---
id: inline
title: Inlining
---
import Syntax from '@theme/Syntax';
When compiling a contract in LIGO, declarations will get inlined if they are
only used once and pure. Inlining often results in larger contracts and is
therefore not aggressively done.
A pure declaration is one that doesn't cause side effects like causing a
failure or operation.
In some cases you might want to override the default behaviour of LIGO and
force inlining. The declaration still needs to be pure though.
## Inline attribute
To force inlining you can use the inline attribute.
```pascaligo
function fst(const p : nat * nat) : nat is p.0; attributes ["inline"] ;
function main(const p : nat * nat; const s : nat * nat) : list(operation) * (nat * nat) is
((list end : list(operation)), (fst(p.0,p.1), fst(s.1,s.0)))
```
```cameligo
let fst (p: (nat * nat)) : nat = p.0 [@@inline]
let main (p : (nat * nat)) (s : (nat * nat)) : (operation list * (nat * nat)) =
(([]: operation list), (fst (p.0, p.1), fst (s.1, s.0)))
```
```reasonligo
[@inline]
let fst = (p: (nat, nat)) : nat => p[0]
let main = (p : (nat, nat), s : (nat, nat)) : (list(operation), (nat, nat)) =>
(([]: list(operation)), (fst((p[0], p[1])), fst((s[1], s[0]))))
```
Now if we measure the difference between inlining and without inlining, using
`ligo measure-contract name_of_contract.ligo `, we see the
following results:
With inlining | 66 bytes |
Without inlining | 170 bytes |
:::info
Note that these results can change due to ongoing work to optimize output of
the LIGO compiler.
:::