// Copyright 2015 Google Inc. All rights reserved
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// +build ignore
#include "var.h"
#include "eval.h"
#include "expr.h"
#include "log.h"
unordered_map<const Var*, string> Var::diagnostic_messages_;
const char* GetOriginStr(VarOrigin origin) {
switch (origin) {
case VarOrigin::UNDEFINED:
return "undefined";
case VarOrigin::DEFAULT:
return "default";
case VarOrigin::ENVIRONMENT:
return "environment";
case VarOrigin::ENVIRONMENT_OVERRIDE:
return "environment override";
case VarOrigin::FILE:
return "file";
case VarOrigin::COMMAND_LINE:
return "command line";
case VarOrigin::OVERRIDE:
return "override";
case VarOrigin::AUTOMATIC:
return "automatic";
}
CHECK(false);
return "*** broken origin ***";
}
Var::Var() : Var(VarOrigin::UNDEFINED) {}
Var::Var(VarOrigin origin)
: origin_(origin), readonly_(false), deprecated_(false), obsolete_(false) {}
Var::~Var() {
diagnostic_messages_.erase(this);
}
void Var::AppendVar(Evaluator*, Value*) {
CHECK(false);
}
void Var::SetDeprecated(const StringPiece& msg) {
deprecated_ = true;
diagnostic_messages_[this] = msg.as_string();
}
void Var::SetObsolete(const StringPiece& msg) {
obsolete_ = true;
diagnostic_messages_[this] = msg.as_string();
}
void Var::Used(Evaluator* ev, const Symbol& sym) const {
if (obsolete_) {
ev->Error(StringPrintf("*** %s is obsolete%s.", sym.c_str(),
diagnostic_message_text()));
} else if (deprecated_) {
WARN_LOC(ev->loc(), "%s has been deprecated%s.", sym.c_str(),
diagnostic_message_text());
}
}
const char* Var::diagnostic_message_text() const {
auto it = diagnostic_messages_.find(this);
return it == diagnostic_messages_.end() ? "" : it->second.c_str();
}
const string& Var::DeprecatedMessage() const {
static const string empty_string;
auto it = diagnostic_messages_.find(this);
return it == diagnostic_messages_.end() ? empty_string : it->second;
}
Var* Var::Undefined() {
static Var* undefined_var;
if (!undefined_var) {
undefined_var = new UndefinedVar();
}
return undefined_var;
}
SimpleVar::SimpleVar(VarOrigin origin) : Var(origin) {}
SimpleVar::SimpleVar(const string& v, VarOrigin origin) : Var(origin), v_(v) {}
SimpleVar::SimpleVar(VarOrigin origin, Evaluator* ev, Value* v) : Var(origin) {
v->Eval(ev, &v_);
}
void SimpleVar::Eval(Evaluator* ev, string* s) const {
ev->CheckStack();
*s += v_;
}
void SimpleVar::AppendVar(Evaluator* ev, Value* v) {
string buf;
v->Eval(ev, &buf);
v_.push_back(' ');
v_ += buf;
}
StringPiece SimpleVar::String() const {
return v_;
}
string SimpleVar::DebugString() const {
return v_;
}
RecursiveVar::RecursiveVar(Value* v, VarOrigin origin, StringPiece orig)
: Var(origin), v_(v), orig_(orig) {}
void RecursiveVar::Eval(Evaluator* ev, string* s) const {
ev->CheckStack();
v_->Eval(ev, s);
}
void RecursiveVar::AppendVar(Evaluator* ev, Value* v) {
ev->CheckStack();
v_ = Value::NewExpr(v_, Value::NewLiteral(" "), v);
}
StringPiece RecursiveVar::String() const {
return orig_;
}
string RecursiveVar::DebugString() const {
return Value::DebugString(v_);
}
UndefinedVar::UndefinedVar() {}
void UndefinedVar::Eval(Evaluator*, string*) const {
// Nothing to do.
}
StringPiece UndefinedVar::String() const {
return StringPiece("");
}
string UndefinedVar::DebugString() const {
return "*undefined*";
}
Vars::~Vars() {
for (auto p : *this) {
delete p.second;
}
}
void Vars::add_used_env_vars(Symbol v) {
used_env_vars_.insert(v);
}
Var* Vars::Lookup(Symbol name) const {
auto found = find(name);
if (found == end())
return Var::Undefined();
Var* v = found->second;
if (v->Origin() == VarOrigin::ENVIRONMENT ||
v->Origin() == VarOrigin::ENVIRONMENT_OVERRIDE) {
used_env_vars_.insert(name);
}
return v;
}
Var* Vars::Peek(Symbol name) const {
auto found = find(name);
return found == end() ? Var::Undefined() : found->second;
}
void Vars::Assign(Symbol name, Var* v, bool* readonly) {
*readonly = false;
auto p = emplace(name, v);
if (!p.second) {
Var* orig = p.first->second;
if (orig->ReadOnly()) {
*readonly = true;
return;
}
if (orig->Origin() == VarOrigin::OVERRIDE ||
orig->Origin() == VarOrigin::ENVIRONMENT_OVERRIDE) {
return;
}
if (orig->Origin() == VarOrigin::AUTOMATIC) {
ERROR("overriding automatic variable is not implemented yet");
}
if (orig->IsDefined())
delete p.first->second;
p.first->second = v;
}
}
SymbolSet Vars::used_env_vars_;
ScopedVar::ScopedVar(Vars* vars, Symbol name, Var* var)
: vars_(vars), orig_(NULL) {
auto p = vars->emplace(name, var);
iter_ = p.first;
if (!p.second) {
orig_ = iter_->second;
iter_->second = var;
}
}
ScopedVar::~ScopedVar() {
if (orig_) {
iter_->second = orig_;
} else {
vars_->erase(iter_);
}
}