Algorithm (C++)

In the C++ Standard Library, the algorithms library provides various functions that perform algorithmic operations on containers and other sequences, represented by Iterators.

The C++ standard provides some standard algorithms collected in the  standard header. A handful of algorithms are also in the  header. All algorithms are in the namespace.

Execution policies
C++17 provides the ability for many algorithms to optionally take an execution policy, which may allow implementations to execute the algorithm in parallel (i.e. by using threads or SIMD instructions).

There are four different policy types, each indicating different semantics about the order in which element accesses are allowed to be observed relative to each other


 * , which indicates that the execution of the algorithm must happen on the thread which invokes the function, and the order of element accesses should execute in sequence. It is equivalent to calling the function without an execution policy
 * , which indicates that the execution of the algorithm may happen across multiple threads, however within each thread the order of element accesses are made in sequence (i.e. element accesses may not be done concurrently)
 * , which indicates that the execution of the algorithm may happen across multiple threads, and element accesses do not have to be performed in order within the same thread
 * , which indicates that the execution of the algorithm must happen on the thread which invokes the function, however the order of element accesses may be performed out of sequence

It is up to the user to ensure that the operations performed by the function are thread safe when using policies which may execute across different threads.

Ranges
C++20 adds versions of the algorithms defined in the header which operate on ranges rather than pairs of iterators.

The ranges versions of algorithm functions are scoped within the namespace. They extend the functionality of the basic algorithms by allowing iterator-sentinel pairs to be used instead of requiring that both iterators be of the same type and also allowing interpoerability with the objects provided by the ranges header without requiring the user to manually extract the iterators.

Predicate checking algorithms
Checks if a given predicate evaluates to true for some amount of objects in the range, or returns the amount of objects that do



Comparison algorithms
Compares two ranges for some property



Searching algorithms
Finds the first or last position in a range where the subsequent elements satisfy some predicate



Binary search algorithms
Provides Binary search operations on ranges. It is undefined behaviour to use these on ranges which are not sorted.



Maximum/Minimum search algorithms
Finds the maximum or minimum element in a range, as defined by some comparison predicate



Property checking algorithms
Checks if an entire range satisfies some property



Copying algorithms
Transfers the elements from one range into another



Partitioning algorithms
Moves the elements of a range in-place so the range is partitioned with respect to some property



Sorting algorithms
Sorts or partially sorts a range in-place



Populating algorithms
Populates a given range without reading the values contained within



Transforming algorithms
Transforms each element of a given range in-place



Reordering algorithms
Changes the order of elements within a range in-place



Heap algorithms
Provides algorithms to create, insert, and remove elements from a max heap


 * Max heap
 * Max heap
 * Max heap
 * Max heap