* Changing crash report limitation logic to have more control over extreme cases.
[chromium-blink-merge.git] / tools / gn / command_desc.cc
blob48fa31ab7ebf140b7351ed2283f326ba0f7813c3
1 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <algorithm>
6 #include <set>
7 #include <sstream>
9 #include "base/command_line.h"
10 #include "tools/gn/commands.h"
11 #include "tools/gn/config.h"
12 #include "tools/gn/config_values_extractors.h"
13 #include "tools/gn/deps_iterator.h"
14 #include "tools/gn/filesystem_utils.h"
15 #include "tools/gn/item.h"
16 #include "tools/gn/label.h"
17 #include "tools/gn/runtime_deps.h"
18 #include "tools/gn/setup.h"
19 #include "tools/gn/standard_out.h"
20 #include "tools/gn/substitution_writer.h"
21 #include "tools/gn/target.h"
22 #include "tools/gn/variables.h"
24 namespace commands {
26 namespace {
28 // The switch for displaying blame.
29 const char kBlame[] = "blame";
31 // Prints the given directory in a nice way for the user to view.
32 std::string FormatSourceDir(const SourceDir& dir) {
33 #if defined(OS_WIN)
34 // On Windows we fix up system absolute paths to look like native ones.
35 // Internally, they'll look like "/C:\foo\bar/"
36 if (dir.is_system_absolute()) {
37 std::string buf = dir.value();
38 if (buf.size() > 3 && buf[2] == ':') {
39 buf.erase(buf.begin()); // Erase beginning slash.
40 return buf;
43 #endif
44 return dir.value();
47 void RecursiveCollectChildDeps(const Target* target,
48 std::set<const Target*>* result);
50 void RecursiveCollectDeps(const Target* target,
51 std::set<const Target*>* result) {
52 if (result->find(target) != result->end())
53 return; // Already did this target.
54 result->insert(target);
56 RecursiveCollectChildDeps(target, result);
59 void RecursiveCollectChildDeps(const Target* target,
60 std::set<const Target*>* result) {
61 for (const auto& pair : target->GetDeps(Target::DEPS_ALL))
62 RecursiveCollectDeps(pair.ptr, result);
65 // Prints dependencies of the given target (not the target itself). If the
66 // set is non-null, new targets encountered will be added to the set, and if
67 // a dependency is in the set already, it will not be recused into. When the
68 // set is null, all dependencies will be printed.
69 void RecursivePrintDeps(const Target* target,
70 const Label& default_toolchain,
71 std::set<const Target*>* seen_targets,
72 int indent_level) {
73 // Combine all deps into one sorted list.
74 std::vector<LabelTargetPair> sorted_deps;
75 for (const auto& pair : target->GetDeps(Target::DEPS_ALL))
76 sorted_deps.push_back(pair);
77 std::sort(sorted_deps.begin(), sorted_deps.end(),
78 LabelPtrLabelLess<Target>());
80 std::string indent(indent_level * 2, ' ');
81 for (const auto& pair : sorted_deps) {
82 const Target* cur_dep = pair.ptr;
84 OutputString(indent +
85 cur_dep->label().GetUserVisibleName(default_toolchain));
86 bool print_children = true;
87 if (seen_targets) {
88 if (seen_targets->find(cur_dep) == seen_targets->end()) {
89 // New target, mark it visited.
90 seen_targets->insert(cur_dep);
91 } else {
92 // Already seen.
93 print_children = false;
94 // Only print "..." if something is actually elided, which means that
95 // the current target has children.
96 if (!cur_dep->public_deps().empty() ||
97 !cur_dep->private_deps().empty() ||
98 !cur_dep->data_deps().empty())
99 OutputString("...");
103 OutputString("\n");
104 if (print_children) {
105 RecursivePrintDeps(cur_dep, default_toolchain, seen_targets,
106 indent_level + 1);
111 void PrintDeps(const Target* target, bool display_header) {
112 const base::CommandLine* cmdline = base::CommandLine::ForCurrentProcess();
113 Label toolchain_label = target->label().GetToolchainLabel();
115 // Tree mode is separate.
116 if (cmdline->HasSwitch("tree")) {
117 if (display_header)
118 OutputString("\nDependency tree:\n");
120 if (cmdline->HasSwitch("all")) {
121 // Show all tree deps with no eliding.
122 RecursivePrintDeps(target, toolchain_label, nullptr, 1);
123 } else {
124 // Don't recurse into duplicates.
125 std::set<const Target*> seen_targets;
126 RecursivePrintDeps(target, toolchain_label, &seen_targets, 1);
128 return;
131 // Collect the deps to display.
132 if (cmdline->HasSwitch("all")) {
133 // Show all dependencies.
134 if (display_header)
135 OutputString("\nAll recursive dependencies:\n");
137 std::set<const Target*> all_deps;
138 RecursiveCollectChildDeps(target, &all_deps);
139 FilterAndPrintTargetSet(display_header, all_deps);
140 } else {
141 std::vector<const Target*> deps;
142 // Show direct dependencies only.
143 if (display_header) {
144 OutputString(
145 "\nDirect dependencies "
146 "(try also \"--all\", \"--tree\", or even \"--all --tree\"):\n");
148 for (const auto& pair : target->GetDeps(Target::DEPS_ALL))
149 deps.push_back(pair.ptr);
150 std::sort(deps.begin(), deps.end());
151 FilterAndPrintTargets(display_header, &deps);
155 void PrintForwardDependentConfigsFrom(const Target* target,
156 bool display_header) {
157 if (target->forward_dependent_configs().empty())
158 return;
160 if (display_header)
161 OutputString("\nforward_dependent_configs_from:\n");
163 // Collect the sorted list of deps.
164 std::vector<Label> forward;
165 for (const auto& pair : target->forward_dependent_configs())
166 forward.push_back(pair.label);
167 std::sort(forward.begin(), forward.end());
169 Label toolchain_label = target->label().GetToolchainLabel();
170 for (const auto& fwd : forward)
171 OutputString(" " + fwd.GetUserVisibleName(toolchain_label) + "\n");
174 // libs and lib_dirs are special in that they're inherited. We don't currently
175 // implement a blame feature for this since the bottom-up inheritance makes
176 // this difficult.
177 void PrintLibDirs(const Target* target, bool display_header) {
178 const OrderedSet<SourceDir>& lib_dirs = target->all_lib_dirs();
179 if (lib_dirs.empty())
180 return;
182 if (display_header)
183 OutputString("\nlib_dirs\n");
185 for (size_t i = 0; i < lib_dirs.size(); i++)
186 OutputString(" " + FormatSourceDir(lib_dirs[i]) + "\n");
189 void PrintLibs(const Target* target, bool display_header) {
190 const OrderedSet<std::string>& libs = target->all_libs();
191 if (libs.empty())
192 return;
194 if (display_header)
195 OutputString("\nlibs\n");
197 for (size_t i = 0; i < libs.size(); i++)
198 OutputString(" " + libs[i] + "\n");
201 void PrintPublic(const Target* target, bool display_header) {
202 if (display_header)
203 OutputString("\npublic:\n");
205 if (target->all_headers_public()) {
206 OutputString(" [All headers listed in the sources are public.]\n");
207 return;
210 Target::FileList public_headers = target->public_headers();
211 std::sort(public_headers.begin(), public_headers.end());
212 for (const auto& hdr : public_headers)
213 OutputString(" " + hdr.value() + "\n");
216 void PrintCheckIncludes(const Target* target, bool display_header) {
217 if (display_header)
218 OutputString("\ncheck_includes:\n");
220 if (target->check_includes())
221 OutputString(" true\n");
222 else
223 OutputString(" false\n");
226 void PrintAllowCircularIncludesFrom(const Target* target, bool display_header) {
227 if (display_header)
228 OutputString("\nallow_circular_includes_from:\n");
230 Label toolchain_label = target->label().GetToolchainLabel();
231 for (const auto& cur : target->allow_circular_includes_from())
232 OutputString(" " + cur.GetUserVisibleName(toolchain_label) + "\n");
235 void PrintVisibility(const Target* target, bool display_header) {
236 if (display_header)
237 OutputString("\nvisibility:\n");
239 OutputString(target->visibility().Describe(2, false));
242 void PrintTestonly(const Target* target, bool display_header) {
243 if (display_header)
244 OutputString("\ntestonly:\n");
246 if (target->testonly())
247 OutputString(" true\n");
248 else
249 OutputString(" false\n");
252 void PrintConfigsVector(const Target* target,
253 const LabelConfigVector& configs,
254 const std::string& heading,
255 bool display_header) {
256 if (configs.empty())
257 return;
259 // Don't sort since the order determines how things are processed.
260 if (display_header)
261 OutputString("\n" + heading + " (in order applying):\n");
263 Label toolchain_label = target->label().GetToolchainLabel();
264 for (const auto& config : configs) {
265 OutputString(" " + config.label.GetUserVisibleName(toolchain_label) +
266 "\n");
270 void PrintConfigsVector(const Target* target,
271 const UniqueVector<LabelConfigPair>& configs,
272 const std::string& heading,
273 bool display_header) {
274 if (configs.empty())
275 return;
277 // Don't sort since the order determines how things are processed.
278 if (display_header)
279 OutputString("\n" + heading + " (in order applying):\n");
281 Label toolchain_label = target->label().GetToolchainLabel();
282 for (const auto& config : configs) {
283 OutputString(" " + config.label.GetUserVisibleName(toolchain_label) +
284 "\n");
288 void PrintConfigs(const Target* target, bool display_header) {
289 PrintConfigsVector(target, target->configs().vector(), "configs",
290 display_header);
293 void PrintPublicConfigs(const Target* target, bool display_header) {
294 PrintConfigsVector(target, target->public_configs(),
295 "public_configs", display_header);
298 void PrintAllDependentConfigs(const Target* target, bool display_header) {
299 PrintConfigsVector(target, target->all_dependent_configs(),
300 "all_dependent_configs", display_header);
303 void PrintFileList(const Target::FileList& files,
304 const std::string& header,
305 bool indent_extra,
306 bool display_header) {
307 if (files.empty())
308 return;
310 if (display_header)
311 OutputString("\n" + header + ":\n");
313 std::string indent = indent_extra ? " " : " ";
315 Target::FileList sorted = files;
316 std::sort(sorted.begin(), sorted.end());
317 for (const auto& elem : sorted)
318 OutputString(indent + elem.value() + "\n");
321 void PrintSources(const Target* target, bool display_header) {
322 PrintFileList(target->sources(), "sources", false, display_header);
325 void PrintInputs(const Target* target, bool display_header) {
326 PrintFileList(target->inputs(), "inputs", false, display_header);
329 void PrintOutputs(const Target* target, bool display_header) {
330 if (display_header)
331 OutputString("\noutputs:\n");
333 if (target->output_type() == Target::ACTION) {
334 // Action, print out outputs, don't apply sources to it.
335 for (const auto& elem : target->action_values().outputs().list()) {
336 OutputString(" " + elem.AsString() + "\n");
338 } else {
339 const SubstitutionList& outputs = target->action_values().outputs();
340 if (!outputs.required_types().empty()) {
341 // Display the pattern and resolved pattern separately, since there are
342 // subtitutions used.
343 OutputString(" Output pattern:\n");
344 for (const auto& elem : outputs.list())
345 OutputString(" " + elem.AsString() + "\n");
347 // Now display what that resolves to given the sources.
348 OutputString("\n Resolved output file list:\n");
351 // Resolved output list.
352 std::vector<SourceFile> output_files;
353 SubstitutionWriter::ApplyListToSources(target->settings(), outputs,
354 target->sources(), &output_files);
355 PrintFileList(output_files, "", true, false);
359 void PrintScript(const Target* target, bool display_header) {
360 if (display_header)
361 OutputString("\nscript:\n");
362 OutputString(" " + target->action_values().script().value() + "\n");
365 void PrintArgs(const Target* target, bool display_header) {
366 if (display_header)
367 OutputString("\nargs:\n");
368 for (const auto& elem : target->action_values().args().list()) {
369 OutputString(" " + elem.AsString() + "\n");
373 void PrintDepfile(const Target* target, bool display_header) {
374 if (target->action_values().depfile().empty())
375 return;
376 if (display_header)
377 OutputString("\ndepfile:\n");
378 OutputString(" " + target->action_values().depfile().AsString() + "\n");
381 // Attribute the origin for attributing from where a target came from. Does
382 // nothing if the input is null or it does not have a location.
383 void OutputSourceOfDep(const ParseNode* origin, std::ostream& out) {
384 if (!origin)
385 return;
386 Location location = origin->GetRange().begin();
387 out << " (Added by " + location.file()->name().value() << ":"
388 << location.line_number() << ")\n";
391 // Templatized writer for writing out different config value types.
392 template<typename T> struct DescValueWriter {};
393 template<> struct DescValueWriter<std::string> {
394 void operator()(const std::string& str, std::ostream& out) const {
395 out << " " << str << "\n";
398 template<> struct DescValueWriter<SourceDir> {
399 void operator()(const SourceDir& dir, std::ostream& out) const {
400 out << " " << FormatSourceDir(dir) << "\n";
404 // Writes a given config value type to the string, optionally with attribution.
405 // This should match RecursiveTargetConfigToStream in the order it traverses.
406 template<typename T> void OutputRecursiveTargetConfig(
407 const Target* target,
408 const char* header_name,
409 const std::vector<T>& (ConfigValues::* getter)() const) {
410 bool display_blame =
411 base::CommandLine::ForCurrentProcess()->HasSwitch(kBlame);
413 DescValueWriter<T> writer;
414 std::ostringstream out;
416 for (ConfigValuesIterator iter(target); !iter.done(); iter.Next()) {
417 if ((iter.cur().*getter)().empty())
418 continue;
420 // Optional blame sub-head.
421 if (display_blame) {
422 const Config* config = iter.GetCurrentConfig();
423 if (config) {
424 // Source of this value is a config.
425 out << " From " << config->label().GetUserVisibleName(false) << "\n";
426 OutputSourceOfDep(iter.origin(), out);
427 } else {
428 // Source of this value is the target itself.
429 out << " From " << target->label().GetUserVisibleName(false) << "\n";
433 // Actual values.
434 ConfigValuesToStream(iter.cur(), getter, writer, out);
437 std::string out_str = out.str();
438 if (!out_str.empty()) {
439 OutputString("\n" + std::string(header_name) + "\n");
440 OutputString(out_str);
444 void PrintRuntimeDeps(const Target* target) {
445 bool display_blame =
446 base::CommandLine::ForCurrentProcess()->HasSwitch(kBlame);
447 Label toolchain = target->label().GetToolchainLabel();
449 const Target* previous_from = NULL;
450 for (const auto& pair : ComputeRuntimeDeps(target)) {
451 if (display_blame) {
452 // Generally a target's runtime deps will be listed sequentially, so
453 // group them and don't duplicate the "from" label for two in a row.
454 if (previous_from == pair.second) {
455 OutputString(" "); // Just indent.
456 } else {
457 previous_from = pair.second;
458 OutputString("From ");
459 OutputString(pair.second->label().GetUserVisibleName(toolchain));
460 OutputString("\n "); // Make the file name indented.
463 OutputString(pair.first.value());
464 OutputString("\n");
468 } // namespace
470 // desc ------------------------------------------------------------------------
472 const char kDesc[] = "desc";
473 const char kDesc_HelpShort[] =
474 "desc: Show lots of insightful information about a target.";
475 const char kDesc_Help[] =
476 "gn desc <out_dir> <target label> [<what to show>] [--blame]\n"
477 "\n"
478 " Displays information about a given labeled target for the given build.\n"
479 " The build parameters will be taken for the build in the given\n"
480 " <out_dir>.\n"
481 "\n"
482 "Possibilities for <what to show>\n"
483 " (If unspecified an overall summary will be displayed.)\n"
484 "\n"
485 " sources\n"
486 " Source files.\n"
487 "\n"
488 " inputs\n"
489 " Additional input dependencies.\n"
490 "\n"
491 " public\n"
492 " Public header files.\n"
493 "\n"
494 " check_includes\n"
495 " Whether \"gn check\" checks this target for include usage.\n"
496 "\n"
497 " allow_circular_includes_from\n"
498 " Permit includes from these targets.\n"
499 "\n"
500 " visibility\n"
501 " Prints which targets can depend on this one.\n"
502 "\n"
503 " testonly\n"
504 " Whether this target may only be used in tests.\n"
505 "\n"
506 " configs\n"
507 " Shows configs applied to the given target, sorted in the order\n"
508 " they're specified. This includes both configs specified in the\n"
509 " \"configs\" variable, as well as configs pushed onto this target\n"
510 " via dependencies specifying \"all\" or \"direct\" dependent\n"
511 " configs.\n"
512 "\n"
513 " deps\n"
514 " Show immediate or recursive dependencies. See below for flags that\n"
515 " control deps printing.\n"
516 "\n"
517 " public_configs\n"
518 " all_dependent_configs\n"
519 " Shows the labels of configs applied to targets that depend on this\n"
520 " one (either directly or all of them).\n"
521 "\n"
522 " forward_dependent_configs_from\n"
523 " Shows the labels of dependencies for which dependent configs will\n"
524 " be pushed to targets depending on the current one.\n"
525 "\n"
526 " script\n"
527 " args\n"
528 " depfile\n"
529 " Actions only. The script and related values.\n"
530 "\n"
531 " outputs\n"
532 " Outputs for script and copy target types.\n"
533 "\n"
534 " defines [--blame]\n"
535 " include_dirs [--blame]\n"
536 " cflags [--blame]\n"
537 " cflags_cc [--blame]\n"
538 " cflags_cxx [--blame]\n"
539 " ldflags [--blame]\n"
540 " lib_dirs\n"
541 " libs\n"
542 " Shows the given values taken from the target and all configs\n"
543 " applying. See \"--blame\" below.\n"
544 "\n"
545 " runtime_deps\n"
546 " Compute all runtime deps for the given target. This is a\n"
547 " computed list and does not correspond to any GN variable, unlike\n"
548 " most other values here.\n"
549 "\n"
550 " The output is a list of file names relative to the build\n"
551 " directory. See \"gn help runtime_deps\" for how this is computed.\n"
552 " This also works with \"--blame\" to see the source of the\n"
553 " dependency.\n"
554 "\n"
555 "Shared flags\n"
556 "\n"
557 " --blame\n"
558 " Used with any value specified by a config, this will name\n"
559 " the config that specified the value. This doesn't currently work\n"
560 " for libs and lib_dirs because those are inherited and are more\n"
561 " complicated to figure out the blame (patches welcome).\n"
562 "\n"
563 "Flags that control how deps are printed\n"
564 "\n"
565 " --all\n"
566 " Collects all recursive dependencies and prints a sorted flat list.\n"
567 " Also usable with --tree (see below).\n"
568 "\n"
569 TARGET_PRINTING_MODE_COMMAND_LINE_HELP
570 "\n"
571 TARGET_TESTONLY_FILTER_COMMAND_LINE_HELP
572 "\n"
573 " --tree\n"
574 " Print a dependency tree. By default, duplicates will be elided\n"
575 " with \"...\" but when --all and -tree are used together, no\n"
576 " eliding will be performed.\n"
577 "\n"
578 " The \"deps\", \"public_deps\", and \"data_deps\" will all be\n"
579 " included in the tree.\n"
580 "\n"
581 " Tree output can not be used with the filtering or output flags:\n"
582 " --as, --type, --testonly.\n"
583 "\n"
584 TARGET_TYPE_FILTER_COMMAND_LINE_HELP
585 "\n"
586 "Note\n"
587 "\n"
588 " This command will show the full name of directories and source files,\n"
589 " but when directories and source paths are written to the build file,\n"
590 " they will be adjusted to be relative to the build directory. So the\n"
591 " values for paths displayed by this command won't match (but should\n"
592 " mean the same thing).\n"
593 "\n"
594 "Examples\n"
595 "\n"
596 " gn desc out/Debug //base:base\n"
597 " Summarizes the given target.\n"
598 "\n"
599 " gn desc out/Foo :base_unittests deps --tree\n"
600 " Shows a dependency tree of the \"base_unittests\" project in\n"
601 " the current directory.\n"
602 "\n"
603 " gn desc out/Debug //base defines --blame\n"
604 " Shows defines set for the //base:base target, annotated by where\n"
605 " each one was set from.\n";
607 #define OUTPUT_CONFIG_VALUE(name, type) \
608 OutputRecursiveTargetConfig<type>(target, #name, &ConfigValues::name);
610 int RunDesc(const std::vector<std::string>& args) {
611 if (args.size() != 2 && args.size() != 3) {
612 Err(Location(), "You're holding it wrong.",
613 "Usage: \"gn desc <out_dir> <target_name> [<what to display>]\"")
614 .PrintToStdout();
615 return 1;
618 // Deliberately leaked to avoid expensive process teardown.
619 Setup* setup = new Setup;
620 setup->build_settings().set_check_for_bad_items(false);
621 if (!setup->DoSetup(args[0], false))
622 return 1;
623 if (!setup->Run())
624 return 1;
626 const Target* target = ResolveTargetFromCommandLineString(setup, args[1]);
627 if (!target)
628 return 1;
630 #define CONFIG_VALUE_HANDLER(name, type) \
631 } else if (what == #name) { OUTPUT_CONFIG_VALUE(name, type)
633 if (args.size() == 3) {
634 // User specified one thing to display.
635 const std::string& what = args[2];
636 if (what == variables::kConfigs) {
637 PrintConfigs(target, false);
638 } else if (what == variables::kPublicConfigs) {
639 PrintPublicConfigs(target, false);
640 } else if (what == variables::kAllDependentConfigs) {
641 PrintAllDependentConfigs(target, false);
642 } else if (what == variables::kForwardDependentConfigsFrom) {
643 PrintForwardDependentConfigsFrom(target, false);
644 } else if (what == variables::kSources) {
645 PrintSources(target, false);
646 } else if (what == variables::kPublic) {
647 PrintPublic(target, false);
648 } else if (what == variables::kCheckIncludes) {
649 PrintCheckIncludes(target, false);
650 } else if (what == variables::kAllowCircularIncludesFrom) {
651 PrintAllowCircularIncludesFrom(target, false);
652 } else if (what == variables::kVisibility) {
653 PrintVisibility(target, false);
654 } else if (what == variables::kTestonly) {
655 PrintTestonly(target, false);
656 } else if (what == variables::kInputs) {
657 PrintInputs(target, false);
658 } else if (what == variables::kScript) {
659 PrintScript(target, false);
660 } else if (what == variables::kArgs) {
661 PrintArgs(target, false);
662 } else if (what == variables::kDepfile) {
663 PrintDepfile(target, false);
664 } else if (what == variables::kOutputs) {
665 PrintOutputs(target, false);
666 } else if (what == variables::kDeps) {
667 PrintDeps(target, false);
668 } else if (what == variables::kLibDirs) {
669 PrintLibDirs(target, false);
670 } else if (what == variables::kLibs) {
671 PrintLibs(target, false);
672 } else if (what == "runtime_deps") {
673 PrintRuntimeDeps(target);
675 CONFIG_VALUE_HANDLER(defines, std::string)
676 CONFIG_VALUE_HANDLER(include_dirs, SourceDir)
677 CONFIG_VALUE_HANDLER(cflags, std::string)
678 CONFIG_VALUE_HANDLER(cflags_c, std::string)
679 CONFIG_VALUE_HANDLER(cflags_cc, std::string)
680 CONFIG_VALUE_HANDLER(cflags_objc, std::string)
681 CONFIG_VALUE_HANDLER(cflags_objcc, std::string)
682 CONFIG_VALUE_HANDLER(ldflags, std::string)
684 } else {
685 OutputString("Don't know how to display \"" + what + "\".\n");
686 return 1;
689 #undef CONFIG_VALUE_HANDLER
690 return 0;
693 // Display summary.
695 // Display this only applicable to binary targets.
696 bool is_binary_output =
697 target->output_type() != Target::GROUP &&
698 target->output_type() != Target::COPY_FILES &&
699 target->output_type() != Target::ACTION &&
700 target->output_type() != Target::ACTION_FOREACH;
702 // Generally we only want to display toolchains on labels when the toolchain
703 // is different than the default one for this target (which we always print
704 // in the header).
705 Label target_toolchain = target->label().GetToolchainLabel();
707 // Header.
708 OutputString("Target: ", DECORATION_YELLOW);
709 OutputString(target->label().GetUserVisibleName(false) + "\n");
710 OutputString("Type: ", DECORATION_YELLOW);
711 OutputString(std::string(
712 Target::GetStringForOutputType(target->output_type())) + "\n");
713 OutputString("Toolchain: ", DECORATION_YELLOW);
714 OutputString(target_toolchain.GetUserVisibleName(false) + "\n");
716 PrintSources(target, true);
717 if (is_binary_output) {
718 PrintPublic(target, true);
719 PrintCheckIncludes(target, true);
720 PrintAllowCircularIncludesFrom(target, true);
722 PrintVisibility(target, true);
723 if (is_binary_output) {
724 PrintTestonly(target, true);
725 PrintConfigs(target, true);
728 PrintPublicConfigs(target, true);
729 PrintAllDependentConfigs(target, true);
730 PrintForwardDependentConfigsFrom(target, true);
732 PrintInputs(target, true);
734 if (is_binary_output) {
735 OUTPUT_CONFIG_VALUE(defines, std::string)
736 OUTPUT_CONFIG_VALUE(include_dirs, SourceDir)
737 OUTPUT_CONFIG_VALUE(cflags, std::string)
738 OUTPUT_CONFIG_VALUE(cflags_c, std::string)
739 OUTPUT_CONFIG_VALUE(cflags_cc, std::string)
740 OUTPUT_CONFIG_VALUE(cflags_objc, std::string)
741 OUTPUT_CONFIG_VALUE(cflags_objcc, std::string)
742 OUTPUT_CONFIG_VALUE(ldflags, std::string)
745 if (target->output_type() == Target::ACTION ||
746 target->output_type() == Target::ACTION_FOREACH) {
747 PrintScript(target, true);
748 PrintArgs(target, true);
749 PrintDepfile(target, true);
752 if (target->output_type() == Target::ACTION ||
753 target->output_type() == Target::ACTION_FOREACH ||
754 target->output_type() == Target::COPY_FILES) {
755 PrintOutputs(target, true);
758 // Libs can be part of any target and get recursively pushed up the chain,
759 // so always display them, even for groups and such.
760 PrintLibs(target, true);
761 PrintLibDirs(target, true);
763 PrintDeps(target, true);
765 return 0;
768 } // namespace commands