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// file : tests/wildcard/driver.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#ifndef __cpp_lib_modules_ts
#include <map>
#include <string>
#include <vector>
#include <algorithm> // sort()
#include <exception>
#include <iostream>
#endif
// Other includes.
#ifdef __cpp_modules_ts
#ifdef __cpp_lib_modules_ts
import std.core;
import std.io;
#endif
import butl.path;
import butl.utility; // operator<<(ostream, exception)
import butl.optional;
import butl.filesystem;
import butl.path_pattern;
#else
#include <libbutl/path.mxx>
#include <libbutl/utility.mxx>
#include <libbutl/optional.mxx>
#include <libbutl/filesystem.mxx>
#include <libbutl/path-pattern.mxx>
#endif
#undef NDEBUG
#include <cassert>
using namespace std;
using namespace butl;
// Disable arguments globbing that may be enabled by default for MinGW runtime.
//
// Note that if _CRT_glob symbol is not defined explicitly, then runtime will
// be bound to the one defined in the implicitly linked libmingw32.a library.
// Yet another (but more troublesome) way is to link CRT_noglob.o (from MinGW
// libraries directory) that provides exactly the same symbol definition.
//
#ifdef __MINGW32__
int _CRT_glob = 0;
#endif
// Usages:
//
// argv[0] -mn <name> <pattern>
// argv[0] -sd [-i] [-n] <pattern> [<dir>]
// argv[0] -sp [-i] [-n] <path> <pattern> [<dir>]
//
// Execute actions specified by the first option. Exit with code 0 if succeed,
// 1 if fail, 2 on the underlying OS error (print error description to STDERR).
//
// -mn
// Match a name against the pattern.
//
// -sd
// Search for paths matching the pattern in the directory specified (absent
// directory means the current one). Print the matching canonicalized paths
// to STDOUT in the ascending order. Succeed if at least one matching path
// is found. For each matching path we will assert that it is also get
// matched being searched in the directory tree represented by this path
// itself.
//
// Note that the driver excludes from search file system entries which names
// start from dot, unless the pattern explicitly matches them.
//
// -sp
// Same as above, but behaves as if the directory tree being searched
// through contains only the specified entry. The start directory is used if
// the first pattern component is a self-matching wildcard.
//
// -i
// Pass psflags::ignorable_components to the match/search functions.
// Meaningful in combination with -sd or -sp options and must follow it, if
// specified in the command line.
//
// -n
// Do not sort paths found. Meaningful in combination with -sd or -sp
// options and must follow it, if specified in the command line.
//
int
main (int argc, const char* argv[])
try
{
using butl::optional;
assert (argc >= 2);
string op (argv[1]);
if (op == "-mn")
{
assert (argc == 4);
string name (argv[2]);
string pattern (argv[3]);
return path_match (name, pattern) ? 0 : 1;
}
else if (op == "-sd" || op == "-sp")
{
assert (argc >= (op == "-sd" ? 3 : 4));
bool sort (true);
path_match_flags flags (path_match_flags::follow_symlinks);
int i (2);
for (; i != argc; ++i)
{
string o (argv[i]);
if (o == "-n")
sort = false;
else if (o == "-i")
flags |= path_match_flags::match_absent;
else
break; // End of options.
}
optional<path> entry;
if (op == "-sp")
{
assert (i != argc);
entry = path (argv[i++]);
}
assert (i != argc); // Still need pattern.
path pattern (argv[i++]);
dir_path start;
if (i != argc)
start = dir_path (argv[i++]);
assert (i == argc); // All args parsed,
vector<path> paths;
map<path, size_t> path_count;
auto add = [&paths, &path_count, &start] (path&& p,
const string& pt,
bool interim)
{
bool pd (!pt.empty () && pt[0] == '.'); // Dot-started pattern.
const path& fp (!p.empty ()
? p
: path_cast<path> (!start.empty ()
? start
: path::current_directory ()));
const string& s (fp.leaf ().string ());
assert (!s.empty ());
bool ld (s[0] == '.'); // Dot-started leaf.
// Skip dot-started names if pattern is not dot-started.
//
bool skip (ld && !pd);
if (interim)
return !skip;
if (!skip)
{
p.canonicalize ();
auto i (path_count.find (p));
if (i == path_count.end ())
path_count[p] = 1;
else
++(i->second);
paths.emplace_back (move (p));
}
return true;
};
if (!entry)
path_search (pattern, add, start, flags);
else
path_search (pattern, *entry, add, start, flags);
// It the search succeeds, then test search in the directory tree
// represented by each matched path. Otherwise, if the directory tree is
// specified, then make sure that it doesn't match the pattern.
//
if (!path_count.empty ())
{
for (const auto& p: path_count)
{
// Will match multiple times if the pattern contains several recursive
// components.
//
size_t match_count (0);
auto check = [&p, &match_count, flags]
(path&& pe, const string&, bool inter)
{
if (pe == p.first)
{
if (!inter)
++match_count;
else if ((flags & path_match_flags::match_absent) ==
path_match_flags::none)
// For self-matching the callback is first called in the interim
// mode (through the preopen function) with an empty path.
//
assert (pe.empty ());
}
return true;
};
path_search (pattern, p.first, check, start, flags);
assert (match_count == p.second);
// Test path match.
//
assert (path_match (p.first, pattern, start, flags));
}
}
else if (entry)
assert (!path_match (*entry, pattern, start, flags));
// Print the found paths.
//
if (sort)
std::sort (paths.begin (), paths.end ());
for (const auto& p: paths)
cout << p.representation () << endl;
return paths.empty () ? 1 : 0;
}
else
assert (false);
}
catch (const invalid_path& e)
{
cerr << e << ": " << e.path << endl;
return 2;
}
catch (const exception& e)
{
cerr << e << endl;
return 2;
}
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