/* Version management
*
* Copyright (c) 2020 The OSCAR Team
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of the source code
* for more details. */
#include "version.h"
#include "VERSION"
#include "git_info.h"
#include <QRegularExpression>
// Initialize the Version instance with build metadata, if any.
#ifdef GIT_REVISION
#ifdef GIT_BRANCH
#define BUILD_METADATA "+" GIT_BRANCH "-" GIT_REVISION
#else
#define BUILD_METADATA "+" GIT_REVISION
#endif
#else
#define BUILD_METADATA ""
#endif
static const Version s_Version(VERSION BUILD_METADATA);
// Technically this is the date and time that version.cpp was compiled, but since
// it gets recompiled whenever git_info.h changes, it's about as close as we can
// come without forcing recompiles every single build.
static const QString s_BuildDateTime = __DATE__ " " __TIME__;
QString getPrereleaseSuffix()
{
QString suffix;
if (getVersion().IsReleaseVersion() || getVersion().PrereleaseType().compare("rc") == 0) {
// No suffix for release or rc versions.
suffix = "";
} else {
#ifdef GIT_TAG
// If this commit has a tag, then it's a full testing (alpha/beta/etc.) release.
// Put preferences/data in "-test".
suffix = "-test";
#else
// Otherwise it's a development build, which will be identified by its branch in most cases.
#ifdef GIT_BRANCH
suffix = "-" GIT_BRANCH;
#else
#ifdef GIT_REVISION
// If we've checked out an older version, we're in a headless state and not on any branch.
// If the older version was a previous testing release, it should be tagged, in which case
// it's treated as a testing release above.
//
// Otherwise this is probably being used for regression testing an older build.
suffix = "-" GIT_REVISION;
#else
// In theory someone might try to build a prerelease from a tarball, so we don't have any
// revision information. Just put it in an "-unreleased" sandbox.
suffix = "-unreleased";
#endif
#endif
#endif
}
return suffix;
}
const QString & getBuildDateTime()
{
return s_BuildDateTime;
}
const Version & getVersion()
{
return s_Version;
}
// Alternate formatting of the version string for display or logging
const QString Version::minimalString() const
{
return toString().section("+", 0, 0);
}
const QString Version::displayString() const
{
if (IsReleaseVersion())
return minimalString();
else
return toString();
}
// This is application-specific interpretation of the prerelease data.
const QString Version::PrereleaseType() const
{
// Extract the first identifier
QString type = mPrerelease.section(".", 0, 0);
// Remove any "-2", etc. that's included in the first identifier rather than as a dot-separated identifier
type = type.section("-", 0, 0);
return type.toLower();
}
// Deal with non-Semantic-Versioning numbers used before 1.1.0-beta-2 to make sure they
// will have proper (lower) precedence compared to later versions.
//
// TODO: THIS CAN PROBABLY BE REMOVED AFTER THE RELEASE OF 1.1.0, since the release
// version will take precedence over all 1.1.0 prereleases, as well as 1.0.1 of any
// release status.
//
// Right now we just need to make sure that 1.1.0-beta versions take precedence over
// 1.1.0-testing.
void Version::FixLegacyVersions()
{
if (mIsValid) {
// Replace prerelease "testing" with "alpha" for backwards compatibility with 1.1.0-testing-*
// versions: otherwise "testing" would take precedence over "beta".
mPrerelease.replace("testing", "alpha");
// Technically the use of "r1" in "1.0.1-r1" could also be corrected, as the code
// will incorrectly consider that release version to be a prerelease, but it doesn't
// matter because 1.1.0 and later will take precedence either way.
}
}
// ===================================================================================================
// Version class for parsing and comparing version strings as specified by Semantic Versioning 2.0.0
// See https://semver.org/spec/v2.0.0.html
Version::Version(const QString & version_string) : mString(version_string), mIsValid(false)
{
ParseSemanticVersion();
FixLegacyVersions();
}
Version::operator const QString &() const
{
return toString();
}
const QString & Version::toString() const
{
return mString;
}
// Parse a version string as specified by Semantic Versioning 2.0.0.
void Version::ParseSemanticVersion()
{
// Use a C++11 raw string literal to keep the regular expression (mostly) legible.
static const QRegularExpression re(R"(^(?P<major>0|[1-9]\d*)\.(?P<minor>0|[1-9]\d*)\.(?P<patch>0|[1-9]\d*)(?:-(?P<prerelease>(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*)(?:\.(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*))*))?(?:\+(?P<buildmetadata>[0-9a-zA-Z-]+(?:\.[0-9a-zA-Z-]+)*))?$)");
QRegularExpressionMatch match = re.match(mString);
while (match.hasMatch()) {
bool ok;
mMajor = match.captured("major").toInt(&ok);
if (!ok) break;
mMinor = match.captured("minor").toInt(&ok);
if (!ok) break;
mPatch = match.captured("patch").toInt(&ok);
if (!ok) break;
mPrerelease = match.captured("prerelease");
mBuild = match.captured("buildmetadata");
mIsValid = true;
break;
}
// If we ever encounter any really old version whose version isn't valid, its
// major version will be 0, so it will correctly be considered older than
// valid versions.
}
// Compare two version instances in accordance with Semantic Versionin 2.0.0 precedence rules.
int Version::Compare(const Version & a, const Version & b)
{
int diff;
diff = a.mMajor - b.mMajor;
if (diff) return diff;
diff = a.mMinor - b.mMinor;
if (diff) return diff;
diff = a.mPatch - b.mPatch;
if (diff) return diff;
// Version numbers are equal, now check prerelease status:
if (a.IsReleaseVersion() && b.IsReleaseVersion()) return 0;
// A pre-release version has lower prededence than a release version.
diff = a.IsReleaseVersion() - b.IsReleaseVersion();
if (diff) return diff;
// Both are prerelease versions, compare them:
// The prerelease version may contain a series of dot-separated identifiers,
// each of which is compared.
QStringList ap = a.mPrerelease.split(".");
QStringList bp = b.mPrerelease.split(".");
int max = qMin(ap.size(), bp.size());
for (int i = 0; i < max; i++) {
bool a_is_num, b_is_num;
int ai = ap[i].toInt(&a_is_num);
int bi = bp[i].toInt(&b_is_num);
// Numeric identifiers always have lower precedence than non-numeric.
diff = b_is_num - a_is_num;
if (diff) return diff;
if (a_is_num) {
// Numeric identifiers are compared numerically.
diff = ai - bi;
if (diff) return diff;
} else {
// Non-numeric identifiers are compared lexically.
diff = ap[i].compare(bp[i]);
if (diff) return diff;
}
}
// A larger set of pre-release fields has higher precedence (if the above were equal).
diff = ap.size() - bp.size();
// We ignore build metadata in comparing semantic versions.
return diff;
}