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apache / thrift / 0.7.x / . / compiler / cpp / src / generate / t_js_generator.cc
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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 <string>
#include <fstream>
#include <iostream>
#include <vector>
#include <list>
#include <stdlib.h>
#include <sys/stat.h>
#include <sstream>
#include "platform.h"
#include "version.h"
using namespace std;
#include "t_oop_generator.h"
/**
* JS code generator.
*/
class t_js_generator : public t_oop_generator {
public:
t_js_generator(t_program* program,
const std::map<std::string, std::string>& parsed_options,
const std::string& option_string) :
t_oop_generator(program) {
(void) option_string;
std::map<std::string, std::string>::const_iterator iter;
iter = parsed_options.find("node");
gen_node_ = (iter != parsed_options.end());
iter = parsed_options.find("jquery");
gen_jquery_ = (iter != parsed_options.end());
if (gen_node_) {
out_dir_base_ = "gen-nodejs";
} else {
out_dir_base_ = "gen-js";
}
}
/**
* Init and close methods
*/
void init_generator();
void close_generator();
/**
* Program-level generation functions
*/
void generate_typedef (t_typedef* ttypedef);
void generate_enum (t_enum* tenum);
void generate_const (t_const* tconst);
void generate_struct (t_struct* tstruct);
void generate_xception (t_struct* txception);
void generate_service (t_service* tservice);
std::string render_recv_throw(std::string var);
std::string render_recv_return(std::string var);
std::string render_const_value(t_type* type, t_const_value* value);
/**
* Structs!
*/
void generate_js_struct(t_struct* tstruct, bool is_exception);
void generate_js_struct_definition(std::ofstream& out, t_struct* tstruct, bool is_xception=false, bool is_exported=true);
void generate_js_struct_reader(std::ofstream& out, t_struct* tstruct);
void generate_js_struct_writer(std::ofstream& out, t_struct* tstruct);
void generate_js_function_helpers(t_function* tfunction);
/**
* Service-level generation functions
*/
void generate_service_helpers (t_service* tservice);
void generate_service_interface (t_service* tservice);
void generate_service_rest (t_service* tservice);
void generate_service_client (t_service* tservice);
void generate_service_processor (t_service* tservice);
void generate_process_function (t_service* tservice, t_function* tfunction);
/**
* Serialization constructs
*/
void generate_deserialize_field (std::ofstream &out,
t_field* tfield,
std::string prefix="",
bool inclass=false);
void generate_deserialize_struct (std::ofstream &out,
t_struct* tstruct,
std::string prefix="");
void generate_deserialize_container (std::ofstream &out,
t_type* ttype,
std::string prefix="");
void generate_deserialize_set_element (std::ofstream &out,
t_set* tset,
std::string prefix="");
void generate_deserialize_map_element (std::ofstream &out,
t_map* tmap,
std::string prefix="");
void generate_deserialize_list_element (std::ofstream &out,
t_list* tlist,
std::string prefix="");
void generate_serialize_field (std::ofstream &out,
t_field* tfield,
std::string prefix="");
void generate_serialize_struct (std::ofstream &out,
t_struct* tstruct,
std::string prefix="");
void generate_serialize_container (std::ofstream &out,
t_type* ttype,
std::string prefix="");
void generate_serialize_map_element (std::ofstream &out,
t_map* tmap,
std::string kiter,
std::string viter);
void generate_serialize_set_element (std::ofstream &out,
t_set* tmap,
std::string iter);
void generate_serialize_list_element (std::ofstream &out,
t_list* tlist,
std::string iter);
/**
* Helper rendering functions
*/
std::string js_includes();
std::string render_includes();
std::string declare_field(t_field* tfield, bool init=false, bool obj=false);
std::string function_signature(t_function* tfunction, std::string prefix="", bool include_callback=false);
std::string argument_list(t_struct* tstruct, bool include_callback=false);
std::string type_to_enum(t_type* ttype);
std::string autogen_comment() {
return
std::string("//\n") +
"// Autogenerated by Thrift Compiler (" + THRIFT_VERSION + ")\n" +
"//\n" +
"// DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING\n" +
"//\n";
}
std::vector<std::string> js_namespace_pieces(t_program* p) {
std::string ns = p->get_namespace("js");
std::string::size_type loc;
std::vector<std::string> pieces;
if (ns.size() > 0) {
while ((loc = ns.find(".")) != std::string::npos) {
pieces.push_back(ns.substr(0, loc));
ns = ns.substr(loc+1);
}
}
if (ns.size() > 0) {
pieces.push_back(ns);
}
return pieces;
}
std::string js_type_namespace(t_program* p) {
if (gen_node_) {
if (p != NULL && p != program_) {
return p->get_name() + "_ttypes.";
}
return "ttypes.";
}
return js_namespace(p);
}
std::string js_export_namespace(t_program* p) {
if (gen_node_) {
return "exports.";
}
return js_namespace(p);
}
std::string js_namespace(t_program* p) {
std::string ns = p->get_namespace("js");
if (ns.size() > 0) {
ns += ".";
}
return ns;
}
private:
/**
* True iff we should generate NodeJS-friendly RPC services.
*/
bool gen_node_;
/**
* True if we should generate services that use jQuery ajax (async/sync).
*/
bool gen_jquery_;
/**
* File streams
*/
std::ofstream f_types_;
std::ofstream f_service_;
};
/**
* Prepares for file generation by opening up the necessary file output
* streams.
*
* @param tprogram The program to generate
*/
void t_js_generator::init_generator() {
// Make output directory
MKDIR(get_out_dir().c_str());
string outdir = get_out_dir();
// Make output file
string f_types_name = outdir+program_->get_name()+"_types.js";
f_types_.open(f_types_name.c_str());
// Print header
f_types_ <<
autogen_comment() <<
js_includes() << endl;
if (gen_node_) {
f_types_ << "var ttypes = module.exports = {};" << endl;
}
string pns;
//setup the namespace
// TODO should the namespace just be in the directory structure for node?
vector<string> ns_pieces = js_namespace_pieces( program_ );
if( ns_pieces.size() > 0){
for(size_t i = 0; i < ns_pieces.size(); ++i) {
pns += ((i == 0) ? "" : ".") + ns_pieces[i];
f_types_ << "if (typeof " << pns << " === 'undefined') {" << endl;
f_types_ << " " << pns << " = {};" << endl;
f_types_ << "}" << endl;
}
}
}
/**
* Prints standard js imports
*/
string t_js_generator::js_includes() {
if (gen_node_) {
return string("var Thrift = require('thrift').Thrift;");
}
string inc;
return inc;
}
/**
* Renders all the imports necessary for including another Thrift program
*/
string t_js_generator::render_includes() {
if (gen_node_) {
const vector<t_program*>& includes = program_->get_includes();
string result = "";
for (size_t i = 0; i < includes.size(); ++i) {
result += "var " + includes[i]->get_name() + "_ttypes = require('./" + includes[i]->get_name() + "_types')\n";
}
if (includes.size() > 0) {
result += "\n";
}
return result;
}
string inc;
return inc;
}
/**
* Close up (or down) some filez.
*/
void t_js_generator::close_generator() {
// Close types file
f_types_.close();
}
/**
* Generates a typedef. This is not done in JS, types are all implicit.
*
* @param ttypedef The type definition
*/
void t_js_generator::generate_typedef(t_typedef* ttypedef) {
(void) ttypedef;
}
/**
* Generates code for an enumerated type. Since define is expensive to lookup
* in JS, we use a global array for this.
*
* @param tenum The enumeration
*/
void t_js_generator::generate_enum(t_enum* tenum) {
f_types_ << js_type_namespace(tenum->get_program())<<tenum->get_name()<<" = {"<<endl;
vector<t_enum_value*> constants = tenum->get_constants();
vector<t_enum_value*>::iterator c_iter;
for (c_iter = constants.begin(); c_iter != constants.end(); ++c_iter) {
int value = (*c_iter)->get_value();
f_types_ << "'" << (*c_iter)->get_name() << "' : " << value;
if (c_iter != constants.end()-1) {
f_types_ << ",";
}
f_types_ << endl;
}
f_types_ << "};"<<endl;
}
/**
* Generate a constant value
*/
void t_js_generator::generate_const(t_const* tconst) {
t_type* type = tconst->get_type();
string name = tconst->get_name();
t_const_value* value = tconst->get_value();
f_types_ << js_type_namespace(program_) << name << " = ";
f_types_ << render_const_value(type, value) << ";" << endl;
}
/**
* Prints the value of a constant with the given type. Note that type checking
* is NOT performed in this function as it is always run beforehand using the
* validate_types method in main.cc
*/
string t_js_generator::render_const_value(t_type* type, t_const_value* value) {
std::ostringstream out;
type = get_true_type(type);
if (type->is_base_type()) {
t_base_type::t_base tbase = ((t_base_type*)type)->get_base();
switch (tbase) {
case t_base_type::TYPE_STRING:
out << "'" << value->get_string() << "'";
break;
case t_base_type::TYPE_BOOL:
out << (value->get_integer() > 0 ? "true" : "false");
break;
case t_base_type::TYPE_BYTE:
case t_base_type::TYPE_I16:
case t_base_type::TYPE_I32:
case t_base_type::TYPE_I64:
out << value->get_integer();
break;
case t_base_type::TYPE_DOUBLE:
if (value->get_type() == t_const_value::CV_INTEGER) {
out << value->get_integer();
} else {
out << value->get_double();
}
break;
default:
throw "compiler error: no const of base type " + t_base_type::t_base_name(tbase);
}
} else if (type->is_enum()) {
out << value->get_integer();
} else if (type->is_struct() || type->is_xception()) {
out << "new " << js_type_namespace(type->get_program()) << type->get_name() << "({" << endl;
indent_up();
const vector<t_field*>& fields = ((t_struct*)type)->get_members();
vector<t_field*>::const_iterator f_iter;
const map<t_const_value*, t_const_value*>& val = value->get_map();
map<t_const_value*, t_const_value*>::const_iterator v_iter;
for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {
t_type* field_type = NULL;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
if ((*f_iter)->get_name() == v_iter->first->get_string()) {
field_type = (*f_iter)->get_type();
}
}
if (field_type == NULL) {
throw "type error: " + type->get_name() + " has no field " + v_iter->first->get_string();
}
if (v_iter != val.begin())
out << ",";
out << render_const_value(g_type_string, v_iter->first);
out << " : ";
out << render_const_value(field_type, v_iter->second);
}
out << "})";
} else if (type->is_map()) {
t_type* ktype = ((t_map*)type)->get_key_type();
bool key_is_string = false;
if (ktype->is_base_type() && ((t_base_type*)ktype)->get_base() == t_base_type::TYPE_STRING){
key_is_string = true;
}
t_type* vtype = ((t_map*)type)->get_val_type();
out << "{";
const map<t_const_value*, t_const_value*>& val = value->get_map();
map<t_const_value*, t_const_value*>::const_iterator v_iter;
for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {
if (v_iter != val.begin())
out << "," << endl;
out << render_const_value(ktype, v_iter->first);
out << " : ";
out << render_const_value(vtype, v_iter->second);
}
out << endl << "}";
} else if (type->is_list() || type->is_set()) {
t_type* etype;
if (type->is_list()) {
etype = ((t_list*)type)->get_elem_type();
} else {
etype = ((t_set*)type)->get_elem_type();
}
out << "[";
const vector<t_const_value*>& val = value->get_list();
vector<t_const_value*>::const_iterator v_iter;
for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {
if (v_iter != val.begin())
out << ",";
out << render_const_value(etype, *v_iter);
}
out << "]";
}
return out.str();
}
/**
* Make a struct
*/
void t_js_generator::generate_struct(t_struct* tstruct) {
generate_js_struct(tstruct, false);
}
/**
* Generates a struct definition for a thrift exception. Basically the same
* as a struct but extends the Exception class.
*
* @param txception The struct definition
*/
void t_js_generator::generate_xception(t_struct* txception) {
generate_js_struct(txception, true);
}
/**
* Structs can be normal or exceptions.
*/
void t_js_generator::generate_js_struct(t_struct* tstruct,
bool is_exception) {
generate_js_struct_definition(f_types_, tstruct, is_exception);
}
/**
* Generates a struct definition for a thrift data type. This is nothing in JS
* where the objects are all just associative arrays (unless of course we
* decide to start using objects for them...)
*
* @param tstruct The struct definition
*/
void t_js_generator::generate_js_struct_definition(ofstream& out,
t_struct* tstruct,
bool is_exception,
bool is_exported) {
const vector<t_field*>& members = tstruct->get_members();
vector<t_field*>::const_iterator m_iter;
indent_up();
if (gen_node_) {
if (is_exported) {
out << "var " << js_namespace(tstruct->get_program()) << tstruct->get_name() << " = " <<
"module.exports." << js_namespace(tstruct->get_program()) << tstruct->get_name() << " = function(args) {\n";
} else {
out << "var " << js_namespace(tstruct->get_program()) << tstruct->get_name() << " = function(args) {\n";
}
} else {
out << js_namespace(tstruct->get_program()) << tstruct->get_name() <<" = function(args) {\n";
}
if (gen_node_ && is_exception) {
out << indent() << "Thrift.TException.call(this, \"" <<
js_namespace(tstruct->get_program()) << tstruct->get_name() << "\")" << endl;
out << indent() << "this.name = \"" <<
js_namespace(tstruct->get_program()) << tstruct->get_name() << "\"" << endl;
}
//members with arguments
for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) {
string dval = declare_field(*m_iter,false,true);
t_type* t = get_true_type((*m_iter)->get_type());
if ((*m_iter)->get_value() != NULL && !(t->is_struct() || t->is_xception())) {
dval = render_const_value((*m_iter)-> get_type(), (*m_iter)->get_value());
out << indent() << "this." << (*m_iter)->get_name() << " = " << dval << ";" << endl;
} else {
out << indent() << dval << ";" << endl;
}
}
// Generate constructor from array
if (members.size() > 0) {
for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) {
t_type* t = get_true_type((*m_iter)->get_type());
if ((*m_iter)->get_value() != NULL && (t->is_struct() || t->is_xception())) {
indent(out) << "this." << (*m_iter)->get_name() << " = " << render_const_value(t, (*m_iter)->get_value()) << ";" << endl;
}
}
out << indent() << "if (args) {" << endl;
for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) {
out << indent() << indent() << "if (args." << (*m_iter)->get_name() << " !== undefined) {" << endl
<< indent() << indent() << indent() << "this." << (*m_iter)->get_name() << " = args." << (*m_iter)->get_name() << ";" << endl
<< indent() << indent() << "}" << endl;
}
out << indent() << "}" << endl;
}
indent_down();
out << "};\n";
if (is_exception) {
out << "Thrift.inherits(" <<
js_namespace(tstruct->get_program()) <<
tstruct->get_name() << ", Thrift.TException);" << endl;
out << js_namespace(tstruct->get_program())<<tstruct->get_name() <<".prototype.name = '" << tstruct->get_name() << "';" << endl;
} else {
//init prototype
out << js_namespace(tstruct->get_program())<<tstruct->get_name() <<".prototype = {};\n";
}
generate_js_struct_reader(out, tstruct);
generate_js_struct_writer(out, tstruct);
}
/**
* Generates the read() method for a struct
*/
void t_js_generator::generate_js_struct_reader(ofstream& out,
t_struct* tstruct) {
const vector<t_field*>& fields = tstruct->get_members();
vector<t_field*>::const_iterator f_iter;
out << js_namespace(tstruct->get_program())<<tstruct->get_name() << ".prototype.read = function(input) {"<<endl;
indent_up();
indent(out) << "input.readStructBegin();" << endl;
// Loop over reading in fields
indent(out) << "while (true)" << endl;
scope_up(out);
indent(out) << "var ret = input.readFieldBegin();" << endl;
indent(out) << "var fname = ret.fname;" << endl;
indent(out) << "var ftype = ret.ftype;" << endl;
indent(out) << "var fid = ret.fid;" << endl;
// Check for field STOP marker and break
indent(out) << "if (ftype == Thrift.Type.STOP) {" << endl;
indent_up();
indent(out) << "break;" << endl;
indent_down();
indent(out) << "}" << endl;
if (!fields.empty()) {
// Switch statement on the field we are reading
indent(out) << "switch (fid)" << endl;
scope_up(out);
// Generate deserialization code for known cases
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
indent(out) << "case " << (*f_iter)->get_key() << ":" << endl;
indent(out) << "if (ftype == " << type_to_enum((*f_iter)->get_type()) << ") {" << endl;
indent_up();
generate_deserialize_field(out, *f_iter, "this.");
indent_down();
indent(out) << "} else {" << endl;
indent(out) << " input.skip(ftype);" << endl;
out <<
indent() << "}" << endl <<
indent() << "break;" << endl;
}
if (fields.size() == 1) {
// pseudo case to make jslint happy
indent(out) << "case 0:" << endl;
indent(out) << " input.skip(ftype);" << endl;
indent(out) << " break;" << endl;
}
// In the default case we skip the field
indent(out) << "default:" << endl;
indent(out) << " input.skip(ftype);" << endl;
scope_down(out);
} else {
indent(out) << "input.skip(ftype);" << endl;
}
indent(out) << "input.readFieldEnd();" << endl;
scope_down(out);
indent(out) << "input.readStructEnd();" << endl;
indent(out) << "return;" << endl;
indent_down();
out << indent() << "};" << endl << endl;
}
/**
* Generates the write() method for a struct
*/
void t_js_generator::generate_js_struct_writer(ofstream& out,
t_struct* tstruct) {
string name = tstruct->get_name();
const vector<t_field*>& fields = tstruct->get_members();
vector<t_field*>::const_iterator f_iter;
out << js_namespace(tstruct->get_program())<< tstruct->get_name() << ".prototype.write = function(output) {"<<endl;
indent_up();
indent(out) << "output.writeStructBegin('" << name << "');" << endl;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
out << indent() << "if (this." << (*f_iter)->get_name() << ") {" << endl;
indent_up();
indent(out) <<
"output.writeFieldBegin(" <<
"'" << (*f_iter)->get_name() << "', " <<
type_to_enum((*f_iter)->get_type()) << ", " <<
(*f_iter)->get_key() << ");" << endl;
// Write field contents
generate_serialize_field(out, *f_iter, "this.");
indent(out) <<
"output.writeFieldEnd();" << endl;
indent_down();
indent(out) << "}" << endl;
}
out <<
indent() << "output.writeFieldStop();" << endl <<
indent() << "output.writeStructEnd();" << endl;
out <<indent() << "return;" << endl;
indent_down();
out <<
indent() << "};" << endl <<
endl;
}
/**
* Generates a thrift service.
*
* @param tservice The service definition
*/
void t_js_generator::generate_service(t_service* tservice) {
string f_service_name = get_out_dir()+service_name_+".js";
f_service_.open(f_service_name.c_str());
f_service_ <<
autogen_comment() <<
js_includes() << endl <<
render_includes() << endl;
if (gen_node_) {
if (tservice->get_extends() != NULL) {
f_service_ <<
"var " << tservice->get_extends()->get_name() <<
" = require('./" << tservice->get_extends()->get_name() << "')" << endl <<
"var " << tservice->get_extends()->get_name() << "Client = " <<
tservice->get_extends()->get_name() << ".Client" << endl;
}
f_service_ <<
"var ttypes = require('./" + program_->get_name() + "_types');" << endl;
}
generate_service_helpers(tservice);
generate_service_interface(tservice);
generate_service_client(tservice);
if (gen_node_) {
generate_service_processor(tservice);
}
f_service_.close();
}
/**
* Generates a service server definition.
*
* @param tservice The service to generate a server for.
*/
void t_js_generator::generate_service_processor(t_service* tservice) {
vector<t_function*> functions = tservice->get_functions();
vector<t_function*>::iterator f_iter;
f_service_ <<
"var " << js_namespace(tservice->get_program()) << service_name_ << "Processor = " <<
"exports.Processor = function(handler) ";
scope_up(f_service_);
f_service_ << indent() << "this._handler = handler" << endl;
scope_down(f_service_);
// Generate the server implementation
indent(f_service_) <<
js_namespace(tservice->get_program()) << service_name_ << "Processor.prototype.process = function(input, output) ";
scope_up(f_service_);
f_service_ << indent() << "var r = input.readMessageBegin();" << endl
<< indent() << "if (this['process_' + r.fname]) {" << endl
<< indent() << " return this['process_' + r.fname].call(this, r.rseqid, input, output);" << endl
<< indent() << "} else {" << endl
<< indent() << " input.skip(Thrift.Type.STRUCT);" << endl
<< indent() << " input.readMessageEnd();" << endl
<< indent() << " var x = new Thrift.TApplicationException(Thrift.TApplicationExceptionType.UNKNOWN_METHOD, 'Unknown function ' + r.fname);" << endl
<< indent() << " output.writeMessageBegin(r.fname, Thrift.MessageType.Exception, r.rseqid);" << endl
<< indent() << " x.write(output);" << endl
<< indent() << " output.writeMessageEnd();" << endl
<< indent() << " output.flush();" << endl
<< indent() << "}" << endl;
scope_down(f_service_);
f_service_ << endl;
// Generate the process subfunctions
for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) {
generate_process_function(tservice, *f_iter);
}
}
/**
* Generates a process function definition.
*
* @param tfunction The function to write a dispatcher for
*/
void t_js_generator::generate_process_function(t_service* tservice,
t_function* tfunction) {
indent(f_service_) <<
js_namespace(tservice->get_program()) << service_name_ << "Processor.prototype.process_" + tfunction->get_name() + " = function(seqid, input, output) ";
scope_up(f_service_);
string argsname = js_namespace(program_)+ service_name_ + "_" + tfunction->get_name() + "_args";
string resultname = js_namespace(program_)+ service_name_ + "_" + tfunction->get_name() + "_result";
f_service_ <<
indent() << "var args = new " << argsname << "();" << endl <<
indent() << "args.read(input);" << endl <<
indent() << "input.readMessageEnd();" << endl;
// Declare result for non oneway function
if (!tfunction->is_oneway()) {
f_service_ <<
indent() << "var result = new " << resultname << "();" << endl;
}
// Generate the function call
t_struct* arg_struct = tfunction->get_arglist();
const std::vector<t_field*>& fields = arg_struct->get_members();
vector<t_field*>::const_iterator f_iter;
f_service_ <<
indent() << "this._handler." << tfunction->get_name() << "(";
bool first = true;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
if (first) {
first = false;
} else {
f_service_ << ", ";
}
f_service_ << "args." << (*f_iter)->get_name();
}
// Shortcut out here for oneway functions
if (tfunction->is_oneway()) {
f_service_ << ")" << endl;
scope_down(f_service_);
f_service_ << endl;
return;
}
if (!first) {
f_service_ << ", ";
}
f_service_ << "function (success) {" << endl;
indent_up();
f_service_ <<
indent() << "result.success = success;" << endl <<
indent() << "output.writeMessageBegin(\"" << tfunction->get_name() <<
"\", Thrift.MessageType.REPLY, seqid);" << endl <<
indent() << "result.write(output);" << endl <<
indent() << "output.writeMessageEnd();" << endl <<
indent() << "output.flush();" << endl;
indent_down();
indent(f_service_) << "})" << endl;
scope_down(f_service_);
f_service_ << endl;
}
/**
* Generates helper functions for a service.
*
* @param tservice The service to generate a header definition for
*/
void t_js_generator::generate_service_helpers(t_service* tservice) {
vector<t_function*> functions = tservice->get_functions();
vector<t_function*>::iterator f_iter;
f_service_ <<
"//HELPER FUNCTIONS AND STRUCTURES" << endl << endl;
for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) {
t_struct* ts = (*f_iter)->get_arglist();
string name = ts->get_name();
ts->set_name(service_name_ + "_" + name);
generate_js_struct_definition(f_service_, ts, false, false);
generate_js_function_helpers(*f_iter);
ts->set_name(name);
}
}
/**
* Generates a struct and helpers for a function.
*
* @param tfunction The function
*/
void t_js_generator::generate_js_function_helpers(t_function* tfunction) {
t_struct result(program_, service_name_ + "_" + tfunction->get_name() + "_result");
t_field success(tfunction->get_returntype(), "success", 0);
if (!tfunction->get_returntype()->is_void()) {
result.append(&success);
}
t_struct* xs = tfunction->get_xceptions();
const vector<t_field*>& fields = xs->get_members();
vector<t_field*>::const_iterator f_iter;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
result.append(*f_iter);
}
generate_js_struct_definition(f_service_, &result, false, false);
}
/**
* Generates a service interface definition.
*
* @param tservice The service to generate a header definition for
*/
void t_js_generator::generate_service_interface(t_service* tservice) {
(void) tservice;
}
/**
* Generates a REST interface
*/
void t_js_generator::generate_service_rest(t_service* tservice) {
(void) tservice;
}
/**
* Generates a service client definition.
*
* @param tservice The service to generate a server for.
*/
void t_js_generator::generate_service_client(t_service* tservice) {
string extends = "";
if (gen_node_) {
f_service_ <<
"var " << js_namespace(tservice->get_program()) << service_name_ << "Client = " <<
"exports.Client = function(output, pClass) {"<<endl;
} else {
f_service_ <<
js_namespace(tservice->get_program()) << service_name_ << "Client = function(input, output) {"<<endl;
}
indent_up();
if (gen_node_) {
f_service_ <<
indent() << " this.output = output;" << endl <<
indent() << " this.pClass = pClass;" << endl <<
indent() << " this.seqid = 0;" << endl <<
indent() << " this._reqs = {};" << endl;
} else {
f_service_ <<
indent() << " this.input = input;" << endl <<
indent() << " this.output = (!output) ? input : output;" << endl <<
indent() << " this.seqid = 0;" << endl;
}
indent_down();
f_service_ <<
indent() << "};" << endl;
if (tservice->get_extends() != NULL) {
indent(f_service_) << "Thrift.inherits(" <<
js_namespace(tservice->get_program()) <<
service_name_ << "Client, " <<
tservice->get_extends()->get_name() << "Client)" << endl;
} else {
//init prototype
indent(f_service_) << js_namespace(tservice->get_program())<<service_name_ << "Client.prototype = {};"<<endl;
}
// Generate client method implementations
vector<t_function*> functions = tservice->get_functions();
vector<t_function*>::const_iterator f_iter;
for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) {
t_struct* arg_struct = (*f_iter)->get_arglist();
const vector<t_field*>& fields = arg_struct->get_members();
vector<t_field*>::const_iterator fld_iter;
string funname = (*f_iter)->get_name();
string arglist = argument_list(arg_struct);
// Open function
f_service_ << js_namespace(tservice->get_program())<<service_name_<<"Client.prototype." <<
function_signature(*f_iter, "", gen_node_ || gen_jquery_) << " {" << endl;
indent_up();
if (gen_node_) {
f_service_ <<
indent() << "this.seqid += 1;" << endl <<
indent() << "this._reqs[this.seqid] = callback;" << endl;
} else if (gen_jquery_) {
f_service_ <<
indent() << "if (callback === undefined) {" << endl;
indent_up();
}
f_service_ << indent() <<
"this.send_" << funname << "(" << arglist << ");" << endl;
if (!gen_node_ && !(*f_iter)->is_oneway()) {
f_service_ << indent();
if (!(*f_iter)->get_returntype()->is_void()) {
f_service_ << "return ";
}
f_service_ <<
"this.recv_" << funname << "();" << endl;
}
if (gen_jquery_) {
indent_down();
f_service_ << indent() << "} else {" << endl;
indent_up();
f_service_ << indent() << "var postData = this.send_" << funname <<
"(" << arglist << (arglist.empty() ? "" : ", ") << "true);" << endl;
f_service_ << indent() << "return this.output.getTransport()" << endl;
indent_up();
f_service_ << indent() << ".jqRequest(this, postData, arguments, this.recv_" << funname << ");" << endl;
indent_down();
indent_down();
f_service_ << indent() << "}" << endl;
}
indent_down();
f_service_ << "};" << endl << endl;
// Send function
f_service_ << js_namespace(tservice->get_program())<<service_name_ <<
"Client.prototype.send_" << function_signature(*f_iter, "", gen_jquery_) << " {" <<endl;
indent_up();
std::string outputVar;
if (gen_node_) {
f_service_ <<
indent() << "var output = new this.pClass(this.output);" << endl;
outputVar = "output";
} else {
outputVar = "this.output";
}
std::string argsname = js_namespace(program_)+ service_name_ + "_" + (*f_iter)->get_name() + "_args";
// Serialize the request header
f_service_ <<
indent() << outputVar << ".writeMessageBegin('" << (*f_iter)->get_name() << "', Thrift.MessageType.CALL, this.seqid);" << endl;
f_service_ <<
indent() << "var args = new " << argsname << "();" << endl;
for (fld_iter = fields.begin(); fld_iter != fields.end(); ++fld_iter) {
f_service_ <<
indent() << "args." << (*fld_iter)->get_name() << " = " << (*fld_iter)->get_name() << ";" << endl;
}
// Write to the stream
f_service_ <<
indent() << "args.write(" << outputVar << ");" << endl <<
indent() << outputVar << ".writeMessageEnd();" << endl;
if (gen_node_) {
f_service_ << indent() << "return this.output.flush();" << endl;
} else {
if (gen_jquery_) {
f_service_ << indent() << "return this.output.getTransport().flush(callback);" << endl;
} else {
f_service_ << indent() << "return this.output.getTransport().flush();" << endl;
}
}
indent_down();
f_service_ << "};" << endl;
if (!(*f_iter)->is_oneway()) {
std::string resultname = js_namespace(tservice->get_program()) + service_name_ + "_" + (*f_iter)->get_name() + "_result";
if (gen_node_) {
// Open function
f_service_ <<
endl << js_namespace(tservice->get_program())<<service_name_ <<
"Client.prototype.recv_" << (*f_iter)->get_name() << " = function(input,mtype,rseqid) {" << endl;
} else {
t_struct noargs(program_);
t_function recv_function((*f_iter)->get_returntype(),
string("recv_") + (*f_iter)->get_name(),
&noargs);
// Open function
f_service_ <<
endl << js_namespace(tservice->get_program())<<service_name_ <<
"Client.prototype." << function_signature(&recv_function) << " {" << endl;
}
indent_up();
std::string inputVar;
if (gen_node_) {
inputVar = "input";
} else {
inputVar = "this.input";
}
if (gen_node_) {
f_service_ <<
indent() << "var callback = this._reqs[rseqid] || function() {};" << endl <<
indent() << "delete this._reqs[rseqid];" << endl;
} else {
f_service_ <<
indent() << "var ret = this.input.readMessageBegin();" << endl <<
indent() << "var fname = ret.fname;" << endl <<
indent() << "var mtype = ret.mtype;" << endl <<
indent() << "var rseqid = ret.rseqid;" <<endl;
}
f_service_ <<
indent() << "if (mtype == Thrift.MessageType.EXCEPTION) {" << endl <<
indent() << " var x = new Thrift.TApplicationException();" << endl <<
indent() << " x.read(" << inputVar << ");" << endl <<
indent() << " " << inputVar << ".readMessageEnd();" << endl <<
indent() << " " << render_recv_throw("x") << endl <<
indent() << "}" << endl;
f_service_ <<
indent() << "var result = new " << resultname << "();" << endl <<
indent() << "result.read(" << inputVar << ");" << endl;
f_service_ <<
indent() << inputVar << ".readMessageEnd();" << endl <<
endl;
t_struct* xs = (*f_iter)->get_xceptions();
const std::vector<t_field*>& xceptions = xs->get_members();
vector<t_field*>::const_iterator x_iter;
for (x_iter = xceptions.begin(); x_iter != xceptions.end(); ++x_iter) {
f_service_ <<
indent() << "if (null !== result." << (*x_iter)->get_name() << ") {" << endl <<
indent() << " " << render_recv_throw("result." + (*x_iter)->get_name()) << endl <<
indent() << "}" << endl;
}
// Careful, only return result if not a void function
if (!(*f_iter)->get_returntype()->is_void()) {
f_service_ <<
indent() << "if (null !== result.success) {" << endl <<
indent() << " " << render_recv_return("result.success") << endl <<
indent() << "}" << endl;
f_service_ <<
indent() << render_recv_throw("'" + (*f_iter)->get_name() + " failed: unknown result'") << endl;
} else {
if (gen_node_) {
indent(f_service_) << "callback(null)" << endl;
} else {
indent(f_service_) << "return;" << endl;
}
}
// Close function
indent_down();
f_service_ << "};"<<endl;
}
}
}
std::string t_js_generator::render_recv_throw(std::string var) {
if (gen_node_) {
return "return callback(" + var + ");";
} else {
return "throw " + var + ";";
}
}
std::string t_js_generator::render_recv_return(std::string var) {
if (gen_node_) {
return "return callback(null, " + var + ");";
} else {
return "return " + var + ";";
}
}
/**
* Deserializes a field of any type.
*/
void t_js_generator::generate_deserialize_field(ofstream &out,
t_field* tfield,
string prefix,
bool inclass) {
(void) inclass;
t_type* type = get_true_type(tfield->get_type());
if (type->is_void()) {
throw "CANNOT GENERATE DESERIALIZE CODE FOR void TYPE: " +
prefix + tfield->get_name();
}
string name = prefix+tfield->get_name();
if (type->is_struct() || type->is_xception()) {
generate_deserialize_struct(out,
(t_struct*)type,
name);
} else if (type->is_container()) {
generate_deserialize_container(out, type, name);
} else if (type->is_base_type() || type->is_enum()) {
indent(out) << name << " = input.";
if (type->is_base_type()) {
t_base_type::t_base tbase = ((t_base_type*)type)->get_base();
switch (tbase) {
case t_base_type::TYPE_VOID:
throw "compiler error: cannot serialize void field in a struct: " +
name;
break;
case t_base_type::TYPE_STRING:
out << "readString()";
break;
case t_base_type::TYPE_BOOL:
out << "readBool()";
break;
case t_base_type::TYPE_BYTE:
out << "readByte()";
break;
case t_base_type::TYPE_I16:
out << "readI16()";
break;
case t_base_type::TYPE_I32:
out << "readI32()";
break;
case t_base_type::TYPE_I64:
out << "readI64()";
break;
case t_base_type::TYPE_DOUBLE:
out << "readDouble()";
break;
default:
throw "compiler error: no JS name for base type " + t_base_type::t_base_name(tbase);
}
} else if (type->is_enum()) {
out << "readI32()";
}
if (!gen_node_) {
out << ".value";
}
out << ";" << endl;
} else {
printf("DO NOT KNOW HOW TO DESERIALIZE FIELD '%s' TYPE '%s'\n",
tfield->get_name().c_str(), type->get_name().c_str());
}
}
/**
* Generates an unserializer for a variable. This makes two key assumptions,
* first that there is a const char* variable named data that points to the
* buffer for deserialization, and that there is a variable protocol which
* is a reference to a TProtocol serialization object.
*/
void t_js_generator::generate_deserialize_struct(ofstream &out,
t_struct* tstruct,
string prefix) {
out <<
indent() << prefix << " = new " << js_type_namespace(tstruct->get_program())<<tstruct->get_name() << "();" << endl <<
indent() << prefix << ".read(input);" << endl;
}
void t_js_generator::generate_deserialize_container(ofstream &out,
t_type* ttype,
string prefix) {
string size = tmp("_size");
string ktype = tmp("_ktype");
string vtype = tmp("_vtype");
string etype = tmp("_etype");
string rtmp3 = tmp("_rtmp3");
t_field fsize(g_type_i32, size);
t_field fktype(g_type_byte, ktype);
t_field fvtype(g_type_byte, vtype);
t_field fetype(g_type_byte, etype);
out << indent() << "var " << size << " = 0;" << endl;
out << indent() << "var " << rtmp3 << ";" << endl;
// Declare variables, read header
if (ttype->is_map()) {
out <<
indent() << prefix << " = {};" << endl <<
indent() << "var " << ktype << " = 0;" << endl <<
indent() << "var " << vtype << " = 0;" << endl;
out << indent() << rtmp3 << " = input.readMapBegin();" << endl;
out << indent() << ktype << " = " << rtmp3 << ".ktype;" << endl;
out << indent() << vtype << " = " << rtmp3 << ".vtype;" << endl;
out << indent() << size << " = " << rtmp3 << ".size;" << endl;
} else if (ttype->is_set()) {
out <<
indent() << prefix << " = [];" << endl <<
indent() << "var " << etype << " = 0;" << endl <<
indent() << rtmp3 << " = input.readSetBegin();" << endl <<
indent() << etype << " = " << rtmp3 << ".etype;"<<endl<<
indent() << size << " = " << rtmp3 << ".size;"<<endl;
} else if (ttype->is_list()) {
out <<
indent() << prefix << " = [];" << endl <<
indent() << "var " << etype << " = 0;" << endl <<
indent() << rtmp3 << " = input.readListBegin();" << endl <<
indent() << etype << " = " << rtmp3 << ".etype;"<<endl<<
indent() << size << " = " << rtmp3 << ".size;"<<endl;
}
// For loop iterates over elements
string i = tmp("_i");
indent(out) <<
"for (var " <<
i << " = 0; " << i << " < " << size << "; ++" << i << ")" << endl;
scope_up(out);
if (ttype->is_map()) {
generate_deserialize_map_element(out, (t_map*)ttype, prefix);
} else if (ttype->is_set()) {
generate_deserialize_set_element(out, (t_set*)ttype, prefix);
} else if (ttype->is_list()) {
generate_deserialize_list_element(out, (t_list*)ttype, prefix);
}
scope_down(out);
// Read container end
if (ttype->is_map()) {
indent(out) << "input.readMapEnd();" << endl;
} else if (ttype->is_set()) {
indent(out) << "input.readSetEnd();" << endl;
} else if (ttype->is_list()) {
indent(out) << "input.readListEnd();" << endl;
}
}
/**
* Generates code to deserialize a map
*/
void t_js_generator::generate_deserialize_map_element(ofstream &out,
t_map* tmap,
string prefix) {
string key = tmp("key");
string val = tmp("val");
t_field fkey(tmap->get_key_type(), key);
t_field fval(tmap->get_val_type(), val);
indent(out) <<
declare_field(&fkey, false, false) << ";" << endl;
indent(out) <<
declare_field(&fval, false, false) << ";" << endl;
generate_deserialize_field(out, &fkey);
generate_deserialize_field(out, &fval);
indent(out) <<
prefix << "[" << key << "] = " << val << ";" << endl;
}
void t_js_generator::generate_deserialize_set_element(ofstream &out,
t_set* tset,
string prefix) {
string elem = tmp("elem");
t_field felem(tset->get_elem_type(), elem);
indent(out) <<
"var " << elem << " = null;" << endl;
generate_deserialize_field(out, &felem);
indent(out) <<
prefix << ".push(" << elem << ");" << endl;
}
void t_js_generator::generate_deserialize_list_element(ofstream &out,
t_list* tlist,
string prefix) {
string elem = tmp("elem");
t_field felem(tlist->get_elem_type(), elem);
indent(out) <<
"var " << elem << " = null;" << endl;
generate_deserialize_field(out, &felem);
indent(out) <<
prefix << ".push(" << elem << ");" << endl;
}
/**
* Serializes a field of any type.
*
* @param tfield The field to serialize
* @param prefix Name to prepend to field name
*/
void t_js_generator::generate_serialize_field(ofstream &out,
t_field* tfield,
string prefix) {
t_type* type = get_true_type(tfield->get_type());
// Do nothing for void types
if (type->is_void()) {
throw "CANNOT GENERATE SERIALIZE CODE FOR void TYPE: " +
prefix + tfield->get_name();
}
if (type->is_struct() || type->is_xception()) {
generate_serialize_struct(out,
(t_struct*)type,
prefix +tfield->get_name() );
} else if (type->is_container()) {
generate_serialize_container(out,
type,
prefix + tfield->get_name());
} else if (type->is_base_type() || type->is_enum()) {
string name = tfield->get_name();
//Hack for when prefix is defined (always a hash ref)
if(!prefix.empty())
name = prefix + tfield->get_name();
indent(out) << "output.";
if (type->is_base_type()) {
t_base_type::t_base tbase = ((t_base_type*)type)->get_base();
switch (tbase) {
case t_base_type::TYPE_VOID:
throw
"compiler error: cannot serialize void field in a struct: " + name;
break;
case t_base_type::TYPE_STRING:
out << "writeString(" << name << ")";
break;
case t_base_type::TYPE_BOOL:
out << "writeBool(" << name << ")";
break;
case t_base_type::TYPE_BYTE:
out << "writeByte(" << name << ")";
break;
case t_base_type::TYPE_I16:
out << "writeI16(" << name << ")";
break;
case t_base_type::TYPE_I32:
out << "writeI32(" << name << ")";
break;
case t_base_type::TYPE_I64:
out << "writeI64(" << name << ")";
break;
case t_base_type::TYPE_DOUBLE:
out << "writeDouble(" << name << ")";
break;
default:
throw "compiler error: no JS name for base type " + t_base_type::t_base_name(tbase);
}
} else if (type->is_enum()) {
out << "writeI32(" << name << ")";
}
out << ";" << endl;
} else {
printf("DO NOT KNOW HOW TO SERIALIZE FIELD '%s%s' TYPE '%s'\n",
prefix.c_str(),
tfield->get_name().c_str(),
type->get_name().c_str());
}
}
/**
* Serializes all the members of a struct.
*
* @param tstruct The struct to serialize
* @param prefix String prefix to attach to all fields
*/
void t_js_generator::generate_serialize_struct(ofstream &out,
t_struct* tstruct,
string prefix) {
(void) tstruct;
indent(out) << prefix << ".write(output);" << endl;
}
/**
* Writes out a container
*/
void t_js_generator::generate_serialize_container(ofstream &out,
t_type* ttype,
string prefix) {
if (ttype->is_map()) {
indent(out) <<
"output.writeMapBegin(" <<
type_to_enum(((t_map*)ttype)->get_key_type()) << ", " <<
type_to_enum(((t_map*)ttype)->get_val_type()) << ", " <<
"Thrift.objectLength(" << prefix << "));" << endl;
} else if (ttype->is_set()) {
indent(out) <<
"output.writeSetBegin(" <<
type_to_enum(((t_set*)ttype)->get_elem_type()) << ", " <<
prefix << ".length);" << endl;
} else if (ttype->is_list()) {
indent(out) <<
"output.writeListBegin(" <<
type_to_enum(((t_list*)ttype)->get_elem_type()) << ", " <<
prefix << ".length);" << endl;
}
if (ttype->is_map()) {
string kiter = tmp("kiter");
string viter = tmp("viter");
indent(out) << "for (var "<<kiter<<" in "<<prefix<<")" << endl;
scope_up(out);
indent(out) << "if ("<<prefix<<".hasOwnProperty("<<kiter<<"))" <<endl;
scope_up(out);
indent(out) << "var "<<viter<<" = "<<prefix<<"["<<kiter<<"];"<<endl;
generate_serialize_map_element(out, (t_map*)ttype, kiter, viter);
scope_down(out);
scope_down(out);
} else if (ttype->is_set()) {
string iter = tmp("iter");
indent(out) <<
"for (var "<<iter<<" in " << prefix << ")" << endl;
scope_up(out);
indent(out) << "if ("<<prefix<<".hasOwnProperty("<<iter<<"))" <<endl;
scope_up(out);
indent(out) << iter << " = " << prefix << "[" << iter << "];"<< endl;
generate_serialize_set_element(out, (t_set*)ttype, iter);
scope_down(out);
scope_down(out);
} else if (ttype->is_list()) {
string iter = tmp("iter");
indent(out) <<
"for (var "<<iter<<" in "<< prefix << ")" << endl;
scope_up(out);
indent(out) << "if ("<<prefix<<".hasOwnProperty("<<iter<<"))" <<endl;
scope_up(out);
indent(out) << iter << " = " << prefix << "[" << iter << "];"<< endl;
generate_serialize_list_element(out, (t_list*)ttype, iter);
scope_down(out);
scope_down(out);
}
if (ttype->is_map()) {
indent(out) <<
"output.writeMapEnd();" << endl;
} else if (ttype->is_set()) {
indent(out) <<
"output.writeSetEnd();" << endl;
} else if (ttype->is_list()) {
indent(out) <<
"output.writeListEnd();" << endl;
}
}
/**
* Serializes the members of a map.
*
*/
void t_js_generator::generate_serialize_map_element(ofstream &out,
t_map* tmap,
string kiter,
string viter) {
t_field kfield(tmap->get_key_type(), kiter);
generate_serialize_field(out, &kfield);
t_field vfield(tmap->get_val_type(), viter);
generate_serialize_field(out, &vfield);
}
/**
* Serializes the members of a set.
*/
void t_js_generator::generate_serialize_set_element(ofstream &out,
t_set* tset,
string iter) {
t_field efield(tset->get_elem_type(), iter);
generate_serialize_field(out, &efield);
}
/**
* Serializes the members of a list.
*/
void t_js_generator::generate_serialize_list_element(ofstream &out,
t_list* tlist,
string iter) {
t_field efield(tlist->get_elem_type(), iter);
generate_serialize_field(out, &efield);
}
/**
* Declares a field, which may include initialization as necessary.
*
* @param ttype The type
*/
string t_js_generator::declare_field(t_field* tfield, bool init, bool obj) {
string result = "this." + tfield->get_name();
if(!obj){
result = "var " + tfield->get_name();
}
if (init) {
t_type* type = get_true_type(tfield->get_type());
if (type->is_base_type()) {
t_base_type::t_base tbase = ((t_base_type*)type)->get_base();
switch (tbase) {
case t_base_type::TYPE_VOID:
break;
case t_base_type::TYPE_STRING:
case t_base_type::TYPE_BOOL:
case t_base_type::TYPE_BYTE:
case t_base_type::TYPE_I16:
case t_base_type::TYPE_I32:
case t_base_type::TYPE_I64:
case t_base_type::TYPE_DOUBLE:
result += " = null";
break;
default:
throw "compiler error: no JS initializer for base type " + t_base_type::t_base_name(tbase);
}
} else if (type->is_enum()) {
result += " = null";
} else if (type->is_map()){
result += " = null";
} else if (type->is_container()) {
result += " = null";
} else if (type->is_struct() || type->is_xception()) {
if (obj) {
result += " = new " +js_type_namespace(type->get_program()) + type->get_name() + "()";
} else {
result += " = null";
}
}
} else {
result += " = null";
}
return result;
}
/**
* Renders a function signature of the form 'type name(args)'
*
* @param tfunction Function definition
* @return String of rendered function definition
*/
string t_js_generator::function_signature(t_function* tfunction,
string prefix,
bool include_callback) {
string str;
str = prefix + tfunction->get_name() + " = function(";
str += argument_list(tfunction->get_arglist(), include_callback);
str += ")";
return str;
}
/**
* Renders a field list
*/
string t_js_generator::argument_list(t_struct* tstruct,
bool include_callback) {
string result = "";
const vector<t_field*>& fields = tstruct->get_members();
vector<t_field*>::const_iterator f_iter;
bool first = true;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
if (first) {
first = false;
} else {
result += ", ";
}
result += (*f_iter)->get_name();
}
if (include_callback) {
if (!fields.empty()) {
result += ", ";
}
result += "callback";
}
return result;
}
/**
* Converts the parse type to a C++ enum string for the given type.
*/
string t_js_generator ::type_to_enum(t_type* type) {
type = get_true_type(type);
if (type->is_base_type()) {
t_base_type::t_base tbase = ((t_base_type*)type)->get_base();
switch (tbase) {
case t_base_type::TYPE_VOID:
throw "NO T_VOID CONSTRUCT";
case t_base_type::TYPE_STRING:
return "Thrift.Type.STRING";
case t_base_type::TYPE_BOOL:
return "Thrift.Type.BOOL";
case t_base_type::TYPE_BYTE:
return "Thrift.Type.BYTE";
case t_base_type::TYPE_I16:
return "Thrift.Type.I16";
case t_base_type::TYPE_I32:
return "Thrift.Type.I32";
case t_base_type::TYPE_I64:
return "Thrift.Type.I64";
case t_base_type::TYPE_DOUBLE:
return "Thrift.Type.DOUBLE";
}
} else if (type->is_enum()) {
return "Thrift.Type.I32";
} else if (type->is_struct() || type->is_xception()) {
return "Thrift.Type.STRUCT";
} else if (type->is_map()) {
return "Thrift.Type.MAP";
} else if (type->is_set()) {
return "Thrift.Type.SET";
} else if (type->is_list()) {
return "Thrift.Type.LIST";
}
throw "INVALID TYPE IN type_to_enum: " + type->get_name();
}
THRIFT_REGISTER_GENERATOR(js, "Javascript",
" jquery: Generate jQuery compatible code.\n"
" node: Generate node.js compatible code.\n")