A wrapper function is a function (another word for a subroutine) in a software library or a computer program whose main purpose is to call a second subroutine^[1] or a system call with little or no additional computation. Wrapper functions are used to make writing computer programs easier by abstracting away the details of a subroutine's underlying implementation.

Wrapper functions are a means of delegation and can be used for a number of purposes.

public class Test implements LinkedList, HashSet{

@Override
//contains data members and data methods
//covariant return

}

Many library functions, such as those in the C Standard Library, act as interfaces for abstraction of system calls. The fork and execve functions in glibc are examples of this. They call the lower-level fork and execve system calls, respectively.

This may lead to incorrectly using the terms "system call" and "syscall" to refer to higher-level library calls rather than the similarly named system calls, which they wrap.^[4][5]

A helper function is a function which groups parts of computation by assigning descriptive names and allowing for the reuse of the computations.^[6] Although not all wrappers are helper functions, all helper functions are wrappers, and a notable use of helper functions—grouping frequently utilized operations—is in dynamic binary translation, in which helper functions of a particular architecture is used in translation of instructions from one instruction set into another.^[7]

• Wrapper library
• Driver wrapper
• Adapter pattern
• Decorator pattern
• Delegation (programming)
• Forwarding (object-oriented programming)
• Language binding wrapper to another language
• SWIG automatic wrapper generator
• Nested function
• Partial application