tools/gn/builder.cc - gn.git - Git at Google

 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "tools/gn/builder.h"

 #include <stddef.h>
 #include <utility>

 #include "tools/gn/action_values.h"
 #include "tools/gn/config.h"
 #include "tools/gn/deps_iterator.h"
 #include "tools/gn/err.h"
 #include "tools/gn/loader.h"
 #include "tools/gn/pool.h"
 #include "tools/gn/scheduler.h"
 #include "tools/gn/settings.h"
 #include "tools/gn/target.h"
 #include "tools/gn/trace.h"

 namespace {

 typedef BuilderRecord::BuilderRecordSet BuilderRecordSet;

 // Recursively looks in the tree for a given node, returning true if it
 // was found in the dependecy graph. This is used to see if a given node
 // participates in a cycle.
 //
 // If this returns true, the cycle will be in *path. This should point to an
 // empty vector for the first call. During computation, the path will contain
 // the full dependency path to the current node.
 //
 // Return false means no cycle was found.
 bool RecursiveFindCycle(const BuilderRecord* search_in,
                         std::vector<const BuilderRecord*>* path) {
   path->push_back(search_in);
   for (auto* cur : search_in->unresolved_deps()) {
     std::vector<const BuilderRecord*>::iterator found =
         std::find(path->begin(), path->end(), cur);
     if (found != path->end()) {
       // This item is already in the set, we found the cycle. Everything before
       // the first definition of cur is irrelevant to the cycle.
       path->erase(path->begin(), found);
       path->push_back(cur);
       return true;
     }

     if (RecursiveFindCycle(cur, path))
       return true;  // Found cycle.
   }
   path->pop_back();
   return false;
 }

 }  // namespace

 Builder::Builder(Loader* loader) : loader_(loader) {}

 Builder::~Builder() = default;

 void Builder::ItemDefined(std::unique_ptr<Item> item) {
   ScopedTrace trace(TraceItem::TRACE_DEFINE_TARGET, item->label());
   trace.SetToolchain(item->settings()->toolchain_label());

   BuilderRecord::ItemType type = BuilderRecord::TypeOfItem(item.get());

   Err err;
   BuilderRecord* record =
       GetOrCreateRecordOfType(item->label(), item->defined_from(), type, &err);
   if (!record) {
     g_scheduler->FailWithError(err);
     return;
   }

   // Check that it's not been already defined.
   if (record->item()) {
     err = Err(item->defined_from(), "Duplicate definition.",
               "The item\n  " + item->label().GetUserVisibleName(false) +
                   "\nwas already defined.");
     err.AppendSubErr(
         Err(record->item()->defined_from(), "Previous definition:"));
     g_scheduler->FailWithError(err);
     return;
   }

   record->set_item(std::move(item));

   // Do target-specific dependency setup. This will also schedule dependency
   // loads for targets that are required.
   switch (type) {
     case BuilderRecord::ITEM_TARGET:
       TargetDefined(record, &err);
       break;
     case BuilderRecord::ITEM_CONFIG:
       ConfigDefined(record, &err);
       break;
     case BuilderRecord::ITEM_TOOLCHAIN:
       ToolchainDefined(record, &err);
       break;
     default:
       break;
   }
   if (err.has_error()) {
     g_scheduler->FailWithError(err);
     return;
   }

   if (record->can_resolve()) {
     if (!ResolveItem(record, &err)) {
       g_scheduler->FailWithError(err);
       return;
     }
   }
 }

 const Item* Builder::GetItem(const Label& label) const {
   const BuilderRecord* record = GetRecord(label);
   if (!record)
     return nullptr;
   return record->item();
 }

 const Toolchain* Builder::GetToolchain(const Label& label) const {
   const BuilderRecord* record = GetRecord(label);
   if (!record)
     return nullptr;
   if (!record->item())
     return nullptr;
   return record->item()->AsToolchain();
 }

 std::vector<const BuilderRecord*> Builder::GetAllRecords() const {
   std::vector<const BuilderRecord*> result;
   result.reserve(records_.size());
   for (const auto& record : records_)
     result.push_back(record.second.get());
   return result;
 }

 std::vector<const Item*> Builder::GetAllResolvedItems() const {
   std::vector<const Item*> result;
   result.reserve(records_.size());
   for (const auto& record : records_) {
     if (record.second->type() != BuilderRecord::ITEM_UNKNOWN &&
         record.second->should_generate() && record.second->item()) {
       result.push_back(record.second->item());
     }
   }

   return result;
 }

 std::vector<const Target*> Builder::GetAllResolvedTargets() const {
   std::vector<const Target*> result;
   result.reserve(records_.size());
   for (const auto& record : records_) {
     if (record.second->type() == BuilderRecord::ITEM_TARGET &&
         record.second->should_generate() && record.second->item())
       result.push_back(record.second->item()->AsTarget());
   }
   return result;
 }

 const BuilderRecord* Builder::GetRecord(const Label& label) const {
   // Forward to the non-const version.
   return const_cast<Builder*>(this)->GetRecord(label);
 }

 BuilderRecord* Builder::GetRecord(const Label& label) {
   auto found = records_.find(label);
   return (found != records_.end()) ? found->second.get() : nullptr;
 }

 bool Builder::CheckForBadItems(Err* err) const {
   // Look for errors where we find a defined node with an item that refers to
   // an undefined one with no item. There may be other nodes in turn depending
   // on our defined one, but listing those isn't helpful: we want to find the
   // broken link.
   //
   // This finds normal "missing dependency" errors but does not find circular
   // dependencies because in this case all items in the cycle will be GENERATED
   // but none will be resolved. If this happens, we'll check explicitly for
   // that below.
   std::vector<const BuilderRecord*> bad_records;
   std::string depstring;
   for (const auto& record_pair : records_) {
     const BuilderRecord* src = record_pair.second.get();
     if (!src->should_generate())
       continue;  // Skip ungenerated nodes.

     if (!src->resolved()) {
       bad_records.push_back(src);

       // Check dependencies.
       for (auto* dest : src->unresolved_deps()) {
         if (!dest->item()) {
           depstring += src->label().GetUserVisibleName(true) + "\n  needs " +
                        dest->label().GetUserVisibleName(true) + "\n";
         }
       }
     }
   }

   if (!depstring.empty()) {
     *err = Err(Location(), "Unresolved dependencies.", depstring);
     return false;
   }

   if (!bad_records.empty()) {
     // Our logic above found a bad node but didn't identify the problem. This
     // normally means a circular dependency.
     depstring = CheckForCircularDependencies(bad_records);
     if (depstring.empty()) {
       // Something's very wrong, just dump out the bad nodes.
       depstring =
           "I have no idea what went wrong, but these are unresolved, "
           "possibly due to an\ninternal error:";
       for (auto* bad_record : bad_records) {
         depstring +=
             "\n\"" + bad_record->label().GetUserVisibleName(false) + "\"";
       }
       *err = Err(Location(), "", depstring);
     } else {
       *err = Err(Location(), "Dependency cycle:", depstring);
     }
     return false;
   }

   return true;
 }

 bool Builder::TargetDefined(BuilderRecord* record, Err* err) {
   Target* target = record->item()->AsTarget();

   if (!AddDeps(record, target->public_deps(), err) ||
       !AddDeps(record, target->private_deps(), err) ||
       !AddDeps(record, target->data_deps(), err) ||
       !AddDeps(record, target->configs().vector(), err) ||
       !AddDeps(record, target->all_dependent_configs(), err) ||
       !AddDeps(record, target->public_configs(), err) ||
       !AddActionValuesDep(record, target->action_values(), err) ||
       !AddToolchainDep(record, target, err))
     return false;

   // All targets in the default toolchain get generated by default. We also
   // check if this target was previously marked as "required" and force setting
   // the bit again so the target's dependencies (which we now know) get the
   // required bit pushed to them.
   if (record->should_generate() || target->settings()->is_default())
     RecursiveSetShouldGenerate(record, true);

   return true;
 }

 bool Builder::ConfigDefined(BuilderRecord* record, Err* err) {
   Config* config = record->item()->AsConfig();
   if (!AddDeps(record, config->configs(), err))
     return false;

   // Make sure all deps of this config are scheduled to be loaded. For other
   // item types like targets, the "should generate" flag is propagated around
   // to mark whether this should happen. We could call
   // RecursiveSetShouldGenerate to do this step here, but since configs nor
   // anything they depend on is actually written, the "generate" flag isn't
   // relevant and means extra book keeping. Just force load any deps of this
   // config.
   for (auto* cur : record->all_deps())
     ScheduleItemLoadIfNecessary(cur);

   return true;
 }

 bool Builder::ToolchainDefined(BuilderRecord* record, Err* err) {
   Toolchain* toolchain = record->item()->AsToolchain();

   if (!AddDeps(record, toolchain->deps(), err))
     return false;

   for (int i = Toolchain::TYPE_NONE + 1; i < Toolchain::TYPE_NUMTYPES; i++) {
     Toolchain::ToolType tool_type = static_cast<Toolchain::ToolType>(i);
     Tool* tool = toolchain->GetTool(tool_type);
     if (!tool || tool->pool().label.is_null())
       continue;

     BuilderRecord* dep_record = GetOrCreateRecordOfType(
         tool->pool().label, tool->pool().origin, BuilderRecord::ITEM_POOL, err);
     if (!dep_record)
       return false;
     record->AddDep(dep_record);
   }

   // The default toolchain gets generated by default. Also propogate the
   // generate flag if it depends on items in a non-default toolchain.
   if (record->should_generate() ||
       toolchain->settings()->default_toolchain_label() == toolchain->label())
     RecursiveSetShouldGenerate(record, true);

   loader_->ToolchainLoaded(toolchain);
   return true;
 }

 BuilderRecord* Builder::GetOrCreateRecordOfType(const Label& label,
                                                 const ParseNode* request_from,
                                                 BuilderRecord::ItemType type,
                                                 Err* err) {
   BuilderRecord* record = GetRecord(label);
   if (!record) {
     // Not seen this record yet, create a new one.
     auto new_record = std::make_unique<BuilderRecord>(type, label);
     new_record->set_originally_referenced_from(request_from);
     record = new_record.get();
     records_[label] = std::move(new_record);
     return record;
   }

   // Check types.
   if (record->type() != type) {
     std::string msg =
         "The type of " + label.GetUserVisibleName(false) + "\nhere is a " +
         BuilderRecord::GetNameForType(type) + " but was previously seen as a " +
         BuilderRecord::GetNameForType(record->type()) +
         ".\n\n"
         "The most common cause is that the label of a config was put in the\n"
         "in the deps section of a target (or vice-versa).";
     *err = Err(request_from, "Item type does not match.", msg);
     if (record->originally_referenced_from()) {
       err->AppendSubErr(
           Err(record->originally_referenced_from(), std::string()));
     }
     return nullptr;
   }

   return record;
 }

 BuilderRecord* Builder::GetResolvedRecordOfType(const Label& label,
                                                 const ParseNode* origin,
                                                 BuilderRecord::ItemType type,
                                                 Err* err) {
   BuilderRecord* record = GetRecord(label);
   if (!record) {
     *err = Err(origin, "Item not found",
                "\"" + label.GetUserVisibleName(false) +
                    "\" doesn't\n"
                    "refer to an existent thing.");
     return nullptr;
   }

   const Item* item = record->item();
   if (!item) {
     *err = Err(
         origin, "Item not resolved.",
         "\"" + label.GetUserVisibleName(false) + "\" hasn't been resolved.\n");
     return nullptr;
   }

   if (!BuilderRecord::IsItemOfType(item, type)) {
     *err =
         Err(origin,
             std::string("This is not a ") + BuilderRecord::GetNameForType(type),
             "\"" + label.GetUserVisibleName(false) + "\" refers to a " +
                 item->GetItemTypeName() + " instead of a " +
                 BuilderRecord::GetNameForType(type) + ".");
     return nullptr;
   }
   return record;
 }

 bool Builder::AddDeps(BuilderRecord* record,
                       const LabelConfigVector& configs,
                       Err* err) {
   for (const auto& config : configs) {
     BuilderRecord* dep_record = GetOrCreateRecordOfType(
         config.label, config.origin, BuilderRecord::ITEM_CONFIG, err);
     if (!dep_record)
       return false;
     record->AddDep(dep_record);
   }
   return true;
 }

 bool Builder::AddDeps(BuilderRecord* record,
                       const UniqueVector<LabelConfigPair>& configs,
                       Err* err) {
   for (const auto& config : configs) {
     BuilderRecord* dep_record = GetOrCreateRecordOfType(
         config.label, config.origin, BuilderRecord::ITEM_CONFIG, err);
     if (!dep_record)
       return false;
     record->AddDep(dep_record);
   }
   return true;
 }

 bool Builder::AddDeps(BuilderRecord* record,
                       const LabelTargetVector& targets,
                       Err* err) {
   for (const auto& target : targets) {
     BuilderRecord* dep_record = GetOrCreateRecordOfType(
         target.label, target.origin, BuilderRecord::ITEM_TARGET, err);
     if (!dep_record)
       return false;
     record->AddDep(dep_record);
   }
   return true;
 }

 bool Builder::AddActionValuesDep(BuilderRecord* record,
                                  const ActionValues& action_values,
                                  Err* err) {
   if (action_values.pool().label.is_null())
     return true;

   BuilderRecord* pool_record = GetOrCreateRecordOfType(
       action_values.pool().label, action_values.pool().origin,
       BuilderRecord::ITEM_POOL, err);
   if (!pool_record)
     return false;
   record->AddDep(pool_record);

   return true;
 }

 bool Builder::AddToolchainDep(BuilderRecord* record,
                               const Target* target,
                               Err* err) {
   BuilderRecord* toolchain_record = GetOrCreateRecordOfType(
       target->settings()->toolchain_label(), target->defined_from(),
       BuilderRecord::ITEM_TOOLCHAIN, err);
   if (!toolchain_record)
     return false;
   record->AddDep(toolchain_record);

   return true;
 }

 void Builder::RecursiveSetShouldGenerate(BuilderRecord* record, bool force) {
   if (!record->should_generate()) {
     record->set_should_generate(true);

     // This may have caused the item to go into "resolved and generated" state.
     if (record->resolved() && !resolved_and_generated_callback_.is_null())
       resolved_and_generated_callback_.Run(record);
   } else if (!force) {
     return;  // Already set and we're not required to iterate dependencies.
   }

   for (auto* cur : record->all_deps()) {
     if (!cur->should_generate()) {
       ScheduleItemLoadIfNecessary(cur);
       RecursiveSetShouldGenerate(cur, false);
     }
   }
 }

 void Builder::ScheduleItemLoadIfNecessary(BuilderRecord* record) {
   const ParseNode* origin = record->originally_referenced_from();
   loader_->Load(record->label(), origin ? origin->GetRange() : LocationRange());
 }

 bool Builder::ResolveItem(BuilderRecord* record, Err* err) {
   DCHECK(record->can_resolve() && !record->resolved());

   if (record->type() == BuilderRecord::ITEM_TARGET) {
     Target* target = record->item()->AsTarget();
     if (!ResolveDeps(&target->public_deps(), err) ||
         !ResolveDeps(&target->private_deps(), err) ||
         !ResolveDeps(&target->data_deps(), err) ||
         !ResolveConfigs(&target->configs(), err) ||
         !ResolveConfigs(&target->all_dependent_configs(), err) ||
         !ResolveConfigs(&target->public_configs(), err) ||
         !ResolveActionValues(&target->action_values(), err) ||
         !ResolveToolchain(target, err))
       return false;
   } else if (record->type() == BuilderRecord::ITEM_CONFIG) {
     Config* config = record->item()->AsConfig();
     if (!ResolveConfigs(&config->configs(), err))
       return false;
   } else if (record->type() == BuilderRecord::ITEM_TOOLCHAIN) {
     Toolchain* toolchain = record->item()->AsToolchain();
     if (!ResolveDeps(&toolchain->deps(), err))
       return false;
     if (!ResolvePools(toolchain, err))
       return false;
   }

   record->set_resolved(true);

   if (!record->item()->OnResolved(err))
     return false;
   if (record->should_generate() && !resolved_and_generated_callback_.is_null())
     resolved_and_generated_callback_.Run(record);

   // Recursively update everybody waiting on this item to be resolved.
   for (BuilderRecord* waiting : record->waiting_on_resolution()) {
     DCHECK(waiting->unresolved_deps().find(record) !=
            waiting->unresolved_deps().end());
     waiting->unresolved_deps().erase(record);

     if (waiting->can_resolve()) {
       if (!ResolveItem(waiting, err))
         return false;
     }
   }
   record->waiting_on_resolution().clear();
   return true;
 }

 bool Builder::ResolveDeps(LabelTargetVector* deps, Err* err) {
   for (LabelTargetPair& cur : *deps) {
     DCHECK(!cur.ptr);

     BuilderRecord* record = GetResolvedRecordOfType(
         cur.label, cur.origin, BuilderRecord::ITEM_TARGET, err);
     if (!record)
       return false;
     cur.ptr = record->item()->AsTarget();
   }
   return true;
 }

 bool Builder::ResolveConfigs(UniqueVector<LabelConfigPair>* configs, Err* err) {
   for (const auto& cur : *configs) {
     DCHECK(!cur.ptr);

     BuilderRecord* record = GetResolvedRecordOfType(
         cur.label, cur.origin, BuilderRecord::ITEM_CONFIG, err);
     if (!record)
       return false;
     const_cast<LabelConfigPair&>(cur).ptr = record->item()->AsConfig();
   }
   return true;
 }

 bool Builder::ResolveToolchain(Target* target, Err* err) {
   BuilderRecord* record = GetResolvedRecordOfType(
       target->settings()->toolchain_label(), target->defined_from(),
       BuilderRecord::ITEM_TOOLCHAIN, err);
   if (!record) {
     *err = Err(
         target->defined_from(), "Toolchain for target not defined.",
         "I was hoping to find a toolchain " +
             target->settings()->toolchain_label().GetUserVisibleName(false));
     return false;
   }

   if (!target->SetToolchain(record->item()->AsToolchain(), err))
     return false;

   return true;
 }

 bool Builder::ResolveActionValues(ActionValues* action_values, Err* err) {
   if (action_values->pool().label.is_null())
     return true;

   BuilderRecord* record = GetResolvedRecordOfType(
       action_values->pool().label, action_values->pool().origin,
       BuilderRecord::ITEM_POOL, err);
   if (!record)
     return false;
   action_values->set_pool(LabelPtrPair<Pool>(record->item()->AsPool()));

   return true;
 }

 bool Builder::ResolvePools(Toolchain* toolchain, Err* err) {
   for (int i = Toolchain::TYPE_NONE + 1; i < Toolchain::TYPE_NUMTYPES; i++) {
     Toolchain::ToolType tool_type = static_cast<Toolchain::ToolType>(i);
     Tool* tool = toolchain->GetTool(tool_type);
     if (!tool || tool->pool().label.is_null())
       continue;

     BuilderRecord* record =
         GetResolvedRecordOfType(tool->pool().label, toolchain->defined_from(),
                                 BuilderRecord::ITEM_POOL, err);
     if (!record) {
       *err = Err(tool->pool().origin, "Pool for tool not defined.",
                  "I was hoping to find a pool " +
                      tool->pool().label.GetUserVisibleName(false));
       return false;
     }

     tool->set_pool(LabelPtrPair<Pool>(record->item()->AsPool()));
   }

   return true;
 }

 std::string Builder::CheckForCircularDependencies(
     const std::vector<const BuilderRecord*>& bad_records) const {
   std::vector<const BuilderRecord*> cycle;
   if (!RecursiveFindCycle(bad_records[0], &cycle))
     return std::string();  // Didn't find a cycle, something else is wrong.

   std::string ret;
   for (size_t i = 0; i < cycle.size(); i++) {
     ret += "  " + cycle[i]->label().GetUserVisibleName(false);
     if (i != cycle.size() - 1)
       ret += " ->";
     ret += "\n";
   }

   return ret;
 }
	// Copyright (c) 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "tools/gn/builder.h"

	#include <stddef.h>
	#include <utility>

	#include "tools/gn/action_values.h"
	#include "tools/gn/config.h"
	#include "tools/gn/deps_iterator.h"
	#include "tools/gn/err.h"
	#include "tools/gn/loader.h"
	#include "tools/gn/pool.h"
	#include "tools/gn/scheduler.h"
	#include "tools/gn/settings.h"
	#include "tools/gn/target.h"
	#include "tools/gn/trace.h"

	namespace {

	typedef BuilderRecord::BuilderRecordSet BuilderRecordSet;

	// Recursively looks in the tree for a given node, returning true if it
	// was found in the dependecy graph. This is used to see if a given node
	// participates in a cycle.
	//
	// If this returns true, the cycle will be in *path. This should point to an
	// empty vector for the first call. During computation, the path will contain
	// the full dependency path to the current node.
	//
	// Return false means no cycle was found.
	bool RecursiveFindCycle(const BuilderRecord* search_in,
	std::vector<const BuilderRecord> path) {
	path->push_back(search_in);
	for (auto* cur : search_in->unresolved_deps()) {
	std::vector<const BuilderRecord*>::iterator found =
	std::find(path->begin(), path->end(), cur);
	if (found != path->end()) {
	// This item is already in the set, we found the cycle. Everything before
	// the first definition of cur is irrelevant to the cycle.
	path->erase(path->begin(), found);
	path->push_back(cur);
	return true;
	}

	if (RecursiveFindCycle(cur, path))
	return true; // Found cycle.
	}
	path->pop_back();
	return false;
	}

	} // namespace

	Builder::Builder(Loader* loader) : loader_(loader) {}

	Builder::~Builder() = default;

	void Builder::ItemDefined(std::unique_ptr<Item> item) {
	ScopedTrace trace(TraceItem::TRACE_DEFINE_TARGET, item->label());
	trace.SetToolchain(item->settings()->toolchain_label());

	BuilderRecord::ItemType type = BuilderRecord::TypeOfItem(item.get());

	Err err;
	BuilderRecord* record =
	GetOrCreateRecordOfType(item->label(), item->defined_from(), type, &err);
	if (!record) {
	g_scheduler->FailWithError(err);
	return;
	}

	// Check that it's not been already defined.
	if (record->item()) {
	err = Err(item->defined_from(), "Duplicate definition.",
	"The item\n " + item->label().GetUserVisibleName(false) +
	"\nwas already defined.");
	err.AppendSubErr(
	Err(record->item()->defined_from(), "Previous definition:"));
	g_scheduler->FailWithError(err);
	return;
	}

	record->set_item(std::move(item));

	// Do target-specific dependency setup. This will also schedule dependency
	// loads for targets that are required.
	switch (type) {
	case BuilderRecord::ITEM_TARGET:
	TargetDefined(record, &err);
	break;
	case BuilderRecord::ITEM_CONFIG:
	ConfigDefined(record, &err);
	break;
	case BuilderRecord::ITEM_TOOLCHAIN:
	ToolchainDefined(record, &err);
	break;
	default:
	break;
	}
	if (err.has_error()) {
	g_scheduler->FailWithError(err);
	return;
	}

	if (record->can_resolve()) {
	if (!ResolveItem(record, &err)) {
	g_scheduler->FailWithError(err);
	return;
	}
	}
	}

	const Item* Builder::GetItem(const Label& label) const {
	const BuilderRecord* record = GetRecord(label);
	if (!record)
	return nullptr;
	return record->item();
	}

	const Toolchain* Builder::GetToolchain(const Label& label) const {
	const BuilderRecord* record = GetRecord(label);
	if (!record)
	return nullptr;
	if (!record->item())
	return nullptr;
	return record->item()->AsToolchain();
	}

	std::vector<const BuilderRecord*> Builder::GetAllRecords() const {
	std::vector<const BuilderRecord*> result;
	result.reserve(records_.size());
	for (const auto& record : records_)
	result.push_back(record.second.get());
	return result;
	}

	std::vector<const Item*> Builder::GetAllResolvedItems() const {
	std::vector<const Item*> result;
	result.reserve(records_.size());
	for (const auto& record : records_) {
	if (record.second->type() != BuilderRecord::ITEM_UNKNOWN &&
	record.second->should_generate() && record.second->item()) {
	result.push_back(record.second->item());
	}
	}

	return result;
	}

	std::vector<const Target*> Builder::GetAllResolvedTargets() const {
	std::vector<const Target*> result;
	result.reserve(records_.size());
	for (const auto& record : records_) {
	if (record.second->type() == BuilderRecord::ITEM_TARGET &&
	record.second->should_generate() && record.second->item())
	result.push_back(record.second->item()->AsTarget());
	}
	return result;
	}

	const BuilderRecord* Builder::GetRecord(const Label& label) const {
	// Forward to the non-const version.
	return const_cast<Builder*>(this)->GetRecord(label);
	}

	BuilderRecord* Builder::GetRecord(const Label& label) {
	auto found = records_.find(label);
	return (found != records_.end()) ? found->second.get() : nullptr;
	}

	bool Builder::CheckForBadItems(Err* err) const {
	// Look for errors where we find a defined node with an item that refers to
	// an undefined one with no item. There may be other nodes in turn depending
	// on our defined one, but listing those isn't helpful: we want to find the
	// broken link.
	//
	// This finds normal "missing dependency" errors but does not find circular
	// dependencies because in this case all items in the cycle will be GENERATED
	// but none will be resolved. If this happens, we'll check explicitly for
	// that below.
	std::vector<const BuilderRecord*> bad_records;
	std::string depstring;
	for (const auto& record_pair : records_) {
	const BuilderRecord* src = record_pair.second.get();
	if (!src->should_generate())
	continue; // Skip ungenerated nodes.

	if (!src->resolved()) {
	bad_records.push_back(src);

	// Check dependencies.
	for (auto* dest : src->unresolved_deps()) {
	if (!dest->item()) {
	depstring += src->label().GetUserVisibleName(true) + "\n needs " +
	dest->label().GetUserVisibleName(true) + "\n";
	}
	}
	}
	}

	if (!depstring.empty()) {
	*err = Err(Location(), "Unresolved dependencies.", depstring);
	return false;
	}

	if (!bad_records.empty()) {
	// Our logic above found a bad node but didn't identify the problem. This
	// normally means a circular dependency.
	depstring = CheckForCircularDependencies(bad_records);
	if (depstring.empty()) {
	// Something's very wrong, just dump out the bad nodes.
	depstring =
	"I have no idea what went wrong, but these are unresolved, "
	"possibly due to an\ninternal error:";
	for (auto* bad_record : bad_records) {
	depstring +=
	"\n\"" + bad_record->label().GetUserVisibleName(false) + "\"";
	}
	*err = Err(Location(), "", depstring);
	} else {
	*err = Err(Location(), "Dependency cycle:", depstring);
	}
	return false;
	}

	return true;
	}

	bool Builder::TargetDefined(BuilderRecord* record, Err* err) {
	Target* target = record->item()->AsTarget();

	if (!AddDeps(record, target->public_deps(), err) \|\|
	!AddDeps(record, target->private_deps(), err) \|\|
	!AddDeps(record, target->data_deps(), err) \|\|
	!AddDeps(record, target->configs().vector(), err) \|\|
	!AddDeps(record, target->all_dependent_configs(), err) \|\|
	!AddDeps(record, target->public_configs(), err) \|\|
	!AddActionValuesDep(record, target->action_values(), err) \|\|
	!AddToolchainDep(record, target, err))
	return false;

	// All targets in the default toolchain get generated by default. We also
	// check if this target was previously marked as "required" and force setting
	// the bit again so the target's dependencies (which we now know) get the
	// required bit pushed to them.
	if (record->should_generate() \|\| target->settings()->is_default())
	RecursiveSetShouldGenerate(record, true);

	return true;
	}

	bool Builder::ConfigDefined(BuilderRecord* record, Err* err) {
	Config* config = record->item()->AsConfig();
	if (!AddDeps(record, config->configs(), err))
	return false;

	// Make sure all deps of this config are scheduled to be loaded. For other
	// item types like targets, the "should generate" flag is propagated around
	// to mark whether this should happen. We could call
	// RecursiveSetShouldGenerate to do this step here, but since configs nor
	// anything they depend on is actually written, the "generate" flag isn't
	// relevant and means extra book keeping. Just force load any deps of this
	// config.
	for (auto* cur : record->all_deps())
	ScheduleItemLoadIfNecessary(cur);

	return true;
	}

	bool Builder::ToolchainDefined(BuilderRecord* record, Err* err) {
	Toolchain* toolchain = record->item()->AsToolchain();

	if (!AddDeps(record, toolchain->deps(), err))
	return false;

	for (int i = Toolchain::TYPE_NONE + 1; i < Toolchain::TYPE_NUMTYPES; i++) {
	Toolchain::ToolType tool_type = static_cast<Toolchain::ToolType>(i);
	Tool* tool = toolchain->GetTool(tool_type);
	if (!tool \|\| tool->pool().label.is_null())
	continue;

	BuilderRecord* dep_record = GetOrCreateRecordOfType(
	tool->pool().label, tool->pool().origin, BuilderRecord::ITEM_POOL, err);
	if (!dep_record)
	return false;
	record->AddDep(dep_record);
	}

	// The default toolchain gets generated by default. Also propogate the
	// generate flag if it depends on items in a non-default toolchain.
	if (record->should_generate() \|\|
	toolchain->settings()->default_toolchain_label() == toolchain->label())
	RecursiveSetShouldGenerate(record, true);

	loader_->ToolchainLoaded(toolchain);
	return true;
	}

	BuilderRecord* Builder::GetOrCreateRecordOfType(const Label& label,
	const ParseNode* request_from,
	BuilderRecord::ItemType type,
	Err* err) {
	BuilderRecord* record = GetRecord(label);
	if (!record) {
	// Not seen this record yet, create a new one.
	auto new_record = std::make_unique<BuilderRecord>(type, label);
	new_record->set_originally_referenced_from(request_from);
	record = new_record.get();
	records_[label] = std::move(new_record);
	return record;
	}

	// Check types.
	if (record->type() != type) {
	std::string msg =
	"The type of " + label.GetUserVisibleName(false) + "\nhere is a " +
	BuilderRecord::GetNameForType(type) + " but was previously seen as a " +
	BuilderRecord::GetNameForType(record->type()) +
	".\n\n"
	"The most common cause is that the label of a config was put in the\n"
	"in the deps section of a target (or vice-versa).";
	*err = Err(request_from, "Item type does not match.", msg);
	if (record->originally_referenced_from()) {
	err->AppendSubErr(
	Err(record->originally_referenced_from(), std::string()));
	}
	return nullptr;
	}

	return record;
	}

	BuilderRecord* Builder::GetResolvedRecordOfType(const Label& label,
	const ParseNode* origin,
	BuilderRecord::ItemType type,
	Err* err) {
	BuilderRecord* record = GetRecord(label);
	if (!record) {
	*err = Err(origin, "Item not found",
	"\"" + label.GetUserVisibleName(false) +
	"\" doesn't\n"
	"refer to an existent thing.");
	return nullptr;
	}

	const Item* item = record->item();
	if (!item) {
	*err = Err(
	origin, "Item not resolved.",
	"\"" + label.GetUserVisibleName(false) + "\" hasn't been resolved.\n");
	return nullptr;
	}

	if (!BuilderRecord::IsItemOfType(item, type)) {
	*err =
	Err(origin,
	std::string("This is not a ") + BuilderRecord::GetNameForType(type),
	"\"" + label.GetUserVisibleName(false) + "\" refers to a " +
	item->GetItemTypeName() + " instead of a " +
	BuilderRecord::GetNameForType(type) + ".");
	return nullptr;
	}
	return record;
	}

	bool Builder::AddDeps(BuilderRecord* record,
	const LabelConfigVector& configs,
	Err* err) {
	for (const auto& config : configs) {
	BuilderRecord* dep_record = GetOrCreateRecordOfType(
	config.label, config.origin, BuilderRecord::ITEM_CONFIG, err);
	if (!dep_record)
	return false;
	record->AddDep(dep_record);
	}
	return true;
	}

	bool Builder::AddDeps(BuilderRecord* record,
	const UniqueVector<LabelConfigPair>& configs,
	Err* err) {
	for (const auto& config : configs) {
	BuilderRecord* dep_record = GetOrCreateRecordOfType(
	config.label, config.origin, BuilderRecord::ITEM_CONFIG, err);
	if (!dep_record)
	return false;
	record->AddDep(dep_record);
	}
	return true;
	}

	bool Builder::AddDeps(BuilderRecord* record,
	const LabelTargetVector& targets,
	Err* err) {
	for (const auto& target : targets) {
	BuilderRecord* dep_record = GetOrCreateRecordOfType(
	target.label, target.origin, BuilderRecord::ITEM_TARGET, err);
	if (!dep_record)
	return false;
	record->AddDep(dep_record);
	}
	return true;
	}

	bool Builder::AddActionValuesDep(BuilderRecord* record,
	const ActionValues& action_values,
	Err* err) {
	if (action_values.pool().label.is_null())
	return true;

	BuilderRecord* pool_record = GetOrCreateRecordOfType(
	action_values.pool().label, action_values.pool().origin,
	BuilderRecord::ITEM_POOL, err);
	if (!pool_record)
	return false;
	record->AddDep(pool_record);

	return true;
	}

	bool Builder::AddToolchainDep(BuilderRecord* record,
	const Target* target,
	Err* err) {
	BuilderRecord* toolchain_record = GetOrCreateRecordOfType(
	target->settings()->toolchain_label(), target->defined_from(),
	BuilderRecord::ITEM_TOOLCHAIN, err);
	if (!toolchain_record)
	return false;
	record->AddDep(toolchain_record);

	return true;
	}

	void Builder::RecursiveSetShouldGenerate(BuilderRecord* record, bool force) {
	if (!record->should_generate()) {
	record->set_should_generate(true);

	// This may have caused the item to go into "resolved and generated" state.
	if (record->resolved() && !resolved_and_generated_callback_.is_null())
	resolved_and_generated_callback_.Run(record);
	} else if (!force) {
	return; // Already set and we're not required to iterate dependencies.
	}

	for (auto* cur : record->all_deps()) {
	if (!cur->should_generate()) {
	ScheduleItemLoadIfNecessary(cur);
	RecursiveSetShouldGenerate(cur, false);
	}
	}
	}

	void Builder::ScheduleItemLoadIfNecessary(BuilderRecord* record) {
	const ParseNode* origin = record->originally_referenced_from();
	loader_->Load(record->label(), origin ? origin->GetRange() : LocationRange());
	}

	bool Builder::ResolveItem(BuilderRecord* record, Err* err) {
	DCHECK(record->can_resolve() && !record->resolved());

	if (record->type() == BuilderRecord::ITEM_TARGET) {
	Target* target = record->item()->AsTarget();
	if (!ResolveDeps(&target->public_deps(), err) \|\|
	!ResolveDeps(&target->private_deps(), err) \|\|
	!ResolveDeps(&target->data_deps(), err) \|\|
	!ResolveConfigs(&target->configs(), err) \|\|
	!ResolveConfigs(&target->all_dependent_configs(), err) \|\|
	!ResolveConfigs(&target->public_configs(), err) \|\|
	!ResolveActionValues(&target->action_values(), err) \|\|
	!ResolveToolchain(target, err))
	return false;
	} else if (record->type() == BuilderRecord::ITEM_CONFIG) {
	Config* config = record->item()->AsConfig();
	if (!ResolveConfigs(&config->configs(), err))
	return false;
	} else if (record->type() == BuilderRecord::ITEM_TOOLCHAIN) {
	Toolchain* toolchain = record->item()->AsToolchain();
	if (!ResolveDeps(&toolchain->deps(), err))
	return false;
	if (!ResolvePools(toolchain, err))
	return false;
	}

	record->set_resolved(true);

	if (!record->item()->OnResolved(err))
	return false;
	if (record->should_generate() && !resolved_and_generated_callback_.is_null())
	resolved_and_generated_callback_.Run(record);

	// Recursively update everybody waiting on this item to be resolved.
	for (BuilderRecord* waiting : record->waiting_on_resolution()) {
	DCHECK(waiting->unresolved_deps().find(record) !=
	waiting->unresolved_deps().end());
	waiting->unresolved_deps().erase(record);

	if (waiting->can_resolve()) {
	if (!ResolveItem(waiting, err))
	return false;
	}
	}
	record->waiting_on_resolution().clear();
	return true;
	}

	bool Builder::ResolveDeps(LabelTargetVector* deps, Err* err) {
	for (LabelTargetPair& cur : *deps) {
	DCHECK(!cur.ptr);

	BuilderRecord* record = GetResolvedRecordOfType(
	cur.label, cur.origin, BuilderRecord::ITEM_TARGET, err);
	if (!record)
	return false;
	cur.ptr = record->item()->AsTarget();
	}
	return true;
	}

	bool Builder::ResolveConfigs(UniqueVector<LabelConfigPair>* configs, Err* err) {
	for (const auto& cur : *configs) {
	DCHECK(!cur.ptr);

	BuilderRecord* record = GetResolvedRecordOfType(
	cur.label, cur.origin, BuilderRecord::ITEM_CONFIG, err);
	if (!record)
	return false;
	const_cast<LabelConfigPair&>(cur).ptr = record->item()->AsConfig();
	}
	return true;
	}

	bool Builder::ResolveToolchain(Target* target, Err* err) {
	BuilderRecord* record = GetResolvedRecordOfType(
	target->settings()->toolchain_label(), target->defined_from(),
	BuilderRecord::ITEM_TOOLCHAIN, err);
	if (!record) {
	*err = Err(
	target->defined_from(), "Toolchain for target not defined.",
	"I was hoping to find a toolchain " +
	target->settings()->toolchain_label().GetUserVisibleName(false));
	return false;
	}

	if (!target->SetToolchain(record->item()->AsToolchain(), err))
	return false;

	return true;
	}

	bool Builder::ResolveActionValues(ActionValues* action_values, Err* err) {
	if (action_values->pool().label.is_null())
	return true;

	BuilderRecord* record = GetResolvedRecordOfType(
	action_values->pool().label, action_values->pool().origin,
	BuilderRecord::ITEM_POOL, err);
	if (!record)
	return false;
	action_values->set_pool(LabelPtrPair<Pool>(record->item()->AsPool()));

	return true;
	}

	bool Builder::ResolvePools(Toolchain* toolchain, Err* err) {
	for (int i = Toolchain::TYPE_NONE + 1; i < Toolchain::TYPE_NUMTYPES; i++) {
	Toolchain::ToolType tool_type = static_cast<Toolchain::ToolType>(i);
	Tool* tool = toolchain->GetTool(tool_type);
	if (!tool \|\| tool->pool().label.is_null())
	continue;

	BuilderRecord* record =
	GetResolvedRecordOfType(tool->pool().label, toolchain->defined_from(),
	BuilderRecord::ITEM_POOL, err);
	if (!record) {
	*err = Err(tool->pool().origin, "Pool for tool not defined.",
	"I was hoping to find a pool " +
	tool->pool().label.GetUserVisibleName(false));
	return false;
	}

	tool->set_pool(LabelPtrPair<Pool>(record->item()->AsPool()));
	}

	return true;
	}

	std::string Builder::CheckForCircularDependencies(
	const std::vector<const BuilderRecord*>& bad_records) const {
	std::vector<const BuilderRecord*> cycle;
	if (!RecursiveFindCycle(bad_records[0], &cycle))
	return std::string(); // Didn't find a cycle, something else is wrong.

	std::string ret;
	for (size_t i = 0; i < cycle.size(); i++) {
	ret += " " + cycle[i]->label().GetUserVisibleName(false);
	if (i != cycle.size() - 1)
	ret += " ->";
	ret += "\n";
	}

	return ret;
	}