/*
* Copyright (C) 2015, The Android Open Source Project
*
* 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.
*/
#include "ast_cpp.h"
#include <algorithm>
#include "code_writer.h"
#include "logging.h"
using std::string;
using std::unique_ptr;
using std::vector;
namespace android {
namespace aidl {
namespace cpp {
ClassDecl::ClassDecl(const std::string& name, const std::string& parent)
: name_(name),
parent_(parent) {}
ClassDecl::ClassDecl(const std::string& name, const std::string& parent,
std::vector<unique_ptr<Declaration>> public_members,
std::vector<unique_ptr<Declaration>> private_members)
: name_(name),
parent_(parent),
public_members_(std::move(public_members)),
private_members_(std::move(private_members)) {}
void ClassDecl::Write(CodeWriter* to) const {
to->Write("class %s ", name_.c_str());
if (parent_.length() > 0)
to->Write(": public %s ", parent_.c_str());
to->Write("{\n");
if (!public_members_.empty())
to->Write("public:\n");
for (const auto& dec : public_members_)
dec->Write(to);
if (!private_members_.empty())
to->Write("private:\n");
for (const auto& dec : private_members_)
dec->Write(to);
to->Write("}; // class %s\n", name_.c_str());
}
void ClassDecl::AddPublic(std::unique_ptr<Declaration> member) {
public_members_.push_back(std::move(member));
}
void ClassDecl::AddPrivate(std::unique_ptr<Declaration> member) {
private_members_.push_back(std::move(member));
}
Enum::EnumField::EnumField(const string& k, const string& v)
: key(k),
value(v) {}
Enum::Enum(const string& name, const string& base_type)
: enum_name_(name), underlying_type_(base_type) {}
Enum::Enum(const string& name) : Enum(name, "") {}
void Enum::Write(CodeWriter* to) const {
if (underlying_type_.empty()) {
to->Write("enum %s {\n", enum_name_.c_str());
} else {
to->Write("enum %s : %s {\n", enum_name_.c_str(), underlying_type_.c_str());
}
for (const auto& field : fields_) {
if (field.value.empty()) {
to->Write(" %s,\n", field.key.c_str());
} else {
to->Write(" %s = %s,\n", field.key.c_str(), field.value.c_str());
}
}
to->Write("};\n");
}
void Enum::AddValue(const string& key, const string& value) {
fields_.emplace_back(key, value);
}
ArgList::ArgList(const std::string& single_argument)
: ArgList(vector<string>{single_argument}) {}
ArgList::ArgList(const std::vector<std::string>& arg_list) {
for (const auto& s : arg_list) {
arguments_.emplace_back(new LiteralExpression(s));
}
}
ArgList::ArgList(std::vector<std::unique_ptr<AstNode>> arg_list)
: arguments_(std::move(arg_list)) {}
ArgList::ArgList(ArgList&& arg_list)
: arguments_(std::move(arg_list.arguments_)) {}
void ArgList::Write(CodeWriter* to) const {
to->Write("(");
bool is_first = true;
for (const auto& s : arguments_) {
if (!is_first) { to->Write(", "); }
is_first = false;
s->Write(to);
}
to->Write(")");
}
ConstructorDecl::ConstructorDecl(
const std::string& name,
ArgList&& arg_list)
: ConstructorDecl(name, std::move(arg_list), 0u) {}
ConstructorDecl::ConstructorDecl(
const std::string& name,
ArgList&& arg_list,
uint32_t modifiers)
: name_(name),
arguments_(std::move(arg_list)),
modifiers_(modifiers) {}
void ConstructorDecl::Write(CodeWriter* to) const {
if (modifiers_ & Modifiers::IS_VIRTUAL)
to->Write("virtual ");
if (modifiers_ & Modifiers::IS_EXPLICIT)
to->Write("explicit ");
to->Write("%s", name_.c_str());
arguments_.Write(to);
if (modifiers_ & Modifiers::IS_DEFAULT)
to->Write(" = default");
to->Write(";\n");
}
MacroDecl::MacroDecl(const std::string& name, ArgList&& arg_list)
: name_(name),
arguments_(std::move(arg_list)) {}
void MacroDecl::Write(CodeWriter* to) const {
to->Write("%s", name_.c_str());
arguments_.Write(to);
to->Write("\n");
}
MethodDecl::MethodDecl(const std::string& return_type,
const std::string& name,
ArgList&& arg_list)
: MethodDecl(return_type, name, std::move(arg_list), 0u) {}
MethodDecl::MethodDecl(const std::string& return_type,
const std::string& name,
ArgList&& arg_list,
uint32_t modifiers)
: return_type_(return_type),
name_(name),
arguments_(std::move(arg_list)),
is_const_(modifiers & IS_CONST),
is_virtual_(modifiers & IS_VIRTUAL),
is_override_(modifiers & IS_OVERRIDE),
is_pure_virtual_(modifiers & IS_PURE_VIRTUAL),
is_static_(modifiers & IS_STATIC) {}
void MethodDecl::Write(CodeWriter* to) const {
if (is_virtual_)
to->Write("virtual ");
if (is_static_)
to->Write("static ");
to->Write("%s %s", return_type_.c_str(), name_.c_str());
arguments_.Write(to);
if (is_const_)
to->Write(" const");
if (is_override_)
to->Write(" override");
if (is_pure_virtual_)
to->Write(" = 0");
to->Write(";\n");
}
void StatementBlock::AddStatement(unique_ptr<AstNode> statement) {
statements_.push_back(std::move(statement));
}
void StatementBlock::AddStatement(AstNode* statement) {
statements_.emplace_back(statement);
}
void StatementBlock::AddLiteral(const std::string& expression_str,
bool add_semicolon) {
if (add_semicolon) {
statements_.push_back(unique_ptr<AstNode>(new Statement(expression_str)));
} else {
statements_.push_back(unique_ptr<AstNode>(
new LiteralExpression(expression_str)));
}
}
void StatementBlock::Write(CodeWriter* to) const {
to->Write("{\n");
for (const auto& statement : statements_) {
statement->Write(to);
}
to->Write("}\n");
}
ConstructorImpl::ConstructorImpl(const string& class_name,
ArgList&& arg_list,
const vector<string>& initializer_list)
: class_name_(class_name),
arguments_(std::move(arg_list)),
initializer_list_(initializer_list) {}
void ConstructorImpl::Write(CodeWriter* to) const {
to->Write("%s::%s", class_name_.c_str(), class_name_.c_str());
arguments_.Write(to);
to->Write("\n");
bool is_first = true;
for (const string& i : initializer_list_) {
if (is_first) {
to->Write(" : %s", i.c_str());
} else {
to->Write(",\n %s", i.c_str());
}
is_first = false;
}
body_.Write(to);
}
MethodImpl::MethodImpl(const string& return_type,
const string& class_name,
const string& method_name,
ArgList&& arg_list,
bool is_const_method)
: return_type_(return_type),
method_name_(method_name),
arguments_(std::move(arg_list)),
is_const_method_(is_const_method) {
if (!class_name.empty()) {
method_name_ = class_name + "::" + method_name;
}
}
StatementBlock* MethodImpl::GetStatementBlock() {
return &statements_;
}
void MethodImpl::Write(CodeWriter* to) const {
to->Write("%s %s", return_type_.c_str(), method_name_.c_str());
arguments_.Write(to);
to->Write("%s ", (is_const_method_) ? " const" : "");
statements_.Write(to);
}
SwitchStatement::SwitchStatement(const std::string& expression)
: switch_expression_(expression) {}
StatementBlock* SwitchStatement::AddCase(const string& value_expression) {
auto it = std::find(case_values_.begin(), case_values_.end(), value_expression);
if (it != case_values_.end()) {
LOG(ERROR) << "internal error: duplicate switch case labels";
return nullptr;
}
StatementBlock* ret = new StatementBlock();
case_values_.push_back(value_expression);
case_logic_.push_back(unique_ptr<StatementBlock>{ret});
return ret;
}
void SwitchStatement::Write(CodeWriter* to) const {
to->Write("switch (%s) {\n", switch_expression_.c_str());
for (size_t i = 0; i < case_values_.size(); ++i) {
const string& case_value = case_values_[i];
const unique_ptr<StatementBlock>& statements = case_logic_[i];
if (case_value.empty()) {
to->Write("default:\n");
} else {
to->Write("case %s:\n", case_value.c_str());
}
statements->Write(to);
to->Write("break;\n");
}
to->Write("}\n");
}
Assignment::Assignment(const std::string& left, const std::string& right)
: Assignment(left, new LiteralExpression{right}) {}
Assignment::Assignment(const std::string& left, AstNode* right)
: lhs_(left),
rhs_(right) {}
void Assignment::Write(CodeWriter* to) const {
to->Write("%s = ", lhs_.c_str());
rhs_->Write(to);
to->Write(";\n");
}
MethodCall::MethodCall(const std::string& method_name,
const std::string& single_argument)
: MethodCall(method_name, ArgList{single_argument}) {}
MethodCall::MethodCall(const std::string& method_name,
ArgList&& arg_list)
: method_name_(method_name),
arguments_{std::move(arg_list)} {}
void MethodCall::Write(CodeWriter* to) const {
to->Write("%s", method_name_.c_str());
arguments_.Write(to);
}
IfStatement::IfStatement(AstNode* expression, bool invert_expression)
: expression_(expression),
invert_expression_(invert_expression) {}
void IfStatement::Write(CodeWriter* to) const {
to->Write("if (%s", (invert_expression_) ? "!(" : "");
expression_->Write(to);
to->Write(")%s ", (invert_expression_) ? ")" : "");
on_true_.Write(to);
if (!on_false_.Empty()) {
to->Write("else ");
on_false_.Write(to);
}
}
Statement::Statement(unique_ptr<AstNode> expression)
: expression_(std::move(expression)) {}
Statement::Statement(AstNode* expression) : expression_(expression) {}
Statement::Statement(const string& expression)
: expression_(new LiteralExpression(expression)) {}
void Statement::Write(CodeWriter* to) const {
expression_->Write(to);
to->Write(";\n");
}
Comparison::Comparison(AstNode* lhs, const string& comparison, AstNode* rhs)
: left_(lhs),
right_(rhs),
operator_(comparison) {}
void Comparison::Write(CodeWriter* to) const {
to->Write("((");
left_->Write(to);
to->Write(") %s (", operator_.c_str());
right_->Write(to);
to->Write("))");
}
LiteralExpression::LiteralExpression(const std::string& expression)
: expression_(expression) {}
void LiteralExpression::Write(CodeWriter* to) const {
to->Write("%s", expression_.c_str());
}
CppNamespace::CppNamespace(const std::string& name,
std::vector<unique_ptr<Declaration>> declarations)
: declarations_(std::move(declarations)),
name_(name) {}
CppNamespace::CppNamespace(const std::string& name,
unique_ptr<Declaration> declaration)
: name_(name) {
declarations_.push_back(std::move(declaration));
}
CppNamespace::CppNamespace(const std::string& name)
: name_(name) {}
void CppNamespace::Write(CodeWriter* to) const {
to->Write("namespace %s {\n\n", name_.c_str());
for (const auto& dec : declarations_) {
dec->Write(to);
to->Write("\n");
}
to->Write("} // namespace %s\n", name_.c_str());
}
Document::Document(const std::vector<std::string>& include_list,
unique_ptr<CppNamespace> a_namespace)
: include_list_(include_list),
namespace_(std::move(a_namespace)) {}
void Document::Write(CodeWriter* to) const {
for (const auto& include : include_list_) {
to->Write("#include <%s>\n", include.c_str());
}
to->Write("\n");
namespace_->Write(to);
}
CppHeader::CppHeader(const std::string& include_guard,
const std::vector<std::string>& include_list,
unique_ptr<CppNamespace> a_namespace)
: Document(include_list, std::move(a_namespace)),
include_guard_(include_guard) {}
void CppHeader::Write(CodeWriter* to) const {
to->Write("#ifndef %s\n", include_guard_.c_str());
to->Write("#define %s\n\n", include_guard_.c_str());
Document::Write(to);
to->Write("\n");
to->Write("#endif // %s\n", include_guard_.c_str());
}
CppSource::CppSource(const std::vector<std::string>& include_list,
unique_ptr<CppNamespace> a_namespace)
: Document(include_list, std::move(a_namespace)) {}
} // namespace cpp
} // namespace aidl
} // namespace android