1 //===-- Options.cpp -------------------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8
9 #include "lldb/Interpreter/Options.h"
10
11 #include <algorithm>
12 #include <bitset>
13 #include <map>
14 #include <set>
15
16 #include "lldb/Host/OptionParser.h"
17 #include "lldb/Interpreter/CommandCompletions.h"
18 #include "lldb/Interpreter/CommandInterpreter.h"
19 #include "lldb/Interpreter/CommandObject.h"
20 #include "lldb/Interpreter/CommandReturnObject.h"
21 #include "lldb/Target/Target.h"
22 #include "lldb/Utility/StreamString.h"
23
24 using namespace lldb;
25 using namespace lldb_private;
26
27 // Options
Options()28 Options::Options() : m_getopt_table() { BuildValidOptionSets(); }
29
~Options()30 Options::~Options() {}
31
NotifyOptionParsingStarting(ExecutionContext * execution_context)32 void Options::NotifyOptionParsingStarting(ExecutionContext *execution_context) {
33 m_seen_options.clear();
34 // Let the subclass reset its option values
35 OptionParsingStarting(execution_context);
36 }
37
38 Status
NotifyOptionParsingFinished(ExecutionContext * execution_context)39 Options::NotifyOptionParsingFinished(ExecutionContext *execution_context) {
40 return OptionParsingFinished(execution_context);
41 }
42
OptionSeen(int option_idx)43 void Options::OptionSeen(int option_idx) { m_seen_options.insert(option_idx); }
44
45 // Returns true is set_a is a subset of set_b; Otherwise returns false.
46
IsASubset(const OptionSet & set_a,const OptionSet & set_b)47 bool Options::IsASubset(const OptionSet &set_a, const OptionSet &set_b) {
48 bool is_a_subset = true;
49 OptionSet::const_iterator pos_a;
50 OptionSet::const_iterator pos_b;
51
52 // set_a is a subset of set_b if every member of set_a is also a member of
53 // set_b
54
55 for (pos_a = set_a.begin(); pos_a != set_a.end() && is_a_subset; ++pos_a) {
56 pos_b = set_b.find(*pos_a);
57 if (pos_b == set_b.end())
58 is_a_subset = false;
59 }
60
61 return is_a_subset;
62 }
63
64 // Returns the set difference set_a - set_b, i.e. { x | ElementOf (x, set_a) &&
65 // !ElementOf (x, set_b) }
66
OptionsSetDiff(const OptionSet & set_a,const OptionSet & set_b,OptionSet & diffs)67 size_t Options::OptionsSetDiff(const OptionSet &set_a, const OptionSet &set_b,
68 OptionSet &diffs) {
69 size_t num_diffs = 0;
70 OptionSet::const_iterator pos_a;
71 OptionSet::const_iterator pos_b;
72
73 for (pos_a = set_a.begin(); pos_a != set_a.end(); ++pos_a) {
74 pos_b = set_b.find(*pos_a);
75 if (pos_b == set_b.end()) {
76 ++num_diffs;
77 diffs.insert(*pos_a);
78 }
79 }
80
81 return num_diffs;
82 }
83
84 // Returns the union of set_a and set_b. Does not put duplicate members into
85 // the union.
86
OptionsSetUnion(const OptionSet & set_a,const OptionSet & set_b,OptionSet & union_set)87 void Options::OptionsSetUnion(const OptionSet &set_a, const OptionSet &set_b,
88 OptionSet &union_set) {
89 OptionSet::const_iterator pos;
90 OptionSet::iterator pos_union;
91
92 // Put all the elements of set_a into the union.
93
94 for (pos = set_a.begin(); pos != set_a.end(); ++pos)
95 union_set.insert(*pos);
96
97 // Put all the elements of set_b that are not already there into the union.
98 for (pos = set_b.begin(); pos != set_b.end(); ++pos) {
99 pos_union = union_set.find(*pos);
100 if (pos_union == union_set.end())
101 union_set.insert(*pos);
102 }
103 }
104
VerifyOptions(CommandReturnObject & result)105 bool Options::VerifyOptions(CommandReturnObject &result) {
106 bool options_are_valid = false;
107
108 int num_levels = GetRequiredOptions().size();
109 if (num_levels) {
110 for (int i = 0; i < num_levels && !options_are_valid; ++i) {
111 // This is the correct set of options if: 1). m_seen_options contains
112 // all of m_required_options[i] (i.e. all the required options at this
113 // level are a subset of m_seen_options); AND 2). { m_seen_options -
114 // m_required_options[i] is a subset of m_options_options[i] (i.e. all
115 // the rest of m_seen_options are in the set of optional options at this
116 // level.
117
118 // Check to see if all of m_required_options[i] are a subset of
119 // m_seen_options
120 if (IsASubset(GetRequiredOptions()[i], m_seen_options)) {
121 // Construct the set difference: remaining_options = {m_seen_options} -
122 // {m_required_options[i]}
123 OptionSet remaining_options;
124 OptionsSetDiff(m_seen_options, GetRequiredOptions()[i],
125 remaining_options);
126 // Check to see if remaining_options is a subset of
127 // m_optional_options[i]
128 if (IsASubset(remaining_options, GetOptionalOptions()[i]))
129 options_are_valid = true;
130 }
131 }
132 } else {
133 options_are_valid = true;
134 }
135
136 if (options_are_valid) {
137 result.SetStatus(eReturnStatusSuccessFinishNoResult);
138 } else {
139 result.AppendError("invalid combination of options for the given command");
140 result.SetStatus(eReturnStatusFailed);
141 }
142
143 return options_are_valid;
144 }
145
146 // This is called in the Options constructor, though we could call it lazily if
147 // that ends up being a performance problem.
148
BuildValidOptionSets()149 void Options::BuildValidOptionSets() {
150 // Check to see if we already did this.
151 if (m_required_options.size() != 0)
152 return;
153
154 // Check to see if there are any options.
155 int num_options = NumCommandOptions();
156 if (num_options == 0)
157 return;
158
159 auto opt_defs = GetDefinitions();
160 m_required_options.resize(1);
161 m_optional_options.resize(1);
162
163 // First count the number of option sets we've got. Ignore
164 // LLDB_ALL_OPTION_SETS...
165
166 uint32_t num_option_sets = 0;
167
168 for (const auto &def : opt_defs) {
169 uint32_t this_usage_mask = def.usage_mask;
170 if (this_usage_mask == LLDB_OPT_SET_ALL) {
171 if (num_option_sets == 0)
172 num_option_sets = 1;
173 } else {
174 for (uint32_t j = 0; j < LLDB_MAX_NUM_OPTION_SETS; j++) {
175 if (this_usage_mask & (1 << j)) {
176 if (num_option_sets <= j)
177 num_option_sets = j + 1;
178 }
179 }
180 }
181 }
182
183 if (num_option_sets > 0) {
184 m_required_options.resize(num_option_sets);
185 m_optional_options.resize(num_option_sets);
186
187 for (const auto &def : opt_defs) {
188 for (uint32_t j = 0; j < num_option_sets; j++) {
189 if (def.usage_mask & 1 << j) {
190 if (def.required)
191 m_required_options[j].insert(def.short_option);
192 else
193 m_optional_options[j].insert(def.short_option);
194 }
195 }
196 }
197 }
198 }
199
NumCommandOptions()200 uint32_t Options::NumCommandOptions() { return GetDefinitions().size(); }
201
GetLongOptions()202 Option *Options::GetLongOptions() {
203 // Check to see if this has already been done.
204 if (m_getopt_table.empty()) {
205 auto defs = GetDefinitions();
206 if (defs.empty())
207 return nullptr;
208
209 std::map<int, uint32_t> option_seen;
210
211 m_getopt_table.resize(defs.size() + 1);
212 for (size_t i = 0; i < defs.size(); ++i) {
213 const int short_opt = defs[i].short_option;
214
215 m_getopt_table[i].definition = &defs[i];
216 m_getopt_table[i].flag = nullptr;
217 m_getopt_table[i].val = short_opt;
218
219 if (option_seen.find(short_opt) == option_seen.end()) {
220 option_seen[short_opt] = i;
221 } else if (short_opt) {
222 m_getopt_table[i].val = 0;
223 std::map<int, uint32_t>::const_iterator pos =
224 option_seen.find(short_opt);
225 StreamString strm;
226 if (defs[i].HasShortOption())
227 Host::SystemLog(Host::eSystemLogError,
228 "option[%u] --%s has a short option -%c that "
229 "conflicts with option[%u] --%s, short option won't "
230 "be used for --%s\n",
231 (int)i, defs[i].long_option, short_opt, pos->second,
232 m_getopt_table[pos->second].definition->long_option,
233 defs[i].long_option);
234 else
235 Host::SystemLog(Host::eSystemLogError,
236 "option[%u] --%s has a short option 0x%x that "
237 "conflicts with option[%u] --%s, short option won't "
238 "be used for --%s\n",
239 (int)i, defs[i].long_option, short_opt, pos->second,
240 m_getopt_table[pos->second].definition->long_option,
241 defs[i].long_option);
242 }
243 }
244
245 // getopt_long_only requires a NULL final entry in the table:
246
247 m_getopt_table.back().definition = nullptr;
248 m_getopt_table.back().flag = nullptr;
249 m_getopt_table.back().val = 0;
250 }
251
252 if (m_getopt_table.empty())
253 return nullptr;
254
255 return &m_getopt_table.front();
256 }
257
258 // This function takes INDENT, which tells how many spaces to output at the
259 // front of each line; SPACES, which is a string containing 80 spaces; and
260 // TEXT, which is the text that is to be output. It outputs the text, on
261 // multiple lines if necessary, to RESULT, with INDENT spaces at the front of
262 // each line. It breaks lines on spaces, tabs or newlines, shortening the line
263 // if necessary to not break in the middle of a word. It assumes that each
264 // output line should contain a maximum of OUTPUT_MAX_COLUMNS characters.
265
OutputFormattedUsageText(Stream & strm,const OptionDefinition & option_def,uint32_t output_max_columns)266 void Options::OutputFormattedUsageText(Stream &strm,
267 const OptionDefinition &option_def,
268 uint32_t output_max_columns) {
269 std::string actual_text;
270 if (option_def.validator) {
271 const char *condition = option_def.validator->ShortConditionString();
272 if (condition) {
273 actual_text = "[";
274 actual_text.append(condition);
275 actual_text.append("] ");
276 }
277 }
278 actual_text.append(option_def.usage_text);
279
280 // Will it all fit on one line?
281
282 if (static_cast<uint32_t>(actual_text.length() + strm.GetIndentLevel()) <
283 output_max_columns) {
284 // Output it as a single line.
285 strm.Indent(actual_text);
286 strm.EOL();
287 } else {
288 // We need to break it up into multiple lines.
289
290 int text_width = output_max_columns - strm.GetIndentLevel() - 1;
291 int start = 0;
292 int end = start;
293 int final_end = actual_text.length();
294 int sub_len;
295
296 while (end < final_end) {
297 // Don't start the 'text' on a space, since we're already outputting the
298 // indentation.
299 while ((start < final_end) && (actual_text[start] == ' '))
300 start++;
301
302 end = start + text_width;
303 if (end > final_end)
304 end = final_end;
305 else {
306 // If we're not at the end of the text, make sure we break the line on
307 // white space.
308 while (end > start && actual_text[end] != ' ' &&
309 actual_text[end] != '\t' && actual_text[end] != '\n')
310 end--;
311 }
312
313 sub_len = end - start;
314 if (start != 0)
315 strm.EOL();
316 strm.Indent();
317 assert(start < final_end);
318 assert(start + sub_len <= final_end);
319 strm.Write(actual_text.c_str() + start, sub_len);
320 start = end + 1;
321 }
322 strm.EOL();
323 }
324 }
325
SupportsLongOption(const char * long_option)326 bool Options::SupportsLongOption(const char *long_option) {
327 if (!long_option || !long_option[0])
328 return false;
329
330 auto opt_defs = GetDefinitions();
331 if (opt_defs.empty())
332 return false;
333
334 const char *long_option_name = long_option;
335 if (long_option[0] == '-' && long_option[1] == '-')
336 long_option_name += 2;
337
338 for (auto &def : opt_defs) {
339 if (!def.long_option)
340 continue;
341
342 if (strcmp(def.long_option, long_option_name) == 0)
343 return true;
344 }
345
346 return false;
347 }
348
349 enum OptionDisplayType {
350 eDisplayBestOption,
351 eDisplayShortOption,
352 eDisplayLongOption
353 };
354
PrintOption(const OptionDefinition & opt_def,OptionDisplayType display_type,const char * header,const char * footer,bool show_optional,Stream & strm)355 static bool PrintOption(const OptionDefinition &opt_def,
356 OptionDisplayType display_type, const char *header,
357 const char *footer, bool show_optional, Stream &strm) {
358 if (display_type == eDisplayShortOption && !opt_def.HasShortOption())
359 return false;
360
361 if (header && header[0])
362 strm.PutCString(header);
363
364 if (show_optional && !opt_def.required)
365 strm.PutChar('[');
366 const bool show_short_option =
367 opt_def.HasShortOption() && display_type != eDisplayLongOption;
368 if (show_short_option)
369 strm.Printf("-%c", opt_def.short_option);
370 else
371 strm.Printf("--%s", opt_def.long_option);
372 switch (opt_def.option_has_arg) {
373 case OptionParser::eNoArgument:
374 break;
375 case OptionParser::eRequiredArgument:
376 strm.Printf(" <%s>", CommandObject::GetArgumentName(opt_def.argument_type));
377 break;
378
379 case OptionParser::eOptionalArgument:
380 strm.Printf("%s[<%s>]", show_short_option ? "" : "=",
381 CommandObject::GetArgumentName(opt_def.argument_type));
382 break;
383 }
384 if (show_optional && !opt_def.required)
385 strm.PutChar(']');
386 if (footer && footer[0])
387 strm.PutCString(footer);
388 return true;
389 }
390
GenerateOptionUsage(Stream & strm,CommandObject * cmd,uint32_t screen_width)391 void Options::GenerateOptionUsage(Stream &strm, CommandObject *cmd,
392 uint32_t screen_width) {
393 const bool only_print_args = cmd->IsDashDashCommand();
394
395 auto opt_defs = GetDefinitions();
396 const uint32_t save_indent_level = strm.GetIndentLevel();
397 llvm::StringRef name;
398
399 StreamString arguments_str;
400
401 if (cmd) {
402 name = cmd->GetCommandName();
403 cmd->GetFormattedCommandArguments(arguments_str);
404 } else
405 name = "";
406
407 strm.PutCString("\nCommand Options Usage:\n");
408
409 strm.IndentMore(2);
410
411 // First, show each usage level set of options, e.g. <cmd> [options-for-
412 // level-0]
413 // <cmd>
414 // [options-for-level-1]
415 // etc.
416
417 const uint32_t num_options = NumCommandOptions();
418 if (num_options == 0)
419 return;
420
421 uint32_t num_option_sets = GetRequiredOptions().size();
422
423 uint32_t i;
424
425 if (!only_print_args) {
426 for (uint32_t opt_set = 0; opt_set < num_option_sets; ++opt_set) {
427 uint32_t opt_set_mask;
428
429 opt_set_mask = 1 << opt_set;
430 if (opt_set > 0)
431 strm.Printf("\n");
432 strm.Indent(name);
433
434 // Different option sets may require different args.
435 StreamString args_str;
436 if (cmd)
437 cmd->GetFormattedCommandArguments(args_str, opt_set_mask);
438
439 // First go through and print all options that take no arguments as a
440 // single string. If a command has "-a" "-b" and "-c", this will show up
441 // as [-abc]
442
443 std::set<int> options;
444 std::set<int>::const_iterator options_pos, options_end;
445 for (auto &def : opt_defs) {
446 if (def.usage_mask & opt_set_mask && def.HasShortOption()) {
447 // Add current option to the end of out_stream.
448
449 if (def.required && def.option_has_arg == OptionParser::eNoArgument) {
450 options.insert(def.short_option);
451 }
452 }
453 }
454
455 if (!options.empty()) {
456 // We have some required options with no arguments
457 strm.PutCString(" -");
458 for (i = 0; i < 2; ++i)
459 for (options_pos = options.begin(), options_end = options.end();
460 options_pos != options_end; ++options_pos) {
461 if (i == 0 && ::islower(*options_pos))
462 continue;
463 if (i == 1 && ::isupper(*options_pos))
464 continue;
465 strm << (char)*options_pos;
466 }
467 }
468
469 options.clear();
470 for (auto &def : opt_defs) {
471 if (def.usage_mask & opt_set_mask && def.HasShortOption()) {
472 // Add current option to the end of out_stream.
473
474 if (!def.required &&
475 def.option_has_arg == OptionParser::eNoArgument) {
476 options.insert(def.short_option);
477 }
478 }
479 }
480
481 if (!options.empty()) {
482 // We have some required options with no arguments
483 strm.PutCString(" [-");
484 for (i = 0; i < 2; ++i)
485 for (options_pos = options.begin(), options_end = options.end();
486 options_pos != options_end; ++options_pos) {
487 if (i == 0 && ::islower(*options_pos))
488 continue;
489 if (i == 1 && ::isupper(*options_pos))
490 continue;
491 strm << (char)*options_pos;
492 }
493 strm.PutChar(']');
494 }
495
496 // First go through and print the required options (list them up front).
497
498 for (auto &def : opt_defs) {
499 if (def.usage_mask & opt_set_mask && def.HasShortOption()) {
500 if (def.required && def.option_has_arg != OptionParser::eNoArgument)
501 PrintOption(def, eDisplayBestOption, " ", nullptr, true, strm);
502 }
503 }
504
505 // Now go through again, and this time only print the optional options.
506
507 for (auto &def : opt_defs) {
508 if (def.usage_mask & opt_set_mask) {
509 // Add current option to the end of out_stream.
510
511 if (!def.required && def.option_has_arg != OptionParser::eNoArgument)
512 PrintOption(def, eDisplayBestOption, " ", nullptr, true, strm);
513 }
514 }
515
516 if (args_str.GetSize() > 0) {
517 if (cmd->WantsRawCommandString() && !only_print_args)
518 strm.Printf(" --");
519
520 strm << " " << args_str.GetString();
521 if (only_print_args)
522 break;
523 }
524 }
525 }
526
527 if (cmd && (only_print_args || cmd->WantsRawCommandString()) &&
528 arguments_str.GetSize() > 0) {
529 if (!only_print_args)
530 strm.PutChar('\n');
531 strm.Indent(name);
532 strm << " " << arguments_str.GetString();
533 }
534
535 strm.Printf("\n\n");
536
537 if (!only_print_args) {
538 // Now print out all the detailed information about the various options:
539 // long form, short form and help text:
540 // -short <argument> ( --long_name <argument> )
541 // help text
542
543 // This variable is used to keep track of which options' info we've printed
544 // out, because some options can be in more than one usage level, but we
545 // only want to print the long form of its information once.
546
547 std::multimap<int, uint32_t> options_seen;
548 strm.IndentMore(5);
549
550 // Put the unique command options in a vector & sort it, so we can output
551 // them alphabetically (by short_option) when writing out detailed help for
552 // each option.
553
554 i = 0;
555 for (auto &def : opt_defs)
556 options_seen.insert(std::make_pair(def.short_option, i++));
557
558 // Go through the unique'd and alphabetically sorted vector of options,
559 // find the table entry for each option and write out the detailed help
560 // information for that option.
561
562 bool first_option_printed = false;
563
564 for (auto pos : options_seen) {
565 i = pos.second;
566 // Print out the help information for this option.
567
568 // Put a newline separation between arguments
569 if (first_option_printed)
570 strm.EOL();
571 else
572 first_option_printed = true;
573
574 CommandArgumentType arg_type = opt_defs[i].argument_type;
575
576 StreamString arg_name_str;
577 arg_name_str.Printf("<%s>", CommandObject::GetArgumentName(arg_type));
578
579 strm.Indent();
580 if (opt_defs[i].short_option && opt_defs[i].HasShortOption()) {
581 PrintOption(opt_defs[i], eDisplayShortOption, nullptr, nullptr, false,
582 strm);
583 PrintOption(opt_defs[i], eDisplayLongOption, " ( ", " )", false, strm);
584 } else {
585 // Short option is not printable, just print long option
586 PrintOption(opt_defs[i], eDisplayLongOption, nullptr, nullptr, false,
587 strm);
588 }
589 strm.EOL();
590
591 strm.IndentMore(5);
592
593 if (opt_defs[i].usage_text)
594 OutputFormattedUsageText(strm, opt_defs[i], screen_width);
595 if (!opt_defs[i].enum_values.empty()) {
596 strm.Indent();
597 strm.Printf("Values: ");
598 bool is_first = true;
599 for (const auto &enum_value : opt_defs[i].enum_values) {
600 if (is_first) {
601 strm.Printf("%s", enum_value.string_value);
602 is_first = false;
603 }
604 else
605 strm.Printf(" | %s", enum_value.string_value);
606 }
607 strm.EOL();
608 }
609 strm.IndentLess(5);
610 }
611 }
612
613 // Restore the indent level
614 strm.SetIndentLevel(save_indent_level);
615 }
616
617 // This function is called when we have been given a potentially incomplete set
618 // of options, such as when an alias has been defined (more options might be
619 // added at at the time the alias is invoked). We need to verify that the
620 // options in the set m_seen_options are all part of a set that may be used
621 // together, but m_seen_options may be missing some of the "required" options.
622
VerifyPartialOptions(CommandReturnObject & result)623 bool Options::VerifyPartialOptions(CommandReturnObject &result) {
624 bool options_are_valid = false;
625
626 int num_levels = GetRequiredOptions().size();
627 if (num_levels) {
628 for (int i = 0; i < num_levels && !options_are_valid; ++i) {
629 // In this case we are treating all options as optional rather than
630 // required. Therefore a set of options is correct if m_seen_options is a
631 // subset of the union of m_required_options and m_optional_options.
632 OptionSet union_set;
633 OptionsSetUnion(GetRequiredOptions()[i], GetOptionalOptions()[i],
634 union_set);
635 if (IsASubset(m_seen_options, union_set))
636 options_are_valid = true;
637 }
638 }
639
640 return options_are_valid;
641 }
642
HandleOptionCompletion(CompletionRequest & request,OptionElementVector & opt_element_vector,CommandInterpreter & interpreter)643 bool Options::HandleOptionCompletion(CompletionRequest &request,
644 OptionElementVector &opt_element_vector,
645 CommandInterpreter &interpreter) {
646 // For now we just scan the completions to see if the cursor position is in
647 // an option or its argument. Otherwise we'll call HandleArgumentCompletion.
648 // In the future we can use completion to validate options as well if we
649 // want.
650
651 auto opt_defs = GetDefinitions();
652
653 llvm::StringRef cur_opt_str = request.GetCursorArgumentPrefix();
654
655 for (size_t i = 0; i < opt_element_vector.size(); i++) {
656 size_t opt_pos = static_cast<size_t>(opt_element_vector[i].opt_pos);
657 size_t opt_arg_pos = static_cast<size_t>(opt_element_vector[i].opt_arg_pos);
658 int opt_defs_index = opt_element_vector[i].opt_defs_index;
659 if (opt_pos == request.GetCursorIndex()) {
660 // We're completing the option itself.
661
662 if (opt_defs_index == OptionArgElement::eBareDash) {
663 // We're completing a bare dash. That means all options are open.
664 // FIXME: We should scan the other options provided and only complete
665 // options
666 // within the option group they belong to.
667 std::string opt_str = "-a";
668
669 for (auto &def : opt_defs) {
670 if (!def.short_option)
671 continue;
672 opt_str[1] = def.short_option;
673 request.AddCompletion(opt_str, def.usage_text);
674 }
675
676 return true;
677 } else if (opt_defs_index == OptionArgElement::eBareDoubleDash) {
678 std::string full_name("--");
679 for (auto &def : opt_defs) {
680 if (!def.short_option)
681 continue;
682
683 full_name.erase(full_name.begin() + 2, full_name.end());
684 full_name.append(def.long_option);
685 request.AddCompletion(full_name, def.usage_text);
686 }
687 return true;
688 } else if (opt_defs_index != OptionArgElement::eUnrecognizedArg) {
689 // We recognized it, if it an incomplete long option, complete it
690 // anyway (getopt_long_only is happy with shortest unique string, but
691 // it's still a nice thing to do.) Otherwise return The string so the
692 // upper level code will know this is a full match and add the " ".
693 const OptionDefinition &opt = opt_defs[opt_defs_index];
694 llvm::StringRef long_option = opt.long_option;
695 if (cur_opt_str.startswith("--") && cur_opt_str != long_option) {
696 request.AddCompletion("--" + long_option.str(), opt.usage_text);
697 return true;
698 } else
699 request.AddCompletion(request.GetCursorArgumentPrefix());
700 return true;
701 } else {
702 // FIXME - not handling wrong options yet:
703 // Check to see if they are writing a long option & complete it.
704 // I think we will only get in here if the long option table has two
705 // elements
706 // that are not unique up to this point. getopt_long_only does
707 // shortest unique match for long options already.
708 if (cur_opt_str.consume_front("--")) {
709 for (auto &def : opt_defs) {
710 llvm::StringRef long_option(def.long_option);
711 if (long_option.startswith(cur_opt_str))
712 request.AddCompletion("--" + long_option.str(), def.usage_text);
713 }
714 }
715 return true;
716 }
717
718 } else if (opt_arg_pos == request.GetCursorIndex()) {
719 // Okay the cursor is on the completion of an argument. See if it has a
720 // completion, otherwise return no matches.
721 if (opt_defs_index != -1) {
722 HandleOptionArgumentCompletion(request, opt_element_vector, i,
723 interpreter);
724 return true;
725 } else {
726 // No completion callback means no completions...
727 return true;
728 }
729
730 } else {
731 // Not the last element, keep going.
732 continue;
733 }
734 }
735 return false;
736 }
737
HandleOptionArgumentCompletion(CompletionRequest & request,OptionElementVector & opt_element_vector,int opt_element_index,CommandInterpreter & interpreter)738 void Options::HandleOptionArgumentCompletion(
739 CompletionRequest &request, OptionElementVector &opt_element_vector,
740 int opt_element_index, CommandInterpreter &interpreter) {
741 auto opt_defs = GetDefinitions();
742 std::unique_ptr<SearchFilter> filter_up;
743
744 int opt_defs_index = opt_element_vector[opt_element_index].opt_defs_index;
745
746 // See if this is an enumeration type option, and if so complete it here:
747
748 const auto &enum_values = opt_defs[opt_defs_index].enum_values;
749 if (!enum_values.empty())
750 for (const auto &enum_value : enum_values)
751 request.TryCompleteCurrentArg(enum_value.string_value);
752
753 // If this is a source file or symbol type completion, and there is a -shlib
754 // option somewhere in the supplied arguments, then make a search filter for
755 // that shared library.
756 // FIXME: Do we want to also have an "OptionType" so we don't have to match
757 // string names?
758
759 uint32_t completion_mask = opt_defs[opt_defs_index].completion_type;
760
761 if (completion_mask == 0) {
762 lldb::CommandArgumentType option_arg_type =
763 opt_defs[opt_defs_index].argument_type;
764 if (option_arg_type != eArgTypeNone) {
765 const CommandObject::ArgumentTableEntry *arg_entry =
766 CommandObject::FindArgumentDataByType(
767 opt_defs[opt_defs_index].argument_type);
768 if (arg_entry)
769 completion_mask = arg_entry->completion_type;
770 }
771 }
772
773 if (completion_mask & CommandCompletions::eSourceFileCompletion ||
774 completion_mask & CommandCompletions::eSymbolCompletion) {
775 for (size_t i = 0; i < opt_element_vector.size(); i++) {
776 int cur_defs_index = opt_element_vector[i].opt_defs_index;
777
778 // trying to use <0 indices will definitely cause problems
779 if (cur_defs_index == OptionArgElement::eUnrecognizedArg ||
780 cur_defs_index == OptionArgElement::eBareDash ||
781 cur_defs_index == OptionArgElement::eBareDoubleDash)
782 continue;
783
784 int cur_arg_pos = opt_element_vector[i].opt_arg_pos;
785 const char *cur_opt_name = opt_defs[cur_defs_index].long_option;
786
787 // If this is the "shlib" option and there was an argument provided,
788 // restrict it to that shared library.
789 if (cur_opt_name && strcmp(cur_opt_name, "shlib") == 0 &&
790 cur_arg_pos != -1) {
791 const char *module_name =
792 request.GetParsedLine().GetArgumentAtIndex(cur_arg_pos);
793 if (module_name) {
794 FileSpec module_spec(module_name);
795 lldb::TargetSP target_sp =
796 interpreter.GetDebugger().GetSelectedTarget();
797 // Search filters require a target...
798 if (target_sp)
799 filter_up =
800 std::make_unique<SearchFilterByModule>(target_sp, module_spec);
801 }
802 break;
803 }
804 }
805 }
806
807 CommandCompletions::InvokeCommonCompletionCallbacks(
808 interpreter, completion_mask, request, filter_up.get());
809 }
810
Append(OptionGroup * group)811 void OptionGroupOptions::Append(OptionGroup *group) {
812 auto group_option_defs = group->GetDefinitions();
813 for (uint32_t i = 0; i < group_option_defs.size(); ++i) {
814 m_option_infos.push_back(OptionInfo(group, i));
815 m_option_defs.push_back(group_option_defs[i]);
816 }
817 }
818
GetGroupWithOption(char short_opt)819 const OptionGroup *OptionGroupOptions::GetGroupWithOption(char short_opt) {
820 for (uint32_t i = 0; i < m_option_defs.size(); i++) {
821 OptionDefinition opt_def = m_option_defs[i];
822 if (opt_def.short_option == short_opt)
823 return m_option_infos[i].option_group;
824 }
825 return nullptr;
826 }
827
Append(OptionGroup * group,uint32_t src_mask,uint32_t dst_mask)828 void OptionGroupOptions::Append(OptionGroup *group, uint32_t src_mask,
829 uint32_t dst_mask) {
830 auto group_option_defs = group->GetDefinitions();
831 for (uint32_t i = 0; i < group_option_defs.size(); ++i) {
832 if (group_option_defs[i].usage_mask & src_mask) {
833 m_option_infos.push_back(OptionInfo(group, i));
834 m_option_defs.push_back(group_option_defs[i]);
835 m_option_defs.back().usage_mask = dst_mask;
836 }
837 }
838 }
839
Finalize()840 void OptionGroupOptions::Finalize() {
841 m_did_finalize = true;
842 }
843
SetOptionValue(uint32_t option_idx,llvm::StringRef option_value,ExecutionContext * execution_context)844 Status OptionGroupOptions::SetOptionValue(uint32_t option_idx,
845 llvm::StringRef option_value,
846 ExecutionContext *execution_context) {
847 // After calling OptionGroupOptions::Append(...), you must finalize the
848 // groups by calling OptionGroupOptions::Finlize()
849 assert(m_did_finalize);
850 Status error;
851 if (option_idx < m_option_infos.size()) {
852 error = m_option_infos[option_idx].option_group->SetOptionValue(
853 m_option_infos[option_idx].option_index, option_value,
854 execution_context);
855
856 } else {
857 error.SetErrorString("invalid option index"); // Shouldn't happen...
858 }
859 return error;
860 }
861
OptionParsingStarting(ExecutionContext * execution_context)862 void OptionGroupOptions::OptionParsingStarting(
863 ExecutionContext *execution_context) {
864 std::set<OptionGroup *> group_set;
865 OptionInfos::iterator pos, end = m_option_infos.end();
866 for (pos = m_option_infos.begin(); pos != end; ++pos) {
867 OptionGroup *group = pos->option_group;
868 if (group_set.find(group) == group_set.end()) {
869 group->OptionParsingStarting(execution_context);
870 group_set.insert(group);
871 }
872 }
873 }
874 Status
OptionParsingFinished(ExecutionContext * execution_context)875 OptionGroupOptions::OptionParsingFinished(ExecutionContext *execution_context) {
876 std::set<OptionGroup *> group_set;
877 Status error;
878 OptionInfos::iterator pos, end = m_option_infos.end();
879 for (pos = m_option_infos.begin(); pos != end; ++pos) {
880 OptionGroup *group = pos->option_group;
881 if (group_set.find(group) == group_set.end()) {
882 error = group->OptionParsingFinished(execution_context);
883 group_set.insert(group);
884 if (error.Fail())
885 return error;
886 }
887 }
888 return error;
889 }
890
891 // OptionParser permutes the arguments while processing them, so we create a
892 // temporary array holding to avoid modification of the input arguments. The
893 // options themselves are never modified, but the API expects a char * anyway,
894 // hence the const_cast.
GetArgvForParsing(const Args & args)895 static std::vector<char *> GetArgvForParsing(const Args &args) {
896 std::vector<char *> result;
897 // OptionParser always skips the first argument as it is based on getopt().
898 result.push_back(const_cast<char *>("<FAKE-ARG0>"));
899 for (const Args::ArgEntry &entry : args)
900 result.push_back(const_cast<char *>(entry.c_str()));
901 result.push_back(nullptr);
902 return result;
903 }
904
905 // Given a permuted argument, find it's position in the original Args vector.
FindOriginalIter(const char * arg,const Args & original)906 static Args::const_iterator FindOriginalIter(const char *arg,
907 const Args &original) {
908 return llvm::find_if(
909 original, [arg](const Args::ArgEntry &D) { return D.c_str() == arg; });
910 }
911
912 // Given a permuted argument, find it's index in the original Args vector.
FindOriginalIndex(const char * arg,const Args & original)913 static size_t FindOriginalIndex(const char *arg, const Args &original) {
914 return std::distance(original.begin(), FindOriginalIter(arg, original));
915 }
916
917 // Construct a new Args object, consisting of the entries from the original
918 // arguments, but in the permuted order.
ReconstituteArgsAfterParsing(llvm::ArrayRef<char * > parsed,const Args & original)919 static Args ReconstituteArgsAfterParsing(llvm::ArrayRef<char *> parsed,
920 const Args &original) {
921 Args result;
922 for (const char *arg : parsed) {
923 auto pos = FindOriginalIter(arg, original);
924 assert(pos != original.end());
925 result.AppendArgument(pos->ref(), pos->GetQuoteChar());
926 }
927 return result;
928 }
929
FindArgumentIndexForOption(const Args & args,const Option & long_option)930 static size_t FindArgumentIndexForOption(const Args &args,
931 const Option &long_option) {
932 std::string short_opt = llvm::formatv("-{0}", char(long_option.val)).str();
933 std::string long_opt =
934 std::string(llvm::formatv("--{0}", long_option.definition->long_option));
935 for (const auto &entry : llvm::enumerate(args)) {
936 if (entry.value().ref().startswith(short_opt) ||
937 entry.value().ref().startswith(long_opt))
938 return entry.index();
939 }
940
941 return size_t(-1);
942 }
943
BuildShortOptions(const Option * long_options)944 static std::string BuildShortOptions(const Option *long_options) {
945 std::string storage;
946 llvm::raw_string_ostream sstr(storage);
947
948 // Leading : tells getopt to return a : for a missing option argument AND to
949 // suppress error messages.
950 sstr << ":";
951
952 for (size_t i = 0; long_options[i].definition != nullptr; ++i) {
953 if (long_options[i].flag == nullptr) {
954 sstr << (char)long_options[i].val;
955 switch (long_options[i].definition->option_has_arg) {
956 default:
957 case OptionParser::eNoArgument:
958 break;
959 case OptionParser::eRequiredArgument:
960 sstr << ":";
961 break;
962 case OptionParser::eOptionalArgument:
963 sstr << "::";
964 break;
965 }
966 }
967 }
968 return std::move(sstr.str());
969 }
970
ParseAlias(const Args & args,OptionArgVector * option_arg_vector,std::string & input_line)971 llvm::Expected<Args> Options::ParseAlias(const Args &args,
972 OptionArgVector *option_arg_vector,
973 std::string &input_line) {
974 Option *long_options = GetLongOptions();
975
976 if (long_options == nullptr) {
977 return llvm::make_error<llvm::StringError>("Invalid long options",
978 llvm::inconvertibleErrorCode());
979 }
980
981 std::string short_options = BuildShortOptions(long_options);
982
983 Args args_copy = args;
984 std::vector<char *> argv = GetArgvForParsing(args);
985
986 std::unique_lock<std::mutex> lock;
987 OptionParser::Prepare(lock);
988 int val;
989 while (true) {
990 int long_options_index = -1;
991 val = OptionParser::Parse(argv, short_options, long_options,
992 &long_options_index);
993
994 if (val == ':') {
995 return llvm::createStringError(llvm::inconvertibleErrorCode(),
996 "last option requires an argument");
997 }
998
999 if (val == -1)
1000 break;
1001
1002 if (val == '?') {
1003 return llvm::make_error<llvm::StringError>(
1004 "Unknown or ambiguous option", llvm::inconvertibleErrorCode());
1005 }
1006
1007 if (val == 0)
1008 continue;
1009
1010 OptionSeen(val);
1011
1012 // Look up the long option index
1013 if (long_options_index == -1) {
1014 for (int j = 0; long_options[j].definition || long_options[j].flag ||
1015 long_options[j].val;
1016 ++j) {
1017 if (long_options[j].val == val) {
1018 long_options_index = j;
1019 break;
1020 }
1021 }
1022 }
1023
1024 // See if the option takes an argument, and see if one was supplied.
1025 if (long_options_index == -1) {
1026 return llvm::make_error<llvm::StringError>(
1027 llvm::formatv("Invalid option with value '{0}'.", char(val)).str(),
1028 llvm::inconvertibleErrorCode());
1029 }
1030
1031 StreamString option_str;
1032 option_str.Printf("-%c", val);
1033 const OptionDefinition *def = long_options[long_options_index].definition;
1034 int has_arg =
1035 (def == nullptr) ? OptionParser::eNoArgument : def->option_has_arg;
1036
1037 const char *option_arg = nullptr;
1038 switch (has_arg) {
1039 case OptionParser::eRequiredArgument:
1040 if (OptionParser::GetOptionArgument() == nullptr) {
1041 return llvm::make_error<llvm::StringError>(
1042 llvm::formatv("Option '{0}' is missing argument specifier.",
1043 option_str.GetString())
1044 .str(),
1045 llvm::inconvertibleErrorCode());
1046 }
1047 LLVM_FALLTHROUGH;
1048 case OptionParser::eOptionalArgument:
1049 option_arg = OptionParser::GetOptionArgument();
1050 LLVM_FALLTHROUGH;
1051 case OptionParser::eNoArgument:
1052 break;
1053 default:
1054 return llvm::make_error<llvm::StringError>(
1055 llvm::formatv("error with options table; invalid value in has_arg "
1056 "field for option '{0}'.",
1057 char(val))
1058 .str(),
1059 llvm::inconvertibleErrorCode());
1060 }
1061 if (!option_arg)
1062 option_arg = "<no-argument>";
1063 option_arg_vector->emplace_back(std::string(option_str.GetString()),
1064 has_arg, std::string(option_arg));
1065
1066 // Find option in the argument list; also see if it was supposed to take an
1067 // argument and if one was supplied. Remove option (and argument, if
1068 // given) from the argument list. Also remove them from the
1069 // raw_input_string, if one was passed in.
1070 size_t idx =
1071 FindArgumentIndexForOption(args_copy, long_options[long_options_index]);
1072 if (idx == size_t(-1))
1073 continue;
1074
1075 if (!input_line.empty()) {
1076 auto tmp_arg = args_copy[idx].ref();
1077 size_t pos = input_line.find(std::string(tmp_arg));
1078 if (pos != std::string::npos)
1079 input_line.erase(pos, tmp_arg.size());
1080 }
1081 args_copy.DeleteArgumentAtIndex(idx);
1082 if ((long_options[long_options_index].definition->option_has_arg !=
1083 OptionParser::eNoArgument) &&
1084 (OptionParser::GetOptionArgument() != nullptr) &&
1085 (idx < args_copy.GetArgumentCount()) &&
1086 (args_copy[idx].ref() == OptionParser::GetOptionArgument())) {
1087 if (input_line.size() > 0) {
1088 auto tmp_arg = args_copy[idx].ref();
1089 size_t pos = input_line.find(std::string(tmp_arg));
1090 if (pos != std::string::npos)
1091 input_line.erase(pos, tmp_arg.size());
1092 }
1093 args_copy.DeleteArgumentAtIndex(idx);
1094 }
1095 }
1096
1097 return std::move(args_copy);
1098 }
1099
ParseForCompletion(const Args & args,uint32_t cursor_index)1100 OptionElementVector Options::ParseForCompletion(const Args &args,
1101 uint32_t cursor_index) {
1102 OptionElementVector option_element_vector;
1103 Option *long_options = GetLongOptions();
1104 option_element_vector.clear();
1105
1106 if (long_options == nullptr)
1107 return option_element_vector;
1108
1109 std::string short_options = BuildShortOptions(long_options);
1110
1111 std::unique_lock<std::mutex> lock;
1112 OptionParser::Prepare(lock);
1113 OptionParser::EnableError(false);
1114
1115 int val;
1116 auto opt_defs = GetDefinitions();
1117
1118 std::vector<char *> dummy_vec = GetArgvForParsing(args);
1119
1120 bool failed_once = false;
1121 uint32_t dash_dash_pos = -1;
1122
1123 while (true) {
1124 bool missing_argument = false;
1125 int long_options_index = -1;
1126
1127 val = OptionParser::Parse(dummy_vec, short_options, long_options,
1128 &long_options_index);
1129
1130 if (val == -1) {
1131 // When we're completing a "--" which is the last option on line,
1132 if (failed_once)
1133 break;
1134
1135 failed_once = true;
1136
1137 // If this is a bare "--" we mark it as such so we can complete it
1138 // successfully later. Handling the "--" is a little tricky, since that
1139 // may mean end of options or arguments, or the user might want to
1140 // complete options by long name. I make this work by checking whether
1141 // the cursor is in the "--" argument, and if so I assume we're
1142 // completing the long option, otherwise I let it pass to
1143 // OptionParser::Parse which will terminate the option parsing. Note, in
1144 // either case we continue parsing the line so we can figure out what
1145 // other options were passed. This will be useful when we come to
1146 // restricting completions based on what other options we've seen on the
1147 // line.
1148
1149 if (static_cast<size_t>(OptionParser::GetOptionIndex()) <
1150 dummy_vec.size() &&
1151 (strcmp(dummy_vec[OptionParser::GetOptionIndex() - 1], "--") == 0)) {
1152 dash_dash_pos = FindOriginalIndex(
1153 dummy_vec[OptionParser::GetOptionIndex() - 1], args);
1154 if (dash_dash_pos == cursor_index) {
1155 option_element_vector.push_back(
1156 OptionArgElement(OptionArgElement::eBareDoubleDash, dash_dash_pos,
1157 OptionArgElement::eBareDoubleDash));
1158 continue;
1159 } else
1160 break;
1161 } else
1162 break;
1163 } else if (val == '?') {
1164 option_element_vector.push_back(OptionArgElement(
1165 OptionArgElement::eUnrecognizedArg,
1166 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1167 args),
1168 OptionArgElement::eUnrecognizedArg));
1169 continue;
1170 } else if (val == 0) {
1171 continue;
1172 } else if (val == ':') {
1173 // This is a missing argument.
1174 val = OptionParser::GetOptionErrorCause();
1175 missing_argument = true;
1176 }
1177
1178 OptionSeen(val);
1179
1180 // Look up the long option index
1181 if (long_options_index == -1) {
1182 for (int j = 0; long_options[j].definition || long_options[j].flag ||
1183 long_options[j].val;
1184 ++j) {
1185 if (long_options[j].val == val) {
1186 long_options_index = j;
1187 break;
1188 }
1189 }
1190 }
1191
1192 // See if the option takes an argument, and see if one was supplied.
1193 if (long_options_index >= 0) {
1194 int opt_defs_index = -1;
1195 for (size_t i = 0; i < opt_defs.size(); i++) {
1196 if (opt_defs[i].short_option != val)
1197 continue;
1198 opt_defs_index = i;
1199 break;
1200 }
1201
1202 const OptionDefinition *def = long_options[long_options_index].definition;
1203 int has_arg =
1204 (def == nullptr) ? OptionParser::eNoArgument : def->option_has_arg;
1205 switch (has_arg) {
1206 case OptionParser::eNoArgument:
1207 option_element_vector.push_back(OptionArgElement(
1208 opt_defs_index,
1209 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1210 args),
1211 0));
1212 break;
1213 case OptionParser::eRequiredArgument:
1214 if (OptionParser::GetOptionArgument() != nullptr) {
1215 int arg_index;
1216 if (missing_argument)
1217 arg_index = -1;
1218 else
1219 arg_index = OptionParser::GetOptionIndex() - 2;
1220
1221 option_element_vector.push_back(OptionArgElement(
1222 opt_defs_index,
1223 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 2],
1224 args),
1225 arg_index));
1226 } else {
1227 option_element_vector.push_back(OptionArgElement(
1228 opt_defs_index,
1229 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1230 args),
1231 -1));
1232 }
1233 break;
1234 case OptionParser::eOptionalArgument:
1235 if (OptionParser::GetOptionArgument() != nullptr) {
1236 option_element_vector.push_back(OptionArgElement(
1237 opt_defs_index,
1238 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 2],
1239 args),
1240 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1241 args)));
1242 } else {
1243 option_element_vector.push_back(OptionArgElement(
1244 opt_defs_index,
1245 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 2],
1246 args),
1247 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1248 args)));
1249 }
1250 break;
1251 default:
1252 // The options table is messed up. Here we'll just continue
1253 option_element_vector.push_back(OptionArgElement(
1254 OptionArgElement::eUnrecognizedArg,
1255 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1256 args),
1257 OptionArgElement::eUnrecognizedArg));
1258 break;
1259 }
1260 } else {
1261 option_element_vector.push_back(OptionArgElement(
1262 OptionArgElement::eUnrecognizedArg,
1263 FindOriginalIndex(dummy_vec[OptionParser::GetOptionIndex() - 1],
1264 args),
1265 OptionArgElement::eUnrecognizedArg));
1266 }
1267 }
1268
1269 // Finally we have to handle the case where the cursor index points at a
1270 // single "-". We want to mark that in the option_element_vector, but only
1271 // if it is not after the "--". But it turns out that OptionParser::Parse
1272 // just ignores an isolated "-". So we have to look it up by hand here. We
1273 // only care if it is AT the cursor position. Note, a single quoted dash is
1274 // not the same as a single dash...
1275
1276 const Args::ArgEntry &cursor = args[cursor_index];
1277 if ((static_cast<int32_t>(dash_dash_pos) == -1 ||
1278 cursor_index < dash_dash_pos) &&
1279 !cursor.IsQuoted() && cursor.ref() == "-") {
1280 option_element_vector.push_back(
1281 OptionArgElement(OptionArgElement::eBareDash, cursor_index,
1282 OptionArgElement::eBareDash));
1283 }
1284 return option_element_vector;
1285 }
1286
Parse(const Args & args,ExecutionContext * execution_context,lldb::PlatformSP platform_sp,bool require_validation)1287 llvm::Expected<Args> Options::Parse(const Args &args,
1288 ExecutionContext *execution_context,
1289 lldb::PlatformSP platform_sp,
1290 bool require_validation) {
1291 Status error;
1292 Option *long_options = GetLongOptions();
1293 if (long_options == nullptr) {
1294 return llvm::make_error<llvm::StringError>("Invalid long options.",
1295 llvm::inconvertibleErrorCode());
1296 }
1297
1298 std::string short_options = BuildShortOptions(long_options);
1299 std::vector<char *> argv = GetArgvForParsing(args);
1300 std::unique_lock<std::mutex> lock;
1301 OptionParser::Prepare(lock);
1302 int val;
1303 while (true) {
1304 int long_options_index = -1;
1305 val = OptionParser::Parse(argv, short_options, long_options,
1306 &long_options_index);
1307
1308 if (val == ':') {
1309 error.SetErrorString("last option requires an argument");
1310 break;
1311 }
1312
1313 if (val == -1)
1314 break;
1315
1316 // Did we get an error?
1317 if (val == '?') {
1318 error.SetErrorString("unknown or ambiguous option");
1319 break;
1320 }
1321 // The option auto-set itself
1322 if (val == 0)
1323 continue;
1324
1325 OptionSeen(val);
1326
1327 // Lookup the long option index
1328 if (long_options_index == -1) {
1329 for (int i = 0; long_options[i].definition || long_options[i].flag ||
1330 long_options[i].val;
1331 ++i) {
1332 if (long_options[i].val == val) {
1333 long_options_index = i;
1334 break;
1335 }
1336 }
1337 }
1338 // Call the callback with the option
1339 if (long_options_index >= 0 &&
1340 long_options[long_options_index].definition) {
1341 const OptionDefinition *def = long_options[long_options_index].definition;
1342
1343 if (!platform_sp) {
1344 // User did not pass in an explicit platform. Try to grab from the
1345 // execution context.
1346 TargetSP target_sp =
1347 execution_context ? execution_context->GetTargetSP() : TargetSP();
1348 platform_sp = target_sp ? target_sp->GetPlatform() : PlatformSP();
1349 }
1350 OptionValidator *validator = def->validator;
1351
1352 if (!platform_sp && require_validation) {
1353 // Caller requires validation but we cannot validate as we don't have
1354 // the mandatory platform against which to validate.
1355 return llvm::make_error<llvm::StringError>(
1356 "cannot validate options: no platform available",
1357 llvm::inconvertibleErrorCode());
1358 }
1359
1360 bool validation_failed = false;
1361 if (platform_sp) {
1362 // Ensure we have an execution context, empty or not.
1363 ExecutionContext dummy_context;
1364 ExecutionContext *exe_ctx_p =
1365 execution_context ? execution_context : &dummy_context;
1366 if (validator && !validator->IsValid(*platform_sp, *exe_ctx_p)) {
1367 validation_failed = true;
1368 error.SetErrorStringWithFormat("Option \"%s\" invalid. %s",
1369 def->long_option,
1370 def->validator->LongConditionString());
1371 }
1372 }
1373
1374 // As long as validation didn't fail, we set the option value.
1375 if (!validation_failed)
1376 error =
1377 SetOptionValue(long_options_index,
1378 (def->option_has_arg == OptionParser::eNoArgument)
1379 ? nullptr
1380 : OptionParser::GetOptionArgument(),
1381 execution_context);
1382 // If the Option setting returned an error, we should stop parsing
1383 // and return the error.
1384 if (error.Fail())
1385 break;
1386 } else {
1387 error.SetErrorStringWithFormat("invalid option with value '%i'", val);
1388 }
1389 }
1390
1391 if (error.Fail())
1392 return error.ToError();
1393
1394 argv.pop_back();
1395 argv.erase(argv.begin(), argv.begin() + OptionParser::GetOptionIndex());
1396 return ReconstituteArgsAfterParsing(argv, args);
1397 }
1398