Warning: Work in progress! Leave feedback on Zulip or Github if you'd like this doc to be updated.

Oil's Expression Language: A Mix of Python and JavaScript

Recall that Oil is composed of three interleaved languages: words, commands, and expressions.

This doc describes expressions, but only the things that are not in:

TODO: This doc should have example shell sessions, like the tour does.

Table of Contents
Preliminaries
Comparison to Python and JavaScript
Constructs Shared Between Word and Expression Languages
Literals for Data Types
String Literals: Like Shell, But Less Confusion About Backslashes
Float Literals
List Type: Both "Array" and List Literals
Dict Literals Look Like JavaScript
Block, Expr
Operators on Multiple Types
Exact Equality === !==
Approximate Equality ~==
Function and Method Calls
Boolean Operators
Logical: not and or
Ternary
Arithmetic
Arithmetic + - * /
Arithmetic // % and **
Bitwise ~ & | ^ << >>
Comparison of Integers and Floats < <= > >=
String Pattern Matching ~ and ~~
String and List Operators
Concatenation with ++
Indexing a[i]
Slicing a[i:j]
Dict Operators
Membership with in
d->key is a shortcut for d['key']
Deferred
List and Dict Comprehensions
Splat * and **
Ranges 1:n (vs slices)
Appendices
Oil vs. Tea
Implementation Notes

Preliminaries

Comparison to Python and JavaScript

For a short summary, see Oil vs. Python.

Constructs Shared Between Word and Expression Languages

String literals can be used in both words and expressions:

echo 'foo'
var x = 'foo'

echo "hello $name"
var y = "hello $name"

echo $'\t TAB'
var z = $'\t TAB'

This includes multi-line string literals:

echo '''
hello 
world
'''

var x = '''
hello
world
'''

# (and the 2 other kinds)

Command substitution is shared:

echo $(hostname)
var a = $(hostname)  # no quotes necessary
var b = "name is $(hostname)"

String substitution is shared:

echo ${MYVAR:-}
var c = ${MYVAR:-}
var d = "var is ${MYVAR:-}"

Not shared:

Literals for Data Types

String Literals: Like Shell, But Less Confusion About Backslashes

Oil has 3 kinds of string literal. See the docs in the intro for detail, as well as the Strings doc.

As a detail, Oil disallows this case:

$ var x = '\n'
  var x = '\n'
           ^~
[ interactive ]:1: Strings with backslashes should look like r'\n' or $'\n'

In expression mode, you're forced to specify an explicit r or $ when the string has backslashes. This is because shell has the opposite default as Python: In shell, unadorned strings are raw. In Python, unadorned strings respect C escapes.

Float Literals

Those last two caveats about floats are TODOs: https://github.com/oilshell/oil/issues/483

List Type: Both "Array" and List Literals

There is a single list type, but it has two syntaxes:

Longer example:

var x = :| a b c |
var x = :|
  'single quoted'
  "double quoted $var"
  $'c string'
  glob/*.py
  brace-{a,b,c}-{1..3}
|

Dict Literals Look Like JavaScript

Dict literals use JavaScript's rules, which are similar but not identical to Python.

The key can be either a bare word or bracketed expression.

(1) For example, {age: 30} means what {'age': 30} does in Python. That is, age is not the name of a variable. This fits more with the "dict as ad hoc struct" philosophy.

(2) In {[age]: 30}, age is a variable. You can put an arbitrary expression in there like {['age'.upper()]: 30}. (Note: Lua also has this bracketed key syntax.)

(3) {age, key2} is the same as {age: age, key2: key2}. That is, if the name is a bare word, you can leave off the value, and it will be looked up in the context where the dictionary is defined.

This is what ES2015 calls "shorthand object properties":

Block, Expr

TODO:

var myblock = ^(ls | wc -l)  
var myexpr = ^[1 + 2]

Operators on Multiple Types

Like JavaScript, Oil has two types of equality, but uses === and ~== rather than === and ==.

Exact Equality === !==

Approximate Equality ~==

Examples:

' foo ' ~== 'foo'  # whitespace stripped on LEFT only
' 42 ' ~== 42
' TRue ' ~== true  # true, false, 0, 1, and I think T, F

Currently, there are no semantics for floats, so none of these work:

' 42.0 ' ~== 42
' 42 ' ~== 42.0
42.0 ~== 42
42 ~== 42.0

(Should float_equals() be a separate function?)

Function and Method Calls

var result = add(x, y)
var result = foo(x, named='default')

if (s.startswith('prefix')) {
  echo yes
}

Use Cases:

var d = {1: 2, 3: 4}
const k = keys(d)

Boolean Operators

Logical: not and or

Like Python.

Ternary

var cond = true
var x = 'yes' if cond else 'no'

Arithmetic

Arithmetic + - * /

These are like Python, but they do string to number conversion (but not unary -.) A number is an integer or float.

That is:

Arithmetic // % and **

Also like Python, but they do string to integer conversion.

Bitwise ~ & | ^ << >>

Like Python.

Comparison of Integers and Floats < <= > >=

These operators also do string to number conversion. That is:

TODO:

String Pattern Matching ~ and ~~

String and List Operators

In addition to pattern matching.

Concatenation with ++

s ++ 'suffix'
L ++ [1, 2] ++ :| a b |

Indexing a[i]

var s = 'foo'
var second = s[1]    # are these integers though?  maybe slicing gives you things of length 1
echo $second  # 'o'

var a = :| spam eggs ham |
var second = a[1]
echo $second  # => 'eggs'

echo $[a[-1]]  # => ham

Semantics are like Python: Out of bounds is an error.

Slicing a[i:j]

var s = 'food'
var slice = s[1:3]
echo $second  # 'oo'

var a = :| spam eggs ham |
var slice = a[1:3]
write -- @slice  # eggs, ham

Semantics are like Python: Out of bounds is not an error.

Dict Operators

Membership with in

d->key is a shortcut for d['key']

the distinction between attributes and dictionary members always seemed weird and unnecessary to me.

I've been thinking about this for the Oil language, which is heavily influenced by Python.

The problem is that dictionary attributes come from user data, i.e. from JSON, while methods like .keys() come from the interpreter, and Python allows you to provide user-defined methods like mydict.mymethod() too.

Mixing all of those things in the same namespace seems like a bad idea.

In Oil I might do introduce an -> operator, so d->mykey is a shortcut for d['mykey'].

d.keys(), d.values(), d.items()  # methods
d->mykey
d['mykey']

Maybe you could disallow user-defined attributes on dictionaries, and make them free:

keys(d), values(d), items(d)
d.mykey  # The whole namespace is available for users

However I don't like that this makes dictionaries a special case. Thoughts?

Deferred

List and Dict Comprehensions

List comprehensions might be useful for a "faster" for loop? It only does expressions?

Splat * and **

Python allows splatting into lists:

a = [1, 2] 
b = [*a, 3]

And dicts:

d = {'name': 'alice'}
d2 = {**d, age: 42}

Ranges 1:n (vs slices)

Deferred because you can use

for i in @(seq $n) {
  echo $i
}

This gives you strings but that's OK for now. We don't yet have a "fast" for loop.

Notes:

Appendices

Oil vs. Tea

Implementation Notes

Generated on Sat, 03 Aug 2024 01:21:41 +0000