xref: /freebsd/contrib/kyua/utils/text/templates.cpp (revision 911f0260390e18cf85f3dbf2c719b593efdc1e3c)
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28 
29 #include "utils/text/templates.hpp"
30 
31 #include <algorithm>
32 #include <fstream>
33 #include <sstream>
34 #include <stack>
35 
36 #include "utils/format/macros.hpp"
37 #include "utils/fs/path.hpp"
38 #include "utils/noncopyable.hpp"
39 #include "utils/sanity.hpp"
40 #include "utils/text/exceptions.hpp"
41 #include "utils/text/operations.ipp"
42 
43 namespace text = utils::text;
44 
45 
46 namespace {
47 
48 
49 /// Definition of a template statement.
50 ///
51 /// A template statement is a particular line in the input file that is
52 /// preceeded by a template marker.  This class provides a high-level
53 /// representation of the contents of such statement and a mechanism to parse
54 /// the textual line into this high-level representation.
55 class statement_def {
56 public:
57     /// Types of the known statements.
58     enum statement_type {
59         /// Alternative clause of a conditional.
60         ///
61         /// Takes no arguments.
62         type_else,
63 
64         /// End of conditional marker.
65         ///
66         /// Takes no arguments.
67         type_endif,
68 
69         /// End of loop marker.
70         ///
71         /// Takes no arguments.
72         type_endloop,
73 
74         /// Beginning of a conditional.
75         ///
76         /// Takes a single argument, which denotes the name of the variable or
77         /// vector to check for existence.  This is the only expression
78         /// supported.
79         type_if,
80 
81         /// Beginning of a loop over all the elements of a vector.
82         ///
83         /// Takes two arguments: the name of the vector over which to iterate
84         /// and the name of the iterator to later index this vector.
85         type_loop,
86     };
87 
88 private:
89     /// Internal data describing the structure of a particular statement type.
90     struct type_descriptor {
91         /// The native type of the statement.
92         statement_type type;
93 
94         /// The expected number of arguments.
95         unsigned int n_arguments;
96 
97         /// Constructs a new type descriptor.
98         ///
99         /// \param type_ The native type of the statement.
100         /// \param n_arguments_ The expected number of arguments.
101         type_descriptor(const statement_type type_,
102                         const unsigned int n_arguments_)
103             : type(type_), n_arguments(n_arguments_)
104         {
105         }
106     };
107 
108     /// Mapping of statement type names to their definitions.
109     typedef std::map< std::string, type_descriptor > types_map;
110 
111     /// Description of the different statement types.
112     ///
113     /// This static map is initialized once and reused later for any statement
114     /// lookup.  Unfortunately, we cannot perform this initialization in a
115     /// static manner without C++11.
116     static types_map _types;
117 
118     /// Generates a new types definition map.
119     ///
120     /// \return A new types definition map, to be assigned to _types.
121     static types_map
122     generate_types_map(void)
123     {
124         // If you change this, please edit the comments in the enum above.
125         types_map types;
126         types.insert(types_map::value_type(
127             "else", type_descriptor(type_else, 0)));
128         types.insert(types_map::value_type(
129             "endif", type_descriptor(type_endif, 0)));
130         types.insert(types_map::value_type(
131             "endloop", type_descriptor(type_endloop, 0)));
132         types.insert(types_map::value_type(
133             "if", type_descriptor(type_if, 1)));
134         types.insert(types_map::value_type(
135             "loop", type_descriptor(type_loop, 2)));
136         return types;
137     }
138 
139 public:
140     /// The type of the statement.
141     statement_type type;
142 
143     /// The arguments to the statement, in textual form.
144     const std::vector< std::string > arguments;
145 
146     /// Creates a new statement.
147     ///
148     /// \param type_ The type of the statement.
149     /// \param arguments_ The arguments to the statement.
150     statement_def(const statement_type& type_,
151                   const std::vector< std::string >& arguments_) :
152         type(type_), arguments(arguments_)
153     {
154 #if !defined(NDEBUG)
155         for (types_map::const_iterator iter = _types.begin();
156              iter != _types.end(); ++iter) {
157             const type_descriptor& descriptor = (*iter).second;
158             if (descriptor.type == type_) {
159                 PRE(descriptor.n_arguments == arguments_.size());
160                 return;
161             }
162         }
163         UNREACHABLE;
164 #endif
165     }
166 
167     /// Parses a statement.
168     ///
169     /// \param line The textual representation of the statement without any
170     ///     prefix.
171     ///
172     /// \return The parsed statement.
173     ///
174     /// \throw text::syntax_error If the statement is not correctly defined.
175     static statement_def
176     parse(const std::string& line)
177     {
178         if (_types.empty())
179             _types = generate_types_map();
180 
181         const std::vector< std::string > words = text::split(line, ' ');
182         if (words.empty())
183             throw text::syntax_error("Empty statement");
184 
185         const types_map::const_iterator iter = _types.find(words[0]);
186         if (iter == _types.end())
187             throw text::syntax_error(F("Unknown statement '%s'") % words[0]);
188         const type_descriptor& descriptor = (*iter).second;
189 
190         if (words.size() - 1 != descriptor.n_arguments)
191             throw text::syntax_error(F("Invalid number of arguments for "
192                                        "statement '%s'") % words[0]);
193 
194         std::vector< std::string > new_arguments;
195         new_arguments.resize(words.size() - 1);
196         std::copy(words.begin() + 1, words.end(), new_arguments.begin());
197 
198         return statement_def(descriptor.type, new_arguments);
199     }
200 };
201 
202 
203 statement_def::types_map statement_def::_types;
204 
205 
206 /// Definition of a loop.
207 ///
208 /// This simple structure is used to keep track of the parameters of a loop.
209 struct loop_def {
210     /// The name of the vector over which this loop is iterating.
211     std::string vector;
212 
213     /// The name of the iterator defined by this loop.
214     std::string iterator;
215 
216     /// Position in the input to which to rewind to on looping.
217     ///
218     /// This position points to the line after the loop statement, not the loop
219     /// itself.  This is one of the reasons why we have this structure, so that
220     /// we can maintain the data about the loop without having to re-process it.
221     std::istream::pos_type position;
222 
223     /// Constructs a new loop definition.
224     ///
225     /// \param vector_ The name of the vector (first argument).
226     /// \param iterator_ The name of the iterator (second argumnet).
227     /// \param position_ Position of the next line after the loop statement.
228     loop_def(const std::string& vector_, const std::string& iterator_,
229              const std::istream::pos_type position_) :
230         vector(vector_), iterator(iterator_), position(position_)
231     {
232     }
233 };
234 
235 
236 /// Stateful class to instantiate the templates in an input stream.
237 ///
238 /// The goal of this parser is to scan the input once and not buffer anything in
239 /// memory.  The only exception are loops: loops are reinterpreted on every
240 /// iteration from the same input file by rewidining the stream to the
241 /// appropriate position.
242 class templates_parser : utils::noncopyable {
243     /// The templates to apply.
244     ///
245     /// Note that this is not const because the parser has to have write access
246     /// to the templates.  In particular, it needs to be able to define the
247     /// iterators as regular variables.
248     text::templates_def _templates;
249 
250     /// Prefix that marks a line as a statement.
251     const std::string _prefix;
252 
253     /// Delimiter to surround an expression instantiation.
254     const std::string _delimiter;
255 
256     /// Whether to skip incoming lines or not.
257     ///
258     /// The top of the stack is true whenever we encounter a conditional that
259     /// evaluates to false or a loop that does not have any iterations left.
260     /// Under these circumstances, we need to continue scanning the input stream
261     /// until we find the matching closing endif or endloop construct.
262     ///
263     /// This is a stack rather than a plain boolean to allow us deal with
264     /// if-else clauses.
265     std::stack< bool > _skip;
266 
267     /// Current count of nested conditionals.
268     unsigned int _if_level;
269 
270     /// Level of the top-most conditional that evaluated to false.
271     unsigned int _exit_if_level;
272 
273     /// Current count of nested loops.
274     unsigned int _loop_level;
275 
276     /// Level of the top-most loop that does not have any iterations left.
277     unsigned int _exit_loop_level;
278 
279     /// Information about all the nested loops up to the current point.
280     std::stack< loop_def > _loops;
281 
282     /// Checks if a line is a statement or not.
283     ///
284     /// \param line The line to validate.
285     ///
286     /// \return True if the line looks like a statement, which is determined by
287     /// checking if the line starts by the predefined prefix.
288     bool
289     is_statement(const std::string& line)
290     {
291         return ((line.length() >= _prefix.length() &&
292                  line.substr(0, _prefix.length()) == _prefix) &&
293                 (line.length() < _delimiter.length() ||
294                  line.substr(0, _delimiter.length()) != _delimiter));
295     }
296 
297     /// Parses a given statement line into a statement definition.
298     ///
299     /// \param line The line to validate; it must be a valid statement.
300     ///
301     /// \return The parsed statement.
302     ///
303     /// \throw text::syntax_error If the input is not a valid statement.
304     statement_def
305     parse_statement(const std::string& line)
306     {
307         PRE(is_statement(line));
308         return statement_def::parse(line.substr(_prefix.length()));
309     }
310 
311     /// Processes a line from the input when not in skip mode.
312     ///
313     /// \param line The line to be processed.
314     /// \param input The input stream from which the line was read.  The current
315     ///     position in the stream must be after the line being processed.
316     /// \param output The output stream into which to write the results.
317     ///
318     /// \throw text::syntax_error If the input is not valid.
319     void
320     handle_normal(const std::string& line, std::istream& input,
321                   std::ostream& output)
322     {
323         if (!is_statement(line)) {
324             // Fast path.  Mostly to avoid an indentation level for the big
325             // chunk of code below.
326             output << line << '\n';
327             return;
328         }
329 
330         const statement_def statement = parse_statement(line);
331 
332         switch (statement.type) {
333         case statement_def::type_else:
334             _skip.top() = !_skip.top();
335             break;
336 
337         case statement_def::type_endif:
338             _if_level--;
339             break;
340 
341         case statement_def::type_endloop: {
342             PRE(_loops.size() == _loop_level);
343             loop_def& loop = _loops.top();
344 
345             const std::size_t next_index = 1 + text::to_type< std::size_t >(
346                 _templates.get_variable(loop.iterator));
347 
348             if (next_index < _templates.get_vector(loop.vector).size()) {
349                 _templates.add_variable(loop.iterator, F("%s") % next_index);
350                 input.seekg(loop.position);
351             } else {
352                 _loop_level--;
353                 _loops.pop();
354                 _templates.remove_variable(loop.iterator);
355             }
356         } break;
357 
358         case statement_def::type_if: {
359             _if_level++;
360             const std::string value = _templates.evaluate(
361                 statement.arguments[0]);
362             if (value.empty() || value == "0" || value == "false") {
363                 _exit_if_level = _if_level;
364                 _skip.push(true);
365             } else {
366                 _skip.push(false);
367             }
368         } break;
369 
370         case statement_def::type_loop: {
371             _loop_level++;
372 
373             const loop_def loop(statement.arguments[0], statement.arguments[1],
374                                 input.tellg());
375             if (_templates.get_vector(loop.vector).empty()) {
376                 _exit_loop_level = _loop_level;
377                 _skip.push(true);
378             } else {
379                 _templates.add_variable(loop.iterator, "0");
380                 _loops.push(loop);
381                 _skip.push(false);
382             }
383         } break;
384         }
385     }
386 
387     /// Processes a line from the input when in skip mode.
388     ///
389     /// \param line The line to be processed.
390     ///
391     /// \throw text::syntax_error If the input is not valid.
392     void
393     handle_skip(const std::string& line)
394     {
395         PRE(_skip.top());
396 
397         if (!is_statement(line))
398             return;
399 
400         const statement_def statement = parse_statement(line);
401         switch (statement.type) {
402         case statement_def::type_else:
403             if (_exit_if_level == _if_level)
404                 _skip.top() = !_skip.top();
405             break;
406 
407         case statement_def::type_endif:
408             INV(_if_level >= _exit_if_level);
409             if (_if_level == _exit_if_level)
410                 _skip.top() = false;
411             _if_level--;
412             _skip.pop();
413             break;
414 
415         case statement_def::type_endloop:
416             INV(_loop_level >= _exit_loop_level);
417             if (_loop_level == _exit_loop_level)
418                 _skip.top() = false;
419             _loop_level--;
420             _skip.pop();
421             break;
422 
423         case statement_def::type_if:
424             _if_level++;
425             _skip.push(true);
426             break;
427 
428         case statement_def::type_loop:
429             _loop_level++;
430             _skip.push(true);
431             break;
432 
433         default:
434             break;
435         }
436     }
437 
438     /// Evaluates expressions on a given input line.
439     ///
440     /// An expression is surrounded by _delimiter on both sides.  We scan the
441     /// string from left to right finding any expressions that may appear, yank
442     /// them out and call templates_def::evaluate() to get their value.
443     ///
444     /// Lonely or unbalanced appearances of _delimiter on the input line are
445     /// not considered an error, given that the user may actually want to supply
446     /// that character sequence without being interpreted as a template.
447     ///
448     /// \param in_line The input line from which to evaluate expressions.
449     ///
450     /// \return The evaluated line.
451     ///
452     /// \throw text::syntax_error If the expressions in the line are malformed.
453     std::string
454     evaluate(const std::string& in_line)
455     {
456         std::string out_line;
457 
458         std::string::size_type last_pos = 0;
459         while (last_pos != std::string::npos) {
460             const std::string::size_type open_pos = in_line.find(
461                 _delimiter, last_pos);
462             if (open_pos == std::string::npos) {
463                 out_line += in_line.substr(last_pos);
464                 last_pos = std::string::npos;
465             } else {
466                 const std::string::size_type close_pos = in_line.find(
467                     _delimiter, open_pos + _delimiter.length());
468                 if (close_pos == std::string::npos) {
469                     out_line += in_line.substr(last_pos);
470                     last_pos = std::string::npos;
471                 } else {
472                     out_line += in_line.substr(last_pos, open_pos - last_pos);
473                     out_line += _templates.evaluate(in_line.substr(
474                         open_pos + _delimiter.length(),
475                         close_pos - open_pos - _delimiter.length()));
476                     last_pos = close_pos + _delimiter.length();
477                 }
478             }
479         }
480 
481         return out_line;
482     }
483 
484 public:
485     /// Constructs a new template parser.
486     ///
487     /// \param templates_ The templates to apply to the processed file.
488     /// \param prefix_ The prefix that identifies lines as statements.
489     /// \param delimiter_ Delimiter to surround a variable instantiation.
490     templates_parser(const text::templates_def& templates_,
491                      const std::string& prefix_,
492                      const std::string& delimiter_) :
493         _templates(templates_),
494         _prefix(prefix_),
495         _delimiter(delimiter_),
496         _if_level(0),
497         _exit_if_level(0),
498         _loop_level(0),
499         _exit_loop_level(0)
500     {
501     }
502 
503     /// Applies the templates to a given input.
504     ///
505     /// \param input The stream to which to apply the templates.
506     /// \param output The stream into which to write the results.
507     ///
508     /// \throw text::syntax_error If the input is not valid.  Note that the
509     ///     is not guaranteed to be unmodified on exit if an error is
510     ///     encountered.
511     void
512     instantiate(std::istream& input, std::ostream& output)
513     {
514         std::string line;
515         while (std::getline(input, line).good()) {
516             if (!_skip.empty() && _skip.top())
517                 handle_skip(line);
518             else
519                 handle_normal(evaluate(line), input, output);
520         }
521     }
522 };
523 
524 
525 }  // anonymous namespace
526 
527 
528 /// Constructs an empty templates definition.
529 text::templates_def::templates_def(void)
530 {
531 }
532 
533 
534 /// Sets a string variable in the templates.
535 ///
536 /// If the variable already exists, its value is replaced.  This behavior is
537 /// required to implement iterators, but client code should really not be
538 /// redefining variables.
539 ///
540 /// \pre The variable must not already exist as a vector.
541 ///
542 /// \param name The name of the variable to set.
543 /// \param value The value to set the given variable to.
544 void
545 text::templates_def::add_variable(const std::string& name,
546                                   const std::string& value)
547 {
548     PRE(_vectors.find(name) == _vectors.end());
549     _variables[name] = value;
550 }
551 
552 
553 /// Unsets a string variable from the templates.
554 ///
555 /// Client code has no reason to use this.  This is only required to implement
556 /// proper scoping of loop iterators.
557 ///
558 /// \pre The variable must exist.
559 ///
560 /// \param name The name of the variable to remove from the templates.
561 void
562 text::templates_def::remove_variable(const std::string& name)
563 {
564     PRE(_variables.find(name) != _variables.end());
565     _variables.erase(_variables.find(name));
566 }
567 
568 
569 /// Creates a new vector in the templates.
570 ///
571 /// If the vector already exists, it is cleared.  Client code should really not
572 /// be redefining variables.
573 ///
574 /// \pre The vector must not already exist as a variable.
575 ///
576 /// \param name The name of the vector to set.
577 void
578 text::templates_def::add_vector(const std::string& name)
579 {
580     PRE(_variables.find(name) == _variables.end());
581     _vectors[name] = strings_vector();
582 }
583 
584 
585 /// Adds a value to an existing vector in the templates.
586 ///
587 /// \pre name The vector must exist.
588 ///
589 /// \param name The name of the vector to append the value to.
590 /// \param value The textual value to append to the vector.
591 void
592 text::templates_def::add_to_vector(const std::string& name,
593                                    const std::string& value)
594 {
595     PRE(_variables.find(name) == _variables.end());
596     PRE(_vectors.find(name) != _vectors.end());
597     _vectors[name].push_back(value);
598 }
599 
600 
601 /// Checks whether a given identifier exists as a variable or a vector.
602 ///
603 /// This is used to implement the evaluation of conditions in if clauses.
604 ///
605 /// \param name The name of the variable or vector.
606 ///
607 /// \return True if the given name exists as a variable or a vector; false
608 /// otherwise.
609 bool
610 text::templates_def::exists(const std::string& name) const
611 {
612     return (_variables.find(name) != _variables.end() ||
613             _vectors.find(name) != _vectors.end());
614 }
615 
616 
617 /// Gets the value of a variable.
618 ///
619 /// \param name The name of the variable.
620 ///
621 /// \return The value of the requested variable.
622 ///
623 /// \throw text::syntax_error If the variable does not exist.
624 const std::string&
625 text::templates_def::get_variable(const std::string& name) const
626 {
627     const variables_map::const_iterator iter = _variables.find(name);
628     if (iter == _variables.end())
629         throw text::syntax_error(F("Unknown variable '%s'") % name);
630     return (*iter).second;
631 }
632 
633 
634 /// Gets a vector.
635 ///
636 /// \param name The name of the vector.
637 ///
638 /// \return A reference to the requested vector.
639 ///
640 /// \throw text::syntax_error If the vector does not exist.
641 const text::templates_def::strings_vector&
642 text::templates_def::get_vector(const std::string& name) const
643 {
644     const vectors_map::const_iterator iter = _vectors.find(name);
645     if (iter == _vectors.end())
646         throw text::syntax_error(F("Unknown vector '%s'") % name);
647     return (*iter).second;
648 }
649 
650 
651 /// Indexes a vector and gets the value.
652 ///
653 /// \param name The name of the vector to index.
654 /// \param index_name The name of a variable representing the index to use.
655 ///     This must be convertible to a natural.
656 ///
657 /// \return The value of the vector at the given index.
658 ///
659 /// \throw text::syntax_error If the vector does not existor if the index is out
660 ///     of range.
661 const std::string&
662 text::templates_def::get_vector(const std::string& name,
663                                 const std::string& index_name) const
664 {
665     const strings_vector& vector = get_vector(name);
666     const std::string& index_str = get_variable(index_name);
667 
668     std::size_t index;
669     try {
670         index = text::to_type< std::size_t >(index_str);
671     } catch (const text::syntax_error& e) {
672         throw text::syntax_error(F("Index '%s' not an integer, value '%s'") %
673                                  index_name % index_str);
674     }
675     if (index >= vector.size())
676         throw text::syntax_error(F("Index '%s' out of range at position '%s'") %
677                                  index_name % index);
678 
679     return vector[index];
680 }
681 
682 
683 /// Evaluates a expression using these templates.
684 ///
685 /// An expression is a query on the current templates to fetch a particular
686 /// value.  The value is always returned as a string, as this is how templates
687 /// are internally stored.
688 ///
689 /// \param expression The expression to evaluate.  This should not include any
690 ///     of the delimiters used in the user input, as otherwise the expression
691 ///     will not be evaluated properly.
692 ///
693 /// \return The result of the expression evaluation as a string.
694 ///
695 /// \throw text::syntax_error If there is any problem while evaluating the
696 ///     expression.
697 std::string
698 text::templates_def::evaluate(const std::string& expression) const
699 {
700     const std::string::size_type paren_open = expression.find('(');
701     if (paren_open == std::string::npos) {
702         return get_variable(expression);
703     } else {
704         const std::string::size_type paren_close = expression.find(
705             ')', paren_open);
706         if (paren_close == std::string::npos)
707             throw text::syntax_error(F("Expected ')' in expression '%s')") %
708                                      expression);
709         if (paren_close != expression.length() - 1)
710             throw text::syntax_error(F("Unexpected text found after ')' in "
711                                        "expression '%s'") % expression);
712 
713         const std::string arg0 = expression.substr(0, paren_open);
714         const std::string arg1 = expression.substr(
715             paren_open + 1, paren_close - paren_open - 1);
716         if (arg0 == "defined") {
717             return exists(arg1) ? "true" : "false";
718         } else if (arg0 == "length") {
719             return F("%s") % get_vector(arg1).size();
720         } else {
721             return get_vector(arg0, arg1);
722         }
723     }
724 }
725 
726 
727 /// Applies a set of templates to an input stream.
728 ///
729 /// \param templates The templates to use.
730 /// \param input The input to process.
731 /// \param output The stream to which to write the processed text.
732 ///
733 /// \throw text::syntax_error If there is any problem processing the input.
734 void
735 text::instantiate(const templates_def& templates,
736                   std::istream& input, std::ostream& output)
737 {
738     templates_parser parser(templates, "%", "%%");
739     parser.instantiate(input, output);
740 }
741 
742 
743 /// Applies a set of templates to an input file and writes an output file.
744 ///
745 /// \param templates The templates to use.
746 /// \param input_file The path to the input to process.
747 /// \param output_file The path to the file into which to write the output.
748 ///
749 /// \throw text::error If the input or output files cannot be opened.
750 /// \throw text::syntax_error If there is any problem processing the input.
751 void
752 text::instantiate(const templates_def& templates,
753                   const fs::path& input_file, const fs::path& output_file)
754 {
755     std::ifstream input(input_file.c_str());
756     if (!input)
757         throw text::error(F("Failed to open %s for read") % input_file);
758 
759     std::ofstream output(output_file.c_str());
760     if (!output)
761         throw text::error(F("Failed to open %s for write") % output_file);
762 
763     instantiate(templates, input, output);
764 }
765