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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 <stdlib.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sstream>
#include "t_oop_generator.h"
#include "platform.h"
using namespace std;
/**
* OCaml code generator.
*
*/
class t_ocaml_generator : public t_oop_generator {
public:
t_ocaml_generator(
t_program* program,
const std::map<std::string, std::string>& parsed_options,
const std::string& option_string)
: t_oop_generator(program)
{
out_dir_base_ = "gen-ocaml";
}
/**
* Init and close methods
*/
void init_generator();
void close_generator();
/**
* Program-level generation functions
*/
void generate_program ();
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_const_value(t_type* type, t_const_value* value);
bool struct_member_persistent(t_field *tmember);
bool struct_member_omitable(t_field *tmember);
bool struct_member_default_cheaply_comparable(t_field *tmember);
std::string struct_member_copy_of(t_type *type, string what);
/**
* Struct generation code
*/
void generate_ocaml_struct(t_struct* tstruct, bool is_exception);
void generate_ocaml_struct_definition(std::ofstream& out, t_struct* tstruct, bool is_xception=false);
void generate_ocaml_struct_member(std::ofstream& out, string tname, t_field* tmember);
void generate_ocaml_struct_sig(std::ofstream& out, t_struct* tstruct, bool is_exception);
void generate_ocaml_struct_reader(std::ofstream& out, t_struct* tstruct);
void generate_ocaml_struct_writer(std::ofstream& out, t_struct* tstruct);
void generate_ocaml_function_helpers(t_function* tfunction);
void generate_ocaml_method_copy(std::ofstream& out, const vector<t_field *>& members);
void generate_ocaml_member_copy(std::ofstream& out, t_field *member);
/**
* Service-level generation functions
*/
void generate_service_helpers (t_service* tservice);
void generate_service_interface (t_service* tservice);
void generate_service_client (t_service* tservice);
void generate_service_server (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);
void generate_deserialize_struct (std::ofstream &out,
t_struct* tstruct);
void generate_deserialize_container (std::ofstream &out,
t_type* ttype);
void generate_deserialize_set_element (std::ofstream &out,
t_set* tset);
void generate_deserialize_list_element (std::ofstream &out,
t_list* tlist,
std::string prefix="");
void generate_deserialize_type (std::ofstream &out,
t_type* type);
void generate_serialize_field (std::ofstream &out,
t_field* tfield,
std::string name= "");
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 ocaml_autogen_comment();
std::string ocaml_imports();
std::string type_name(t_type* ttype);
std::string function_signature(t_function* tfunction, std::string prefix="");
std::string function_type(t_function* tfunc, bool method=false, bool options = false);
std::string argument_list(t_struct* tstruct);
std::string type_to_enum(t_type* ttype);
std::string render_ocaml_type(t_type* type);
private:
/**
* File streams
*/
std::ofstream f_types_;
std::ofstream f_consts_;
std::ofstream f_service_;
std::ofstream f_types_i_;
std::ofstream f_service_i_;
};
/*
* This is necessary because we want typedefs to appear later,
* after all the types have been declared.
*/
void t_ocaml_generator::generate_program() {
// Initialize the generator
init_generator();
// Generate enums
vector<t_enum*> enums = program_->get_enums();
vector<t_enum*>::iterator en_iter;
for (en_iter = enums.begin(); en_iter != enums.end(); ++en_iter) {
generate_enum(*en_iter);
}
// Generate structs
vector<t_struct*> structs = program_->get_structs();
vector<t_struct*>::iterator st_iter;
for (st_iter = structs.begin(); st_iter != structs.end(); ++st_iter) {
generate_struct(*st_iter);
}
// Generate xceptions
vector<t_struct*> xceptions = program_->get_xceptions();
vector<t_struct*>::iterator x_iter;
for (x_iter = xceptions.begin(); x_iter != xceptions.end(); ++x_iter) {
generate_xception(*x_iter);
}
// Generate typedefs
vector<t_typedef*> typedefs = program_->get_typedefs();
vector<t_typedef*>::iterator td_iter;
for (td_iter = typedefs.begin(); td_iter != typedefs.end(); ++td_iter) {
generate_typedef(*td_iter);
}
// Generate services
vector<t_service*> services = program_->get_services();
vector<t_service*>::iterator sv_iter;
for (sv_iter = services.begin(); sv_iter != services.end(); ++sv_iter) {
service_name_ = get_service_name(*sv_iter);
generate_service(*sv_iter);
}
// Generate constants
vector<t_const*> consts = program_->get_consts();
generate_consts(consts);
// Close the generator
close_generator();
}
/**
* Prepares for file generation by opening up the necessary file output
* streams.
*
* @param tprogram The program to generate
*/
void t_ocaml_generator::init_generator() {
// Make output directory
MKDIR(get_out_dir().c_str());
// Make output file
string f_types_name = get_out_dir()+program_name_+"_types.ml";
f_types_.open(f_types_name.c_str());
string f_types_i_name = get_out_dir()+program_name_+"_types.mli";
f_types_i_.open(f_types_i_name.c_str());
string f_consts_name = get_out_dir()+program_name_+"_consts.ml";
f_consts_.open(f_consts_name.c_str());
// Print header
f_types_ <<
ocaml_autogen_comment() << endl <<
ocaml_imports() << endl;
f_types_i_ <<
ocaml_autogen_comment() << endl <<
ocaml_imports() << endl;
f_consts_ <<
ocaml_autogen_comment() << endl <<
ocaml_imports() << endl <<
"open " << capitalize(program_name_)<<"_types"<< endl;
}
/**
* Autogen'd comment
*/
string t_ocaml_generator::ocaml_autogen_comment() {
return
std::string("(*\n") +
" Autogenerated by Thrift\n" +
"\n" +
" DO NOT EDIT UNLESS YOU ARE SURE YOU KNOW WHAT YOU ARE DOING\n" +
"*)\n";
}
/**
* Prints standard thrift imports
*/
string t_ocaml_generator::ocaml_imports() {
return "open Thrift";
}
/**
* Closes the type files
*/
void t_ocaml_generator::close_generator() {
// Close types file
f_types_.close();
}
/**
* Generates a typedef. Ez.
*
* @param ttypedef The type definition
*/
void t_ocaml_generator::generate_typedef(t_typedef* ttypedef) {
f_types_ <<
indent() << "type "<< decapitalize(ttypedef->get_symbolic()) << " = " << render_ocaml_type(ttypedef->get_type()) << endl << endl;
f_types_i_ <<
indent() << "type "<< decapitalize(ttypedef->get_symbolic()) << " = " << render_ocaml_type(ttypedef->get_type()) << endl << endl;
}
/**
* Generates code for an enumerated type.
* the values.
*
* @param tenum The enumeration
*/
void t_ocaml_generator::generate_enum(t_enum* tenum) {
indent(f_types_) << "module " << capitalize(tenum->get_name()) << " = " << endl << "struct" << endl;
indent(f_types_i_) << "module " << capitalize(tenum->get_name()) << " : " << endl << "sig" << endl;
indent_up();
indent(f_types_) << "type t = " << endl;
indent(f_types_i_) << "type t = " << endl;
indent_up();
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) {
string name = capitalize((*c_iter)->get_name());
indent(f_types_) << "| " << name << endl;
indent(f_types_i_) << "| " << name << endl;
}
indent_down();
indent(f_types_) << "let to_i = function" << endl;
indent(f_types_i_) << "val to_i : t -> int" << endl;
indent_up();
for (c_iter = constants.begin(); c_iter != constants.end(); ++c_iter) {
int value = (*c_iter)->get_value();
string name = capitalize((*c_iter)->get_name());
indent(f_types_) << "| " << name << " -> " << value << endl;
}
indent_down();
indent(f_types_) << "let of_i = function" << endl;
indent(f_types_i_) << "val of_i : int -> t" << endl;
indent_up();
for(c_iter = constants.begin(); c_iter != constants.end(); ++c_iter) {
int value = (*c_iter)->get_value();
string name = capitalize((*c_iter)->get_name());
indent(f_types_) << "| " << value << " -> " << name << endl;
}
indent(f_types_) << "| _ -> raise Thrift_error" << endl;
indent_down();
indent_down();
indent(f_types_) << "end" << endl;
indent(f_types_i_) << "end" << endl;
}
/**
* Generate a constant value
*/
void t_ocaml_generator::generate_const(t_const* tconst) {
t_type* type = tconst->get_type();
string name = decapitalize(tconst->get_name());
t_const_value* value = tconst->get_value();
indent(f_consts_) << "let " << name << " = " << render_const_value(type, value) << endl << 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_ocaml_generator::render_const_value(t_type* type, t_const_value* value) {
type = get_true_type(type);
std::ostringstream out;
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 << '"' << get_escaped_string(value) << '"';
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:
out << value->get_integer();
break;
case t_base_type::TYPE_I64:
out << value->get_integer() << "L";
break;
case t_base_type::TYPE_DOUBLE:
if (value->get_type() == t_const_value::CV_INTEGER) {
out << value->get_integer();
} else if(value->get_double() == 0.0) {
out << "0.0"; // OCaml can't bear '0' in place of double.
} 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()) {
t_enum* tenum = (t_enum*)type;
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 val = (*c_iter)->get_value();
if (val == value->get_integer()) {
indent(out) << capitalize(tenum->get_name()) << "." << capitalize((*c_iter)->get_name());
break;
}
}
} else if (type->is_struct() || type->is_xception()) {
string cname = type_name(type);
string ct = tmp("_c");
out << endl;
indent_up();
indent(out) << "(let " << ct << " = new " << cname << " in" << 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();
}
string fname = v_iter->first->get_string();
out << indent();
out << ct <<"#set_" << fname << " ";
out << render_const_value(field_type, v_iter->second);
out << ";" << endl;
}
indent(out) << ct << ")";
indent_down();
indent_down();
} else if (type->is_map()) {
t_type* ktype = ((t_map*)type)->get_key_type();
t_type* vtype = ((t_map*)type)->get_val_type();
const map<t_const_value*, t_const_value*>& val = value->get_map();
map<t_const_value*, t_const_value*>::const_iterator v_iter;
string hm = tmp("_hm");
out << endl;
indent_up();
indent(out) << "(let " << hm << " = Hashtbl.create " << val.size() << " in" << endl;
indent_up();
for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {
string key = render_const_value(ktype, v_iter->first);
string val = render_const_value(vtype, v_iter->second);
indent(out) << "Hashtbl.add " << hm << " " << key << " " << val << ";" << endl;
}
indent(out) << hm << ")";
indent_down();
indent_down();
} else if (type->is_list()) {
t_type* etype;
etype = ((t_list*)type)->get_elem_type();
out << "[" << endl;
indent_up();
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) {
out << indent();
out << render_const_value(etype, *v_iter);
out << ";" << endl;
}
indent_down();
indent(out) << "]";
} else if (type->is_set()) {
t_type* etype = ((t_set*)type)->get_elem_type();
const vector<t_const_value*>& val = value->get_list();
vector<t_const_value*>::const_iterator v_iter;
string hm = tmp("_hm");
indent(out) << "(let " << hm << " = Hashtbl.create " << val.size() << " in" << endl;
indent_up();
for (v_iter = val.begin(); v_iter != val.end(); ++v_iter) {
string val = render_const_value(etype, *v_iter);
indent(out) << "Hashtbl.add " << hm << " " << val << " true;" << endl;
}
indent(out) << hm << ")" << endl;
indent_down();
out << endl;
} else {
throw "CANNOT GENERATE CONSTANT FOR TYPE: " + type->get_name();
}
return out.str();
}
/**
* Generates a "struct"
*/
void t_ocaml_generator::generate_struct(t_struct* tstruct) {
generate_ocaml_struct(tstruct, false);
}
/**
* Generates a struct definition for a thrift exception. Basically the same
* as a struct, but also has an exception declaration.
*
* @param txception The struct definition
*/
void t_ocaml_generator::generate_xception(t_struct* txception) {
generate_ocaml_struct(txception, true);
}
/**
* Generates an OCaml struct
*/
void t_ocaml_generator::generate_ocaml_struct(t_struct* tstruct,
bool is_exception) {
generate_ocaml_struct_definition(f_types_, tstruct, is_exception);
generate_ocaml_struct_sig(f_types_i_,tstruct,is_exception);
}
void t_ocaml_generator::generate_ocaml_method_copy(ofstream& out,
const vector<t_field *>& members) {
vector<t_field*>::const_iterator m_iter;
/* Create a copy of the current object */
indent(out) << "method copy =" << endl;
indent_up(); indent_up();
indent(out) << "let _new = Oo.copy self in" << endl;
for (m_iter = members.begin(); m_iter != members.end(); ++m_iter)
generate_ocaml_member_copy(out, *m_iter);
indent_down();
indent(out) << "_new" << endl;
indent_down();
}
string t_ocaml_generator::struct_member_copy_of(t_type *type, string what) {
if (type->is_struct() || type->is_xception()) {
return what + string ("#copy");
} if (type->is_map()) {
string copy_of_k = struct_member_copy_of(((t_map *)type)->get_key_type(), "k");
string copy_of_v = struct_member_copy_of(((t_map *)type)->get_val_type(), "v");
if(copy_of_k == "k" && copy_of_v == "v") {
return string ("(Hashtbl.copy ") + what + string(")");
} else {
return string ("((fun oh -> let nh = Hashtbl.create (Hashtbl.length oh) in Hashtbl.iter (fun k v -> Hashtbl.add nh ")
+ copy_of_k + string(" ") + copy_of_v
+ string(") oh; nh) ")
+ what + ")";
}
} if (type->is_set()) {
string copy_of = struct_member_copy_of(((t_set *)type)->get_elem_type(), "k");
if(copy_of == "k") {
return string ("(Hashtbl.copy ") + what + string(")");
} else {
return string ("((fun oh -> let nh = Hashtbl.create (Hashtbl.length oh) in Hashtbl.iter (fun k v -> Hashtbl.add nh ")
+ copy_of + string(" true")
+ string(") oh; nh) ")
+ what + ")";
}
} if (type->is_list()) {
string copy_of = struct_member_copy_of(((t_list *)type)->get_elem_type(), "x");
if(copy_of != "x") {
return string("(List.map (fun x -> ")
+ copy_of + string (") ")
+ what + string(")");
} else {
return what;
}
}
return what;
}
void t_ocaml_generator::generate_ocaml_member_copy(ofstream& out,
t_field *tmember) {
string mname = decapitalize(tmember->get_name());
t_type* type = get_true_type(tmember->get_type());
string grab_field = string("self#grab_") + mname;
string copy_of = struct_member_copy_of(type, grab_field);
if(copy_of != grab_field) {
indent(out);
if(!struct_member_persistent(tmember)) {
out << "if _" << mname << " <> None then" << endl;
indent(out) << " ";
}
out << "_new#set_" << mname << " " << copy_of << ";" << endl;
}
}
/**
* Generates a struct definition for a thrift data type.
*
* @param tstruct The struct definition
*/
void t_ocaml_generator::generate_ocaml_struct_definition(ofstream& out,
t_struct* tstruct,
bool is_exception) {
const vector<t_field*>& members = tstruct->get_members();
vector<t_field*>::const_iterator m_iter;
string tname = type_name(tstruct);
indent(out) << "class " << tname << " =" << endl;
indent(out) << "object (self)" << endl;
indent_up();
if (members.size() > 0) {
for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) {
generate_ocaml_struct_member(out, tname, (*m_iter));
out << endl;
}
}
generate_ocaml_method_copy(out, members);
generate_ocaml_struct_writer(out, tstruct);
indent_down();
indent(out) << "end" << endl;
if(is_exception){
indent(out) << "exception " << capitalize(tname) <<" of " << tname << endl;
}
generate_ocaml_struct_reader(out, tstruct);
}
/**
* Generates a structure member for a thrift data type.
*
* @param tname Name of the parent structure for the member
* @param tmember Member definition
*/
void t_ocaml_generator::generate_ocaml_struct_member(ofstream& out,
string tname,
t_field* tmember) {
string x = tmp("_x");
string mname = decapitalize(tmember->get_name());
indent(out) << "val mutable _" << mname << " : " << render_ocaml_type(tmember->get_type());
t_const_value *val = tmember->get_value();
if(val) {
if(struct_member_persistent(tmember))
out << " = " << render_const_value(tmember->get_type(), tmember->get_value()) << endl;
else
out << " option = Some " << render_const_value(tmember->get_type(), tmember->get_value()) << endl;
} else {
// assert(!struct_member_persistent(tmember))
out << " option = None" << endl;
}
if(struct_member_persistent(tmember)) {
indent(out) << "method get_" << mname << " = Some _" << mname << endl;
indent(out) << "method grab_" << mname << " = _" << mname << endl;
indent(out) << "method set_" << mname << " " << x << " = _" << mname << " <- " << x << endl;
} else {
indent(out) << "method get_" << mname << " = _" << mname << endl;
indent(out) << "method grab_" << mname << " = match _"<<mname<<" with None->raise (Field_empty \""<<tname<<"."<<mname<<"\") | Some " << x <<" -> " << x << endl;
indent(out) << "method set_" << mname << " " << x << " = _" << mname << " <- Some " << x << endl;
indent(out) << "method unset_" << mname << " = _" << mname << " <- None" << endl;
}
indent(out) << "method reset_" << mname << " = _" << mname << " <- ";
if(val) {
if(struct_member_persistent(tmember))
out << render_const_value(tmember->get_type(), tmember->get_value()) << endl;
else
out << "Some " << render_const_value(tmember->get_type(), tmember->get_value()) << endl;
} else {
out << "None" << endl;
}
}
/**
* Check whether a member of the structure can not have undefined value
*
* @param tmember Member definition
*/
bool t_ocaml_generator::struct_member_persistent(t_field *tmember) {
t_const_value *val = tmember->get_value();
return (val ? true : false);
}
/**
* Check whether a member of the structure can be skipped during encoding
*
* @param tmember Member definition
*/
bool t_ocaml_generator::struct_member_omitable(t_field *tmember) {
return (tmember->get_req() != t_field::T_REQUIRED);
}
/**
* Figure out whether a member of the structure has
* a cheaply comparable default value.
*
* @param tmember Member definition
*/
bool t_ocaml_generator::struct_member_default_cheaply_comparable(t_field *tmember) {
t_type* type = get_true_type(tmember->get_type());
t_const_value *val = tmember->get_value();
if(!val) {
return false;
} else if(type->is_base_type()) {
// Base types are generally cheaply compared for structural equivalence.
switch(((t_base_type*)type)->get_base()) {
case t_base_type::TYPE_DOUBLE:
if(val->get_double() == 0.0)
return true;
else
return false;
default:
return true;
}
} else if(type->is_list()) {
// Empty lists are cheaply compared for structural equivalence.
// Is empty list?
if(val->get_list().size() == 0)
return true;
else
return false;
} else {
return false;
}
}
/**
* Generates a struct definition for a thrift data type.
*
* @param tstruct The struct definition
*/
void t_ocaml_generator::generate_ocaml_struct_sig(ofstream& out,
t_struct* tstruct,
bool is_exception) {
const vector<t_field*>& members = tstruct->get_members();
vector<t_field*>::const_iterator m_iter;
string tname = type_name(tstruct);
indent(out) << "class " << tname << " :" << endl;
indent(out) << "object" << endl;
indent_up();
string x = tmp("_x");
if (members.size() > 0) {
for (m_iter = members.begin(); m_iter != members.end(); ++m_iter) {
string mname = decapitalize((*m_iter)->get_name());
string type = render_ocaml_type((*m_iter)->get_type());
indent(out) << "method get_" << mname << " : " << type << " option" << endl;
indent(out) << "method grab_" << mname << " : " << type << endl;
indent(out) << "method set_" << mname << " : " << type << " -> unit" << endl;
if(!struct_member_persistent(*m_iter))
indent(out) << "method unset_" << mname << " : unit" << endl;
indent(out) << "method reset_" << mname << " : unit" << endl;
}
}
indent(out) << "method copy : " << tname << endl;
indent(out) << "method write : Protocol.t -> unit" << endl;
indent_down();
indent(out) << "end" << endl;
if(is_exception){
indent(out) << "exception " << capitalize(tname) <<" of " << tname << endl;
}
indent(out) << "val read_" << tname << " : Protocol.t -> " << tname << endl;
}
/**
* Generates the read method for a struct
*/
void t_ocaml_generator::generate_ocaml_struct_reader(ofstream& out, t_struct* tstruct) {
const vector<t_field*>& fields = tstruct->get_members();
vector<t_field*>::const_iterator f_iter;
string sname = type_name(tstruct);
string str = tmp("_str");
string t = tmp("_t");
string id = tmp("_id");
indent(out) <<
"let rec read_" << sname << " (iprot : Protocol.t) =" << endl;
indent_up();
indent(out) << "let " << str << " = new " << sname << " in" << endl;
indent_up();
indent(out) <<
"ignore(iprot#readStructBegin);" << endl;
// Loop over reading in fields
indent(out) <<
"(try while true do" << endl;
indent_up();
indent_up();
// Read beginning field marker
indent(out) <<
"let (_," << t <<","<<id<<") = iprot#readFieldBegin in" << endl;
// Check for field STOP marker and break
indent(out) <<
"if " << t <<" = Protocol.T_STOP then" << endl;
indent_up();
indent(out) <<
"raise Break" << endl;
indent_down();
indent(out) << "else ();" << endl;
indent(out) << "(match " << id<<" with " << endl;
indent_up();
// Generate deserialization code for known cases
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
indent(out) << "| " << (*f_iter)->get_key() << " -> (";
out << "if " << t <<" = " << type_to_enum((*f_iter)->get_type()) << " then" << endl;
indent_up();
indent_up();
generate_deserialize_field(out, *f_iter,str);
indent_down();
out <<
indent() << "else" << endl <<
indent() << " iprot#skip "<< t << ")" << endl;
indent_down();
}
// In the default case we skip the field
out <<
indent() << "| _ -> " << "iprot#skip "<<t<<");" << endl;
indent_down();
// Read field end marker
indent(out) << "iprot#readFieldEnd;" << endl;
indent_down();
indent(out) << "done; ()" << endl;
indent_down();
indent(out) << "with Break -> ());" << endl;
indent(out) <<
"iprot#readStructEnd;" << endl;
indent(out) << str << endl << endl;
indent_down();
indent_down();
}
void t_ocaml_generator::generate_ocaml_struct_writer(ofstream& out,
t_struct* tstruct) {
string name = tstruct->get_name();
const vector<t_field*>& fields = tstruct->get_sorted_members();
vector<t_field*>::const_iterator f_iter;
string str = tmp("_str");
string f = tmp("_f");
indent(out) <<
"method write (oprot : Protocol.t) =" << endl;
indent_up();
indent(out) <<
"oprot#writeStructBegin \""<<name<<"\";" << endl;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
t_field *tmember = (*f_iter);
string mname = "_"+decapitalize(tmember->get_name());
string _v;
if(struct_member_persistent(tmember)) {
if(struct_member_omitable(tmember)
&& struct_member_default_cheaply_comparable(tmember)) {
_v = "_v";
// Avoid redundant encoding of members having default values.
indent(out) << "(match " << mname << " with "
<< render_const_value(tmember->get_type(), tmember->get_value())
<< " -> () | " << _v << " -> " << endl;
} else {
_v = mname;
indent(out) << "(" << endl;
}
} else {
indent(out) << "(match " << mname << " with ";
if(struct_member_omitable(tmember)) {
out << "None -> ()";
if(struct_member_default_cheaply_comparable(tmember)) {
// Avoid redundant encoding of members having default values.
out << " | Some "
<< render_const_value(tmember->get_type(), tmember->get_value())
<< " -> ()";
}
out << " | Some _v -> " << endl;
} else {
out << endl;
indent(out) << "| None -> raise (Field_empty \""
<< type_name(tstruct) << "." << mname << "\")" << endl;
indent(out) << "| Some _v -> " << endl;
}
_v = "_v";
}
indent_up();
// Write field header
indent(out) << "oprot#writeFieldBegin(\""<< tmember->get_name()<<"\","
<< type_to_enum(tmember->get_type()) << ","
<< tmember->get_key()<<");" << endl;
// Write field contents
generate_serialize_field(out, tmember, _v);
// Write field closer
indent(out) << "oprot#writeFieldEnd" << endl;
indent_down();
indent(out) << ");" << endl;
}
// Write the struct map
out <<
indent() << "oprot#writeFieldStop;" << endl <<
indent() << "oprot#writeStructEnd" << endl;
indent_down();
}
/**
* Generates a thrift service.
*
* @param tservice The service definition
*/
void t_ocaml_generator::generate_service(t_service* tservice) {
string f_service_name = get_out_dir()+capitalize(service_name_)+".ml";
f_service_.open(f_service_name.c_str());
string f_service_i_name = get_out_dir()+capitalize(service_name_)+".mli";
f_service_i_.open(f_service_i_name.c_str());
f_service_ <<
ocaml_autogen_comment() << endl <<
ocaml_imports() << endl;
f_service_i_ <<
ocaml_autogen_comment() << endl <<
ocaml_imports() << endl;
/* if (tservice->get_extends() != NULL) {
f_service_ <<
"open " << capitalize(tservice->get_extends()->get_name()) << endl;
f_service_i_ <<
"open " << capitalize(tservice->get_extends()->get_name()) << endl;
}
*/
f_service_ <<
"open " << capitalize(program_name_) << "_types" << endl <<
endl;
f_service_i_ <<
"open " << capitalize(program_name_) << "_types" << endl <<
endl;
// Generate the three main parts of the service
generate_service_helpers(tservice);
generate_service_interface(tservice);
generate_service_client(tservice);
generate_service_server(tservice);
// Close service file
f_service_.close();
f_service_i_.close();
}
/**
* Generates helper functions for a service.
*
* @param tservice The service to generate a header definition for
*/
void t_ocaml_generator::generate_service_helpers(t_service* tservice) {
vector<t_function*> functions = tservice->get_functions();
vector<t_function*>::iterator f_iter;
indent(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();
generate_ocaml_struct_definition(f_service_, ts, false);
generate_ocaml_function_helpers(*f_iter);
}
}
/**
* Generates a struct and helpers for a function.
*
* @param tfunction The function
*/
void t_ocaml_generator::generate_ocaml_function_helpers(t_function* tfunction) {
t_struct result(program_, decapitalize(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_ocaml_struct_definition(f_service_, &result, false);
}
/**
* Generates a service interface definition.
*
* @param tservice The service to generate a header definition for
*/
void t_ocaml_generator::generate_service_interface(t_service* tservice) {
f_service_ <<
indent() << "class virtual iface =" << endl << "object (self)" << endl;
f_service_i_ <<
indent() << "class virtual iface :" << endl << "object" << endl;
indent_up();
if (tservice->get_extends() != NULL) {
string extends = type_name(tservice->get_extends());
indent(f_service_) << "inherit " << extends << ".iface" << endl;
indent(f_service_i_) << "inherit " << extends << ".iface" << endl;
}
vector<t_function*> functions = tservice->get_functions();
vector<t_function*>::iterator f_iter;
for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) {
string ft = function_type(*f_iter,true,true);
f_service_ <<
indent() << "method virtual " << decapitalize((*f_iter)->get_name()) << " : " << ft << endl;
f_service_i_ <<
indent() << "method virtual " << decapitalize((*f_iter)->get_name()) << " : " << ft << endl;
}
indent_down();
indent(f_service_) << "end" << endl << endl;
indent(f_service_i_) << "end" << endl << endl;
}
/**
* Generates a service client definition. Note that in OCaml, the client doesn't implement iface. This is because
* The client does not (and should not have to) deal with arguments being None.
*
* @param tservice The service to generate a server for.
*/
void t_ocaml_generator::generate_service_client(t_service* tservice) {
string extends = "";
indent(f_service_) <<
"class client (iprot : Protocol.t) (oprot : Protocol.t) =" << endl << "object (self)" << endl;
indent(f_service_i_) <<
"class client : Protocol.t -> Protocol.t -> " << endl << "object" << endl;
indent_up();
if (tservice->get_extends() != NULL) {
extends = type_name(tservice->get_extends());
indent(f_service_) << "inherit " << extends << ".client iprot oprot as super" << endl;
indent(f_service_i_) << "inherit " << extends << ".client" << endl;
}
indent(f_service_) << "val mutable seqid = 0" << 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();
// Open function
indent(f_service_) <<
"method " << function_signature(*f_iter) << " = " << endl;
indent(f_service_i_) <<
"method " << decapitalize((*f_iter)->get_name()) << " : " << function_type(*f_iter,true,false) << endl;
indent_up();
indent(f_service_) <<
"self#send_" << funname;
for (fld_iter = fields.begin(); fld_iter != fields.end(); ++fld_iter) {
f_service_ << " " << decapitalize((*fld_iter)->get_name());
}
f_service_ << ";" << endl;
if (!(*f_iter)->is_oneway()) {
f_service_ << indent();
f_service_ <<
"self#recv_" << funname << endl;
}
indent_down();
indent(f_service_) <<
"method private send_" << function_signature(*f_iter) << " = " << endl;
indent_up();
std::string argsname = decapitalize((*f_iter)->get_name() + "_args");
// Serialize the request header
f_service_ <<
indent() << "oprot#writeMessageBegin (\"" << (*f_iter)->get_name() << "\", Protocol.CALL, seqid);" << endl;
f_service_ <<
indent() << "let args = new " << argsname << " in" << endl;
indent_up();
for (fld_iter = fields.begin(); fld_iter != fields.end(); ++fld_iter) {
f_service_ <<
indent() << "args#set_" << (*fld_iter)->get_name() << " " << (*fld_iter)->get_name() << ";" << endl;
}
// Write to the stream
f_service_ <<
indent() << "args#write oprot;" << endl <<
indent() << "oprot#writeMessageEnd;" << endl <<
indent() << "oprot#getTransport#flush" << endl;
indent_down();
indent_down();
if (!(*f_iter)->is_oneway()) {
std::string resultname = decapitalize((*f_iter)->get_name() + "_result");
t_struct noargs(program_);
t_function recv_function((*f_iter)->get_returntype(),
string("recv_") + (*f_iter)->get_name(),
&noargs);
// Open function
f_service_ <<
indent() << "method private " << function_signature(&recv_function) << " =" << endl;
indent_up();
// TODO(mcslee): Validate message reply here, seq ids etc.
f_service_ <<
indent() << "let (fname, mtype, rseqid) = iprot#readMessageBegin in" << endl;
indent_up();
f_service_ <<
indent() << "(if mtype = Protocol.EXCEPTION then" << endl <<
indent() << " let x = Application_Exn.read iprot in" << endl;
indent_up();
f_service_ <<
indent() << " (iprot#readMessageEnd;" <<
indent() << " raise (Application_Exn.E x))" << endl;
indent_down();
f_service_ <<
indent() << "else ());" << endl;
string res = "_";
t_struct* xs = (*f_iter)->get_xceptions();
const std::vector<t_field*>& xceptions = xs->get_members();
if (!(*f_iter)->get_returntype()->is_void() || xceptions.size() > 0) {
res = "result";
}
f_service_ <<
indent() << "let "<<res<<" = read_" << resultname << " iprot in" << endl;
indent_up();
f_service_ <<
indent() << "iprot#readMessageEnd;" << endl;
// Careful, only return _result if not a void function
if (!(*f_iter)->get_returntype()->is_void()) {
f_service_ <<
indent() << "match result#get_success with Some v -> v | None -> (" << endl;
indent_up();
}
vector<t_field*>::const_iterator x_iter;
for (x_iter = xceptions.begin(); x_iter != xceptions.end(); ++x_iter) {
f_service_ <<
indent() << "(match result#get_" << (*x_iter)->get_name() << " with None -> () | Some _v ->" << endl;
indent(f_service_) << " raise (" << capitalize(type_name((*x_iter)->get_type())) << " _v));" << endl;
}
// Careful, only return _result if not a void function
if ((*f_iter)->get_returntype()->is_void()) {
indent(f_service_) <<
"()" << endl;
} else {
f_service_ <<
indent() << "raise (Application_Exn.E (Application_Exn.create Application_Exn.MISSING_RESULT \"" << (*f_iter)->get_name() << " failed: unknown result\")))" << endl;
indent_down();
}
// Close function
indent_down();
indent_down();
indent_down();
}
}
indent_down();
indent(f_service_) << "end" << endl << endl;
indent(f_service_i_) << "end" << endl << endl;
}
/**
* Generates a service server definition.
*
* @param tservice The service to generate a server for.
*/
void t_ocaml_generator::generate_service_server(t_service* tservice) {
// Generate the dispatch methods
vector<t_function*> functions = tservice->get_functions();
vector<t_function*>::iterator f_iter;
// Generate the header portion
indent(f_service_) <<
"class processor (handler : iface) =" << endl << indent() << "object (self)" << endl;
indent(f_service_i_) <<
"class processor : iface ->" << endl << indent() << "object" << endl;
indent_up();
f_service_ <<
indent() << "inherit Processor.t" << endl <<
endl;
f_service_i_ <<
indent() << "inherit Processor.t" << endl <<
endl;
string extends = "";
if (tservice->get_extends() != NULL) {
extends = type_name(tservice->get_extends());
indent(f_service_) << "inherit " + extends + ".processor (handler :> " + extends + ".iface)" << endl;
indent(f_service_i_) << "inherit " + extends + ".processor" << endl;
}
if (extends.empty()) {
indent(f_service_) << "val processMap = Hashtbl.create " << functions.size() << endl;
}
indent(f_service_i_) << "val processMap : (string, int * Protocol.t * Protocol.t -> unit) Hashtbl.t" << endl;
// Generate the server implementation
indent(f_service_) <<
"method process iprot oprot =" << endl;
indent(f_service_i_) <<
"method process : Protocol.t -> Protocol.t -> bool" << endl;
indent_up();
f_service_ <<
indent() << "let (name, typ, seqid) = iprot#readMessageBegin in" << endl;
indent_up();
// TODO(mcslee): validate message
// HOT: dictionary function lookup
f_service_ <<
indent() << "if Hashtbl.mem processMap name then" << endl <<
indent() << " (Hashtbl.find processMap name) (seqid, iprot, oprot)" << endl <<
indent() << "else (" << endl <<
indent() << " iprot#skip(Protocol.T_STRUCT);" << endl <<
indent() << " iprot#readMessageEnd;" << endl <<
indent() << " let x = Application_Exn.create Application_Exn.UNKNOWN_METHOD (\"Unknown function \"^name) in" << endl <<
indent() << " oprot#writeMessageBegin(name, Protocol.EXCEPTION, seqid);" << endl <<
indent() << " x#write oprot;" << endl <<
indent() << " oprot#writeMessageEnd;" << endl <<
indent() << " oprot#getTransport#flush" << endl <<
indent() << ");" << endl;
// Read end of args field, the T_STOP, and the struct close
f_service_ <<
indent() << "true" << endl;
indent_down();
indent_down();
// Generate the process subfunctions
for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) {
generate_process_function(tservice, *f_iter);
}
indent(f_service_) << "initializer" << endl;
indent_up();
for (f_iter = functions.begin(); f_iter != functions.end(); ++f_iter) {
f_service_ <<
indent() << "Hashtbl.add processMap \"" << (*f_iter)->get_name() << "\" self#process_" << (*f_iter)->get_name() << ";" << endl;
}
indent_down();
indent_down();
indent(f_service_) << "end" << endl << endl;
indent(f_service_i_) << "end" << endl << endl;
}
/**
* Generates a process function definition.
*
* @param tfunction The function to write a dispatcher for
*/
void t_ocaml_generator::generate_process_function(t_service* tservice,
t_function* tfunction) {
// Open function
indent(f_service_) <<
"method private process_" << tfunction->get_name() <<
" (seqid, iprot, oprot) =" << endl;
indent_up();
string argsname = decapitalize(tfunction->get_name()) + "_args";
string resultname = decapitalize(tfunction->get_name()) + "_result";
// 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;
string args = "args";
if(fields.size() == 0){
args="_";
}
f_service_ <<
indent() << "let "<<args<<" = read_" << argsname << " iprot in" << endl;
indent_up();
f_service_ <<
indent() << "iprot#readMessageEnd;" << endl;
t_struct* xs = tfunction->get_xceptions();
const std::vector<t_field*>& xceptions = xs->get_members();
vector<t_field*>::const_iterator x_iter;
// Declare result for non oneway function
if (!tfunction->is_oneway()) {
f_service_ <<
indent() << "let result = new " << resultname << " in" << endl;
indent_up();
}
// Try block for a function with exceptions
if (xceptions.size() > 0) {
f_service_ <<
indent() << "(try" << endl;
indent_up();
}
f_service_ << indent();
if (!tfunction->is_oneway() && !tfunction->get_returntype()->is_void()) {
f_service_ << "result#set_success ";
}
f_service_ <<
"(handler#" << tfunction->get_name();
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
f_service_ << " args#get_" << (*f_iter)->get_name();
}
f_service_ << ");" << endl;
if (xceptions.size() > 0) {
indent_down();
indent(f_service_) << "with" <<endl;
indent_up();
for (x_iter = xceptions.begin(); x_iter != xceptions.end(); ++x_iter) {
f_service_ <<
indent() << "| " << capitalize(type_name((*x_iter)->get_type())) << " " << (*x_iter)->get_name() << " -> " << endl;
indent_up();
indent_up();
if(!tfunction->is_oneway()){
f_service_ <<
indent() << "result#set_" << (*x_iter)->get_name() << " " << (*x_iter)->get_name() << endl;
} else {
indent(f_service_) << "()";
}
indent_down();
indent_down();
}
indent_down();
f_service_ << indent() << ");" << endl;
}
// Shortcut out here for oneway functions
if (tfunction->is_oneway()) {
f_service_ <<
indent() << "()" << endl;
indent_down();
indent_down();
return;
}
f_service_ <<
indent() << "oprot#writeMessageBegin (\"" << tfunction->get_name() << "\", Protocol.REPLY, seqid);" << endl <<
indent() << "result#write oprot;" << endl <<
indent() << "oprot#writeMessageEnd;" << endl <<
indent() << "oprot#getTransport#flush" << endl;
// Close function
indent_down();
indent_down();
indent_down();
}
/**
* Deserializes a field of any type.
*/
void t_ocaml_generator::generate_deserialize_field(ofstream &out,
t_field* tfield,
string prefix){
t_type* type = tfield->get_type();
string name = decapitalize(tfield->get_name());
indent(out) << prefix << "#set_"<<name << " ";
generate_deserialize_type(out,type);
out << endl;
}
/**
* Deserializes a field of any type.
*/
void t_ocaml_generator::generate_deserialize_type(ofstream &out,
t_type* type){
type = get_true_type(type);
if (type->is_void()) {
throw "CANNOT GENERATE DESERIALIZE CODE FOR void TYPE";
}
if (type->is_struct() || type->is_xception()) {
generate_deserialize_struct(out,
(t_struct*)type);
} else if (type->is_container()) {
generate_deserialize_container(out, type);
} else if (type->is_base_type()) {
out << "iprot#";
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";
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 PHP name for base type " + t_base_type::t_base_name(tbase);
}
} else if (type->is_enum()) {
string ename = capitalize(type->get_name());
out << "(" <<ename << ".of_i iprot#readI32)";
} else {
printf("DO NOT KNOW HOW TO DESERIALIZE TYPE '%s'\n",
type->get_name().c_str());
}
}
/**
* Generates an unserializer for a struct, calling read()
*/
void t_ocaml_generator::generate_deserialize_struct(ofstream &out,
t_struct* tstruct) {
string name = decapitalize(tstruct->get_name());
out << "(read_" << name << " iprot)";
}
/**
* Serialize a container by writing out the header followed by
* data and then a footer.
*/
void t_ocaml_generator::generate_deserialize_container(ofstream &out,
t_type* ttype) {
string size = tmp("_size");
string ktype = tmp("_ktype");
string vtype = tmp("_vtype");
string etype = tmp("_etype");
string con = tmp("_con");
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 << endl;
indent_up();
// Declare variables, read header
if (ttype->is_map()) {
indent(out) << "(let ("<<ktype<<","<<vtype<<","<<size<<") = iprot#readMapBegin in" << endl;
indent(out) << "let "<<con<<" = Hashtbl.create "<<size<<" in" << endl;
indent_up();
indent(out) << "for i = 1 to "<<size<<" do" <<endl;
indent_up();
indent(out) << "let _k = ";
generate_deserialize_type(out,((t_map*)ttype)->get_key_type());
out << " in" << endl;
indent(out) << "let _v = ";
generate_deserialize_type(out,((t_map*)ttype)->get_val_type());
out << " in" << endl;
indent_up();
indent(out) << "Hashtbl.add "<<con<< " _k _v" << endl;
indent_down();
indent_down();
indent(out) << "done; iprot#readMapEnd; "<<con<<")";
indent_down();
} else if (ttype->is_set()) {
indent(out) << "(let ("<<etype<<","<<size<<") = iprot#readSetBegin in" << endl;
indent(out) << "let "<<con<<" = Hashtbl.create "<<size<<" in" << endl;
indent_up();
indent(out) << "for i = 1 to "<<size<<" do" <<endl;
indent_up();
indent(out) << "Hashtbl.add "<<con<<" ";
generate_deserialize_type(out,((t_set*)ttype)->get_elem_type());
out << " true" << endl;
indent_down();
indent(out) << "done; iprot#readSetEnd; "<<con<<")";
indent_down();
} else if (ttype->is_list()) {
indent(out) << "(let ("<<etype<<","<<size<<") = iprot#readListBegin in" << endl;
indent_up();
indent(out) << "let "<<con<<" = (Array.to_list (Array.init "<<size<<" (fun _ -> ";
generate_deserialize_type(out,((t_list*)ttype)->get_elem_type());
out << "))) in" << endl;
indent_up();
indent(out) << "iprot#readListEnd; "<<con<<")";
indent_down();
indent_down();
}
indent_down();
}
/**
* Serializes a field of any type.
*
* @param tfield The field to serialize
* @param prefix Name to prepend to field name
*/
void t_ocaml_generator::generate_serialize_field(ofstream &out,
t_field* tfield,
string name) {
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: " +
tfield->get_name();
}
if(name.length() == 0){
name = decapitalize(tfield->get_name());
}
if (type->is_struct() || type->is_xception()) {
generate_serialize_struct(out,
(t_struct*)type,
name);
} else if (type->is_container()) {
generate_serialize_container(out,
type,
name);
} else if (type->is_base_type() || type->is_enum()) {
indent(out) <<
"oprot#";
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 ocaml name for base type " + t_base_type::t_base_name(tbase);
}
} else if (type->is_enum()) {
string ename = capitalize(type->get_name());
out << "writeI32("<<ename<<".to_i " << name << ")";
}
} else {
printf("DO NOT KNOW HOW TO SERIALIZE FIELD '%s' TYPE '%s'\n",
tfield->get_name().c_str(),
type->get_name().c_str());
}
out << ";" << endl;
}
/**
* Serializes all the members of a struct.
*
* @param tstruct The struct to serialize
* @param prefix String prefix to attach to all fields
*/
void t_ocaml_generator::generate_serialize_struct(ofstream &out,
t_struct* tstruct,
string prefix) {
indent(out) << prefix << "#write(oprot)";
}
void t_ocaml_generator::generate_serialize_container(ofstream &out,
t_type* ttype,
string prefix) {
if (ttype->is_map()) {
indent(out) << "oprot#writeMapBegin("<< type_to_enum(((t_map*)ttype)->get_key_type()) << ",";
out << type_to_enum(((t_map*)ttype)->get_val_type()) << ",";
out << "Hashtbl.length " << prefix << ");" << endl;
} else if (ttype->is_set()) {
indent(out) <<
"oprot#writeSetBegin(" << type_to_enum(((t_set*)ttype)->get_elem_type()) << ",";
out << "Hashtbl.length " << prefix << ");" << endl;
} else if (ttype->is_list()) {
indent(out) <<
"oprot#writeListBegin(" << type_to_enum(((t_list*)ttype)->get_elem_type()) << ",";
out << "List.length " << prefix << ");" << endl;
}
if (ttype->is_map()) {
string kiter = tmp("_kiter");
string viter = tmp("_viter");
indent(out) << "Hashtbl.iter (fun "<<kiter<<" -> fun " << viter << " -> " << endl;
indent_up();
generate_serialize_map_element(out, (t_map*)ttype, kiter, viter);
indent_down();
indent(out) << ") " << prefix << ";" << endl;
} else if (ttype->is_set()) {
string iter = tmp("_iter");
indent(out) << "Hashtbl.iter (fun "<<iter<<" -> fun _ -> ";
indent_up();
generate_serialize_set_element(out, (t_set*)ttype, iter);
indent_down();
indent(out) << ") " << prefix << ";" << endl;
} else if (ttype->is_list()) {
string iter = tmp("_iter");
indent(out) << "List.iter (fun "<<iter<<" -> ";
indent_up();
generate_serialize_list_element(out, (t_list*)ttype, iter);
indent_down();
indent(out) << ") " << prefix << ";" << endl;
}
if (ttype->is_map()) {
indent(out) <<
"oprot#writeMapEnd";
} else if (ttype->is_set()) {
indent(out) <<
"oprot#writeSetEnd";
} else if (ttype->is_list()) {
indent(out) <<
"oprot#writeListEnd";
}
}
/**
* Serializes the members of a map.
*
*/
void t_ocaml_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_ocaml_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_ocaml_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);
}
/**
* Renders a function signature of the form 'name args'
*
* @param tfunction Function definition
* @return String of rendered function definition
*/
string t_ocaml_generator::function_signature(t_function* tfunction,
string prefix) {
return
prefix + decapitalize(tfunction->get_name()) +
" " + argument_list(tfunction->get_arglist());
}
string t_ocaml_generator::function_type(t_function* tfunc, bool method, bool options){
string result="";
const vector<t_field*>& fields = tfunc->get_arglist()->get_members();
vector<t_field*>::const_iterator f_iter;
for (f_iter = fields.begin(); f_iter != fields.end(); ++f_iter) {
result += render_ocaml_type((*f_iter)->get_type());
if(options)
result += " option";
result += " -> ";
}
if(fields.empty() && !method){
result += "unit -> ";
}
result += render_ocaml_type(tfunc->get_returntype());
return result;
}
/**
* Renders a field list
*/
string t_ocaml_generator::argument_list(t_struct* tstruct) {
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();
}
return result;
}
string t_ocaml_generator::type_name(t_type* ttype) {
string prefix = "";
t_program* program = ttype->get_program();
if (program != NULL && program != program_) {
if (!ttype->is_service()) {
prefix = capitalize(program->get_name()) + "_types.";
}
}
string name = ttype->get_name();
if(ttype->is_service()){
name = capitalize(name);
} else {
name = decapitalize(name);
}
return prefix + name;
}
/**
* Converts the parse type to a Protocol.t_type enum
*/
string t_ocaml_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:
return "Protocol.T_VOID";
case t_base_type::TYPE_STRING:
return "Protocol.T_STRING";
case t_base_type::TYPE_BOOL:
return "Protocol.T_BOOL";
case t_base_type::TYPE_BYTE:
return "Protocol.T_BYTE";
case t_base_type::TYPE_I16:
return "Protocol.T_I16";
case t_base_type::TYPE_I32:
return "Protocol.T_I32";
case t_base_type::TYPE_I64:
return "Protocol.T_I64";
case t_base_type::TYPE_DOUBLE:
return "Protocol.T_DOUBLE";
}
} else if (type->is_enum()) {
return "Protocol.T_I32";
} else if (type->is_struct() || type->is_xception()) {
return "Protocol.T_STRUCT";
} else if (type->is_map()) {
return "Protocol.T_MAP";
} else if (type->is_set()) {
return "Protocol.T_SET";
} else if (type->is_list()) {
return "Protocol.T_LIST";
}
throw "INVALID TYPE IN type_to_enum: " + type->get_name();
}
/**
* Converts the parse type to an ocaml type
*/
string t_ocaml_generator::render_ocaml_type(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:
return "unit";
case t_base_type::TYPE_STRING:
return "string";
case t_base_type::TYPE_BOOL:
return "bool";
case t_base_type::TYPE_BYTE:
return "int";
case t_base_type::TYPE_I16:
return "int";
case t_base_type::TYPE_I32:
return "int";
case t_base_type::TYPE_I64:
return "Int64.t";
case t_base_type::TYPE_DOUBLE:
return "float";
}
} else if (type->is_enum()) {
return capitalize(((t_enum*)type)->get_name())+".t";
} else if (type->is_struct() || type->is_xception()) {
return type_name((t_struct*)type);
} else if (type->is_map()) {
t_type* ktype = ((t_map*)type)->get_key_type();
t_type* vtype = ((t_map*)type)->get_val_type();
return "("+render_ocaml_type(ktype)+","+render_ocaml_type(vtype)+") Hashtbl.t";
} else if (type->is_set()) {
t_type* etype = ((t_set*)type)->get_elem_type();
return "("+render_ocaml_type(etype)+",bool) Hashtbl.t";
} else if (type->is_list()) {
t_type* etype = ((t_list*)type)->get_elem_type();
return render_ocaml_type(etype)+" list";
}
throw "INVALID TYPE IN type_to_enum: " + type->get_name();
}
THRIFT_REGISTER_GENERATOR(ocaml, "OCaml", "")
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