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#include "graph.h"
#include <stdio.h>
#include "build_log.h"
#include "ninja.h"
#include "parsers.h"
void FileStat::Touch(int mtime) {
mtime_ = mtime;
if (node_)
node_->MarkDirty();
}
bool FileStat::Stat(DiskInterface* disk_interface) {
mtime_ = disk_interface->Stat(path_);
return mtime_ > 0;
}
void Node::MarkDirty() {
if (dirty_)
return; // We already know.
dirty_ = true;
MarkDependentsDirty();
}
void Node::MarkDependentsDirty() {
for (vector<Edge*>::iterator i = out_edges_.begin(); i != out_edges_.end(); ++i)
(*i)->MarkDirty(this);
}
bool Edge::RecomputeDirty(State* state, DiskInterface* disk_interface,
string* err) {
bool dirty = false;
if (!rule_->depfile_.empty()) {
if (!LoadDepFile(state, disk_interface, err))
return false;
}
time_t most_recent_input = 1;
for (vector<Node*>::iterator i = inputs_.begin(); i != inputs_.end(); ++i) {
if ((*i)->file_->StatIfNecessary(disk_interface)) {
if (Edge* edge = (*i)->in_edge_) {
if (!edge->RecomputeDirty(state, disk_interface, err))
return false;
} else {
// This input has no in-edge; it is dirty if it is missing.
// But it's ok for implicit deps to be missing.
if (!is_implicit(i - inputs_.begin()))
(*i)->dirty_ = !(*i)->file_->exists();
}
}
if (is_order_only(i - inputs_.begin())) {
// Order-only deps only make us dirty if they're missing.
if (!(*i)->file_->exists())
dirty = true;
continue;
}
// If a regular input is dirty (or missing), we're dirty.
// Otherwise consider mtime.
if ((*i)->dirty_) {
dirty = true;
} else {
if ((*i)->file_->mtime_ > most_recent_input)
most_recent_input = (*i)->file_->mtime_;
}
}
string command = EvaluateCommand();
assert(!outputs_.empty());
for (vector<Node*>::iterator i = outputs_.begin(); i != outputs_.end(); ++i) {
// We may have other outputs, that our input-recursive traversal hasn't hit
// yet (or never will). Stat them if we haven't already.
(*i)->file_->StatIfNecessary(disk_interface);
// Output is dirty if we're dirty, we're missing the output,
// or if it's older than the most recent input mtime.
if (dirty || !(*i)->file_->exists() ||
(*i)->file_->mtime_ < most_recent_input) {
(*i)->dirty_ = true;
} else {
// May also be dirty due to the command changing since the last build.
BuildLog::LogEntry* entry;
if (state->build_log_ &&
(entry = state->build_log_->LookupByOutput((*i)->file_->path_))) {
if (command != entry->command)
(*i)->dirty_ = true;
}
}
}
return true;
}
void Edge::MarkDirty(Node* node) {
if (rule_ == &State::kPhonyRule)
return;
vector<Node*>::iterator i = find(inputs_.begin(), inputs_.end(), node);
if (i == inputs_.end())
return;
if (i - inputs_.begin() >= ((int)inputs_.size()) - order_only_deps_)
return; // Order-only deps don't cause us to become dirty.
for (i = outputs_.begin(); i != outputs_.end(); ++i)
(*i)->MarkDirty();
}
struct EdgeEnv : public Env {
EdgeEnv(Edge* edge) : edge_(edge) {}
virtual string LookupVariable(const string& var) {
string result;
if (var == "in") {
int explicit_deps = edge_->inputs_.size() - edge_->implicit_deps_ -
edge_->order_only_deps_;
for (vector<Node*>::iterator i = edge_->inputs_.begin();
i != edge_->inputs_.end() && explicit_deps; ++i, --explicit_deps) {
if (!result.empty())
result.push_back(' ');
result.append((*i)->file_->path_);
}
} else if (var == "out") {
result = edge_->outputs_[0]->file_->path_;
} else if (edge_->env_) {
return edge_->env_->LookupVariable(var);
}
return result;
}
Edge* edge_;
};
string Edge::EvaluateCommand() {
EdgeEnv env(this);
return rule_->command_.Evaluate(&env);
}
string Edge::GetDescription() {
EdgeEnv env(this);
return rule_->description_.Evaluate(&env);
}
bool Edge::LoadDepFile(State* state, DiskInterface* disk_interface, string* err) {
EdgeEnv env(this);
string path = rule_->depfile_.Evaluate(&env);
string content = disk_interface->ReadFile(path, err);
if (!err->empty())
return false;
if (content.empty())
return true;
MakefileParser makefile;
if (!makefile.Parse(content, err))
return false;
// Check that this depfile matches our output.
if (outputs_.size() != 1) {
*err = "expected only one output";
return false;
}
if (outputs_[0]->file_->path_ != makefile.out_) {
*err = "expected makefile to mention '" + outputs_[0]->file_->path_ + "', "
"got '" + makefile.out_ + "'";
return false;
}
// Add all its in-edges.
for (vector<string>::iterator i = makefile.ins_.begin();
i != makefile.ins_.end(); ++i) {
Node* node = state->GetNode(*i);
for (vector<Node*>::iterator j = inputs_.begin(); j != inputs_.end(); ++j) {
if (*j == node) {
node = NULL;
break;
}
}
if (node) {
inputs_.insert(inputs_.end() - order_only_deps_, node);
node->out_edges_.push_back(this);
++implicit_deps_;
}
}
return true;
}
void Edge::Dump() {
printf("[ ");
for (vector<Node*>::iterator i = inputs_.begin(); i != inputs_.end(); ++i) {
printf("%s ", (*i)->file_->path_.c_str());
}
printf("--%s-> ", rule_->name_.c_str());
for (vector<Node*>::iterator i = outputs_.begin(); i != outputs_.end(); ++i) {
printf("%s ", (*i)->file_->path_.c_str());
}
printf("]\n");
}
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