i.exec(html)?.[1] || "";
var ws = X.utils.table_to_sheet(get_dom_element(html));
assert.equal(ws['!ref'], "A1:B3");
ws = X.utils.table_to_sheet(get_dom_element(html), {sheetRows:1});
assert.equal(ws['!ref'], "A1:B1");
assert.equal(ws['!fullref'], "A1:B3");
ws = X.utils.table_to_sheet(get_dom_element(html), {sheetRows:2});
assert.equal(ws['!ref'], "A1:B2");
assert.equal(ws['!fullref'], "A1:B3");
});
if(domtest) await t.step('should hide hidden rows', async function(t) {
var html = "<table><tr style='display: none;'><td>Foo</td></tr><tr><td style='display: none;'>Bar</td></tr><tr class='hidden'><td>Baz</td></tr></table><style>.hidden {display: none}</style>";
var ws = X.utils.table_to_sheet(get_dom_element(html));
var expected_rows = [];
expected_rows[0] = expected_rows[2] = {hidden: true};
assert.equal(ws['!ref'], "A1:A3");
try {
assert.deepEqual(ws['!rows'], expected_rows);
} catch(e) {
expected_rows[1] = {};
assert.deepEqual(ws['!rows'], expected_rows);
}
assert.equal(get_cell(ws, "A1").v, "Foo");
assert.equal(get_cell(ws, "A2").v, "Bar");
assert.equal(get_cell(ws, "A3").v, "Baz");
});
if(domtest) await t.step('should ignore hidden rows and cells when the `display` option is on', async function(t) {
var html = "<table><tr style='display: none;'><td>1</td><td>2</td><td>3</td></tr><tr><td class='hidden'>Foo</td><td>Bar</td><td style='display: none;'>Baz</td></tr></table><style>.hidden {display: none}</style>";
var ws = X.utils.table_to_sheet(get_dom_element(html), {display: true});
assert.equal(ws['!ref'], "A1");
assert.assert(ws.hasOwnProperty('!rows') == false || !ws["!rows"]?.[0] || !ws["!rows"]?.[0]?.hidden);
assert.equal(get_cell(ws, "A1").v, "Bar");
});
await t.step('type override', async function(t) {
function chk(ws: X.WorkSheet) {
assert.equal(get_cell(ws, "A1").t, "s");
assert.equal(get_cell(ws, "A1").v, "1234567890");
assert.equal(get_cell(ws, "B1").t, "n");
assert.equal(get_cell(ws, "B1").v, 1234567890);
}
var html = "<table><tr><td t=\"s\">1234567890</td><td>1234567890</td></tr></table>";
await t.step('HTML string', async function(t) {
var ws = X.read(html, {type:'string'}).Sheets["Sheet1"]; chk(ws);
chk(X.read(X.utils.sheet_to_html(ws), {type:'string'}).Sheets["Sheet1"]);
});
if(domtest) await t.step('DOM', async function(t) { chk(X.utils.table_to_sheet(get_dom_element(html))); });
});
await t.step('TH/THEAD/TBODY/TFOOT elements', async function(t) {
var html = "<table><thead><tr><th>A</th><th>B</th></tr></thead><tbody><tr><td>1</td><td>2</td></tr><tr><td>3</td><td>4</td></tr></tbody><tfoot><tr><th>4</th><th>6</th></tr></tfoot></table>";
await t.step('HTML string', async function(t) {
var ws = X.read(html, {type:'string'}).Sheets["Sheet1"];
assert.equal(X.utils.sheet_to_csv(ws), "A,B\n1,2\n3,4\n4,6");
});
if(domtest) await t.step('DOM', async function(t) {
var ws = X.utils.table_to_sheet(get_dom_element(html));
assert.equal(X.utils.sheet_to_csv(ws), "A,B\n1,2\n3,4\n4,6");
});
});
await t.step('empty cell containing html element should increment cell index', async function(t) {
var html = "<table><tr><td>abc</td><td><b> </b></td><td>def</td></tr></table>";
var expectedCellCount = 3;
await t.step('HTML string', async function(t) {
var ws = X.read(html, {type:'string'}).Sheets["Sheet1"];
var range = X.utils.decode_range(ws['!ref']||"A1");
assert.equal(range.e.c,expectedCellCount - 1);
});
if(domtest) await t.step('DOM', async function(t) {
var ws = X.utils.table_to_sheet(get_dom_element(html));
var range = X.utils.decode_range(ws['!ref']||"A1");
assert.equal(range.e.c, expectedCellCount - 1);
});
});
});
Deno.test('js -> file -> js', async function(t) {
var BIN: 'binary' ="binary";
var ws = X.utils.aoa_to_sheet([
["number", "bool", "string", "date"],
[1, true, "sheet"],
[2, false, "dot"],
[6.9, false, "JS", fixdate],
[72.62, true, "0.3"]
]);
var wb = { SheetNames: ['Sheet1'], Sheets: {Sheet1: ws} };
function eqcell(wb1: X.WorkBook, wb2: X.WorkBook, s: string, a: string) {
assert.equal(get_cell(wb1.Sheets[s], a).v, get_cell(wb2.Sheets[s], a).v);
assert.equal(get_cell(wb1.Sheets[s], a).t, get_cell(wb2.Sheets[s], a).t);
}
for(var ofmti = 0; ofmti < ofmt.length; ++ofmti) { var f = ofmt[ofmti];
await t.step(f, async function(t) {
var newwb = X.read(X.write(wb, {type:BIN, bookType: f}), {type:BIN});
var cb = function(cell: string) { eqcell(wb, newwb, 'Sheet1', cell); };
['A2', 'A3'].forEach(cb); /* int */
['A4', 'A5'].forEach(cb); /* double */
['B2', 'B3'].forEach(cb); /* bool */
['C2', 'C3'].forEach(cb); /* string */
if(!DIF_XL) cb('D4'); /* date */
if(f != 'csv' && f != 'txt') eqcell(wb, newwb, 'Sheet1', 'C5');
});
}
await t.step('should roundtrip DIF strings', async function(t) {
var wb1 = X.read(X.write(wb, {type:BIN, bookType: 'dif'}), {type:BIN});
var wb2 = X.read(X.write(wb1, {type:BIN, bookType: 'dif'}), {type:BIN});
eqcell(wb, wb1, 'Sheet1', 'C5');
eqcell(wb, wb2, 'Sheet1', 'C5');
});
});
Deno.test('rtf', async function(t) {
await t.step('roundtrip should be idempotent', async function(t) {
var ws = X.utils.aoa_to_sheet([
[1,2,3],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
["baz", null, "q\"ux"]
]);
var wb1 = X.utils.book_new();
X.utils.book_append_sheet(wb1, ws, "Sheet1");
var rtf1 = X.write(wb1, {bookType: "rtf", type: "string"});
var wb2 = X.read(rtf1, {type: "string"});
var rtf2 = X.write(wb2, {bookType: "rtf", type: "string"});
assert.equal(rtf1, rtf2);
});
});
Deno.test('corner cases', async function(t) {
await t.step('output functions', async function(t) {
var ws = X.utils.aoa_to_sheet([
[1,2,3],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
["baz", null, "q\"ux"]
]);
get_cell(ws,"A1").f = ""; get_cell(ws,"A1").w = "";
delete get_cell(ws,"C3").w; delete get_cell(ws,"C3").z; get_cell(ws,"C3").XF = {ifmt:14};
get_cell(ws,"A4").t = "e";
X.utils.sheet_to_formulae(ws);
X.utils.sheet_to_csv(ws);
X.utils.sheet_to_json(ws);
ws['!cols'] = [ {wch:6}, {wch:7}, {wch:10}, {wch:20} ];
var wb = {SheetNames:['sheetjs'], Sheets:{sheetjs:ws}};
X.write(wb, {type: "binary", bookType: 'xlsx'});
X.write(wb, {type: TYPE, bookType: 'xlsm'});
X.write(wb, {type: "base64", bookType: 'xlsb'});
X.write(wb, {type: "binary", bookType: 'ods'});
X.write(wb, {type: "binary", bookType: 'biff2'});
X.write(wb, {type: "binary", bookType: 'biff5'});
X.write(wb, {type: "binary", bookType: 'biff8'});
get_cell(ws,"A2").t = "f";
assert.throws(function() { X.utils.sheet_to_json(ws); });
});
await t.step('SSF', async function(t) {
X.SSF.format("General", "dafuq");
assert.throws(function() { return X.SSF.format("General", {sheet:"js"});});
X.SSF.format("b e ddd hh AM/PM", 41722.4097222222);
X.SSF.format("b ddd hh m", 41722.4097222222);
["hhh","hhh A/P","hhmmm","sss","[hhh]","G eneral"].forEach(function(f) {
assert.throws(function() { return X.SSF.format(f, 12345.6789);});
});
["[m]","[s]"].forEach(function(f) {
assert.doesNotThrow(function() { return X.SSF.format(f, 12345.6789);});
});
});
if(typeof JSON !== 'undefined') await t.step('SSF oddities', async function(t) {
// $FlowIgnore
var ssfdata: Array<any> = JSON.parse(fs.readFileSync('./misc/ssf.json', 'utf-8'));
var cb = function(d: any, j: any) { return function() { return X.SSF.format(d[0], d[j][0]); }; };
ssfdata.forEach(function(d) {
for(var j=1;j<d.length;++j) {
if(d[j].length == 2) {
var expected = d[j][1], actual = X.SSF.format(d[0], d[j][0], {});
assert.equal(actual, expected);
} else if(d[j][2] !== "#") assert.throws(cb(d, j));
}
});
});
await t.step('codepage', async function(t) {
X.read(fs.readFileSync(dir + "biff5/number_format_greek.xls"), {type:TYPE});
});
await t.step('large binary files', async function(t) {
var data: Array<Array<string|number> > = [["Row Number"]];
for(var j = 0; j < 19; ++j) data[0].push("Column " + j+1);
for(var i = 0; i < 499; ++i) {
var o: Array<string|number> = ["Row " + i];
for(j = 0; j < 19; ++j) o.push(i + j);
data.push(o);
}
var ws = X.utils.aoa_to_sheet(data);
var wb = { Sheets:{ Sheet1: ws }, SheetNames: ["Sheet1"] };
var type: 'binary' = "binary";
(["xlsb", "biff8", "biff5", "biff2"] as Array<X.BookType>).forEach(function(btype) {
void X.read(X.write(wb, {bookType:btype, type:type}), {type:type});
});
});
if(fs.existsSync(dir + 'wtf_path.xlsx')) await t.step('OPC oddities', async function(t) {
X.read(fs.readFileSync(dir + 'wtf_path.xlsx'), {WTF:true, type:TYPE});
X.read(fs.readFileSync(dir + 'wtf_path.xlsb'), {WTF:true, type:TYPE});
});
await t.step("should quote unicode sheet names in formulae", async function(t) {
var wb = X.read(fs.readFileSync(dir + "cross-sheet_formula_names.xlsb"), {WTF:true, type:TYPE});
assert.equal(wb.Sheets["Sheet1"].A1.f, "'a-b'!A1");
assert.equal(wb.Sheets["Sheet1"].A2.f, "'a#b'!A1");
assert.equal(wb.Sheets["Sheet1"].A3.f, "'a^b'!A1");
assert.equal(wb.Sheets["Sheet1"].A4.f, "'a%b'!A1");
assert.equal(wb.Sheets["Sheet1"].A5.f, "'a\u066ab'!A1");
assert.equal(wb.Sheets["Sheet1"].A6.f, "'☃️'!A1");
assert.equal(wb.Sheets["Sheet1"].A7.f, "'\ud83c\udf63'!A1");
assert.equal(wb.Sheets["Sheet1"].A8.f, "'a!!b'!A1");
assert.equal(wb.Sheets["Sheet1"].A9.f, "'a$b'!A1");
assert.equal(wb.Sheets["Sheet1"].A10.f, "'a!b'!A1");
assert.equal(wb.Sheets["Sheet1"].A11.f, "'a b'!A1");
});
if(false) await t.step('should parse CSV date values with preceding space', async function(t) {
function check_ws(ws: X.WorkSheet, dNF?: any) {
//var d = X.SSF.parse_date_code(ws.B1.v);
assert.equal(ws.B1.w, dNF ? '2018-03-24' : "3/23/18");
//assert.equal(d.d, 24);
//assert.equal(d.m, 3);
//assert.equal(d.y, 2018);
}
[true, false].forEach(function(cD: boolean) {
[void 0, 'yyyy-mm-dd'].forEach(function(dNF) {
var ws1 = X.read(
'7,2018-03-24',
{cellDates: cD, dateNF: dNF, type:'string'}
).Sheets["Sheet1"];
check_ws(ws1, dNF);
var ws2 = X.read(
'7, 2018-03-24',
{cellDates: cD, dateNF: dNF, type:'string'}
).Sheets["Sheet1"];
check_ws(ws2, dNF);
});
});
});
await t.step('should handle \\r and \\n', async function(t) {
var base = "./test_files/crlf/";
[
"CRLFR9.123",
"CRLFR9.WK1",
"CRLFR9.WK3",
"CRLFR9.WK4",
"CRLFR9.XLS",
"CRLFR9_4.XLS",
"CRLFR9_5.XLS",
"CRLFX5_2.XLS",
"CRLFX5_3.XLS",
"CRLFX5_4.XLS",
"CRLFX5_5.XLS",
"crlf.csv",
"crlf.fods",
"crlf.htm",
"crlf.numbers",
"crlf.ods",
"crlf.rtf",
"crlf.slk",
"crlf.xls",
"crlf.xlsb",
"crlf.xlsx",
"crlf.xml",
"crlf5.xls",
"crlfq9.qpw",
"crlfq9.wb1",
"crlfq9.wb2",
"crlfq9.wb3",
"crlfq9.wk1",
"crlfq9.wk3",
"crlfq9.wk4",
"crlfq9.wks",
"crlfq9.wq1",
"crlfw4_2.wks",
"crlfw4_3.wks",
"crlfw4_4.wks"
].map(function(path) { return base + path; }).forEach(function(w) {
var wb = X.read(fs.readFileSync(w), {type:TYPE});
var ws = wb.Sheets[wb.SheetNames[0]];
var B1 = get_cell(ws, "B1"), B2 = get_cell(ws, "B2");
var lio = w.match(/\.[^\.]*$/)?.index || 0, stem = w.slice(0, lio).toLowerCase(), ext = w.slice(lio + 1).toLowerCase();
switch(ext) {
case 'fm3': break;
case '123':
assert.equal(B1.v, "abc\ndef");
// TODO: parse formula // assert.equal(B1.v, "abc\r\ndef");
break;
case 'qpw':
case 'wb1':
case 'wb2':
case 'wb3':
case 'wk1':
case 'wk3':
case 'wk4':
case 'wq1':
assert.assert(B1.v == "abcdef" || B1.v == "abc\ndef");
// TODO: formula -> string values
if(B2 && B2.t != "e" && B2.v != "") assert.assert(B2.v == "abcdef" || B2.v == "abc\r\ndef");
break;
case 'wks':
if(stem.match(/w4/)) {
assert.equal(B1.v, "abc\ndef");
assert.assert(!B2 || B2.t == "z"); // Works4 did not support CODE / CHAR
} else if(stem.match(/q9/)) {
assert.equal(B1.v, "abcdef");
assert.equal(B2.v, "abc\r\ndef");
} else {
assert.equal(B1.v, "abc\ndef");
assert.equal(B2.v, "abc\r\ndef");
}
break;
case 'xls':
if(stem.match(/CRLFR9/i)) {
assert.equal(B1.v, "abc\r\ndef");
} else {
assert.equal(B1.v, "abc\ndef");
}
assert.equal(B2.v, "abc\r\ndef");
break;
case 'rtf':
case 'htm':
assert.equal(B1.v, "abc\ndef");
assert.equal(B2.v, "abc\n\ndef");
break;
case 'xlsx':
case 'xlsb':
case 'xml':
case 'slk':
case 'csv':
assert.equal(B1.v, "abc\ndef");
assert.equal(B2.v, "abc\r\ndef");
break;
case 'fods':
case 'ods':
assert.equal(B1.v, "abc\nDef");
assert.equal(B2.v, "abc\r\ndef");
break;
case 'numbers':
assert.equal(B1.v, "abc\ndef");
// TODO: B2 should be a formula error
break;
default: throw ext;
}
});
});
});
Deno.test('encryption', async function(t) {
for(var pfi = 0; pfi < password_files.length; ++pfi) { var x = password_files[pfi];
await t.step(x, async function(t) {
await t.step('should throw with no password', async function(t) {assert.throws(function() { X.read(fs.readFileSync(dir + x), {type:TYPE}); }); });
await t.step('should throw with wrong password', async function(t) {
try {
X.read(fs.readFileSync(dir + x), {type:TYPE,password:'Password',WTF:opts.WTF});
throw new Error("incorrect password was accepted");
} catch(e) {
if(e.message != "Password is incorrect") throw e;
}
});
await t.step('should recognize correct password', async function(t) {
try {
X.read(fs.readFileSync(dir + x), {type:TYPE,password:'password',WTF:opts.WTF});
} catch(e) {
if(e.message == "Password is incorrect") throw e;
}
});
if(false) await t.step('should decrypt file', async function(t) {
/*var wb = */X.read(fs.readFileSync(dir + x), {type:TYPE,password:'password',WTF:opts.WTF});
});
});
};
});
if(!browser || typeof cptable !== 'undefined')
Deno.test('multiformat tests', async function(t) {
var mfopts = opts;
var mft = fs.readFileSync('multiformat.lst','utf-8').replace(/\r/g,"").split("\n").map(function(x) { return x.trim(); });
var csv = true, formulae = false;
for(var mfti = 0; mfti < mft.length; ++mfti) { var x = mft[mfti];
if(x.charAt(0)!="#") await t.step('MFT ' + x, async function(t) {
var f: Array<X.WorkBook> = [], r = x.split(/\s+/);
if(r.length < 3) return;
if(!fs.existsSync(dir + r[0] + r[1])) return;
await t.step('should parse all', async function(t) {
for(var j = 1; j < r.length; ++j) f[j-1] = X.read(fs.readFileSync(dir + r[0] + r[j]), mfopts);
});
await t.step('should have the same sheetnames', async function(t) {
cmparr(f.map(function(x) { return x.SheetNames; }));
});
await t.step('should have the same ranges', async function(t) {
f[0].SheetNames.forEach(function(s) {
var ss = f.map(function(x) { return x.Sheets[s]; });
cmparr(ss.map(function(s) { return s['!ref']; }));
});
});
await t.step('should have the same merges', async function(t) {
f[0].SheetNames.forEach(function(s) {
var ss = f.map(function(x) { return x.Sheets[s]; });
cmparr(ss.map(function(s) { return (s['!merges']||[]).map(function(y) { return X.utils.encode_range(y); }).sort(); }));
});
});
if(csv) await t.step('should have the same CSV', async function(t) {
cmparr(f.map(function(x) { return x.SheetNames; }));
f[0].SheetNames.forEach(function(name) {
cmparr(f.map(function(x) { return X.utils.sheet_to_csv(x.Sheets[name]); }));
});
});
if(formulae) await t.step('should have the same formulae', async function(t) {
cmparr(f.map(function(x) { return x.SheetNames; }));
f[0].SheetNames.forEach(function(name: string) {
cmparr(f.map(function(x) { return X.utils.sheet_to_formulae(x.Sheets[name]).sort(); }));
});
});
});
else x.split(/\s+/).forEach(function(w: string) { switch(w) {
case "no-csv": csv = false; break;
case "yes-csv": csv = true; break;
case "no-formula": formulae = false; break;
case "yes-formula": formulae = true; break;
}});
} });