Lambda lifting or closure conversion is the process of eliminating free variables from local function definitions from a computer program. The elimination of free variables allows the compiler to hoist local definitions out of their surrounding contexts into a fixed set of top-level functions with an extra parameter replacing each local variable. By eliminating the need for run-time access-links, this may reduce the run-time cost of handling implicit scope. Many functional programming language implementations use lambda lifting during compilation.
The term lambda lifting was first introduced by Thomas Johnsson around 1982.
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The following algorithm is one way to lambda-lift an arbitrary program in a language which doesn't support closures as first-class objects:
If the language has closures as first-class objects that can be passed as arguments or returned from other functions (closures), the closure will need to be represented by a data structure that captures the bindings of the free variables.
Consider the following OCaml program that computes the sum of the integers from 1 to 100:
let rec sum n = if n = 1 then 1 else let f x = n + x in f (sum (n - 1)) in sum 100
(The let rec declares sum as a function that may call itself.) The function f, which adds sum's argument to the sum of the numbers less than the argument, is a local function. Within the definition of f, n is a free variable. Start by converting the free variable to an argument:
let rec sum n = if n = 1 then 1 else let f w x = w + x in f n (sum (n - 1)) in sum 100
Next, lift f into a global function:
let rec f w x = w + x and sum n = if n = 1 then 1 else f n (sum (n - 1)) in sum 100
Finally, convert the functions into rewriting rules:
f w x → w + x sum 1 → 1 sum n → f n (sum (n - 1)) when n ≠ 1
The expression "sum 100" rewrites as:
sum 100 → f 100 (sum 99) → 100 + (sum 99) → 100 + (f 99 (sum 98)) → 100 + (99 + (sum 98) . . . → 100 + (99 + (98 + (... + 1 ...)))
The following is the same example, this time written in JavaScript:
// Initial version function sum(n) { if(n == 1) { return 1; } else { function f(x) { return n + x; }; return f( sum(n - 1) ); } } // After converting the free variable n to a formal parameter w function sum(n) { if(n == 1) { return 1; } else { function f(w, x) { return w + x; }; return f( n, sum(n - 1) ); } } // After lifting function f into the global scope function f(w, x) { return w + x; }; function sum(n) { if(n == 1) { return 1; } else { return f( n, sum(n - 1) ); } }