Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / system / tools / aidl / 89e3586afa180230fa999d4287df90df9d066cef / . / generate_java_rpc.cpp
blob: 5e4daccf6334811c1b9eedacedcb7a8ebd1ad2df [file] [log] [blame]
#include "generate_java.h"
#include "Type.h"
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
Type* SERVICE_CONTEXT_TYPE = new Type("android.content",
"Context", Type::BUILT_IN, false, false, false);
Type* PRESENTER_BASE_TYPE = new Type("android.support.place.connector",
"EventListener", Type::BUILT_IN, false, false, false);
Type* PRESENTER_LISTENER_BASE_TYPE = new Type("android.support.place.connector",
"EventListener.Listener", Type::BUILT_IN, false, false, false);
Type* RPC_BROKER_TYPE = new Type("android.support.place.connector", "Broker",
Type::BUILT_IN, false, false, false);
Type* RPC_CONTAINER_TYPE = new Type("com.android.athome.connector", "ConnectorContainer",
Type::BUILT_IN, false, false, false);
Type* PLACE_INFO_TYPE = new Type("android.support.place.connector", "PlaceInfo",
Type::BUILT_IN, false, false, false);
// TODO: Just use Endpoint, so this works for all endpoints.
Type* RPC_CONNECTOR_TYPE = new Type("android.support.place.connector", "Connector",
Type::BUILT_IN, false, false, false);
Type* RPC_ENDPOINT_INFO_TYPE = new UserDataType("android.support.place.rpc",
"EndpointInfo", true, __FILE__, __LINE__);
Type* RPC_RESULT_HANDLER_TYPE = new UserDataType("android.support.place.rpc", "RpcResultHandler",
true, __FILE__, __LINE__);
Type* RPC_ERROR_LISTENER_TYPE = new Type("android.support.place.rpc", "RpcErrorHandler",
Type::BUILT_IN, false, false, false);
Type* RPC_CONTEXT_TYPE = new UserDataType("android.support.place.rpc", "RpcContext", true,
__FILE__, __LINE__);
static void generate_create_from_data(Type* t, StatementBlock* addTo, const string& key,
Variable* v, Variable* data, Variable** cl);
static void generate_new_array(Type* t, StatementBlock* addTo, Variable* v, Variable* from);
static void generate_write_to_data(Type* t, StatementBlock* addTo, Expression* k, Variable* v,
Variable* data);
static string
format_int(int n)
{
char str[20];
sprintf(str, "%d", n);
return string(str);
}
static string
class_name_leaf(const string& str)
{
string::size_type pos = str.rfind('.');
if (pos == string::npos) {
return str;
} else {
return string(str, pos+1);
}
}
static string
results_class_name(const string& n)
{
string str = n;
str[0] = toupper(str[0]);
str.insert(0, "On");
return str;
}
static string
results_method_name(const string& n)
{
string str = n;
str[0] = toupper(str[0]);
str.insert(0, "on");
return str;
}
static string
push_method_name(const string& n)
{
string str = n;
str[0] = toupper(str[0]);
str.insert(0, "push");
return str;
}
// =================================================
class DispatcherClass : public Class
{
public:
DispatcherClass(const interface_type* iface, Expression* target);
virtual ~DispatcherClass();
void AddMethod(const method_type* method);
void DoneWithMethods();
Method* processMethod;
Variable* actionParam;
Variable* requestParam;
Variable* rpcContextParam;
Variable* errorParam;
Variable* requestData;
Variable* resultData;
IfStatement* dispatchIfStatement;
Expression* targetExpression;
private:
void generate_process();
};
DispatcherClass::DispatcherClass(const interface_type* iface, Expression* target)
:Class(),
dispatchIfStatement(NULL),
targetExpression(target)
{
generate_process();
}
DispatcherClass::~DispatcherClass()
{
}
void
DispatcherClass::generate_process()
{
// byte[] process(String action, byte[] params, RpcContext context, RpcError status)
this->processMethod = new Method;
this->processMethod->modifiers = PUBLIC;
this->processMethod->returnType = BYTE_TYPE;
this->processMethod->returnTypeDimension = 1;
this->processMethod->name = "process";
this->processMethod->statements = new StatementBlock;
this->actionParam = new Variable(STRING_TYPE, "action");
this->processMethod->parameters.push_back(this->actionParam);
this->requestParam = new Variable(BYTE_TYPE, "requestParam", 1);
this->processMethod->parameters.push_back(this->requestParam);
this->rpcContextParam = new Variable(RPC_CONTEXT_TYPE, "context", 0);
this->processMethod->parameters.push_back(this->rpcContextParam);
this->errorParam = new Variable(RPC_ERROR_TYPE, "errorParam", 0);
this->processMethod->parameters.push_back(this->errorParam);
this->requestData = new Variable(RPC_DATA_TYPE, "request");
this->processMethod->statements->Add(new VariableDeclaration(requestData,
new NewExpression(RPC_DATA_TYPE, 1, this->requestParam)));
this->resultData = new Variable(RPC_DATA_TYPE, "resultData");
this->processMethod->statements->Add(new VariableDeclaration(this->resultData,
NULL_VALUE));
}
void
DispatcherClass::AddMethod(const method_type* method)
{
arg_type* arg;
// The if/switch statement
IfStatement* ifs = new IfStatement();
ifs->expression = new MethodCall(new StringLiteralExpression(method->name.data), "equals",
1, this->actionParam);
StatementBlock* block = ifs->statements = new StatementBlock;
if (this->dispatchIfStatement == NULL) {
this->dispatchIfStatement = ifs;
this->processMethod->statements->Add(dispatchIfStatement);
} else {
this->dispatchIfStatement->elseif = ifs;
this->dispatchIfStatement = ifs;
}
// The call to decl (from above)
MethodCall* realCall = new MethodCall(this->targetExpression, method->name.data);
// args
Variable* classLoader = NULL;
VariableFactory stubArgs("_arg");
arg = method->args;
while (arg != NULL) {
Type* t = NAMES.Search(arg->type.type.data);
Variable* v = stubArgs.Get(t);
v->dimension = arg->type.dimension;
// Unmarshall the parameter
block->Add(new VariableDeclaration(v));
if (convert_direction(arg->direction.data) & IN_PARAMETER) {
generate_create_from_data(t, block, arg->name.data, v,
this->requestData, &classLoader);
} else {
if (arg->type.dimension == 0) {
block->Add(new Assignment(v, new NewExpression(v->type)));
}
else if (arg->type.dimension == 1) {
generate_new_array(v->type, block, v, this->requestData);
}
else {
fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__,
__LINE__);
}
}
// Add that parameter to the method call
realCall->arguments.push_back(v);
arg = arg->next;
}
// Add a final parameter: RpcContext. Contains data about
// incoming request (e.g., certificate)
realCall->arguments.push_back(new Variable(RPC_CONTEXT_TYPE, "context", 0));
Type* returnType = NAMES.Search(method->type.type.data);
if (returnType == EVENT_FAKE_TYPE) {
returnType = VOID_TYPE;
}
// the real call
bool first = true;
Variable* _result = NULL;
if (returnType == VOID_TYPE) {
block->Add(realCall);
} else {
_result = new Variable(returnType, "_result",
method->type.dimension);
block->Add(new VariableDeclaration(_result, realCall));
// need the result RpcData
if (first) {
block->Add(new Assignment(this->resultData,
new NewExpression(RPC_DATA_TYPE)));
first = false;
}
// marshall the return value
generate_write_to_data(returnType, block,
new StringLiteralExpression("_result"), _result, this->resultData);
}
// out parameters
int i = 0;
arg = method->args;
while (arg != NULL) {
Type* t = NAMES.Search(arg->type.type.data);
Variable* v = stubArgs.Get(i++);
if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
// need the result RpcData
if (first) {
block->Add(new Assignment(this->resultData, new NewExpression(RPC_DATA_TYPE)));
first = false;
}
generate_write_to_data(t, block, new StringLiteralExpression(arg->name.data),
v, this->resultData);
}
arg = arg->next;
}
}
void
DispatcherClass::DoneWithMethods()
{
if (this->dispatchIfStatement == NULL) {
return;
}
this->elements.push_back(this->processMethod);
IfStatement* fallthrough = new IfStatement();
fallthrough->statements = new StatementBlock;
fallthrough->statements->Add(new ReturnStatement(
new MethodCall(SUPER_VALUE, "process", 4,
this->actionParam, this->requestParam,
this->rpcContextParam,
this->errorParam)));
this->dispatchIfStatement->elseif = fallthrough;
IfStatement* s = new IfStatement;
s->statements = new StatementBlock;
this->processMethod->statements->Add(s);
s->expression = new Comparison(this->resultData, "!=", NULL_VALUE);
s->statements->Add(new ReturnStatement(new MethodCall(this->resultData, "serialize")));
s->elseif = new IfStatement;
s = s->elseif;
s->statements->Add(new ReturnStatement(NULL_VALUE));
}
// =================================================
class RpcProxyClass : public Class
{
public:
RpcProxyClass(const interface_type* iface, InterfaceType* interfaceType);
virtual ~RpcProxyClass();
Variable* endpoint;
Variable* broker;
private:
void generate_ctor();
void generate_get_endpoint_info();
};
RpcProxyClass::RpcProxyClass(const interface_type* iface, InterfaceType* interfaceType)
:Class()
{
this->comment = gather_comments(iface->comments_token->extra);
this->modifiers = PUBLIC;
this->what = Class::CLASS;
this->type = interfaceType;
// broker
this->broker = new Variable(RPC_BROKER_TYPE, "_broker");
this->elements.push_back(new Field(PRIVATE, this->broker));
// endpoint
this->endpoint = new Variable(RPC_ENDPOINT_INFO_TYPE, "_endpoint");
this->elements.push_back(new Field(PRIVATE, this->endpoint));
// methods
generate_ctor();
generate_get_endpoint_info();
}
RpcProxyClass::~RpcProxyClass()
{
}
void
RpcProxyClass::generate_ctor()
{
Variable* broker = new Variable(RPC_BROKER_TYPE, "broker");
Variable* endpoint = new Variable(RPC_ENDPOINT_INFO_TYPE, "endpoint");
Method* ctor = new Method;
ctor->modifiers = PUBLIC;
ctor->name = class_name_leaf(this->type->Name());
ctor->statements = new StatementBlock;
ctor->parameters.push_back(broker);
ctor->parameters.push_back(endpoint);
this->elements.push_back(ctor);
ctor->statements->Add(new Assignment(this->broker, broker));
ctor->statements->Add(new Assignment(this->endpoint, endpoint));
}
void
RpcProxyClass::generate_get_endpoint_info()
{
Method* get = new Method;
get->modifiers = PUBLIC;
get->returnType = RPC_ENDPOINT_INFO_TYPE;
get->name = "getEndpointInfo";
get->statements = new StatementBlock;
this->elements.push_back(get);
get->statements->Add(new ReturnStatement(this->endpoint));
}
// =================================================
class EventListenerClass : public DispatcherClass
{
public:
EventListenerClass(const interface_type* iface, Type* listenerType);
virtual ~EventListenerClass();
Variable* _listener;
private:
void generate_ctor();
};
Expression*
generate_get_listener_expression(Type* cast)
{
return new Cast(cast, new MethodCall(THIS_VALUE, "getView"));
}
EventListenerClass::EventListenerClass(const interface_type* iface, Type* listenerType)
:DispatcherClass(iface, new FieldVariable(THIS_VALUE, "_listener"))
{
this->modifiers = PRIVATE;
this->what = Class::CLASS;
this->type = new Type(iface->package ? iface->package : "",
append(iface->name.data, ".Presenter"),
Type::GENERATED, false, false, false);
this->extends = PRESENTER_BASE_TYPE;
this->_listener = new Variable(listenerType, "_listener");
this->elements.push_back(new Field(PRIVATE, this->_listener));
// methods
generate_ctor();
}
EventListenerClass::~EventListenerClass()
{
}
void
EventListenerClass::generate_ctor()
{
Variable* broker = new Variable(RPC_BROKER_TYPE, "broker");
Variable* listener = new Variable(this->_listener->type, "listener");
Method* ctor = new Method;
ctor->modifiers = PUBLIC;
ctor->name = class_name_leaf(this->type->Name());
ctor->statements = new StatementBlock;
ctor->parameters.push_back(broker);
ctor->parameters.push_back(listener);
this->elements.push_back(ctor);
ctor->statements->Add(new MethodCall("super", 2, broker, listener));
ctor->statements->Add(new Assignment(this->_listener, listener));
}
// =================================================
class ListenerClass : public Class
{
public:
ListenerClass(const interface_type* iface);
virtual ~ListenerClass();
bool needed;
private:
void generate_ctor();
};
ListenerClass::ListenerClass(const interface_type* iface)
:Class(),
needed(false)
{
this->comment = "/** Extend this to listen to the events from this class. */";
this->modifiers = STATIC | PUBLIC ;
this->what = Class::CLASS;
this->type = new Type(iface->package ? iface->package : "",
append(iface->name.data, ".Listener"),
Type::GENERATED, false, false, false);
this->extends = PRESENTER_LISTENER_BASE_TYPE;
}
ListenerClass::~ListenerClass()
{
}
// =================================================
class EndpointBaseClass : public DispatcherClass
{
public:
EndpointBaseClass(const interface_type* iface);
virtual ~EndpointBaseClass();
bool needed;
private:
void generate_ctor();
};
EndpointBaseClass::EndpointBaseClass(const interface_type* iface)
:DispatcherClass(iface, THIS_VALUE),
needed(false)
{
this->comment = "/** Extend this to implement a link service. */";
this->modifiers = STATIC | PUBLIC | ABSTRACT;
this->what = Class::CLASS;
this->type = new Type(iface->package ? iface->package : "",
append(iface->name.data, ".EndpointBase"),
Type::GENERATED, false, false, false);
this->extends = RPC_CONNECTOR_TYPE;
// methods
generate_ctor();
}
EndpointBaseClass::~EndpointBaseClass()
{
}
void
EndpointBaseClass::generate_ctor()
{
Variable* container = new Variable(RPC_CONTAINER_TYPE, "container");
Variable* broker = new Variable(RPC_BROKER_TYPE, "broker");
Variable* place = new Variable(PLACE_INFO_TYPE, "placeInfo");
Method* ctor = new Method;
ctor->modifiers = PUBLIC;
ctor->name = class_name_leaf(this->type->Name());
ctor->statements = new StatementBlock;
ctor->parameters.push_back(container);
ctor->parameters.push_back(broker);
ctor->parameters.push_back(place);
this->elements.push_back(ctor);
ctor->statements->Add(new MethodCall("super", 3, container, broker, place));
}
// =================================================
class ResultDispatcherClass : public Class
{
public:
ResultDispatcherClass();
virtual ~ResultDispatcherClass();
void AddMethod(int index, const string& name, Method** method, Variable** param);
bool needed;
Variable* methodId;
Variable* callback;
Method* onResultMethod;
Variable* resultParam;
SwitchStatement* methodSwitch;
private:
void generate_ctor();
void generate_onResult();
};
ResultDispatcherClass::ResultDispatcherClass()
:Class(),
needed(false)
{
this->modifiers = PRIVATE | FINAL;
this->what = Class::CLASS;
this->type = new Type("_ResultDispatcher", Type::GENERATED, false, false, false);
this->interfaces.push_back(RPC_RESULT_HANDLER_TYPE);
// methodId
this->methodId = new Variable(INT_TYPE, "methodId");
this->elements.push_back(new Field(PRIVATE, this->methodId));
this->callback = new Variable(OBJECT_TYPE, "callback");
this->elements.push_back(new Field(PRIVATE, this->callback));
// methods
generate_ctor();
generate_onResult();
}
ResultDispatcherClass::~ResultDispatcherClass()
{
}
void
ResultDispatcherClass::generate_ctor()
{
Variable* methodIdParam = new Variable(INT_TYPE, "methId");
Variable* callbackParam = new Variable(OBJECT_TYPE, "cbObj");
Method* ctor = new Method;
ctor->modifiers = PUBLIC;
ctor->name = class_name_leaf(this->type->Name());
ctor->statements = new StatementBlock;
ctor->parameters.push_back(methodIdParam);
ctor->parameters.push_back(callbackParam);
this->elements.push_back(ctor);
ctor->statements->Add(new Assignment(this->methodId, methodIdParam));
ctor->statements->Add(new Assignment(this->callback, callbackParam));
}
void
ResultDispatcherClass::generate_onResult()
{
this->onResultMethod = new Method;
this->onResultMethod->modifiers = PUBLIC;
this->onResultMethod->returnType = VOID_TYPE;
this->onResultMethod->returnTypeDimension = 0;
this->onResultMethod->name = "onResult";
this->onResultMethod->statements = new StatementBlock;
this->elements.push_back(this->onResultMethod);
this->resultParam = new Variable(BYTE_TYPE, "result", 1);
this->onResultMethod->parameters.push_back(this->resultParam);
this->methodSwitch = new SwitchStatement(this->methodId);
this->onResultMethod->statements->Add(this->methodSwitch);
}
void
ResultDispatcherClass::AddMethod(int index, const string& name, Method** method, Variable** param)
{
Method* m = new Method;
m->modifiers = PUBLIC;
m->returnType = VOID_TYPE;
m->returnTypeDimension = 0;
m->name = name;
m->statements = new StatementBlock;
*param = new Variable(BYTE_TYPE, "result", 1);
m->parameters.push_back(*param);
this->elements.push_back(m);
*method = m;
Case* c = new Case(format_int(index));
c->statements->Add(new MethodCall(new LiteralExpression("this"), name, 1, this->resultParam));
c->statements->Add(new Break());
this->methodSwitch->cases.push_back(c);
}
// =================================================
static void
generate_new_array(Type* t, StatementBlock* addTo, Variable* v, Variable* from)
{
fprintf(stderr, "aidl: implement generate_new_array %s:%d\n", __FILE__, __LINE__);
exit(1);
}
static void
generate_create_from_data(Type* t, StatementBlock* addTo, const string& key, Variable* v,
Variable* data, Variable** cl)
{
Expression* k = new StringLiteralExpression(key);
if (v->dimension == 0) {
t->CreateFromRpcData(addTo, k, v, data, cl);
}
if (v->dimension == 1) {
//t->ReadArrayFromRpcData(addTo, v, data, cl);
fprintf(stderr, "aidl: implement generate_create_from_data for arrays%s:%d\n",
__FILE__, __LINE__);
}
}
static void
generate_write_to_data(Type* t, StatementBlock* addTo, Expression* k, Variable* v, Variable* data)
{
if (v->dimension == 0) {
t->WriteToRpcData(addTo, k, v, data, 0);
}
if (v->dimension == 1) {
//t->WriteArrayToParcel(addTo, v, data);
fprintf(stderr, "aidl: implement generate_write_to_data for arrays%s:%d\n",
__FILE__, __LINE__);
}
}
// =================================================
static Type*
generate_results_method(const method_type* method, RpcProxyClass* proxyClass)
{
arg_type* arg;
string resultsMethodName = results_method_name(method->name.data);
Type* resultsInterfaceType = new Type(results_class_name(method->name.data),
Type::GENERATED, false, false, false);
if (!method->oneway) {
Class* resultsClass = new Class;
resultsClass->modifiers = STATIC | PUBLIC;
resultsClass->what = Class::INTERFACE;
resultsClass->type = resultsInterfaceType;
Method* resultMethod = new Method;
resultMethod->comment = gather_comments(method->comments_token->extra);
resultMethod->modifiers = PUBLIC;
resultMethod->returnType = VOID_TYPE;
resultMethod->returnTypeDimension = 0;
resultMethod->name = resultsMethodName;
if (0 != strcmp("void", method->type.type.data)) {
resultMethod->parameters.push_back(new Variable(NAMES.Search(method->type.type.data),
"_result", method->type.dimension));
}
arg = method->args;
while (arg != NULL) {
if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
resultMethod->parameters.push_back(new Variable(
NAMES.Search(arg->type.type.data), arg->name.data,
arg->type.dimension));
}
arg = arg->next;
}
resultsClass->elements.push_back(resultMethod);
if (resultMethod->parameters.size() > 0) {
proxyClass->elements.push_back(resultsClass);
return resultsInterfaceType;
}
}
//delete resultsInterfaceType;
return NULL;
}
static void
generate_proxy_method(const method_type* method, RpcProxyClass* proxyClass,
ResultDispatcherClass* resultsDispatcherClass, Type* resultsInterfaceType, int index)
{
arg_type* arg;
Method* proxyMethod = new Method;
proxyMethod->comment = gather_comments(method->comments_token->extra);
proxyMethod->modifiers = PUBLIC;
proxyMethod->returnType = VOID_TYPE;
proxyMethod->returnTypeDimension = 0;
proxyMethod->name = method->name.data;
proxyMethod->statements = new StatementBlock;
proxyClass->elements.push_back(proxyMethod);
// The local variables
Variable* _data = new Variable(RPC_DATA_TYPE, "_data");
proxyMethod->statements->Add(new VariableDeclaration(_data, new NewExpression(RPC_DATA_TYPE)));
// Add the arguments
arg = method->args;
while (arg != NULL) {
if (convert_direction(arg->direction.data) & IN_PARAMETER) {
// Function signature
Type* t = NAMES.Search(arg->type.type.data);
Variable* v = new Variable(t, arg->name.data, arg->type.dimension);
proxyMethod->parameters.push_back(v);
// Input parameter marshalling
generate_write_to_data(t, proxyMethod->statements,
new StringLiteralExpression(arg->name.data), v, _data);
}
arg = arg->next;
}
// If there is a results interface for this class
Expression* resultParameter;
if (resultsInterfaceType != NULL) {
// Result interface parameter
Variable* resultListener = new Variable(resultsInterfaceType, "_result");
proxyMethod->parameters.push_back(resultListener);
// Add the results dispatcher callback
resultsDispatcherClass->needed = true;
resultParameter = new NewExpression(resultsDispatcherClass->type, 2,
new LiteralExpression(format_int(index)), resultListener);
} else {
resultParameter = NULL_VALUE;
}
// All proxy methods take an error parameter
Variable* errorListener = new Variable(RPC_ERROR_LISTENER_TYPE, "_errors");
proxyMethod->parameters.push_back(errorListener);
// Call the broker
proxyMethod->statements->Add(new MethodCall(new FieldVariable(THIS_VALUE, "_broker"),
"sendRpc", 5,
proxyClass->endpoint,
new StringLiteralExpression(method->name.data),
new MethodCall(_data, "serialize"),
resultParameter,
errorListener));
}
static void
generate_result_dispatcher_method(const method_type* method,
ResultDispatcherClass* resultsDispatcherClass, Type* resultsInterfaceType, int index)
{
arg_type* arg;
Method* dispatchMethod;
Variable* dispatchParam;
resultsDispatcherClass->AddMethod(index, method->name.data, &dispatchMethod, &dispatchParam);
Variable* classLoader = NULL;
Variable* resultData = new Variable(RPC_DATA_TYPE, "resultData");
dispatchMethod->statements->Add(new VariableDeclaration(resultData,
new NewExpression(RPC_DATA_TYPE, 1, dispatchParam)));
// The callback method itself
MethodCall* realCall = new MethodCall(
new Cast(resultsInterfaceType, new FieldVariable(THIS_VALUE, "callback")),
results_method_name(method->name.data));
// The return value
{
Type* t = NAMES.Search(method->type.type.data);
if (t != VOID_TYPE) {
Variable* rv = new Variable(t, "rv");
dispatchMethod->statements->Add(new VariableDeclaration(rv));
generate_create_from_data(t, dispatchMethod->statements, "_result", rv,
resultData, &classLoader);
realCall->arguments.push_back(rv);
}
}
VariableFactory stubArgs("arg");
arg = method->args;
while (arg != NULL) {
if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
// Unmarshall the results
Type* t = NAMES.Search(arg->type.type.data);
Variable* v = stubArgs.Get(t);
dispatchMethod->statements->Add(new VariableDeclaration(v));
generate_create_from_data(t, dispatchMethod->statements, arg->name.data, v,
resultData, &classLoader);
// Add the argument to the callback
realCall->arguments.push_back(v);
}
arg = arg->next;
}
// Call the callback method
IfStatement* ifst = new IfStatement;
ifst->expression = new Comparison(new FieldVariable(THIS_VALUE, "callback"), "!=", NULL_VALUE);
dispatchMethod->statements->Add(ifst);
ifst->statements->Add(realCall);
}
static void
generate_regular_method(const method_type* method, RpcProxyClass* proxyClass,
EndpointBaseClass* serviceBaseClass, ResultDispatcherClass* resultsDispatcherClass,
int index)
{
arg_type* arg;
// == the callback interface for results ================================
// the service base class
Type* resultsInterfaceType = generate_results_method(method, proxyClass);
// == the method in the proxy class =====================================
generate_proxy_method(method, proxyClass, resultsDispatcherClass, resultsInterfaceType, index);
// == the method in the result dispatcher class =========================
if (resultsInterfaceType != NULL) {
generate_result_dispatcher_method(method, resultsDispatcherClass, resultsInterfaceType,
index);
}
// == The abstract method that the service developers implement ==========
Method* decl = new Method;
decl->comment = gather_comments(method->comments_token->extra);
decl->modifiers = PUBLIC | ABSTRACT;
decl->returnType = NAMES.Search(method->type.type.data);
decl->returnTypeDimension = method->type.dimension;
decl->name = method->name.data;
arg = method->args;
while (arg != NULL) {
decl->parameters.push_back(new Variable(
NAMES.Search(arg->type.type.data), arg->name.data,
arg->type.dimension));
arg = arg->next;
}
// Add the default RpcContext param to all methods
decl->parameters.push_back(new Variable(RPC_CONTEXT_TYPE, "context", 0));
serviceBaseClass->elements.push_back(decl);
// == the dispatch method in the service base class ======================
serviceBaseClass->AddMethod(method);
}
static void
generate_event_method(const method_type* method, RpcProxyClass* proxyClass,
EndpointBaseClass* serviceBaseClass, ListenerClass* listenerClass,
EventListenerClass* presenterClass, int index)
{
arg_type* arg;
listenerClass->needed = true;
// == the push method in the service base class =========================
Method* push = new Method;
push->modifiers = PUBLIC;
push->name = push_method_name(method->name.data);
push->statements = new StatementBlock;
push->returnType = VOID_TYPE;
serviceBaseClass->elements.push_back(push);
// The local variables
Variable* _data = new Variable(RPC_DATA_TYPE, "_data");
push->statements->Add(new VariableDeclaration(_data, new NewExpression(RPC_DATA_TYPE)));
// Add the arguments
arg = method->args;
while (arg != NULL) {
// Function signature
Type* t = NAMES.Search(arg->type.type.data);
Variable* v = new Variable(t, arg->name.data, arg->type.dimension);
push->parameters.push_back(v);
// Input parameter marshalling
generate_write_to_data(t, push->statements,
new StringLiteralExpression(arg->name.data), v, _data);
arg = arg->next;
}
// Send the notifications
push->statements->Add(new MethodCall("pushEvent", 2,
new StringLiteralExpression(method->name.data),
new MethodCall(_data, "serialize")));
// == the event callback dispatcher method ====================================
presenterClass->AddMethod(method);
// == the event method in the listener base class =====================
Method* event = new Method;
event->modifiers = PUBLIC;
event->name = method->name.data;
event->statements = new StatementBlock;
event->returnType = VOID_TYPE;
listenerClass->elements.push_back(event);
arg = method->args;
while (arg != NULL) {
event->parameters.push_back(new Variable(
NAMES.Search(arg->type.type.data), arg->name.data,
arg->type.dimension));
arg = arg->next;
}
// Add a final parameter: RpcContext. Contains data about
// incoming request (e.g., certificate)
event->parameters.push_back(new Variable(RPC_CONTEXT_TYPE, "context", 0));
}
static void
generate_listener_methods(RpcProxyClass* proxyClass, Type* presenterType, Type* listenerType)
{
// AndroidAtHomePresenter _presenter;
// void startListening(Listener listener) {
// stopListening();
// _presenter = new Presenter(_broker, listener);
// _presenter.startListening(_endpoint);
// }
// void stopListening() {
// if (_presenter != null) {
// _presenter.stopListening();
// }
// }
Variable* _presenter = new Variable(presenterType, "_presenter");
proxyClass->elements.push_back(new Field(PRIVATE, _presenter));
Variable* listener = new Variable(listenerType, "listener");
Method* startListeningMethod = new Method;
startListeningMethod->modifiers = PUBLIC;
startListeningMethod->returnType = VOID_TYPE;
startListeningMethod->name = "startListening";
startListeningMethod->statements = new StatementBlock;
startListeningMethod->parameters.push_back(listener);
proxyClass->elements.push_back(startListeningMethod);
startListeningMethod->statements->Add(new MethodCall(THIS_VALUE, "stopListening"));
startListeningMethod->statements->Add(new Assignment(_presenter,
new NewExpression(presenterType, 2, proxyClass->broker, listener)));
startListeningMethod->statements->Add(new MethodCall(_presenter,
"startListening", 1, proxyClass->endpoint));
Method* stopListeningMethod = new Method;
stopListeningMethod->modifiers = PUBLIC;
stopListeningMethod->returnType = VOID_TYPE;
stopListeningMethod->name = "stopListening";
stopListeningMethod->statements = new StatementBlock;
proxyClass->elements.push_back(stopListeningMethod);
IfStatement* ifst = new IfStatement;
ifst->expression = new Comparison(_presenter, "!=", NULL_VALUE);
stopListeningMethod->statements->Add(ifst);
ifst->statements->Add(new MethodCall(_presenter, "stopListening"));
ifst->statements->Add(new Assignment(_presenter, NULL_VALUE));
}
Class*
generate_rpc_interface_class(const interface_type* iface)
{
// the proxy class
InterfaceType* interfaceType = static_cast<InterfaceType*>(
NAMES.Find(iface->package, iface->name.data));
RpcProxyClass* proxy = new RpcProxyClass(iface, interfaceType);
// the listener class
ListenerClass* listener = new ListenerClass(iface);
// the presenter class
EventListenerClass* presenter = new EventListenerClass(iface, listener->type);
// the service base class
EndpointBaseClass* base = new EndpointBaseClass(iface);
proxy->elements.push_back(base);
// the result dispatcher
ResultDispatcherClass* results = new ResultDispatcherClass();
// all the declared methods of the proxy
int index = 0;
interface_item_type* item = iface->interface_items;
while (item != NULL) {
if (item->item_type == METHOD_TYPE) {
if (NAMES.Search(((method_type*)item)->type.type.data) == EVENT_FAKE_TYPE) {
generate_event_method((method_type*)item, proxy, base, listener, presenter, index);
} else {
generate_regular_method((method_type*)item, proxy, base, results, index);
}
}
item = item->next;
index++;
}
presenter->DoneWithMethods();
base->DoneWithMethods();
// only add this if there are methods with results / out parameters
if (results->needed) {
proxy->elements.push_back(results);
}
if (listener->needed) {
proxy->elements.push_back(listener);
proxy->elements.push_back(presenter);
generate_listener_methods(proxy, presenter->type, listener->type);
}
return proxy;
}