build | ||
include | ||
test | ||
.gitignore | ||
CMakeLists.txt | ||
LICENSE | ||
paper.md | ||
README.md |
stduuid
A C++ cross-platform single-header library implementation for universally unique identifiers, simply know as either UUID or GUID (mostly on Windows). A UUID is a 128-bit number used to uniquely identify information in computer systems, such as database table keys, COM interfaces, classes and type libraries, and many others.
For information about UUID/GUIDs see:
Library overview
The library defines a namespace uuids
with the following types and functions:
Basic types:
Name | Description |
---|---|
uuid |
a class representing a UUID; this can be default constructed (a nil UUID), constructed from a range (defined by a pair of iterators), or from a string. |
uuid_variant |
a strongly type enum representing the type of a UUID |
uuid_version |
a strongly type enum representing the version of a UUID |
Generators:
Name | Description |
---|---|
uuid_system_generator |
a function object that generates new UUIDs using operating system resources (CoCreateGuid on Windows, uuid_generate on Linux, CFUUIDCreate on Mac) |
basic_uuid_random_generator |
a function object that generates version 4 UUIDs using a pseudo-random number generator engine. |
uuid_random_generator |
a basic_uuid_random_generator using the Marsenne Twister engine, i.e. basic_uuid_random_generator<std::mt19937> |
uuid_name_generator |
a function object that generates version 5, name-based UUIDs using SHA1 hashing. |
Utilities:
Name | Description |
---|---|
std::swap<> |
specialization of swap for uuid |
std::hash<> |
specialization of hash for uuid (necessary for storing UUIDs in unordered associative containers, such as std::unordered_set ) |
Other:
Name | Description |
---|---|
operator== and operator!= |
for UUIDs comparison for equality/inequality |
operator< |
for comparing whether one UUIDs is less than another. Although this operation does not make much logical sense, it is necessary in order to store UUIDs in a std::set. |
operator<< |
to write a UUID to an output stream using the canonical textual representation. |
to_string() |
creates a std::string with the canonical textual representation of a UUID. |
to_wstring() |
creates a std::wstring with the canonical textual representation of a UUID. |
This project is currently under development and should be ignored until further notice.
Using the library
The following is a list of examples for using the library:
- Creating a nil UUID
uuid empty;
assert(empty.nil());
assert(empty.size() == 16);
- Creating a new UUID
uuid const guid = uuids::uuid_system_generator{}();
assert(!guid.nil());
assert(guid.size() == 16);
assert(guid.version() == uuids::uuid_version::random_number_based);
assert(guid.variant() == uuids::uuid_variant::rfc);
- Creating a new UUID with a default random generator
uuids::uuid_random_generator gen;
uuid const guid = gen();
assert(!guid.nil());
assert(guid.size() == 16);
assert(guid.version() == uuids::uuid_version::random_number_based);
assert(guid.variant() == uuids::uuid_variant::rfc);
- Creating a new UUID with a particular random generator
std::random_device rd;
std::ranlux48_base generator(rd());
uuids::basic_uuid_random_generator<std::ranlux48_base> gen(&generator);
uuid const guid = gen();
assert(!guid.nil());
assert(guid.size() == 16);
assert(guid.version() == uuids::uuid_version::random_number_based);
assert(guid.variant() == uuids::uuid_variant::rfc);
- Creating a new UUID with the name generator
uuids::uuid_name_generator gen;
uuid const guid = gen();
assert(!guid.nil());
assert(guid.size() == 16);
assert(guid.version() == uuids::uuid_version::name_based_sha1);
assert(guid.variant() == uuids::uuid_variant::rfc);
- Create a UUID from a string
using namespace std::string_literals;
auto str = "47183823-2574-4bfd-b411-99ed177d3e43"s;
uuid guid(str);
assert(guid.string() == str);
or
auto str = L"47183823-2574-4bfd-b411-99ed177d3e43"s;
uuid guid(str);
assert(guid.wstring() == str);
- Creating a UUID from an array
std::array<uuids::uuid::value_type, 16> arr{{
0x47, 0x18, 0x38, 0x23,
0x25, 0x74,
0x4b, 0xfd,
0xb4, 0x11,
0x99, 0xed, 0x17, 0x7d, 0x3e, 0x43}};
uuid guid(std::begin(arr), std::end(arr));
assert(id.string() == "47183823-2574-4bfd-b411-99ed177d3e43");
or
uuids::uuid::value_type arr[16] = {
0x47, 0x18, 0x38, 0x23,
0x25, 0x74,
0x4b, 0xfd,
0xb4, 0x11,
0x99, 0xed, 0x17, 0x7d, 0x3e, 0x43 };
uuid guid(std::begin(arr), std::end(arr));
assert(guid.string() == "47183823-2574-4bfd-b411-99ed177d3e43");
- Comparing UUIDS
uuid empty;
uuid guid = uuids::uuid_system_generator{}();
assert(empty == empty);
assert(guid == guid);
assert(empty != guid);
- Swapping UUIDS
uuid empty;
uuid guid = uuids::uuid_system_generator{}();
assert(empty.nil());
assert(!guid.nil());
std::swap(empty, guid);
assert(!empty.nil());
assert(guid.nil());
empty.swap(guid);
assert(empty.nil());
assert(!guid.nil());
- Converting to string
uuid empty;
assert(uuids::to_string(empty) == "00000000-0000-0000-0000-000000000000");
assert(uuids::to_wstring(empty) == L"00000000-0000-0000-0000-000000000000");
- Iterating through the UUID data
std::array<uuids::uuid::value_type, 16> arr{{
0x47, 0x18, 0x38, 0x23,
0x25, 0x74,
0x4b, 0xfd,
0xb4, 0x11,
0x99, 0xed, 0x17, 0x7d, 0x3e, 0x43}};
uuid guid;
assert(guid.nil());
std::copy(std::cbegin(arr), std::cend(arr), std::begin(guid));
assert(!guid.nil());
assert(guid.string() == "47183823-2574-4bfd-b411-99ed177d3e43");
size_t i = 0;
for (auto const & b : guid)
assert(arr[i++] == b);
- Using with an orderered associative container
uuids::uuid_random_generator gen;
std::set<uuids::uuid> ids{uuid{}, gen(), gen(), gen(), gen()};
assert(ids.size() == 5);
assert(ids.find(uuid{}) != ids.end());
- Using in an unordered associative container
uuids::uuid_random_generator gen;
std::unordered_set<uuids::uuid> ids{uuid{}, gen(), gen(), gen(), gen()};
assert(ids.size() == 5);
assert(ids.find(uuid{}) != ids.end());
- Hashing UUIDs
auto h1 = std::hash<std::string>{};
auto h2 = std::hash<uuid>{};
assert(h1(str) == h2(guid));
Support
The library is supported on all major operating systems: Windows, Linux and Mac OS.
Testing
A testing project is available in the sources. To build and execute the tests do the following:
- Clone or download this repository
- Create a
build
directory in the root directory of the sources - Run the command
cmake ..
from thebuild
directory; if you do not have CMake you must install it first. - Build the project created in the previous step
- Run the executable.
Credits
The SHA1 implementation is based on the TinySHA1 library.