xref: /freebsd/contrib/kyua/utils/config/tree.cpp (revision b077aed33b7b6aefca7b17ddb250cf521f938613)
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28 
29 #include "utils/config/tree.ipp"
30 
31 #include "utils/config/exceptions.hpp"
32 #include "utils/config/keys.hpp"
33 #include "utils/config/nodes.ipp"
34 #include "utils/format/macros.hpp"
35 
36 namespace config = utils::config;
37 
38 
39 /// Constructor.
40 ///
41 /// \param strict Whether keys must be validated at "set" time.
42 config::tree::tree(const bool strict) :
43     _strict(strict), _root(new detail::static_inner_node())
44 {
45 }
46 
47 
48 /// Constructor with a non-empty root.
49 ///
50 /// \param strict Whether keys must be validated at "set" time.
51 /// \param root The root to the tree to be owned by this instance.
52 config::tree::tree(const bool strict, detail::static_inner_node* root) :
53     _strict(strict), _root(root)
54 {
55 }
56 
57 
58 /// Destructor.
59 config::tree::~tree(void)
60 {
61 }
62 
63 
64 /// Generates a deep copy of the input tree.
65 ///
66 /// \return A new tree that is an exact copy of this tree.
67 config::tree
68 config::tree::deep_copy(void) const
69 {
70     detail::static_inner_node* new_root =
71         dynamic_cast< detail::static_inner_node* >(_root->deep_copy());
72     return config::tree(_strict, new_root);
73 }
74 
75 
76 /// Combines two trees.
77 ///
78 /// By combination we understand a new tree that contains the full key space of
79 /// the two input trees and, for the keys that match, respects the value of the
80 /// right-hand side (aka "other") tree.
81 ///
82 /// Any nodes marked as dynamic "win" over non-dynamic nodes and the resulting
83 /// tree will have the dynamic property set on those.
84 ///
85 /// \param overrides The tree to use as value overrides.
86 ///
87 /// \return The combined tree.
88 ///
89 /// \throw bad_combination_error If the two trees cannot be combined; for
90 ///     example, if a single key represents an inner node in one tree but a leaf
91 ///     node in the other one.
92 config::tree
93 config::tree::combine(const tree& overrides) const
94 {
95     const detail::static_inner_node* other_root =
96         dynamic_cast< const detail::static_inner_node * >(
97             overrides._root.get());
98 
99     detail::static_inner_node* new_root =
100         dynamic_cast< detail::static_inner_node* >(
101             _root->combine(detail::tree_key(), other_root));
102     return config::tree(_strict, new_root);
103 }
104 
105 
106 /// Registers a node as being dynamic.
107 ///
108 /// This operation creates the given key as an inner node.  Further set
109 /// operations that trespass this node will automatically create any missing
110 /// keys.
111 ///
112 /// This method does not raise errors on invalid/unknown keys or other
113 /// tree-related issues.  The reasons is that define() is a method that does not
114 /// depend on user input: it is intended to pre-populate the tree with a
115 /// specific structure, and that happens once at coding time.
116 ///
117 /// \param dotted_key The key to be registered in dotted representation.
118 void
119 config::tree::define_dynamic(const std::string& dotted_key)
120 {
121     try {
122         const detail::tree_key key = detail::parse_key(dotted_key);
123         _root->define(key, 0, detail::new_node< detail::dynamic_inner_node >);
124     } catch (const error& e) {
125         UNREACHABLE_MSG("define() failing due to key errors is a programming "
126                         "mistake: " + std::string(e.what()));
127     }
128 }
129 
130 
131 /// Checks if a given node is set.
132 ///
133 /// \param dotted_key The key to be checked.
134 ///
135 /// \return True if the key is set to a specific value (not just defined).
136 /// False if the key is not set or if the key does not exist.
137 ///
138 /// \throw invalid_key_error If the provided key has an invalid format.
139 bool
140 config::tree::is_set(const std::string& dotted_key) const
141 {
142     const detail::tree_key key = detail::parse_key(dotted_key);
143     try {
144         const detail::base_node* raw_node = _root->lookup_ro(key, 0);
145         try {
146             const leaf_node& child = dynamic_cast< const leaf_node& >(
147                 *raw_node);
148             return child.is_set();
149         } catch (const std::bad_cast& unused_error) {
150             return false;
151         }
152     } catch (const unknown_key_error& unused_error) {
153         return false;
154     }
155 }
156 
157 
158 /// Pushes a leaf node's value onto the Lua stack.
159 ///
160 /// \param dotted_key The key to be pushed.
161 /// \param state The Lua state into which to push the key's value.
162 ///
163 /// \throw invalid_key_error If the provided key has an invalid format.
164 /// \throw unknown_key_error If the provided key is unknown.
165 void
166 config::tree::push_lua(const std::string& dotted_key, lutok::state& state) const
167 {
168     const detail::tree_key key = detail::parse_key(dotted_key);
169     const detail::base_node* raw_node = _root->lookup_ro(key, 0);
170     try {
171         const leaf_node& child = dynamic_cast< const leaf_node& >(*raw_node);
172         child.push_lua(state);
173     } catch (const std::bad_cast& unused_error) {
174         throw unknown_key_error(key);
175     }
176 }
177 
178 
179 /// Sets a leaf node's value from a value in the Lua stack.
180 ///
181 /// \param dotted_key The key to be set.
182 /// \param state The Lua state from which to retrieve the value.
183 /// \param value_index The position in the Lua stack holding the value.
184 ///
185 /// \throw invalid_key_error If the provided key has an invalid format.
186 /// \throw invalid_key_value If the value mismatches the node type.
187 /// \throw unknown_key_error If the provided key is unknown.
188 void
189 config::tree::set_lua(const std::string& dotted_key, lutok::state& state,
190                       const int value_index)
191 {
192     const detail::tree_key key = detail::parse_key(dotted_key);
193     try {
194         detail::base_node* raw_node = _root->lookup_rw(
195             key, 0, detail::new_node< string_node >);
196         leaf_node& child = dynamic_cast< leaf_node& >(*raw_node);
197         child.set_lua(state, value_index);
198     } catch (const unknown_key_error& e) {
199         if (_strict)
200             throw e;
201     } catch (const value_error& e) {
202         throw invalid_key_value(key, e.what());
203     } catch (const std::bad_cast& unused_error) {
204         throw invalid_key_value(key, "Type mismatch");
205     }
206 }
207 
208 
209 /// Gets the value of a node as a plain string.
210 ///
211 /// \param dotted_key The key to be looked up.
212 ///
213 /// \return The value of the located node as a string.
214 ///
215 /// \throw invalid_key_error If the provided key has an invalid format.
216 /// \throw unknown_key_error If the provided key is unknown.
217 std::string
218 config::tree::lookup_string(const std::string& dotted_key) const
219 {
220     const detail::tree_key key = detail::parse_key(dotted_key);
221     const detail::base_node* raw_node = _root->lookup_ro(key, 0);
222     try {
223         const leaf_node& child = dynamic_cast< const leaf_node& >(*raw_node);
224         return child.to_string();
225     } catch (const std::bad_cast& unused_error) {
226         throw unknown_key_error(key);
227     }
228 }
229 
230 
231 /// Sets the value of a leaf addressed by its key from a string value.
232 ///
233 /// This respects the native types of all the nodes that have been predefined.
234 /// For new nodes under a dynamic subtree, this has no mechanism of determining
235 /// what type they need to have, so they are created as plain string nodes.
236 ///
237 /// \param dotted_key The key to be registered in dotted representation.
238 /// \param raw_value The string representation of the value to set the node to.
239 ///
240 /// \throw invalid_key_error If the provided key has an invalid format.
241 /// \throw invalid_key_value If the value mismatches the node type.
242 /// \throw unknown_key_error If the provided key is unknown.
243 void
244 config::tree::set_string(const std::string& dotted_key,
245                          const std::string& raw_value)
246 {
247     const detail::tree_key key = detail::parse_key(dotted_key);
248     try {
249         detail::base_node* raw_node = _root->lookup_rw(
250             key, 0, detail::new_node< string_node >);
251         leaf_node& child = dynamic_cast< leaf_node& >(*raw_node);
252         child.set_string(raw_value);
253     } catch (const unknown_key_error& e) {
254         if (_strict)
255             throw e;
256     } catch (const value_error& e) {
257         throw invalid_key_value(key, e.what());
258     } catch (const std::bad_cast& unused_error) {
259         throw invalid_key_value(key, "Type mismatch");
260     }
261 }
262 
263 
264 /// Converts the tree to a collection of key/value string pairs.
265 ///
266 /// \param dotted_key Subtree from which to start the export.
267 /// \param strip_key If true, remove the dotted_key prefix from the resulting
268 ///     properties.
269 ///
270 /// \return A map of keys to values in their textual representation.
271 ///
272 /// \throw invalid_key_error If the provided key has an invalid format.
273 /// \throw unknown_key_error If the provided key is unknown.
274 /// \throw value_error If the provided key points to a leaf.
275 config::properties_map
276 config::tree::all_properties(const std::string& dotted_key,
277                              const bool strip_key) const
278 {
279     PRE(!strip_key || !dotted_key.empty());
280 
281     properties_map properties;
282 
283     detail::tree_key key;
284     const detail::base_node* raw_node;
285     if (dotted_key.empty()) {
286         raw_node = _root.get();
287     } else {
288         key = detail::parse_key(dotted_key);
289         raw_node = _root->lookup_ro(key, 0);
290     }
291     try {
292         const detail::inner_node& child =
293             dynamic_cast< const detail::inner_node& >(*raw_node);
294         child.all_properties(properties, key);
295     } catch (const std::bad_cast& unused_error) {
296         INV(!dotted_key.empty());
297         throw value_error(F("Cannot export properties from a leaf node; "
298                             "'%s' given") % dotted_key);
299     }
300 
301     if (strip_key) {
302         properties_map stripped;
303         for (properties_map::const_iterator iter = properties.begin();
304              iter != properties.end(); ++iter) {
305             stripped[(*iter).first.substr(dotted_key.length() + 1)] =
306                 (*iter).second;
307         }
308         properties = stripped;
309     }
310 
311     return properties;
312 }
313 
314 
315 /// Equality comparator.
316 ///
317 /// \param other The other object to compare this one to.
318 ///
319 /// \return True if this object and other are equal; false otherwise.
320 bool
321 config::tree::operator==(const tree& other) const
322 {
323     // TODO(jmmv): Would be nicer to perform the comparison directly on the
324     // nodes, instead of exporting the values to strings first.
325     return _root == other._root || all_properties() == other.all_properties();
326 }
327 
328 
329 /// Inequality comparator.
330 ///
331 /// \param other The other object to compare this one to.
332 ///
333 /// \return True if this object and other are different; false otherwise.
334 bool
335 config::tree::operator!=(const tree& other) const
336 {
337     return !(*this == other);
338 }
339