Google Git
Sign in
android / platform / frameworks / base / c620eb7 / . / tools / aidl / Type.cpp
blob: 2267750623ad7a7189f5d399414971f0fb421cbd [file] [log] [blame]
#include "Type.h"
#include <sys/types.h>
Namespace NAMES;
Type* VOID_TYPE;
Type* BOOLEAN_TYPE;
Type* BYTE_TYPE;
Type* CHAR_TYPE;
Type* INT_TYPE;
Type* LONG_TYPE;
Type* FLOAT_TYPE;
Type* DOUBLE_TYPE;
Type* STRING_TYPE;
Type* OBJECT_TYPE;
Type* CHAR_SEQUENCE_TYPE;
Type* TEXT_UTILS_TYPE;
Type* REMOTE_EXCEPTION_TYPE;
Type* RUNTIME_EXCEPTION_TYPE;
Type* IBINDER_TYPE;
Type* IINTERFACE_TYPE;
Type* BINDER_NATIVE_TYPE;
Type* BINDER_PROXY_TYPE;
Type* PARCEL_TYPE;
Type* PARCELABLE_INTERFACE_TYPE;
Type* CONTEXT_TYPE;
Type* MAP_TYPE;
Type* LIST_TYPE;
Type* CLASSLOADER_TYPE;
Type* RPC_DATA_TYPE;
Type* RPC_ERROR_TYPE;
Type* EVENT_FAKE_TYPE;
Expression* NULL_VALUE;
Expression* THIS_VALUE;
Expression* SUPER_VALUE;
Expression* TRUE_VALUE;
Expression* FALSE_VALUE;
void
register_base_types()
{
VOID_TYPE = new BasicType("void",
"XXX", "XXX", "XXX", "XXX", "XXX",
"XXX", "XXX", "XXX", "XXX", "XXX");
NAMES.Add(VOID_TYPE);
BOOLEAN_TYPE = new BooleanType();
NAMES.Add(BOOLEAN_TYPE);
BYTE_TYPE = new BasicType("byte",
"writeByte", "readByte", "writeByteArray", "createByteArray", "readByteArray",
"putByte", "getByte", "putByteArray", "createByteArray", "getByteArray");
NAMES.Add(BYTE_TYPE);
CHAR_TYPE = new CharType();
NAMES.Add(CHAR_TYPE);
INT_TYPE = new BasicType("int",
"writeInt", "readInt", "writeIntArray", "createIntArray", "readIntArray",
"putInteger", "getInteger", "putIntegerArray", "createIntegerArray", "getIntegerArray");
NAMES.Add(INT_TYPE);
LONG_TYPE = new BasicType("long",
"writeLong", "readLong", "writeLongArray", "createLongArray", "readLongArray",
"putLong", "getLong", "putLongArray", "createLongArray", "getLongArray");
NAMES.Add(LONG_TYPE);
FLOAT_TYPE = new BasicType("float",
"writeFloat", "readFloat", "writeFloatArray", "createFloatArray", "readFloatArray",
"putFloat", "getFloat", "putFloatArray", "createFloatArray", "getFloatArray");
NAMES.Add(FLOAT_TYPE);
DOUBLE_TYPE = new BasicType("double",
"writeDouble", "readDouble", "writeDoubleArray", "createDoubleArray", "readDoubleArray",
"putDouble", "getDouble", "putDoubleArray", "createDoubleArray", "getDoubleArray");
NAMES.Add(DOUBLE_TYPE);
STRING_TYPE = new StringType();
NAMES.Add(STRING_TYPE);
OBJECT_TYPE = new Type("java.lang", "Object", Type::BUILT_IN, false, false, false);
NAMES.Add(OBJECT_TYPE);
CHAR_SEQUENCE_TYPE = new CharSequenceType();
NAMES.Add(CHAR_SEQUENCE_TYPE);
MAP_TYPE = new MapType();
NAMES.Add(MAP_TYPE);
LIST_TYPE = new ListType();
NAMES.Add(LIST_TYPE);
TEXT_UTILS_TYPE = new Type("android.text", "TextUtils", Type::BUILT_IN, false, false, false);
NAMES.Add(TEXT_UTILS_TYPE);
REMOTE_EXCEPTION_TYPE = new RemoteExceptionType();
NAMES.Add(REMOTE_EXCEPTION_TYPE);
RUNTIME_EXCEPTION_TYPE = new RuntimeExceptionType();
NAMES.Add(RUNTIME_EXCEPTION_TYPE);
IBINDER_TYPE = new IBinderType();
NAMES.Add(IBINDER_TYPE);
IINTERFACE_TYPE = new IInterfaceType();
NAMES.Add(IINTERFACE_TYPE);
BINDER_NATIVE_TYPE = new BinderType();
NAMES.Add(BINDER_NATIVE_TYPE);
BINDER_PROXY_TYPE = new BinderProxyType();
NAMES.Add(BINDER_PROXY_TYPE);
PARCEL_TYPE = new ParcelType();
NAMES.Add(PARCEL_TYPE);
PARCELABLE_INTERFACE_TYPE = new ParcelableInterfaceType();
NAMES.Add(PARCELABLE_INTERFACE_TYPE);
CONTEXT_TYPE = new Type("android.content", "Context", Type::BUILT_IN, false, false, false);
NAMES.Add(CONTEXT_TYPE);
RPC_DATA_TYPE = new RpcDataType();
NAMES.Add(RPC_DATA_TYPE);
RPC_ERROR_TYPE = new UserDataType("android.support.place.rpc", "RpcError",
true, __FILE__, __LINE__);
NAMES.Add(RPC_ERROR_TYPE);
EVENT_FAKE_TYPE = new Type("event", Type::BUILT_IN, false, false, false);
NAMES.Add(EVENT_FAKE_TYPE);
CLASSLOADER_TYPE = new ClassLoaderType();
NAMES.Add(CLASSLOADER_TYPE);
NULL_VALUE = new LiteralExpression("null");
THIS_VALUE = new LiteralExpression("this");
SUPER_VALUE = new LiteralExpression("super");
TRUE_VALUE = new LiteralExpression("true");
FALSE_VALUE = new LiteralExpression("false");
NAMES.AddGenericType("java.util", "List", 1);
NAMES.AddGenericType("java.util", "Map", 2);
}
static Type*
make_generic_type(const string& package, const string& name,
const vector<Type*>& args)
{
if (package == "java.util" && name == "List") {
return new GenericListType("java.util", "List", args);
}
return NULL;
//return new GenericType(package, name, args);
}
// ================================================================
Type::Type(const string& name, int kind, bool canWriteToParcel, bool canWriteToRpcData,
bool canBeOut)
:m_package(),
m_name(name),
m_declFile(""),
m_declLine(-1),
m_kind(kind),
m_canWriteToParcel(canWriteToParcel),
m_canWriteToRpcData(canWriteToRpcData),
m_canBeOut(canBeOut)
{
m_qualifiedName = name;
}
Type::Type(const string& package, const string& name,
int kind, bool canWriteToParcel, bool canWriteToRpcData,
bool canBeOut, const string& declFile, int declLine)
:m_package(package),
m_name(name),
m_declFile(declFile),
m_declLine(declLine),
m_kind(kind),
m_canWriteToParcel(canWriteToParcel),
m_canWriteToRpcData(canWriteToRpcData),
m_canBeOut(canBeOut)
{
if (package.length() > 0) {
m_qualifiedName = package;
m_qualifiedName += '.';
}
m_qualifiedName += name;
}
Type::~Type()
{
}
bool
Type::CanBeArray() const
{
return false;
}
string
Type::ImportType() const
{
return m_qualifiedName;
}
string
Type::CreatorName() const
{
return "";
}
string
Type::RpcCreatorName() const
{
return "";
}
string
Type::InstantiableName() const
{
return QualifiedName();
}
void
Type::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%sn",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* WriteToParcel error "
+ m_qualifiedName + " */"));
}
void
Type::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* CreateFromParcel error "
+ m_qualifiedName + " */"));
}
void
Type::ReadFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* ReadFromParcel error "
+ m_qualifiedName + " */"));
}
void
Type::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* WriteArrayToParcel error "
+ m_qualifiedName + " */"));
}
void
Type::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* CreateArrayFromParcel error "
+ m_qualifiedName + " */"));
}
void
Type::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* ReadArrayFromParcel error "
+ m_qualifiedName + " */"));
}
void
Type::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* WriteToRpcData error "
+ m_qualifiedName + " */"));
}
void
Type::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v, Variable* data,
Variable** cl)
{
fprintf(stderr, "aidl:internal error %s:%d qualifiedName=%s\n",
__FILE__, __LINE__, m_qualifiedName.c_str());
addTo->Add(new LiteralExpression("/* ReadFromRpcData error "
+ m_qualifiedName + " */"));
}
void
Type::SetQualifiedName(const string& qualified)
{
m_qualifiedName = qualified;
}
Expression*
Type::BuildWriteToParcelFlags(int flags)
{
if (flags == 0) {
return new LiteralExpression("0");
}
if ((flags&PARCELABLE_WRITE_RETURN_VALUE) != 0) {
return new FieldVariable(PARCELABLE_INTERFACE_TYPE,
"PARCELABLE_WRITE_RETURN_VALUE");
}
return new LiteralExpression("0");
}
// ================================================================
BasicType::BasicType(const string& name, const string& marshallParcel,
const string& unmarshallParcel, const string& writeArrayParcel,
const string& createArrayParcel, const string& readArrayParcel,
const string& marshallRpc, const string& unmarshallRpc,
const string& writeArrayRpc, const string& createArrayRpc, const string& readArrayRpc)
:Type(name, BUILT_IN, true, true, false),
m_marshallParcel(marshallParcel),
m_unmarshallParcel(unmarshallParcel),
m_writeArrayParcel(writeArrayParcel),
m_createArrayParcel(createArrayParcel),
m_readArrayParcel(readArrayParcel),
m_marshallRpc(marshallRpc),
m_unmarshallRpc(unmarshallRpc),
m_writeArrayRpc(writeArrayRpc),
m_createArrayRpc(createArrayRpc),
m_readArrayRpc(readArrayRpc)
{
}
void
BasicType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, m_marshallParcel, 1, v));
}
void
BasicType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, m_unmarshallParcel)));
}
bool
BasicType::CanBeArray() const
{
return true;
}
void
BasicType::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, m_writeArrayParcel, 1, v));
}
void
BasicType::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, m_createArrayParcel)));
}
void
BasicType::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new MethodCall(parcel, m_readArrayParcel, 1, v));
}
void
BasicType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
addTo->Add(new MethodCall(data, m_marshallRpc, 2, k, v));
}
void
BasicType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v, Variable* data,
Variable** cl)
{
addTo->Add(new Assignment(v, new MethodCall(data, m_unmarshallRpc, 1, k)));
}
// ================================================================
BooleanType::BooleanType()
:Type("boolean", BUILT_IN, true, true, false)
{
}
void
BooleanType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeInt", 1,
new Ternary(v, new LiteralExpression("1"),
new LiteralExpression("0"))));
}
void
BooleanType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new Comparison(new LiteralExpression("0"),
"!=", new MethodCall(parcel, "readInt"))));
}
bool
BooleanType::CanBeArray() const
{
return true;
}
void
BooleanType::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeBooleanArray", 1, v));
}
void
BooleanType::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "createBooleanArray")));
}
void
BooleanType::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new MethodCall(parcel, "readBooleanArray", 1, v));
}
void
BooleanType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
addTo->Add(new MethodCall(data, "putBoolean", 2, k, v));
}
void
BooleanType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v, Variable* data,
Variable** cl)
{
addTo->Add(new Assignment(v, new MethodCall(data, "getBoolean", 1, k)));
}
// ================================================================
CharType::CharType()
:Type("char", BUILT_IN, true, true, false)
{
}
void
CharType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeInt", 1,
new Cast(INT_TYPE, v)));
}
void
CharType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "readInt"), this));
}
bool
CharType::CanBeArray() const
{
return true;
}
void
CharType::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeCharArray", 1, v));
}
void
CharType::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "createCharArray")));
}
void
CharType::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new MethodCall(parcel, "readCharArray", 1, v));
}
void
CharType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
addTo->Add(new MethodCall(data, "putChar", 2, k, v));
}
void
CharType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v, Variable* data,
Variable** cl)
{
addTo->Add(new Assignment(v, new MethodCall(data, "getChar", 1, k)));
}
// ================================================================
StringType::StringType()
:Type("java.lang", "String", BUILT_IN, true, true, false)
{
}
string
StringType::CreatorName() const
{
return "android.os.Parcel.STRING_CREATOR";
}
void
StringType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeString", 1, v));
}
void
StringType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "readString")));
}
bool
StringType::CanBeArray() const
{
return true;
}
void
StringType::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeStringArray", 1, v));
}
void
StringType::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "createStringArray")));
}
void
StringType::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new MethodCall(parcel, "readStringArray", 1, v));
}
void
StringType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
addTo->Add(new MethodCall(data, "putString", 2, k, v));
}
void
StringType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(data, "getString", 1, k)));
}
// ================================================================
CharSequenceType::CharSequenceType()
:Type("java.lang", "CharSequence", BUILT_IN, true, true, false)
{
}
string
CharSequenceType::CreatorName() const
{
return "android.os.Parcel.STRING_CREATOR";
}
void
CharSequenceType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
// if (v != null) {
// parcel.writeInt(1);
// v.writeToParcel(parcel);
// } else {
// parcel.writeInt(0);
// }
IfStatement* elsepart = new IfStatement();
elsepart->statements->Add(new MethodCall(parcel, "writeInt", 1,
new LiteralExpression("0")));
IfStatement* ifpart = new IfStatement;
ifpart->expression = new Comparison(v, "!=", NULL_VALUE);
ifpart->elseif = elsepart;
ifpart->statements->Add(new MethodCall(parcel, "writeInt", 1,
new LiteralExpression("1")));
ifpart->statements->Add(new MethodCall(TEXT_UTILS_TYPE, "writeToParcel",
3, v, parcel, BuildWriteToParcelFlags(flags)));
addTo->Add(ifpart);
}
void
CharSequenceType::CreateFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
// if (0 != parcel.readInt()) {
// v = TextUtils.createFromParcel(parcel)
// } else {
// v = null;
// }
IfStatement* elsepart = new IfStatement();
elsepart->statements->Add(new Assignment(v, NULL_VALUE));
IfStatement* ifpart = new IfStatement();
ifpart->expression = new Comparison(new LiteralExpression("0"), "!=",
new MethodCall(parcel, "readInt"));
ifpart->elseif = elsepart;
ifpart->statements->Add(new Assignment(v,
new MethodCall(TEXT_UTILS_TYPE,
"CHAR_SEQUENCE_CREATOR.createFromParcel", 1, parcel)));
addTo->Add(ifpart);
}
// ================================================================
RemoteExceptionType::RemoteExceptionType()
:Type("android.os", "RemoteException", BUILT_IN, false, false, false)
{
}
void
RemoteExceptionType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
RemoteExceptionType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
RuntimeExceptionType::RuntimeExceptionType()
:Type("java.lang", "RuntimeException", BUILT_IN, false, false, false)
{
}
void
RuntimeExceptionType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
RuntimeExceptionType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
IBinderType::IBinderType()
:Type("android.os", "IBinder", BUILT_IN, true, false, false)
{
}
void
IBinderType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeStrongBinder", 1, v));
}
void
IBinderType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "readStrongBinder")));
}
void
IBinderType::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeBinderArray", 1, v));
}
void
IBinderType::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
addTo->Add(new Assignment(v, new MethodCall(parcel, "createBinderArray")));
}
void
IBinderType::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
addTo->Add(new MethodCall(parcel, "readBinderArray", 1, v));
}
// ================================================================
IInterfaceType::IInterfaceType()
:Type("android.os", "IInterface", BUILT_IN, false, false, false)
{
}
void
IInterfaceType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
IInterfaceType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
BinderType::BinderType()
:Type("android.os", "Binder", BUILT_IN, false, false, false)
{
}
void
BinderType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
BinderType::CreateFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
BinderProxyType::BinderProxyType()
:Type("android.os", "BinderProxy", BUILT_IN, false, false, false)
{
}
void
BinderProxyType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
BinderProxyType::CreateFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
ParcelType::ParcelType()
:Type("android.os", "Parcel", BUILT_IN, false, false, false)
{
}
void
ParcelType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
ParcelType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
ParcelableInterfaceType::ParcelableInterfaceType()
:Type("android.os", "Parcelable", BUILT_IN, false, false, false)
{
}
void
ParcelableInterfaceType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
void
ParcelableInterfaceType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__, __LINE__);
}
// ================================================================
MapType::MapType()
:Type("java.util", "Map", BUILT_IN, true, false, true)
{
}
void
MapType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeMap", 1, v));
}
static void EnsureClassLoader(StatementBlock* addTo, Variable** cl)
{
// We don't want to look up the class loader once for every
// collection argument, so ensure we do it at most once per method.
if (*cl == NULL) {
*cl = new Variable(CLASSLOADER_TYPE, "cl");
addTo->Add(new VariableDeclaration(*cl,
new LiteralExpression("this.getClass().getClassLoader()"),
CLASSLOADER_TYPE));
}
}
void
MapType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable** cl)
{
EnsureClassLoader(addTo, cl);
addTo->Add(new Assignment(v, new MethodCall(parcel, "readHashMap", 1, *cl)));
}
void
MapType::ReadFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable** cl)
{
EnsureClassLoader(addTo, cl);
addTo->Add(new MethodCall(parcel, "readMap", 2, v, *cl));
}
// ================================================================
ListType::ListType()
:Type("java.util", "List", BUILT_IN, true, true, true)
{
}
string
ListType::InstantiableName() const
{
return "java.util.ArrayList";
}
void
ListType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeList", 1, v));
}
void
ListType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable** cl)
{
EnsureClassLoader(addTo, cl);
addTo->Add(new Assignment(v, new MethodCall(parcel, "readArrayList", 1, *cl)));
}
void
ListType::ReadFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable** cl)
{
EnsureClassLoader(addTo, cl);
addTo->Add(new MethodCall(parcel, "readList", 2, v, *cl));
}
void
ListType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
addTo->Add(new MethodCall(data, "putList", 2, k, v));
}
void
ListType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v, Variable* data,
Variable** cl)
{
addTo->Add(new Assignment(v, new MethodCall(data, "getList", 1, k)));
}
// ================================================================
UserDataType::UserDataType(const string& package, const string& name,
bool builtIn, bool canWriteToParcel, bool canWriteToRpcData,
const string& declFile, int declLine)
:Type(package, name, builtIn ? BUILT_IN : USERDATA, canWriteToParcel, canWriteToRpcData,
true, declFile, declLine)
{
}
string
UserDataType::CreatorName() const
{
return QualifiedName() + ".CREATOR";
}
string
UserDataType::RpcCreatorName() const
{
return QualifiedName() + ".RPC_CREATOR";
}
void
UserDataType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
// if (v != null) {
// parcel.writeInt(1);
// v.writeToParcel(parcel);
// } else {
// parcel.writeInt(0);
// }
IfStatement* elsepart = new IfStatement();
elsepart->statements->Add(new MethodCall(parcel, "writeInt", 1,
new LiteralExpression("0")));
IfStatement* ifpart = new IfStatement;
ifpart->expression = new Comparison(v, "!=", NULL_VALUE);
ifpart->elseif = elsepart;
ifpart->statements->Add(new MethodCall(parcel, "writeInt", 1,
new LiteralExpression("1")));
ifpart->statements->Add(new MethodCall(v, "writeToParcel", 2,
parcel, BuildWriteToParcelFlags(flags)));
addTo->Add(ifpart);
}
void
UserDataType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
// if (0 != parcel.readInt()) {
// v = CLASS.CREATOR.createFromParcel(parcel)
// } else {
// v = null;
// }
IfStatement* elsepart = new IfStatement();
elsepart->statements->Add(new Assignment(v, NULL_VALUE));
IfStatement* ifpart = new IfStatement();
ifpart->expression = new Comparison(new LiteralExpression("0"), "!=",
new MethodCall(parcel, "readInt"));
ifpart->elseif = elsepart;
ifpart->statements->Add(new Assignment(v,
new MethodCall(v->type, "CREATOR.createFromParcel", 1, parcel)));
addTo->Add(ifpart);
}
void
UserDataType::ReadFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
// TODO: really, we don't need to have this extra check, but we
// don't have two separate marshalling code paths
// if (0 != parcel.readInt()) {
// v.readFromParcel(parcel)
// }
IfStatement* ifpart = new IfStatement();
ifpart->expression = new Comparison(new LiteralExpression("0"), "!=",
new MethodCall(parcel, "readInt"));
ifpart->statements->Add(new MethodCall(v, "readFromParcel", 1, parcel));
addTo->Add(ifpart);
}
bool
UserDataType::CanBeArray() const
{
return true;
}
void
UserDataType::WriteArrayToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
addTo->Add(new MethodCall(parcel, "writeTypedArray", 2, v,
BuildWriteToParcelFlags(flags)));
}
void
UserDataType::CreateArrayFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
string creator = v->type->QualifiedName() + ".CREATOR";
addTo->Add(new Assignment(v, new MethodCall(parcel,
"createTypedArray", 1, new LiteralExpression(creator))));
}
void
UserDataType::ReadArrayFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
string creator = v->type->QualifiedName() + ".CREATOR";
addTo->Add(new MethodCall(parcel, "readTypedArray", 2,
v, new LiteralExpression(creator)));
}
void
UserDataType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
// data.putFlattenable(k, v);
addTo->Add(new MethodCall(data, "putFlattenable", 2, k, v));
}
void
UserDataType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, Variable** cl)
{
// data.getFlattenable(k, CLASS.RPC_CREATOR);
addTo->Add(new Assignment(v, new MethodCall(data, "getFlattenable", 2, k,
new FieldVariable(v->type, "RPC_CREATOR"))));
}
// ================================================================
InterfaceType::InterfaceType(const string& package, const string& name,
bool builtIn, bool oneway,
const string& declFile, int declLine)
:Type(package, name, builtIn ? BUILT_IN : INTERFACE, true, false, false,
declFile, declLine)
,m_oneway(oneway)
{
}
bool
InterfaceType::OneWay() const
{
return m_oneway;
}
void
InterfaceType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
// parcel.writeStrongBinder(v != null ? v.asBinder() : null);
addTo->Add(new MethodCall(parcel, "writeStrongBinder", 1,
new Ternary(
new Comparison(v, "!=", NULL_VALUE),
new MethodCall(v, "asBinder"),
NULL_VALUE)));
}
void
InterfaceType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
// v = Interface.asInterface(parcel.readStrongBinder());
string type = v->type->QualifiedName();
type += ".Stub";
addTo->Add(new Assignment(v,
new MethodCall( NAMES.Find(type), "asInterface", 1,
new MethodCall(parcel, "readStrongBinder"))));
}
// ================================================================
GenericType::GenericType(const string& package, const string& name,
const vector<Type*>& args)
:Type(package, name, BUILT_IN, true, true, true)
{
m_args = args;
m_importName = package + '.' + name;
string gen = "<";
int N = args.size();
for (int i=0; i<N; i++) {
Type* t = args[i];
gen += t->QualifiedName();
if (i != N-1) {
gen += ',';
}
}
gen += '>';
m_genericArguments = gen;
SetQualifiedName(m_importName + gen);
}
const vector<Type*>&
GenericType::GenericArgumentTypes() const
{
return m_args;
}
string
GenericType::GenericArguments() const
{
return m_genericArguments;
}
string
GenericType::ImportType() const
{
return m_importName;
}
void
GenericType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
fprintf(stderr, "implement GenericType::WriteToParcel\n");
}
void
GenericType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
fprintf(stderr, "implement GenericType::CreateFromParcel\n");
}
void
GenericType::ReadFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
fprintf(stderr, "implement GenericType::ReadFromParcel\n");
}
// ================================================================
GenericListType::GenericListType(const string& package, const string& name,
const vector<Type*>& args)
:GenericType(package, name, args),
m_creator(args[0]->CreatorName())
{
}
string
GenericListType::CreatorName() const
{
return "android.os.Parcel.arrayListCreator";
}
string
GenericListType::InstantiableName() const
{
return "java.util.ArrayList" + GenericArguments();
}
void
GenericListType::WriteToParcel(StatementBlock* addTo, Variable* v, Variable* parcel, int flags)
{
if (m_creator == STRING_TYPE->CreatorName()) {
addTo->Add(new MethodCall(parcel, "writeStringList", 1, v));
} else if (m_creator == IBINDER_TYPE->CreatorName()) {
addTo->Add(new MethodCall(parcel, "writeBinderList", 1, v));
} else {
// parcel.writeTypedListXX(arg);
addTo->Add(new MethodCall(parcel, "writeTypedList", 1, v));
}
}
void
GenericListType::CreateFromParcel(StatementBlock* addTo, Variable* v, Variable* parcel, Variable**)
{
if (m_creator == STRING_TYPE->CreatorName()) {
addTo->Add(new Assignment(v,
new MethodCall(parcel, "createStringArrayList", 0)));
} else if (m_creator == IBINDER_TYPE->CreatorName()) {
addTo->Add(new Assignment(v,
new MethodCall(parcel, "createBinderArrayList", 0)));
} else {
// v = _data.readTypedArrayList(XXX.creator);
addTo->Add(new Assignment(v,
new MethodCall(parcel, "createTypedArrayList", 1,
new LiteralExpression(m_creator))));
}
}
void
GenericListType::ReadFromParcel(StatementBlock* addTo, Variable* v,
Variable* parcel, Variable**)
{
if (m_creator == STRING_TYPE->CreatorName()) {
addTo->Add(new MethodCall(parcel, "readStringList", 1, v));
} else if (m_creator == IBINDER_TYPE->CreatorName()) {
addTo->Add(new MethodCall(parcel, "readBinderList", 1, v));
} else {
// v = _data.readTypedList(v, XXX.creator);
addTo->Add(new MethodCall(parcel, "readTypedList", 2,
v,
new LiteralExpression(m_creator)));
}
}
void
GenericListType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
Type* generic = GenericArgumentTypes()[0];
if (generic == RPC_DATA_TYPE) {
addTo->Add(new MethodCall(data, "putRpcDataList", 2, k, v));
} else if (generic->RpcCreatorName() != "") {
addTo->Add(new MethodCall(data, "putFlattenableList", 2, k, v));
} else {
addTo->Add(new MethodCall(data, "putList", 2, k, v));
}
}
void
GenericListType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, Variable** cl)
{
Type* generic = GenericArgumentTypes()[0];
if (generic == RPC_DATA_TYPE) {
addTo->Add(new Assignment(v, new MethodCall(data, "getRpcDataList", 2, k)));
} else if (generic->RpcCreatorName() != "") {
addTo->Add(new Assignment(v, new MethodCall(data, "getFlattenableList", 2, k,
new LiteralExpression(generic->RpcCreatorName()))));
} else {
string classArg = GenericArgumentTypes()[0]->QualifiedName();
classArg += ".class";
addTo->Add(new Assignment(v, new MethodCall(data, "getList", 2, k,
new LiteralExpression(classArg))));
}
}
// ================================================================
RpcDataType::RpcDataType()
:UserDataType("android.support.place.rpc", "RpcData", true, true, true)
{
}
void
RpcDataType::WriteToRpcData(StatementBlock* addTo, Expression* k, Variable* v,
Variable* data, int flags)
{
addTo->Add(new MethodCall(data, "putRpcData", 2, k, v));
}
void
RpcDataType::CreateFromRpcData(StatementBlock* addTo, Expression* k, Variable* v, Variable* data,
Variable** cl)
{
addTo->Add(new Assignment(v, new MethodCall(data, "getRpcData", 1, k)));
}
// ================================================================
ClassLoaderType::ClassLoaderType()
:Type("java.lang", "ClassLoader", BUILT_IN, false, false, false)
{
}
// ================================================================
Namespace::Namespace()
{
}
Namespace::~Namespace()
{
int N = m_types.size();
for (int i=0; i<N; i++) {
delete m_types[i];
}
}
void
Namespace::Add(Type* type)
{
Type* t = Find(type->QualifiedName());
if (t == NULL) {
m_types.push_back(type);
}
}
void
Namespace::AddGenericType(const string& package, const string& name, int args)
{
Generic g;
g.package = package;
g.name = name;
g.qualified = package + '.' + name;
g.args = args;
m_generics.push_back(g);
}
Type*
Namespace::Find(const string& name) const
{
int N = m_types.size();
for (int i=0; i<N; i++) {
if (m_types[i]->QualifiedName() == name) {
return m_types[i];
}
}
return NULL;
}
Type*
Namespace::Find(const char* package, const char* name) const
{
string s;
if (package != NULL) {
s += package;
s += '.';
}
s += name;
return Find(s);
}
static string
normalize_generic(const string& s)
{
string r;
int N = s.size();
for (int i=0; i<N; i++) {
char c = s[i];
if (!isspace(c)) {
r += c;
}
}
return r;
}
Type*
Namespace::Search(const string& name)
{
// an exact match wins
Type* result = Find(name);
if (result != NULL) {
return result;
}
// try the class names
// our language doesn't allow you to not specify outer classes
// when referencing an inner class. that could be changed, and this
// would be the place to do it, but I don't think the complexity in
// scoping rules is worth it.
int N = m_types.size();
for (int i=0; i<N; i++) {
if (m_types[i]->Name() == name) {
return m_types[i];
}
}
// we got to here and it's not a generic, give up
if (name.find('<') == name.npos) {
return NULL;
}
// remove any whitespace
string normalized = normalize_generic(name);
// find the part before the '<', find a generic for it
ssize_t baseIndex = normalized.find('<');
string base(normalized.c_str(), baseIndex);
const Generic* g = search_generic(base);
if (g == NULL) {
return NULL;
}
// For each of the args, do a recursive search on it. We don't allow
// generics within generics like Java does, because we're really limiting
// them to just built-in container classes, at least for now. Our syntax
// ensures this right now as well.
vector<Type*> args;
size_t start = baseIndex + 1;
size_t end = start;
while (normalized[start] != '\0') {
end = normalized.find(',', start);
if (end == normalized.npos) {
end = normalized.find('>', start);
}
string s(normalized.c_str()+start, end-start);
Type* t = this->Search(s);
if (t == NULL) {
// maybe we should print a warning here?
return NULL;
}
args.push_back(t);
start = end+1;
}
// construct a GenericType, add it to our name set so they always get
// the same object, and return it.
result = make_generic_type(g->package, g->name, args);
if (result == NULL) {
return NULL;
}
this->Add(result);
return this->Find(result->QualifiedName());
}
const Namespace::Generic*
Namespace::search_generic(const string& name) const
{
int N = m_generics.size();
// first exact match
for (int i=0; i<N; i++) {
const Generic& g = m_generics[i];
if (g.qualified == name) {
return &g;
}
}
// then name match
for (int i=0; i<N; i++) {
const Generic& g = m_generics[i];
if (g.name == name) {
return &g;
}
}
return NULL;
}
void
Namespace::Dump() const
{
int n = m_types.size();
for (int i=0; i<n; i++) {
Type* t = m_types[i];
printf("type: package=%s name=%s qualifiedName=%s\n",
t->Package().c_str(), t->Name().c_str(),
t->QualifiedName().c_str());
}
}