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android / platform / external / flatbuffers / 24a2547fa55ca4aeb243021ba8ce72099b9b4c6b / . / grpc / src / compiler / java_generator.cc
blob: 661c9ee686ff88c6f56d59193d73e59d7471bcc0 [file] [log] [blame]
/*
* Copyright 2016 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.
*/
#include "java_generator.h"
#include <algorithm>
#include <iostream>
#include <iterator>
#include <map>
#include <utility>
#include <vector>
// just to get flatbuffer_version_string()
#include <flatbuffers/flatbuffers.h>
#include <flatbuffers/util.h>
#define to_string flatbuffers::NumToString
// Stringify helpers used solely to cast GRPC_VERSION
#ifndef STR
#define STR(s) #s
#endif
#ifndef XSTR
#define XSTR(s) STR(s)
#endif
typedef grpc_generator::Printer Printer;
typedef std::map<grpc::string, grpc::string> VARS;
typedef grpc_generator::Service ServiceDescriptor;
typedef grpc_generator::CommentHolder
DescriptorType; // base class of all 'descriptors'
typedef grpc_generator::Method MethodDescriptor;
namespace grpc_java_generator {
typedef std::string string;
// Generates imports for the service
void GenerateImports(grpc_generator::File* file,
grpc_generator::Printer* printer, VARS& vars) {
vars["filename"] = file->filename();
printer->Print(
vars,
"//Generated by flatc compiler (version $flatc_version$)\n");
printer->Print("//If you make any local changes, they will be lost\n");
printer->Print(vars, "//source: $filename$.fbs\n\n");
printer->Print(vars, "package $Package$;\n\n");
vars["Package"] = vars["Package"] + ".";
if (!file->additional_headers().empty()) {
printer->Print(file->additional_headers().c_str());
printer->Print("\n\n");
}
}
// Adjust a method name prefix identifier to follow the JavaBean spec:
// - decapitalize the first letter
// - remove embedded underscores & capitalize the following letter
static string MixedLower(const string& word) {
string w;
w += static_cast<string::value_type>(tolower(word[0]));
bool after_underscore = false;
for (size_t i = 1; i < word.length(); ++i) {
if (word[i] == '_') {
after_underscore = true;
} else {
w += after_underscore ? static_cast<string::value_type>(toupper(word[i]))
: word[i];
after_underscore = false;
}
}
return w;
}
// Converts to the identifier to the ALL_UPPER_CASE format.
// - An underscore is inserted where a lower case letter is followed by an
// upper case letter.
// - All letters are converted to upper case
static string ToAllUpperCase(const string& word) {
string w;
for (size_t i = 0; i < word.length(); ++i) {
w += static_cast<string::value_type>(toupper(word[i]));
if ((i < word.length() - 1) && islower(word[i]) && isupper(word[i + 1])) {
w += '_';
}
}
return w;
}
static inline string LowerMethodName(const MethodDescriptor* method) {
return MixedLower(method->name());
}
static inline string MethodPropertiesFieldName(const MethodDescriptor* method) {
return "METHOD_" + ToAllUpperCase(method->name());
}
static inline string MethodPropertiesGetterName(
const MethodDescriptor* method) {
return MixedLower("get_" + method->name() + "_method");
}
static inline string MethodIdFieldName(const MethodDescriptor* method) {
return "METHODID_" + ToAllUpperCase(method->name());
}
static inline string JavaClassName(VARS& vars, const string& name) {
// string name = google::protobuf::compiler::java::ClassName(desc);
return vars["Package"] + name;
}
static inline string ServiceClassName(const string& service_name) {
return service_name + "Grpc";
}
// TODO(nmittler): Remove once protobuf includes javadoc methods in
// distribution.
template <typename ITR>
static void GrpcSplitStringToIteratorUsing(const string& full,
const char* delim, ITR& result) {
// Optimize the common case where delim is a single character.
if (delim[0] != '\0' && delim[1] == '\0') {
char c = delim[0];
const char* p = full.data();
const char* end = p + full.size();
while (p != end) {
if (*p == c) {
++p;
} else {
const char* start = p;
while (++p != end && *p != c)
;
*result++ = string(start, p - start);
}
}
return;
}
string::size_type begin_index, end_index;
begin_index = full.find_first_not_of(delim);
while (begin_index != string::npos) {
end_index = full.find_first_of(delim, begin_index);
if (end_index == string::npos) {
*result++ = full.substr(begin_index);
return;
}
*result++ = full.substr(begin_index, (end_index - begin_index));
begin_index = full.find_first_not_of(delim, end_index);
}
}
static void GrpcSplitStringUsing(const string& full, const char* delim,
std::vector<string>* result) {
std::back_insert_iterator<std::vector<string>> it(*result);
GrpcSplitStringToIteratorUsing(full, delim, it);
}
static std::vector<string> GrpcSplit(const string& full, const char* delim) {
std::vector<string> result;
GrpcSplitStringUsing(full, delim, &result);
return result;
}
// TODO(nmittler): Remove once protobuf includes javadoc methods in
// distribution.
static string GrpcEscapeJavadoc(const string& input) {
string result;
result.reserve(input.size() * 2);
char prev = '*';
for (string::size_type i = 0; i < input.size(); i++) {
char c = input[i];
switch (c) {
case '*':
// Avoid "/*".
if (prev == '/') {
result.append("&#42;");
} else {
result.push_back(c);
}
break;
case '/':
// Avoid "*/".
if (prev == '*') {
result.append("&#47;");
} else {
result.push_back(c);
}
break;
case '@':
// '@' starts javadoc tags including the @deprecated tag, which will
// cause a compile-time error if inserted before a declaration that
// does not have a corresponding @Deprecated annotation.
result.append("&#64;");
break;
case '<':
// Avoid interpretation as HTML.
result.append("&lt;");
break;
case '>':
// Avoid interpretation as HTML.
result.append("&gt;");
break;
case '&':
// Avoid interpretation as HTML.
result.append("&amp;");
break;
case '\\':
// Java interprets Unicode escape sequences anywhere!
result.append("&#92;");
break;
default:
result.push_back(c);
break;
}
prev = c;
}
return result;
}
static std::vector<string> GrpcGetDocLines(const string& comments) {
if (!comments.empty()) {
// TODO(kenton): Ideally we should parse the comment text as Markdown and
// write it back as HTML, but this requires a Markdown parser. For now
// we just use <pre> to get fixed-width text formatting.
// If the comment itself contains block comment start or end markers,
// HTML-escape them so that they don't accidentally close the doc comment.
string escapedComments = GrpcEscapeJavadoc(comments);
std::vector<string> lines = GrpcSplit(escapedComments, "\n");
while (!lines.empty() && lines.back().empty()) {
lines.pop_back();
}
return lines;
}
return std::vector<string>();
}
static std::vector<string> GrpcGetDocLinesForDescriptor(
const DescriptorType* descriptor) {
return descriptor->GetAllComments();
// return GrpcGetDocLines(descriptor->GetLeadingComments("///"));
}
static void GrpcWriteDocCommentBody(Printer* printer, VARS& vars,
const std::vector<string>& lines,
bool surroundWithPreTag) {
if (!lines.empty()) {
if (surroundWithPreTag) {
printer->Print(" * <pre>\n");
}
for (size_t i = 0; i < lines.size(); i++) {
// Most lines should start with a space. Watch out for lines that start
// with a /, since putting that right after the leading asterisk will
// close the comment.
vars["line"] = lines[i];
if (!lines[i].empty() && lines[i][0] == '/') {
printer->Print(vars, " * $line$\n");
} else {
printer->Print(vars, " *$line$\n");
}
}
if (surroundWithPreTag) {
printer->Print(" * </pre>\n");
}
}
}
static void GrpcWriteDocComment(Printer* printer, VARS& vars,
const string& comments) {
printer->Print("/**\n");
std::vector<string> lines = GrpcGetDocLines(comments);
GrpcWriteDocCommentBody(printer, vars, lines, false);
printer->Print(" */\n");
}
static void GrpcWriteServiceDocComment(Printer* printer, VARS& vars,
const ServiceDescriptor* service) {
printer->Print("/**\n");
std::vector<string> lines = GrpcGetDocLinesForDescriptor(service);
GrpcWriteDocCommentBody(printer, vars, lines, true);
printer->Print(" */\n");
}
void GrpcWriteMethodDocComment(Printer* printer, VARS& vars,
const MethodDescriptor* method) {
printer->Print("/**\n");
std::vector<string> lines = GrpcGetDocLinesForDescriptor(method);
GrpcWriteDocCommentBody(printer, vars, lines, true);
printer->Print(" */\n");
}
//outputs static singleton extractor for type stored in "extr_type" and "extr_type_name" vars
static void PrintTypeExtractor(Printer* p, VARS& vars) {
p->Print(
vars,
"private static volatile FlatbuffersUtils.FBExtactor<$extr_type$> "
"extractorOf$extr_type_name$;\n"
"private static FlatbuffersUtils.FBExtactor<$extr_type$> "
"getExtractorOf$extr_type_name$() {\n"
" if (extractorOf$extr_type_name$ != null) return "
"extractorOf$extr_type_name$;\n"
" synchronized ($service_class_name$.class) {\n"
" if (extractorOf$extr_type_name$ != null) return "
"extractorOf$extr_type_name$;\n"
" extractorOf$extr_type_name$ = new "
"FlatbuffersUtils.FBExtactor<$extr_type$>() {\n"
" public $extr_type$ extract (ByteBuffer buffer) {\n"
" return "
"$extr_type$.getRootAs$extr_type_name$(buffer);\n"
" }\n"
" };\n"
" return extractorOf$extr_type_name$;\n"
" }\n"
"}\n\n");
}
static void PrintMethodFields(Printer* p, VARS& vars,
const ServiceDescriptor* service) {
p->Print("// Static method descriptors that strictly reflect the proto.\n");
vars["service_name"] = service->name();
//set of names of rpc input- and output- types that were already encountered.
//this is needed to avoid duplicating type extractor since it's possible that
//the same type is used as an input or output type of more than a single RPC method
std::set<std::string> encounteredTypes;
for (int i = 0; i < service->method_count(); ++i) {
auto method = service->method(i);
vars["arg_in_id"] = to_string(2L * i); //trying to make msvc 10 happy
vars["arg_out_id"] = to_string(2L * i + 1);
vars["method_name"] = method->name();
vars["input_type_name"] = method->get_input_type_name();
vars["output_type_name"] = method->get_output_type_name();
vars["input_type"] = JavaClassName(vars, method->get_input_type_name());
vars["output_type"] = JavaClassName(vars, method->get_output_type_name());
vars["method_field_name"] = MethodPropertiesFieldName(method.get());
vars["method_new_field_name"] = MethodPropertiesGetterName(method.get());
vars["method_method_name"] = MethodPropertiesGetterName(method.get());
bool client_streaming = method->ClientStreaming() || method->BidiStreaming();
bool server_streaming = method->ServerStreaming() || method->BidiStreaming();
if (client_streaming) {
if (server_streaming) {
vars["method_type"] = "BIDI_STREAMING";
} else {
vars["method_type"] = "CLIENT_STREAMING";
}
} else {
if (server_streaming) {
vars["method_type"] = "SERVER_STREAMING";
} else {
vars["method_type"] = "UNARY";
}
}
p->Print(
vars,
"@$ExperimentalApi$(\"https://github.com/grpc/grpc-java/issues/"
"1901\")\n"
"@$Deprecated$ // Use {@link #$method_method_name$()} instead. \n"
"public static final $MethodDescriptor$<$input_type$,\n"
" $output_type$> $method_field_name$ = $method_method_name$();\n"
"\n"
"private static volatile $MethodDescriptor$<$input_type$,\n"
" $output_type$> $method_new_field_name$;\n"
"\n");
if (encounteredTypes.insert(vars["input_type_name"]).second) {
vars["extr_type"] = vars["input_type"];
vars["extr_type_name"] = vars["input_type_name"];
PrintTypeExtractor(p, vars);
}
if (encounteredTypes.insert(vars["output_type_name"]).second) {
vars["extr_type"] = vars["output_type"];
vars["extr_type_name"] = vars["output_type_name"];
PrintTypeExtractor(p, vars);
}
p->Print(
vars,
"@$ExperimentalApi$(\"https://github.com/grpc/grpc-java/issues/"
"1901\")\n"
"public static $MethodDescriptor$<$input_type$,\n"
" $output_type$> $method_method_name$() {\n"
" $MethodDescriptor$<$input_type$, $output_type$> "
"$method_new_field_name$;\n"
" if (($method_new_field_name$ = "
"$service_class_name$.$method_new_field_name$) == null) {\n"
" synchronized ($service_class_name$.class) {\n"
" if (($method_new_field_name$ = "
"$service_class_name$.$method_new_field_name$) == null) {\n"
" $service_class_name$.$method_new_field_name$ = "
"$method_new_field_name$ = \n"
" $MethodDescriptor$.<$input_type$, "
"$output_type$>newBuilder()\n"
" .setType($MethodType$.$method_type$)\n"
" .setFullMethodName(generateFullMethodName(\n"
" \"$Package$$service_name$\", \"$method_name$\"))\n"
" .setSampledToLocalTracing(true)\n"
" .setRequestMarshaller(FlatbuffersUtils.marshaller(\n"
" $input_type$.class, "
"getExtractorOf$input_type_name$()))\n"
" .setResponseMarshaller(FlatbuffersUtils.marshaller(\n"
" $output_type$.class, "
"getExtractorOf$output_type_name$()))\n");
// vars["proto_method_descriptor_supplier"] = service->name() +
// "MethodDescriptorSupplier";
p->Print(vars, " .setSchemaDescriptor(null)\n");
//" .setSchemaDescriptor(new
//$proto_method_descriptor_supplier$(\"$method_name$\"))\n");
p->Print(vars, " .build();\n");
p->Print(vars,
" }\n"
" }\n"
" }\n"
" return $method_new_field_name$;\n"
"}\n");
p->Print("\n");
}
}
enum StubType {
ASYNC_INTERFACE = 0,
BLOCKING_CLIENT_INTERFACE = 1,
FUTURE_CLIENT_INTERFACE = 2,
BLOCKING_SERVER_INTERFACE = 3,
ASYNC_CLIENT_IMPL = 4,
BLOCKING_CLIENT_IMPL = 5,
FUTURE_CLIENT_IMPL = 6,
ABSTRACT_CLASS = 7,
};
enum CallType { ASYNC_CALL = 0, BLOCKING_CALL = 1, FUTURE_CALL = 2 };
static void PrintBindServiceMethodBody(Printer* p, VARS& vars,
const ServiceDescriptor* service);
// Prints a client interface or implementation class, or a server interface.
static void PrintStub(Printer* p, VARS& vars, const ServiceDescriptor* service,
StubType type) {
const string service_name = service->name();
vars["service_name"] = service_name;
vars["abstract_name"] = service_name + "ImplBase";
string stub_name = service_name;
string client_name = service_name;
CallType call_type = ASYNC_CALL;
bool impl_base = false;
bool interface = false;
switch (type) {
case ABSTRACT_CLASS:
call_type = ASYNC_CALL;
impl_base = true;
break;
case ASYNC_CLIENT_IMPL:
call_type = ASYNC_CALL;
stub_name += "Stub";
break;
case BLOCKING_CLIENT_INTERFACE:
interface = true;
FLATBUFFERS_FALLTHROUGH(); // fall thru
case BLOCKING_CLIENT_IMPL:
call_type = BLOCKING_CALL;
stub_name += "BlockingStub";
client_name += "BlockingClient";
break;
case FUTURE_CLIENT_INTERFACE:
interface = true;
FLATBUFFERS_FALLTHROUGH(); // fall thru
case FUTURE_CLIENT_IMPL:
call_type = FUTURE_CALL;
stub_name += "FutureStub";
client_name += "FutureClient";
break;
case ASYNC_INTERFACE:
call_type = ASYNC_CALL;
interface = true;
break;
default:
GRPC_CODEGEN_FAIL << "Cannot determine class name for StubType: " << type;
}
vars["stub_name"] = stub_name;
vars["client_name"] = client_name;
// Class head
if (!interface) {
GrpcWriteServiceDocComment(p, vars, service);
}
if (impl_base) {
p->Print(vars,
"public static abstract class $abstract_name$ implements "
"$BindableService$ {\n");
} else {
p->Print(vars,
"public static final class $stub_name$ extends "
"$AbstractStub$<$stub_name$> {\n");
}
p->Indent();
// Constructor and build() method
if (!impl_base && !interface) {
p->Print(vars, "private $stub_name$($Channel$ channel) {\n");
p->Indent();
p->Print("super(channel);\n");
p->Outdent();
p->Print("}\n\n");
p->Print(vars,
"private $stub_name$($Channel$ channel,\n"
" $CallOptions$ callOptions) {\n");
p->Indent();
p->Print("super(channel, callOptions);\n");
p->Outdent();
p->Print("}\n\n");
p->Print(vars,
"@$Override$\n"
"protected $stub_name$ build($Channel$ channel,\n"
" $CallOptions$ callOptions) {\n");
p->Indent();
p->Print(vars, "return new $stub_name$(channel, callOptions);\n");
p->Outdent();
p->Print("}\n");
}
// RPC methods
for (int i = 0; i < service->method_count(); ++i) {
auto method = service->method(i);
vars["input_type"] = JavaClassName(vars, method->get_input_type_name());
vars["output_type"] = JavaClassName(vars, method->get_output_type_name());
vars["lower_method_name"] = LowerMethodName(&*method);
vars["method_method_name"] = MethodPropertiesGetterName(&*method);
bool client_streaming = method->ClientStreaming() || method->BidiStreaming();
bool server_streaming = method->ServerStreaming() || method->BidiStreaming();
if (call_type == BLOCKING_CALL && client_streaming) {
// Blocking client interface with client streaming is not available
continue;
}
if (call_type == FUTURE_CALL && (client_streaming || server_streaming)) {
// Future interface doesn't support streaming.
continue;
}
// Method signature
p->Print("\n");
// TODO(nmittler): Replace with WriteMethodDocComment once included by the
// protobuf distro.
if (!interface) {
GrpcWriteMethodDocComment(p, vars, &*method);
}
p->Print("public ");
switch (call_type) {
case BLOCKING_CALL:
GRPC_CODEGEN_CHECK(!client_streaming)
<< "Blocking client interface with client streaming is unavailable";
if (server_streaming) {
// Server streaming
p->Print(vars,
"$Iterator$<$output_type$> $lower_method_name$(\n"
" $input_type$ request)");
} else {
// Simple RPC
p->Print(vars,
"$output_type$ $lower_method_name$($input_type$ request)");
}
break;
case ASYNC_CALL:
if (client_streaming) {
// Bidirectional streaming or client streaming
p->Print(vars,
"$StreamObserver$<$input_type$> $lower_method_name$(\n"
" $StreamObserver$<$output_type$> responseObserver)");
} else {
// Server streaming or simple RPC
p->Print(vars,
"void $lower_method_name$($input_type$ request,\n"
" $StreamObserver$<$output_type$> responseObserver)");
}
break;
case FUTURE_CALL:
GRPC_CODEGEN_CHECK(!client_streaming && !server_streaming)
<< "Future interface doesn't support streaming. "
<< "client_streaming=" << client_streaming << ", "
<< "server_streaming=" << server_streaming;
p->Print(vars,
"$ListenableFuture$<$output_type$> $lower_method_name$(\n"
" $input_type$ request)");
break;
}
if (interface) {
p->Print(";\n");
continue;
}
// Method body.
p->Print(" {\n");
p->Indent();
if (impl_base) {
switch (call_type) {
// NB: Skipping validation of service methods. If something is wrong,
// we wouldn't get to this point as compiler would return errors when
// generating service interface.
case ASYNC_CALL:
if (client_streaming) {
p->Print(vars,
"return "
"asyncUnimplementedStreamingCall($method_method_name$(), "
"responseObserver);\n");
} else {
p->Print(vars,
"asyncUnimplementedUnaryCall($method_method_name$(), "
"responseObserver);\n");
}
break;
default:
break;
}
} else if (!interface) {
switch (call_type) {
case BLOCKING_CALL:
GRPC_CODEGEN_CHECK(!client_streaming)
<< "Blocking client streaming interface is not available";
if (server_streaming) {
vars["calls_method"] = "blockingServerStreamingCall";
vars["params"] = "request";
} else {
vars["calls_method"] = "blockingUnaryCall";
vars["params"] = "request";
}
p->Print(vars,
"return $calls_method$(\n"
" getChannel(), $method_method_name$(), "
"getCallOptions(), $params$);\n");
break;
case ASYNC_CALL:
if (server_streaming) {
if (client_streaming) {
vars["calls_method"] = "asyncBidiStreamingCall";
vars["params"] = "responseObserver";
} else {
vars["calls_method"] = "asyncServerStreamingCall";
vars["params"] = "request, responseObserver";
}
} else {
if (client_streaming) {
vars["calls_method"] = "asyncClientStreamingCall";
vars["params"] = "responseObserver";
} else {
vars["calls_method"] = "asyncUnaryCall";
vars["params"] = "request, responseObserver";
}
}
vars["last_line_prefix"] = client_streaming ? "return " : "";
p->Print(vars,
"$last_line_prefix$$calls_method$(\n"
" getChannel().newCall($method_method_name$(), "
"getCallOptions()), $params$);\n");
break;
case FUTURE_CALL:
GRPC_CODEGEN_CHECK(!client_streaming && !server_streaming)
<< "Future interface doesn't support streaming. "
<< "client_streaming=" << client_streaming << ", "
<< "server_streaming=" << server_streaming;
vars["calls_method"] = "futureUnaryCall";
p->Print(vars,
"return $calls_method$(\n"
" getChannel().newCall($method_method_name$(), "
"getCallOptions()), request);\n");
break;
}
}
p->Outdent();
p->Print("}\n");
}
if (impl_base) {
p->Print("\n");
p->Print(
vars,
"@$Override$ public final $ServerServiceDefinition$ bindService() {\n");
vars["instance"] = "this";
PrintBindServiceMethodBody(p, vars, service);
p->Print("}\n");
}
p->Outdent();
p->Print("}\n\n");
}
static bool CompareMethodClientStreaming(
const std::unique_ptr<const grpc_generator::Method>& method1,
const std::unique_ptr<const grpc_generator::Method>& method2) {
return method1->ClientStreaming() < method2->ClientStreaming();
}
// Place all method invocations into a single class to reduce memory footprint
// on Android.
static void PrintMethodHandlerClass(Printer* p, VARS& vars,
const ServiceDescriptor* service) {
// Sort method ids based on ClientStreaming() so switch tables are compact.
std::vector<std::unique_ptr<const grpc_generator::Method>> sorted_methods(
service->method_count());
for (int i = 0; i < service->method_count(); ++i) {
sorted_methods[i] = service->method(i);
}
stable_sort(sorted_methods.begin(), sorted_methods.end(),
CompareMethodClientStreaming);
for (size_t i = 0; i < sorted_methods.size(); i++) {
auto& method = sorted_methods[i];
vars["method_id"] = to_string(i);
vars["method_id_name"] = MethodIdFieldName(&*method);
p->Print(vars,
"private static final int $method_id_name$ = $method_id$;\n");
}
p->Print("\n");
vars["service_name"] = service->name() + "ImplBase";
p->Print(vars,
"private static final class MethodHandlers<Req, Resp> implements\n"
" io.grpc.stub.ServerCalls.UnaryMethod<Req, Resp>,\n"
" io.grpc.stub.ServerCalls.ServerStreamingMethod<Req, Resp>,\n"
" io.grpc.stub.ServerCalls.ClientStreamingMethod<Req, Resp>,\n"
" io.grpc.stub.ServerCalls.BidiStreamingMethod<Req, Resp> {\n"
" private final $service_name$ serviceImpl;\n"
" private final int methodId;\n"
"\n"
" MethodHandlers($service_name$ serviceImpl, int methodId) {\n"
" this.serviceImpl = serviceImpl;\n"
" this.methodId = methodId;\n"
" }\n\n");
p->Indent();
p->Print(vars,
"@$Override$\n"
"@java.lang.SuppressWarnings(\"unchecked\")\n"
"public void invoke(Req request, $StreamObserver$<Resp> "
"responseObserver) {\n"
" switch (methodId) {\n");
p->Indent();
p->Indent();
for (int i = 0; i < service->method_count(); ++i) {
auto method = service->method(i);
if (method->ClientStreaming() || method->BidiStreaming()) {
continue;
}
vars["method_id_name"] = MethodIdFieldName(&*method);
vars["lower_method_name"] = LowerMethodName(&*method);
vars["input_type"] = JavaClassName(vars, method->get_input_type_name());
vars["output_type"] = JavaClassName(vars, method->get_output_type_name());
p->Print(vars,
"case $method_id_name$:\n"
" serviceImpl.$lower_method_name$(($input_type$) request,\n"
" ($StreamObserver$<$output_type$>) responseObserver);\n"
" break;\n");
}
p->Print(
"default:\n"
" throw new AssertionError();\n");
p->Outdent();
p->Outdent();
p->Print(
" }\n"
"}\n\n");
p->Print(vars,
"@$Override$\n"
"@java.lang.SuppressWarnings(\"unchecked\")\n"
"public $StreamObserver$<Req> invoke(\n"
" $StreamObserver$<Resp> responseObserver) {\n"
" switch (methodId) {\n");
p->Indent();
p->Indent();
for (int i = 0; i < service->method_count(); ++i) {
auto method = service->method(i);
if (!(method->ClientStreaming() || method->BidiStreaming())) {
continue;
}
vars["method_id_name"] = MethodIdFieldName(&*method);
vars["lower_method_name"] = LowerMethodName(&*method);
vars["input_type"] = JavaClassName(vars, method->get_input_type_name());
vars["output_type"] = JavaClassName(vars, method->get_output_type_name());
p->Print(
vars,
"case $method_id_name$:\n"
" return ($StreamObserver$<Req>) serviceImpl.$lower_method_name$(\n"
" ($StreamObserver$<$output_type$>) responseObserver);\n");
}
p->Print(
"default:\n"
" throw new AssertionError();\n");
p->Outdent();
p->Outdent();
p->Print(
" }\n"
"}\n");
p->Outdent();
p->Print("}\n\n");
}
static void PrintGetServiceDescriptorMethod(Printer* p, VARS& vars,
const ServiceDescriptor* service) {
vars["service_name"] = service->name();
// vars["proto_base_descriptor_supplier"] = service->name() +
// "BaseDescriptorSupplier"; vars["proto_file_descriptor_supplier"] =
// service->name() + "FileDescriptorSupplier";
// vars["proto_method_descriptor_supplier"] = service->name() +
// "MethodDescriptorSupplier"; vars["proto_class_name"] =
// google::protobuf::compiler::java::ClassName(service->file());
// p->Print(
// vars,
// "private static abstract class
// $proto_base_descriptor_supplier$\n" " implements
// $ProtoFileDescriptorSupplier$,
// $ProtoServiceDescriptorSupplier$ {\n" "
// $proto_base_descriptor_supplier$() {}\n"
// "\n"
// " @$Override$\n"
// " public com.google.protobuf.Descriptors.FileDescriptor
// getFileDescriptor() {\n" " return
// $proto_class_name$.getDescriptor();\n" " }\n"
// "\n"
// " @$Override$\n"
// " public com.google.protobuf.Descriptors.ServiceDescriptor
// getServiceDescriptor() {\n" " return
// getFileDescriptor().findServiceByName(\"$service_name$\");\n"
// " }\n"
// "}\n"
// "\n"
// "private static final class
// $proto_file_descriptor_supplier$\n" " extends
// $proto_base_descriptor_supplier$ {\n" "
// $proto_file_descriptor_supplier$() {}\n"
// "}\n"
// "\n"
// "private static final class
// $proto_method_descriptor_supplier$\n" " extends
// $proto_base_descriptor_supplier$\n" " implements
// $ProtoMethodDescriptorSupplier$ {\n" " private final
// String methodName;\n"
// "\n"
// " $proto_method_descriptor_supplier$(String methodName)
// {\n" " this.methodName = methodName;\n" " }\n"
// "\n"
// " @$Override$\n"
// " public com.google.protobuf.Descriptors.MethodDescriptor
// getMethodDescriptor() {\n" " return
// getServiceDescriptor().findMethodByName(methodName);\n" "
// }\n"
// "}\n\n");
p->Print(
vars,
"private static volatile $ServiceDescriptor$ serviceDescriptor;\n\n");
p->Print(vars,
"public static $ServiceDescriptor$ getServiceDescriptor() {\n");
p->Indent();
p->Print(vars, "$ServiceDescriptor$ result = serviceDescriptor;\n");
p->Print("if (result == null) {\n");
p->Indent();
p->Print(vars, "synchronized ($service_class_name$.class) {\n");
p->Indent();
p->Print("result = serviceDescriptor;\n");
p->Print("if (result == null) {\n");
p->Indent();
p->Print(vars,
"serviceDescriptor = result = "
"$ServiceDescriptor$.newBuilder(SERVICE_NAME)");
p->Indent();
p->Indent();
p->Print(vars, "\n.setSchemaDescriptor(null)");
for (int i = 0; i < service->method_count(); ++i) {
auto method = service->method(i);
vars["method_method_name"] = MethodPropertiesGetterName(&*method);
p->Print(vars, "\n.addMethod($method_method_name$())");
}
p->Print("\n.build();\n");
p->Outdent();
p->Outdent();
p->Outdent();
p->Print("}\n");
p->Outdent();
p->Print("}\n");
p->Outdent();
p->Print("}\n");
p->Print("return result;\n");
p->Outdent();
p->Print("}\n");
}
static void PrintBindServiceMethodBody(Printer* p, VARS& vars,
const ServiceDescriptor* service) {
vars["service_name"] = service->name();
p->Indent();
p->Print(vars,
"return "
"$ServerServiceDefinition$.builder(getServiceDescriptor())\n");
p->Indent();
p->Indent();
for (int i = 0; i < service->method_count(); ++i) {
auto method = service->method(i);
vars["lower_method_name"] = LowerMethodName(&*method);
vars["method_method_name"] = MethodPropertiesGetterName(&*method);
vars["input_type"] = JavaClassName(vars, method->get_input_type_name());
vars["output_type"] = JavaClassName(vars, method->get_output_type_name());
vars["method_id_name"] = MethodIdFieldName(&*method);
bool client_streaming = method->ClientStreaming() || method->BidiStreaming();
bool server_streaming = method->ServerStreaming() || method->BidiStreaming();
if (client_streaming) {
if (server_streaming) {
vars["calls_method"] = "asyncBidiStreamingCall";
} else {
vars["calls_method"] = "asyncClientStreamingCall";
}
} else {
if (server_streaming) {
vars["calls_method"] = "asyncServerStreamingCall";
} else {
vars["calls_method"] = "asyncUnaryCall";
}
}
p->Print(vars, ".addMethod(\n");
p->Indent();
p->Print(vars,
"$method_method_name$(),\n"
"$calls_method$(\n");
p->Indent();
p->Print(vars,
"new MethodHandlers<\n"
" $input_type$,\n"
" $output_type$>(\n"
" $instance$, $method_id_name$)))\n");
p->Outdent();
p->Outdent();
}
p->Print(".build();\n");
p->Outdent();
p->Outdent();
p->Outdent();
}
static void PrintService(Printer* p, VARS& vars,
const ServiceDescriptor* service,
bool disable_version) {
vars["service_name"] = service->name();
vars["service_class_name"] = ServiceClassName(service->name());
vars["grpc_version"] = "";
#ifdef GRPC_VERSION
if (!disable_version) {
vars["grpc_version"] = " (version " XSTR(GRPC_VERSION) ")";
}
#else
(void)disable_version;
#endif
// TODO(nmittler): Replace with WriteServiceDocComment once included by
// protobuf distro.
GrpcWriteServiceDocComment(p, vars, service);
p->Print(vars,
"@$Generated$(\n"
" value = \"by gRPC proto compiler$grpc_version$\",\n"
" comments = \"Source: $file_name$.fbs\")\n"
"public final class $service_class_name$ {\n\n");
p->Indent();
p->Print(vars, "private $service_class_name$() {}\n\n");
p->Print(vars,
"public static final String SERVICE_NAME = "
"\"$Package$$service_name$\";\n\n");
PrintMethodFields(p, vars, service);
// TODO(nmittler): Replace with WriteDocComment once included by protobuf
// distro.
GrpcWriteDocComment(
p, vars,
" Creates a new async stub that supports all call types for the service");
p->Print(vars,
"public static $service_name$Stub newStub($Channel$ channel) {\n");
p->Indent();
p->Print(vars, "return new $service_name$Stub(channel);\n");
p->Outdent();
p->Print("}\n\n");
// TODO(nmittler): Replace with WriteDocComment once included by protobuf
// distro.
GrpcWriteDocComment(
p, vars,
" Creates a new blocking-style stub that supports unary and streaming "
"output calls on the service");
p->Print(vars,
"public static $service_name$BlockingStub newBlockingStub(\n"
" $Channel$ channel) {\n");
p->Indent();
p->Print(vars, "return new $service_name$BlockingStub(channel);\n");
p->Outdent();
p->Print("}\n\n");
// TODO(nmittler): Replace with WriteDocComment once included by protobuf
// distro.
GrpcWriteDocComment(
p, vars,
" Creates a new ListenableFuture-style stub that supports unary calls "
"on the service");
p->Print(vars,
"public static $service_name$FutureStub newFutureStub(\n"
" $Channel$ channel) {\n");
p->Indent();
p->Print(vars, "return new $service_name$FutureStub(channel);\n");
p->Outdent();
p->Print("}\n\n");
PrintStub(p, vars, service, ABSTRACT_CLASS);
PrintStub(p, vars, service, ASYNC_CLIENT_IMPL);
PrintStub(p, vars, service, BLOCKING_CLIENT_IMPL);
PrintStub(p, vars, service, FUTURE_CLIENT_IMPL);
PrintMethodHandlerClass(p, vars, service);
PrintGetServiceDescriptorMethod(p, vars, service);
p->Outdent();
p->Print("}\n");
}
void PrintStaticImports(Printer* p) {
p->Print(
"import java.nio.ByteBuffer;\n"
"import static "
"io.grpc.MethodDescriptor.generateFullMethodName;\n"
"import static "
"io.grpc.stub.ClientCalls.asyncBidiStreamingCall;\n"
"import static "
"io.grpc.stub.ClientCalls.asyncClientStreamingCall;\n"
"import static "
"io.grpc.stub.ClientCalls.asyncServerStreamingCall;\n"
"import static "
"io.grpc.stub.ClientCalls.asyncUnaryCall;\n"
"import static "
"io.grpc.stub.ClientCalls.blockingServerStreamingCall;\n"
"import static "
"io.grpc.stub.ClientCalls.blockingUnaryCall;\n"
"import static "
"io.grpc.stub.ClientCalls.futureUnaryCall;\n"
"import static "
"io.grpc.stub.ServerCalls.asyncBidiStreamingCall;\n"
"import static "
"io.grpc.stub.ServerCalls.asyncClientStreamingCall;\n"
"import static "
"io.grpc.stub.ServerCalls.asyncServerStreamingCall;\n"
"import static "
"io.grpc.stub.ServerCalls.asyncUnaryCall;\n"
"import static "
"io.grpc.stub.ServerCalls.asyncUnimplementedStreamingCall;\n"
"import static "
"io.grpc.stub.ServerCalls.asyncUnimplementedUnaryCall;\n\n");
}
void GenerateService(const grpc_generator::Service* service,
grpc_generator::Printer* printer, VARS& vars,
bool disable_version) {
// All non-generated classes must be referred by fully qualified names to
// avoid collision with generated classes.
vars["String"] = "java.lang.String";
vars["Deprecated"] = "java.lang.Deprecated";
vars["Override"] = "java.lang.Override";
vars["Channel"] = "io.grpc.Channel";
vars["CallOptions"] = "io.grpc.CallOptions";
vars["MethodType"] = "io.grpc.MethodDescriptor.MethodType";
vars["ServerMethodDefinition"] = "io.grpc.ServerMethodDefinition";
vars["BindableService"] = "io.grpc.BindableService";
vars["ServerServiceDefinition"] = "io.grpc.ServerServiceDefinition";
vars["ServiceDescriptor"] = "io.grpc.ServiceDescriptor";
vars["ProtoFileDescriptorSupplier"] =
"io.grpc.protobuf.ProtoFileDescriptorSupplier";
vars["ProtoServiceDescriptorSupplier"] =
"io.grpc.protobuf.ProtoServiceDescriptorSupplier";
vars["ProtoMethodDescriptorSupplier"] =
"io.grpc.protobuf.ProtoMethodDescriptorSupplier";
vars["AbstractStub"] = "io.grpc.stub.AbstractStub";
vars["MethodDescriptor"] = "io.grpc.MethodDescriptor";
vars["NanoUtils"] = "io.grpc.protobuf.nano.NanoUtils";
vars["StreamObserver"] = "io.grpc.stub.StreamObserver";
vars["Iterator"] = "java.util.Iterator";
vars["Generated"] = "javax.annotation.Generated";
vars["ListenableFuture"] =
"com.google.common.util.concurrent.ListenableFuture";
vars["ExperimentalApi"] = "io.grpc.ExperimentalApi";
PrintStaticImports(printer);
PrintService(printer, vars, service, disable_version);
}
grpc::string GenerateServiceSource(
grpc_generator::File* file, const grpc_generator::Service* service,
grpc_java_generator::Parameters* parameters) {
grpc::string out;
auto printer = file->CreatePrinter(&out);
VARS vars;
vars["flatc_version"] = grpc::string(
FLATBUFFERS_STRING(FLATBUFFERS_VERSION_MAJOR) "." FLATBUFFERS_STRING(
FLATBUFFERS_VERSION_MINOR) "." FLATBUFFERS_STRING(FLATBUFFERS_VERSION_REVISION));
vars["file_name"] = file->filename();
if (!parameters->package_name.empty()) {
vars["Package"] = parameters->package_name; // ServiceJavaPackage(service);
}
GenerateImports(file, &*printer, vars);
GenerateService(service, &*printer, vars, false);
return out;
}
} // namespace grpc_java_generator