This project is MIT-licensed, C++14 implementation of semantic versioning parser and comparator with support for modifying parsed version strings. Semantic versioning 2.0.0 specification is supported out-of-the-box and the code should be flexible-enough to support future revisions or other similar versioning schemes.
Parsing and comparing two version strings:
#include "semver200.h"
void main(int, char**) {
version::Semver200_version v1("1.0.0");
version::Semver200_version v2("2.0.0");
if (v2 > v1) {
std::cout << v2 << " is indeed greater than " << v1 << std::endl;
} else {
std::cout << "This thing is broken, what a waste of time!" << std::endl;
}
}Accessing individual version components:
#include "semver200.h"
void main(int, char**) {
version::Semver200_version v("1.2.3-alpha.1+build.no.123");
std::cout << "Major: " << v.major() << std::endl;
std::cout << "Minor: " << v.minor() << std::endl;
std::cout << "Patch: " << v.patch() << std::endl;
std::cout << "Pre-release: " << v.prerelease() << std::endl;
std::cout << "Build: " << v.build() << std::endl;
}should generate following output:
Major: 1
Minor: 2
Patch: 3
Pre-release: alpha.1
Build: build.no.123
Parsed version object supports a few modification methods. All modification methods are non-destructive i.e. they return new objects with modified properties and original objects are never changed. You can:
- set major, minor, patch, pre-release or build version to desired value while keeping other fields unchanged;
- reset major, minor, patch, pre-release or build version to desired value by resetting lower-priority fields to zero/empty values (Priority is major > minor > patch > pre-release > build);
- increase/decrease major, minor or patch version by desired increment (can be negative); this is reset-type operation which will zero/empty lower priority fields.
A few examples of version modifications:
#include "semver200.h"
void main(int, char**) {
version::Semver200_version v("1.2.3-alpha.1+build.no.123");
std::cout << "Next major version: " << v.inc_major() << std::endl;
std::cout << "Next but one major: " << v.inc_major(2) << std::endl;
std::cout << "Next minor version: " << v.inc_minor() << std::endl;
std::cout << "Previous minor version: " << v.inc_minor(-1) << std::endl;
std::cout << "Next patch version: " << v.inc_patch() << std::endl;
std::cout << "Change pre-release: " << v.set_prerelease("beta.3") << std::endl;
std::cout << "Change build: " << v.set_build("170105") << std::endl;
std::cout << "Set major to 3, minor to 1: " << v.set_major(3).set_minor(1) << std::endl;
std::cout << "Reset major to 3, minor to 1: " << v.reset_major(3).reset_minor(1) << std::endl;
}should generate following output:
Next major version: 2.0.0
Next but one major: 3.0.0
Next minor version: 1.3.0
Previous minor version: 1.1.0
Next patch version: 1.2.4
Change pre-release: 1.2.3-beta.3+build.no.123
Change build: 1.2.3-alpha.1+170105
Set major to 3, minor to 1: 3.1.3-alpha.1+build.no.123
Reset major to 3, minor to 1: 3.1.0
The code is written in C++14, so, fairly recent compiler is required to build it. Following compilers were tested:
- Microsoft Visual Studio 2015
- GCC 5.1.1
- Clang 3.7.0
Library itself does not have any external dependencies. Unit tests that verify the library work as expected, on the other hand, depend on the Boost.Test library. Unit tests are disabled by default. To build tests run cmake with -DSEMVER_ENABLE_TESTING=ON option.
The code comes with CMake project files. In order to build it you should:
- create, if it doesn’t already exist, directory
buildin the project directory; - invoke
cmake ..in build directory; - once CMake is done, use your toolset (Visual Studio, nmake, make, …) to build the library;
- remember to link in the library you have built and to include
./includedirectory to your build.