--- id: constants-and-variables title: Constants & Variables --- The next building block after types are constants and variables. ## Constants Constants are immutable by design, which means their values can't be reassigned. When defining a constant you need to provide a `name`, `type` and a `value`: ```pascaligo const age : int = 25; ``` You can evaluate the constant definition above using the following CLI command: ```shell ligo evaluate-value -s pascaligo gitlab-pages/docs/language-basics/src/variables-and-constants/const.ligo age # Outputs: 25 ``` ```cameligo let age: int = 25 ``` You can evaluate the constant definition above using the following CLI command: ```shell ligo evaluate-value -s cameligo gitlab-pages/docs/language-basics/src/variables-and-constants/const.mligo age # Outputs: 25 ``` ```reasonligo let age: int = 25; ``` You can evaluate the constant definition above using the following CLI command: ```shell ligo evaluate-value -s reasonligo gitlab-pages/docs/language-basics/src/variables-and-constants/const.religo age # Outputs: 25 ``` ## Variables Variables, unlike constants, are mutable. They can't be used in a *global scope*, but they can be used within functions, or function arguments. > 💡 Don't worry if you don't understand the function syntax yet. We'll get to it in upcoming sections of the docs. > ⚠️ Please be wary that mutation only works within the function scope itself, values outside of the function scope will not be affected. ```pascaligo // won't work, use const for global values instead // var four: int = 4; function add(const a: int; const b: int) : int is block { var c : int := a + b; } with c ``` > ⚠️ Notice the different assignment operator `:=` You can run the `add` function defined above using the LIGO compiler like this: ```shell ligo run-function -s pascaligo gitlab-pages/docs/language-basics/src/variables-and-constants/add.ligo add '(1,1)' # Outputs: 2 ``` As expected from a functional language, CameLIGO uses value-binding for variables rather than assignment. Variables are changed by replacement, with a new value being bound in place of the old one. > 💡 Don't worry if you don't understand the function syntax yet. We'll get to it in upcoming sections of the docs. ```cameligo let add (a: int) (b: int) : int = let c : int = a + b in c ``` You can run the `add` function defined above using the LIGO compiler like this: ```shell ligo run-function -s cameligo gitlab-pages/docs/language-basics/src/variables-and-constants/add.mligo add '(1,1)' # Outputs: 2 ``` As expected from a functional language, Reasonligo uses value-binding for variables rather than assignment. Variables are changed by replacement, with a new value being bound in place of the old one. > 💡 Don't worry if you don't understand the function syntax yet. We'll get to it in upcoming sections of the docs. ```reasonligo let add = (a: int, b: int): int => { let c: int = a + b; c; }; ``` You can run the `add` function defined above using the LIGO compiler like this: ```shell ligo run-function -s reasonligo gitlab-pages/docs/language-basics/src/variables-and-constants/add.religo add '(1,1)' # Outputs: 2 ```