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-rw-r--r--butl/filesystem.cxx2
-rw-r--r--butl/path593
-rw-r--r--butl/path.cxx32
-rw-r--r--butl/path.ixx352
-rw-r--r--butl/path.txx263
-rw-r--r--butl/process.cxx4
-rw-r--r--tests/link/driver.cxx12
-rw-r--r--tests/path/driver.cxx375
-rw-r--r--tests/process/driver.cxx2
9 files changed, 1099 insertions, 536 deletions
diff --git a/butl/filesystem.cxx b/butl/filesystem.cxx
index cabe306..aa9319f 100644
--- a/butl/filesystem.cxx
+++ b/butl/filesystem.cxx
@@ -146,7 +146,7 @@ namespace butl
path ep (p / de.path ()); //@@ Would be good to reuse the buffer.
if (de.ltype () == entry_type::directory)
- rmdir_r (path_cast<dir_path> (ep), true, ignore_error);
+ rmdir_r (path_cast<dir_path> (move (ep)), true, ignore_error);
else
try_rmfile (ep, ignore_error);
}
diff --git a/butl/path b/butl/path
index 9a75b5d..4a80b9b 100644
--- a/butl/path
+++ b/butl/path
@@ -7,7 +7,7 @@
#include <string>
#include <cstddef> // ptrdiff_t
-#include <utility> // move()
+#include <utility> // move(), swap()
#include <iterator>
#include <exception>
#include <functional> // hash
@@ -16,63 +16,68 @@
namespace butl
{
-
// Wish list/ideas for improvements.
//
- // Ability to convert to directory/leaf/base in-place, without dynamic
- // allocation. One idea is something like this:
+ // - posix_representation() in addition to posix_string()
+ //
+ // - Ability to convert to directory/leaf/base in-place, without dynamic
+ // allocation. One idea is something like this:
+ //
+ // p -= "/*"; // directory
+ // p -= "*/"; // leaf
+ // p -= ".*"; // base
//
- // p -= "/*"; // directory
- // p -= "*/"; // leaf
- // p -= ".*"; // base
+ // - Faster normalize() implementation.
+ //
+ // - We duplicate the interface for path and dir_path while most of it
+ // is common. Also, we can implicit-cast dir_path& to path& and use
+ // non-dir-adapted implementation (see where we call K::cast()).
//
- class LIBBUTL_EXPORT invalid_path_base: std::exception
+ struct LIBBUTL_EXPORT invalid_path_base: public std::exception
{
- public:
virtual char const*
what () const throw ();
};
template <typename C>
- class invalid_basic_path: public invalid_path_base
+ struct invalid_basic_path: invalid_path_base
{
- public:
- typedef std::basic_string<C> string_type;
+ using string_type = std::basic_string<C>;
- invalid_basic_path (C const* p): path_ (p) {}
- invalid_basic_path (string_type const& p): path_ (p) {}
- ~invalid_basic_path () throw () {}
+ string_type path;
- string_type const&
- path () const
- {
- return path_;
- }
-
- private:
- string_type path_;
+ invalid_basic_path (const C* p): path (p) {}
+ invalid_basic_path (const string_type& p): path (p) {}
};
template <typename C>
struct path_traits
{
- typedef std::basic_string<C> string_type;
- typedef typename string_type::size_type size_type;
+ using string_type = std::basic_string<C>;
+ using size_type = typename string_type::size_type;
// Canonical directory and path seperators.
//
#ifdef _WIN32
- static C const directory_separator = '\\';
- static C const path_separator = ';';
+ static const C directory_separator = '\\';
+ static const C path_separator = ';';
#else
static C const directory_separator = '/';
static C const path_separator = ':';
#endif
- // Directory separator tests. On some platforms there
- // could be multiple seperators. For example, on Windows
- // we check for both '/' and '\'.
+ // Canonical and alternative directory separators. Canonical should be
+ // first.
+ //
+#ifdef _WIN32
+ static constexpr const char* const directory_separators = "\\/";
+#else
+ static constexpr const char* const directory_separators = "/";
+#endif
+
+ // Directory separator tests. On some platforms there could be multiple
+ // seperators. For example, on Windows we check for both '/' and '\'.
//
static bool
is_separator (C c)
@@ -84,10 +89,28 @@ namespace butl
#endif
}
+ // Return 1-based index in directory_separators string or 0 if not a
+ // separator.
+ //
+ static size_type
+ separator_index (C c)
+ {
+#ifdef _WIN32
+ return c == '\\' ? 1 : c == '/' ? 2 : 0;
+#else
+ return c == '/' ? 1 : 0;
+#endif
+ }
+
static size_type
- find_separator (string_type const& s, size_type pos = 0)
+ find_separator (string_type const& s,
+ size_type pos = 0,
+ size_type n = string_type::npos)
{
- const C* r (find_separator (s.c_str () + pos, s.size () - pos));
+ if (n == string_type::npos)
+ n = s.size ();
+
+ const C* r (find_separator (s.c_str () + pos, n - pos));
return r != nullptr ? r - s.c_str () : string_type::npos;
}
@@ -223,116 +246,216 @@ namespace butl
#endif
};
- template <typename C>
- class invalid_basic_path;
-
+ // This implementation of a filesystem path has two types: path, which can
+ // represent any path (file, directory, etc.) and dir_path, which is derived
+ // from path. The internal representation of directories maintains a
+ // trailing slash. However, it is ignored in path comparison, size, and
+ // string spelling. For example:
+ //
+ // path p1 ("foo"); // File path.
+ // path p2 ("bar/"); // Directory path.
+ //
+ // path p3 (p1 / p2); // Throw: p1 is not a directory.
+ // path p4 (p2 / p1); // Ok, file "bar/foo".
+ // path p5 (p2 / p2); // Ok, directory "bar/bar/".
+ //
+ // dir_path d1 ("foo"); // Directory path "foo/".
+ // dir_path d2 ("bar\\"); // Directory path "bar\".
+ //
+ // dir_path d3 (d2 / d1); // "bar\\foo/"
+ //
+ // (p4 == d3); // true
+ // d3.string (); // "bar\\foo"
+ // d3.representation (); // "bar\\foo/"
+ //
template <typename C, typename K>
class basic_path;
- // Cast from one path kind to another without any checking or
- // processing.
+ template <typename C> struct any_path_kind;
+ template <typename C> struct dir_path_kind;
+
+ using path = basic_path<char, any_path_kind<char>>;
+ using dir_path = basic_path<char, dir_path_kind<char>>;
+ using invalid_path = invalid_basic_path<char>;
+
+ // Cast from one path kind to another. Note that no checking is performed
+ // (e.g., that there is a trailing slash if casting to dir_path) but the
+ // representation is adjusted if necessary (e.g., the trailing slash is
+ // added to dir_path if missing).
//
template <class P, class C, class K> P path_cast (const basic_path<C, K>&);
template <class P, class C, class K> P path_cast (basic_path<C, K>&&);
+ // Low-level path data storage. It is also by the implementation to pass
+ // around initialized/valid paths.
+ //
template <typename C>
- class path_data;
+ struct path_data
+ {
+ using string_type = std::basic_string<C>;
+ using size_type = typename string_type::size_type;
+ using difference_type = typename string_type::difference_type;
- template <typename C>
- struct dir_path_kind;
+ // The idea is as follows: path_ is always the "traditional" form; that
+ // is, "/" for the root directory and "/tmp" (no trailing slash) for the
+ // rest. This means we can return/store references to path_.
+ //
+ // Then we have diff_ which is the size difference between path_ and its
+ // "pure" part, that is, without any trailing slashes, even for "/". So:
+ //
+ // diff_ == -1 -- trailing slash in path_ (the "/" case)
+ // diff_ == 0 -- no trailing slash
+ //
+ // Finally, to represent non-root ("/") trailing slashes we use positive
+ // diff_ values. In this case diff_ is interpreted as a 1-based index in
+ // the path_traits::directory_separators string.
+ //
+ // Notes:
+ // - If path_ is empty, then diff_ can only be 0.
+ // - We could have used a much narrower integer for diff_.
+ //
+ string_type path_;
+ difference_type diff_;
- template <typename C>
- struct any_path_kind
- {
- typedef path_data<C> base_type;
- typedef basic_path<C, dir_path_kind<C>> dir_type;
+ size_type
+ _size () const {return path_.size () + (diff_ < 0 ? -1 : 0);}
+
+ void
+ _swap (path_data& d) {path_.swap (d.path_); std::swap (diff_, d.diff_);}
+
+ void
+ _clear () {path_.clear (); diff_ = 0;}
+
+ // Constructors.
+ //
+ path_data (): diff_ (0) {}
+
+ path_data (string_type&& p, difference_type d)
+ : path_ (std::move (p)), diff_ (path_.empty () ? 0 : d) {}
+
+ explicit
+ path_data (string_type&& p)
+ : path_ (std::move (p)), diff_ (0)
+ {
+ size_type n (path_.size ()), i;
+
+ if (n != 0 && (i = path_traits<C>::separator_index (path_[n - 1])) != 0)
+ {
+ if (n == 1) // The "/" case.
+ diff_ = -1;
+ else
+ {
+ diff_ = i;
+ path_.pop_back ();
+ }
+ }
+ }
};
template <typename C>
- struct dir_path_kind
+ struct any_path_kind
{
- typedef basic_path<C, any_path_kind<C>> base_type;
- typedef basic_path<C, dir_path_kind<C>> dir_type;
- };
+ class base_type: protected path_data<C> // In essence protected path_data.
+ {
+ protected:
+ using path_data<C>::path_data;
- typedef basic_path<char, any_path_kind<char>> path;
- typedef basic_path<char, dir_path_kind<char>> dir_path;
- typedef invalid_basic_path<char> invalid_path;
+ base_type () = default;
+ base_type (path_data<C>&& d): path_data<C> (std::move (d)) {}
+ };
- typedef basic_path<wchar_t, any_path_kind<wchar_t>> wpath;
- typedef basic_path<wchar_t, dir_path_kind<wchar_t>> dir_wpath;
- typedef invalid_basic_path<wchar_t> invalid_wpath;
+ using dir_type = basic_path<C, dir_path_kind<C>>;
+
+ // Init and cast.
+ //
+ // If exact is true, return the path if the initialization was successful,
+ // that is, the passed string is a valid path and no modifications were
+ // necessary. Otherwise, return the empty object and leave the passed
+ // string untouched.
+ //
+ // If extact is false, throw invalid_path if the string is not a valid
+ // path (e.g., uses an unsupported path notation on Windows).
+ //
+ using data_type = path_data<C>;
+ using string_type = std::basic_string<C>;
+
+ static data_type
+ init (string_type&&, bool exact = false);
+
+ static void
+ cast (data_type&) {}
+ };
template <typename C>
- class path_data
+ struct dir_path_kind
{
- public:
- typedef std::basic_string<C> string_type;
+ using base_type = basic_path<C, any_path_kind<C>>;
+ using dir_type = basic_path<C, dir_path_kind<C>>;
- path_data () = default;
+ // Init and cast.
+ //
+ using data_type = path_data<C>;
+ using string_type = std::basic_string<C>;
- explicit
- path_data (string_type s): path_ (std::move (s)) {}
+ static data_type
+ init (string_type&&, bool exact = false);
- protected:
- string_type path_;
+ static void
+ cast (data_type&);
};
template <typename C, typename K>
class basic_path: public K::base_type
{
public:
- typedef std::basic_string<C> string_type;
- typedef typename string_type::size_type size_type;
-
- typedef typename K::base_type base_type;
- typedef typename K::dir_type dir_type;
-
- typedef path_traits<C> traits;
+ using string_type = std::basic_string<C>;
+ using size_type = typename string_type::size_type;
+ using difference_type = typename string_type::difference_type;
+ using traits = path_traits<C>;
struct iterator;
- typedef std::reverse_iterator<iterator> reverse_iterator;
+ using reverse_iterator = std::reverse_iterator<iterator>;
- // Create a special empty path. Note that we have to provide our
- // own implementation rather than using '=default' to make clang
- // allow default-initialized const instances of this type.
+ using base_type = typename K::base_type;
+ using dir_type = typename K::dir_type;
+
+ // Create a special empty path. Note that we have to provide our own
+ // implementation rather than using '=default' to make clang allow
+ // default-initialized const instances of this type.
//
- basic_path () {};
+ basic_path () {}
// Constructors that initialize a path from a string argument throw the
// invalid_path exception if the string is not a valid path (e.g., uses
// unsupported path notations on Windows).
//
explicit
- basic_path (C const* s): base_type (s) {init (this->path_);}
+ basic_path (C const* s): base_type (K::init (s)) {}
basic_path (C const* s, size_type n)
- : base_type (string_type (s, n)) {init (this->path_);}
+ : base_type (K::init (string_type (s, n))) {}
explicit
- basic_path (string_type s): base_type (std::move (s)) {init (this->path_);}
+ basic_path (string_type s): base_type (K::init (std::move (s))) {}
basic_path (const string_type& s, size_type n)
- : base_type (string_type (s, 0, n)) {init (this->path_);}
+ : base_type (K::init (string_type (s, 0, n))) {}
basic_path (const string_type& s, size_type p, size_type n)
- : base_type (string_type (s, p, n)) {init (this->path_);}
+ : base_type (K::init (string_type (s, p, n))) {}
// Create a path using the exact string representation. If the string is
// not a valid path or if it would require a modification, then empty path
// is created instead and the passed string rvalue-reference is left
// untouched. Note that no exception is thrown if the path is invalid. See
- // also string()&& below.
+ // also representation()&& below.
//
enum exact_type {exact};
basic_path (string_type&& s, exact_type)
- {
- if (init (s, true))
- this->path_ = std::move (s);
- }
+ : base_type (K::init (std::move (s), true)) {}
- // Create a path as a sub-path identified by the [begin, end)
- // range of components.
+ // Create a path as a sub-path identified by the [begin, end) range of
+ // components.
//
basic_path (const iterator& begin, const iterator& end);
@@ -340,13 +463,13 @@ namespace butl
: basic_path (rend.base (), rbegin.base ()) {}
void
- swap (basic_path& p) {this->path_.swap (p.path_);}
+ swap (basic_path& p) {this->_swap (p);}
void
- clear () {this->path_.clear ();}
+ clear () {this->_clear ();}
- // Get/set current working directory. Throw std::system_error
- // to report the underlying OS errors.
+ // Get/set current working directory. Throw std::system_error to report
+ // the underlying OS errors.
//
static dir_type
current () {return dir_type (traits::current ());}
@@ -375,19 +498,22 @@ namespace butl
static basic_path
temp_path (const string_type& prefix)
{
- return temp_directory () / basic_path (traits::temp_name (prefix));
+ return temp_directory () / traits::temp_name (prefix);
}
public:
bool
empty () const {return this->path_.empty ();}
+ // Note that size does not include the trailing separator except for
+ // the root case.
+ //
size_type
size () const {return this->path_.size ();}
- // Return true if this path doesn't have any directories. Note
- // that "/foo" is not a simple path (it is "foo" in root directory)
- // while "/" is (it is the root directory).
+ // Return true if this path doesn't have any directories. Note that "/foo"
+ // is not a simple path (it is "foo" in root directory) while "/" is (it
+ // is the root directory).
//
bool
simple () const;
@@ -396,10 +522,7 @@ namespace butl
absolute () const;
bool
- relative () const
- {
- return !absolute ();
- }
+ relative () const {return !absolute ();}
bool
root () const;
@@ -421,33 +544,35 @@ namespace butl
sup (const basic_path&) const;
public:
- // Return the path without the directory part.
+ // Return the path without the directory part. Leaf of a directory is
+ // itself a directory (contains trailing slash). Leaf of a root is the
+ // path itself.
//
basic_path
leaf () const;
// Return the path without the specified directory part. Throws
- // invalid_path if the directory is not a prefix of *this. Expects
- // both paths to be normalized.
+ // invalid_path if the directory is not a prefix of *this. Expects both
+ // paths to be normalized.
//
basic_path
leaf (basic_path const&) const;
- // Return the directory part of the path or empty path if
- // there is no directory.
+ // Return the directory part of the path or empty path if there is no
+ // directory. Directory of a root is an empty path.
//
dir_type
directory () const;
- // Return the directory part of the path without the specified
- // leaf part. Throws invalid_path if the leaf is not a suffix of
- // *this. Expects both paths to be normalized.
+ // Return the directory part of the path without the specified leaf part.
+ // Throws invalid_path if the leaf is not a suffix of *this. Expects both
+ // paths to be normalized.
//
dir_type
directory (basic_path const&) const;
- // Return the root directory of the path or empty path if
- // the directory is not absolute.
+ // Return the root directory of the path or empty path if the directory is
+ // not absolute.
//
dir_type
root_directory () const;
@@ -476,25 +601,33 @@ namespace butl
public:
struct iterator
{
- typedef string_type value_type;
- typedef string_type* pointer;
- typedef string_type reference;
- typedef std::ptrdiff_t difference_type;
- typedef std::bidirectional_iterator_tag iterator_category;
+ using value_type = string_type ;
+ using pointer = string_type*;
+ using reference = string_type ;
+ using size_type = typename string_type::size_type;
+ using difference_type = std::ptrdiff_t ;
+ using iterator_category = std::bidirectional_iterator_tag ;
- typedef typename string_type::size_type size_type;
+ using data_type = path_data<C>;
iterator (): p_ (nullptr) {}
- iterator (const string_type& p, size_type b, size_type e)
- : p_ (&p), b_ (b), e_ (e) {}
+ iterator (const data_type* p, size_type b, size_type e)
+ : p_ (p), b_ (b), e_ (e) {}
iterator&
operator++ ()
{
- b_ = e_;
+ const string_type& s (p_->path_);
- if (b_ != string_type::npos)
- e_ = traits::find_separator (*p_, ++b_);
+ // Position past trailing separator, if any.
+ //
+ b_ = e_ != string_type::npos && ++e_ != s.size ()
+ ? e_
+ : string_type::npos;
+
+ // Find next trailing separator.
+ //
+ e_ = b_ != string_type::npos ? traits::find_separator (s, b_) : b_;
return *this;
}
@@ -502,13 +635,21 @@ namespace butl
iterator&
operator-- ()
{
- e_ = b_;
-
- b_ = e_ == string_type::npos // Last component?
- ? traits::rfind_separator (*p_)
- : (--e_ == 0 // First empty component?
- ? string_type::npos
- : traits::rfind_separator (*p_, e_ - 1));
+ const string_type& s (p_->path_);
+
+ // Find the new end.
+ //
+ e_ = b_ == string_type::npos // Past end?
+ ? (traits::is_separator (s.back ()) // Have trailing slash?
+ ? s.size () - 1
+ : string_type::npos)
+ : b_ - 1;
+
+ // Find the new begin.
+ //
+ b_ = e_ == 0 // Empty component?
+ ? string_type::npos
+ : traits::rfind_separator (s, e_ != string_type::npos ? e_ - 1 : e_);
b_ = b_ == string_type::npos // First component?
? 0
@@ -523,9 +664,26 @@ namespace butl
iterator
operator-- (int) {iterator r (*this); operator-- (); return r;}
- string_type operator* () const
+ string_type
+ operator* () const
+ {
+ return string_type (p_->path_,
+ b_,
+ e_ != string_type::npos ? e_ - b_ : e_);
+ }
+
+ // Return the directory separator after this component or '\0' if there
+ // is none. This, for example, can be used to determine if the last
+ // component is a directory.
+ //
+ C
+ separator () const
{
- return string_type (*p_, b_, (e_ != string_type::npos ? e_ - b_ : e_));
+ return e_ != string_type::npos
+ ? p_->path_[e_]
+ : (p_->diff_ > 0
+ ? path_traits<C>::directory_separators[p_->diff_ - 1]
+ : 0);
}
pointer operator-> () const = delete;
@@ -542,10 +700,11 @@ namespace butl
private:
friend class basic_path;
- // b != npos && e == npos - last component
+ // b - first character of component
+ // e - separator after component (or npos if none)
// b == npos && e == npos - one past last component (end)
//
- const string_type* p_;
+ const data_type* p_;
size_type b_;
size_type e_;
};
@@ -558,15 +717,15 @@ namespace butl
public:
// Normalize the path. This includes collapsing the '.' and '..'
- // directories if possible, collapsing multiple directory
- // separators, and converting all directory separators to the
- // canonical form. Return *this.
+ // directories if possible, collapsing multiple directory separators, and
+ // converting all directory separators to the canonical form. Return
+ // *this.
//
basic_path&
normalize ();
- // Make the path absolute using the current directory unless
- // it is already absolute. Return *this.
+ // Make the path absolute using the current directory unless it is already
+ // absolute. Return *this.
//
basic_path&
complete ();
@@ -582,7 +741,7 @@ namespace butl
basic_path&
operator/= (basic_path const&);
- // Append a single path component (must not contain directory separators)
+ // Combine a single path component (must not contain directory separators)
// as a string, without first constructing the path object.
//
basic_path&
@@ -591,47 +750,20 @@ namespace butl
basic_path&
operator/= (const C*);
- basic_path
- operator+ (string_type const& s) const
- {
- return basic_path (this->path_ + s);
- }
-
- basic_path
- operator+ (const C* s) const
- {
- return basic_path (this->path_ + s);
- }
-
- basic_path
- operator+ (C c) const
- {
- return basic_path (this->path_ + c);
- }
-
+ // Append to the end of the path (normally an extension, etc).
+ //
basic_path&
- operator+= (string_type const& s)
- {
- this->path_ += s;
- return *this;
- }
+ operator+= (string_type const&);
basic_path&
- operator+= (const C* s)
- {
- this->path_ += s;
- return *this;
- }
+ operator+= (const C*);
basic_path&
- operator+= (C c)
- {
- this->path_ += c;
- return *this;
- }
+ operator+= (C);
- // Note that comparison is case-insensitive if the filesystem is
- // not case-sensitive (e.g., Windows).
+ // Note that comparison is case-insensitive if the filesystem is not
+ // case-sensitive (e.g., Windows). And it ignored trailing slashes
+ // except for the root case.
//
template <typename K1>
int
@@ -639,56 +771,88 @@ namespace butl
return traits::compare (this->path_, x.path_);}
public:
+ // Path string and representation. The string does not contain the
+ // trailing slash except for the root case. In other words, it is the
+ // "traditional" spelling of the path that can be passed to system calls,
+ // etc. Representation, on the other hand is the "precise" spelling that
+ // includes the trailing slash, if any. One cannot always round-trip a
+ // path using string() but can using representation(). Note also that
+ // representation() returns a copy while string() returns a (tracking)
+ // reference.
+ //
const string_type&
string () const& {return this->path_;}
- // Moves the underlying path string out of the path object. The
- // path object becomes empty. Usage: std::move (p).string ().
+ string_type
+ representation () const&;
+
+ // Moves the underlying path string out of the path object. The path
+ // object becomes empty. Usage: std::move (p).string ().
//
string_type
string () && {string_type r; r.swap (this->path_); return r;}
- // If possible, return a POSIX representation of the path. For example,
- // for a Windows path in the form foo\bar this function will return
- // foo/bar. If it is not possible to create a POSIX representation for
- // this path (e.g., c:\foo), this function will throw the invalid_path
- // exception.
+ string_type
+ representation () &&;
+
+ // Trailing directory separator or '\0' if there is none.
+ //
+ C
+ separator () const;
+
+ // As above but return it as a (potentially empty) string.
+ //
+ string_type
+ separator_string () const;
+
+ // If possible, return a POSIX version of the path. For example, for a
+ // Windows path in the form foo\bar this function will return foo/bar. If
+ // it is not possible to create a POSIX version for this path (e.g.,
+ // c:\foo), this function will throw the invalid_path exception.
//
string_type
posix_string () const;
+ // Implementation details.
+ //
protected:
- basic_path (string_type s, bool i): base_type (std::move (s))
- {
- if (i)
- init (this->path_);
- }
+ using data_type = path_data<C>;
+
+ // Direct initialization without init()/cast().
+ //
+ explicit
+ basic_path (data_type&& d): base_type (std::move (d)) {}
+
+ using base_type::_size;
- // Common implementation for operator=/().
+ // Common implementation for operator/= and operator+=.
//
void
- combine (const C*, size_type);
+ combine (const C*, size_type, difference_type);
- private:
- template <class P, class C1, class K1>
- friend P butl::path_cast (const basic_path<C1, K1>&);
+ void
+ combine (const C*, size_type);
- template <class P, class C1, class K1>
- friend P butl::path_cast (basic_path<C1, K1>&&);
+ void
+ append (const C*, size_type);
- // If exact is true, return whether the initialization was successful,
- // that is, the passed string is a valid path and no modifications were
- // necessary. Otherwise (extact is false), throw invalid_path if the
- // string is not a valid path (e.g., uses an unsupported path notation on
- // Windows).
+ // Friends.
//
- bool
- init (string_type& s, bool exact = false);
+ template <class C1, class K1>
+ friend class basic_path;
+
+ template <class C1, class K1, class K2>
+ friend basic_path<C1, K1>
+ path_cast_impl (const basic_path<C1, K2>&, basic_path<C1, K1>*);
+
+ template <class C1, class K1, class K2>
+ friend basic_path<C1, K1>
+ path_cast_impl (basic_path<C1, K2>&&, basic_path<C1, K1>*);
};
template <typename C, typename K>
inline basic_path<C, K>
- operator/ (basic_path<C, K> const& x, basic_path<C, K> const& y)
+ operator/ (const basic_path<C, K>& x, const basic_path<C, K>& y)
{
basic_path<C, K> r (x);
r /= y;
@@ -697,7 +861,7 @@ namespace butl
template <typename C, typename K>
inline basic_path<C, K>
- operator/ (basic_path<C, K> const& x, std::basic_string<C> const& y)
+ operator/ (const basic_path<C, K>& x, const std::basic_string<C>& y)
{
basic_path<C, K> r (x);
r /= y;
@@ -706,13 +870,40 @@ namespace butl
template <typename C, typename K>
inline basic_path<C, K>
- operator/ (basic_path<C, K> const& x, const C* y)
+ operator/ (const basic_path<C, K>& x, const C* y)
{
basic_path<C, K> r (x);
r /= y;
return r;
}
+ template <typename C, typename K>
+ inline basic_path<C, K>
+ operator+ (const basic_path<C, K>& x, const std::basic_string<C>& y)
+ {
+ basic_path<C, K> r (x);
+ r += y;
+ return r;
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>
+ operator+ (const basic_path<C, K>& x, const C* y)
+ {
+ basic_path<C, K> r (x);
+ r += y;
+ return r;
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>
+ operator+ (const basic_path<C, K>& x, C y)
+ {
+ basic_path<C, K> r (x);
+ r += y;
+ return r;
+ }
+
template <typename C, typename K1, typename K2>
inline bool
operator== (const basic_path<C, K1>& x, const basic_path<C, K2>& y)
diff --git a/butl/path.cxx b/butl/path.cxx
index 46e36fd..9325c1e 100644
--- a/butl/path.cxx
+++ b/butl/path.cxx
@@ -60,8 +60,6 @@ namespace butl
LIBBUTL_EXPORT path_traits<char>::string_type path_traits<char>::
current ()
{
- // @@ throw system_error (and in the other current() versions).
-
#ifdef _WIN32
char cwd[_MAX_PATH];
if (_getcwd (cwd, _MAX_PATH) == 0)
@@ -72,7 +70,7 @@ namespace butl
throw system_error (errno, system_category ());
#endif
- return string_type (cwd);
+ return cwd;
}
template <>
@@ -147,17 +145,15 @@ namespace butl
{
#ifdef _WIN32
char d[_MAX_PATH + 1];
- DWORD r (GetTempPathA (_MAX_PATH + 1, d));
-
- if (r == 0)
+ if (GetTempPathA (_MAX_PATH + 1, d) == 0)
{
string e (last_error_msg ());
throw system_error (ENOTDIR, system_category (), e);
}
- return string_type (d);
+ return d;
#else
- return string_type (butl::temp_directory ());
+ return butl::temp_directory ();
#endif
}
@@ -177,12 +173,12 @@ namespace butl
home ()
{
#ifndef _WIN32
- return string_type (butl::home ());
+ return butl::home ();
#else
// Could be set by, e.g., MSYS and Cygwin shells.
//
if (const char* h = getenv ("HOME"))
- return string_type (h);
+ return h;
char h[_MAX_PATH];
HRESULT r (SHGetFolderPathA (NULL, CSIDL_PROFILE, NULL, 0, h));
@@ -193,7 +189,7 @@ namespace butl
throw system_error (ENOTDIR, system_category (), e);
}
- return string_type (h);
+ return h;
#endif
}
@@ -240,7 +236,7 @@ namespace butl
throw system_error (EINVAL, system_category ());
#endif
- return string_type (wcwd);
+ return wcwd;
}
template <>
@@ -269,9 +265,7 @@ namespace butl
{
#ifdef _WIN32
wchar_t d[_MAX_PATH + 1];
- DWORD r (GetTempPathW (_MAX_PATH + 1, d));
-
- if (r == 0)
+ if (GetTempPathW (_MAX_PATH + 1, d) == 0)
{
string e (last_error_msg ());
throw system_error (ENOTDIR, system_category (), e);
@@ -293,7 +287,7 @@ namespace butl
throw system_error (ENOTSUP, system_category ());
#endif
- return string_type (d);
+ return d;
}
template <>
@@ -319,12 +313,12 @@ namespace butl
if (r == PATH_MAX)
throw system_error (ENOTSUP, system_category ());
- return string_type (d);
+ return d;
#else
// Could be set by, e.g., MSYS and Cygwin shells.
//
if (const wchar_t* h = _wgetenv (L"HOME"))
- return string_type (h);
+ return h;
wchar_t h[_MAX_PATH];
HRESULT r (SHGetFolderPathW (NULL, CSIDL_PROFILE, NULL, 0, h));
@@ -335,7 +329,7 @@ namespace butl
throw system_error (ENOTDIR, system_category (), e);
}
- return string_type (h);
+ return h;
#endif
}
diff --git a/butl/path.ixx b/butl/path.ixx
index 48d6576..3d1f20c 100644
--- a/butl/path.ixx
+++ b/butl/path.ixx
@@ -25,41 +25,57 @@ namespace butl
}
#endif
- // @@ Should only enable_if P is basic_path<C, K1>.
- //
+ template <class C, class K1, class K2>
+ inline basic_path<C, K1>
+ path_cast_impl (const basic_path<C, K2>& p, basic_path<C, K1>*)
+ {
+ typename basic_path<C, K1>::data_type d (
+ typename basic_path<C, K1>::string_type (p.path_), p.diff_);
+ K1::cast (d);
+ return basic_path<C, K1> (std::move (d));
+ }
+
+ template <class C, class K1, class K2>
+ inline basic_path<C, K1>
+ path_cast_impl (basic_path<C, K2>&& p, basic_path<C, K1>*)
+ {
+ typename basic_path<C, K1>::data_type d (std::move (p.path_), p.diff_);
+ K1::cast (d);
+ return basic_path<C, K1> (std::move (d));
+ }
+
template <class P, class C, class K>
inline P
path_cast (const basic_path<C, K>& p)
{
- return P (p.path_, false);
+ return path_cast_impl (p, static_cast<P*> (nullptr));
}
template <class P, class C, class K>
inline P
path_cast (basic_path<C, K>&& p)
{
- return P (std::move (p.path_), false);
+ return path_cast_impl (std::move (p), static_cast<P*> (nullptr));
}
template <typename C, typename K>
inline bool basic_path<C, K>::
simple () const
{
- return
-#ifndef _WIN32
- root () ||
-#endif
- traits::find_separator (this->path_) == string_type::npos;
+ return empty () ||
+ traits::rfind_separator (this->path_, _size () - 1) == string_type::npos;
}
template <typename C, typename K>
inline bool basic_path<C, K>::
absolute () const
{
+ const string_type& s (this->path_);
+
#ifdef _WIN32
- return this->path_.size () > 1 && this->path_[1] == ':';
+ return s.size () > 1 && s[1] == ':';
#else
- return !this->path_.empty () && traits::is_separator (this->path_[0]);
+ return s.size () != 0 && traits::is_separator (s[0]);
#endif
}
@@ -67,10 +83,12 @@ namespace butl
inline bool basic_path<C, K>::
root () const
{
+ const string_type& s (this->path_);
+
#ifdef _WIN32
- return this->path_.size () == 2 && this->path_[1] == ':';
+ return s.size () == 2 && s[1] == ':';
#else
- return this->path_.size () == 1 && traits::is_separator (this->path_[0]);
+ return s.size () == 1 && traits::is_separator (s[0]);
#endif
}
@@ -78,95 +96,116 @@ namespace butl
inline bool basic_path<C, K>::
sub (const basic_path& p) const
{
- size_type n (p.path_.size ());
+ // The thinking here is that we can use the full string representations
+ // (including the trailing slash in "/").
+ //
+ const string_type& ps (p.path_);
+ size_type pn (ps.size ());
- if (n == 0)
+ if (pn == 0)
return true;
- size_type m (this->path_.size ());
+ const string_type& s (this->path_);
+ size_type n (s.size ());
// The second condition guards against the /foo-bar vs /foo case.
//
- return m >= n &&
- traits::compare (this->path_.c_str (), n, p.path_.c_str (), n) == 0 &&
- (traits::is_separator (p.path_.back ()) || // p ends with a separator
- m == n || // *this == p
- traits::is_separator (this->path_[n])); // next char is a separator
+ return n >= pn &&
+ traits::compare (s.c_str (), pn, ps.c_str (), pn) == 0 &&
+ (traits::is_separator (ps.back ()) || // p ends with a separator
+ n == pn || // *this == p
+ traits::is_separator (s[pn])); // next char is a separator
}
template <typename C, typename K>
inline bool basic_path<C, K>::
sup (const basic_path& p) const
{
- size_type n (p.path_.size ());
+ // The thinking here is that we can use the full string representations
+ // (including the trailing slash in "/").
+ //
+ const string_type& ps (p.path_);
+ size_type pn (ps.size ());
- if (n == 0)
+ if (pn == 0)
return true;
- size_type m (this->path_.size ());
+ const string_type& s (this->path_);
+ size_type n (s.size ());
// The second condition guards against the /foo-bar vs bar case.
//
- return m >= n &&
- traits::compare (
- this->path_.c_str () + m - n, n, p.path_.c_str (), n) == 0 &&
- (m == n || // *this == p
- traits::is_separator (this->path_[m - n - 1])); // prev char separator
+ return n >= pn &&
+ traits::compare (s.c_str () + n - pn, pn, ps.c_str (), pn) == 0 &&
+ (n == pn || // *this == p
+ traits::is_separator (s[n - pn - 1])); // previous char is a separator
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K> basic_path<C, K>::
+ leaf () const
+ {
+ const string_type& s (this->path_);
+ size_type n (_size ());
+
+ size_type p (n != 0
+ ? traits::rfind_separator (s, n - 1)
+ : string_type::npos);
+
+ return p != string_type::npos
+ ? basic_path (data_type (string_type (s, p + 1), this->diff_))
+ : *this;
+ }
+
+ template <typename C, typename K>
+ inline typename basic_path<C, K>::dir_type basic_path<C, K>::
+ directory () const
+ {
+ const string_type& s (this->path_);
+ size_type n (_size ());
+
+ size_type p (n != 0
+ ? traits::rfind_separator (s, n - 1)
+ : string_type::npos);
+
+ return p != string_type::npos
+ ? dir_type (data_type (string_type (s, 0, p + 1))) // Include slash.
+ : dir_type ();
}
template <typename C, typename K>
inline auto basic_path<C, K>::
begin () const -> iterator
{
- size_type b, e;
+ const string_type& s (this->path_);
- if (this->path_.empty ())
- b = e = string_type::npos;
+ size_type b (s.empty () ? string_type::npos : 0);
+ size_type e (b == 0 ? traits::find_separator (s) : b);
-#ifndef _WIN32
- else if (root ())
- {
- // We want to return a single empty component. Here we return
- // the begin position one past the end. Not sure if this legal.
- //
- b = 1;
- e = string_type::npos;
- }
-#endif
- else
- {
- b = 0;
- e = traits::find_separator (this->path_);
- }
-
- return iterator (this->path_, b, e);
+ return iterator (this, b, e);
}
template <typename C, typename K>
inline auto basic_path<C, K>::
end () const -> iterator
{
- return iterator (this->path_, string_type::npos, string_type::npos);
+ return iterator (this, string_type::npos, string_type::npos);
}
template <typename C, typename K>
inline basic_path<C, K>::
basic_path (const iterator& b, const iterator& e)
+ : base_type (
+ b == e
+ ? data_type ()
+ // We need to include the trailing separator but it is implied if
+ // e == end().
+ //
+ : (e.b_ != string_type::npos
+ ? data_type (string_type (b.p_->path_, b.b_, e.b_ - b.b_))
+ : data_type (string_type (b.p_->path_, b.b_), b.p_->diff_)))
{
//assert (b.p_ == e.p_);
-
- if (b != e)
- {
- this->path_.assign (
- *b.p_, b.b_, (e.b_ != string_type::npos ? e.b_ - b.b_ - 1 : e.b_));
-
-#ifndef _WIN32
- if (this->path_.empty ())
- this->path_ = '/';
-#endif
-
- // No init() should be necessary.
- }
}
template <typename C, typename K>
@@ -187,7 +226,7 @@ namespace butl
complete ();
normalize ();
#else
- traits::realize (this->path_);
+ traits::realize (this->path_); // Note: we retail trailing slash.
#endif
return *this;
}
@@ -196,24 +235,34 @@ namespace butl
inline typename basic_path<C, K>::dir_type basic_path<C, K>::
root_directory () const
{
- return absolute ()
#ifdef _WIN32
- // Disambiguate with dir_type(string_type, bool).
- //
- ? dir_type (this->path_, static_cast<size_type> (2))
+ // Note: on Windows we may have "c:" but still need to return "c:\".
+ //
+ const string_type& s (this->path_);
+
+ return absolute ()
+ ? dir_type (
+ s.size () > 2
+ ? data_type (string_type (s, 0, 3))
+ : data_type (string_type (s), this->diff_ != 0 ? this->diff_ : 1))
+ : dir_type ();
#else
- ? dir_type ("/")
-#endif
+ return absolute ()
+ ? dir_type (data_type ("/", -1))
: dir_type ();
+#endif
+
}
template <typename C, typename K>
inline basic_path<C, K> basic_path<C, K>::
base () const
{
- size_type p (traits::find_extension (this->path_));
+ const string_type& s (this->path_);
+ size_type p (traits::find_extension (s));
+
return p != string_type::npos
- ? basic_path (this->path_.c_str (), p)
+ ? basic_path (data_type (string_type (s, 0, p), this->diff_))
: *this;
}
@@ -221,8 +270,9 @@ namespace butl
inline const C* basic_path<C, K>::
extension () const
{
- size_type p (traits::find_extension (this->path_));
- return p != string_type::npos ? this->path_.c_str () + p + 1 : nullptr;
+ const string_type& s (this->path_);
+ size_type p (traits::find_extension (s));
+ return p != string_type::npos ? s.c_str () + p + 1 : nullptr;
}
#ifndef _WIN32
@@ -236,16 +286,160 @@ namespace butl
template <typename C, typename K>
inline void basic_path<C, K>::
- combine (const C* r, size_type rn)
+ combine (const C* r, size_type rn, difference_type rd)
{
- size_type ln (this->path_.size ());
+ //assert (rn != 0);
- if (ln != 0 && rn != 0)
+ string_type& l (this->path_);
+ difference_type& d (this->diff_);
+
+ // Handle the separator. LHS should be empty or already have one.
+ //
+ switch (d)
{
- if (!traits::is_separator (this->path_[ln - 1]))
- this->path_ += traits::directory_separator;
+ case 0: if (!l.empty ()) throw invalid_basic_path<C> (l); break;
+ case -1: break; // Already in the string.
+ default: l += path_traits<C>::directory_separators[d - 1];
}
+ l.append (r, rn);
+ d = rd; // New trailing separator from RHS.
+ }
+
+ template <typename C, typename K>
+ inline void basic_path<C, K>::
+ combine (const C* r, size_type rn)
+ {
+ // If we do (dir_path / path) then we will end up with path. What should
+ // we end up if we do (dir_path / "foo") vs (dir_path / "foo/")? We cannot
+ // choose at runtime what kind of path to return. One (elaborate) option
+ // would be to handle the trailing slash but also call K::cast() so that
+ // dir_path gets the canonical trailing slash if one wasn't there.
+ //
+ // For now we won't allow the slash and will always add the canonical one
+ // for dir_path (via cast()).
+ //
+ if (traits::find_separator (r, rn) != nullptr)
+ throw invalid_basic_path<C> (r);
+
+ combine (r, rn, 0);
+ K::cast (*this);
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>& basic_path<C, K>::
+ operator/= (basic_path<C, K> const& r)
+ {
+ if (r.absolute () && !empty ()) // Allow ('' / '/foo').
+ throw invalid_basic_path<C> (r.path_);
+
+ if (!r.empty ())
+ combine (r.path_.c_str (), r.path_.size (), r.diff_);
+
+ return *this;
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>& basic_path<C, K>::
+ operator/= (string_type const& r)
+ {
+ if (size_type rn = r.size ())
+ combine (r.c_str (), rn);
+
+ return *this;
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>& basic_path<C, K>::
+ operator/= (const C* r)
+ {
+ if (size_type rn = string_type::traits_type::length (r))
+ combine (r, rn);
+
+ return *this;
+ }
+
+ template <typename C, typename K>
+ inline void basic_path<C, K>::
+ append (const C* r, size_type rn)
+ {
+ //assert (this->diff_ != -1); // Append to root?
this->path_.append (r, rn);
}
+
+ template <typename C, typename K>
+ inline basic_path<C, K>& basic_path<C, K>::
+ operator+= (string_type const& s)
+ {
+ append (s.c_str (), s.size ());
+ return *this;
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>& basic_path<C, K>::
+ operator+= (const C* s)
+ {
+ append (s, string_type::traits_type::length (s));
+ return *this;
+ }
+
+ template <typename C, typename K>
+ inline basic_path<C, K>& basic_path<C, K>::
+ operator+= (C c)
+ {
+ append (&c, 1);
+ return *this;
+ }
+
+ template <typename C, typename K>
+ inline auto basic_path<C, K>::
+ representation () const& -> string_type
+ {
+ string_type r (this->path_);
+
+ if (this->diff_ > 0)
+ r += path_traits<C>::directory_separators[this->diff_ - 1];
+
+ return r;
+ }
+
+ template <typename C, typename K>
+ inline auto basic_path<C, K>::
+ representation () && -> string_type
+ {
+ string_type r;
+ r.swap (this->path_);
+
+ if (this->diff_ > 0)
+ r += path_traits<C>::directory_separators[this->diff_ - 1];
+
+ return r;
+ }
+
+ template <typename C, typename K>
+ inline C basic_path<C, K>::
+ separator () const
+ {
+ return (this->diff_ == 0 ? 0 :
+ this->diff_ == -1 ? this->path_[0] :
+ path_traits<C>::directory_separators[this->diff_ - 1]);
+ }
+
+ template <typename C, typename K>
+ inline auto basic_path<C, K>::
+ separator_string () const -> string_type
+ {
+ C c (separator ());
+ return c == 0 ? string_type () : string_type (1, c);
+ }
+
+ template <typename C>
+ inline void dir_path_kind<C>::
+ cast (data_type& d)
+ {
+ // Add trailing slash if one isn't already there.
+ //
+ if (!d.path_.empty () && d.diff_ == 0)
+ d.diff_ = 1; // Canonical separator is always first.
+ }
}
diff --git a/butl/path.txx b/butl/path.txx
index 94fbd90..1d6995e 100644
--- a/butl/path.txx
+++ b/butl/path.txx
@@ -8,30 +8,51 @@ namespace butl
{
template <typename C, typename K>
basic_path<C, K> basic_path<C, K>::
- leaf () const
+ leaf (basic_path<C, K> const& d) const
{
- size_type p (traits::rfind_separator (this->path_));
+ size_type dn (d.path_.size ());
+
+ if (dn == 0)
+ return *this;
+
+ const string_type& s (this->path_);
- return p != string_type::npos
- ? basic_path (this->path_.c_str () + p + 1, this->path_.size () - p - 1)
- : *this;
+ if (!sub (d))
+ throw invalid_basic_path<C> (s);
+
+ // If there is implied trailing slash, add it to count. Unless it is
+ // "matched" by the implied slash on the other side.
+ //
+ if (d.diff_ > 0 && dn < s.size ())
+ dn++;
+
+ // Preserve trailing slash.
+ //
+ return basic_path (data_type (string_type (s, dn, s.size () - dn),
+ this->diff_));
}
template <typename C, typename K>
typename basic_path<C, K>::dir_type basic_path<C, K>::
- directory () const
+ directory (basic_path<C, K> const& l) const
{
- if (root ())
- return dir_type ();
+ size_type ln (l.path_.size ());
- size_type p (traits::rfind_separator (this->path_));
+ const string_type& s (this->path_);
- // Include the trailing slash so that we get correct behavior
- // if directory is root.
- //
- return p != string_type::npos
- ? dir_type (this->path_.c_str (), p + 1)
- : dir_type ();
+ if (ln == 0)
+ {
+ if (this->diff_ == 0) // Must be a directory.
+ throw invalid_basic_path<C> (s);
+
+ return dir_type (data_type (string_type (s), this->diff_));
+ }
+
+ if (!sup (l))
+ throw invalid_basic_path<C> (s);
+
+ return dir_type (
+ data_type (string_type (s, 0, s.size () - ln))); // Include slash.
}
#ifdef _WIN32
@@ -55,85 +76,6 @@ namespace butl
#endif
template <typename C, typename K>
- basic_path<C, K>& basic_path<C, K>::
- operator/= (basic_path<C, K> const& r)
- {
- if (r.absolute () && !this->path_.empty ()) // Allow ('' / '/foo').
- throw invalid_basic_path<C> (r.path_);
-
- combine (r.path_.c_str (), r.path_.size ());
- return *this;
- }
-
- template <typename C, typename K>
- basic_path<C, K>& basic_path<C, K>::
- operator/= (string_type const& r)
- {
- if (traits::find_separator (r) != string_type::npos)
- throw invalid_basic_path<C> (r);
-
- combine (r.c_str (), r.size ());
- return *this;
- }
-
- template <typename C, typename K>
- basic_path<C, K>& basic_path<C, K>::
- operator/= (const C* r)
- {
- size_type rn (string_type::traits_type::length (r));
-
- if (traits::find_separator (r, rn) != nullptr)
- throw invalid_basic_path<C> (r);
-
- combine (r, rn);
- return *this;
- }
-
- template <typename C, typename K>
- basic_path<C, K> basic_path<C, K>::
- leaf (basic_path<C, K> const& d) const
- {
- size_type n (d.path_.size ());
-
- if (n == 0)
- return *this;
-
- if (!sub (d))
- throw invalid_basic_path<C> (this->path_);
-
- size_type m (this->path_.size ());
-
- if (n != m
-#ifndef _WIN32
- && !d.root ()
-#endif
- )
- n++; // Skip the directory separator (unless it is POSIX root).
-
- return basic_path (this->path_.c_str () + n, m - n);
- }
-
- template <typename C, typename K>
- typename basic_path<C, K>::dir_type basic_path<C, K>::
- directory (basic_path<C, K> const& l) const
- {
- size_type n (l.path_.size ());
-
- if (n == 0)
- return dir_type (this->path_);
-
- if (!sup (l))
- throw invalid_basic_path<C> (this->path_);
-
- size_type m (this->path_.size ());
-
- if (n != m)
- n++; // Skip the directory separator.
-
- return dir_type (this->path_.c_str (), m - n);
- }
-
- template <typename C, typename K>
basic_path<C, K> basic_path<C, K>::
relative (basic_path<C, K> d) const
{
@@ -144,7 +86,7 @@ namespace butl
if (sub (d))
break;
- r /= basic_path ("..");
+ r /= basic_path ("../");
// Roots of the paths do not match.
//
@@ -162,40 +104,61 @@ namespace butl
if (empty ())
return *this;
+ string_type& s (this->path_);
+ difference_type& d (this->diff_);
+
bool abs (absolute ());
typedef std::vector<string_type> paths;
paths ps;
- for (size_type b (0), e (traits::find_separator (this->path_)),
- n (this->path_.size ());;
- e = traits::find_separator (this->path_, b))
+ bool tsep (d != 0); // Trailing directory separator.
{
- string_type s (this->path_, b, e == string_type::npos ? e : e - b);
- ps.push_back (s);
+ size_type n (_size ());
- if (e == string_type::npos)
- break;
+ for (size_type b (0), e (traits::find_separator (s, 0, n));
+ ;
+ e = traits::find_separator (s, b, n))
+ {
+ ps.push_back (
+ string_type (s, b, (e == string_type::npos ? n : e) - b));
- ++e;
+ if (e == string_type::npos)
+ break;
- while (e < n && traits::is_separator (this->path_[e]))
++e;
- if (e == n)
- break;
+ // Skip consecutive directory separators.
+ //
+ while (e != n && traits::is_separator (s[e]))
+ ++e;
+
+ if (e == n)
+ break;
- b = e;
+ b = e;
+ }
+
+ // If the last component is "." or ".." then this is a directory.
+ //
+ if (!tsep)
+ {
+ const string_type& l (ps.back ());
+ size_type ln (l.size ());
+
+ if ((ln == 1 && l[0] == '.') ||
+ (ln == 2 && l[0] == '.' && l[1] == '.'))
+ tsep = true;
+ }
}
- // First collapse '.' and '..'.
+ // Collapse "." and "..".
//
paths r;
- for (typename paths::const_iterator i (ps.begin ()), e (ps.end ());
- i != e; ++i)
+ for (typename paths::iterator i (ps.begin ()), e (ps.end ()); i != e; ++i)
{
- string_type const& s (*i);
+ string_type& s (*i);
size_type n (s.size ());
if (n == 1 && s[0] == '.')
@@ -222,7 +185,7 @@ namespace butl
}
}
- r.push_back (s);
+ r.push_back (std::move (s));
}
// Reassemble the path.
@@ -238,10 +201,20 @@ namespace butl
p += traits::directory_separator;
}
- if (p.empty () && !r.empty ())
- p += traits::directory_separator; // Root directory.
+ if (tsep && (!p.empty () || abs)) // Distinguish "/"-empty and "."-empty.
+ {
+ if (p.empty ())
+ {
+ p += traits::directory_separator;
+ d = -1;
+ }
+ else
+ d = 1; // Canonical separator is always first.
+ }
+ else
+ d = 0;
- this->path_.swap (p);
+ s.swap (p);
return *this;
}
@@ -257,10 +230,13 @@ namespace butl
traits::current (s);
}
- template <typename C, typename K>
- bool basic_path<C, K>::
- init (string_type& s, bool exact)
+ template <typename C>
+ auto any_path_kind<C>::
+ init (string_type&& s, bool exact) -> data_type
{
+ using size_type = typename string_type::size_type;
+ using difference_type = typename string_type::difference_type;
+
size_type n (s.size ());
#ifdef _WIN32
@@ -272,25 +248,58 @@ namespace butl
(n > 1 && s[0] == '\\' && s[1] == '\\'))
{
if (exact)
- return false;
+ return data_type ();
else
throw invalid_basic_path<C> (s);
}
#endif
- // Strip trailing slashes except for the case where the single slash
- // represents the root directory.
+ // Strip trailing slashes.
//
- for (; n > 1 && traits::is_separator (s[n - 1]); --n) ;
+ size_type m (n), di (0);
+ for (size_type i;
+ m != 0 && (i = path_traits<C>::separator_index (s[m - 1])) != 0;
+ --m) di = i;
- if (n != s.size ())
+ difference_type d (0);
+ if (size_t k = n - m)
{
- if (!exact)
- this->path_.resize (n);
+ // We can only accomodate one trailing slash in the exact mode.
+ //
+ if (exact && k > 1)
+ return data_type ();
- return !exact;
+ if (m == 0) // The "/" case.
+ {
+ ++m; // Keep one slash in the string.
+ d = -1;
+ }
+ else
+ d = di;
+
+ s.resize (m);
}
- return true;
+ return data_type (std::move (s), d);
+ }
+
+ template <typename C>
+ auto dir_path_kind<C>::
+ init (string_type&& s, bool exact) -> data_type
+ {
+ // If we don't already have the separator then this can't be the exact
+ // initialization.
+ //
+ if (exact && !s.empty () && !path_traits<C>::is_separator (s.back ()))
+ return data_type ();
+
+ data_type r (any_path_kind<C>::init (std::move (s), exact));
+
+ // Unless the result is empty, make sure we have the trailing slash.
+ //
+ if (!r.path_.empty () && r.diff_ == 0)
+ r.diff_ = 1; // Canonical separator is always first.
+
+ return r;
}
}
diff --git a/butl/process.cxx b/butl/process.cxx
index 9bb0ea2..5c9a0f0 100644
--- a/butl/process.cxx
+++ b/butl/process.cxx
@@ -281,13 +281,13 @@ namespace butl
for (size_t b (0), e (paths.find (traits::path_separator));
b != string::npos;)
{
- path p (string (paths, b, e != string::npos ? e - b : e));
+ dir_path p (string (paths, b, e != string::npos ? e - b : e));
// Empty path (i.e., a double colon or a colon at the beginning or end
// of PATH) means search in the current dirrectory.
//
if (p.empty ())
- p = path (".");
+ p = dir_path (".");
path dp (p / f);
diff --git a/tests/link/driver.cxx b/tests/link/driver.cxx
index a32a8dc..4a4a00f 100644
--- a/tests/link/driver.cxx
+++ b/tests/link/driver.cxx
@@ -43,8 +43,10 @@ link_file (const path& target, const path& link, bool hard, bool check_content)
#ifndef _WIN32
static bool
-link_dir (
- const dir_path& target, const dir_path& link, bool hard, bool check_content)
+link_dir (const dir_path& target,
+ const dir_path& link,
+ bool hard,
+ bool check_content)
{
try
{
@@ -53,8 +55,9 @@ link_dir (
else
mksymlink (target, link);
}
- catch (const system_error&)
+ catch (const system_error& e)
{
+ //cerr << e.what () << endl;
return false;
}
@@ -62,6 +65,7 @@ link_dir (
return true;
dir_path tp (target.absolute () ? target : link.directory () / target);
+
set<pair<entry_type, path>> te;
for (const dir_entry& de: dir_iterator (tp))
te.emplace (de.ltype (), de.path ());
@@ -112,7 +116,7 @@ main ()
// Create the file symlink using an unexistent file path.
//
- assert (link_file (fp / path ("a"), td / path ("sa"), false, false));
+ assert (link_file (fp + "-a", td / path ("sa"), false, false));
// Prepare the target directory.
//
diff --git a/tests/path/driver.cxx b/tests/path/driver.cxx
index ad76940..7ca36b7 100644
--- a/tests/path/driver.cxx
+++ b/tests/path/driver.cxx
@@ -30,14 +30,43 @@ main ()
static_assert (is_nothrow_move_constructible<dir_path>::value, "");
#endif
- assert (path ("/").string () == "/");
- assert (path ("//").string () == "/");
- assert (path ("/tmp/foo/").string () == "/tmp/foo");
+ auto test = [] (const char* p, const char* s, const char* r)
+ {
+ path x (p);
+ return x.string () == s && x.representation () == r;
+ };
+
+ auto dir_test = [] (const char* p, const char* s, const char* r)
+ {
+ dir_path x (p);
+ return x.string () == s && x.representation () == r;
+ };
+
+ assert (test ("/", "/", "/"));
+ assert (test ("//", "/", "/"));
+ assert (test ("/tmp/foo", "/tmp/foo", "/tmp/foo"));
+ assert (test ("/tmp/foo/", "/tmp/foo", "/tmp/foo/"));
+ assert (test ("/tmp/foo//", "/tmp/foo", "/tmp/foo/"));
+
#ifdef _WIN32
- assert (path ("/\\").string () == "/");
- assert (path ("C:").string () == "C:");
- assert (path ("C:\\").string () == "C:");
- assert (path ("C:\\tmp\\foo\\").string () == "C:\\tmp\\foo");
+ assert (test ("/\\", "/", "/"));
+ assert (test ("C:", "C:", "C:"));
+ assert (test ("C:\\", "C:", "C:\\"));
+ assert (test ("c:/", "c:", "c:/"));
+ assert (test ("C:\\tmp\\foo\\", "C:\\tmp\\foo", "C:\\tmp\\foo\\"));
+ assert (test ("C:\\tmp\\foo\\/\\", "C:\\tmp\\foo", "C:\\tmp\\foo\\"));
+#endif
+
+ assert (dir_test ("/", "/", "/"));
+ assert (dir_test ("/tmp/foo/", "/tmp/foo", "/tmp/foo/"));
+#ifndef _WIN32
+ assert (dir_test ("tmp/foo", "tmp/foo", "tmp/foo/"));
+#else
+ assert (dir_test ("tmp\\foo", "tmp\\foo", "tmp\\foo\\"));
+
+ assert (dir_test ("C:\\", "C:", "C:\\"));
+ assert (dir_test ("C:\\tmp/foo\\", "C:\\tmp/foo", "C:\\tmp/foo\\"));
+ assert (dir_test ("c:/tmp\\foo", "c:/tmp\\foo", "c:/tmp\\foo\\"));
#endif
// absolute/relative/root
@@ -45,51 +74,73 @@ main ()
#ifndef _WIN32
assert (path ("/").root ());
assert (path ("//").root ());
+ assert (!path ("/foo").root ());
assert (path ("/").absolute ());
assert (path ("/foo/bar").absolute ());
assert (path ("bar/baz").relative ());
+
+ assert (path ("/").root_directory ().representation () == "/");
+ assert (path ("/bar/baz").root_directory ().representation () == "/");
#else
assert (path ("C:").root ());
assert (path ("C:\\").root ());
+ assert (!path ("C:\\foo").root ());
+ assert (path ("C:").absolute ());
assert (path ("C:\\").absolute ());
assert (path ("C:\\foo\\bar").absolute ());
assert (path ("bar\\baz").relative ());
+
+ assert (path ("C:").root_directory ().representation () == "C:\\");
+ assert (path ("c:/").root_directory ().representation () == "c:/");
+ assert (path ("C:\\bar\\baz").root_directory ().representation () == "C:\\");
#endif
// leaf
//
+ assert (path ().leaf ().empty ());
#ifndef _WIN32
- assert (path ("/").leaf ().string () == "");
- assert (path ("/tmp").leaf ().string () == "tmp");
- assert (path ("//tmp").leaf ().string () == "tmp");
+ assert (path ("/").leaf ().representation () == "/");
+ assert (path ("/tmp").leaf ().representation () == "tmp");
+ assert (path ("/tmp/").leaf ().representation () == "tmp/");
+ assert (path ("//tmp").leaf ().representation () == "tmp");
#else
- assert (path ("C:").leaf ().string () == "C:");
- assert (path ("C:\\tmp").leaf ().string () == "tmp");
- assert (path ("C:\\\\tmp").leaf ().string () == "tmp");
+ assert (path ("C:\\").leaf ().representation () == "C:\\");
+ assert (path ("C:\\tmp").leaf ().representation () == "tmp");
+ assert (path ("C:\\tmp\\").leaf ().representation () == "tmp\\");
+ assert (path ("C:\\tmp/").leaf ().representation () == "tmp/");
+ assert (path ("C:\\\\tmp").leaf ().representation () == "tmp");
#endif
// directory
//
+ assert (path ().directory ().empty ());
#ifndef _WIN32
- assert (path ("/").directory ().string () == "");
- assert (path ("/tmp").directory ().string () == "/");
- assert (path ("//tmp").directory ().string () == "/");
+ assert (path ("/").directory ().representation () == "");
+ assert (path ("/tmp").directory ().representation () == "/");
+ assert (path ("/tmp/").directory ().representation () == "/");
+ assert (path ("//tmp").directory ().representation () == "//");
+ assert (path ("/tmp/foo").directory ().representation () == "/tmp/");
+ assert (path ("/tmp/foo/").directory ().representation () == "/tmp/");
#else
- assert (path ("C:").directory ().string () == "");
- assert (path ("C:\\tmp").directory ().string () == "C:");
- assert (path ("C:\\\\tmp").directory ().string () == "C:");
+ assert (path ("C:").directory ().representation () == "");
+ assert (path ("C:\\tmp").directory ().representation () == "C:\\");
+ assert (path ("C:\\\\tmp").directory ().representation () == "C:\\\\");
+ assert (path ("C:\\tmp\\foo").directory ().representation () == "C:\\tmp\\");
+ assert (path ("C:\\tmp/foo\\").directory ().representation () == "C:\\tmp/");
#endif
// base
//
- assert (path ("/").base ().string () == "/");
- assert (path ("/foo.txt").base ().string () == "/foo");
- assert (path (".txt").base ().string () == ".txt");
- assert (path ("/.txt").base ().string () == "/.txt");
- assert (path ("foo.txt.orig").base ().string () == "foo.txt");
+ assert (path ("/").base ().representation () == "/");
+ assert (path ("/foo.txt").base ().representation () == "/foo");
+ assert (path ("/foo.txt/").base ().representation () == "/foo/");
+ assert (path (".txt").base ().representation () == ".txt");
+ assert (path ("/.txt").base ().representation () == "/.txt");
+ assert (path ("foo.txt.orig").base ().representation () == "foo.txt");
#ifdef _WIN32
- assert (path ("C:").base ().string () == "C:");
- assert (path ("C:\\foo.txt").base ().string () == "C:\\foo");
+ assert (path ("C:").base ().representation () == "C:");
+ assert (path ("C:\\foo.txt").base ().representation () == "C:\\foo");
+ assert (path ("C:\\foo.txt\\").base ().representation () == "C:\\foo\\");
#endif
// iteration
@@ -117,8 +168,15 @@ main ()
{
path p ("foo/bar");
path::iterator i (p.begin ());
- assert (i != p.end () && *i == "foo");
- assert (++i != p.end () && *i == "bar");
+ assert (i != p.end () && *i == "foo" && i.separator () == '/');
+ assert (++i != p.end () && *i == "bar" && i.separator () == '\0');
+ assert (++i == p.end ());
+ }
+ {
+ path p ("foo/bar/");
+ path::iterator i (p.begin ());
+ assert (i != p.end () && *i == "foo" && i.separator () == '/');
+ assert (++i != p.end () && *i == "bar" && i.separator () == '/');
assert (++i == p.end ());
}
{
@@ -148,7 +206,7 @@ main ()
{
path p ("/");
path::iterator i (p.begin ());
- assert (i != p.end () && *i == "");
+ assert (i != p.end () && *i == "" && i.separator () == '/');
assert (++i == p.end ());
}
{
@@ -162,87 +220,128 @@ main ()
// iterator range construction
//
{
- path p;
- assert (path (p.begin (), p.end ()) == p);
- }
- {
- path p ("foo");
- assert (path (p.begin (), p.end ()) == p);
- assert (path (++p.begin (), p.end ()) == path ());
- }
- {
- path p ("foo/bar");
- assert (path (p.begin (), p.end ()) == p);
- assert (path (++p.begin (), p.end ()) == path ("bar"));
- assert (path (p.begin (), ++p.begin ()) == path ("foo"));
- }
- {
- path p ("/foo/bar");
- assert (path (p.begin (), p.end ()) == p);
- assert (path (++p.begin (), p.end ()) == path ("foo/bar"));
- assert (path (++(++p.begin ()), p.end ()) == path ("bar"));
+ auto test = [] (const path::iterator& b, const path::iterator& e)
+ {
+ return path (b, e).representation ();
+ };
+
+ {
+ path p;
+ assert (test (p.begin (), p.end ()) == "");
+ }
+ {
+ path p ("foo");
+ assert (test (p.begin (), p.end ()) == "foo");
+ assert (test (++p.begin (), p.end ()) == "");
+ }
+ {
+ path p ("foo/");
+ assert (test (p.begin (), p.end ()) == "foo/");
+ }
+ {
+ path p ("foo/bar");
+ assert (test (p.begin (), p.end ()) == "foo/bar");
+ assert (test (++p.begin (), p.end ()) == "bar");
+ assert (test (p.begin (), ++p.begin ()) == "foo/");
+ }
+ {
+ path p ("/foo/bar");
+ assert (test (p.begin (), p.end ()) == "/foo/bar");
+ assert (test (++p.begin (), p.end ()) == "foo/bar");
+ assert (test (++(++p.begin ()), p.end ()) == "bar");
#ifndef _WIN32
- assert (path (p.begin (), ++p.begin ()) == path ("/"));
+ assert (test (p.begin (), ++p.begin ()) == "/");
#endif
- assert (path (++p.begin (), ++(++p.begin ())) == path ("foo"));
- assert (path (++(++p.begin ()), ++(++(++p.begin ()))) == path ("bar"));
- }
+ assert (test (++p.begin (), ++(++p.begin ())) == "foo/");
+ assert (test (++(++p.begin ()), ++(++(++p.begin ()))) == "bar");
+ }
+ {
+ path p ("/foo/bar/");
+ assert (test (p.begin (), p.end ()) == "/foo/bar/");
+ assert (test (++p.begin (), p.end ()) == "foo/bar/");
+ assert (test (++(++p.begin ()), p.end ()) == "bar/");
+
#ifndef _WIN32
- {
- path p ("/");
- assert (path (p.begin (), p.end ()) == p);
- assert (path (++p.begin (), p.end ()) == path ());
- }
+ assert (test (p.begin (), ++p.begin ()) == "/");
#endif
+ assert (test (++p.begin (), ++(++p.begin ())) == "foo/");
+ assert (test (++(++p.begin ()), ++(++(++p.begin ()))) == "bar/");
+ }
+#ifndef _WIN32
+ {
+ path p ("/");
+ assert (test (p.begin (), p.end ()) == "/");
+ assert (test (++p.begin (), p.end ()) == "");
+ }
+#endif
+ }
+
// operator/
//
#ifndef _WIN32
- assert ((path ("/") / path ("tmp")).string () == "/tmp");
- assert ((path ("foo") / path ("bar")).string () == "foo/bar");
+ assert ((path ("/") / path ("tmp")).representation () == "/tmp");
+ assert ((path ("foo/") / path ("bar")).representation () == "foo/bar");
+ assert ((path ("foo/") / path ("bar/")).representation () == "foo/bar/");
+ assert ((path ("foo/") / path ()).representation () == "foo/");
#else
- assert ((path ("\\") / path ("tmp")).string () == "\\tmp");
- assert ((path ("C:\\") / path ("tmp")).string () == "C:\\tmp");
- assert ((path ("foo") / path ("bar")).string () == "foo\\bar");
+ assert ((path ("\\") / path ("tmp")).representation () == "\\tmp");
+ assert ((path ("C:\\") / path ("tmp")).representation () == "C:\\tmp");
+ assert ((path ("foo\\") / path ("bar")).representation () == "foo\\bar");
+ assert ((path ("foo\\") / path ("bar\\")).representation () == "foo\\bar\\");
+ assert ((path ("foo\\") / path ("bar/")).representation () == "foo\\bar/");
+ assert ((path ("foo/") / path ("bar")).representation () == "foo/bar");
+ assert ((path ("foo\\") / path ()).representation () == "foo\\");
#endif
// normalize
//
#ifndef _WIN32
- assert (path ("../foo").normalize ().string () == "../foo");
- assert (path ("..///foo").normalize ().string () == "../foo");
- assert (path ("../../foo").normalize ().string () == "../../foo");
- assert (path (".././foo").normalize ().string () == "../foo");
- assert (path (".").normalize ().string () == "");
- assert (path ("./..").normalize ().string () == "..");
- assert (path ("../.").normalize ().string () == "..");
- assert (path ("foo/./..").normalize ().string () == "");
- assert (path ("/foo/./..").normalize ().string () == "/");
- assert (path ("./foo").normalize ().string () == "foo");
+ assert (path ("../foo").normalize ().representation () == "../foo");
+ assert (path ("..///foo").normalize ().representation () == "../foo");
+ assert (path ("../../foo").normalize ().representation () == "../../foo");
+ assert (path (".././foo").normalize ().representation () == "../foo");
+ assert (path (".").normalize ().representation () == "");
+ assert (path ("././").normalize ().representation () == "");
+ assert (path ("./..").normalize ().representation () == "../");
+ assert (path ("./../").normalize ().representation () == "../");
+ assert (path ("../.").normalize ().representation () == "../");
+ assert (path (".././").normalize ().representation () == "../");
+ assert (path ("foo/./..").normalize ().representation () == "");
+ assert (path ("/foo/./..").normalize ().representation () == "/");
+ assert (path ("/foo/./../").normalize ().representation () == "/");
+ assert (path ("./foo").normalize ().representation () == "foo");
+ assert (path ("./foo/").normalize ().representation () == "foo/");
#else
- assert (path ("../foo").normalize ().string () == "..\\foo");
- assert (path ("..///foo").normalize ().string () == "..\\foo");
- assert (path ("..\\../foo").normalize ().string () == "..\\..\\foo");
- assert (path (".././foo").normalize ().string () == "..\\foo");
- assert (path (".").normalize ().string () == "");
- assert (path ("./..").normalize ().string () == "..");
- assert (path ("../.").normalize ().string () == "..");
- assert (path ("foo/./..").normalize ().string () == "");
- assert (path ("C:/foo/./..").normalize ().string () == "C:");
- assert (path ("./foo").normalize ().string () == "foo");
-
- assert (path ("C:").normalize ().string () == "C:");
- assert (path ("C:\\Foo12//Bar").normalize ().string () == "C:\\Foo12\\Bar");
+ assert (path ("../foo").normalize ().representation () == "..\\foo");
+ assert (path ("..///foo").normalize ().representation () == "..\\foo");
+ assert (path ("..\\../foo").normalize ().representation () == "..\\..\\foo");
+ assert (path (".././foo").normalize ().representation () == "..\\foo");
+ assert (path (".").normalize ().representation () == "");
+ assert (path (".\\.\\").normalize ().representation () == "");
+ assert (path ("./..").normalize ().representation () == "..\\");
+ assert (path ("../.").normalize ().representation () == "..\\");
+ assert (path ("foo/./..").normalize ().representation () == "");
+ assert (path ("C:/foo/./..").normalize ().representation () == "C:\\");
+ assert (path ("C:/foo/./../").normalize ().representation () == "C:\\");
+ assert (path ("./foo").normalize ().representation () == "foo");
+ assert (path ("./foo\\").normalize ().representation () == "foo\\");
+
+ assert (path ("C:\\").normalize ().representation () == "C:\\");
+ assert (path ("C:\\Foo12//Bar").normalize ().representation () == "C:\\Foo12\\Bar");
#endif
// comparison
//
+ assert (path ("/") == path ("/"));
assert (path ("./foo") == path ("./foo"));
+ assert (path ("./foo/") == path ("./foo"));
assert (path ("./boo") < path ("./foo"));
#ifdef _WIN32
assert (path (".\\foo") == path ("./FoO"));
+ assert (path (".\\foo") == path ("./foo\\"));
assert (path (".\\boo") < path (".\\Foo"));
#endif
@@ -261,29 +360,101 @@ main ()
// sub
//
- assert (path ("foo").sub (path ("foo")));
- assert (path ("foo/bar").sub (path ("foo/bar")));
- assert (path ("foo/bar").sub (path ("foo")));
- assert (!path ("foo/bar").sub (path ("bar")));
- assert (path ("/foo/bar").sub (path ("/foo")));
- assert (path ("/foo/bar/baz").sub (path ("/foo/bar")));
- assert (!path ("/foo/bar/baz").sub (path ("/foo/baz")));
+ {
+ auto test = [] (const char* p, const char* pfx)
+ {
+ return path (p).sub (path (pfx));
+ };
+
+ assert (test ("foo", "foo"));
+ assert (test ("foo/bar", "foo/bar"));
+ assert (test ("foo/bar", "foo"));
+ assert (test ("foo/bar", "foo/"));
+ assert (!test ("foo/bar", "bar"));
+ assert (!test ("/foo-bar", "/foo"));
+ assert (test ("/foo/bar", "/foo"));
+ assert (test ("/foo/bar/baz", "/foo/bar"));
+ assert (!test ("/foo/bar/baz", "/foo/baz"));
#ifdef _WIN32
- assert (path ("c:").sub (path ("c:")));
- assert (!path ("c:").sub (path ("d:")));
- assert (path ("c:\\foo").sub (path ("c:")));
+ assert (test ("c:", "c:"));
+ assert (test ("c:", "c:\\"));
+ assert (!test ("c:", "d:"));
+ assert (test ("c:\\foo", "c:"));
+ assert (test ("c:\\foo", "c:\\"));
#else
- assert (path ("/foo/bar/baz").sub (path ("/")));
+ assert (test ("/", "/"));
+ assert (test ("/foo/bar/baz", "/"));
#endif
+ }
+
+ // sup
+ //
+ {
+ auto test = [] (const char* p, const char* sfx)
+ {
+ return path (p).sup (path (sfx));
+ };
+
+ assert (test ("foo", "foo"));
+ assert (test ("foo/bar", "foo/bar"));
+ assert (test ("foo/bar", "bar"));
+ assert (test ("foo/bar/", "bar/"));
+ assert (!test ("foo/bar", "foo"));
+ assert (!test ("/foo-bar", "bar"));
+ assert (test ("/foo/bar", "bar"));
+ assert (test ("/foo/bar/baz", "bar/baz"));
+ assert (!test ("/foo/bar/baz", "bar"));
+
+#ifdef _WIN32
+ assert (test ("c:", "c:"));
+ assert (test ("c:\\", "c:"));
+ assert (!test ("d:", "c:"));
+ assert (test ("c:\\foo", "foo"));
+ assert (test ("c:\\foo\\", "foo\\"));
+#else
+ assert (test ("/", "/"));
+#endif
+ }
+
+ // leaf(path)
+ //
+ {
+ auto test = [] (const char* p, const char* d)
+ {
+ return path (p).leaf (path (d)).representation ();
+ };
+
+ assert (test ("/foo", "/") == "foo");
+ //assert (test ("foo/bar", "foo") == "bar");
+ assert (test ("foo/bar", "foo/") == "bar");
+ assert (test ("foo/bar/", "foo/") == "bar/");
+ assert (test ("/foo/bar", "/foo/") == "bar");
+ }
+
+ // directory(path)
+ //
+ {
+ auto test = [] (const char* p, const char* l)
+ {
+ return path (p).directory (path (l)).representation ();
+ };
+
+ assert (test ("/foo", "foo") == "/");
+ assert (test ("foo/bar", "bar") == "foo/");
+ assert (test ("foo/bar/", "bar/") == "foo/");
+ assert (test ("foo/bar/", "bar") == "foo/");
+ assert (test ("foo/bar/baz", "bar/baz") == "foo/");
+ assert (test ("/foo/bar/baz", "bar/baz") == "/foo/");
+ }
// relative
//
- assert (path ("foo").relative (path ("foo")) == path ());
- assert (path ("foo/bar").relative (path ("foo/bar")) == path ());
- assert (path ("foo/bar/baz").relative (path ("foo/bar")) == path ("baz"));
+ assert (path ("foo/").relative (path ("foo/")) == path ());
+ assert (path ("foo/bar/").relative (path ("foo/bar/")) == path ());
+ assert (path ("foo/bar/baz").relative (path ("foo/bar/")) == path ("baz"));
assert (path ("foo/bar/baz").relative (path ("foo/bar/buz")).
posix_string () == "../baz");
- assert (path ("foo/bar/baz").relative (path ("foo/biz/baz")).
+ assert (path ("foo/bar/baz").relative (path ("foo/biz/baz/")).
posix_string () == "../../bar/baz");
assert (path ("foo/bar/baz").relative (path ("fox/bar/baz")).
posix_string () == "../../../foo/bar/baz");
@@ -302,10 +473,10 @@ main ()
#endif
assert (path::temp_directory ().absolute ());
- assert (wpath::temp_directory ().absolute ());
+ //assert (wpath::temp_directory ().absolute ());
assert (path::home ().absolute ());
- assert (wpath::home ().absolute ());
+ //assert (wpath::home ().absolute ());
/*
path p ("../foo");
diff --git a/tests/process/driver.cxx b/tests/process/driver.cxx
index 5c43fb5..18b4fd8 100644
--- a/tests/process/driver.cxx
+++ b/tests/process/driver.cxx
@@ -287,7 +287,7 @@ main (int argc, const char* argv[])
//
dir_path::current (fp.directory ());
- assert (exec (path (".") / fp.leaf ()));
+ assert (exec (dir_path (".") / fp.leaf ()));
// Fail for unexistent file path.
//