parse the test anything protocol
This parser implements version 14 of the TAP Specification.
// cjs style
const { Parser } = require('tap-parser')
// or, you can do it this way:
// import { Parser } from 'tap-parser'
// or this way:
// import { Parser } from 'https://unpkg.com/tap-parser@latest/dist/esm/index.js'
const p = new Parser(results => console.dir(results))
process.stdin.pipe(p)
given some TAP-formatted input:
$ node test.js
TAP version 14
# beep
ok 1 should be equal
ok 2 should be equivalent
# boop
ok 3 should be equal
ok 4 (unnamed assert)
1..4
# tests 4
# pass 4
# ok
parse the output:
$ node test.js | node parse.js
{ ok: true, count: 4, pass: 4, plan: { start: 1, end: 4 } }
If you have a string, you can also turn it into an array of parse events,
and turn such an array back into a TAP string with Parser.parse()
and
Parser.stringify()
, respectively.
// JSON.parse/stringify style
// Note that stringifying arbitrary object types isn't supported,
// because TAP is a streaming line-based protocol, not an object
// serialization notation like JSON or YAML.
const { parse, stringify } = require('tap-parser')
const fs = require('fs')
const tapData = fs.readFileSync('previous-test-output.tap')
const result = parse(tapData)
console.dir(result)
const reEncodedAsTap = stringify(result)
console.log(reEncodedAsTap)
This package also has a tap-parser
command.
Usage:
tap-parser <options>
Parses TAP data from stdin, and outputs the parsed result
in the format specified by the options. Default output
uses node's `util.inspect()` method.
Options:
-j [<indent>] | --json[=indent]
Output event data as JSON with the specified indentation (default=2)
-t | --tap
Output data as reconstituted TAP based on parsed results
-l | --lines
Output each parsed line as it is recognized by the parser
-b | --bail
Emit a `Bail out!` at the first failed test point encountered
-B | --no-bail
Do not bail out at the first failed test point encountered
(Default)
-f | --flat
Flatten all assertions to the top level parser
-F | --no-flat
Do not flatten all assertions to the top level parser
(Default)
-w | --ignore-all-whitespace
Skip over blank lines outside of YAML blocks
-o | --omit-version
Ignore the `TAP version 13` or `TAP version 14` line at the start of tests
--strict
Run the parser in strict mode
--no-strict
Do not run the parser in strict mode
-s | --silent
Do not print output, just exit success/failure based on TAP stream
const { Parser } = require('tap-parser')
const p = new Parser(options, cb)
Return a writable stream p
that emits parse events.
If cb
is given it will listen for the 'complete'
event.
If options
is given, it may contain the following flags:
preserveWhitespace
boolean which is false
by default and will
cause the parser to emit line
events even for lines containing
only whitespace. (Whitespace lines in yaml blocks are always
emitted, because whitespace is semantically relevant for yaml.)
strict
boolean which is false
by default and causes the parser
to treat non-TAP input as a failure. Strictness is heritable to
child subtests. You can also turn strictness on or off by using the
pragma +strict
line in the TAP data to turn strictness on, or
pragma -strict
to turn strictness off.
bail
boolean which is false
by default and will cause the parser
to bail out (including emitting a synthetic Bail out!
line)
whenever a failed test point is encountered.
omitVersion
boolean which is false
by default and will cause the
parser to ignore TAP version 13
or TAP version 14
lines.
Version lines in subtests cause problems with some parsers, so
they are always ignored.
passes
boolean which is false by default and will add "passes" property
for that contains the result of all passed tests
The parent
, level
and buffered
options are reserved for internal
use.
p.on('complete', function (results) {})
The results
object contains a summary of the number of tests
skipped, failed, passed, etc., as well as a boolean ok
member which
is true if and only if the planned test were all found, and either
"ok" or marked as "TODO".
p.on('line', function (line) {})
As each line of input is parsed, a line
event is emitted.
"Synthetic" line events will be emitted to support the bail
behavior, and to inject 1..0
plan lines in subtests that have no
test points. They can be used as a sort of "passthrough stream" to
sanitize and filter a TAP stream, with the caveat that, while line
events will be semantically equivalent to the TAP input, they will not
be a perfect replica of the input.
p.on('assert', function (assert) {})
Every /^(not )?ok\b/
line will emit an 'assert'
event.
Every assert
object has these keys:
assert.ok
- true if the assertion succeeded, false if failedassert.id
- the assertion numberassert.name
- optional short description of the assertionand may also have
assert.todo
- optional description of why the assertion failure is
not a problem. (Boolean true
if no explaination provided)assert.skip
- optional description of why this assertion was
skipped (boolean true
if no explanation provided)assert.diag
- a diagnostic object with additional information
about the test point.p.on('comment', function (comment) {})
Every /^# (.+)/
line will emit the string contents of comment
.
p.on('plan', function (plan) {})
Every /^\d+\.\.\d+/
line emits a 'plan'
event for the test numbers
plan.start
through plan.end
, inclusive.
If the test is completely skipped the result will look like
{ ok: true,
count: 0,
pass: 0,
plan:
{ start: 1,
end: 0,
skipAll: true,
skipReason: 'This code has no seat belt' } }
p.on('version', function (version) {})
A /^TAP version (\d+)/
line emits a 'version'
event with a version
number or string.
p.on('bailout', function (reason) {})
A bail out!
line will cause the parser to completely stop doing
anything. Child parser bailouts will bail out their parents as well.
p.on('child', function (childParser) {})
If a child test set is embedded in the stream like this:
TAP Version 14
1..2
# nesting
1..2
ok 1 - true is ok
ok 2 - doag is also okay
ok 1 - nesting
ok 2 - second
then the child stream will be parsed and events will be raised on the
childParser
object.
Since TAP streams with child tests must follow child test sets with a pass or fail assert based on the child test's results, failing to handle child tests should always result in the same end result. However, additional information from those child tests will obviously be lost.
See Subtests
below for more information on which sorts of subtest
formats are supported by this parser.
p.on('result', function (assert) {})
This is the same as the assert
event, except that it only emits on the root
parser, whenever it or any child parser has an assert
event that is not
merely closing a child test block.
p.on('pass', function (assert) {})
p.on('fail', function (assert) {})
p.on('skip', function (assert) {})
p.on('todo', function (assert) {})
Emitted on the root parser object, whenever it or any child parser has an
assert
event that is not merely closing a child test block, if the result is
of the appropriate type.
p.on('extra', function (extra) {})
All other lines will trigger an 'extra'
event with the line text.
const results = Parser.parse(string, options = {})
This will return an array of all the events encountered in the parsed TAP string.
Any options to the Parser
constructor may be provided, in addition to the
following:
flat
: Boolean, default false, flatten nested child tests into a single
level. Note that this will lose child test information, and will result
in a complete
event that may not match the counts of assertions in the
list. This is useful if you are transforming TAP strings for use by a
parser that does not support child tests, or just simply don't care about
that level of detail. Result id
values will be coerced to an
incrementing numeric values, and a valid plan
will be generated at the
end of the stream.const tap = Parser.stringify(results, options = {})
Turn a results
list of the sort returned by Parser.parse()
into a TAP
string.
The following options are supported:
flat
: Boolean, default false, flatten nested child tests into a single
level. Note that this will lose child test information, and will result
in a complete
event that may not match the counts of assertions in the
list. This is useful if you are transforming TAP strings for use by a
parser that does not support child tests, or just simply don't care about
that level of detail. Result id
values will be coerced to an
incrementing numeric values, and a valid plan
will be generated at the
end of the stream.The indent
and id
options are used internally, and should not be
modified.
With npm do:
npm install tap-parser
You can use browserify to require('tap-parser')
in
the browser.
MIT
5 flavors of Subtests are suppored by this parser.
Unadorned. Indented TAP data with no comment, followed by a test point at the parent level.
ok 1
1..1
ok 1 - child test
1..1
Indented comment.
An indented # Subtest: <name>
comment, followed by indented TAP
data, and then a not-indented test point with a matching name.
The summary test point may have yaml diagnostics.
# Subtest: child test
ok 1
1..1
ok 1 - child test
1..1
Unindented comment.
A not-indented # Subtest: <name>
comment, followed by indented TAP
content, followed by a test point with a matching name.
The summary test point may have yaml diagnostics.
# Subtest: child test
ok 1
1..1
ok 1 - child test
1..1
Buffered, without diagnostics.
A test point line ending in {, followed by indented TAP content, ended
with a } to close the block. todo/skip directives may come either
before or after the {
character. Yaml diagnostics are not allowed.
ok 1 - child test {
ok 1
1..1
}
1..1
Buffered, with diagnostics.
A test point line with yaml diagnostics, followed by {
alone on a
line, indented TAP data, and then a }
.
ok 1 - child test
---
some: diagnostic
data: true
...
{
ok 1
1..1
}
In all cases, the parsed behavior is identical:
child
event with the childParser
as an
argument.childParser
emits a comment
with # Subtest: <name>
(or
(anonymous)
for Unadorned subtests.)That is, buffered and nonindented/indented comment subtests are parsed as if they are identical input, since their semantics are the same. This simplifies implementation of test harness and reporter modules.
Since unadorned subtests have no introduction, a child event is not emitted until the first "relevant tap" line is encountered. This can cause confusion if the test output contains a spurious " 1..2" line or something, but such cases are rare.
Similarly, this means that a test point ending in {
needs to wait to
emit either the 'assert' or 'child' events until an indented line is
encountered. Any test point with yaml diagnostics needs to wait to
see if it will be followed by a {
indicating a subtest.