shaka-packager/tools/gn/item_tree.cc

201 lines
6.5 KiB
C++

// 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/item_tree.h"
#include <algorithm>
#include "base/stl_util.h"
#include "tools/gn/err.h"
#include "tools/gn/item.h"
#include "tools/gn/item_node.h"
namespace {
// 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.
//
// Note that "look_for" and "search_in" will be the same node when starting the
// search, so we don't want to return true in that case.
//
// If a cycle is found, the return value will be true and the cycle vector will
// be filled with the path (in reverse order).
bool RecursiveFindCycle(const ItemNode* look_for,
const ItemNode* search_in,
std::vector<const ItemNode*>* cycle) {
const ItemNode::ItemNodeMap& unresolved =
search_in->unresolved_dependencies();
for (ItemNode::ItemNodeMap::const_iterator i = unresolved.begin();
i != unresolved.end(); ++i) {
ItemNode* cur = i->first;
if (cur == look_for) {
cycle->push_back(cur);
return true;
}
if (RecursiveFindCycle(look_for, cur, cycle)) {
// Found a cycle inside this one, record our path and return.
cycle->push_back(cur);
return true;
}
}
return false;
}
} // namespace
ItemTree::ItemTree() {
}
ItemTree::~ItemTree() {
STLDeleteContainerPairSecondPointers(items_.begin(), items_.end());
}
ItemNode* ItemTree::GetExistingNodeLocked(const Label& label) {
lock_.AssertAcquired();
StringToNodeHash::iterator found = items_.find(label);
if (found == items_.end())
return NULL;
return found->second;
}
void ItemTree::AddNodeLocked(ItemNode* node) {
lock_.AssertAcquired();
DCHECK(items_.find(node->item()->label()) == items_.end());
items_[node->item()->label()] = node;
}
bool ItemTree::MarkItemDefinedLocked(const BuildSettings* build_settings,
const Label& label,
Err* err) {
lock_.AssertAcquired();
DCHECK(items_.find(label) != items_.end());
ItemNode* node = items_[label];
if (!node->unresolved_dependencies().empty()) {
// Still some pending dependencies, wait for those to be resolved.
if (!node->SetDefined(build_settings, err))
return false;
return true;
}
// No more pending deps.
MarkItemResolvedLocked(node);
return true;
}
void ItemTree::GetAllItemsLocked(std::vector<const Item*>* dest) const {
lock_.AssertAcquired();
dest->reserve(items_.size());
for (StringToNodeHash::const_iterator i = items_.begin();
i != items_.end(); ++i) {
dest->push_back(i->second->item());
}
}
Err ItemTree::CheckForBadItems() const {
base::AutoLock lock(lock_);
// Look for errors where we find a GENERATED node that refers to a REFERENCED
// one. There may be other nodes depending on the GENERATED one, but listing
// all of 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 ItemNode*> bad_nodes;
std::string depstring;
for (StringToNodeHash::const_iterator i = items_.begin();
i != items_.end(); ++i) {
const ItemNode* src = i->second;
if (!src->should_generate())
continue; // Skip ungenerated nodes.
if (src->state() == ItemNode::DEFINED ||
src->state() == ItemNode::PENDING_DEPS) {
bad_nodes.push_back(src);
// Check dependencies.
for (ItemNode::ItemNodeMap::const_iterator dest =
src->unresolved_dependencies().begin();
dest != src->unresolved_dependencies().end();
++dest) {
const ItemNode* dest_node = dest->first;
if (dest_node->state() == ItemNode::REFERENCED) {
depstring += "\"" + src->item()->label().GetUserVisibleName(false) +
"\" needs " + dest_node->item()->GetItemTypeName() +
" \"" + dest_node->item()->label().GetUserVisibleName(false) +
"\"\n";
}
}
}
}
if (!bad_nodes.empty() && depstring.empty()) {
// Our logic above found a bad node but didn't identify the problem. This
// normally means a circular dependency.
depstring = CheckForCircularDependenciesLocked(bad_nodes);
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, "
"possible due to an\ninternal error:";
for (size_t i = 0; i < bad_nodes.size(); i++) {
depstring += "\n\"" +
bad_nodes[i]->item()->label().GetUserVisibleName(false) + "\"";
}
}
}
if (depstring.empty())
return Err();
return Err(Location(), "Unresolved dependencies.", depstring);
}
void ItemTree::MarkItemResolvedLocked(ItemNode* node) {
node->SetResolved();
node->item()->OnResolved();
// Now update our waiters, pushing the "resolved" bit.
ItemNode::ItemNodeMap waiting;
node->SwapOutWaitingDependencySet(&waiting);
for (ItemNode::ItemNodeMap::iterator i = waiting.begin();
i != waiting.end(); ++i) {
ItemNode* waiter = i->first;
// Our node should be unresolved in the waiter.
DCHECK(waiter->unresolved_dependencies().find(node) !=
waiter->unresolved_dependencies().end());
waiter->MarkDirectDependencyResolved(node);
// Recursively mark nodes as resolved.
if ((waiter->state() == ItemNode::DEFINED ||
waiter->state() == ItemNode::PENDING_DEPS) &&
waiter->unresolved_dependencies().empty())
MarkItemResolvedLocked(waiter);
}
}
std::string ItemTree::CheckForCircularDependenciesLocked(
const std::vector<const ItemNode*>& bad_nodes) const {
std::vector<const ItemNode*> cycle;
if (!RecursiveFindCycle(bad_nodes[0], bad_nodes[0], &cycle))
return std::string(); // Didn't find a cycle, something else is wrong.
cycle.push_back(bad_nodes[0]);
std::string ret = "There is a dependency cycle:";
// Walk backwards since the dependency arrows point in the reverse direction.
for (int i = static_cast<int>(cycle.size()) - 1; i >= 0; i--) {
ret += "\n \"" + cycle[i]->item()->label().GetUserVisibleName(false) +
"\"";
if (i != 0)
ret += " ->";
}
return ret;
}