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// file : tests/package-version/driver.cxx -*- C++ -*-
// copyright : Copyright (c) 2014-2015 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#include <string>
#include <cassert>
#include <cstdint> // uint16
#include <iostream>
#include <exception>
#include <stdexcept> // invalid_argument
#include <bpkg/manifest>
using namespace std;
using namespace bpkg;
static bool
bad_version (const string& v)
{
try
{
version bv (v);
return false;
}
catch (const invalid_argument&)
{
return true;
}
}
static bool
bad_version (uint16_t e, const string& u, const string& l, uint16_t r)
{
try
{
version bv (e, u, l, r);
return false;
}
catch (const invalid_argument&)
{
return true;
}
}
static bool
test_constructor (const version& v)
{
return v == version (v.epoch, v.upstream, v.release, v.revision);
}
int
main (int argc, char* argv[])
{
if (argc != 1)
{
cerr << "usage: " << argv[0] << endl;
return 1;
}
try
{
assert (bad_version ("")); // Empty upstream.
assert (bad_version ("1~")); // Same.
assert (bad_version ("1~+3")); // Same.
assert (bad_version ("+3")); // Same.
assert (bad_version ("1~-a")); // Same.
assert (bad_version ("1~-a+3")); // Same.
assert (bad_version ("-a+3")); // Same.
assert (bad_version ("~3.5")); // Empty epoch.
assert (bad_version ("a+")); // Empty revision.
assert (bad_version ("1~2~4.1+3")); // Extra epoch.
assert (bad_version ("3.5+1+4")); // Extra revision.
assert (bad_version ("1~~2+3")); // Duplicated epoch separator.
assert (bad_version ("1~2++3")); // Duplicated revision separator.
assert (bad_version ("a.394857391.3")); // Too long numeric component.
assert (bad_version ("a.000000000.3")); // Too long numeric zero component.
assert (bad_version ("1-a.000000000")); // Same.
assert (bad_version ("65536~q.3")); // Too big epoch.
assert (bad_version ("1+q+65536")); // Too big revision.
assert (bad_version ("3.5~1.4")); // Components in epoch.
assert (bad_version ("3.5+1.4")); // Components in revision.
assert (bad_version ("3 5+1")); // Non alpha-numeric in upstream.
assert (bad_version ("1~ +3")); // Same.
assert (bad_version ("1-3 5+1")); // Non alpha-numeric in release.
assert (bad_version ("1~1- +3")); // Same.
assert (bad_version ("3 5~4+1")); // Non alpha-numeric in epoch.
assert (bad_version ("2b~a")); // Same.
assert (bad_version ("1~34.1+3 5")); // Non numeric in revision.
assert (bad_version ("a+3s")); // Same.
assert (bad_version ("a.")); // Not completed upstream.
assert (bad_version ("a..b")); // Empty upstream component.
assert (bad_version ("a.b-+1")); // Revision for empty release.
assert (bad_version (0, "", "", 0)); // Empty upstream.
assert (bad_version (0, "1", "", 1)); // Revision for empty release.
assert (bad_version (1, "1~1.1", "~", 2)); // Epoch in upstream.
assert (bad_version (1, "1.1-1", "~", 2)); // Release in upstream.
assert (bad_version (1, "1.1+1", "~", 2)); // Revision in upstream.
assert (bad_version (1, "1", "1~1.1", 2)); // Epoch in release.
assert (bad_version (1, "1", "1.1-1", 2)); // Release in release.
assert (bad_version (1, "1", "1.1+1", 2)); // Revision in release.
{
version v1;
assert (v1.empty ());
assert (v1.string ().empty ());
version v2 ("0.0.0");
assert (!v2.empty ());
// @@ It doesn't look nice.
//
assert (v1.canonical_upstream == v2.canonical_upstream);
}
{
version v ("a");
assert (v.string () == "a");
assert (v.canonical_upstream == "a");
assert (test_constructor (v));
}
{
version v ("65535~ab+65535");
assert (v.string () == "65535~ab+65535");
assert (v.canonical_upstream == "ab");
assert (test_constructor (v));
}
{
version v ("1");
assert (v.string () == "1");
assert (v.canonical_upstream == "00000001");
assert (test_constructor (v));
}
{
version v ("0");
assert (v.string () == "0");
assert (v.canonical_upstream.empty ());
assert (test_constructor (v));
}
{
version v ("0.0.0");
assert (v.string () == "0.0.0");
assert (v.canonical_upstream.empty ());
assert (test_constructor (v));
}
{
version v ("1.0.0");
assert (v.string () == "1.0.0");
assert (v.canonical_upstream == "00000001");
assert (test_constructor (v));
}
{
version v ("0.1.00");
assert (v.string () == "0.1.00");
assert (v.canonical_upstream == "00000000.00000001");
assert (test_constructor (v));
}
{
version v ("0.0a.00");
assert (v.string () == "0.0a.00");
assert (v.canonical_upstream == "00000000.0a");
assert (test_constructor (v));
}
{
version v ("0.a00.00");
assert (v.string () == "0.a00.00");
assert (v.canonical_upstream == "00000000.a00");
assert (test_constructor (v));
}
{
version v ("1~0");
assert (v.string () == "1~0");
assert (v.canonical_upstream.empty ());
assert (test_constructor (v));
}
{
version v ("0~A+1");
assert (v.string () == "A+1");
assert (v.canonical_upstream == "a");
assert (test_constructor (v));
}
{
version v ("10~B+0");
assert (v.string () == "10~B");
assert (v.canonical_upstream == "b");
assert (test_constructor (v));
}
{
version v ("3~1A.31.0.4.0+7");
assert (v.string () == "3~1A.31.0.4.0+7");
assert (v.canonical_upstream == "1a.00000031.00000000.00000004");
assert (test_constructor (v));
}
{
version v ("1.2.3");
assert (v.string () == "1.2.3");
assert (v.release == "~");
assert (v.canonical_release == "~");
assert (test_constructor (v));
}
{
version v ("1.2.3+1");
assert (v.string () == "1.2.3+1");
assert (v.release == "~");
assert (v.canonical_release == "~");
assert (test_constructor (v));
}
{
version v ("1.2.3-");
assert (v.string () == "1.2.3-");
assert (v.release.empty ());
assert (v.canonical_release.empty ());
assert (test_constructor (v));
}
{
version v ("1~A-1.2.3B.00+0");
assert (v.string () == "1~A-1.2.3B.00");
assert (v.release == "1.2.3B.00");
assert (v.canonical_release == "00000001.00000002.3b");
assert (test_constructor (v));
}
{
version v (1, "1", "~", 2);
assert (v.string () == "1~1+2");
assert (v.release == "~");
assert (v.canonical_release == "~");
assert (test_constructor (v));
}
{
version v (1, "1", "", 0);
assert (v.string () == "1~1-");
assert (v.release.empty ());
assert (v.canonical_release.empty ());
assert (test_constructor (v));
}
assert (version ("a") == version ("a"));
assert (version ("a") < version ("b"));
assert (version ("a") < version ("aa"));
assert (version ("a.a") < version ("aaa"));
assert (version ("a") < version ("a.a"));
assert (version ("ab") == version ("ab"));
assert (version ("ac") < version ("bc"));
assert (version ("ab+0") == version ("ab"));
assert (version ("a.1+1") > version ("a.1"));
assert (version ("0~ab") == version ("ab"));
assert (version ("1.2") > version ("1.1"));
assert (version ("1~1.0") > version ("2.0"));
assert (version ("0~ab+1") == version ("ab+1"));
assert (version ("0~ab+1").compare (version ("0~ab+2"), true) == 0);
assert (version ("12") > version ("2"));
assert (version ("2") < version ("12"));
assert (version ("1") == version ("01"));
assert (version ("1") == version ("1.0"));
assert (version ("1.3") == version ("1.3.0"));
assert (version ("1.3") == version ("1.3.0.0"));
assert (version ("1.3.1") > version ("1.3"));
assert (version ("1.30") > version ("1.5"));
assert (version ("1.alpha.1") < version ("1.Beta.1"));
assert (version ("1.Alpha.1") < version ("1.beta.1"));
assert (version ("1.Alpha.1") == version ("1.ALPHA.1"));
assert (version ("a.1") < version ("ab1"));
assert (version ("a.2") < version ("a.1b"));
assert (version ("0.0.0") == version ("0"));
assert (version ("1.0.0") == version ("01"));
assert (version ("0.1.00") == version ("00.1"));
assert (version ("0.0a.00") == version ("00.0a"));
assert (version ("1.0-alpha") < version ("1.0"));
assert (version ("1.0-") < version ("1.0"));
assert (version ("1.0-") < version ("1.0-alpha"));
assert (version ("1.0-alpha") < version ("1.1"));
assert (version ("1.0-alpha+1") < version ("1.0"));
assert (version ("1.0-alpha+1") < version ("1.1"));
assert (version ("1.0-alpha") > version ("1.0-1"));
assert (version ("1.0-alpha") == version ("1.0-alpha.0"));
assert (version (1, "2.0", "~", 3) == version ("1~2+3"));
assert (version (1, "2.0", "", 0) == version ("1~2-"));
}
catch (const exception& e)
{
cerr << e.what () << endl;
return 1;
}
}
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