xref: /freebsd/contrib/kyua/utils/fs/path.cpp (revision 5ca8e32633c4ffbbcd6762e5888b6a4ba0708c6c)
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28 
29 #include "utils/fs/path.hpp"
30 
31 #include "utils/fs/exceptions.hpp"
32 #include "utils/fs/operations.hpp"
33 #include "utils/sanity.hpp"
34 
35 namespace fs = utils::fs;
36 
37 
38 namespace {
39 
40 
41 /// Normalizes an input string to a valid path.
42 ///
43 /// A normalized path cannot have empty components; i.e. there can be at most
44 /// one consecutive separator (/).
45 ///
46 /// \param in The string to normalize.
47 ///
48 /// \return The normalized string, representing a path.
49 ///
50 /// \throw utils::fs::invalid_path_error If the path is empty.
51 static std::string
52 normalize(const std::string& in)
53 {
54     if (in.empty())
55         throw fs::invalid_path_error(in, "Cannot be empty");
56 
57     std::string out;
58 
59     std::string::size_type pos = 0;
60     do {
61         const std::string::size_type next_pos = in.find('/', pos);
62 
63         const std::string component = in.substr(pos, next_pos - pos);
64         if (!component.empty()) {
65             if (pos == 0)
66                 out += component;
67             else if (component != ".")
68                 out += "/" + component;
69         }
70 
71         if (next_pos == std::string::npos)
72             pos = next_pos;
73         else
74             pos = next_pos + 1;
75     } while (pos != std::string::npos);
76 
77     return out.empty() ? "/" : out;
78 }
79 
80 
81 }  // anonymous namespace
82 
83 
84 /// Creates a new path object from a textual representation of a path.
85 ///
86 /// \param text A valid representation of a path in textual form.
87 ///
88 /// \throw utils::fs::invalid_path_error If the input text does not represent a
89 ///     valid path.
90 fs::path::path(const std::string& text) :
91     _repr(normalize(text))
92 {
93 }
94 
95 
96 /// Gets a view of the path as an array of characters.
97 ///
98 /// \return A \code const char* \endcode representation for the object.
99 const char*
100 fs::path::c_str(void) const
101 {
102     return _repr.c_str();
103 }
104 
105 
106 /// Gets a view of the path as a std::string.
107 ///
108 /// \return A \code std::string& \endcode representation for the object.
109 const std::string&
110 fs::path::str(void) const
111 {
112     return _repr;
113 }
114 
115 
116 /// Gets the branch path (directory name) of the path.
117 ///
118 /// The branch path of a path with just one component (no separators) is ".".
119 ///
120 /// \return A new path representing the branch path.
121 fs::path
122 fs::path::branch_path(void) const
123 {
124     const std::string::size_type end_pos = _repr.rfind('/');
125     if (end_pos == std::string::npos)
126         return fs::path(".");
127     else if (end_pos == 0)
128         return fs::path("/");
129     else
130         return fs::path(_repr.substr(0, end_pos));
131 }
132 
133 
134 /// Gets the leaf name (base name) of the path.
135 ///
136 /// \return A new string representing the leaf name.
137 std::string
138 fs::path::leaf_name(void) const
139 {
140     const std::string::size_type beg_pos = _repr.rfind('/');
141 
142     if (beg_pos == std::string::npos)
143         return _repr;
144     else
145         return _repr.substr(beg_pos + 1);
146 }
147 
148 
149 /// Converts a relative path in the current directory to an absolute path.
150 ///
151 /// \pre The path is relative.
152 ///
153 /// \return The absolute representation of the relative path.
154 fs::path
155 fs::path::to_absolute(void) const
156 {
157     PRE(!is_absolute());
158     return fs::current_path() / *this;
159 }
160 
161 
162 /// \return True if the representation of the path is absolute.
163 bool
164 fs::path::is_absolute(void) const
165 {
166     return _repr[0] == '/';
167 }
168 
169 
170 /// Checks whether the path is a parent of another path.
171 ///
172 /// A path is considered to be a parent of itself.
173 ///
174 /// \return True if this path is a parent of p.
175 bool
176 fs::path::is_parent_of(path p) const
177 {
178     do {
179         if ((*this) == p)
180             return true;
181         p = p.branch_path();
182     } while (p != fs::path(".") && p != fs::path("/"));
183     return false;
184 }
185 
186 
187 /// Counts the number of components in the path.
188 ///
189 /// \return The number of components.
190 int
191 fs::path::ncomponents(void) const
192 {
193     int count = 0;
194     if (_repr == "/")
195         return 1;
196     else {
197         for (std::string::const_iterator iter = _repr.begin();
198              iter != _repr.end(); ++iter) {
199             if (*iter == '/')
200                 count++;
201         }
202         return count + 1;
203     }
204 }
205 
206 
207 /// Less-than comparator for paths.
208 ///
209 /// This is provided to make identifiers useful as map keys.
210 ///
211 /// \param p The path to compare to.
212 ///
213 /// \return True if this identifier sorts before the other identifier; false
214 ///     otherwise.
215 bool
216 fs::path::operator<(const fs::path& p) const
217 {
218     return _repr < p._repr;
219 }
220 
221 
222 /// Compares two paths for equality.
223 ///
224 /// Given that the paths are internally normalized, input paths such as
225 /// ///foo/bar and /foo///bar are exactly the same.  However, this does NOT
226 /// check for true equality: i.e. this does not access the file system to check
227 /// if the paths actually point to the same object my means of links.
228 ///
229 /// \param p The path to compare to.
230 ///
231 /// \returns A boolean indicating whether the paths are equal.
232 bool
233 fs::path::operator==(const fs::path& p) const
234 {
235     return _repr == p._repr;
236 }
237 
238 
239 /// Compares two paths for inequality.
240 ///
241 /// See the description of operator==() for more details on the comparison
242 /// performed.
243 ///
244 /// \param p The path to compare to.
245 ///
246 /// \returns A boolean indicating whether the paths are different.
247 bool
248 fs::path::operator!=(const fs::path& p) const
249 {
250     return _repr != p._repr;
251 }
252 
253 
254 /// Concatenates this path with one or more components.
255 ///
256 /// \param components The new components to concatenate to the path.  These are
257 ///     normalized because, in general, they may come from user input.  These
258 ///     components cannot represent an absolute path.
259 ///
260 /// \return A new path containing the concatenation of this path and the
261 ///     provided components.
262 ///
263 /// \throw utils::fs::invalid_path_error If components does not represent a
264 ///     valid path.
265 /// \throw utils::fs::join_error If the join operation is invalid because the
266 ///     two paths are incompatible.
267 fs::path
268 fs::path::operator/(const std::string& components) const
269 {
270     return (*this) / fs::path(components);
271 }
272 
273 
274 /// Concatenates this path with another path.
275 ///
276 /// \param rest The path to concatenate to this one.  Cannot be absolute.
277 ///
278 /// \return A new path containing the concatenation of this path and the other
279 ///     path.
280 ///
281 /// \throw utils::fs::join_error If the join operation is invalid because the
282 ///     two paths are incompatible.
283 fs::path
284 fs::path::operator/(const fs::path& rest) const
285 {
286     if (rest.is_absolute())
287         throw fs::join_error(_repr, rest._repr,
288                              "Cannot concatenate a path to an absolute path");
289     return fs::path(_repr + '/' + rest._repr);
290 }
291 
292 
293 /// Formats a path for insertion on a stream.
294 ///
295 /// \param os The output stream.
296 /// \param p The path to inject to the stream.
297 ///
298 /// \return The output stream os.
299 std::ostream&
300 fs::operator<<(std::ostream& os, const fs::path& p)
301 {
302     return (os << p.str());
303 }
304