Language Definition
Expr package uses a specific syntax. In this document, you can find all supported syntaxes.
Supported Literals
The package supports:
- strings - single and double quotes (e.g.
"hello"
,'hello'
) - numbers - e.g.
103
,2.5
,.5
- arrays - e.g.
[1, 2, 3]
- maps - e.g.
{foo: "bar"}
- booleans -
true
andfalse
- nil -
nil
Digit separators
Integer literals may contain digit separators to allow digit grouping into more legible forms.
Example:
10_000_000_000
Accessing Public Properties
Public properties on structs can be accessed by using the .
syntax.
If you pass an array into an expression, use the []
syntax to access array keys.
foo.Array[0].Value
Functions and Methods
Functions may be called using ()
syntax. The .
syntax can also be used to call methods on an struct.
price.String()
Supported Operators
The package comes with a lot of operators:
Arithmetic Operators
+
(addition)-
(subtraction)*
(multiplication)/
(division)%
(modulus)**
(pow)
Example:
life + universe + everything
Comparison Operators
==
(equal)!=
(not equal)<
(less than)>
(greater than)<=
(less than or equal to)>=
(greater than or equal to)
Logical Operators
not
or!
and
or&&
or
or||
Example:
life < universe || life < everything
String Operators
+
(concatenation)matches
(regex match)contains
(string contains)startsWith
(has prefix)endsWith
(has suffix)
To test if a string does not match a regex, use the logical not
operator in combination with the matches
operator:
not ("foo" matches "^b.+")
You must use parenthesis because the unary operator not
has precedence over the binary operator matches
.
Example:
'Arthur' + ' ' + 'Dent'
Result will be set to Arthur Dent
.
Membership Operators
in
(contain)not in
(does not contain)
Example:
user.Group in ["human_resources", "marketing"]
"foo" in {foo: 1, bar: 2}
Numeric Operators
..
(range)
Example:
user.Age in 18..45
The range is inclusive:
1..3 == [1, 2, 3]
Ternary Operators
foo ? 'yes' : 'no'
Example:
user.Age > 30 ? "mature" : "immature"
Builtin functions
len
(length of array, map or string)all
(will returntrue
if all element satisfies the predicate)none
(will returntrue
if all element does NOT satisfies the predicate)any
(will returntrue
if any element satisfies the predicate)one
(will returntrue
if exactly ONE element satisfies the predicate)filter
(filter array by the predicate)map
(map all items with the closure)count
(returns number of elements what satisfies the predicate)
Examples:
Ensure all tweets are less than 280 chars.
all(Tweets, {.Size < 280})
Ensure there is exactly one winner.
one(Participants, {.Winner})
Closures
{...}
(closure)
Closures allowed only with builtin functions. To access current item use #
symbol.
map(0..9, {# / 2})
If the item of array is struct, it's possible to access fields of struct with omitted #
symbol (#.Value
becomes .Value
).
filter(Tweets, {len(.Value) > 280})
Slices
array[:]
(slice)
Slices can work with arrays or strings.
Example:
Variable array
is [1,2,3,4,5]
.
array[1:5] == [2,3,4]
array[3:] == [4,5]
array[:4] == [1,2,3]
array[:] == array