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Oils Reference — Chapter Standard Library
This chapter in the Oils Reference describes the standard library for OSH and YSH.
(These functions are implemented in OSH or YSH, not C++ or Python.)
(in progress)
These functions are in two.sh
source $OSH_LIB/two.sh
Write a message to stderr:
log "hi $x"
log '---'
Write an error message with the script name, and exit with status 1.
die 'Expected a number'
Use the syntax of the test builtin to assert a condition is true.
nq-assert 99 = "$status"
nq-assert "$status" -lt 2
Run a command and "return" its status with nameref variables.
test-foo() {
local status
nq-run status \
false
nq-assert 1 = "$status"
}
Run a command and return its status and stdout.
Run a command and return its status and stderr.
Run a command and return its status and a file with its stdout, so you can diff it.
Run a command and return its status and a file with its stderr, so you can diff it.
Dispatch to shell functions, and provide BYO test enumeration.
OSH:
task-five "$@"
YSH:
task-five @ARGV
Compute the absolute (positive) value of a number (float or int).
= abs(-1) # => 1
= abs(0) # => 0
= abs(1) # => 1
Note, you will need to source $LIB_YSH/math.ysh
to use this function.
Compute the maximum of 2 or more values.
max
takes two different signatures:
max(a, b)
to return the maximum of a
, b
max(list)
to return the greatest item in the list
For example:
= max(1, 2) # => 2
= max([1, 2, 3]) # => 3
Note, you will need to source $LIB_YSH/math.ysh
to use this function.
Compute the minimum of 2 or more values.
min
takes two different signatures:
min(a, b)
to return the minimum of a
, b
min(list)
to return the least item in the list
For example:
= min(2, 3) # => 2
= max([1, 2, 3]) # => 1
Note, you will need to source $LIB_YSH/math.ysh
to use this function.
TODO
Computes the sum of all elements in the list.
Returns 0 for an empty list.
= sum([]) # => 0
= sum([0]) # => 0
= sum([1, 2, 3]) # => 6
Note, you will need to source $LIB_YSH/list.ysh
to use this function.
Returns true if all values in the list are truthy (x
is truthy if Bool(x)
returns true).
If the list is empty, return true.
= any([]) # => true
= any([true, true]) # => true
= any([false, true]) # => false
= any(["foo", true, true]) # => true
Note, you will need to source $LIB_YSH/list.ysh
to use this function.
Returns true if any value in the list is truthy (x
is truthy if Bool(x)
returns true).
If the list is empty, return false.
= any([]) # => false
= any([true, false]) # => true
= any([false, false]) # => false
= any([false, "foo", false]) # => true
Note, you will need to source $LIB_YSH/list.ysh
to use this function.
Repeat a string or a list:
= repeat('foo', 3) # => 'foofoofoo'
= repeat(['foo', 'bar'], 2) # => ['foo', 'bar', 'foo', 'bar']
Negative repetitions are equivalent to zero:
= repeat('foo', -5) # => ''
= repeat(['foo', 'bar'], -5) # => []
Note that the repeat()
function is modeled after these Python expressions:
>>> 'a' * 3
'aaa'
>>> ['a'] * 3
['a', 'a', 'a']
Helpers to assert the status and output of commands.
Capture the status and stdout of a command block:
yb-capture (&r) {
echo hi
}
assert [0 === r.status]
assert [u'hi\n' === r.stdout]
Capture the status and stderr of a command block:
yb-capture-2 (&r) {
echo hi >& 2
}
assert [0 === r.status]
assert [u'hi\n' === r.stderr]
YSH includes a command-line argument parsing utility called parseArgs
. This
is intended to be used for command-line interfaces to YSH programs.
To use it, first import args.ysh
:
source $LIB_YSH/args.ysh
Then, create an argument parser specification:
parser (&spec) {
flag -v --verbose (help="Verbosely") # default is Bool, false
flag -P --max-procs (Int, default=-1, help='''
Run at most P processes at a time
''')
flag -i --invert (Bool, default=true, help='''
Long multiline
Description
''')
arg src (help='Source')
arg dest (help='Dest')
rest files
}
Finally, parse ARGV
(or any other array of strings) with:
var args = parseArgs(spec, ARGV)
The returned args
is a Dict
containing key-value pairs with the parsed
values (or defaults) for each flag and argument. For example, given
ARGV = :| mysrc -P 12 mydest a b c |
, args
would be:
{
"verbose": false,
"max-procs": 12,
"invert": true,
"src": "mysrc",
"dest": "mydest",
"files": ["a", "b", "c"]
}
parseArgs()
requires a parser specification to indicate how to parse the
ARGV
array. This specification should be constructed using the parser
proc.
parser (&spec) {
flag -f --my-flag
arg myarg
rest otherArgs
}
In the above example, parser
takes in a place &spec
, which will store the
resulting specification and a block which is evaluated to build that
specification.
Inside of a parser
block, you should call the following procs:
flag
to add --flag
optionsarg
to add positional argumentsrest
to capture remaining positional arguments into a listparser
will validate the parser specification for errors such as duplicate
flag or argument names.
parser (&spec) {
flag -n --name
flag -n --name # Duplicate!
}
# => raises "Duplicate flag/arg name 'name' in spec" (status = 3)
flag
should be called within a parser
block.
parser (&spec) {
flag -v --verbose
}
The above example declares a flag "--verbose" and a short alias "-v".
parseArgs()
will then store a boolean value under args.verbose
:
true
if the flag was passed at least oncefalse
otherwiseFlags can also accept values. For example, if you wanted to accept an integer count:
parser (&spec) {
flag -N --count (Int)
}
Calling parseArgs
with ARGV = :| -n 5 |
or ARGV = :| --count 5 |
will
store the integer 5
under args.count
. If the user passes in a non-integer
value like ARGV = :| --count abc |
, parseArgs
will raise an error.
The supported types are Bool
, Int
, Float
, and Str
.
Default values for an argument can be set with the default
named argument.
parser (&spec) {
flag -N --count (Int, default=2)
# Boolean flags can be given default values too
flag -O --optimize (Bool, default=true)
}
var args = parseArgs(spec, :| -n 3 |)
# => args.count = 2
# => args.optimize = true
Each name passed to flag
must be unique to that specific parser
. Calling
flag
with the same name twice will raise an error inside of parser
.
arg
should be called within a parser
block.
parser (&spec) {
arg query
arg path
}
The above example declares two positional arguments called "query" and "path".
parseArgs()
will then store strings under args.query
and args.path
. Order
matters, so the first positional argument will be stored to query
and the
second to path
. If not enough positional arguments are passed, then
parseArgs
will raise an error.
Similar to flag
, each arg
name must be unique. Calling arg
with the same
name twice will cause parser
to raise an error.
rest
should be called within a parser
block.
parser (&spec) {
arg query
rest files
}
Capture zero or more positional arguments not already captured by arg
. So,
for ARGV = :| hello file.txt message.txt README.md |
, we would have
args.query = "file.txt"
and args.files = ["file.txt", "message.txt", "README.md"]
.
Without rest, passing extraneous arguments will raise an error in
parseArgs()
.
rest
can only be called once within a parser
. Calling it multiple times
will raise an error in parser
.
Given a parser specification spec
produced by parser
, parse a list of
strings (usually ARGV
.)
var args = parseArgs(spec, ARGV)
The returned args
is a dictionary mapping the names of each arg
, flag
and
rest
to their captured values. (See the example at the start of this
topic.)
parseArgs
will raise an error if the ARGV
is invalid per the parser
specification. For example, if it's missing a required positional argument:
parser (&spec) {
arg path
}
var args = parseArgs(spec, [])
# => raises an error about the missing 'path' (status = 2)