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Use the let statement to set a variable name equal to an expression or a function, or to create views .

let statements are useful for:

  • Breaking up a complex expression into multiple parts, each represented by a variable.
  • Defining constants outside of the query body for readability.
  • Defining a variable once and using it multiple times within a query.
  • If the variable previously represented another value, for example in nested statements, the innermost let statement applies.

    To optimize multiple uses of the let statement within a single query, see Optimize queries that use named expressions .

    Syntax: Scalar or tabular expressions

    let Name = Expression

    Important

    Let statements must be followed by a semicolon. There can be no blank lines between let statements or between let statements and other query statements.

    Learn more about syntax conventions .

    Parameters

    Required Description string The variable name. You can escape the name with brackets. For example, ["Name with spaces"] . Expression string An expression with a scalar or tabular result. For example, an expression with a scalar result would be let one=1; , and an expression with a tabular result would be let RecentLog = Logs | where Timestamp > ago(1h) .

    Syntax: View or function

    let Name = [ view ] ( [ Parameters ] ) { FunctionBody }

    Important

    Let statements must be followed by a semicolon. There can be no blank lines between let statements or between let statements and other query statements.

    Learn more about syntax conventions .

    Parameters

    Required Description string Only relevant for a parameter-less let statement. When used, the let statement is included in queries with a union operator with wildcard selection of the tables/views. For an example, see Create a view or virtual table . Parameters string Zero or more comma-separated tabular or scalar function parameters.

    For each parameter of tabular type, the parameter should be in the format TableName : TableSchema , in which TableSchema is either a comma-separated list of columns in the format ColumnName : ColumnType or a wildcard ( * ). If columns are specified, then the input tabular argument must contain these columns. If a wildcard is specified, then the input tabular argument can have any schema. To reference columns in the function body, they must be specified. For examples, see Tabular argument with schema and Tabular argument with wildcard .

    For each parameter of scalar type, provide the parameter name and parameter type in the format Name : Type . The name can appear in the FunctionBody and is bound to a particular value when the user defined function is invoked. The only supported types are bool , string , long , datetime , timespan , real , dynamic , and the aliases to these types.
  • Tabular parameters must appear before scalar parameters.
  • Any two statements must be separated by a semicolon.
  • Examples

    Define scalar values

    The following example uses a scalar expression statement.

    let n = 10;  // number
    let place = "Dallas";  // string
    let cutoff = ago(62d); // datetime 
    Events 
    | where timestamp > cutoff 
        and city == place 
    | take n
    

    The following example binds the name some number using the ['name'] notation, and then uses it in a tabular expression statement.

    Run the query

    let ['some number'] = 20;
    range y from 0 to ['some number'] step 5
    

    Create a user defined function with scalar calculation

    This example uses the let statement with arguments for scalar calculation. The query defines function MultiplyByN for multiplying two numbers.

    Run the query

    let MultiplyByN = (val:long, n:long) { val * n };
    range x from 1 to 5 step 1 
    | extend result = MultiplyByN(x, 5)
    

    Output

    result

    Create a user defined function that trims input

    The following example removes leading and trailing ones from the input.

    Run the query

    let TrimOnes = (s:string) { trim("1", s) };
    range x from 10 to 15 step 1 
    | extend result = TrimOnes(tostring(x))
    

    Output

    result

    Use multiple let statements

    This example defines two let statements where one statement (foo2) uses another (foo1).

    Run the query

    let foo1 = (_start:long, _end:long, _step:long) { range x from _start to _end step _step};
    let foo2 = (_step:long) { foo1(1, 100, _step)};
    foo2(2) | count
    

    Output

    result

    Create a view or virtual table

    This example shows you how to use a let statement to create a view or virtual table.

    Run the query

    let Range10 = view () { range MyColumn from 1 to 10 step 1 };
    let Range20 = view () { range MyColumn from 1 to 20 step 1 };
    search MyColumn == 5
    

    Output

    $table MyColumn

    Use a materialize function

    The materialize() function lets you cache subquery results during the time of query execution. When you use the materialize() function, the data is cached, and any subsequent invocation of the result uses cached data.

    let totalPagesPerDay = PageViews
    | summarize by Page, Day = startofday(Timestamp)
    | summarize count() by Day;
    let materializedScope = PageViews
    | summarize by Page, Day = startofday(Timestamp);
    let cachedResult = materialize(materializedScope);
    cachedResult
    | project Page, Day1 = Day
    | join kind = inner
        cachedResult
        | project Page, Day2 = Day
    on Page
    | where Day2 > Day1
    | summarize count() by Day1, Day2
    | join kind = inner
        totalPagesPerDay
    on $left.Day1 == $right.Day
    | project Day1, Day2, Percentage = count_*100.0/count_1
    

    Output

    Percentage

    Using nested let statements

    Nested let statements are permitted, including within a user defined function expression. Let statements and arguments apply in both the current and inner scope of the function body.

    let start_time = ago(5h); 
    let end_time = start_time + 2h; 
    T | where Time > start_time and Time < end_time | ...
    

    Tabular argument with schema

    The following example specifies that the table parameter T must have a column State of type string. The table T may include other columns as well, but they can't be referenced in the function StateState because the aren't declared.

    Run the query

    let StateState=(T: (State: string)) { T | extend s_s=strcat(State, State) };
    StormEvents
    | invoke StateState()
    | project State, s_s
    

    Output

    State

    Tabular argument with wildcard

    The table parameter T can have any schema, and the function CountRecordsInTable will work.

    Run the query

    let CountRecordsInTable=(T: (*)) { T | count };
    StormEvents | invoke CountRecordsInTable()
    

    Output

    Count