/** * 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 <ruby.h> #include <stdbool.h> #include <stdint.h> #include <constants.h> #include <struct.h> #include <macros.h> #include <bytes.h> #define LAST_ID(obj) FIX2INT(rb_ary_pop(rb_ivar_get(obj, last_field_id))) #define SET_LAST_ID(obj, val) rb_ary_push(rb_ivar_get(obj, last_field_id), val) VALUE rb_thrift_compact_proto_native_qmark(VALUE self) { return Qtrue; } static ID last_field_id; static ID boolean_field_id; static ID bool_value_id; static ID rbuf_ivar_id; static int VERSION; static int VERSION_MASK; static int TYPE_MASK; static int TYPE_BITS; static int TYPE_SHIFT_AMOUNT; static int PROTOCOL_ID; static VALUE thrift_compact_protocol_class; static int CTYPE_BOOLEAN_TRUE = 0x01; static int CTYPE_BOOLEAN_FALSE = 0x02; static int CTYPE_BYTE = 0x03; static int CTYPE_I16 = 0x04; static int CTYPE_I32 = 0x05; static int CTYPE_I64 = 0x06; static int CTYPE_DOUBLE = 0x07; static int CTYPE_BINARY = 0x08; static int CTYPE_LIST = 0x09; static int CTYPE_SET = 0x0A; static int CTYPE_MAP = 0x0B; static int CTYPE_STRUCT = 0x0C; VALUE rb_thrift_compact_proto_write_i16(VALUE self, VALUE i16); // TODO: implement this static int get_compact_type(VALUE type_value) { int type = FIX2INT(type_value); if (type == TTYPE_BOOL) { return CTYPE_BOOLEAN_TRUE; } else if (type == TTYPE_BYTE) { return CTYPE_BYTE; } else if (type == TTYPE_I16) { return CTYPE_I16; } else if (type == TTYPE_I32) { return CTYPE_I32; } else if (type == TTYPE_I64) { return CTYPE_I64; } else if (type == TTYPE_DOUBLE) { return CTYPE_DOUBLE; } else if (type == TTYPE_STRING) { return CTYPE_BINARY; } else if (type == TTYPE_LIST) { return CTYPE_LIST; } else if (type == TTYPE_SET) { return CTYPE_SET; } else if (type == TTYPE_MAP) { return CTYPE_MAP; } else if (type == TTYPE_STRUCT) { return CTYPE_STRUCT; } else { char str[50]; sprintf(str, "don't know what type: %d", type); rb_raise(rb_eStandardError, "%s", str); return 0; } } static void write_byte_direct(VALUE transport, int8_t b) { WRITE(transport, (char*)&b, 1); } static void write_field_begin_internal(VALUE self, VALUE type, VALUE id_value, VALUE type_override) { int id = FIX2INT(id_value); int last_id = LAST_ID(self); VALUE transport = GET_TRANSPORT(self); // if there's a type override, use that. int8_t type_to_write = RTEST(type_override) ? FIX2INT(type_override) : get_compact_type(type); // check if we can use delta encoding for the field id int diff = id - last_id; if (diff > 0 && diff <= 15) { // write them together write_byte_direct(transport, diff << 4 | (type_to_write & 0x0f)); } else { // write them separate write_byte_direct(transport, type_to_write & 0x0f); rb_thrift_compact_proto_write_i16(self, id_value); } SET_LAST_ID(self, id_value); } static int32_t int_to_zig_zag(int32_t n) { return (n << 1) ^ (n >> 31); } static uint64_t ll_to_zig_zag(int64_t n) { return (n << 1) ^ (n >> 63); } static void write_varint32(VALUE transport, uint32_t n) { while (true) { if ((n & ~0x7F) == 0) { write_byte_direct(transport, n & 0x7f); break; } else { write_byte_direct(transport, (n & 0x7F) | 0x80); n = n >> 7; } } } static void write_varint64(VALUE transport, uint64_t n) { while (true) { if ((n & ~0x7F) == 0) { write_byte_direct(transport, n & 0x7f); break; } else { write_byte_direct(transport, (n & 0x7F) | 0x80); n = n >> 7; } } } static void write_collection_begin(VALUE transport, VALUE elem_type, VALUE size_value) { int size = FIX2INT(size_value); if (size <= 14) { write_byte_direct(transport, size << 4 | get_compact_type(elem_type)); } else { write_byte_direct(transport, 0xf0 | get_compact_type(elem_type)); write_varint32(transport, size); } } //-------------------------------- // interface writing methods //-------------------------------- VALUE rb_thrift_compact_proto_write_i32(VALUE self, VALUE i32); VALUE rb_thrift_compact_proto_write_string(VALUE self, VALUE str); VALUE rb_thrift_compact_proto_write_binary(VALUE self, VALUE buf); VALUE rb_thrift_compact_proto_write_message_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_write_struct_begin(VALUE self, VALUE name) { rb_ary_push(rb_ivar_get(self, last_field_id), INT2FIX(0)); return Qnil; } VALUE rb_thrift_compact_proto_write_struct_end(VALUE self) { rb_ary_pop(rb_ivar_get(self, last_field_id)); return Qnil; } VALUE rb_thrift_compact_proto_write_field_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_write_map_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_write_list_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_write_set_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_write_message_begin(VALUE self, VALUE name, VALUE type, VALUE seqid) { VALUE transport = GET_TRANSPORT(self); write_byte_direct(transport, PROTOCOL_ID); write_byte_direct(transport, (VERSION & VERSION_MASK) | ((FIX2INT(type) << TYPE_SHIFT_AMOUNT) & TYPE_MASK)); write_varint32(transport, FIX2INT(seqid)); rb_thrift_compact_proto_write_string(self, name); return Qnil; } VALUE rb_thrift_compact_proto_write_field_begin(VALUE self, VALUE name, VALUE type, VALUE id) { if (FIX2INT(type) == TTYPE_BOOL) { // we want to possibly include the value, so we'll wait. rb_ivar_set(self, boolean_field_id, rb_ary_new3(2, type, id)); } else { write_field_begin_internal(self, type, id, Qnil); } return Qnil; } VALUE rb_thrift_compact_proto_write_field_stop(VALUE self) { write_byte_direct(GET_TRANSPORT(self), TTYPE_STOP); return Qnil; } VALUE rb_thrift_compact_proto_write_map_begin(VALUE self, VALUE ktype, VALUE vtype, VALUE size_value) { int size = FIX2INT(size_value); VALUE transport = GET_TRANSPORT(self); if (size == 0) { write_byte_direct(transport, 0); } else { write_varint32(transport, size); write_byte_direct(transport, get_compact_type(ktype) << 4 | get_compact_type(vtype)); } return Qnil; } VALUE rb_thrift_compact_proto_write_list_begin(VALUE self, VALUE etype, VALUE size) { write_collection_begin(GET_TRANSPORT(self), etype, size); return Qnil; } VALUE rb_thrift_compact_proto_write_set_begin(VALUE self, VALUE etype, VALUE size) { write_collection_begin(GET_TRANSPORT(self), etype, size); return Qnil; } VALUE rb_thrift_compact_proto_write_bool(VALUE self, VALUE b) { int8_t type = b == Qtrue ? CTYPE_BOOLEAN_TRUE : CTYPE_BOOLEAN_FALSE; VALUE boolean_field = rb_ivar_get(self, boolean_field_id); if (NIL_P(boolean_field)) { // we're not part of a field, so just write the value. write_byte_direct(GET_TRANSPORT(self), type); } else { // we haven't written the field header yet write_field_begin_internal(self, rb_ary_entry(boolean_field, 0), rb_ary_entry(boolean_field, 1), INT2FIX(type)); rb_ivar_set(self, boolean_field_id, Qnil); } return Qnil; } VALUE rb_thrift_compact_proto_write_byte(VALUE self, VALUE byte) { CHECK_NIL(byte); write_byte_direct(GET_TRANSPORT(self), FIX2INT(byte)); return Qnil; } VALUE rb_thrift_compact_proto_write_i16(VALUE self, VALUE i16) { rb_thrift_compact_proto_write_i32(self, i16); return Qnil; } VALUE rb_thrift_compact_proto_write_i32(VALUE self, VALUE i32) { CHECK_NIL(i32); write_varint32(GET_TRANSPORT(self), int_to_zig_zag(NUM2INT(i32))); return Qnil; } VALUE rb_thrift_compact_proto_write_i64(VALUE self, VALUE i64) { CHECK_NIL(i64); write_varint64(GET_TRANSPORT(self), ll_to_zig_zag(NUM2LL(i64))); return Qnil; } VALUE rb_thrift_compact_proto_write_double(VALUE self, VALUE dub) { CHECK_NIL(dub); // Unfortunately, bitwise_cast doesn't work in C. Bad C! union { double f; int64_t l; } transfer; transfer.f = RFLOAT_VALUE(rb_Float(dub)); char buf[8]; buf[0] = transfer.l & 0xff; buf[1] = (transfer.l >> 8) & 0xff; buf[2] = (transfer.l >> 16) & 0xff; buf[3] = (transfer.l >> 24) & 0xff; buf[4] = (transfer.l >> 32) & 0xff; buf[5] = (transfer.l >> 40) & 0xff; buf[6] = (transfer.l >> 48) & 0xff; buf[7] = (transfer.l >> 56) & 0xff; WRITE(GET_TRANSPORT(self), buf, 8); return Qnil; } VALUE rb_thrift_compact_proto_write_string(VALUE self, VALUE str) { str = convert_to_utf8_byte_buffer(str); rb_thrift_compact_proto_write_binary(self, str); return Qnil; } VALUE rb_thrift_compact_proto_write_binary(VALUE self, VALUE buf) { buf = force_binary_encoding(buf); VALUE transport = GET_TRANSPORT(self); write_varint32(transport, RSTRING_LEN(buf)); WRITE(transport, StringValuePtr(buf), RSTRING_LEN(buf)); return Qnil; } //--------------------------------------- // interface reading methods //--------------------------------------- #define is_bool_type(ctype) (((ctype) & 0x0F) == CTYPE_BOOLEAN_TRUE || ((ctype) & 0x0F) == CTYPE_BOOLEAN_FALSE) VALUE rb_thrift_compact_proto_read_string(VALUE self); VALUE rb_thrift_compact_proto_read_binary(VALUE self); VALUE rb_thrift_compact_proto_read_byte(VALUE self); VALUE rb_thrift_compact_proto_read_i32(VALUE self); VALUE rb_thrift_compact_proto_read_i16(VALUE self); static int8_t get_ttype(int8_t ctype) { if (ctype == TTYPE_STOP) { return TTYPE_STOP; } else if (ctype == CTYPE_BOOLEAN_TRUE || ctype == CTYPE_BOOLEAN_FALSE) { return TTYPE_BOOL; } else if (ctype == CTYPE_BYTE) { return TTYPE_BYTE; } else if (ctype == CTYPE_I16) { return TTYPE_I16; } else if (ctype == CTYPE_I32) { return TTYPE_I32; } else if (ctype == CTYPE_I64) { return TTYPE_I64; } else if (ctype == CTYPE_DOUBLE) { return TTYPE_DOUBLE; } else if (ctype == CTYPE_BINARY) { return TTYPE_STRING; } else if (ctype == CTYPE_LIST) { return TTYPE_LIST; } else if (ctype == CTYPE_SET) { return TTYPE_SET; } else if (ctype == CTYPE_MAP) { return TTYPE_MAP; } else if (ctype == CTYPE_STRUCT) { return TTYPE_STRUCT; } else { char str[50]; sprintf(str, "don't know what type: %d", ctype); rb_raise(rb_eStandardError, "%s", str); return 0; } } static char read_byte_direct(VALUE self) { VALUE byte = rb_funcall(GET_TRANSPORT(self), read_byte_method_id, 0); return (char)(FIX2INT(byte)); } static int64_t zig_zag_to_ll(int64_t n) { return (((uint64_t)n) >> 1) ^ -(n & 1); } static int32_t zig_zag_to_int(int32_t n) { return (((uint32_t)n) >> 1) ^ -(n & 1); } static int64_t read_varint64(VALUE self) { int shift = 0; int64_t result = 0; while (true) { int8_t b = read_byte_direct(self); result = result | ((uint64_t)(b & 0x7f) << shift); if ((b & 0x80) != 0x80) { break; } shift += 7; } return result; } static int16_t read_i16(VALUE self) { return zig_zag_to_int((int32_t)read_varint64(self)); } static VALUE get_protocol_exception(VALUE code, VALUE message) { VALUE args[2]; args[0] = code; args[1] = message; return rb_class_new_instance(2, (VALUE*)&args, protocol_exception_class); } VALUE rb_thrift_compact_proto_read_message_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_read_struct_begin(VALUE self) { rb_ary_push(rb_ivar_get(self, last_field_id), INT2FIX(0)); return Qnil; } VALUE rb_thrift_compact_proto_read_struct_end(VALUE self) { rb_ary_pop(rb_ivar_get(self, last_field_id)); return Qnil; } VALUE rb_thrift_compact_proto_read_field_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_read_map_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_read_list_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_read_set_end(VALUE self) { return Qnil; } VALUE rb_thrift_compact_proto_read_message_begin(VALUE self) { int8_t protocol_id = read_byte_direct(self); if (protocol_id != PROTOCOL_ID) { char buf[100]; int len = sprintf(buf, "Expected protocol id %d but got %d", PROTOCOL_ID, protocol_id); buf[len] = 0; rb_exc_raise(get_protocol_exception(INT2FIX(-1), rb_str_new2(buf))); } int8_t version_and_type = read_byte_direct(self); int8_t version = version_and_type & VERSION_MASK; if (version != VERSION) { char buf[100]; int len = sprintf(buf, "Expected version id %d but got %d", version, VERSION); buf[len] = 0; rb_exc_raise(get_protocol_exception(INT2FIX(-1), rb_str_new2(buf))); } int8_t type = (version_and_type >> TYPE_SHIFT_AMOUNT) & TYPE_BITS; int32_t seqid = read_varint64(self); VALUE messageName = rb_thrift_compact_proto_read_string(self); return rb_ary_new3(3, messageName, INT2FIX(type), INT2NUM(seqid)); } VALUE rb_thrift_compact_proto_read_field_begin(VALUE self) { int8_t type = read_byte_direct(self); // if it's a stop, then we can return immediately, as the struct is over. if ((type & 0x0f) == TTYPE_STOP) { return rb_ary_new3(3, Qnil, INT2FIX(0), INT2FIX(0)); } else { int field_id = 0; // mask off the 4 MSB of the type header. it could contain a field id delta. uint8_t modifier = ((type & 0xf0) >> 4); if (modifier == 0) { // not a delta. look ahead for the zigzag varint field id. (void) LAST_ID(self); field_id = read_i16(self); } else { // has a delta. add the delta to the last read field id. field_id = LAST_ID(self) + modifier; } // if this happens to be a boolean field, the value is encoded in the type if (is_bool_type(type)) { // save the boolean value in a special instance variable. rb_ivar_set(self, bool_value_id, (type & 0x0f) == CTYPE_BOOLEAN_TRUE ? Qtrue : Qfalse); } // push the new field onto the field stack so we can keep the deltas going. SET_LAST_ID(self, INT2FIX(field_id)); return rb_ary_new3(3, Qnil, INT2FIX(get_ttype(type & 0x0f)), INT2FIX(field_id)); } } VALUE rb_thrift_compact_proto_read_map_begin(VALUE self) { int32_t size = read_varint64(self); uint8_t key_and_value_type = size == 0 ? 0 : read_byte_direct(self); return rb_ary_new3(3, INT2FIX(get_ttype(key_and_value_type >> 4)), INT2FIX(get_ttype(key_and_value_type & 0xf)), INT2FIX(size)); } VALUE rb_thrift_compact_proto_read_list_begin(VALUE self) { uint8_t size_and_type = read_byte_direct(self); int32_t size = (size_and_type >> 4) & 0x0f; if (size == 15) { size = read_varint64(self); } uint8_t type = get_ttype(size_and_type & 0x0f); return rb_ary_new3(2, INT2FIX(type), INT2FIX(size)); } VALUE rb_thrift_compact_proto_read_set_begin(VALUE self) { return rb_thrift_compact_proto_read_list_begin(self); } VALUE rb_thrift_compact_proto_read_bool(VALUE self) { VALUE bool_value = rb_ivar_get(self, bool_value_id); if (NIL_P(bool_value)) { return read_byte_direct(self) == CTYPE_BOOLEAN_TRUE ? Qtrue : Qfalse; } else { rb_ivar_set(self, bool_value_id, Qnil); return bool_value; } } VALUE rb_thrift_compact_proto_read_byte(VALUE self) { return INT2FIX(read_byte_direct(self)); } VALUE rb_thrift_compact_proto_read_i16(VALUE self) { return INT2FIX(read_i16(self)); } VALUE rb_thrift_compact_proto_read_i32(VALUE self) { return INT2NUM(zig_zag_to_int(read_varint64(self))); } VALUE rb_thrift_compact_proto_read_i64(VALUE self) { return LL2NUM(zig_zag_to_ll(read_varint64(self))); } VALUE rb_thrift_compact_proto_read_double(VALUE self) { union { double f; int64_t l; } transfer; VALUE rbuf = rb_ivar_get(self, rbuf_ivar_id); rb_funcall(GET_TRANSPORT(self), read_into_buffer_method_id, 2, rbuf, INT2FIX(8)); uint32_t lo = ((uint8_t)(RSTRING_PTR(rbuf)[0])) | (((uint8_t)(RSTRING_PTR(rbuf)[1])) << 8) | (((uint8_t)(RSTRING_PTR(rbuf)[2])) << 16) | (((uint8_t)(RSTRING_PTR(rbuf)[3])) << 24); uint64_t hi = (((uint8_t)(RSTRING_PTR(rbuf)[4]))) | (((uint8_t)(RSTRING_PTR(rbuf)[5])) << 8) | (((uint8_t)(RSTRING_PTR(rbuf)[6])) << 16) | (((uint8_t)(RSTRING_PTR(rbuf)[7])) << 24); transfer.l = (hi << 32) | lo; return rb_float_new(transfer.f); } VALUE rb_thrift_compact_proto_read_string(VALUE self) { VALUE buffer = rb_thrift_compact_proto_read_binary(self); return convert_to_string(buffer); } VALUE rb_thrift_compact_proto_read_binary(VALUE self) { int64_t size = read_varint64(self); return READ(self, size); } static void Init_constants() { thrift_compact_protocol_class = rb_const_get(thrift_module, rb_intern("CompactProtocol")); rb_global_variable(&thrift_compact_protocol_class); VERSION = rb_num2ll(rb_const_get(thrift_compact_protocol_class, rb_intern("VERSION"))); VERSION_MASK = rb_num2ll(rb_const_get(thrift_compact_protocol_class, rb_intern("VERSION_MASK"))); TYPE_MASK = rb_num2ll(rb_const_get(thrift_compact_protocol_class, rb_intern("TYPE_MASK"))); TYPE_BITS = rb_num2ll(rb_const_get(thrift_compact_protocol_class, rb_intern("TYPE_BITS"))); TYPE_SHIFT_AMOUNT = FIX2INT(rb_const_get(thrift_compact_protocol_class, rb_intern("TYPE_SHIFT_AMOUNT"))); PROTOCOL_ID = FIX2INT(rb_const_get(thrift_compact_protocol_class, rb_intern("PROTOCOL_ID"))); last_field_id = rb_intern("@last_field"); boolean_field_id = rb_intern("@boolean_field"); bool_value_id = rb_intern("@bool_value"); rbuf_ivar_id = rb_intern("@rbuf"); } static void Init_rb_methods() { rb_define_method(thrift_compact_protocol_class, "native?", rb_thrift_compact_proto_native_qmark, 0); rb_define_method(thrift_compact_protocol_class, "write_message_begin", rb_thrift_compact_proto_write_message_begin, 3); rb_define_method(thrift_compact_protocol_class, "write_field_begin", rb_thrift_compact_proto_write_field_begin, 3); rb_define_method(thrift_compact_protocol_class, "write_field_stop", rb_thrift_compact_proto_write_field_stop, 0); rb_define_method(thrift_compact_protocol_class, "write_map_begin", rb_thrift_compact_proto_write_map_begin, 3); rb_define_method(thrift_compact_protocol_class, "write_list_begin", rb_thrift_compact_proto_write_list_begin, 2); rb_define_method(thrift_compact_protocol_class, "write_set_begin", rb_thrift_compact_proto_write_set_begin, 2); rb_define_method(thrift_compact_protocol_class, "write_byte", rb_thrift_compact_proto_write_byte, 1); rb_define_method(thrift_compact_protocol_class, "write_bool", rb_thrift_compact_proto_write_bool, 1); rb_define_method(thrift_compact_protocol_class, "write_i16", rb_thrift_compact_proto_write_i16, 1); rb_define_method(thrift_compact_protocol_class, "write_i32", rb_thrift_compact_proto_write_i32, 1); rb_define_method(thrift_compact_protocol_class, "write_i64", rb_thrift_compact_proto_write_i64, 1); rb_define_method(thrift_compact_protocol_class, "write_double", rb_thrift_compact_proto_write_double, 1); rb_define_method(thrift_compact_protocol_class, "write_string", rb_thrift_compact_proto_write_string, 1); rb_define_method(thrift_compact_protocol_class, "write_binary", rb_thrift_compact_proto_write_binary, 1); rb_define_method(thrift_compact_protocol_class, "write_message_end", rb_thrift_compact_proto_write_message_end, 0); rb_define_method(thrift_compact_protocol_class, "write_struct_begin", rb_thrift_compact_proto_write_struct_begin, 1); rb_define_method(thrift_compact_protocol_class, "write_struct_end", rb_thrift_compact_proto_write_struct_end, 0); rb_define_method(thrift_compact_protocol_class, "write_field_end", rb_thrift_compact_proto_write_field_end, 0); rb_define_method(thrift_compact_protocol_class, "write_map_end", rb_thrift_compact_proto_write_map_end, 0); rb_define_method(thrift_compact_protocol_class, "write_list_end", rb_thrift_compact_proto_write_list_end, 0); rb_define_method(thrift_compact_protocol_class, "write_set_end", rb_thrift_compact_proto_write_set_end, 0); rb_define_method(thrift_compact_protocol_class, "read_message_begin", rb_thrift_compact_proto_read_message_begin, 0); rb_define_method(thrift_compact_protocol_class, "read_field_begin", rb_thrift_compact_proto_read_field_begin, 0); rb_define_method(thrift_compact_protocol_class, "read_map_begin", rb_thrift_compact_proto_read_map_begin, 0); rb_define_method(thrift_compact_protocol_class, "read_list_begin", rb_thrift_compact_proto_read_list_begin, 0); rb_define_method(thrift_compact_protocol_class, "read_set_begin", rb_thrift_compact_proto_read_set_begin, 0); rb_define_method(thrift_compact_protocol_class, "read_byte", rb_thrift_compact_proto_read_byte, 0); rb_define_method(thrift_compact_protocol_class, "read_bool", rb_thrift_compact_proto_read_bool, 0); rb_define_method(thrift_compact_protocol_class, "read_i16", rb_thrift_compact_proto_read_i16, 0); rb_define_method(thrift_compact_protocol_class, "read_i32", rb_thrift_compact_proto_read_i32, 0); rb_define_method(thrift_compact_protocol_class, "read_i64", rb_thrift_compact_proto_read_i64, 0); rb_define_method(thrift_compact_protocol_class, "read_double", rb_thrift_compact_proto_read_double, 0); rb_define_method(thrift_compact_protocol_class, "read_string", rb_thrift_compact_proto_read_string, 0); rb_define_method(thrift_compact_protocol_class, "read_binary", rb_thrift_compact_proto_read_binary, 0); rb_define_method(thrift_compact_protocol_class, "read_message_end", rb_thrift_compact_proto_read_message_end, 0); rb_define_method(thrift_compact_protocol_class, "read_struct_begin", rb_thrift_compact_proto_read_struct_begin, 0); rb_define_method(thrift_compact_protocol_class, "read_struct_end", rb_thrift_compact_proto_read_struct_end, 0); rb_define_method(thrift_compact_protocol_class, "read_field_end", rb_thrift_compact_proto_read_field_end, 0); rb_define_method(thrift_compact_protocol_class, "read_map_end", rb_thrift_compact_proto_read_map_end, 0); rb_define_method(thrift_compact_protocol_class, "read_list_end", rb_thrift_compact_proto_read_list_end, 0); rb_define_method(thrift_compact_protocol_class, "read_set_end", rb_thrift_compact_proto_read_set_end, 0); } void Init_compact_protocol() { Init_constants(); Init_rb_methods(); }