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Also cherry-pick E1142 and E1156 tags from Vim.
Co-authored-by: Bram Moolenaar <Bram@vim.org>
3922 lines
135 KiB
Plaintext
3922 lines
135 KiB
Plaintext
*eval.txt* Nvim
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VIM REFERENCE MANUAL by Bram Moolenaar
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Expression evaluation *vimscript* *expression* *expr* *E15* *eval*
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Using expressions is introduced in chapter 41 of the user manual |usr_41.txt|.
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Type |gO| to see the table of contents.
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==============================================================================
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1. Variables *variables*
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1.1 Variable types ~
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*E712* *E896* *E897* *E899*
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There are seven types of variables:
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*Number* *Integer*
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Number A 32 or 64 bit signed number. |expr-number|
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The number of bits is available in |v:numbersize|.
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Examples: -123 0x10 0177 0o177 0b1011
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Float A floating point number. |floating-point-format| *Float*
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Examples: 123.456 1.15e-6 -1.1e3
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String A NUL terminated string of 8-bit unsigned characters (bytes).
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|expr-string| Examples: "ab\txx\"--" 'x-z''a,c'
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Funcref A reference to a function |Funcref|.
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Example: function("strlen")
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It can be bound to a dictionary and arguments, it then works
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like a Partial.
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Example: function("Callback", [arg], myDict)
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List An ordered sequence of items, see |List| for details.
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Example: [1, 2, ['a', 'b']]
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Dictionary An associative, unordered array: Each entry has a key and a
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value. |Dictionary|
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Examples: >
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{"blue": "#0000ff", "red": "#ff0000"}
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#{blue: "#0000ff", red: "#ff0000"}
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Blob Binary Large Object. Stores any sequence of bytes. See |Blob|
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for details.
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Example: 0zFF00ED015DAF
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0z is an empty Blob.
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The Number and String types are converted automatically, depending on how they
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are used.
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Conversion from a Number to a String is by making the ASCII representation of
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the Number. Examples:
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Number 123 --> String "123" ~
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Number 0 --> String "0" ~
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Number -1 --> String "-1" ~
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*octal*
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Conversion from a String to a Number is done by converting the first digits to
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a number. Hexadecimal "0xf9", Octal "017" or "0o17", and Binary "0b10"
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numbers are recognized. If the String doesn't start with digits, the result
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is zero. Examples:
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String "456" --> Number 456 ~
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String "6bar" --> Number 6 ~
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String "foo" --> Number 0 ~
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String "0xf1" --> Number 241 ~
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String "0100" --> Number 64 ~
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String "0o100" --> Number 64 ~
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String "0b101" --> Number 5 ~
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String "-8" --> Number -8 ~
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String "+8" --> Number 0 ~
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To force conversion from String to Number, add zero to it: >
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:echo "0100" + 0
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< 64 ~
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To avoid a leading zero to cause octal conversion, or for using a different
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base, use |str2nr()|.
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*TRUE* *FALSE* *Boolean*
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For boolean operators Numbers are used. Zero is FALSE, non-zero is TRUE.
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You can also use |v:false| and |v:true|.
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When TRUE is returned from a function it is the Number one, FALSE is the
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number zero.
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Note that in the command: >
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:if "foo"
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:" NOT executed
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"foo" is converted to 0, which means FALSE. If the string starts with a
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non-zero number it means TRUE: >
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:if "8foo"
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:" executed
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To test for a non-empty string, use empty(): >
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:if !empty("foo")
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< *falsy* *truthy*
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An expression can be used as a condition, ignoring the type and only using
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whether the value is "sort of true" or "sort of false". Falsy is:
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the number zero
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empty string, blob, list or dictionary
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Other values are truthy. Examples:
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0 falsy
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1 truthy
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-1 truthy
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0.0 falsy
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0.1 truthy
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'' falsy
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'x' truthy
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[] falsy
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[0] truthy
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{} falsy
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#{x: 1} truthy
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0z falsy
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0z00 truthy
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*non-zero-arg*
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Function arguments often behave slightly different from |TRUE|: If the
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argument is present and it evaluates to a non-zero Number, |v:true| or a
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non-empty String, then the value is considered to be TRUE.
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Note that " " and "0" are also non-empty strings, thus considered to be TRUE.
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A List, Dictionary or Float is not a Number or String, thus evaluate to FALSE.
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*E745* *E728* *E703* *E729* *E730* *E731*
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*E974* *E975* *E976*
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|List|, |Dictionary|, |Funcref|, and |Blob| types are not automatically
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converted.
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*E805* *E806* *E808*
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When mixing Number and Float the Number is converted to Float. Otherwise
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there is no automatic conversion of Float. You can use str2float() for String
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to Float, printf() for Float to String and float2nr() for Float to Number.
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*E362* *E891* *E892* *E893* *E894* *E907*
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When expecting a Float a Number can also be used, but nothing else.
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*no-type-checking*
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You will not get an error if you try to change the type of a variable.
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1.2 Function references ~
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*Funcref* *E695* *E718* *E1192*
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A Funcref variable is obtained with the |function()| function, the |funcref()|
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function or created with the lambda expression |expr-lambda|. It can be used
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in an expression in the place of a function name, before the parenthesis
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around the arguments, to invoke the function it refers to. Example: >
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:let Fn = function("MyFunc")
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:echo Fn()
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< *E704* *E705* *E707*
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A Funcref variable must start with a capital, "s:", "w:", "t:" or "b:". You
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can use "g:" but the following name must still start with a capital. You
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cannot have both a Funcref variable and a function with the same name.
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A special case is defining a function and directly assigning its Funcref to a
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Dictionary entry. Example: >
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:function dict.init() dict
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: let self.val = 0
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:endfunction
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The key of the Dictionary can start with a lower case letter. The actual
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function name is not used here. Also see |numbered-function|.
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A Funcref can also be used with the |:call| command: >
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:call Fn()
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:call dict.init()
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The name of the referenced function can be obtained with |string()|. >
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:let func = string(Fn)
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You can use |call()| to invoke a Funcref and use a list variable for the
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arguments: >
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:let r = call(Fn, mylist)
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<
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*Partial*
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A Funcref optionally binds a Dictionary and/or arguments. This is also called
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a Partial. This is created by passing the Dictionary and/or arguments to
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function() or funcref(). When calling the function the Dictionary and/or
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arguments will be passed to the function. Example: >
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let Cb = function('Callback', ['foo'], myDict)
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call Cb('bar')
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This will invoke the function as if using: >
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call myDict.Callback('foo', 'bar')
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Note that binding a function to a Dictionary also happens when the function is
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a member of the Dictionary: >
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let myDict.myFunction = MyFunction
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call myDict.myFunction()
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Here MyFunction() will get myDict passed as "self". This happens when the
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"myFunction" member is accessed. When assigning "myFunction" to otherDict
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and calling it, it will be bound to otherDict: >
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let otherDict.myFunction = myDict.myFunction
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call otherDict.myFunction()
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Now "self" will be "otherDict". But when the dictionary was bound explicitly
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this won't happen: >
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let myDict.myFunction = function(MyFunction, myDict)
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let otherDict.myFunction = myDict.myFunction
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call otherDict.myFunction()
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Here "self" will be "myDict", because it was bound explicitly.
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1.3 Lists ~
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*list* *List* *Lists* *E686*
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A List is an ordered sequence of items. An item can be of any type. Items
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can be accessed by their index number. Items can be added and removed at any
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position in the sequence.
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List creation ~
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*E696* *E697*
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A List is created with a comma-separated list of items in square brackets.
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Examples: >
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:let mylist = [1, two, 3, "four"]
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:let emptylist = []
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An item can be any expression. Using a List for an item creates a
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List of Lists: >
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:let nestlist = [[11, 12], [21, 22], [31, 32]]
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An extra comma after the last item is ignored.
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List index ~
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*list-index* *E684*
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An item in the List can be accessed by putting the index in square brackets
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after the List. Indexes are zero-based, thus the first item has index zero. >
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:let item = mylist[0] " get the first item: 1
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:let item = mylist[2] " get the third item: 3
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When the resulting item is a list this can be repeated: >
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:let item = nestlist[0][1] " get the first list, second item: 12
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<
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A negative index is counted from the end. Index -1 refers to the last item in
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the List, -2 to the last but one item, etc. >
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:let last = mylist[-1] " get the last item: "four"
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To avoid an error for an invalid index use the |get()| function. When an item
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is not available it returns zero or the default value you specify: >
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:echo get(mylist, idx)
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:echo get(mylist, idx, "NONE")
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List concatenation ~
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*list-concatenation*
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Two lists can be concatenated with the "+" operator: >
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:let longlist = mylist + [5, 6]
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:let longlist = [5, 6] + mylist
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To prepend or append an item, turn it into a list by putting [] around it.
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A list can be concatenated with another one in-place using |:let+=| or
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|extend()|: >
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:let mylist += [7, 8]
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:call extend(mylist, [7, 8])
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<
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See |list-modification| below for more about changing a list in-place.
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Sublist ~
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*sublist*
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A part of the List can be obtained by specifying the first and last index,
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separated by a colon in square brackets: >
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:let shortlist = mylist[2:-1] " get List [3, "four"]
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Omitting the first index is similar to zero. Omitting the last index is
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similar to -1. >
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:let endlist = mylist[2:] " from item 2 to the end: [3, "four"]
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:let shortlist = mylist[2:2] " List with one item: [3]
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:let otherlist = mylist[:] " make a copy of the List
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Notice that the last index is inclusive. If you prefer using an exclusive
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index use the |slice()| method.
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If the first index is beyond the last item of the List or the second item is
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before the first item, the result is an empty list. There is no error
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message.
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If the second index is equal to or greater than the length of the list the
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length minus one is used: >
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:let mylist = [0, 1, 2, 3]
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:echo mylist[2:8] " result: [2, 3]
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NOTE: mylist[s:e] means using the variable "s:e" as index. Watch out for
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using a single letter variable before the ":". Insert a space when needed:
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mylist[s : e].
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List identity ~
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*list-identity*
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When variable "aa" is a list and you assign it to another variable "bb", both
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variables refer to the same list. Thus changing the list "aa" will also
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change "bb": >
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:let aa = [1, 2, 3]
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:let bb = aa
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:call add(aa, 4)
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:echo bb
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< [1, 2, 3, 4]
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Making a copy of a list is done with the |copy()| function. Using [:] also
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works, as explained above. This creates a shallow copy of the list: Changing
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a list item in the list will also change the item in the copied list: >
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:let aa = [[1, 'a'], 2, 3]
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:let bb = copy(aa)
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:call add(aa, 4)
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:let aa[0][1] = 'aaa'
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:echo aa
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< [[1, aaa], 2, 3, 4] >
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:echo bb
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< [[1, aaa], 2, 3]
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To make a completely independent list use |deepcopy()|. This also makes a
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copy of the values in the list, recursively. Up to a hundred levels deep.
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The operator "is" can be used to check if two variables refer to the same
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List. "isnot" does the opposite. In contrast "==" compares if two lists have
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the same value. >
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:let alist = [1, 2, 3]
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:let blist = [1, 2, 3]
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:echo alist is blist
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< 0 >
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:echo alist == blist
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< 1
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Note about comparing lists: Two lists are considered equal if they have the
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same length and all items compare equal, as with using "==". There is one
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exception: When comparing a number with a string they are considered
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different. There is no automatic type conversion, as with using "==" on
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variables. Example: >
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echo 4 == "4"
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< 1 >
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echo [4] == ["4"]
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< 0
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Thus comparing Lists is more strict than comparing numbers and strings. You
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can compare simple values this way too by putting them in a list: >
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:let a = 5
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:let b = "5"
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:echo a == b
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< 1 >
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:echo [a] == [b]
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< 0
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List unpack ~
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To unpack the items in a list to individual variables, put the variables in
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square brackets, like list items: >
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:let [var1, var2] = mylist
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When the number of variables does not match the number of items in the list
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this produces an error. To handle any extra items from the list append ";"
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and a variable name: >
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:let [var1, var2; rest] = mylist
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This works like: >
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:let var1 = mylist[0]
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:let var2 = mylist[1]
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:let rest = mylist[2:]
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Except that there is no error if there are only two items. "rest" will be an
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empty list then.
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List modification ~
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*list-modification*
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To change a specific item of a list use |:let| this way: >
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:let list[4] = "four"
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:let listlist[0][3] = item
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To change part of a list you can specify the first and last item to be
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modified. The value must at least have the number of items in the range: >
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:let list[3:5] = [3, 4, 5]
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To add items to a List in-place, you can use |:let+=| (|list-concatenation|): >
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:let listA = [1, 2]
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:let listA += [3, 4]
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<
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When two variables refer to the same List, changing one List in-place will
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cause the referenced List to be changed in-place: >
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:let listA = [1, 2]
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:let listB = listA
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:let listB += [3, 4]
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:echo listA
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[1, 2, 3, 4]
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<
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Adding and removing items from a list is done with functions. Here are a few
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examples: >
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:call insert(list, 'a') " prepend item 'a'
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:call insert(list, 'a', 3) " insert item 'a' before list[3]
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:call add(list, "new") " append String item
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:call add(list, [1, 2]) " append a List as one new item
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:call extend(list, [1, 2]) " extend the list with two more items
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:let i = remove(list, 3) " remove item 3
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:unlet list[3] " idem
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:let l = remove(list, 3, -1) " remove items 3 to last item
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:unlet list[3 : ] " idem
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:call filter(list, 'v:val !~ "x"') " remove items with an 'x'
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Changing the order of items in a list: >
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:call sort(list) " sort a list alphabetically
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:call reverse(list) " reverse the order of items
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:call uniq(sort(list)) " sort and remove duplicates
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For loop ~
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The |:for| loop executes commands for each item in a |List|, |String| or |Blob|.
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A variable is set to each item in sequence. Example with a List: >
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:for item in mylist
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: call Doit(item)
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:endfor
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This works like: >
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:let index = 0
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:while index < len(mylist)
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: let item = mylist[index]
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: :call Doit(item)
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: let index = index + 1
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:endwhile
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If all you want to do is modify each item in the list then the |map()|
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function will be a simpler method than a for loop.
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Just like the |:let| command, |:for| also accepts a list of variables. This
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requires the argument to be a List of Lists. >
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:for [lnum, col] in [[1, 3], [2, 8], [3, 0]]
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: call Doit(lnum, col)
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:endfor
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This works like a |:let| command is done for each list item. Again, the types
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must remain the same to avoid an error.
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It is also possible to put remaining items in a List variable: >
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:for [i, j; rest] in listlist
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: call Doit(i, j)
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: if !empty(rest)
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: echo "remainder: " .. string(rest)
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: endif
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:endfor
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For a Blob one byte at a time is used.
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For a String one character, including any composing characters, is used as a
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String. Example: >
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for c in text
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echo 'This character is ' .. c
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endfor
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List functions ~
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*E714*
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Functions that are useful with a List: >
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:let r = call(funcname, list) " call a function with an argument list
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:if empty(list) " check if list is empty
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:let l = len(list) " number of items in list
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:let big = max(list) " maximum value in list
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:let small = min(list) " minimum value in list
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:let xs = count(list, 'x') " count nr of times 'x' appears in list
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:let i = index(list, 'x') " index of first 'x' in list
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:let lines = getline(1, 10) " get ten text lines from buffer
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:call append('$', lines) " append text lines in buffer
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:let list = split("a b c") " create list from items in a string
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:let string = join(list, ', ') " create string from list items
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:let s = string(list) " String representation of list
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:call map(list, '">> " .. v:val') " prepend ">> " to each item
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Don't forget that a combination of features can make things simple. For
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example, to add up all the numbers in a list: >
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:exe 'let sum = ' .. join(nrlist, '+')
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1.4 Dictionaries ~
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*Dict* *dict* *Dictionaries* *Dictionary*
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A Dictionary is an associative array: Each entry has a key and a value. The
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entry can be located with the key. The entries are stored without a specific
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ordering.
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Dictionary creation ~
|
|
*E720* *E721* *E722* *E723*
|
|
A Dictionary is created with a comma-separated list of entries in curly
|
|
braces. Each entry has a key and a value, separated by a colon. Each key can
|
|
only appear once. Examples: >
|
|
:let mydict = {1: 'one', 2: 'two', 3: 'three'}
|
|
:let emptydict = {}
|
|
< *E713* *E716* *E717*
|
|
A key is always a String. You can use a Number, it will be converted to a
|
|
String automatically. Thus the String '4' and the number 4 will find the same
|
|
entry. Note that the String '04' and the Number 04 are different, since the
|
|
Number will be converted to the String '4', leading zeros are dropped. The
|
|
empty string can also be used as a key.
|
|
*literal-Dict* *#{}*
|
|
To avoid having to put quotes around every key the #{} form can be used. This
|
|
does require the key to consist only of ASCII letters, digits, '-' and '_'.
|
|
Example: >
|
|
:let mydict = #{zero: 0, one_key: 1, two-key: 2, 333: 3}
|
|
Note that 333 here is the string "333". Empty keys are not possible with #{}.
|
|
|
|
A value can be any expression. Using a Dictionary for a value creates a
|
|
nested Dictionary: >
|
|
:let nestdict = {1: {11: 'a', 12: 'b'}, 2: {21: 'c'}}
|
|
|
|
An extra comma after the last entry is ignored.
|
|
|
|
|
|
Accessing entries ~
|
|
|
|
The normal way to access an entry is by putting the key in square brackets: >
|
|
:let val = mydict["one"]
|
|
:let mydict["four"] = 4
|
|
|
|
You can add new entries to an existing Dictionary this way, unlike Lists.
|
|
|
|
For keys that consist entirely of letters, digits and underscore the following
|
|
form can be used |expr-entry|: >
|
|
:let val = mydict.one
|
|
:let mydict.four = 4
|
|
|
|
Since an entry can be any type, also a List and a Dictionary, the indexing and
|
|
key lookup can be repeated: >
|
|
:echo dict.key[idx].key
|
|
|
|
|
|
Dictionary to List conversion ~
|
|
|
|
You may want to loop over the entries in a dictionary. For this you need to
|
|
turn the Dictionary into a List and pass it to |:for|.
|
|
|
|
Most often you want to loop over the keys, using the |keys()| function: >
|
|
:for key in keys(mydict)
|
|
: echo key .. ': ' .. mydict[key]
|
|
:endfor
|
|
|
|
The List of keys is unsorted. You may want to sort them first: >
|
|
:for key in sort(keys(mydict))
|
|
|
|
To loop over the values use the |values()| function: >
|
|
:for v in values(mydict)
|
|
: echo "value: " .. v
|
|
:endfor
|
|
|
|
If you want both the key and the value use the |items()| function. It returns
|
|
a List in which each item is a List with two items, the key and the value: >
|
|
:for [key, value] in items(mydict)
|
|
: echo key .. ': ' .. value
|
|
:endfor
|
|
|
|
|
|
Dictionary identity ~
|
|
*dict-identity*
|
|
Just like Lists you need to use |copy()| and |deepcopy()| to make a copy of a
|
|
Dictionary. Otherwise, assignment results in referring to the same
|
|
Dictionary: >
|
|
:let onedict = {'a': 1, 'b': 2}
|
|
:let adict = onedict
|
|
:let adict['a'] = 11
|
|
:echo onedict['a']
|
|
11
|
|
|
|
Two Dictionaries compare equal if all the key-value pairs compare equal. For
|
|
more info see |list-identity|.
|
|
|
|
|
|
Dictionary modification ~
|
|
*dict-modification*
|
|
To change an already existing entry of a Dictionary, or to add a new entry,
|
|
use |:let| this way: >
|
|
:let dict[4] = "four"
|
|
:let dict['one'] = item
|
|
|
|
Removing an entry from a Dictionary is done with |remove()| or |:unlet|.
|
|
Three ways to remove the entry with key "aaa" from dict: >
|
|
:let i = remove(dict, 'aaa')
|
|
:unlet dict.aaa
|
|
:unlet dict['aaa']
|
|
|
|
Merging a Dictionary with another is done with |extend()|: >
|
|
:call extend(adict, bdict)
|
|
This extends adict with all entries from bdict. Duplicate keys cause entries
|
|
in adict to be overwritten. An optional third argument can change this.
|
|
Note that the order of entries in a Dictionary is irrelevant, thus don't
|
|
expect ":echo adict" to show the items from bdict after the older entries in
|
|
adict.
|
|
|
|
Weeding out entries from a Dictionary can be done with |filter()|: >
|
|
:call filter(dict, 'v:val =~ "x"')
|
|
This removes all entries from "dict" with a value not matching 'x'.
|
|
This can also be used to remove all entries: >
|
|
call filter(dict, 0)
|
|
|
|
|
|
Dictionary function ~
|
|
*Dictionary-function* *self* *E725* *E862*
|
|
When a function is defined with the "dict" attribute it can be used in a
|
|
special way with a dictionary. Example: >
|
|
:function Mylen() dict
|
|
: return len(self.data)
|
|
:endfunction
|
|
:let mydict = {'data': [0, 1, 2, 3], 'len': function("Mylen")}
|
|
:echo mydict.len()
|
|
|
|
This is like a method in object oriented programming. The entry in the
|
|
Dictionary is a |Funcref|. The local variable "self" refers to the dictionary
|
|
the function was invoked from.
|
|
|
|
It is also possible to add a function without the "dict" attribute as a
|
|
Funcref to a Dictionary, but the "self" variable is not available then.
|
|
|
|
*numbered-function* *anonymous-function*
|
|
To avoid the extra name for the function it can be defined and directly
|
|
assigned to a Dictionary in this way: >
|
|
:let mydict = {'data': [0, 1, 2, 3]}
|
|
:function mydict.len()
|
|
: return len(self.data)
|
|
:endfunction
|
|
:echo mydict.len()
|
|
|
|
The function will then get a number and the value of dict.len is a |Funcref|
|
|
that references this function. The function can only be used through a
|
|
|Funcref|. It will automatically be deleted when there is no |Funcref|
|
|
remaining that refers to it.
|
|
|
|
It is not necessary to use the "dict" attribute for a numbered function.
|
|
|
|
If you get an error for a numbered function, you can find out what it is with
|
|
a trick. Assuming the function is 42, the command is: >
|
|
:function g:42
|
|
|
|
|
|
Functions for Dictionaries ~
|
|
*E715*
|
|
Functions that can be used with a Dictionary: >
|
|
:if has_key(dict, 'foo') " TRUE if dict has entry with key "foo"
|
|
:if empty(dict) " TRUE if dict is empty
|
|
:let l = len(dict) " number of items in dict
|
|
:let big = max(dict) " maximum value in dict
|
|
:let small = min(dict) " minimum value in dict
|
|
:let xs = count(dict, 'x') " count nr of times 'x' appears in dict
|
|
:let s = string(dict) " String representation of dict
|
|
:call map(dict, '">> " .. v:val') " prepend ">> " to each item
|
|
|
|
|
|
1.5 Blobs ~
|
|
*blob* *Blob* *Blobs* *E978*
|
|
A Blob is a binary object. It can be used to read an image from a file and
|
|
send it over a channel, for example.
|
|
|
|
A Blob mostly behaves like a |List| of numbers, where each number has the
|
|
value of an 8-bit byte, from 0 to 255.
|
|
|
|
|
|
Blob creation ~
|
|
|
|
A Blob can be created with a |blob-literal|: >
|
|
:let b = 0zFF00ED015DAF
|
|
Dots can be inserted between bytes (pair of hex characters) for readability,
|
|
they don't change the value: >
|
|
:let b = 0zFF00.ED01.5DAF
|
|
|
|
A blob can be read from a file with |readfile()| passing the {type} argument
|
|
set to "B", for example: >
|
|
:let b = readfile('image.png', 'B')
|
|
|
|
|
|
Blob index ~
|
|
*blob-index* *E979*
|
|
A byte in the Blob can be accessed by putting the index in square brackets
|
|
after the Blob. Indexes are zero-based, thus the first byte has index zero. >
|
|
:let myblob = 0z00112233
|
|
:let byte = myblob[0] " get the first byte: 0x00
|
|
:let byte = myblob[2] " get the third byte: 0x22
|
|
|
|
A negative index is counted from the end. Index -1 refers to the last byte in
|
|
the Blob, -2 to the last but one byte, etc. >
|
|
:let last = myblob[-1] " get the last byte: 0x33
|
|
|
|
To avoid an error for an invalid index use the |get()| function. When an item
|
|
is not available it returns -1 or the default value you specify: >
|
|
:echo get(myblob, idx)
|
|
:echo get(myblob, idx, 999)
|
|
|
|
|
|
Blob iteration ~
|
|
|
|
The |:for| loop executes commands for each byte of a Blob. The loop variable is
|
|
set to each byte in the Blob. Example: >
|
|
:for byte in 0z112233
|
|
: call Doit(byte)
|
|
:endfor
|
|
This calls Doit() with 0x11, 0x22 and 0x33.
|
|
|
|
|
|
Blob concatenation ~
|
|
*blob-concatenation*
|
|
Two blobs can be concatenated with the "+" operator: >
|
|
:let longblob = myblob + 0z4455
|
|
:let longblob = 0z4455 + myblob
|
|
<
|
|
A blob can be concatenated with another one in-place using |:let+=|: >
|
|
:let myblob += 0z6677
|
|
<
|
|
See |blob-modification| below for more about changing a blob in-place.
|
|
|
|
|
|
Part of a blob ~
|
|
|
|
A part of the Blob can be obtained by specifying the first and last index,
|
|
separated by a colon in square brackets: >
|
|
:let myblob = 0z00112233
|
|
:let shortblob = myblob[1:2] " get 0z1122
|
|
:let shortblob = myblob[2:-1] " get 0z2233
|
|
|
|
Omitting the first index is similar to zero. Omitting the last index is
|
|
similar to -1. >
|
|
:let endblob = myblob[2:] " from item 2 to the end: 0z2233
|
|
:let shortblob = myblob[2:2] " Blob with one byte: 0z22
|
|
:let otherblob = myblob[:] " make a copy of the Blob
|
|
|
|
If the first index is beyond the last byte of the Blob or the second index is
|
|
before the first index, the result is an empty Blob. There is no error
|
|
message.
|
|
|
|
If the second index is equal to or greater than the length of the Blob the
|
|
length minus one is used: >
|
|
:echo myblob[2:8] " result: 0z2233
|
|
|
|
|
|
Blob modification ~
|
|
*blob-modification*
|
|
To change a specific byte of a blob use |:let| this way: >
|
|
:let blob[4] = 0x44
|
|
|
|
When the index is just one beyond the end of the Blob, it is appended. Any
|
|
higher index is an error.
|
|
|
|
To change a sequence of bytes the [:] notation can be used: >
|
|
let blob[1:3] = 0z445566
|
|
The length of the replaced bytes must be exactly the same as the value
|
|
provided. *E972*
|
|
|
|
To change part of a blob you can specify the first and last byte to be
|
|
modified. The value must have the same number of bytes in the range: >
|
|
:let blob[3:5] = 0z334455
|
|
|
|
To add items to a Blob in-place, you can use |:let+=| (|blob-concatenation|): >
|
|
:let blobA = 0z1122
|
|
:let blobA += 0z3344
|
|
<
|
|
When two variables refer to the same Blob, changing one Blob in-place will
|
|
cause the referenced Blob to be changed in-place: >
|
|
:let blobA = 0z1122
|
|
:let blobB = blobA
|
|
:let blobB += 0z3344
|
|
:echo blobA
|
|
0z11223344
|
|
<
|
|
You can also use the functions |add()|, |remove()| and |insert()|.
|
|
|
|
|
|
Blob identity ~
|
|
|
|
Blobs can be compared for equality: >
|
|
if blob == 0z001122
|
|
And for equal identity: >
|
|
if blob is otherblob
|
|
< *blob-identity* *E977*
|
|
When variable "aa" is a Blob and you assign it to another variable "bb", both
|
|
variables refer to the same Blob. Then the "is" operator returns true.
|
|
|
|
When making a copy using [:] or |copy()| the values are the same, but the
|
|
identity is different: >
|
|
:let blob = 0z112233
|
|
:let blob2 = blob
|
|
:echo blob == blob2
|
|
< 1 >
|
|
:echo blob is blob2
|
|
< 1 >
|
|
:let blob3 = blob[:]
|
|
:echo blob == blob3
|
|
< 1 >
|
|
:echo blob is blob3
|
|
< 0
|
|
|
|
Making a copy of a Blob is done with the |copy()| function. Using [:] also
|
|
works, as explained above.
|
|
|
|
|
|
1.6 More about variables ~
|
|
*more-variables*
|
|
If you need to know the type of a variable or expression, use the |type()|
|
|
function.
|
|
|
|
When the '!' flag is included in the 'shada' option, global variables that
|
|
start with an uppercase letter, and don't contain a lowercase letter, are
|
|
stored in the shada file |shada-file|.
|
|
|
|
When the 'sessionoptions' option contains "global", global variables that
|
|
start with an uppercase letter and contain at least one lowercase letter are
|
|
stored in the session file |session-file|.
|
|
|
|
variable name can be stored where ~
|
|
my_var_6 not
|
|
My_Var_6 session file
|
|
MY_VAR_6 shada file
|
|
|
|
|
|
It's possible to form a variable name with curly braces, see
|
|
|curly-braces-names|.
|
|
|
|
==============================================================================
|
|
2. Expression syntax *expression-syntax*
|
|
|
|
Expression syntax summary, from least to most significant:
|
|
|
|
|expr1| expr2
|
|
expr2 ? expr1 : expr1 if-then-else
|
|
|
|
|expr2| expr3
|
|
expr3 || expr3 ... logical OR
|
|
|
|
|expr3| expr4
|
|
expr4 && expr4 ... logical AND
|
|
|
|
|expr4| expr5
|
|
expr5 == expr5 equal
|
|
expr5 != expr5 not equal
|
|
expr5 > expr5 greater than
|
|
expr5 >= expr5 greater than or equal
|
|
expr5 < expr5 smaller than
|
|
expr5 <= expr5 smaller than or equal
|
|
expr5 =~ expr5 regexp matches
|
|
expr5 !~ expr5 regexp doesn't match
|
|
|
|
expr5 ==? expr5 equal, ignoring case
|
|
expr5 ==# expr5 equal, match case
|
|
etc. As above, append ? for ignoring case, # for
|
|
matching case
|
|
|
|
expr5 is expr5 same |List|, |Dictionary| or |Blob| instance
|
|
expr5 isnot expr5 different |List|, |Dictionary| or |Blob|
|
|
instance
|
|
|
|
|expr5| expr6
|
|
expr6 + expr6 ... number addition, list or blob concatenation
|
|
expr6 - expr6 ... number subtraction
|
|
expr6 . expr6 ... string concatenation
|
|
expr6 .. expr6 ... string concatenation
|
|
|
|
|expr6| expr7
|
|
expr7 * expr7 ... number multiplication
|
|
expr7 / expr7 ... number division
|
|
expr7 % expr7 ... number modulo
|
|
|
|
|expr7| expr8
|
|
! expr7 logical NOT
|
|
- expr7 unary minus
|
|
+ expr7 unary plus
|
|
|
|
|expr8| expr9
|
|
expr8[expr1] byte of a String or item of a |List|
|
|
expr8[expr1 : expr1] substring of a String or sublist of a |List|
|
|
expr8.name entry in a |Dictionary|
|
|
expr8(expr1, ...) function call with |Funcref| variable
|
|
expr8->name(expr1, ...) |method| call
|
|
|
|
|expr9| number number constant
|
|
"string" string constant, backslash is special
|
|
`'string'` string constant, ' is doubled
|
|
[expr1, ...] |List|
|
|
`{expr1: expr1, ...}` |Dictionary|
|
|
#{key: expr1, ...} |Dictionary|
|
|
&option option value
|
|
(expr1) nested expression
|
|
variable internal variable
|
|
va{ria}ble internal variable with curly braces
|
|
$VAR environment variable
|
|
@r contents of register "r"
|
|
function(expr1, ...) function call
|
|
func{ti}on(expr1, ...) function call with curly braces
|
|
`{args -> expr1}` lambda expression
|
|
|
|
|
|
"..." indicates that the operations in this level can be concatenated.
|
|
Example: >
|
|
&nu || &list && &shell == "csh"
|
|
|
|
All expressions within one level are parsed from left to right.
|
|
|
|
Expression nesting is limited to 1000 levels deep (300 when build with MSVC)
|
|
to avoid running out of stack and crashing. *E1169*
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
expr1 *expr1* *ternary* *falsy-operator* *??* *E109*
|
|
|
|
The ternary operator: expr2 ? expr1 : expr1
|
|
The falsy operator: expr2 ?? expr1
|
|
|
|
Ternary operator ~
|
|
|
|
The expression before the '?' is evaluated to a number. If it evaluates to
|
|
|TRUE|, the result is the value of the expression between the '?' and ':',
|
|
otherwise the result is the value of the expression after the ':'.
|
|
Example: >
|
|
:echo lnum == 1 ? "top" : lnum
|
|
|
|
Since the first expression is an "expr2", it cannot contain another ?:. The
|
|
other two expressions can, thus allow for recursive use of ?:.
|
|
Example: >
|
|
:echo lnum == 1 ? "top" : lnum == 1000 ? "last" : lnum
|
|
|
|
To keep this readable, using |line-continuation| is suggested: >
|
|
:echo lnum == 1
|
|
:\ ? "top"
|
|
:\ : lnum == 1000
|
|
:\ ? "last"
|
|
:\ : lnum
|
|
|
|
You should always put a space before the ':', otherwise it can be mistaken for
|
|
use in a variable such as "a:1".
|
|
|
|
Falsy operator ~
|
|
|
|
This is also known as the "null coalescing operator", but that's too
|
|
complicated, thus we just call it the falsy operator.
|
|
|
|
The expression before the '??' is evaluated. If it evaluates to
|
|
|truthy|, this is used as the result. Otherwise the expression after the '??'
|
|
is evaluated and used as the result. This is most useful to have a default
|
|
value for an expression that may result in zero or empty: >
|
|
echo theList ?? 'list is empty'
|
|
echo GetName() ?? 'unknown'
|
|
|
|
These are similar, but not equal: >
|
|
expr2 ?? expr1
|
|
expr2 ? expr2 : expr1
|
|
In the second line "expr2" is evaluated twice.
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
expr2 and expr3 *expr2* *expr3*
|
|
|
|
expr3 || expr3 .. logical OR *expr-barbar*
|
|
expr4 && expr4 .. logical AND *expr-&&*
|
|
|
|
The "||" and "&&" operators take one argument on each side. The arguments
|
|
are (converted to) Numbers. The result is:
|
|
|
|
input output ~
|
|
n1 n2 n1 || n2 n1 && n2 ~
|
|
|FALSE| |FALSE| |FALSE| |FALSE|
|
|
|FALSE| |TRUE| |TRUE| |FALSE|
|
|
|TRUE| |FALSE| |TRUE| |FALSE|
|
|
|TRUE| |TRUE| |TRUE| |TRUE|
|
|
|
|
The operators can be concatenated, for example: >
|
|
|
|
&nu || &list && &shell == "csh"
|
|
|
|
Note that "&&" takes precedence over "||", so this has the meaning of: >
|
|
|
|
&nu || (&list && &shell == "csh")
|
|
|
|
Once the result is known, the expression "short-circuits", that is, further
|
|
arguments are not evaluated. This is like what happens in C. For example: >
|
|
|
|
let a = 1
|
|
echo a || b
|
|
|
|
This is valid even if there is no variable called "b" because "a" is |TRUE|,
|
|
so the result must be |TRUE|. Similarly below: >
|
|
|
|
echo exists("b") && b == "yes"
|
|
|
|
This is valid whether "b" has been defined or not. The second clause will
|
|
only be evaluated if "b" has been defined.
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
expr4 *expr4*
|
|
|
|
expr5 {cmp} expr5
|
|
|
|
Compare two expr5 expressions, resulting in a 0 if it evaluates to false, or 1
|
|
if it evaluates to true.
|
|
|
|
*expr-==* *expr-!=* *expr->* *expr->=*
|
|
*expr-<* *expr-<=* *expr-=~* *expr-!~*
|
|
*expr-==#* *expr-!=#* *expr->#* *expr->=#*
|
|
*expr-<#* *expr-<=#* *expr-=~#* *expr-!~#*
|
|
*expr-==?* *expr-!=?* *expr->?* *expr->=?*
|
|
*expr-<?* *expr-<=?* *expr-=~?* *expr-!~?*
|
|
*expr-is* *expr-isnot* *expr-is#* *expr-isnot#*
|
|
*expr-is?* *expr-isnot?*
|
|
use 'ignorecase' match case ignore case ~
|
|
equal == ==# ==?
|
|
not equal != !=# !=?
|
|
greater than > ># >?
|
|
greater than or equal >= >=# >=?
|
|
smaller than < <# <?
|
|
smaller than or equal <= <=# <=?
|
|
regexp matches =~ =~# =~?
|
|
regexp doesn't match !~ !~# !~?
|
|
same instance is is# is?
|
|
different instance isnot isnot# isnot?
|
|
|
|
Examples:
|
|
"abc" ==# "Abc" evaluates to 0
|
|
"abc" ==? "Abc" evaluates to 1
|
|
"abc" == "Abc" evaluates to 1 if 'ignorecase' is set, 0 otherwise
|
|
|
|
*E691* *E692*
|
|
A |List| can only be compared with a |List| and only "equal", "not equal",
|
|
"is" and "isnot" can be used. This compares the values of the list,
|
|
recursively. Ignoring case means case is ignored when comparing item values.
|
|
|
|
*E735* *E736*
|
|
A |Dictionary| can only be compared with a |Dictionary| and only "equal", "not
|
|
equal", "is" and "isnot" can be used. This compares the key/values of the
|
|
|Dictionary| recursively. Ignoring case means case is ignored when comparing
|
|
item values.
|
|
|
|
*E694*
|
|
A |Funcref| can only be compared with a |Funcref| and only "equal", "not
|
|
equal", "is" and "isnot" can be used. Case is never ignored. Whether
|
|
arguments or a Dictionary are bound (with a partial) matters. The
|
|
Dictionaries must also be equal (or the same, in case of "is") and the
|
|
arguments must be equal (or the same).
|
|
|
|
To compare Funcrefs to see if they refer to the same function, ignoring bound
|
|
Dictionary and arguments, use |get()| to get the function name: >
|
|
if get(Part1, 'name') == get(Part2, 'name')
|
|
" Part1 and Part2 refer to the same function
|
|
|
|
Using "is" or "isnot" with a |List|, |Dictionary| or |Blob| checks whether
|
|
the expressions are referring to the same |List|, |Dictionary| or |Blob|
|
|
instance. A copy of a |List| is different from the original |List|. When
|
|
using "is" without a |List|, |Dictionary| or |Blob|, it is equivalent to
|
|
using "equal", using "isnot" is equivalent to using "not equal". Except that
|
|
a different type means the values are different: >
|
|
echo 4 == '4'
|
|
1
|
|
echo 4 is '4'
|
|
0
|
|
echo 0 is []
|
|
0
|
|
"is#"/"isnot#" and "is?"/"isnot?" can be used to match and ignore case.
|
|
|
|
When comparing a String with a Number, the String is converted to a Number,
|
|
and the comparison is done on Numbers. This means that: >
|
|
echo 0 == 'x'
|
|
1
|
|
because 'x' converted to a Number is zero. However: >
|
|
echo [0] == ['x']
|
|
0
|
|
Inside a List or Dictionary this conversion is not used.
|
|
|
|
When comparing two Strings, this is done with strcmp() or stricmp(). This
|
|
results in the mathematical difference (comparing byte values), not
|
|
necessarily the alphabetical difference in the local language.
|
|
|
|
When using the operators with a trailing '#', or the short version and
|
|
'ignorecase' is off, the comparing is done with strcmp(): case matters.
|
|
|
|
When using the operators with a trailing '?', or the short version and
|
|
'ignorecase' is set, the comparing is done with stricmp(): case is ignored.
|
|
|
|
'smartcase' is not used.
|
|
|
|
The "=~" and "!~" operators match the lefthand argument with the righthand
|
|
argument, which is used as a pattern. See |pattern| for what a pattern is.
|
|
This matching is always done like 'magic' was set and 'cpoptions' is empty, no
|
|
matter what the actual value of 'magic' or 'cpoptions' is. This makes scripts
|
|
portable. To avoid backslashes in the regexp pattern to be doubled, use a
|
|
single-quote string, see |literal-string|.
|
|
Since a string is considered to be a single line, a multi-line pattern
|
|
(containing \n, backslash-n) will not match. However, a literal NL character
|
|
can be matched like an ordinary character. Examples:
|
|
"foo\nbar" =~ "\n" evaluates to 1
|
|
"foo\nbar" =~ "\\n" evaluates to 0
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
expr5 and expr6 *expr5* *expr6*
|
|
|
|
expr6 + expr6 Number addition, |List| or |Blob| concatenation *expr-+*
|
|
expr6 - expr6 Number subtraction *expr--*
|
|
expr6 . expr6 String concatenation *expr-.*
|
|
expr6 .. expr6 String concatenation *expr-..*
|
|
|
|
For |Lists| only "+" is possible and then both expr6 must be a list. The
|
|
result is a new list with the two lists Concatenated.
|
|
|
|
For String concatenation ".." is preferred, since "." is ambiguous, it is also
|
|
used for |Dict| member access and floating point numbers.
|
|
|
|
expr7 * expr7 Number multiplication *expr-star*
|
|
expr7 / expr7 Number division *expr-/*
|
|
expr7 % expr7 Number modulo *expr-%*
|
|
|
|
For all, except "." and "..", Strings are converted to Numbers.
|
|
For bitwise operators see |and()|, |or()| and |xor()|.
|
|
|
|
Note the difference between "+" and ".":
|
|
"123" + "456" = 579
|
|
"123" . "456" = "123456"
|
|
|
|
Since '.' has the same precedence as '+' and '-', you need to read: >
|
|
1 . 90 + 90.0
|
|
As: >
|
|
(1 . 90) + 90.0
|
|
That works, since the String "190" is automatically converted to the Number
|
|
190, which can be added to the Float 90.0. However: >
|
|
1 . 90 * 90.0
|
|
Should be read as: >
|
|
1 . (90 * 90.0)
|
|
Since '.' has lower precedence than "*". This does NOT work, since this
|
|
attempts to concatenate a Float and a String.
|
|
|
|
When dividing a Number by zero the result depends on the value:
|
|
0 / 0 = -0x80000000 (like NaN for Float)
|
|
>0 / 0 = 0x7fffffff (like positive infinity)
|
|
<0 / 0 = -0x7fffffff (like negative infinity)
|
|
(before Vim 7.2 it was always 0x7fffffff)
|
|
|
|
When 64-bit Number support is enabled:
|
|
0 / 0 = -0x8000000000000000 (like NaN for Float)
|
|
>0 / 0 = 0x7fffffffffffffff (like positive infinity)
|
|
<0 / 0 = -0x7fffffffffffffff (like negative infinity)
|
|
|
|
When the righthand side of '%' is zero, the result is 0.
|
|
|
|
None of these work for |Funcref|s.
|
|
|
|
. and % do not work for Float. *E804*
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
expr7 *expr7*
|
|
|
|
! expr7 logical NOT *expr-!*
|
|
- expr7 unary minus *expr-unary--*
|
|
+ expr7 unary plus *expr-unary-+*
|
|
|
|
For '!' |TRUE| becomes |FALSE|, |FALSE| becomes |TRUE| (one).
|
|
For '-' the sign of the number is changed.
|
|
For '+' the number is unchanged. Note: "++" has no effect.
|
|
|
|
A String will be converted to a Number first.
|
|
|
|
These three can be repeated and mixed. Examples:
|
|
!-1 == 0
|
|
!!8 == 1
|
|
--9 == 9
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
expr8 *expr8*
|
|
|
|
This expression is either |expr9| or a sequence of the alternatives below,
|
|
in any order. E.g., these are all possible:
|
|
expr8[expr1].name
|
|
expr8.name[expr1]
|
|
expr8(expr1, ...)[expr1].name
|
|
expr8->(expr1, ...)[expr1]
|
|
Evaluation is always from left to right.
|
|
|
|
|
|
expr8[expr1] item of String or |List| *expr-[]* *E111*
|
|
*subscript*
|
|
In legacy Vim script:
|
|
If expr8 is a Number or String this results in a String that contains the
|
|
expr1'th single byte from expr8. expr8 is used as a String (a number is
|
|
automatically converted to a String), expr1 as a Number. This doesn't
|
|
recognize multibyte encodings, see `byteidx()` for an alternative, or use
|
|
`split()` to turn the string into a list of characters. Example, to get the
|
|
byte under the cursor: >
|
|
:let c = getline(".")[col(".") - 1]
|
|
|
|
Index zero gives the first byte. This is like it works in C. Careful:
|
|
text column numbers start with one! Example, to get the byte under the
|
|
cursor: >
|
|
:let c = getline(".")[col(".") - 1]
|
|
|
|
Index zero gives the first byte. Careful: text column numbers start with one!
|
|
|
|
If the length of the String is less than the index, the result is an empty
|
|
String. A negative index always results in an empty string (reason: backward
|
|
compatibility). Use [-1:] to get the last byte.
|
|
|
|
If expr8 is a |List| then it results the item at index expr1. See |list-index|
|
|
for possible index values. If the index is out of range this results in an
|
|
error. Example: >
|
|
:let item = mylist[-1] " get last item
|
|
|
|
Generally, if a |List| index is equal to or higher than the length of the
|
|
|List|, or more negative than the length of the |List|, this results in an
|
|
error.
|
|
|
|
|
|
expr8[expr1a : expr1b] substring or |sublist| *expr-[:]* *substring*
|
|
|
|
If expr8 is a String this results in the substring with the bytes or
|
|
characters from expr1a to and including expr1b. expr8 is used as a String,
|
|
expr1a and expr1b are used as a Number.
|
|
|
|
In legacy Vim script the indexes are byte indexes. This doesn't recognize
|
|
multibyte encodings, see |byteidx()| for computing the indexes. If expr8 is
|
|
a Number it is first converted to a String.
|
|
|
|
The item at index expr1b is included, it is inclusive. For an exclusive index
|
|
use the |slice()| function.
|
|
|
|
If expr1a is omitted zero is used. If expr1b is omitted the length of the
|
|
string minus one is used.
|
|
|
|
A negative number can be used to measure from the end of the string. -1 is
|
|
the last character, -2 the last but one, etc.
|
|
|
|
If an index goes out of range for the string characters are omitted. If
|
|
expr1b is smaller than expr1a the result is an empty string.
|
|
|
|
Examples: >
|
|
:let c = name[-1:] " last byte of a string
|
|
:let c = name[0:-1] " the whole string
|
|
:let c = name[-2:-2] " last but one byte of a string
|
|
:let s = line(".")[4:] " from the fifth byte to the end
|
|
:let s = s[:-3] " remove last two bytes
|
|
<
|
|
*slice*
|
|
If expr8 is a |List| this results in a new |List| with the items indicated by
|
|
the indexes expr1a and expr1b. This works like with a String, as explained
|
|
just above. Also see |sublist| below. Examples: >
|
|
:let l = mylist[:3] " first four items
|
|
:let l = mylist[4:4] " List with one item
|
|
:let l = mylist[:] " shallow copy of a List
|
|
|
|
If expr8 is a |Blob| this results in a new |Blob| with the bytes in the
|
|
indexes expr1a and expr1b, inclusive. Examples: >
|
|
:let b = 0zDEADBEEF
|
|
:let bs = b[1:2] " 0zADBE
|
|
:let bs = b[] " copy of 0zDEADBEEF
|
|
|
|
Using expr8[expr1] or expr8[expr1a : expr1b] on a |Funcref| results in an
|
|
error.
|
|
|
|
Watch out for confusion between a namespace and a variable followed by a colon
|
|
for a sublist: >
|
|
mylist[n:] " uses variable n
|
|
mylist[s:] " uses namespace s:, error!
|
|
|
|
|
|
expr8.name entry in a |Dictionary| *expr-entry*
|
|
|
|
If expr8 is a |Dictionary| and it is followed by a dot, then the following
|
|
name will be used as a key in the |Dictionary|. This is just like:
|
|
expr8[name].
|
|
|
|
The name must consist of alphanumeric characters, just like a variable name,
|
|
but it may start with a number. Curly braces cannot be used.
|
|
|
|
There must not be white space before or after the dot.
|
|
|
|
Examples: >
|
|
:let dict = {"one": 1, 2: "two"}
|
|
:echo dict.one " shows "1"
|
|
:echo dict.2 " shows "two"
|
|
:echo dict .2 " error because of space before the dot
|
|
|
|
Note that the dot is also used for String concatenation. To avoid confusion
|
|
always put spaces around the dot for String concatenation.
|
|
|
|
|
|
expr8(expr1, ...) |Funcref| function call *E1085*
|
|
|
|
When expr8 is a |Funcref| type variable, invoke the function it refers to.
|
|
|
|
|
|
expr8->name([args]) method call *method* *->*
|
|
expr8->{lambda}([args])
|
|
|
|
*E260* *E276*
|
|
For methods that are also available as global functions this is the same as: >
|
|
name(expr8 [, args])
|
|
There can also be methods specifically for the type of "expr8".
|
|
|
|
This allows for chaining, passing the value that one method returns to the
|
|
next method: >
|
|
mylist->filter(filterexpr)->map(mapexpr)->sort()->join()
|
|
<
|
|
Example of using a lambda: >
|
|
GetPercentage()->{x -> x * 100}()->printf('%d%%')
|
|
<
|
|
When using -> the |expr7| operators will be applied first, thus: >
|
|
-1.234->string()
|
|
Is equivalent to: >
|
|
(-1.234)->string()
|
|
And NOT: >
|
|
-(1.234->string())
|
|
<
|
|
*E274*
|
|
"->name(" must not contain white space. There can be white space before the
|
|
"->" and after the "(", thus you can split the lines like this: >
|
|
mylist
|
|
\ ->filter(filterexpr)
|
|
\ ->map(mapexpr)
|
|
\ ->sort()
|
|
\ ->join()
|
|
|
|
When using the lambda form there must be no white space between the } and the
|
|
(.
|
|
|
|
|
|
*expr9*
|
|
------------------------------------------------------------------------------
|
|
number
|
|
|
|
number number constant *expr-number*
|
|
|
|
*0x* *hex-number* *0o* *octal-number* *binary-number*
|
|
Decimal, Hexadecimal (starting with 0x or 0X), Binary (starting with 0b or 0B)
|
|
and Octal (starting with 0, 0o or 0O).
|
|
|
|
*floating-point-format*
|
|
Floating point numbers can be written in two forms:
|
|
|
|
[-+]{N}.{M}
|
|
[-+]{N}.{M}[eE][-+]{exp}
|
|
|
|
{N} and {M} are numbers. Both {N} and {M} must be present and can only
|
|
contain digits.
|
|
[-+] means there is an optional plus or minus sign.
|
|
{exp} is the exponent, power of 10.
|
|
Only a decimal point is accepted, not a comma. No matter what the current
|
|
locale is.
|
|
|
|
Examples:
|
|
123.456
|
|
+0.0001
|
|
55.0
|
|
-0.123
|
|
1.234e03
|
|
1.0E-6
|
|
-3.1416e+88
|
|
|
|
These are INVALID:
|
|
3. empty {M}
|
|
1e40 missing .{M}
|
|
|
|
Rationale:
|
|
Before floating point was introduced, the text "123.456" was interpreted as
|
|
the two numbers "123" and "456", both converted to a string and concatenated,
|
|
resulting in the string "123456". Since this was considered pointless, and we
|
|
could not find it intentionally being used in Vim scripts, this backwards
|
|
incompatibility was accepted in favor of being able to use the normal notation
|
|
for floating point numbers.
|
|
|
|
*float-pi* *float-e*
|
|
A few useful values to copy&paste: >
|
|
:let pi = 3.14159265359
|
|
:let e = 2.71828182846
|
|
Or, if you don't want to write them in as floating-point literals, you can
|
|
also use functions, like the following: >
|
|
:let pi = acos(-1.0)
|
|
:let e = exp(1.0)
|
|
<
|
|
*floating-point-precision*
|
|
The precision and range of floating points numbers depends on what "double"
|
|
means in the library Vim was compiled with. There is no way to change this at
|
|
runtime.
|
|
|
|
The default for displaying a |Float| is to use 6 decimal places, like using
|
|
printf("%g", f). You can select something else when using the |printf()|
|
|
function. Example: >
|
|
:echo printf('%.15e', atan(1))
|
|
< 7.853981633974483e-01
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
string *string* *String* *expr-string* *E114*
|
|
|
|
"string" string constant *expr-quote*
|
|
|
|
Note that double quotes are used.
|
|
|
|
A string constant accepts these special characters:
|
|
\... three-digit octal number (e.g., "\316")
|
|
\.. two-digit octal number (must be followed by non-digit)
|
|
\. one-digit octal number (must be followed by non-digit)
|
|
\x.. byte specified with two hex numbers (e.g., "\x1f")
|
|
\x. byte specified with one hex number (must be followed by non-hex char)
|
|
\X.. same as \x..
|
|
\X. same as \x.
|
|
\u.... character specified with up to 4 hex numbers, stored as UTF-8
|
|
(e.g., "\u02a4")
|
|
\U.... same as \u but allows up to 8 hex numbers.
|
|
\b backspace <BS>
|
|
\e escape <Esc>
|
|
\f formfeed 0x0C
|
|
\n newline <NL>
|
|
\r return <CR>
|
|
\t tab <Tab>
|
|
\\ backslash
|
|
\" double quote
|
|
\<xxx> Special key named "xxx". e.g. "\<C-W>" for CTRL-W. This is for use
|
|
in mappings, the 0x80 byte is escaped.
|
|
To use the double quote character it must be escaped: "<M-\">".
|
|
Don't use <Char-xxxx> to get a UTF-8 character, use \uxxxx as
|
|
mentioned above.
|
|
\<*xxx> Like \<xxx> but prepends a modifier instead of including it in the
|
|
character. E.g. "\<C-w>" is one character 0x17 while "\<*C-w>" is four
|
|
bytes: 3 for the CTRL modifier and then character "W".
|
|
|
|
Note that "\xff" is stored as the byte 255, which may be invalid in some
|
|
encodings. Use "\u00ff" to store character 255 correctly as UTF-8.
|
|
|
|
Note that "\000" and "\x00" force the end of the string.
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
blob-literal *blob-literal* *E973*
|
|
|
|
Hexadecimal starting with 0z or 0Z, with an arbitrary number of bytes.
|
|
The sequence must be an even number of hex characters. Example: >
|
|
:let b = 0zFF00ED015DAF
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
literal-string *literal-string* *E115*
|
|
|
|
'string' string constant *expr-'*
|
|
|
|
Note that single quotes are used.
|
|
|
|
This string is taken as it is. No backslashes are removed or have a special
|
|
meaning. The only exception is that two quotes stand for one quote.
|
|
|
|
Single quoted strings are useful for patterns, so that backslashes do not need
|
|
to be doubled. These two commands are equivalent: >
|
|
if a =~ "\\s*"
|
|
if a =~ '\s*'
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
interpolated-string *$quote* *interpolated-string*
|
|
|
|
$"string" interpolated string constant *expr-$quote*
|
|
$'string' interpolated literal string constant *expr-$'*
|
|
|
|
Interpolated strings are an extension of the |string| and |literal-string|,
|
|
allowing the inclusion of Vim script expressions (see |expr1|). Any
|
|
expression returning a value can be enclosed between curly braces. The value
|
|
is converted to a string. All the text and results of the expressions
|
|
are concatenated to make a new string.
|
|
*E1278*
|
|
To include an opening brace '{' or closing brace '}' in the string content
|
|
double it. For double quoted strings using a backslash also works. A single
|
|
closing brace '}' will result in an error.
|
|
|
|
Examples: >
|
|
let your_name = input("What's your name? ")
|
|
< What's your name? Peter ~
|
|
>
|
|
echo
|
|
echo $"Hello, {your_name}!"
|
|
< Hello, Peter! ~
|
|
>
|
|
echo $"The square root of {{9}} is {sqrt(9)}"
|
|
< The square root of {9} is 3.0 ~
|
|
|
|
*string-offset-encoding*
|
|
A string consists of multiple characters. UTF-8 uses one byte for ASCII
|
|
characters, two bytes for other latin characters and more bytes for other
|
|
characters.
|
|
|
|
A string offset can count characters or bytes. Other programs may use
|
|
UTF-16 encoding (16-bit words) and an offset of UTF-16 words. Some functions
|
|
use byte offsets, usually for UTF-8 encoding. Other functions use character
|
|
offsets, in which case the encoding doesn't matter.
|
|
|
|
The different offsets for the string "a©😊" are below:
|
|
|
|
UTF-8 offsets:
|
|
[0]: 61, [1]: C2, [2]: A9, [3]: F0, [4]: 9F, [5]: 98, [6]: 8A
|
|
UTF-16 offsets:
|
|
[0]: 0061, [1]: 00A9, [2]: D83D, [3]: DE0A
|
|
UTF-32 (character) offsets:
|
|
[0]: 00000061, [1]: 000000A9, [2]: 0001F60A
|
|
|
|
You can use the "g8" and "ga" commands on a character to see the
|
|
decimal/hex/octal values.
|
|
|
|
The functions |byteidx()|, |utf16idx()| and |charidx()| can be used to convert
|
|
between these indices. The functions |strlen()|, |strutf16len()| and
|
|
|strcharlen()| return the number of bytes, UTF-16 code units and characters in
|
|
a string respectively.
|
|
|
|
------------------------------------------------------------------------------
|
|
option *expr-option* *E112* *E113*
|
|
|
|
&option option value, local value if possible
|
|
&g:option global option value
|
|
&l:option local option value
|
|
|
|
Examples: >
|
|
echo "tabstop is " .. &tabstop
|
|
if &expandtab
|
|
|
|
Any option name can be used here. See |options|. When using the local value
|
|
and there is no buffer-local or window-local value, the global value is used
|
|
anyway.
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
register *expr-register* *@r*
|
|
|
|
@r contents of register 'r'
|
|
|
|
The result is the contents of the named register, as a single string.
|
|
Newlines are inserted where required. To get the contents of the unnamed
|
|
register use @" or @@. See |registers| for an explanation of the available
|
|
registers.
|
|
|
|
When using the '=' register you get the expression itself, not what it
|
|
evaluates to. Use |eval()| to evaluate it.
|
|
|
|
|
|
nesting *expr-nesting* *E110*
|
|
-------
|
|
(expr1) nested expression
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
environment variable *expr-env*
|
|
|
|
$VAR environment variable
|
|
|
|
The String value of any environment variable. When it is not defined, the
|
|
result is an empty string.
|
|
|
|
The functions `getenv()` and `setenv()` can also be used and work for
|
|
environment variables with non-alphanumeric names.
|
|
The function `environ()` can be used to get a Dict with all environment
|
|
variables.
|
|
|
|
|
|
*expr-env-expand*
|
|
Note that there is a difference between using $VAR directly and using
|
|
expand("$VAR"). Using it directly will only expand environment variables that
|
|
are known inside the current Vim session. Using expand() will first try using
|
|
the environment variables known inside the current Vim session. If that
|
|
fails, a shell will be used to expand the variable. This can be slow, but it
|
|
does expand all variables that the shell knows about. Example: >
|
|
:echo $shell
|
|
:echo expand("$shell")
|
|
The first one probably doesn't echo anything, the second echoes the $shell
|
|
variable (if your shell supports it).
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
internal variable *expr-variable*
|
|
|
|
variable internal variable
|
|
See below |internal-variables|.
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
function call *expr-function* *E116* *E118* *E119* *E120*
|
|
|
|
function(expr1, ...) function call
|
|
See below |functions|.
|
|
|
|
|
|
------------------------------------------------------------------------------
|
|
lambda expression *expr-lambda* *lambda*
|
|
|
|
`{args -> expr1}` lambda expression *E451*
|
|
|
|
A lambda expression creates a new unnamed function which returns the result of
|
|
evaluating |expr1|. Lambda expressions differ from |user-function|s in
|
|
the following ways:
|
|
|
|
1. The body of the lambda expression is an |expr1| and not a sequence of |Ex|
|
|
commands.
|
|
2. The prefix "a:" should not be used for arguments. E.g.: >
|
|
:let F = {arg1, arg2 -> arg1 - arg2}
|
|
:echo F(5, 2)
|
|
< 3
|
|
|
|
The arguments are optional. Example: >
|
|
:let F = {-> 'error function'}
|
|
:echo F('ignored')
|
|
< error function
|
|
*closure*
|
|
Lambda expressions can access outer scope variables and arguments. This is
|
|
often called a closure. Example where "i" and "a:arg" are used in a lambda
|
|
while they already exist in the function scope. They remain valid even after
|
|
the function returns: >
|
|
:function Foo(arg)
|
|
: let i = 3
|
|
: return {x -> x + i - a:arg}
|
|
:endfunction
|
|
:let Bar = Foo(4)
|
|
:echo Bar(6)
|
|
< 5
|
|
Note that the variables must exist in the outer scope before the lambda is
|
|
defined for this to work. See also |:func-closure|.
|
|
|
|
Lambda and closure support can be checked with: >
|
|
if has('lambda')
|
|
|
|
Examples for using a lambda expression with |sort()|, |map()| and |filter()|: >
|
|
:echo map([1, 2, 3], {idx, val -> val + 1})
|
|
< [2, 3, 4] >
|
|
:echo sort([3,7,2,1,4], {a, b -> a - b})
|
|
< [1, 2, 3, 4, 7]
|
|
|
|
The lambda expression is also useful for jobs and timers: >
|
|
:let timer = timer_start(500,
|
|
\ {-> execute("echo 'Handler called'", "")},
|
|
\ {'repeat': 3})
|
|
< Handler called
|
|
Handler called
|
|
Handler called
|
|
|
|
Note that it is possible to cause memory to be used and not freed if the
|
|
closure is referenced by the context it depends on: >
|
|
function Function()
|
|
let x = 0
|
|
let F = {-> x}
|
|
endfunction
|
|
The closure uses "x" from the function scope, and "F" in that same scope
|
|
refers to the closure. This cycle results in the memory not being freed.
|
|
Recommendation: don't do this.
|
|
|
|
Notice how execute() is used to execute an Ex command. That's ugly though.
|
|
|
|
|
|
Lambda expressions have internal names like '<lambda>42'. If you get an error
|
|
for a lambda expression, you can find what it is with the following command: >
|
|
:function <lambda>42
|
|
See also: |numbered-function|
|
|
|
|
==============================================================================
|
|
3. Internal variable *internal-variables* *E461*
|
|
|
|
An internal variable name can be made up of letters, digits and '_'. But it
|
|
cannot start with a digit. It's also possible to use curly braces, see
|
|
|curly-braces-names|.
|
|
|
|
An internal variable is created with the ":let" command |:let|.
|
|
An internal variable is explicitly destroyed with the ":unlet" command
|
|
|:unlet|.
|
|
Using a name that is not an internal variable or refers to a variable that has
|
|
been destroyed results in an error.
|
|
|
|
*variable-scope*
|
|
There are several name spaces for variables. Which one is to be used is
|
|
specified by what is prepended:
|
|
|
|
(nothing) In a function: local to a function; otherwise: global
|
|
|buffer-variable| b: Local to the current buffer.
|
|
|window-variable| w: Local to the current window.
|
|
|tabpage-variable| t: Local to the current tab page.
|
|
|global-variable| g: Global.
|
|
|local-variable| l: Local to a function.
|
|
|script-variable| s: Local to a |:source|d Vim script.
|
|
|function-argument| a: Function argument (only inside a function).
|
|
|vim-variable| v: Global, predefined by Vim.
|
|
|
|
The scope name by itself can be used as a |Dictionary|. For example, to
|
|
delete all script-local variables: >
|
|
:for k in keys(s:)
|
|
: unlet s:[k]
|
|
:endfor
|
|
<
|
|
*buffer-variable* *b:var* *b:*
|
|
A variable name that is preceded with "b:" is local to the current buffer.
|
|
Thus you can have several "b:foo" variables, one for each buffer.
|
|
This kind of variable is deleted when the buffer is wiped out or deleted with
|
|
|:bdelete|.
|
|
|
|
One local buffer variable is predefined:
|
|
*b:changedtick* *changetick*
|
|
b:changedtick The total number of changes to the current buffer. It is
|
|
incremented for each change. An undo command is also a change
|
|
in this case. Resetting 'modified' when writing the buffer is
|
|
also counted.
|
|
This can be used to perform an action only when the buffer has
|
|
changed. Example: >
|
|
:if my_changedtick != b:changedtick
|
|
: let my_changedtick = b:changedtick
|
|
: call My_Update()
|
|
:endif
|
|
< You cannot change or delete the b:changedtick variable.
|
|
|
|
*window-variable* *w:var* *w:*
|
|
A variable name that is preceded with "w:" is local to the current window. It
|
|
is deleted when the window is closed.
|
|
|
|
*tabpage-variable* *t:var* *t:*
|
|
A variable name that is preceded with "t:" is local to the current tab page,
|
|
It is deleted when the tab page is closed.
|
|
|
|
*global-variable* *g:var* *g:*
|
|
Inside functions global variables are accessed with "g:". Omitting this will
|
|
access a variable local to a function. But "g:" can also be used in any other
|
|
place if you like.
|
|
|
|
*local-variable* *l:var* *l:*
|
|
Inside functions local variables are accessed without prepending anything.
|
|
But you can also prepend "l:" if you like. However, without prepending "l:"
|
|
you may run into reserved variable names. For example "count". By itself it
|
|
refers to "v:count". Using "l:count" you can have a local variable with the
|
|
same name.
|
|
|
|
*script-variable* *s:var*
|
|
In a Vim script variables starting with "s:" can be used. They cannot be
|
|
accessed from outside of the scripts, thus are local to the script.
|
|
|
|
They can be used in:
|
|
- commands executed while the script is sourced
|
|
- functions defined in the script
|
|
- autocommands defined in the script
|
|
- functions and autocommands defined in functions and autocommands which were
|
|
defined in the script (recursively)
|
|
- user defined commands defined in the script
|
|
Thus not in:
|
|
- other scripts sourced from this one
|
|
- mappings
|
|
- menus
|
|
- etc.
|
|
|
|
Script variables can be used to avoid conflicts with global variable names.
|
|
Take this example: >
|
|
|
|
let s:counter = 0
|
|
function MyCounter()
|
|
let s:counter = s:counter + 1
|
|
echo s:counter
|
|
endfunction
|
|
command Tick call MyCounter()
|
|
|
|
You can now invoke "Tick" from any script, and the "s:counter" variable in
|
|
that script will not be changed, only the "s:counter" in the script where
|
|
"Tick" was defined is used.
|
|
|
|
Another example that does the same: >
|
|
|
|
let s:counter = 0
|
|
command Tick let s:counter = s:counter + 1 | echo s:counter
|
|
|
|
When calling a function and invoking a user-defined command, the context for
|
|
script variables is set to the script where the function or command was
|
|
defined.
|
|
|
|
The script variables are also available when a function is defined inside a
|
|
function that is defined in a script. Example: >
|
|
|
|
let s:counter = 0
|
|
function StartCounting(incr)
|
|
if a:incr
|
|
function MyCounter()
|
|
let s:counter = s:counter + 1
|
|
endfunction
|
|
else
|
|
function MyCounter()
|
|
let s:counter = s:counter - 1
|
|
endfunction
|
|
endif
|
|
endfunction
|
|
|
|
This defines the MyCounter() function either for counting up or counting down
|
|
when calling StartCounting(). It doesn't matter from where StartCounting() is
|
|
called, the s:counter variable will be accessible in MyCounter().
|
|
|
|
When the same script is sourced again it will use the same script variables.
|
|
They will remain valid as long as Vim is running. This can be used to
|
|
maintain a counter: >
|
|
|
|
if !exists("s:counter")
|
|
let s:counter = 1
|
|
echo "script executed for the first time"
|
|
else
|
|
let s:counter = s:counter + 1
|
|
echo "script executed " .. s:counter .. " times now"
|
|
endif
|
|
|
|
Note that this means that filetype plugins don't get a different set of script
|
|
variables for each buffer. Use local buffer variables instead |b:var|.
|
|
|
|
|
|
PREDEFINED VIM VARIABLES *vim-variable* *v:var* *v:*
|
|
*E963*
|
|
|
|
The alphabetic list of all builtin variables and details are in a separate
|
|
help file: |vvars|.
|
|
|
|
==============================================================================
|
|
4. Builtin Functions *vim-function* *functions*
|
|
|
|
The Vimscript subsystem (referred to as "eval" internally) provides builtin
|
|
functions. Scripts can also define |user-function|s.
|
|
|
|
See |function-list| to browse functions by topic.
|
|
|
|
The alphabetic list of all builtin functions and details are in a separate
|
|
help file: |builtin-functions|.
|
|
|
|
==============================================================================
|
|
5. Defining functions *user-function*
|
|
|
|
New functions can be defined. These can be called just like builtin
|
|
functions. The function takes arguments, executes a sequence of Ex commands
|
|
and can return a value.
|
|
|
|
You can find most information about defining functions in |userfunc.txt|.
|
|
|
|
==============================================================================
|
|
6. Curly braces names *curly-braces-names*
|
|
|
|
In most places where you can use a variable, you can use a "curly braces name"
|
|
variable. This is a regular variable name with one or more expressions
|
|
wrapped in braces {} like this: >
|
|
my_{adjective}_variable
|
|
|
|
When Vim encounters this, it evaluates the expression inside the braces, puts
|
|
that in place of the expression, and re-interprets the whole as a variable
|
|
name. So in the above example, if the variable "adjective" was set to
|
|
"noisy", then the reference would be to "my_noisy_variable", whereas if
|
|
"adjective" was set to "quiet", then it would be to "my_quiet_variable".
|
|
|
|
One application for this is to create a set of variables governed by an option
|
|
value. For example, the statement >
|
|
echo my_{&background}_message
|
|
|
|
would output the contents of "my_dark_message" or "my_light_message" depending
|
|
on the current value of 'background'.
|
|
|
|
You can use multiple brace pairs: >
|
|
echo my_{adverb}_{adjective}_message
|
|
..or even nest them: >
|
|
echo my_{ad{end_of_word}}_message
|
|
where "end_of_word" is either "verb" or "jective".
|
|
|
|
However, the expression inside the braces must evaluate to a valid single
|
|
variable name, e.g. this is invalid: >
|
|
:let foo='a + b'
|
|
:echo c{foo}d
|
|
.. since the result of expansion is "ca + bd", which is not a variable name.
|
|
|
|
*curly-braces-function-names*
|
|
You can call and define functions by an evaluated name in a similar way.
|
|
Example: >
|
|
:let func_end='whizz'
|
|
:call my_func_{func_end}(parameter)
|
|
|
|
This would call the function "my_func_whizz(parameter)".
|
|
|
|
This does NOT work: >
|
|
:let i = 3
|
|
:let @{i} = '' " error
|
|
:echo @{i} " error
|
|
|
|
==============================================================================
|
|
7. Commands *expression-commands*
|
|
|
|
:let {var-name} = {expr1} *:let* *E18*
|
|
Set internal variable {var-name} to the result of the
|
|
expression {expr1}. The variable will get the type
|
|
from the {expr}. If {var-name} didn't exist yet, it
|
|
is created.
|
|
|
|
:let {var-name}[{idx}] = {expr1} *E689*
|
|
Set a list item to the result of the expression
|
|
{expr1}. {var-name} must refer to a list and {idx}
|
|
must be a valid index in that list. For nested list
|
|
the index can be repeated.
|
|
This cannot be used to add an item to a |List|.
|
|
This cannot be used to set a byte in a String. You
|
|
can do that like this: >
|
|
:let var = var[0:2] .. 'X' .. var[4:]
|
|
< When {var-name} is a |Blob| then {idx} can be the
|
|
length of the blob, in which case one byte is
|
|
appended.
|
|
|
|
*E711* *E719*
|
|
:let {var-name}[{idx1}:{idx2}] = {expr1} *E708* *E709* *E710*
|
|
Set a sequence of items in a |List| to the result of
|
|
the expression {expr1}, which must be a list with the
|
|
correct number of items.
|
|
{idx1} can be omitted, zero is used instead.
|
|
{idx2} can be omitted, meaning the end of the list.
|
|
When the selected range of items is partly past the
|
|
end of the list, items will be added.
|
|
|
|
*:let+=* *:let-=* *:letstar=*
|
|
*:let/=* *:let%=* *:let.=* *:let..=* *E734*
|
|
:let {var} += {expr1} Like ":let {var} = {var} + {expr1}".
|
|
:let {var} -= {expr1} Like ":let {var} = {var} - {expr1}".
|
|
`:let {var} *= {expr1}` Like ":let {var} = {var} * {expr1}".
|
|
:let {var} /= {expr1} Like ":let {var} = {var} / {expr1}".
|
|
:let {var} %= {expr1} Like ":let {var} = {var} % {expr1}".
|
|
:let {var} .= {expr1} Like ":let {var} = {var} . {expr1}".
|
|
:let {var} ..= {expr1} Like ":let {var} = {var} .. {expr1}".
|
|
These fail if {var} was not set yet and when the type
|
|
of {var} and {expr1} don't fit the operator.
|
|
`+=` modifies a |List| or a |Blob| in-place instead of
|
|
creating a new one.
|
|
|
|
|
|
:let ${env-name} = {expr1} *:let-environment* *:let-$*
|
|
Set environment variable {env-name} to the result of
|
|
the expression {expr1}. The type is always String.
|
|
:let ${env-name} .= {expr1}
|
|
Append {expr1} to the environment variable {env-name}.
|
|
If the environment variable didn't exist yet this
|
|
works like "=".
|
|
|
|
:let @{reg-name} = {expr1} *:let-register* *:let-@*
|
|
Write the result of the expression {expr1} in register
|
|
{reg-name}. {reg-name} must be a single letter, and
|
|
must be the name of a writable register (see
|
|
|registers|). "@@" can be used for the unnamed
|
|
register, "@/" for the search pattern.
|
|
If the result of {expr1} ends in a <CR> or <NL>, the
|
|
register will be linewise, otherwise it will be set to
|
|
charwise.
|
|
This can be used to clear the last search pattern: >
|
|
:let @/ = ""
|
|
< This is different from searching for an empty string,
|
|
that would match everywhere.
|
|
|
|
:let @{reg-name} .= {expr1}
|
|
Append {expr1} to register {reg-name}. If the
|
|
register was empty it's like setting it to {expr1}.
|
|
|
|
:let &{option-name} = {expr1} *:let-option* *:let-&*
|
|
Set option {option-name} to the result of the
|
|
expression {expr1}. A String or Number value is
|
|
always converted to the type of the option.
|
|
For an option local to a window or buffer the effect
|
|
is just like using the |:set| command: both the local
|
|
value and the global value are changed.
|
|
Example: >
|
|
:let &path = &path .. ',/usr/local/include'
|
|
|
|
:let &{option-name} .= {expr1}
|
|
For a string option: Append {expr1} to the value.
|
|
Does not insert a comma like |:set+=|.
|
|
|
|
:let &{option-name} += {expr1}
|
|
:let &{option-name} -= {expr1}
|
|
For a number or boolean option: Add or subtract
|
|
{expr1}.
|
|
|
|
:let &l:{option-name} = {expr1}
|
|
:let &l:{option-name} .= {expr1}
|
|
:let &l:{option-name} += {expr1}
|
|
:let &l:{option-name} -= {expr1}
|
|
Like above, but only set the local value of an option
|
|
(if there is one). Works like |:setlocal|.
|
|
|
|
:let &g:{option-name} = {expr1}
|
|
:let &g:{option-name} .= {expr1}
|
|
:let &g:{option-name} += {expr1}
|
|
:let &g:{option-name} -= {expr1}
|
|
Like above, but only set the global value of an option
|
|
(if there is one). Works like |:setglobal|.
|
|
|
|
:let [{name1}, {name2}, ...] = {expr1} *:let-unpack* *E687* *E688*
|
|
{expr1} must evaluate to a |List|. The first item in
|
|
the list is assigned to {name1}, the second item to
|
|
{name2}, etc.
|
|
The number of names must match the number of items in
|
|
the |List|.
|
|
Each name can be one of the items of the ":let"
|
|
command as mentioned above.
|
|
Example: >
|
|
:let [s, item] = GetItem(s)
|
|
< Detail: {expr1} is evaluated first, then the
|
|
assignments are done in sequence. This matters if
|
|
{name2} depends on {name1}. Example: >
|
|
:let x = [0, 1]
|
|
:let i = 0
|
|
:let [i, x[i]] = [1, 2]
|
|
:echo x
|
|
< The result is [0, 2].
|
|
|
|
:let [{name1}, {name2}, ...] .= {expr1}
|
|
:let [{name1}, {name2}, ...] += {expr1}
|
|
:let [{name1}, {name2}, ...] -= {expr1}
|
|
Like above, but append/add/subtract the value for each
|
|
|List| item.
|
|
|
|
:let [{name}, ..., ; {lastname}] = {expr1} *E452*
|
|
Like |:let-unpack| above, but the |List| may have more
|
|
items than there are names. A list of the remaining
|
|
items is assigned to {lastname}. If there are no
|
|
remaining items {lastname} is set to an empty list.
|
|
Example: >
|
|
:let [a, b; rest] = ["aval", "bval", 3, 4]
|
|
<
|
|
:let [{name}, ..., ; {lastname}] .= {expr1}
|
|
:let [{name}, ..., ; {lastname}] += {expr1}
|
|
:let [{name}, ..., ; {lastname}] -= {expr1}
|
|
Like above, but append/add/subtract the value for each
|
|
|List| item.
|
|
|
|
*:let=<<* *:let-heredoc*
|
|
*E990* *E991* *E172* *E221* *E1145*
|
|
:let {var-name} =<< [trim] [eval] {endmarker}
|
|
text...
|
|
text...
|
|
{endmarker}
|
|
Set internal variable {var-name} to a |List|
|
|
containing the lines of text bounded by the string
|
|
{endmarker}.
|
|
|
|
If "eval" is not specified, then each line of text is
|
|
used as a |literal-string|, except that single quotes
|
|
does not need to be doubled.
|
|
If "eval" is specified, then any Vim expression in the
|
|
form {expr} is evaluated and the result replaces the
|
|
expression, like with |interpolated-string|.
|
|
Example where $HOME is expanded: >
|
|
let lines =<< trim eval END
|
|
some text
|
|
See the file {$HOME}/.vimrc
|
|
more text
|
|
END
|
|
< There can be multiple Vim expressions in a single line
|
|
but an expression cannot span multiple lines. If any
|
|
expression evaluation fails, then the assignment fails.
|
|
|
|
{endmarker} must not contain white space.
|
|
{endmarker} cannot start with a lower case character.
|
|
The last line should end only with the {endmarker}
|
|
string without any other character. Watch out for
|
|
white space after {endmarker}!
|
|
|
|
Without "trim" any white space characters in the lines
|
|
of text are preserved. If "trim" is specified before
|
|
{endmarker}, then indentation is stripped so you can
|
|
do: >
|
|
let text =<< trim END
|
|
if ok
|
|
echo 'done'
|
|
endif
|
|
END
|
|
< Results in: `["if ok", " echo 'done'", "endif"]`
|
|
The marker must line up with "let" and the indentation
|
|
of the first line is removed from all the text lines.
|
|
Specifically: all the leading indentation exactly
|
|
matching the leading indentation of the first
|
|
non-empty text line is stripped from the input lines.
|
|
All leading indentation exactly matching the leading
|
|
indentation before `let` is stripped from the line
|
|
containing {endmarker}. Note that the difference
|
|
between space and tab matters here.
|
|
|
|
If {var-name} didn't exist yet, it is created.
|
|
Cannot be followed by another command, but can be
|
|
followed by a comment.
|
|
|
|
To avoid line continuation to be applied, consider
|
|
adding 'C' to 'cpoptions': >
|
|
set cpo+=C
|
|
let var =<< END
|
|
\ leading backslash
|
|
END
|
|
set cpo-=C
|
|
<
|
|
Examples: >
|
|
let var1 =<< END
|
|
Sample text 1
|
|
Sample text 2
|
|
Sample text 3
|
|
END
|
|
|
|
let data =<< trim DATA
|
|
1 2 3 4
|
|
5 6 7 8
|
|
DATA
|
|
|
|
let code =<< trim eval CODE
|
|
let v = {10 + 20}
|
|
let h = "{$HOME}"
|
|
let s = "{Str1()} abc {Str2()}"
|
|
let n = {MyFunc(3, 4)}
|
|
CODE
|
|
<
|
|
*E121*
|
|
:let {var-name} .. List the value of variable {var-name}. Multiple
|
|
variable names may be given. Special names recognized
|
|
here: *E738*
|
|
g: global variables
|
|
b: local buffer variables
|
|
w: local window variables
|
|
t: local tab page variables
|
|
s: script-local variables
|
|
l: local function variables
|
|
v: Vim variables.
|
|
|
|
:let List the values of all variables. The type of the
|
|
variable is indicated before the value:
|
|
<nothing> String
|
|
# Number
|
|
* Funcref
|
|
|
|
|
|
:unl[et][!] {name} ... *:unlet* *:unl* *E108* *E795*
|
|
Remove the internal variable {name}. Several variable
|
|
names can be given, they are all removed. The name
|
|
may also be a |List| or |Dictionary| item.
|
|
With [!] no error message is given for non-existing
|
|
variables.
|
|
One or more items from a |List| can be removed: >
|
|
:unlet list[3] " remove fourth item
|
|
:unlet list[3:] " remove fourth item to last
|
|
< One item from a |Dictionary| can be removed at a time: >
|
|
:unlet dict['two']
|
|
:unlet dict.two
|
|
< This is especially useful to clean up used global
|
|
variables and script-local variables (these are not
|
|
deleted when the script ends). Function-local
|
|
variables are automatically deleted when the function
|
|
ends.
|
|
|
|
:unl[et] ${env-name} ... *:unlet-environment* *:unlet-$*
|
|
Remove environment variable {env-name}.
|
|
Can mix {name} and ${env-name} in one :unlet command.
|
|
No error message is given for a non-existing
|
|
variable, also without !.
|
|
If the system does not support deleting an environment
|
|
variable, it is made empty.
|
|
|
|
*:cons* *:const*
|
|
:cons[t] {var-name} = {expr1}
|
|
:cons[t] [{name1}, {name2}, ...] = {expr1}
|
|
:cons[t] [{name}, ..., ; {lastname}] = {expr1}
|
|
:cons[t] {var-name} =<< [trim] [eval] {marker}
|
|
text...
|
|
text...
|
|
{marker}
|
|
Similar to |:let|, but additionally lock the variable
|
|
after setting the value. This is the same as locking
|
|
the variable with |:lockvar| just after |:let|, thus: >
|
|
:const x = 1
|
|
< is equivalent to: >
|
|
:let x = 1
|
|
:lockvar! x
|
|
< This is useful if you want to make sure the variable
|
|
is not modified. If the value is a List or Dictionary
|
|
literal then the items also cannot be changed: >
|
|
const ll = [1, 2, 3]
|
|
let ll[1] = 5 " Error!
|
|
< Nested references are not locked: >
|
|
let lvar = ['a']
|
|
const lconst = [0, lvar]
|
|
let lconst[0] = 2 " Error!
|
|
let lconst[1][0] = 'b' " OK
|
|
< *E995*
|
|
It is an error to specify an existing variable with
|
|
|:const|. >
|
|
:let x = 1
|
|
:const x = 1 " Error!
|
|
< *E996*
|
|
Note that environment variables, option values and
|
|
register values cannot be used here, since they cannot
|
|
be locked.
|
|
|
|
:cons[t]
|
|
:cons[t] {var-name}
|
|
If no argument is given or only {var-name} is given,
|
|
the behavior is the same as |:let|.
|
|
|
|
:lockv[ar][!] [depth] {name} ... *:lockvar* *:lockv*
|
|
Lock the internal variable {name}. Locking means that
|
|
it can no longer be changed (until it is unlocked).
|
|
A locked variable can be deleted: >
|
|
:lockvar v
|
|
:let v = 'asdf' " fails!
|
|
:unlet v " works
|
|
< *E741* *E940* *E1122*
|
|
If you try to change a locked variable you get an
|
|
error message: "E741: Value is locked: {name}".
|
|
If you try to lock or unlock a built-in variable you
|
|
will get an error message "E940: Cannot lock or unlock
|
|
variable {name}".
|
|
|
|
[depth] is relevant when locking a |List| or
|
|
|Dictionary|. It specifies how deep the locking goes:
|
|
0 Lock the variable {name} but not its
|
|
value.
|
|
1 Lock the |List| or |Dictionary| itself,
|
|
cannot add or remove items, but can
|
|
still change their values.
|
|
2 Also lock the values, cannot change
|
|
the items. If an item is a |List| or
|
|
|Dictionary|, cannot add or remove
|
|
items, but can still change the
|
|
values.
|
|
3 Like 2 but for the |List| /
|
|
|Dictionary| in the |List| /
|
|
|Dictionary|, one level deeper.
|
|
The default [depth] is 2, thus when {name} is a |List|
|
|
or |Dictionary| the values cannot be changed.
|
|
|
|
Example with [depth] 0: >
|
|
let mylist = [1, 2, 3]
|
|
lockvar 0 mylist
|
|
let mylist[0] = 77 " OK
|
|
call add(mylist, 4) " OK
|
|
let mylist = [7, 8, 9] " Error!
|
|
< *E743*
|
|
For unlimited depth use [!] and omit [depth].
|
|
However, there is a maximum depth of 100 to catch
|
|
loops.
|
|
|
|
Note that when two variables refer to the same |List|
|
|
and you lock one of them, the |List| will also be
|
|
locked when used through the other variable.
|
|
Example: >
|
|
:let l = [0, 1, 2, 3]
|
|
:let cl = l
|
|
:lockvar l
|
|
:let cl[1] = 99 " won't work!
|
|
< You may want to make a copy of a list to avoid this.
|
|
See |deepcopy()|.
|
|
|
|
|
|
:unlo[ckvar][!] [depth] {name} ... *:unlockvar* *:unlo*
|
|
Unlock the internal variable {name}. Does the
|
|
opposite of |:lockvar|.
|
|
|
|
No error is given if {name} does not exist.
|
|
|
|
:if {expr1} *:if* *:end* *:endif* *:en* *E171* *E579* *E580*
|
|
:en[dif] Execute the commands until the next matching `:else`
|
|
or `:endif` if {expr1} evaluates to non-zero.
|
|
Although the short forms work, it is recommended to
|
|
always use `:endif` to avoid confusion and to make
|
|
auto-indenting work properly.
|
|
|
|
From Vim version 4.5 until 5.0, every Ex command in
|
|
between the `:if` and `:endif` is ignored. These two
|
|
commands were just to allow for future expansions in a
|
|
backward compatible way. Nesting was allowed. Note
|
|
that any `:else` or `:elseif` was ignored, the `else`
|
|
part was not executed either.
|
|
|
|
You can use this to remain compatible with older
|
|
versions: >
|
|
:if version >= 500
|
|
: version-5-specific-commands
|
|
:endif
|
|
< The commands still need to be parsed to find the
|
|
`endif`. Sometimes an older Vim has a problem with a
|
|
new command. For example, `:silent` is recognized as
|
|
a `:substitute` command. In that case `:execute` can
|
|
avoid problems: >
|
|
:if version >= 600
|
|
: execute "silent 1,$delete"
|
|
:endif
|
|
<
|
|
NOTE: The `:append` and `:insert` commands don't work
|
|
properly in between `:if` and `:endif`.
|
|
|
|
*:else* *:el* *E581* *E583*
|
|
:el[se] Execute the commands until the next matching `:else`
|
|
or `:endif` if they previously were not being
|
|
executed.
|
|
|
|
*:elseif* *:elsei* *E582* *E584*
|
|
:elsei[f] {expr1} Short for `:else` `:if`, with the addition that there
|
|
is no extra `:endif`.
|
|
|
|
:wh[ile] {expr1} *:while* *:endwhile* *:wh* *:endw*
|
|
*E170* *E585* *E588* *E733*
|
|
:endw[hile] Repeat the commands between `:while` and `:endwhile`,
|
|
as long as {expr1} evaluates to non-zero.
|
|
When an error is detected from a command inside the
|
|
loop, execution continues after the `endwhile`.
|
|
Example: >
|
|
:let lnum = 1
|
|
:while lnum <= line("$")
|
|
:call FixLine(lnum)
|
|
:let lnum = lnum + 1
|
|
:endwhile
|
|
<
|
|
NOTE: The `:append` and `:insert` commands don't work
|
|
properly inside a `:while` and `:for` loop.
|
|
|
|
:for {var} in {object} *:for* *E690* *E732*
|
|
:endfo[r] *:endfo* *:endfor*
|
|
Repeat the commands between `:for` and `:endfor` for
|
|
each item in {object}. {object} can be a |List|,
|
|
a |Blob| or a |String|.
|
|
|
|
Variable {var} is set to the value of each item.
|
|
|
|
When an error is detected for a command inside the
|
|
loop, execution continues after the `endfor`.
|
|
Changing {object} inside the loop affects what items
|
|
are used. Make a copy if this is unwanted: >
|
|
:for item in copy(mylist)
|
|
<
|
|
When {object} is a |List| and not making a copy, Vim
|
|
stores a reference to the next item in the |List|
|
|
before executing the commands with the current item.
|
|
Thus the current item can be removed without effect.
|
|
Removing any later item means it will not be found.
|
|
Thus the following example works (an inefficient way
|
|
to make a |List| empty): >
|
|
for item in mylist
|
|
call remove(mylist, 0)
|
|
endfor
|
|
< Note that reordering the |List| (e.g., with sort() or
|
|
reverse()) may have unexpected effects.
|
|
|
|
When {object} is a |Blob|, Vim always makes a copy to
|
|
iterate over. Unlike with |List|, modifying the
|
|
|Blob| does not affect the iteration.
|
|
|
|
When {object} is a |String| each item is a string with
|
|
one character, plus any combining characters.
|
|
|
|
:for [{var1}, {var2}, ...] in {listlist}
|
|
:endfo[r]
|
|
Like `:for` above, but each item in {listlist} must be
|
|
a list, of which each item is assigned to {var1},
|
|
{var2}, etc. Example: >
|
|
:for [lnum, col] in [[1, 3], [2, 5], [3, 8]]
|
|
:echo getline(lnum)[col]
|
|
:endfor
|
|
<
|
|
*:continue* *:con* *E586*
|
|
:con[tinue] When used inside a `:while` or `:for` loop, jumps back
|
|
to the start of the loop.
|
|
|
|
If it is used after a `:try` inside the loop but
|
|
before the matching `:finally` (if present), the
|
|
commands following the `:finally` up to the matching
|
|
`:endtry` are executed first. This process applies to
|
|
all nested `:try`s inside the loop. The outermost
|
|
`:endtry` then jumps back to the start of the loop.
|
|
|
|
*:break* *:brea* *E587*
|
|
:brea[k] When used inside a `:while` or `:for` loop, skips to
|
|
the command after the matching `:endwhile` or
|
|
`:endfor`.
|
|
If it is used after a `:try` inside the loop but
|
|
before the matching `:finally` (if present), the
|
|
commands following the `:finally` up to the matching
|
|
`:endtry` are executed first. This process applies to
|
|
all nested `:try`s inside the loop. The outermost
|
|
`:endtry` then jumps to the command after the loop.
|
|
|
|
:try *:try* *:endt* *:endtry* *E600* *E601* *E602*
|
|
:endt[ry] Change the error handling for the commands between
|
|
`:try` and `:endtry` including everything being
|
|
executed across `:source` commands, function calls,
|
|
or autocommand invocations.
|
|
|
|
When an error or interrupt is detected and there is
|
|
a `:finally` command following, execution continues
|
|
after the `:finally`. Otherwise, or when the
|
|
`:endtry` is reached thereafter, the next
|
|
(dynamically) surrounding `:try` is checked for
|
|
a corresponding `:finally` etc. Then the script
|
|
processing is terminated. Whether a function
|
|
definition has an "abort" argument does not matter.
|
|
Example: >
|
|
try | call Unknown() | finally | echomsg "cleanup" | endtry
|
|
echomsg "not reached"
|
|
<
|
|
Moreover, an error or interrupt (dynamically) inside
|
|
`:try` and `:endtry` is converted to an exception. It
|
|
can be caught as if it were thrown by a `:throw`
|
|
command (see `:catch`). In this case, the script
|
|
processing is not terminated.
|
|
|
|
The value "Vim:Interrupt" is used for an interrupt
|
|
exception. An error in a Vim command is converted
|
|
to a value of the form "Vim({command}):{errmsg}",
|
|
other errors are converted to a value of the form
|
|
"Vim:{errmsg}". {command} is the full command name,
|
|
and {errmsg} is the message that is displayed if the
|
|
error exception is not caught, always beginning with
|
|
the error number.
|
|
Examples: >
|
|
try | sleep 100 | catch /^Vim:Interrupt$/ | endtry
|
|
try | edit | catch /^Vim(edit):E\d\+/ | echo "error" | endtry
|
|
<
|
|
*:cat* *:catch* *E603* *E604* *E605*
|
|
:cat[ch] /{pattern}/ The following commands until the next `:catch`,
|
|
`:finally`, or `:endtry` that belongs to the same
|
|
`:try` as the `:catch` are executed when an exception
|
|
matching {pattern} is being thrown and has not yet
|
|
been caught by a previous `:catch`. Otherwise, these
|
|
commands are skipped.
|
|
When {pattern} is omitted all errors are caught.
|
|
Examples: >
|
|
:catch /^Vim:Interrupt$/ " catch interrupts (CTRL-C)
|
|
:catch /^Vim\%((\a\+)\)\=:E/ " catch all Vim errors
|
|
:catch /^Vim\%((\a\+)\)\=:/ " catch errors and interrupts
|
|
:catch /^Vim(write):/ " catch all errors in :write
|
|
:catch /^Vim\%((\a\+)\)\=:E123:/ " catch error E123
|
|
:catch /my-exception/ " catch user exception
|
|
:catch /.*/ " catch everything
|
|
:catch " same as /.*/
|
|
<
|
|
Another character can be used instead of / around the
|
|
{pattern}, so long as it does not have a special
|
|
meaning (e.g., '|' or '"') and doesn't occur inside
|
|
{pattern}.
|
|
Information about the exception is available in
|
|
|v:exception|. Also see |throw-variables|.
|
|
NOTE: It is not reliable to ":catch" the TEXT of
|
|
an error message because it may vary in different
|
|
locales.
|
|
|
|
*:fina* *:finally* *E606* *E607*
|
|
:fina[lly] The following commands until the matching `:endtry`
|
|
are executed whenever the part between the matching
|
|
`:try` and the `:finally` is left: either by falling
|
|
through to the `:finally` or by a `:continue`,
|
|
`:break`, `:finish`, or `:return`, or by an error or
|
|
interrupt or exception (see `:throw`).
|
|
|
|
*:th* *:throw* *E608*
|
|
:th[row] {expr1} The {expr1} is evaluated and thrown as an exception.
|
|
If the `:throw` is used after a `:try` but before the
|
|
first corresponding `:catch`, commands are skipped
|
|
until the first `:catch` matching {expr1} is reached.
|
|
If there is no such `:catch` or if the `:throw` is
|
|
used after a `:catch` but before the `:finally`, the
|
|
commands following the `:finally` (if present) up to
|
|
the matching `:endtry` are executed. If the `:throw`
|
|
is after the `:finally`, commands up to the `:endtry`
|
|
are skipped. At the `:endtry`, this process applies
|
|
again for the next dynamically surrounding `:try`
|
|
(which may be found in a calling function or sourcing
|
|
script), until a matching `:catch` has been found.
|
|
If the exception is not caught, the command processing
|
|
is terminated.
|
|
Example: >
|
|
:try | throw "oops" | catch /^oo/ | echo "caught" | endtry
|
|
< Note that "catch" may need to be on a separate line
|
|
for when an error causes the parsing to skip the whole
|
|
line and not see the "|" that separates the commands.
|
|
|
|
*:ec* *:echo*
|
|
:ec[ho] {expr1} .. Echoes each {expr1}, with a space in between. The
|
|
first {expr1} starts on a new line.
|
|
Also see |:comment|.
|
|
Use "\n" to start a new line. Use "\r" to move the
|
|
cursor to the first column.
|
|
Uses the highlighting set by the `:echohl` command.
|
|
Cannot be followed by a comment.
|
|
Example: >
|
|
:echo "the value of 'shell' is" &shell
|
|
< *:echo-redraw*
|
|
A later redraw may make the message disappear again.
|
|
And since Vim mostly postpones redrawing until it's
|
|
finished with a sequence of commands this happens
|
|
quite often. To avoid that a command from before the
|
|
`:echo` causes a redraw afterwards (redraws are often
|
|
postponed until you type something), force a redraw
|
|
with the `:redraw` command. Example: >
|
|
:new | redraw | echo "there is a new window"
|
|
< *:echo-self-refer*
|
|
When printing nested containers echo prints second
|
|
occurrence of the self-referencing container using
|
|
"[...@level]" (self-referencing |List|) or
|
|
"{...@level}" (self-referencing |Dict|): >
|
|
:let l = []
|
|
:call add(l, l)
|
|
:let l2 = []
|
|
:call add(l2, [l2])
|
|
:echo l l2
|
|
< echoes "[[...@0]] [[[...@0]]]". Echoing "[l]" will
|
|
echo "[[[...@1]]]" because l first occurs at second
|
|
level.
|
|
|
|
*:echon*
|
|
:echon {expr1} .. Echoes each {expr1}, without anything added. Also see
|
|
|:comment|.
|
|
Uses the highlighting set by the `:echohl` command.
|
|
Cannot be followed by a comment.
|
|
Example: >
|
|
:echon "the value of 'shell' is " &shell
|
|
<
|
|
Note the difference between using `:echo`, which is a
|
|
Vim command, and `:!echo`, which is an external shell
|
|
command: >
|
|
:!echo % --> filename
|
|
< The arguments of ":!" are expanded, see |:_%|. >
|
|
:!echo "%" --> filename or "filename"
|
|
< Like the previous example. Whether you see the double
|
|
quotes or not depends on your 'shell'. >
|
|
:echo % --> nothing
|
|
< The '%' is an illegal character in an expression. >
|
|
:echo "%" --> %
|
|
< This just echoes the '%' character. >
|
|
:echo expand("%") --> filename
|
|
< This calls the expand() function to expand the '%'.
|
|
|
|
*:echoh* *:echohl*
|
|
:echoh[l] {name} Use the highlight group {name} for the following
|
|
`:echo`, `:echon` and `:echomsg` commands. Also used
|
|
for the `input()` prompt. Example: >
|
|
:echohl WarningMsg | echo "Don't panic!" | echohl None
|
|
< Don't forget to set the group back to "None",
|
|
otherwise all following echo's will be highlighted.
|
|
|
|
*:echom* *:echomsg*
|
|
:echom[sg] {expr1} .. Echo the expression(s) as a true message, saving the
|
|
message in the |message-history|.
|
|
Spaces are placed between the arguments as with the
|
|
`:echo` command. But unprintable characters are
|
|
displayed, not interpreted.
|
|
The parsing works slightly different from `:echo`,
|
|
more like `:execute`. All the expressions are first
|
|
evaluated and concatenated before echoing anything.
|
|
If expressions does not evaluate to a Number or
|
|
String, string() is used to turn it into a string.
|
|
Uses the highlighting set by the `:echohl` command.
|
|
Example: >
|
|
:echomsg "It's a Zizzer Zazzer Zuzz, as you can plainly see."
|
|
< See |:echo-redraw| to avoid the message disappearing
|
|
when the screen is redrawn.
|
|
*:echoe* *:echoerr*
|
|
:echoe[rr] {expr1} .. Echo the expression(s) as an error message, saving the
|
|
message in the |message-history|. When used in a
|
|
script or function the line number will be added.
|
|
Spaces are placed between the arguments as with the
|
|
`:echomsg` command. When used inside a try conditional,
|
|
the message is raised as an error exception instead
|
|
(see |try-echoerr|).
|
|
Example: >
|
|
:echoerr "This script just failed!"
|
|
< If you just want a highlighted message use `:echohl`.
|
|
And to get a beep: >
|
|
:exe "normal \<Esc>"
|
|
<
|
|
*:eval*
|
|
:eval {expr} Evaluate {expr} and discard the result. Example: >
|
|
:eval Getlist()->Filter()->append('$')
|
|
|
|
< The expression is supposed to have a side effect,
|
|
since the resulting value is not used. In the example
|
|
the `append()` call appends the List with text to the
|
|
buffer. This is similar to `:call` but works with any
|
|
expression.
|
|
|
|
The command can be shortened to `:ev` or `:eva`, but
|
|
these are hard to recognize and therefore not to be
|
|
used.
|
|
|
|
The command cannot be followed by "|" and another
|
|
command, since "|" is seen as part of the expression.
|
|
|
|
|
|
*:exe* *:execute*
|
|
:exe[cute] {expr1} .. Executes the string that results from the evaluation
|
|
of {expr1} as an Ex command.
|
|
Multiple arguments are concatenated, with a space in
|
|
between. To avoid the extra space use the ".."
|
|
operator to concatenate strings into one argument.
|
|
{expr1} is used as the processed command, command line
|
|
editing keys are not recognized.
|
|
Cannot be followed by a comment.
|
|
Examples: >
|
|
:execute "buffer" nextbuf
|
|
:execute "normal" count .. "w"
|
|
<
|
|
":execute" can be used to append a command to commands
|
|
that don't accept a '|'. Example: >
|
|
:execute '!ls' | echo "theend"
|
|
|
|
< ":execute" is also a nice way to avoid having to type
|
|
control characters in a Vim script for a ":normal"
|
|
command: >
|
|
:execute "normal ixxx\<Esc>"
|
|
< This has an <Esc> character, see |expr-string|.
|
|
|
|
Be careful to correctly escape special characters in
|
|
file names. The |fnameescape()| function can be used
|
|
for Vim commands, |shellescape()| for |:!| commands.
|
|
Examples: >
|
|
:execute "e " .. fnameescape(filename)
|
|
:execute "!ls " .. shellescape(filename, 1)
|
|
<
|
|
Note: The executed string may be any command-line, but
|
|
starting or ending "if", "while" and "for" does not
|
|
always work, because when commands are skipped the
|
|
":execute" is not evaluated and Vim loses track of
|
|
where blocks start and end. Also "break" and
|
|
"continue" should not be inside ":execute".
|
|
This example does not work, because the ":execute" is
|
|
not evaluated and Vim does not see the "while", and
|
|
gives an error for finding an ":endwhile": >
|
|
:if 0
|
|
: execute 'while i > 5'
|
|
: echo "test"
|
|
: endwhile
|
|
:endif
|
|
<
|
|
It is allowed to have a "while" or "if" command
|
|
completely in the executed string: >
|
|
:execute 'while i < 5 | echo i | let i = i + 1 | endwhile'
|
|
<
|
|
|
|
*:exe-comment*
|
|
":execute", ":echo" and ":echon" cannot be followed by
|
|
a comment directly, because they see the '"' as the
|
|
start of a string. But, you can use '|' followed by a
|
|
comment. Example: >
|
|
:echo "foo" | "this is a comment
|
|
|
|
==============================================================================
|
|
8. Exception handling *exception-handling*
|
|
|
|
The Vim script language comprises an exception handling feature. This section
|
|
explains how it can be used in a Vim script.
|
|
|
|
Exceptions may be raised by Vim on an error or on interrupt, see
|
|
|catch-errors| and |catch-interrupt|. You can also explicitly throw an
|
|
exception by using the ":throw" command, see |throw-catch|.
|
|
|
|
|
|
TRY CONDITIONALS *try-conditionals*
|
|
|
|
Exceptions can be caught or can cause cleanup code to be executed. You can
|
|
use a try conditional to specify catch clauses (that catch exceptions) and/or
|
|
a finally clause (to be executed for cleanup).
|
|
A try conditional begins with a |:try| command and ends at the matching
|
|
|:endtry| command. In between, you can use a |:catch| command to start
|
|
a catch clause, or a |:finally| command to start a finally clause. There may
|
|
be none or multiple catch clauses, but there is at most one finally clause,
|
|
which must not be followed by any catch clauses. The lines before the catch
|
|
clauses and the finally clause is called a try block. >
|
|
|
|
:try
|
|
: ...
|
|
: ... TRY BLOCK
|
|
: ...
|
|
:catch /{pattern}/
|
|
: ...
|
|
: ... CATCH CLAUSE
|
|
: ...
|
|
:catch /{pattern}/
|
|
: ...
|
|
: ... CATCH CLAUSE
|
|
: ...
|
|
:finally
|
|
: ...
|
|
: ... FINALLY CLAUSE
|
|
: ...
|
|
:endtry
|
|
|
|
The try conditional allows to watch code for exceptions and to take the
|
|
appropriate actions. Exceptions from the try block may be caught. Exceptions
|
|
from the try block and also the catch clauses may cause cleanup actions.
|
|
When no exception is thrown during execution of the try block, the control
|
|
is transferred to the finally clause, if present. After its execution, the
|
|
script continues with the line following the ":endtry".
|
|
When an exception occurs during execution of the try block, the remaining
|
|
lines in the try block are skipped. The exception is matched against the
|
|
patterns specified as arguments to the ":catch" commands. The catch clause
|
|
after the first matching ":catch" is taken, other catch clauses are not
|
|
executed. The catch clause ends when the next ":catch", ":finally", or
|
|
":endtry" command is reached - whatever is first. Then, the finally clause
|
|
(if present) is executed. When the ":endtry" is reached, the script execution
|
|
continues in the following line as usual.
|
|
When an exception that does not match any of the patterns specified by the
|
|
":catch" commands is thrown in the try block, the exception is not caught by
|
|
that try conditional and none of the catch clauses is executed. Only the
|
|
finally clause, if present, is taken. The exception pends during execution of
|
|
the finally clause. It is resumed at the ":endtry", so that commands after
|
|
the ":endtry" are not executed and the exception might be caught elsewhere,
|
|
see |try-nesting|.
|
|
When during execution of a catch clause another exception is thrown, the
|
|
remaining lines in that catch clause are not executed. The new exception is
|
|
not matched against the patterns in any of the ":catch" commands of the same
|
|
try conditional and none of its catch clauses is taken. If there is, however,
|
|
a finally clause, it is executed, and the exception pends during its
|
|
execution. The commands following the ":endtry" are not executed. The new
|
|
exception might, however, be caught elsewhere, see |try-nesting|.
|
|
When during execution of the finally clause (if present) an exception is
|
|
thrown, the remaining lines in the finally clause are skipped. If the finally
|
|
clause has been taken because of an exception from the try block or one of the
|
|
catch clauses, the original (pending) exception is discarded. The commands
|
|
following the ":endtry" are not executed, and the exception from the finally
|
|
clause is propagated and can be caught elsewhere, see |try-nesting|.
|
|
|
|
The finally clause is also executed, when a ":break" or ":continue" for
|
|
a ":while" loop enclosing the complete try conditional is executed from the
|
|
try block or a catch clause. Or when a ":return" or ":finish" is executed
|
|
from the try block or a catch clause of a try conditional in a function or
|
|
sourced script, respectively. The ":break", ":continue", ":return", or
|
|
":finish" pends during execution of the finally clause and is resumed when the
|
|
":endtry" is reached. It is, however, discarded when an exception is thrown
|
|
from the finally clause.
|
|
When a ":break" or ":continue" for a ":while" loop enclosing the complete
|
|
try conditional or when a ":return" or ":finish" is encountered in the finally
|
|
clause, the rest of the finally clause is skipped, and the ":break",
|
|
":continue", ":return" or ":finish" is executed as usual. If the finally
|
|
clause has been taken because of an exception or an earlier ":break",
|
|
":continue", ":return", or ":finish" from the try block or a catch clause,
|
|
this pending exception or command is discarded.
|
|
|
|
For examples see |throw-catch| and |try-finally|.
|
|
|
|
|
|
NESTING OF TRY CONDITIONALS *try-nesting*
|
|
|
|
Try conditionals can be nested arbitrarily. That is, a complete try
|
|
conditional can be put into the try block, a catch clause, or the finally
|
|
clause of another try conditional. If the inner try conditional does not
|
|
catch an exception thrown in its try block or throws a new exception from one
|
|
of its catch clauses or its finally clause, the outer try conditional is
|
|
checked according to the rules above. If the inner try conditional is in the
|
|
try block of the outer try conditional, its catch clauses are checked, but
|
|
otherwise only the finally clause is executed. It does not matter for
|
|
nesting, whether the inner try conditional is directly contained in the outer
|
|
one, or whether the outer one sources a script or calls a function containing
|
|
the inner try conditional.
|
|
|
|
When none of the active try conditionals catches an exception, just their
|
|
finally clauses are executed. Thereafter, the script processing terminates.
|
|
An error message is displayed in case of an uncaught exception explicitly
|
|
thrown by a ":throw" command. For uncaught error and interrupt exceptions
|
|
implicitly raised by Vim, the error message(s) or interrupt message are shown
|
|
as usual.
|
|
|
|
For examples see |throw-catch|.
|
|
|
|
|
|
EXAMINING EXCEPTION HANDLING CODE *except-examine*
|
|
|
|
Exception handling code can get tricky. If you are in doubt what happens, set
|
|
'verbose' to 13 or use the ":13verbose" command modifier when sourcing your
|
|
script file. Then you see when an exception is thrown, discarded, caught, or
|
|
finished. When using a verbosity level of at least 14, things pending in
|
|
a finally clause are also shown. This information is also given in debug mode
|
|
(see |debug-scripts|).
|
|
|
|
|
|
THROWING AND CATCHING EXCEPTIONS *throw-catch*
|
|
|
|
You can throw any number or string as an exception. Use the |:throw| command
|
|
and pass the value to be thrown as argument: >
|
|
:throw 4711
|
|
:throw "string"
|
|
< *throw-expression*
|
|
You can also specify an expression argument. The expression is then evaluated
|
|
first, and the result is thrown: >
|
|
:throw 4705 + strlen("string")
|
|
:throw strpart("strings", 0, 6)
|
|
|
|
An exception might be thrown during evaluation of the argument of the ":throw"
|
|
command. Unless it is caught there, the expression evaluation is abandoned.
|
|
The ":throw" command then does not throw a new exception.
|
|
Example: >
|
|
|
|
:function! Foo(arg)
|
|
: try
|
|
: throw a:arg
|
|
: catch /foo/
|
|
: endtry
|
|
: return 1
|
|
:endfunction
|
|
:
|
|
:function! Bar()
|
|
: echo "in Bar"
|
|
: return 4710
|
|
:endfunction
|
|
:
|
|
:throw Foo("arrgh") + Bar()
|
|
|
|
This throws "arrgh", and "in Bar" is not displayed since Bar() is not
|
|
executed. >
|
|
:throw Foo("foo") + Bar()
|
|
however displays "in Bar" and throws 4711.
|
|
|
|
Any other command that takes an expression as argument might also be
|
|
abandoned by an (uncaught) exception during the expression evaluation. The
|
|
exception is then propagated to the caller of the command.
|
|
Example: >
|
|
|
|
:if Foo("arrgh")
|
|
: echo "then"
|
|
:else
|
|
: echo "else"
|
|
:endif
|
|
|
|
Here neither of "then" or "else" is displayed.
|
|
|
|
*catch-order*
|
|
Exceptions can be caught by a try conditional with one or more |:catch|
|
|
commands, see |try-conditionals|. The values to be caught by each ":catch"
|
|
command can be specified as a pattern argument. The subsequent catch clause
|
|
gets executed when a matching exception is caught.
|
|
Example: >
|
|
|
|
:function! Foo(value)
|
|
: try
|
|
: throw a:value
|
|
: catch /^\d\+$/
|
|
: echo "Number thrown"
|
|
: catch /.*/
|
|
: echo "String thrown"
|
|
: endtry
|
|
:endfunction
|
|
:
|
|
:call Foo(0x1267)
|
|
:call Foo('string')
|
|
|
|
The first call to Foo() displays "Number thrown", the second "String thrown".
|
|
An exception is matched against the ":catch" commands in the order they are
|
|
specified. Only the first match counts. So you should place the more
|
|
specific ":catch" first. The following order does not make sense: >
|
|
|
|
: catch /.*/
|
|
: echo "String thrown"
|
|
: catch /^\d\+$/
|
|
: echo "Number thrown"
|
|
|
|
The first ":catch" here matches always, so that the second catch clause is
|
|
never taken.
|
|
|
|
*throw-variables*
|
|
If you catch an exception by a general pattern, you may access the exact value
|
|
in the variable |v:exception|: >
|
|
|
|
: catch /^\d\+$/
|
|
: echo "Number thrown. Value is" v:exception
|
|
|
|
You may also be interested where an exception was thrown. This is stored in
|
|
|v:throwpoint|. Note that "v:exception" and "v:throwpoint" are valid for the
|
|
exception most recently caught as long it is not finished.
|
|
Example: >
|
|
|
|
:function! Caught()
|
|
: if v:exception != ""
|
|
: echo 'Caught "' .. v:exception .. '" in ' .. v:throwpoint
|
|
: else
|
|
: echo 'Nothing caught'
|
|
: endif
|
|
:endfunction
|
|
:
|
|
:function! Foo()
|
|
: try
|
|
: try
|
|
: try
|
|
: throw 4711
|
|
: finally
|
|
: call Caught()
|
|
: endtry
|
|
: catch /.*/
|
|
: call Caught()
|
|
: throw "oops"
|
|
: endtry
|
|
: catch /.*/
|
|
: call Caught()
|
|
: finally
|
|
: call Caught()
|
|
: endtry
|
|
:endfunction
|
|
:
|
|
:call Foo()
|
|
|
|
This displays >
|
|
|
|
Nothing caught
|
|
Caught "4711" in function Foo, line 4
|
|
Caught "oops" in function Foo, line 10
|
|
Nothing caught
|
|
|
|
A practical example: The following command ":LineNumber" displays the line
|
|
number in the script or function where it has been used: >
|
|
|
|
:function! LineNumber()
|
|
: return substitute(v:throwpoint, '.*\D\(\d\+\).*', '\1', "")
|
|
:endfunction
|
|
:command! LineNumber try | throw "" | catch | echo LineNumber() | endtry
|
|
<
|
|
*try-nested*
|
|
An exception that is not caught by a try conditional can be caught by
|
|
a surrounding try conditional: >
|
|
|
|
:try
|
|
: try
|
|
: throw "foo"
|
|
: catch /foobar/
|
|
: echo "foobar"
|
|
: finally
|
|
: echo "inner finally"
|
|
: endtry
|
|
:catch /foo/
|
|
: echo "foo"
|
|
:endtry
|
|
|
|
The inner try conditional does not catch the exception, just its finally
|
|
clause is executed. The exception is then caught by the outer try
|
|
conditional. The example displays "inner finally" and then "foo".
|
|
|
|
*throw-from-catch*
|
|
You can catch an exception and throw a new one to be caught elsewhere from the
|
|
catch clause: >
|
|
|
|
:function! Foo()
|
|
: throw "foo"
|
|
:endfunction
|
|
:
|
|
:function! Bar()
|
|
: try
|
|
: call Foo()
|
|
: catch /foo/
|
|
: echo "Caught foo, throw bar"
|
|
: throw "bar"
|
|
: endtry
|
|
:endfunction
|
|
:
|
|
:try
|
|
: call Bar()
|
|
:catch /.*/
|
|
: echo "Caught" v:exception
|
|
:endtry
|
|
|
|
This displays "Caught foo, throw bar" and then "Caught bar".
|
|
|
|
*rethrow*
|
|
There is no real rethrow in the Vim script language, but you may throw
|
|
"v:exception" instead: >
|
|
|
|
:function! Bar()
|
|
: try
|
|
: call Foo()
|
|
: catch /.*/
|
|
: echo "Rethrow" v:exception
|
|
: throw v:exception
|
|
: endtry
|
|
:endfunction
|
|
< *try-echoerr*
|
|
Note that this method cannot be used to "rethrow" Vim error or interrupt
|
|
exceptions, because it is not possible to fake Vim internal exceptions.
|
|
Trying so causes an error exception. You should throw your own exception
|
|
denoting the situation. If you want to cause a Vim error exception containing
|
|
the original error exception value, you can use the |:echoerr| command: >
|
|
|
|
:try
|
|
: try
|
|
: asdf
|
|
: catch /.*/
|
|
: echoerr v:exception
|
|
: endtry
|
|
:catch /.*/
|
|
: echo v:exception
|
|
:endtry
|
|
|
|
This code displays
|
|
|
|
Vim(echoerr):Vim:E492: Not an editor command: asdf ~
|
|
|
|
|
|
CLEANUP CODE *try-finally*
|
|
|
|
Scripts often change global settings and restore them at their end. If the
|
|
user however interrupts the script by pressing CTRL-C, the settings remain in
|
|
an inconsistent state. The same may happen to you in the development phase of
|
|
a script when an error occurs or you explicitly throw an exception without
|
|
catching it. You can solve these problems by using a try conditional with
|
|
a finally clause for restoring the settings. Its execution is guaranteed on
|
|
normal control flow, on error, on an explicit ":throw", and on interrupt.
|
|
(Note that errors and interrupts from inside the try conditional are converted
|
|
to exceptions. When not caught, they terminate the script after the finally
|
|
clause has been executed.)
|
|
Example: >
|
|
|
|
:try
|
|
: let s:saved_ts = &ts
|
|
: set ts=17
|
|
:
|
|
: " Do the hard work here.
|
|
:
|
|
:finally
|
|
: let &ts = s:saved_ts
|
|
: unlet s:saved_ts
|
|
:endtry
|
|
|
|
This method should be used locally whenever a function or part of a script
|
|
changes global settings which need to be restored on failure or normal exit of
|
|
that function or script part.
|
|
|
|
*break-finally*
|
|
Cleanup code works also when the try block or a catch clause is left by
|
|
a ":continue", ":break", ":return", or ":finish".
|
|
Example: >
|
|
|
|
:let first = 1
|
|
:while 1
|
|
: try
|
|
: if first
|
|
: echo "first"
|
|
: let first = 0
|
|
: continue
|
|
: else
|
|
: throw "second"
|
|
: endif
|
|
: catch /.*/
|
|
: echo v:exception
|
|
: break
|
|
: finally
|
|
: echo "cleanup"
|
|
: endtry
|
|
: echo "still in while"
|
|
:endwhile
|
|
:echo "end"
|
|
|
|
This displays "first", "cleanup", "second", "cleanup", and "end". >
|
|
|
|
:function! Foo()
|
|
: try
|
|
: return 4711
|
|
: finally
|
|
: echo "cleanup\n"
|
|
: endtry
|
|
: echo "Foo still active"
|
|
:endfunction
|
|
:
|
|
:echo Foo() "returned by Foo"
|
|
|
|
This displays "cleanup" and "4711 returned by Foo". You don't need to add an
|
|
extra ":return" in the finally clause. (Above all, this would override the
|
|
return value.)
|
|
|
|
*except-from-finally*
|
|
Using either of ":continue", ":break", ":return", ":finish", or ":throw" in
|
|
a finally clause is possible, but not recommended since it abandons the
|
|
cleanup actions for the try conditional. But, of course, interrupt and error
|
|
exceptions might get raised from a finally clause.
|
|
Example where an error in the finally clause stops an interrupt from
|
|
working correctly: >
|
|
|
|
:try
|
|
: try
|
|
: echo "Press CTRL-C for interrupt"
|
|
: while 1
|
|
: endwhile
|
|
: finally
|
|
: unlet novar
|
|
: endtry
|
|
:catch /novar/
|
|
:endtry
|
|
:echo "Script still running"
|
|
:sleep 1
|
|
|
|
If you need to put commands that could fail into a finally clause, you should
|
|
think about catching or ignoring the errors in these commands, see
|
|
|catch-errors| and |ignore-errors|.
|
|
|
|
|
|
CATCHING ERRORS *catch-errors*
|
|
|
|
If you want to catch specific errors, you just have to put the code to be
|
|
watched in a try block and add a catch clause for the error message. The
|
|
presence of the try conditional causes all errors to be converted to an
|
|
exception. No message is displayed and |v:errmsg| is not set then. To find
|
|
the right pattern for the ":catch" command, you have to know how the format of
|
|
the error exception is.
|
|
Error exceptions have the following format: >
|
|
|
|
Vim({cmdname}):{errmsg}
|
|
or >
|
|
Vim:{errmsg}
|
|
|
|
{cmdname} is the name of the command that failed; the second form is used when
|
|
the command name is not known. {errmsg} is the error message usually produced
|
|
when the error occurs outside try conditionals. It always begins with
|
|
a capital "E", followed by a two or three-digit error number, a colon, and
|
|
a space.
|
|
|
|
Examples:
|
|
|
|
The command >
|
|
:unlet novar
|
|
normally produces the error message >
|
|
E108: No such variable: "novar"
|
|
which is converted inside try conditionals to an exception >
|
|
Vim(unlet):E108: No such variable: "novar"
|
|
|
|
The command >
|
|
:dwim
|
|
normally produces the error message >
|
|
E492: Not an editor command: dwim
|
|
which is converted inside try conditionals to an exception >
|
|
Vim:E492: Not an editor command: dwim
|
|
|
|
You can catch all ":unlet" errors by a >
|
|
:catch /^Vim(unlet):/
|
|
or all errors for misspelled command names by a >
|
|
:catch /^Vim:E492:/
|
|
|
|
Some error messages may be produced by different commands: >
|
|
:function nofunc
|
|
and >
|
|
:delfunction nofunc
|
|
both produce the error message >
|
|
E128: Function name must start with a capital: nofunc
|
|
which is converted inside try conditionals to an exception >
|
|
Vim(function):E128: Function name must start with a capital: nofunc
|
|
or >
|
|
Vim(delfunction):E128: Function name must start with a capital: nofunc
|
|
respectively. You can catch the error by its number independently on the
|
|
command that caused it if you use the following pattern: >
|
|
:catch /^Vim(\a\+):E128:/
|
|
|
|
Some commands like >
|
|
:let x = novar
|
|
produce multiple error messages, here: >
|
|
E121: Undefined variable: novar
|
|
E15: Invalid expression: novar
|
|
Only the first is used for the exception value, since it is the most specific
|
|
one (see |except-several-errors|). So you can catch it by >
|
|
:catch /^Vim(\a\+):E121:/
|
|
|
|
You can catch all errors related to the name "nofunc" by >
|
|
:catch /\<nofunc\>/
|
|
|
|
You can catch all Vim errors in the ":write" and ":read" commands by >
|
|
:catch /^Vim(\(write\|read\)):E\d\+:/
|
|
|
|
You can catch all Vim errors by the pattern >
|
|
:catch /^Vim\((\a\+)\)\=:E\d\+:/
|
|
<
|
|
*catch-text*
|
|
NOTE: You should never catch the error message text itself: >
|
|
:catch /No such variable/
|
|
only works in the English locale, but not when the user has selected
|
|
a different language by the |:language| command. It is however helpful to
|
|
cite the message text in a comment: >
|
|
:catch /^Vim(\a\+):E108:/ " No such variable
|
|
|
|
|
|
IGNORING ERRORS *ignore-errors*
|
|
|
|
You can ignore errors in a specific Vim command by catching them locally: >
|
|
|
|
:try
|
|
: write
|
|
:catch
|
|
:endtry
|
|
|
|
But you are strongly recommended NOT to use this simple form, since it could
|
|
catch more than you want. With the ":write" command, some autocommands could
|
|
be executed and cause errors not related to writing, for instance: >
|
|
|
|
:au BufWritePre * unlet novar
|
|
|
|
There could even be such errors you are not responsible for as a script
|
|
writer: a user of your script might have defined such autocommands. You would
|
|
then hide the error from the user.
|
|
It is much better to use >
|
|
|
|
:try
|
|
: write
|
|
:catch /^Vim(write):/
|
|
:endtry
|
|
|
|
which only catches real write errors. So catch only what you'd like to ignore
|
|
intentionally.
|
|
|
|
For a single command that does not cause execution of autocommands, you could
|
|
even suppress the conversion of errors to exceptions by the ":silent!"
|
|
command: >
|
|
:silent! nunmap k
|
|
This works also when a try conditional is active.
|
|
|
|
|
|
CATCHING INTERRUPTS *catch-interrupt*
|
|
|
|
When there are active try conditionals, an interrupt (CTRL-C) is converted to
|
|
the exception "Vim:Interrupt". You can catch it like every exception. The
|
|
script is not terminated, then.
|
|
Example: >
|
|
|
|
:function! TASK1()
|
|
: sleep 10
|
|
:endfunction
|
|
|
|
:function! TASK2()
|
|
: sleep 20
|
|
:endfunction
|
|
|
|
:while 1
|
|
: let command = input("Type a command: ")
|
|
: try
|
|
: if command == ""
|
|
: continue
|
|
: elseif command == "END"
|
|
: break
|
|
: elseif command == "TASK1"
|
|
: call TASK1()
|
|
: elseif command == "TASK2"
|
|
: call TASK2()
|
|
: else
|
|
: echo "\nIllegal command:" command
|
|
: continue
|
|
: endif
|
|
: catch /^Vim:Interrupt$/
|
|
: echo "\nCommand interrupted"
|
|
: " Caught the interrupt. Continue with next prompt.
|
|
: endtry
|
|
:endwhile
|
|
|
|
You can interrupt a task here by pressing CTRL-C; the script then asks for
|
|
a new command. If you press CTRL-C at the prompt, the script is terminated.
|
|
|
|
For testing what happens when CTRL-C would be pressed on a specific line in
|
|
your script, use the debug mode and execute the |>quit| or |>interrupt|
|
|
command on that line. See |debug-scripts|.
|
|
|
|
|
|
CATCHING ALL *catch-all*
|
|
|
|
The commands >
|
|
|
|
:catch /.*/
|
|
:catch //
|
|
:catch
|
|
|
|
catch everything, error exceptions, interrupt exceptions and exceptions
|
|
explicitly thrown by the |:throw| command. This is useful at the top level of
|
|
a script in order to catch unexpected things.
|
|
Example: >
|
|
|
|
:try
|
|
:
|
|
: " do the hard work here
|
|
:
|
|
:catch /MyException/
|
|
:
|
|
: " handle known problem
|
|
:
|
|
:catch /^Vim:Interrupt$/
|
|
: echo "Script interrupted"
|
|
:catch /.*/
|
|
: echo "Internal error (" .. v:exception .. ")"
|
|
: echo " - occurred at " .. v:throwpoint
|
|
:endtry
|
|
:" end of script
|
|
|
|
Note: Catching all might catch more things than you want. Thus, you are
|
|
strongly encouraged to catch only for problems that you can really handle by
|
|
specifying a pattern argument to the ":catch".
|
|
Example: Catching all could make it nearly impossible to interrupt a script
|
|
by pressing CTRL-C: >
|
|
|
|
:while 1
|
|
: try
|
|
: sleep 1
|
|
: catch
|
|
: endtry
|
|
:endwhile
|
|
|
|
|
|
EXCEPTIONS AND AUTOCOMMANDS *except-autocmd*
|
|
|
|
Exceptions may be used during execution of autocommands. Example: >
|
|
|
|
:autocmd User x try
|
|
:autocmd User x throw "Oops!"
|
|
:autocmd User x catch
|
|
:autocmd User x echo v:exception
|
|
:autocmd User x endtry
|
|
:autocmd User x throw "Arrgh!"
|
|
:autocmd User x echo "Should not be displayed"
|
|
:
|
|
:try
|
|
: doautocmd User x
|
|
:catch
|
|
: echo v:exception
|
|
:endtry
|
|
|
|
This displays "Oops!" and "Arrgh!".
|
|
|
|
*except-autocmd-Pre*
|
|
For some commands, autocommands get executed before the main action of the
|
|
command takes place. If an exception is thrown and not caught in the sequence
|
|
of autocommands, the sequence and the command that caused its execution are
|
|
abandoned and the exception is propagated to the caller of the command.
|
|
Example: >
|
|
|
|
:autocmd BufWritePre * throw "FAIL"
|
|
:autocmd BufWritePre * echo "Should not be displayed"
|
|
:
|
|
:try
|
|
: write
|
|
:catch
|
|
: echo "Caught:" v:exception "from" v:throwpoint
|
|
:endtry
|
|
|
|
Here, the ":write" command does not write the file currently being edited (as
|
|
you can see by checking 'modified'), since the exception from the BufWritePre
|
|
autocommand abandons the ":write". The exception is then caught and the
|
|
script displays: >
|
|
|
|
Caught: FAIL from BufWrite Auto commands for "*"
|
|
<
|
|
*except-autocmd-Post*
|
|
For some commands, autocommands get executed after the main action of the
|
|
command has taken place. If this main action fails and the command is inside
|
|
an active try conditional, the autocommands are skipped and an error exception
|
|
is thrown that can be caught by the caller of the command.
|
|
Example: >
|
|
|
|
:autocmd BufWritePost * echo "File successfully written!"
|
|
:
|
|
:try
|
|
: write /i/m/p/o/s/s/i/b/l/e
|
|
:catch
|
|
: echo v:exception
|
|
:endtry
|
|
|
|
This just displays: >
|
|
|
|
Vim(write):E212: Can't open file for writing (/i/m/p/o/s/s/i/b/l/e)
|
|
|
|
If you really need to execute the autocommands even when the main action
|
|
fails, trigger the event from the catch clause.
|
|
Example: >
|
|
|
|
:autocmd BufWritePre * set noreadonly
|
|
:autocmd BufWritePost * set readonly
|
|
:
|
|
:try
|
|
: write /i/m/p/o/s/s/i/b/l/e
|
|
:catch
|
|
: doautocmd BufWritePost /i/m/p/o/s/s/i/b/l/e
|
|
:endtry
|
|
<
|
|
You can also use ":silent!": >
|
|
|
|
:let x = "ok"
|
|
:let v:errmsg = ""
|
|
:autocmd BufWritePost * if v:errmsg != ""
|
|
:autocmd BufWritePost * let x = "after fail"
|
|
:autocmd BufWritePost * endif
|
|
:try
|
|
: silent! write /i/m/p/o/s/s/i/b/l/e
|
|
:catch
|
|
:endtry
|
|
:echo x
|
|
|
|
This displays "after fail".
|
|
|
|
If the main action of the command does not fail, exceptions from the
|
|
autocommands will be catchable by the caller of the command: >
|
|
|
|
:autocmd BufWritePost * throw ":-("
|
|
:autocmd BufWritePost * echo "Should not be displayed"
|
|
:
|
|
:try
|
|
: write
|
|
:catch
|
|
: echo v:exception
|
|
:endtry
|
|
<
|
|
*except-autocmd-Cmd*
|
|
For some commands, the normal action can be replaced by a sequence of
|
|
autocommands. Exceptions from that sequence will be catchable by the caller
|
|
of the command.
|
|
Example: For the ":write" command, the caller cannot know whether the file
|
|
had actually been written when the exception occurred. You need to tell it in
|
|
some way. >
|
|
|
|
:if !exists("cnt")
|
|
: let cnt = 0
|
|
:
|
|
: autocmd BufWriteCmd * if &modified
|
|
: autocmd BufWriteCmd * let cnt = cnt + 1
|
|
: autocmd BufWriteCmd * if cnt % 3 == 2
|
|
: autocmd BufWriteCmd * throw "BufWriteCmdError"
|
|
: autocmd BufWriteCmd * endif
|
|
: autocmd BufWriteCmd * write | set nomodified
|
|
: autocmd BufWriteCmd * if cnt % 3 == 0
|
|
: autocmd BufWriteCmd * throw "BufWriteCmdError"
|
|
: autocmd BufWriteCmd * endif
|
|
: autocmd BufWriteCmd * echo "File successfully written!"
|
|
: autocmd BufWriteCmd * endif
|
|
:endif
|
|
:
|
|
:try
|
|
: write
|
|
:catch /^BufWriteCmdError$/
|
|
: if &modified
|
|
: echo "Error on writing (file contents not changed)"
|
|
: else
|
|
: echo "Error after writing"
|
|
: endif
|
|
:catch /^Vim(write):/
|
|
: echo "Error on writing"
|
|
:endtry
|
|
|
|
When this script is sourced several times after making changes, it displays
|
|
first >
|
|
File successfully written!
|
|
then >
|
|
Error on writing (file contents not changed)
|
|
then >
|
|
Error after writing
|
|
etc.
|
|
|
|
*except-autocmd-ill*
|
|
You cannot spread a try conditional over autocommands for different events.
|
|
The following code is ill-formed: >
|
|
|
|
:autocmd BufWritePre * try
|
|
:
|
|
:autocmd BufWritePost * catch
|
|
:autocmd BufWritePost * echo v:exception
|
|
:autocmd BufWritePost * endtry
|
|
:
|
|
:write
|
|
|
|
|
|
EXCEPTION HIERARCHIES AND PARAMETERIZED EXCEPTIONS *except-hier-param*
|
|
|
|
Some programming languages allow to use hierarchies of exception classes or to
|
|
pass additional information with the object of an exception class. You can do
|
|
similar things in Vim.
|
|
In order to throw an exception from a hierarchy, just throw the complete
|
|
class name with the components separated by a colon, for instance throw the
|
|
string "EXCEPT:MATHERR:OVERFLOW" for an overflow in a mathematical library.
|
|
When you want to pass additional information with your exception class, add
|
|
it in parentheses, for instance throw the string "EXCEPT:IO:WRITEERR(myfile)"
|
|
for an error when writing "myfile".
|
|
With the appropriate patterns in the ":catch" command, you can catch for
|
|
base classes or derived classes of your hierarchy. Additional information in
|
|
parentheses can be cut out from |v:exception| with the ":substitute" command.
|
|
Example: >
|
|
|
|
:function! CheckRange(a, func)
|
|
: if a:a < 0
|
|
: throw "EXCEPT:MATHERR:RANGE(" .. a:func .. ")"
|
|
: endif
|
|
:endfunction
|
|
:
|
|
:function! Add(a, b)
|
|
: call CheckRange(a:a, "Add")
|
|
: call CheckRange(a:b, "Add")
|
|
: let c = a:a + a:b
|
|
: if c < 0
|
|
: throw "EXCEPT:MATHERR:OVERFLOW"
|
|
: endif
|
|
: return c
|
|
:endfunction
|
|
:
|
|
:function! Div(a, b)
|
|
: call CheckRange(a:a, "Div")
|
|
: call CheckRange(a:b, "Div")
|
|
: if (a:b == 0)
|
|
: throw "EXCEPT:MATHERR:ZERODIV"
|
|
: endif
|
|
: return a:a / a:b
|
|
:endfunction
|
|
:
|
|
:function! Write(file)
|
|
: try
|
|
: execute "write" fnameescape(a:file)
|
|
: catch /^Vim(write):/
|
|
: throw "EXCEPT:IO(" .. getcwd() .. ", " .. a:file .. "):WRITEERR"
|
|
: endtry
|
|
:endfunction
|
|
:
|
|
:try
|
|
:
|
|
: " something with arithmetic and I/O
|
|
:
|
|
:catch /^EXCEPT:MATHERR:RANGE/
|
|
: let function = substitute(v:exception, '.*(\(\a\+\)).*', '\1', "")
|
|
: echo "Range error in" function
|
|
:
|
|
:catch /^EXCEPT:MATHERR/ " catches OVERFLOW and ZERODIV
|
|
: echo "Math error"
|
|
:
|
|
:catch /^EXCEPT:IO/
|
|
: let dir = substitute(v:exception, '.*(\(.\+\),\s*.\+).*', '\1', "")
|
|
: let file = substitute(v:exception, '.*(.\+,\s*\(.\+\)).*', '\1', "")
|
|
: if file !~ '^/'
|
|
: let file = dir .. "/" .. file
|
|
: endif
|
|
: echo 'I/O error for "' .. file .. '"'
|
|
:
|
|
:catch /^EXCEPT/
|
|
: echo "Unspecified error"
|
|
:
|
|
:endtry
|
|
|
|
The exceptions raised by Vim itself (on error or when pressing CTRL-C) use
|
|
a flat hierarchy: they are all in the "Vim" class. You cannot throw yourself
|
|
exceptions with the "Vim" prefix; they are reserved for Vim.
|
|
Vim error exceptions are parameterized with the name of the command that
|
|
failed, if known. See |catch-errors|.
|
|
|
|
|
|
PECULIARITIES
|
|
*except-compat*
|
|
The exception handling concept requires that the command sequence causing the
|
|
exception is aborted immediately and control is transferred to finally clauses
|
|
and/or a catch clause.
|
|
|
|
In the Vim script language there are cases where scripts and functions
|
|
continue after an error: in functions without the "abort" flag or in a command
|
|
after ":silent!", control flow goes to the following line, and outside
|
|
functions, control flow goes to the line following the outermost ":endwhile"
|
|
or ":endif". On the other hand, errors should be catchable as exceptions
|
|
(thus, requiring the immediate abortion).
|
|
|
|
This problem has been solved by converting errors to exceptions and using
|
|
immediate abortion (if not suppressed by ":silent!") only when a try
|
|
conditional is active. This is no restriction since an (error) exception can
|
|
be caught only from an active try conditional. If you want an immediate
|
|
termination without catching the error, just use a try conditional without
|
|
catch clause. (You can cause cleanup code being executed before termination
|
|
by specifying a finally clause.)
|
|
|
|
When no try conditional is active, the usual abortion and continuation
|
|
behavior is used instead of immediate abortion. This ensures compatibility of
|
|
scripts written for Vim 6.1 and earlier.
|
|
|
|
However, when sourcing an existing script that does not use exception handling
|
|
commands (or when calling one of its functions) from inside an active try
|
|
conditional of a new script, you might change the control flow of the existing
|
|
script on error. You get the immediate abortion on error and can catch the
|
|
error in the new script. If however the sourced script suppresses error
|
|
messages by using the ":silent!" command (checking for errors by testing
|
|
|v:errmsg| if appropriate), its execution path is not changed. The error is
|
|
not converted to an exception. (See |:silent|.) So the only remaining cause
|
|
where this happens is for scripts that don't care about errors and produce
|
|
error messages. You probably won't want to use such code from your new
|
|
scripts.
|
|
|
|
*except-syntax-err*
|
|
Syntax errors in the exception handling commands are never caught by any of
|
|
the ":catch" commands of the try conditional they belong to. Its finally
|
|
clauses, however, is executed.
|
|
Example: >
|
|
|
|
:try
|
|
: try
|
|
: throw 4711
|
|
: catch /\(/
|
|
: echo "in catch with syntax error"
|
|
: catch
|
|
: echo "inner catch-all"
|
|
: finally
|
|
: echo "inner finally"
|
|
: endtry
|
|
:catch
|
|
: echo 'outer catch-all caught "' .. v:exception .. '"'
|
|
: finally
|
|
: echo "outer finally"
|
|
:endtry
|
|
|
|
This displays: >
|
|
inner finally
|
|
outer catch-all caught "Vim(catch):E54: Unmatched \("
|
|
outer finally
|
|
The original exception is discarded and an error exception is raised, instead.
|
|
|
|
*except-single-line*
|
|
The ":try", ":catch", ":finally", and ":endtry" commands can be put on
|
|
a single line, but then syntax errors may make it difficult to recognize the
|
|
"catch" line, thus you better avoid this.
|
|
Example: >
|
|
:try | unlet! foo # | catch | endtry
|
|
raises an error exception for the trailing characters after the ":unlet!"
|
|
argument, but does not see the ":catch" and ":endtry" commands, so that the
|
|
error exception is discarded and the "E488: Trailing characters" message gets
|
|
displayed.
|
|
|
|
*except-several-errors*
|
|
When several errors appear in a single command, the first error message is
|
|
usually the most specific one and therefore converted to the error exception.
|
|
Example: >
|
|
echo novar
|
|
causes >
|
|
E121: Undefined variable: novar
|
|
E15: Invalid expression: novar
|
|
The value of the error exception inside try conditionals is: >
|
|
Vim(echo):E121: Undefined variable: novar
|
|
< *except-syntax-error*
|
|
But when a syntax error is detected after a normal error in the same command,
|
|
the syntax error is used for the exception being thrown.
|
|
Example: >
|
|
unlet novar #
|
|
causes >
|
|
E108: No such variable: "novar"
|
|
E488: Trailing characters
|
|
The value of the error exception inside try conditionals is: >
|
|
Vim(unlet):E488: Trailing characters
|
|
This is done because the syntax error might change the execution path in a way
|
|
not intended by the user. Example: >
|
|
try
|
|
try | unlet novar # | catch | echo v:exception | endtry
|
|
catch /.*/
|
|
echo "outer catch:" v:exception
|
|
endtry
|
|
This displays "outer catch: Vim(unlet):E488: Trailing characters", and then
|
|
a "E600: Missing :endtry" error message is given, see |except-single-line|.
|
|
|
|
==============================================================================
|
|
9. Examples *eval-examples*
|
|
|
|
Printing in Binary ~
|
|
>
|
|
:" The function Nr2Bin() returns the binary string representation of a number.
|
|
:func Nr2Bin(nr)
|
|
: let n = a:nr
|
|
: let r = ""
|
|
: while n
|
|
: let r = '01'[n % 2] .. r
|
|
: let n = n / 2
|
|
: endwhile
|
|
: return r
|
|
:endfunc
|
|
|
|
:" The function String2Bin() converts each character in a string to a
|
|
:" binary string, separated with dashes.
|
|
:func String2Bin(str)
|
|
: let out = ''
|
|
: for ix in range(strlen(a:str))
|
|
: let out = out .. '-' .. Nr2Bin(char2nr(a:str[ix]))
|
|
: endfor
|
|
: return out[1:]
|
|
:endfunc
|
|
|
|
Example of its use: >
|
|
:echo Nr2Bin(32)
|
|
result: "100000" >
|
|
:echo String2Bin("32")
|
|
result: "110011-110010"
|
|
|
|
|
|
Sorting lines ~
|
|
|
|
This example sorts lines with a specific compare function. >
|
|
|
|
:func SortBuffer()
|
|
: let lines = getline(1, '$')
|
|
: call sort(lines, function("Strcmp"))
|
|
: call setline(1, lines)
|
|
:endfunction
|
|
|
|
As a one-liner: >
|
|
:call setline(1, sort(getline(1, '$'), function("Strcmp")))
|
|
<
|
|
|
|
scanf() replacement ~
|
|
*sscanf*
|
|
There is no sscanf() function in Vim. If you need to extract parts from a
|
|
line, you can use matchstr() and substitute() to do it. This example shows
|
|
how to get the file name, line number and column number out of a line like
|
|
"foobar.txt, 123, 45". >
|
|
:" Set up the match bit
|
|
:let mx='\(\f\+\),\s*\(\d\+\),\s*\(\d\+\)'
|
|
:"get the part matching the whole expression
|
|
:let l = matchstr(line, mx)
|
|
:"get each item out of the match
|
|
:let file = substitute(l, mx, '\1', '')
|
|
:let lnum = substitute(l, mx, '\2', '')
|
|
:let col = substitute(l, mx, '\3', '')
|
|
|
|
The input is in the variable "line", the results in the variables "file",
|
|
"lnum" and "col". (idea from Michael Geddes)
|
|
|
|
|
|
getting the scriptnames in a Dictionary ~
|
|
*scriptnames-dictionary*
|
|
The `:scriptnames` command can be used to get a list of all script files that
|
|
have been sourced. There is also the `getscriptinfo()` function, but the
|
|
information returned is not exactly the same. In case you need to manipulate
|
|
the output of `scriptnames` this code can be used: >
|
|
" Get the output of ":scriptnames" in the scriptnames_output variable.
|
|
let scriptnames_output = ''
|
|
redir => scriptnames_output
|
|
silent scriptnames
|
|
redir END
|
|
|
|
" Split the output into lines and parse each line. Add an entry to the
|
|
" "scripts" dictionary.
|
|
let scripts = {}
|
|
for line in split(scriptnames_output, "\n")
|
|
" Only do non-blank lines.
|
|
if line =~ '\S'
|
|
" Get the first number in the line.
|
|
let nr = matchstr(line, '\d\+')
|
|
" Get the file name, remove the script number " 123: ".
|
|
let name = substitute(line, '.\+:\s*', '', '')
|
|
" Add an item to the Dictionary
|
|
let scripts[nr] = name
|
|
endif
|
|
endfor
|
|
unlet scriptnames_output
|
|
|
|
==============================================================================
|
|
The sandbox *eval-sandbox* *sandbox*
|
|
|
|
The 'foldexpr', 'formatexpr', 'includeexpr', 'indentexpr', 'statusline' and
|
|
'foldtext' options may be evaluated in a sandbox. This means that you are
|
|
protected from these expressions having nasty side effects. This gives some
|
|
safety for when these options are set from a modeline. It is also used when
|
|
the command from a tags file is executed and for CTRL-R = in the command line.
|
|
The sandbox is also used for the |:sandbox| command.
|
|
|
|
*E48*
|
|
These items are not allowed in the sandbox:
|
|
- changing the buffer text
|
|
- defining or changing mapping, autocommands, user commands
|
|
- setting certain options (see |option-summary|)
|
|
- setting certain v: variables (see |v:var|) *E794*
|
|
- executing a shell command
|
|
- reading or writing a file
|
|
- jumping to another buffer or editing a file
|
|
- executing Python, Perl, etc. commands
|
|
This is not guaranteed 100% secure, but it should block most attacks.
|
|
|
|
*:san* *:sandbox*
|
|
:san[dbox] {cmd} Execute {cmd} in the sandbox. Useful to evaluate an
|
|
option that may have been set from a modeline, e.g.
|
|
'foldexpr'.
|
|
|
|
*sandbox-option*
|
|
A few options contain an expression. When this expression is evaluated it may
|
|
have to be done in the sandbox to avoid a security risk. But the sandbox is
|
|
restrictive, thus this only happens when the option was set from an insecure
|
|
location. Insecure in this context are:
|
|
- sourcing a .nvimrc or .exrc in the current directory
|
|
- while executing in the sandbox
|
|
- value coming from a modeline
|
|
- executing a function that was defined in the sandbox
|
|
|
|
Note that when in the sandbox and saving an option value and restoring it, the
|
|
option will still be marked as it was set in the sandbox.
|
|
|
|
==============================================================================
|
|
Textlock *textlock*
|
|
|
|
In a few situations it is not allowed to change the text in the buffer, jump
|
|
to another window and some other things that might confuse or break what Vim
|
|
is currently doing. This mostly applies to things that happen when Vim is
|
|
actually doing something else. For example, a TextYankPost autocommand cannot
|
|
edit the text it is yanking.
|
|
|
|
This is not allowed when the textlock is active:
|
|
- changing the buffer text
|
|
- jumping to another buffer or window
|
|
- editing another file
|
|
- closing a window or quitting Vim
|
|
- etc.
|
|
|
|
==============================================================================
|
|
Vim script library *vim-script-library*
|
|
|
|
Vim comes bundled with a Vim script library, that can be used by runtime,
|
|
script authors. Currently, it only includes very few functions, but it may
|
|
grow over time.
|
|
|
|
*dist#vim*
|
|
The functions make use of the autoloaded prefix "dist#vim".
|
|
|
|
The following functions are available:
|
|
|
|
dist#vim#IsSafeExecutable(filetype, executable) ~
|
|
|
|
This function takes a filetype and an executable and checks whether it is safe
|
|
to execute the given executable. For security reasons users may not want to
|
|
have Vim execute random executables or may have forbidden to do so for
|
|
specific filetypes by setting the "<filetype>_exec" variable (|plugin_exec|).
|
|
|
|
It returns |TRUE| or |FALSE| to indicate whether the plugin should run the given
|
|
executable. It takes the following arguments:
|
|
|
|
argument type ~
|
|
|
|
filetype string
|
|
executable string
|
|
|
|
==============================================================================
|
|
Command-line expressions highlighting *expr-highlight*
|
|
|
|
Expressions entered by the user in |i_CTRL-R_=|, |c_CTRL-\_e|, |quote=| are
|
|
highlighted by the built-in expressions parser. It uses highlight groups
|
|
described in the table below, which may be overridden by colorschemes.
|
|
*hl-NvimInvalid*
|
|
Besides the "Nvim"-prefixed highlight groups described below, there are
|
|
"NvimInvalid"-prefixed highlight groups which have the same meaning but
|
|
indicate that the token contains an error or that an error occurred just
|
|
before it. They have mostly the same hierarchy, except that (by default) in
|
|
place of any non-Nvim-prefixed group NvimInvalid linking to `Error` is used
|
|
and some other intermediate groups are present.
|
|
|
|
Group Default link Colored expression ~
|
|
*hl-NvimInternalError* None, red/red Parser bug
|
|
|
|
*hl-NvimAssignment* Operator Generic assignment
|
|
*hl-NvimPlainAssignment* NvimAssignment `=` in |:let|
|
|
*hl-NvimAugmentedAssignment* NvimAssignment Generic, `+=`/`-=`/`.=`
|
|
*hl-NvimAssignmentWithAddition* NvimAugmentedAssignment `+=` in |:let+=|
|
|
*hl-NvimAssignmentWithSubtraction* NvimAugmentedAssignment `-=` in |:let-=|
|
|
*hl-NvimAssignmentWithConcatenation* NvimAugmentedAssignment `.=` in |:let.=|
|
|
|
|
*hl-NvimOperator* Operator Generic operator
|
|
|
|
*hl-NvimUnaryOperator* NvimOperator Generic unary op
|
|
*hl-NvimUnaryPlus* NvimUnaryOperator |expr-unary-+|
|
|
*hl-NvimUnaryMinus* NvimUnaryOperator |expr-unary--|
|
|
*hl-NvimNot* NvimUnaryOperator |expr-!|
|
|
|
|
*hl-NvimBinaryOperator* NvimOperator Generic binary op
|
|
*hl-NvimComparison* NvimBinaryOperator Any |expr4| operator
|
|
*hl-NvimComparisonModifier* NvimComparison `#`/`?` near |expr4| op
|
|
*hl-NvimBinaryPlus* NvimBinaryOperator |expr-+|
|
|
*hl-NvimBinaryMinus* NvimBinaryOperator |expr--|
|
|
*hl-NvimConcat* NvimBinaryOperator |expr-.|
|
|
*hl-NvimConcatOrSubscript* NvimConcat |expr-.| or |expr-entry|
|
|
*hl-NvimOr* NvimBinaryOperator |expr-barbar|
|
|
*hl-NvimAnd* NvimBinaryOperator |expr-&&|
|
|
*hl-NvimMultiplication* NvimBinaryOperator |expr-star|
|
|
*hl-NvimDivision* NvimBinaryOperator |expr-/|
|
|
*hl-NvimMod* NvimBinaryOperator |expr-%|
|
|
|
|
*hl-NvimTernary* NvimOperator `?` in |expr1|
|
|
*hl-NvimTernaryColon* NvimTernary `:` in |expr1|
|
|
|
|
*hl-NvimParenthesis* Delimiter Generic bracket
|
|
*hl-NvimLambda* NvimParenthesis `{`/`}` in |lambda|
|
|
*hl-NvimNestingParenthesis* NvimParenthesis `(`/`)` in |expr-nesting|
|
|
*hl-NvimCallingParenthesis* NvimParenthesis `(`/`)` in |expr-function|
|
|
|
|
*hl-NvimSubscript* NvimParenthesis Generic subscript
|
|
*hl-NvimSubscriptBracket* NvimSubscript `[`/`]` in |expr-[]|
|
|
*hl-NvimSubscriptColon* NvimSubscript `:` in |expr-[:]|
|
|
*hl-NvimCurly* NvimSubscript `{`/`}` in
|
|
|curly-braces-names|
|
|
|
|
*hl-NvimContainer* NvimParenthesis Generic container
|
|
*hl-NvimDict* NvimContainer `{`/`}` in |dict| literal
|
|
*hl-NvimList* NvimContainer `[`/`]` in |list| literal
|
|
|
|
*hl-NvimIdentifier* Identifier Generic identifier
|
|
*hl-NvimIdentifierScope* NvimIdentifier Namespace: letter
|
|
before `:` in
|
|
|internal-variables|
|
|
*hl-NvimIdentifierScopeDelimiter* NvimIdentifier `:` after namespace
|
|
letter
|
|
*hl-NvimIdentifierName* NvimIdentifier Rest of the ident
|
|
*hl-NvimIdentifierKey* NvimIdentifier Identifier after
|
|
|expr-entry|
|
|
|
|
*hl-NvimColon* Delimiter `:` in |dict| literal
|
|
*hl-NvimComma* Delimiter `,` in |dict| or |list|
|
|
literal or
|
|
|expr-function|
|
|
*hl-NvimArrow* Delimiter `->` in |lambda|
|
|
|
|
*hl-NvimRegister* SpecialChar |expr-register|
|
|
*hl-NvimNumber* Number Non-prefix digits
|
|
in integer
|
|
|expr-number|
|
|
*hl-NvimNumberPrefix* Type `0` for |octal-number|
|
|
`0x` for |hex-number|
|
|
`0b` for |binary-number|
|
|
*hl-NvimFloat* NvimNumber Floating-point
|
|
number
|
|
|
|
*hl-NvimOptionSigil* Type `&` in |expr-option|
|
|
*hl-NvimOptionScope* NvimIdentifierScope Option scope if any
|
|
*hl-NvimOptionScopeDelimiter* NvimIdentifierScopeDelimiter
|
|
`:` after option scope
|
|
*hl-NvimOptionName* NvimIdentifier Option name
|
|
|
|
*hl-NvimEnvironmentSigil* NvimOptionSigil `$` in |expr-env|
|
|
*hl-NvimEnvironmentName* NvimIdentifier Env variable name
|
|
|
|
*hl-NvimString* String Generic string
|
|
*hl-NvimStringBody* NvimString Generic string
|
|
literal body
|
|
*hl-NvimStringQuote* NvimString Generic string quote
|
|
*hl-NvimStringSpecial* SpecialChar Generic string
|
|
non-literal body
|
|
|
|
*hl-NvimSingleQuote* NvimStringQuote `'` in |expr-'|
|
|
*hl-NvimSingleQuotedBody* NvimStringBody Literal part of
|
|
|expr-'| string body
|
|
*hl-NvimSingleQuotedQuote* NvimStringSpecial `''` inside |expr-'|
|
|
string body
|
|
|
|
*hl-NvimDoubleQuote* NvimStringQuote `"` in |expr-quote|
|
|
*hl-NvimDoubleQuotedBody* NvimStringBody Literal part of
|
|
|expr-quote| body
|
|
*hl-NvimDoubleQuotedEscape* NvimStringSpecial Valid |expr-quote|
|
|
escape sequence
|
|
*hl-NvimDoubleQuotedUnknownEscape* NvimInvalidValue Unrecognized
|
|
|expr-quote| escape
|
|
sequence
|
|
|
|
vim:tw=78:ts=8:noet:ft=help:norl:
|