コード例 #1
0
ファイル: api_bson.c プロジェクト: nosarcasm/philoexplorer
int _iterator_getComplex(bson_iterator* iter, struct Rcomplex* z) {
    bson_iterator sub;
    if (bson_iterator_type(iter) != BSON_OBJECT)
        return 0;
    bson_iterator_subiterator(iter, &sub);
    if (bson_iterator_next(&sub) != BSON_DOUBLE || strcmp(bson_iterator_key(&sub), "r") != 0)
        return 0;
    z->r = bson_iterator_double(&sub);
    if (bson_iterator_next(&sub) != BSON_DOUBLE || strcmp(bson_iterator_key(&sub), "i") != 0)
        return 0;
    z->i = bson_iterator_double(&sub);
    if (bson_iterator_next(&sub) != BSON_EOO)
        return 0;
    return 1;
}
コード例 #2
0
ファイル: bson.c プロジェクト: ericfode/mongo-c-driver
void bson_print_raw( const char * data , int depth ){
    bson_iterator i;
    const char * key;
    int temp;
    char oidhex[25];
    bson_iterator_init( &i , data );

    while ( bson_iterator_next( &i ) ){
        bson_type t = bson_iterator_type( &i );
        if ( t == 0 )
            break;
        key = bson_iterator_key( &i );
        
        for ( temp=0; temp<=depth; temp++ )
            printf( "\t" );
        printf( "%s : %d \t " , key , t );
        switch ( t ){
        case bson_int: printf( "%d" , bson_iterator_int( &i ) ); break;
        case bson_double: printf( "%f" , bson_iterator_double( &i ) ); break;
        case bson_bool: printf( "%s" , bson_iterator_bool( &i ) ? "true" : "false" ); break;
        case bson_string: printf( "%s" , bson_iterator_string( &i ) ); break;
        case bson_null: printf( "null" ); break;
        case bson_oid: bson_oid_to_string(bson_iterator_oid(&i), oidhex); printf( "%s" , oidhex ); break;
        case bson_object:
        case bson_array:
            printf( "\n" );
            bson_print_raw( bson_iterator_value( &i ) , depth + 1 );
            break;
        default:
            fprintf( stderr , "can't print type : %d\n" , t );
        }
        printf( "\n" );
    }
}
コード例 #3
0
void MongodbClient::ReadData(KeyedArchive* archive, void* bsonObj)
{
    if((!archive) || (!bsonObj)) return;

    bson_iterator it;
    bson_iterator_init(&it, (bson*)bsonObj);
    
    while (bson_iterator_next(&it))
    {
        String key = String(bson_iterator_key(&it));
        bson_type type = bson_iterator_type(&it);
        
        if(key == "_id") continue; // ignore _id

        switch (type)
        {
            case BSON_STRING:
                archive->SetString(key, String(bson_iterator_string(&it)));
                break;
                
            case BSON_INT:
                archive->SetInt32(key, bson_iterator_int(&it));
                break;
                
            case BSON_LONG:
                archive->SetInt32(key, (int32)bson_iterator_long(&it));
                break;
                
            case BSON_DOUBLE:
                archive->SetFloat(key, (float32)bson_iterator_double(&it));
                break;
                
            case BSON_OBJECT:
            {
                bson sub;
                
                bson_iterator_subobject(&it, &sub);
                
                KeyedArchive* subArchive = new KeyedArchive();
                ReadData(subArchive, &sub);
                archive->SetArchive(key, subArchive);
                SafeRelease(subArchive);
                break;
            }
                
            case BSON_OID:
                //TODO: add 12-bytes array
                //bson_append_oid(object, key, bson_iterator_oid(&it));
                break;
                
                
            default:
                DVASSERT(false);
                Logger::Error("[MongodbUpdateObject::ReadData] Not implemented type: %d", type);
                break;
        }
    }
}
コード例 #4
0
void json_from_bson_double(yajl_gen *g, bson_iterator *it)
{
    double value = bson_iterator_double( it );

    char buffer[100];
    sprintf( buffer, "%.9g", value );

    yajl_gen_number( *g, buffer, strlen(buffer) );
}
コード例 #5
0
ファイル: bson_encode.cpp プロジェクト: lujingwei002/mobsrv
static void bson_decode_tree(lua_State* L, bson_iterator* b,int set_t){
    const char *key;
    while(bson_iterator_next(b))
    {
        bson_type t = bson_iterator_type(b);
        if(t == 0)
        {
            lua_pushnil(L);
            break;
        }
        key = bson_iterator_key(b);
        if(set_t)
        {
            lua_pushstring(L,key);
        }
        LOG_MSG("type %d,key %s",t,key);
        switch(t)
        {
            case BSON_DOUBLE:
                lua_pushnumber(L,bson_iterator_double(b));
                break;
            case BSON_STRING:
                lua_pushstring(L,bson_iterator_string(b));
                break;
            case BSON_BOOL:
                lua_pushboolean(L,bson_iterator_bool( b ) ? true : false );
                break;
            case BSON_NULL:
                lua_pushnil(L);
                break;
            case BSON_INT:
                lua_pushinteger(L,bson_iterator_int(b));
                break;
            case BSON_OBJECT:
                bson_iterator t;
                bson_iterator_subiterator(b,&t);
                bson_decode_tree(L,&t);
                lua_settable(L,-3);
                break;
            case BSON_ARRAY:
                lua_newtable(L);
                bson_iterator s;
                bson_iterator_subiterator(b,&s);
                bson_decode_tree(L,&s,1);
                break;
            default:
                break;
        }
        if(set_t)
        {
            lua_settable(L,-3);
        }
    }

}
コード例 #6
0
ファイル: test_mongo.cpp プロジェクト: ztor/machanguitos
//------------------------------------------------------------------------------
int main( int argc, char * argv[] ){
    mongo conn;

    if( mongo_client( &conn , TEST_SERVER, TEST_PORT ) != MONGO_OK ) {
        std::cout << "failed to connect\n";
        return EXIT_FAILURE;
    }

    mongo_cursor cursor;
    mongo_cursor_init( &cursor, &conn, "test.test" );

    char hex_oid[25];
    while( mongo_cursor_next( &cursor ) == MONGO_OK ) {
        std::cout << "row:\n";
        bson_iterator it;
        bson_iterator_init( &it, mongo_cursor_bson( &cursor ) );
        while( bson_iterator_next( &it ) ) { 
            std::cout << "  " << bson_iterator_key( &it ) << " = ";
            switch( bson_iterator_type( &it ) ) {
            case BSON_DOUBLE:
                std::cout << "(double) " << bson_iterator_double( &it ) << std::endl;
                break;
            case BSON_INT:
                std::cout << "(int) " << bson_iterator_int( &it ) << std::endl;
                break;
            case BSON_STRING:
                std::cout << "(string) \"" << bson_iterator_string( &it ) << "\"\n";
                break;
            case BSON_OID:
                bson_oid_to_string( bson_iterator_oid( &it ), hex_oid );
                std::cout << "(oid) \"" << hex_oid << "\"\n";
                break;
            case BSON_OBJECT:
                std::cout << "(subobject) {...}\n";
                break;
            case BSON_ARRAY:
                std::cout << "(array) [...]\n";
                break;
            case BSON_TIMESTAMP:
                std::cout << "(timestamp) [...]\n";
                break;
            default:
                std::cout << "(type " << bson_iterator_type( &it ) << std::endl;
                break;
            }
        }
        std::cout << std::endl;
    }


    mongo_disconnect( &conn );

    return EXIT_SUCCESS;
}
コード例 #7
0
void MongodbObject::EnableForEdit()
{
    bson *newObject = new bson();
    bson_init(newObject);
    
    bson_iterator it;
    bson_iterator_init(&it, objectData->object);

    while (bson_iterator_next(&it))
    {
        const char * key = bson_iterator_key(&it);
        bson_type type = bson_iterator_type(&it);
        
        switch (type)
        {
            case BSON_STRING:
                bson_append_string(newObject, key, bson_iterator_string(&it));
                break;

            case BSON_INT:
                bson_append_int(newObject, key, bson_iterator_int(&it));
                break;

            case BSON_LONG:
                bson_append_long(newObject, key, bson_iterator_long(&it));
                break;

            case BSON_DOUBLE:
                bson_append_double(newObject, key, bson_iterator_double(&it));
                break;

            case BSON_OBJECT:
                
                bson sub;
                bson_iterator_subobject(&it, &sub);
                bson_append_bson(newObject, key, &sub);
                break;
                
            case BSON_OID:
                bson_append_oid(newObject, key, bson_iterator_oid(&it));
                break;

                
            default:
                break;
        }
    }

    bson_destroy(objectData->object);
    SafeDelete(objectData->object);
    objectData->object = newObject;
}
コード例 #8
0
ファイル: t1.c プロジェクト: CowanSM/ejdb
void testSaveLoad() {
    CU_ASSERT_PTR_NOT_NULL_FATAL(jb);
    bson_oid_t oid;
    EJCOLL *ccoll = ejdbcreatecoll(jb, "contacts", NULL);
    CU_ASSERT_PTR_NOT_NULL(ccoll);

    //Save record
    bson a1;
    bson_init(&a1);

    bson_append_string(&a1, "name", "Петров Петр");
    bson_append_string(&a1, "phone", "333-222-333");
    bson_append_int(&a1, "age", 33);
    bson_append_long(&a1, "longage", 0xFFFFFFFFFF01LL);
    bson_append_double(&a1, "doubleage", 0.333333);
    bson_finish(&a1);
    ejdbsavebson(ccoll, &a1, &oid);
    bson_destroy(&a1);


    bson *lbson = ejdbloadbson(ccoll, &oid);
    CU_ASSERT_PTR_NOT_NULL(lbson);
    bson_iterator it1;
    bson_iterator_init(&it1, lbson);

    int btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_OID);
    btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_STRING);
    CU_ASSERT(!strcmp("name", bson_iterator_key(&it1)));
    CU_ASSERT(!strcmp("Петров Петр", bson_iterator_string(&it1)));
    btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_STRING);
    CU_ASSERT(!strcmp("phone", bson_iterator_key(&it1)));
    CU_ASSERT(!strcmp("333-222-333", bson_iterator_string(&it1)));
    btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_INT);
    CU_ASSERT(!strcmp("age", bson_iterator_key(&it1)));
    CU_ASSERT(33 == bson_iterator_int(&it1));
    btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_LONG);
    CU_ASSERT(!strcmp("longage", bson_iterator_key(&it1)));
    CU_ASSERT(0xFFFFFFFFFF01LL == bson_iterator_long(&it1));
    btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_DOUBLE);
    CU_ASSERT(!strcmp("doubleage", bson_iterator_key(&it1)));
    CU_ASSERT_DOUBLE_EQUAL(bson_iterator_double(&it1), 0.3, 0.1);
    btype = bson_iterator_next(&it1);
    CU_ASSERT(btype == BSON_EOO);
    bson_del(lbson);
}
コード例 #9
0
ファイル: clsSiteData.cpp プロジェクト: Shenfang1993/SEIMS
clsSiteData::clsSiteData(int id, const bson *info)
{
    m_ID = id;
    bson_iterator it[1];
    bson_iterator_init(it, info);
    while (bson_iterator_next(it))
    {
        if (strcmp("Name", bson_iterator_key(it)) == 0)
            m_Name = bson_iterator_string(it);
            //else if(strcmp("AREA", bson_iterator_key(it)) == 0)
            //	m_Area = (float)bson_iterator_double(it);
        else if (strcmp("LocalX", bson_iterator_key(it)) == 0)
            m_XPR = (float) bson_iterator_double(it);
        else if (strcmp("LocalY", bson_iterator_key(it)) == 0)
            m_YPR = (float) bson_iterator_double(it);
        else if (strcmp("Lat", bson_iterator_key(it)) == 0)
            m_Latitude = (float) bson_iterator_double(it);
        else if (strcmp("Long", bson_iterator_key(it)) == 0)
            m_Longitude = (float) bson_iterator_double(it);
        else if (strcmp("Elevation", bson_iterator_key(it)) == 0)
            m_Elevation = (float) bson_iterator_double(it);
    }
}
コード例 #10
0
 void InitWith(bson *obj)
 {
     bson_iterator it;
     bson_iterator_init(&it, obj);
     
     while (bson_iterator_next(&it))
     {
         const char * key = bson_iterator_key(&it);
         bson_type type = bson_iterator_type(&it);
         
         switch (type)
         {
             case BSON_STRING:
                 bson_append_string(object, key, bson_iterator_string(&it));
                 break;
                 
             case BSON_INT:
                 bson_append_int(object, key, bson_iterator_int(&it));
                 break;
                 
             case BSON_LONG:
                 bson_append_long(object, key, bson_iterator_long(&it));
                 break;
                 
             case BSON_DOUBLE:
                 bson_append_double(object, key, bson_iterator_double(&it));
                 break;
                 
             case BSON_OBJECT:
             {
                 bson sub;
                 
                 bson_iterator_subobject(&it, &sub);
                 bson_append_bson(object, key, &sub);
                 break;
             }
                 
             case BSON_OID:
                 bson_append_oid(object, key, bson_iterator_oid(&it));
                 break;
                 
                 
             default:
                 DVASSERT(false);
                 Logger::Error("[MongodbObjectInternalData::InitWith] Not implemented type: %d", type);
                 break;
         }
     }
 }
コード例 #11
0
double MongodbObject::GetDouble(const String &fieldname)
{
    double retValue = 0;
    
    bson_iterator it;
    bson_iterator_init(&it, objectData->object);
    
    bson_iterator foundIt;
    bool found = objectData->FindField(&it, &foundIt, fieldname, true);
    if(found)
    {
        retValue = bson_iterator_double(&foundIt);
    }
    
    return retValue;
}
コード例 #12
0
ファイル: mongo.c プロジェクト: chitr/mongo-c-driver
MONGO_EXPORT double mongo_count( mongo *conn, const char *db, const char *ns, const bson *query ) {
    bson cmd;
    bson out = {NULL, 0};
    double count = -1;

    bson_init( &cmd );
    bson_append_string( &cmd, "count", ns );
    if ( query && bson_size( query ) > 5 ) /* not empty */
        bson_append_bson( &cmd, "query", query );
    bson_finish( &cmd );

    if( mongo_run_command( conn, db, &cmd, &out ) == MONGO_OK ) {
        bson_iterator it;
        if( bson_find( &it, &out, "n" ) )
            count = bson_iterator_double( &it );
        bson_destroy( &cmd );
        bson_destroy( &out );
        return count;
    } else {
        bson_destroy( &out );
        bson_destroy( &cmd );
        return MONGO_ERROR;
    }
}
コード例 #13
0
ファイル: bson.c プロジェクト: flightaware/mongotcl
Tcl_Obj *
mongotcl_bsontolist_raw (Tcl_Interp *interp, Tcl_Obj *listObj, const char *data , int depth) {
    bson_iterator i;
    const char *key;
    bson_timestamp_t ts;
    char oidhex[25];
    bson scope;

	if (data == NULL) {
		return listObj;
	}

    bson_iterator_from_buffer(&i, data);

    while (bson_iterator_next (&i)) {
        bson_type t = bson_iterator_type (&i);
        if (t == 0) {
            break;
		}

        key = bson_iterator_key (&i);

		switch (t) {
			case BSON_DOUBLE: {
				append_list_type_object (interp, listObj, "double", key, Tcl_NewDoubleObj (bson_iterator_double (&i)));
				break;
			}

			case BSON_STRING: {
				append_list_type_object (interp, listObj, "string", key, Tcl_NewStringObj (bson_iterator_string (&i), -1));
				break;
			}

			case BSON_SYMBOL: {
				append_list_type_object (interp, listObj, "symbol", key, Tcl_NewStringObj (bson_iterator_string (&i), -1));
				break;
			}

			case BSON_OID: {
				bson_oid_to_string( bson_iterator_oid( &i ), oidhex );
				append_list_type_object (interp, listObj, "oid", key, Tcl_NewStringObj (oidhex, -1));
				break;
			}

			case BSON_BOOL: {
			append_list_type_object (interp, listObj, "bool", key, Tcl_NewBooleanObj (bson_iterator_bool (&i)));
				break;
			}

			case BSON_DATE: {
				append_list_type_object (interp, listObj, "date", key, Tcl_NewLongObj ((long) bson_iterator_date(&i)));
				break;
			}

			case BSON_BINDATA: {
				unsigned char *bindata = (unsigned char *)bson_iterator_bin_data (&i);
				int binlen = bson_iterator_bin_len (&i);

				append_list_type_object (interp, listObj, "bin", key, Tcl_NewByteArrayObj (bindata, binlen));
				break;
			}

			case BSON_UNDEFINED: {
				append_list_type_object (interp, listObj, "undefined", key, Tcl_NewObj ());
				break;
			}

			case BSON_NULL: {
				append_list_type_object (interp, listObj, "null", key, Tcl_NewObj ());
				break;
			}

			case BSON_REGEX: {
				append_list_type_object (interp, listObj, "regex", key, Tcl_NewStringObj (bson_iterator_regex (&i), -1));
				break;
			}

			case BSON_CODE: {
				append_list_type_object (interp, listObj, "code", key, Tcl_NewStringObj (bson_iterator_code (&i), -1));
				break;
			}

			case BSON_CODEWSCOPE: {
				bson_printf( "BSON_CODE_W_SCOPE: %s", bson_iterator_code( &i ) );
				/* bson_init( &scope ); */ /* review - stepped on by bson_iterator_code_scope? */
				bson_iterator_code_scope( &i, &scope );
				bson_printf( "\n\t SCOPE: " );
				bson_print( &scope );
				/* bson_destroy( &scope ); */ /* review - causes free error */
				break;
			}

			case BSON_INT: {
				append_list_type_object (interp, listObj, "int", key, Tcl_NewIntObj (bson_iterator_int (&i)));
				break;
			}

			case BSON_LONG: {
				append_list_type_object (interp, listObj, "long", key, Tcl_NewLongObj ((uint64_t)bson_iterator_long (&i)));
				break;
			}

			case BSON_TIMESTAMP: {
				char string[64];

				ts = bson_iterator_timestamp (&i);
				snprintf(string, sizeof(string), "%d:%d", ts.i, ts.t);
				append_list_type_object (interp, listObj, "timestamp", key, Tcl_NewStringObj (bson_iterator_string (&i), -1));
				break;
			}

			case BSON_ARRAY: {
				Tcl_Obj *subList = Tcl_NewObj ();

				subList = mongotcl_bsontolist_raw (interp, subList, bson_iterator_value (&i), depth + 1);
				append_list_type_object (interp, listObj, "array", key, subList);
				break;
			}

			case BSON_OBJECT: {
				Tcl_Obj *subList = Tcl_NewObj ();

				subList = mongotcl_bsontolist_raw (interp, subList, bson_iterator_value (&i), depth + 1);
				append_list_type_object (interp, listObj, "object", key, subList);
				break;
			}

			default: {
				append_list_type_object (interp, listObj, "unknown", key, Tcl_NewIntObj (t));
				break;
			}
		}
    }
    return listObj;
}
コード例 #14
0
void to_json(char *buf, const char * data, int depth){
  int array_count = 0;
  int object_count = 0;
  bson_iterator i;
  const char * key;

  char oidhex[25];
  bson_iterator_init( &i , data );

  sprintf(buf+strlen(buf),"{");
  while ( bson_iterator_next( &i ) ){
    bson_type t = bson_iterator_type( &i );
    if ( t == 0 )
      break;
    key = bson_iterator_key( &i );

    if(object_count > 0){sprintf(buf+strlen(buf),",");}
    else{object_count=1;}

    sprintf(buf+strlen(buf), "\"%s\":" , key );

    switch ( t ){
      case bson_int:
        sprintf(buf+strlen(buf), "%d" , bson_iterator_int( &i ) );
        break;
      case bson_double:
        sprintf(buf+strlen(buf), "%f" , bson_iterator_double( &i ) ); 
        break;
      case bson_bool:
        sprintf(buf+strlen(buf), "%s" , bson_iterator_bool( &i ) ? "true" : "false" ); 
        break;
      case bson_string:
        sprintf(buf+strlen(buf), "\"%s\"" , bson_iterator_string( &i ) ); 
        break;
      case bson_null:
        sprintf( buf+strlen(buf),"null" ); 
        break;
      case bson_oid:
        bson_oid_to_string(bson_iterator_oid(&i), oidhex); 
        sprintf(buf+strlen(buf), "%s" , oidhex ); 
        break;
      case bson_object:
        to_json(buf, bson_iterator_value( &i ) , depth + 1 );
        break;
      case bson_array:
        sprintf(buf+strlen(buf), "[" );
        bson_iterator j;
        bson_iterator_init( &j , bson_iterator_value(&i) );
        array_count =0;
        while( bson_iterator_next(&j)){
          if(array_count > 0){sprintf(buf+strlen(buf),",");}
          else{array_count=1;}
          to_json(buf, bson_iterator_value( &j ) , depth + 1 );
        }
        sprintf(buf+strlen(buf), "]" );
        break;

      default:
        fprintf( stderr , "can't print type : %d\n" , t );

    }
  }
  sprintf(buf+strlen(buf),"}");
}
コード例 #15
0
ファイル: vs_mongo_taggroup.c プロジェクト: donno/verse
/**
 * \brief This function tries to load tag from MongoDB
 */
static void vs_mongo_tag_load_data(struct VSTag *tag,
		bson *bson_tag)
{
	bson_iterator tag_iter;

	if( bson_find(&tag_iter, bson_tag, "data") == BSON_ARRAY) {
		bson_iterator data_iter;
		uint8 val_uint8;
		uint16 val_uint16;
		uint32 val_uint32;
		uint64 val_uint64;
		real32 val_real32;
		real64 val_real64;
		const char *str_value;
		int value_index = 0;

		bson_iterator_subiterator(&tag_iter, &data_iter);

		/* Go through all values */
		switch(tag->data_type) {
		case VRS_VALUE_TYPE_UINT8:
			while( bson_iterator_next(&data_iter) == BSON_INT ) {
				val_uint8 = (uint8)bson_iterator_int(&data_iter);
				vs_tag_set_values(tag, 1, value_index, &val_uint8);
				value_index++;
			}
			break;
		case VRS_VALUE_TYPE_UINT16:
			while( bson_iterator_next(&data_iter) == BSON_INT ) {
				val_uint16 = (uint16)bson_iterator_int(&data_iter);
				vs_tag_set_values(tag, 1, value_index, &val_uint16);
				value_index++;
			}
			break;
		case VRS_VALUE_TYPE_UINT32:
			while( bson_iterator_next(&data_iter) == BSON_INT ) {
				val_uint32 = (uint32)bson_iterator_int(&data_iter);
				vs_tag_set_values(tag, 1, value_index, &val_uint32);
				value_index++;
			}
			break;
		case VRS_VALUE_TYPE_UINT64:
			while( bson_iterator_next(&data_iter) == BSON_LONG ) {
				val_uint64 = (uint64)bson_iterator_long(&data_iter);
				vs_tag_set_values(tag, 1, value_index, &val_uint64);
				value_index++;
			}
			break;
		case VRS_VALUE_TYPE_REAL16:
			/* TODO: add support for float16 */
			break;
		case VRS_VALUE_TYPE_REAL32:
			while( bson_iterator_next(&data_iter) == BSON_DOUBLE ) {
				val_real32 = (real32)bson_iterator_double(&data_iter);
				vs_tag_set_values(tag, 1, value_index, &val_real32);
				value_index++;
			}
			break;
		case VRS_VALUE_TYPE_REAL64:
			while( bson_iterator_next(&data_iter) == BSON_DOUBLE ) {
				val_real64 = (real64)bson_iterator_double(&data_iter);
				vs_tag_set_values(tag, 1, value_index, &val_real64);
				value_index++;
			}
			break;
		case VRS_VALUE_TYPE_STRING8:
			str_value = bson_iterator_string(&data_iter);
			strcpy(tag->value, str_value);
			break;
		}
	}
}
コード例 #16
0
int test_bson_generic( void ) {

   bson_iterator it, it2, it3;
   bson_oid_t oid;
   bson_timestamp_t ts;
   bson_timestamp_t ts_result;
   bson b[1];
   bson copy[1];
   bson scope[1];

   ts.i = 1;
   ts.t = 2;

   bson_init( b );
   bson_append_double( b, "d", 3.14 );
   bson_append_string( b, "s", "hello" );
   bson_append_string_n( b, "s_n", "goodbye cruel world", 7 );

   {
       bson_append_start_object( b, "o" );
       bson_append_start_array( b, "a" );
       bson_append_binary( b, "0", 8, "w\0rld", 5 );
       bson_append_finish_object( b );
       bson_append_finish_object( b );
   }

   bson_append_undefined( b, "u" );

   bson_oid_from_string( &oid, "010203040506070809101112" );
   ASSERT( !memcmp( oid.bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12 ) );
   bson_append_oid( b, "oid", &oid );

   bson_append_bool( b, "b", 1 );
   bson_append_date( b, "date", 0x0102030405060708 );
   bson_append_null( b, "n" );
   bson_append_regex( b, "r", "^asdf", "imx" );
   /* no dbref test (deprecated) */
   bson_append_code( b, "c", "function(){}" );
   bson_append_code_n( b, "c_n", "function(){}garbage", 12 );
   bson_append_symbol( b, "symbol", "symbol" );
   bson_append_symbol_n( b, "symbol_n", "symbol and garbage", 6 );

   {
       bson_init( scope );
       bson_append_int( scope, "i", 123 );
       bson_finish( scope );

       bson_append_code_w_scope( b, "cws", "function(){return i}", scope );
       bson_destroy( scope );
   }

   bson_append_timestamp( b, "timestamp", &ts );
   bson_append_long( b, "l", 0x1122334455667788 );

   /* Ensure that we can't copy a non-finished object. */
   ASSERT( bson_copy( copy, b ) == BSON_ERROR );

   bson_finish( b );

   ASSERT( b->err == BSON_VALID );

   /* Test append after finish. */
   ASSERT( bson_append_string( b, "foo", "bar" ) == BSON_ERROR );
   ASSERT( b->err & BSON_ALREADY_FINISHED );

   ASSERT( bson_copy( copy, b ) == BSON_OK );

   ASSERT( 1 == copy->finished );
   ASSERT( 0 == copy->err );

   bson_destroy( copy );

   bson_print( b );

   bson_iterator_init( &it, b );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
   ASSERT( bson_iterator_type( &it ) == BSON_DOUBLE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "d" ) );
   ASSERT( bson_iterator_double( &it ) == 3.14 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_STRING );
   ASSERT( bson_iterator_type( &it ) == BSON_STRING );
   ASSERT( !strcmp( bson_iterator_key( &it ), "s" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "hello" ) );
   ASSERT( strcmp( bson_iterator_string( &it ), "" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_STRING );
   ASSERT( bson_iterator_type( &it ) == BSON_STRING );
   ASSERT( !strcmp( bson_iterator_key( &it ), "s_n" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "goodbye" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_OBJECT );
   ASSERT( bson_iterator_type( &it ) == BSON_OBJECT );
   ASSERT( !strcmp( bson_iterator_key( &it ), "o" ) );
   bson_iterator_subiterator( &it, &it2 );

   ASSERT( bson_iterator_more( &it2 ) );
   ASSERT( bson_iterator_next( &it2 ) == BSON_ARRAY );
   ASSERT( bson_iterator_type( &it2 ) == BSON_ARRAY );
   ASSERT( !strcmp( bson_iterator_key( &it2 ), "a" ) );
   bson_iterator_subiterator( &it2, &it3 );

   ASSERT( bson_iterator_more( &it3 ) );
   ASSERT( bson_iterator_next( &it3 ) == BSON_BINDATA );
   ASSERT( bson_iterator_type( &it3 ) == BSON_BINDATA );
   ASSERT( !strcmp( bson_iterator_key( &it3 ), "0" ) );
   ASSERT( bson_iterator_bin_type( &it3 ) == 8 );
   ASSERT( bson_iterator_bin_len( &it3 ) == 5 );
   ASSERT( !memcmp( bson_iterator_bin_data( &it3 ), "w\0rld", 5 ) );

   ASSERT( bson_iterator_more( &it3 ) );
   ASSERT( bson_iterator_next( &it3 ) == BSON_EOO );
   ASSERT( bson_iterator_type( &it3 ) == BSON_EOO );
   ASSERT( !bson_iterator_more( &it3 ) );

   ASSERT( bson_iterator_more( &it2 ) );
   ASSERT( bson_iterator_next( &it2 ) == BSON_EOO );
   ASSERT( bson_iterator_type( &it2 ) == BSON_EOO );
   ASSERT( !bson_iterator_more( &it2 ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_UNDEFINED );
   ASSERT( bson_iterator_type( &it ) == BSON_UNDEFINED );
   ASSERT( !strcmp( bson_iterator_key( &it ), "u" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_OID );
   ASSERT( bson_iterator_type( &it ) == BSON_OID );
   ASSERT( !strcmp( bson_iterator_key( &it ), "oid" ) );
   ASSERT( !memcmp( bson_iterator_oid( &it )->bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12 ) );
   ASSERT( bson_iterator_oid( &it )->ints[0] == oid.ints[0] );
   ASSERT( bson_iterator_oid( &it )->ints[1] == oid.ints[1] );
   ASSERT( bson_iterator_oid( &it )->ints[2] == oid.ints[2] );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_BOOL );
   ASSERT( bson_iterator_type( &it ) == BSON_BOOL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "b" ) );
   ASSERT( bson_iterator_bool( &it ) == 1 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_DATE );
   ASSERT( bson_iterator_type( &it ) == BSON_DATE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "date" ) );
   ASSERT( bson_iterator_date( &it ) == 0x0102030405060708 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_NULL );
   ASSERT( bson_iterator_type( &it ) == BSON_NULL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "n" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_REGEX );
   ASSERT( bson_iterator_type( &it ) == BSON_REGEX );
   ASSERT( !strcmp( bson_iterator_key( &it ), "r" ) );
   ASSERT( !strcmp( bson_iterator_regex( &it ), "^asdf" ) );
   ASSERT( !strcmp( bson_iterator_regex_opts( &it ), "imx" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_CODE );
   ASSERT( bson_iterator_type( &it ) == BSON_CODE );
   ASSERT( !strcmp( bson_iterator_code(&it), "function(){}") );
   ASSERT( !strcmp( bson_iterator_key( &it ), "c" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_CODE );
   ASSERT( bson_iterator_type( &it ) == BSON_CODE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "c_n" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "" ) );
   ASSERT( !strcmp( bson_iterator_code( &it ), "function(){}" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_SYMBOL );
   ASSERT( bson_iterator_type( &it ) == BSON_SYMBOL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "symbol" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "symbol" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_SYMBOL );
   ASSERT( bson_iterator_type( &it ) == BSON_SYMBOL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "symbol_n" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "symbol" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_CODEWSCOPE );
   ASSERT( bson_iterator_type( &it ) == BSON_CODEWSCOPE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "cws" ) );
   ASSERT( !strcmp( bson_iterator_code( &it ), "function(){return i}" ) );

   {
       bson scope;
       bson_iterator_code_scope( &it, &scope );
       bson_iterator_init( &it2, &scope );

       ASSERT( bson_iterator_more( &it2 ) );
       ASSERT( bson_iterator_next( &it2 ) == BSON_INT );
       ASSERT( bson_iterator_type( &it2 ) == BSON_INT );
       ASSERT( !strcmp( bson_iterator_key( &it2 ), "i" ) );
       ASSERT( bson_iterator_int( &it2 ) == 123 );

       ASSERT( bson_iterator_more( &it2 ) );
       ASSERT( bson_iterator_next( &it2 ) == BSON_EOO );
       ASSERT( bson_iterator_type( &it2 ) == BSON_EOO );
       ASSERT( !bson_iterator_more( &it2 ) );
   }

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_TIMESTAMP );
   ASSERT( bson_iterator_type( &it ) == BSON_TIMESTAMP );
   ASSERT( !strcmp( bson_iterator_key( &it ), "timestamp" ) );
   ts_result = bson_iterator_timestamp( &it );
   ASSERT( ts_result.i == 1 );
   ASSERT( ts_result.t == 2 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_LONG );
   ASSERT( bson_iterator_type( &it ) == BSON_LONG );
   ASSERT( !strcmp( bson_iterator_key( &it ), "l" ) );
   ASSERT( bson_iterator_long( &it ) == 0x1122334455667788 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_EOO );
   ASSERT( bson_iterator_type( &it ) == BSON_EOO );
   ASSERT( !bson_iterator_more( &it ) );

   bson_destroy( b );

   {
       bson bsrc[1];
       bson_init( bsrc );
       bson_append_double( bsrc, "d", 3.14 );
       bson_finish( bsrc );
       ASSERT( bsrc->err == BSON_VALID );
       bson_init( b );
       bson_append_double( b, "", 3.14 ); /* test empty name (in general) */
       bson_iterator_init( &it, bsrc );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( bson_iterator_type( &it ) == BSON_DOUBLE );
       bson_append_element( b, "d", &it );
       bson_append_element( b, 0, &it ); /* test null */
       bson_append_element( b, "", &it ); /* test empty name */
       bson_finish( b );
       ASSERT( b->err == BSON_VALID );
       /* bson_print( b ); */
       bson_iterator_init( &it, b );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "d" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "d" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_EOO );
       ASSERT( !bson_iterator_more( &it ) );
       bson_destroy( bsrc );
       bson_destroy( b );
   }

   return 0;
}
コード例 #17
0
ファイル: simple.c プロジェクト: chevalun/mongo-c-driver
int main(){
    mongo_connection conn[1];
    mongo_connection_options opts;
    bson_buffer bb;
    bson b;
    mongo_cursor * cursor;
    int i;
    char hex_oid[25];

    const char * col = "c.simple";
    const char * ns = "test.c.simple";

    INIT_SOCKETS_FOR_WINDOWS;
    
    strncpy(opts.host, TEST_SERVER, 255);
    opts.host[254] = '\0';
    opts.port = 27017;

    if (mongo_connect( conn , &opts )){
        printf("failed to connect\n");
        exit(1);
    }

    /* if the collection doesn't exist dropping it will fail */
    if (!mongo_cmd_drop_collection(conn, "test", col, NULL)
          && mongo_find_one(conn, ns, bson_empty(&b), bson_empty(&b), NULL)){
        printf("failed to drop collection\n");
        exit(1);
    }

    for(i=0; i< 5; i++){
        bson_buffer_init( & bb );

        bson_append_new_oid( &bb, "_id" );
        bson_append_double( &bb , "a" , 17 );
        bson_append_int( &bb , "b" , 17 );
        bson_append_string( &bb , "c" , "17" );

        {
            bson_buffer * sub = bson_append_start_object(  &bb , "d" );
            bson_append_int( sub, "i", 71 );
            bson_append_finish_object(sub);
        }
        {
            bson_buffer * arr = bson_append_start_array(  &bb , "e" );
            bson_append_int( arr, "0", 71 );
            bson_append_string( arr, "1", "71" );
            bson_append_finish_object(arr);
        }

        bson_from_buffer(&b, &bb);
        mongo_insert( conn , ns , &b );
        bson_destroy(&b);
    }
    
    cursor = mongo_find( conn , ns , bson_empty(&b) , 0 , 0 , 0 , 0 );

    while (mongo_cursor_next(cursor)){
        bson_iterator it;
        bson_iterator_init(&it, cursor->current.data);
        while(bson_iterator_next(&it)){
            fprintf(stderr, "  %s: ", bson_iterator_key(&it));

            switch(bson_iterator_type(&it)){
                case bson_double:
                    fprintf(stderr, "(double) %e\n", bson_iterator_double(&it));
                    break;
                case bson_int:
                    fprintf(stderr, "(int) %d\n", bson_iterator_int(&it));
                    break;
                case bson_string:
                    fprintf(stderr, "(string) \"%s\"\n", bson_iterator_string(&it));
                    break;
                case bson_oid:
                    bson_oid_to_string(bson_iterator_oid(&it), hex_oid);
                    fprintf(stderr, "(oid) \"%s\"\n", hex_oid);
                    break;
                case bson_object:
                    fprintf(stderr, "(subobject) {...}\n");
                    break;
                case bson_array:
                    fprintf(stderr, "(array) [...]\n");
                    break;
                default:
                    fprintf(stderr, "(type %d)\n", bson_iterator_type(&it));
                    break;
            }
        }
        fprintf(stderr, "\n");
    }

    mongo_cursor_destroy(cursor);
    mongo_cmd_drop_db(conn, "test");
    mongo_destroy( conn );
    return 0;
}
コード例 #18
0
ファイル: vector.cpp プロジェクト: LeiDai/hermes
    void SimpleVector<Scalar>::import_from_file(const char *filename, const char *var_name, MatrixExportFormat fmt)
    {
      switch (fmt)
      {
      case EXPORT_FORMAT_PLAIN_ASCII:
      {
        std::vector<Scalar> data;
        std::ifstream input(filename);
        if (input.bad())
          throw Exceptions::IOException(Exceptions::IOException::Read, filename);
        std::string lineData;

        while (getline(input, lineData))
        {
          Scalar d;
          std::stringstream lineStream(lineData);
          lineStream >> d;
          data.push_back(d);
        }

        this->alloc(data.size());
        memcpy(this->v, &data[0], sizeof(Scalar)*data.size());
      }
        break;
      case EXPORT_FORMAT_MATLAB_MATIO:
#ifdef WITH_MATIO
        mat_t    *matfp;
        matvar_t *matvar;

        matfp = Mat_Open(filename, MAT_ACC_RDONLY);

        if (!matfp)
        {
          throw Exceptions::IOException(Exceptions::IOException::Read, filename);
          return;
        }

        matvar = Mat_VarRead(matfp, var_name);
        if (matvar)
        {
          this->alloc(matvar->dims[0]);
          if (Hermes::Helpers::TypeIsReal<Scalar>::value)
            memcpy(this->v, matvar->data, sizeof(Scalar)*this->size);
          else
          {
            std::complex<double>* complex_data = malloc_with_check<SimpleVector<Scalar>, std::complex<double> >(this->size, this);
            double* real_array = (double*)((mat_complex_split_t*)matvar->data)->Re;
            double* imag_array = (double*)((mat_complex_split_t*)matvar->data)->Im;
            for (int i = 0; i < this->size; i++)
              complex_data[i] = std::complex<double>(real_array[i], imag_array[i]);
            memcpy(this->v, complex_data, sizeof(Scalar)*this->size);
            free_with_check(complex_data);
          }
        }

        Mat_Close(matfp);
        if (!matvar)
          throw Exceptions::IOException(Exceptions::IOException::Read, filename);
#else
        throw Exceptions::Exception("MATIO not included.");
#endif
        break;
      case EXPORT_FORMAT_MATRIX_MARKET:
        throw Hermes::Exceptions::MethodNotImplementedException("SimpleVector<Scalar>::import_from_file - Matrix Market");
        break;
#ifdef WITH_BSON
      case EXPORT_FORMAT_BSON:
      {
        FILE *fpr;
        fpr = fopen(filename, "rb");

        // file size:
        fseek(fpr, 0, SEEK_END);
        int size = ftell(fpr);
        rewind(fpr);

        // allocate memory to contain the whole file:
        char *datar = malloc_with_check<char>(size);
        fread(datar, size, 1, fpr);
        fclose(fpr);

        bson br;
        bson_init_finished_data(&br, datar, 0);

        bson_iterator it;
        bson sub;
        bson_find(&it, &br, "size");
        this->size = bson_iterator_int(&it);

        this->v = malloc_with_check<SimpleVector<Scalar>, Scalar>(this->size, this);

        bson_iterator it_coeffs;
        bson_find(&it_coeffs, &br, "v");
        bson_iterator_subobject_init(&it_coeffs, &sub, 0);
        bson_iterator_init(&it, &sub);
        int index_coeff = 0;
        while (bson_iterator_next(&it))
          this->v[index_coeff++] = bson_iterator_double(&it);

        if (!Hermes::Helpers::TypeIsReal<Scalar>::value)
        {
          bson_find(&it_coeffs, &br, "v-imag");
          bson_iterator_subobject_init(&it_coeffs, &sub, 0);
          bson_iterator_init(&it, &sub);
          index_coeff = 0;
          while (bson_iterator_next(&it))
            ((std::complex<double>)this->v[index_coeff++]).imag(bson_iterator_double(&it));
        }

        bson_destroy(&br);
        free_with_check(datar);
      }
        break;
#endif
      }
    }
コード例 #19
0
ファイル: clsRasterData.cpp プロジェクト: SmileEric/SEIMS
//! Read raster data from MongoDB
int clsRasterData::ReadFromMongoDB(gridfs *gfs, const char* remoteFilename)
{
	gridfile gfile[1];
	bson b[1];
	bson_init(b);
	bson_append_string(b, "filename",  remoteFilename);
	bson_finish(b);  
	int flag = gridfs_find_query(gfs, b, gfile); 
	if(0 != flag)
	{  
		throw ModelException("clsRasterData", "ReadFromMongoDB", "The file " + string(remoteFilename) + " does not exist.");
	}

	size_t length = (size_t)gridfile_get_contentlength(gfile);
	char* buf = (char*)malloc(length);
	gridfile_read (gfile, length, buf);
	float *data = (float*)buf;

	bson bmeta[1];
	gridfile_get_metadata(gfile, bmeta);
	bson_iterator iterator[1];
	if ( bson_find( iterator, bmeta, "NCOLS" )) 
		m_headers["NCOLS"] = (float)bson_iterator_int(iterator);
	if ( bson_find( iterator, bmeta, "NROWS" )) 
		m_headers["NROWS"] = (float)bson_iterator_int(iterator);
	if ( bson_find( iterator, bmeta, "NODATA_VALUE" )) 
		m_headers["NODATA_VALUE"] = (float)bson_iterator_double(iterator);
	if ( bson_find( iterator, bmeta, "XLLCENTER" )) 
		m_headers["XLLCENTER"] = (float)bson_iterator_double(iterator);
	if ( bson_find( iterator, bmeta, "YLLCENTER" )) 
		m_headers["YLLCENTER"] = (float)bson_iterator_double(iterator);
	if ( bson_find( iterator, bmeta, "CELLSIZE" )) 
	{
		m_headers["CELLSIZE"] = (float)bson_iterator_double(iterator);
		//m_headers["DY"] = m_headers["DX"];
	}
	
	int nRows = (int)m_headers["NROWS"];
	int nCols = (int)m_headers["NCOLS"];

	vector<float> values;
	vector<int> positionRows;
	vector<int> positionCols;
	//get all valid values
	float nodataFloat = m_headers["NODATA_VALUE"];
	for (int i = 0; i < nRows; ++i)
	{
		for (int j = 0; j < nCols; ++j)
		{
			int index = i*nCols + j;
			float value = data[index];
			if(FloatEqual(nodataFloat, value)) 
				continue;
			values.push_back(value);
			positionRows.push_back(i);
			positionCols.push_back(j);
		}
	}

	//create float array
	m_nRows = values.size();
	m_rasterData = new float[m_nRows];
	m_rasterPositionData = new float*[m_nRows];
	for (int i = 0; i < m_nRows; ++i)
	{
		m_rasterData[i] = values.at(i);
		m_rasterPositionData[i] = new float[2];
		m_rasterPositionData[i][0] = float(positionRows.at(i));
		m_rasterPositionData[i][1] = float(positionCols.at(i));
	}

	bson_destroy(b);
	gridfile_destroy(gfile);

	free(buf);

	return 0;
}
コード例 #20
0
ファイル: bjson.c プロジェクト: RepoCorp/mongres
static char *
bson_to_json_recurse(StringInfo buf, const char *data, bool is_object)
{
	bson_iterator i;
	const char *key;
	char oidhex[25];
	char *str;
	bool first = true;

	bson_iterator_from_buffer(&i, data);

	while (bson_iterator_next(&i))
	{
		bson_type t = bson_iterator_type(&i);
		if (t == 0)
			break;

		if (!first)
			appendStringInfoChar(buf, ',');
		first = false;

		if (is_object)
		{
			key = bson_iterator_key(&i);

			appendStringInfo(buf, "\"%s\"", key);
			appendStringInfoChar(buf, ':');
		}
		switch (t)
		{
			case BSON_DOUBLE:
				appendStringInfo(buf, "%f", bson_iterator_double(&i));
				break;
			case BSON_STRING:
				str = quote_string(bson_iterator_string(&i));
				appendStringInfoString(buf, str);
				break;
			case BSON_OID:
				bson_oid_to_string(bson_iterator_oid(&i), oidhex);
				str = quote_string(oidhex);
				appendStringInfoString(buf, str);
				break;
			case BSON_BOOL:
				appendStringInfoString(buf, bson_iterator_bool(&i) ? "true" : "false");
				break;
			case BSON_INT:
				appendStringInfo(buf, "%d", bson_iterator_int(&i));
				break;
			case BSON_LONG:
				appendStringInfo(buf, "%lld", (uint64_t) bson_iterator_long(&i));
				break;
			case BSON_NULL:
				appendStringInfoString(buf, "null");
				break;
			case BSON_OBJECT:
				appendStringInfoChar(buf, '{');
				bson_to_json_recurse(buf, bson_iterator_value(&i), true);
				appendStringInfoChar(buf, '}');
				break;
			case BSON_ARRAY:
				appendStringInfoChar(buf, '[');
				bson_to_json_recurse(buf, bson_iterator_value(&i), false);
				appendStringInfoChar(buf, ']');
				break;
			case BSON_DATE:
			case BSON_TIMESTAMP:
			case BSON_SYMBOL:
			case BSON_BINDATA:
			case BSON_UNDEFINED:
			case BSON_REGEX:
			case BSON_CODE:
			case BSON_CODEWSCOPE:
				ereport(ERROR,
						(errmsg("unsupported bson type: %d", t)));
				break;
			default:
				elog(ERROR, "unknown bson type: %d", t);
				break;
		}
	}

	return buf->data;
}
コード例 #21
0
ファイル: bson.c プロジェクト: flightaware/mongotcl
int
mongotcl_bsontoarray_raw (Tcl_Interp *interp, char *arrayName, char *typeArrayName, const char *data , int depth) {
    bson_iterator i;
    const char *key;
    bson_timestamp_t ts;
    char oidhex[25];
	Tcl_Obj *obj;
	char *type;

	if (data == NULL) {
		return TCL_OK;
	}

    bson_iterator_from_buffer(&i, data);

    while (bson_iterator_next (&i)) {
        bson_type t = bson_iterator_type (&i);
        if (t == 0) {
            break;
		}

        key = bson_iterator_key (&i);

        switch (t) {
			case BSON_DOUBLE: {
				obj = Tcl_NewDoubleObj (bson_iterator_double (&i));
				type = "double";
				break;
		}

			case BSON_SYMBOL: {
				obj = Tcl_NewStringObj (bson_iterator_string (&i), -1);
				type = "symbol";
				break;
			}

			case BSON_STRING: {
				obj = Tcl_NewStringObj (bson_iterator_string (&i), -1);
				type = "string";
				break;
			}

			case BSON_OID: {
				bson_oid_to_string( bson_iterator_oid( &i ), oidhex );
				obj = Tcl_NewStringObj (oidhex, -1);
				type = "oid";
				break;
			}

			case BSON_BOOL: {
				obj = Tcl_NewBooleanObj (bson_iterator_bool (&i));
				type = "bool";
				break;
			}

			case BSON_DATE: {
				obj = Tcl_NewLongObj ((long) bson_iterator_date(&i));
				type = "date";
				break;
			}

			case BSON_BINDATA: {
				unsigned char *bindata = (unsigned char *)bson_iterator_bin_data (&i);
				int binlen = bson_iterator_bin_len (&i);

				obj = Tcl_NewByteArrayObj (bindata, binlen);
				type = "bin";
				break;
			}

			case BSON_UNDEFINED: {
				obj = Tcl_NewObj ();
				type = "undefined";
				break;
			}

			case BSON_NULL: {
				obj = Tcl_NewObj ();
				type = "null";
				break;
			}

			case BSON_REGEX: {
				obj = Tcl_NewStringObj (bson_iterator_regex (&i), -1);
				type = "regex";
				break;
			}

			case BSON_CODE: {
				obj = Tcl_NewStringObj (bson_iterator_code (&i), -1);
				type = "code";
				break;
			}

			case BSON_CODEWSCOPE: {
				// bson_printf( "BSON_CODE_W_SCOPE: %s", bson_iterator_code( &i ) );
				/* bson_init( &scope ); */ /* review - stepped on by bson_iterator_code_scope? */
				// bson_iterator_code_scope( &i, &scope );
				// bson_printf( "\n\t SCOPE: " );
				// bson_print( &scope );
				/* bson_destroy( &scope ); */ /* review - causes free error */
				break;
			}

			case BSON_INT: {
				obj = Tcl_NewIntObj (bson_iterator_int (&i));
				type = "int";
				break;
			}

			case BSON_LONG: {
				obj = Tcl_NewLongObj ((uint64_t)bson_iterator_long (&i));
				type = "long";
				break;
			}

			case BSON_TIMESTAMP: {
				char string[64];

				ts = bson_iterator_timestamp (&i);
				snprintf(string, sizeof(string), "%d:%d", ts.i, ts.t);
				obj = Tcl_NewStringObj (bson_iterator_string (&i), -1);
				type = "timestamp";
				break;
			}

			case BSON_ARRAY: {
				obj = Tcl_NewObj();
				obj = mongotcl_bsontolist_raw (interp, obj, bson_iterator_value (&i), depth + 1);
				type = "array";

				break;
			}

			case BSON_OBJECT: {
				Tcl_Obj *subList = Tcl_NewObj ();

				obj = mongotcl_bsontolist_raw (interp, subList, bson_iterator_value (&i), depth + 1);
				type = "object";
				break;
			}

			default: {
				obj = Tcl_NewIntObj (t);
				type = "unknown";
				break;
			}
		}

		if (Tcl_SetVar2Ex (interp, arrayName, key, obj, TCL_LEAVE_ERR_MSG) == NULL) {
			return TCL_ERROR;
		}

		if (typeArrayName != NULL) {
			if (Tcl_SetVar2Ex (interp, typeArrayName, key, Tcl_NewStringObj (type, -1), TCL_LEAVE_ERR_MSG) == NULL) {
				return TCL_ERROR;
			}
		}
    }
	return TCL_OK; 
}
コード例 #22
0
ファイル: bson.c プロジェクト: halayudha/kdengine
void bson_print_raw( const char *data , int depth ) {
    bson_iterator i;
    const char *key;
    int temp;
    bson_timestamp_t ts;
    char oidhex[25];
    bson scope;
    bson_iterator_from_buffer( &i, data );

    while ( bson_iterator_next( &i ) ) {
        bson_type t = bson_iterator_type( &i );
        if ( t == 0 )
            break;
        key = bson_iterator_key( &i );

        for ( temp=0; temp<=depth; temp++ )
            printf( "\t" );
        bson_printf( "%s : %d \t " , key , t );
        switch ( t ) {
        case BSON_DOUBLE:
            printf( "%f" , bson_iterator_double( &i ) );
            break;
        case BSON_STRING:
            printf( "%s" , bson_iterator_string( &i ) );
            break;
        case BSON_SYMBOL:
            printf( "SYMBOL: %s" , bson_iterator_string( &i ) );
            break;
        case BSON_OID:
            bson_oid_to_string( bson_iterator_oid( &i ), oidhex );
            printf( "%s" , oidhex );
            break;
        case BSON_BOOL:
            printf( "%s" , bson_iterator_bool( &i ) ? "true" : "false" );
            break;
        case BSON_DATE:
            printf( "%ld" , ( long int )bson_iterator_date( &i ) );
            break;
        case BSON_BINDATA:
            printf( "BSON_BINDATA" );
            break;
        case BSON_UNDEFINED:
            printf( "BSON_UNDEFINED" );
            break;
        case BSON_NULL:
            printf( "BSON_NULL" );
            break;
        case BSON_REGEX:
            printf( "BSON_REGEX: %s", bson_iterator_regex( &i ) );
            break;
        case BSON_CODE:
            printf( "BSON_CODE: %s", bson_iterator_code( &i ) );
            break;
        case BSON_CODEWSCOPE:
            printf( "BSON_CODE_W_SCOPE: %s", bson_iterator_code( &i ) );
            bson_init( &scope );
            bson_iterator_code_scope( &i, &scope );
            printf( "\n\t SCOPE: " );
            bson_print( &scope );
            break;
        case BSON_INT:
            printf( "%d" , bson_iterator_int( &i ) );
            break;
        case BSON_LONG:
            printf( "%lld" , ( long long int )bson_iterator_long( &i ) );
            break;
        case BSON_TIMESTAMP:
            ts = bson_iterator_timestamp( &i );
            printf( "i: %d, t: %d", ts.i, ts.t );
            break;
        case BSON_OBJECT:
        case BSON_ARRAY:
            printf( "\n" );
            bson_print_raw( bson_iterator_value( &i ) , depth + 1 );
            break;
        default:
            bson_errprintf( "can't print type : %d\n" , t );
        }
        printf( "\n" );
    }
}
コード例 #23
0
ファイル: api_bson.c プロジェクト: nosarcasm/philoexplorer
EXPORT mxArray* mongo_bson_array_value(struct bson_iterator_* i) {
    bson_type sub_type, common_type;
    struct Rcomplex z;
    bson_iterator sub[MAXDIM+1];
    mwSize ndims = 0;
    mwSize count[MAXDIM+1];
    mwSize dim[MAXDIM+1];
    mwSize* mdim = dim + 1;
    mwSize sizes[MAXDIM+1];
    mxArray* ret;
    mwSize depth, j, len, ofs;
    int isRow = 0;
    sub[0] = *(bson_iterator*)i;
    /* count number of dimensions.  This is equal to the number of
       consecutive array markers in the BSON */
    do {
        bson_iterator_subiterator(&sub[ndims], &sub[ndims+1]);
        if (++ndims > MAXDIM) {
            mexPrintf("Max dimensions (%d) exceeded. Use an iterator\n", MAXDIM);
            return 0;
        }
        sub_type = bson_iterator_next(&sub[ndims]);
    }
    while (sub_type == BSON_ARRAY);

    /* get the first data value's type */
    switch (common_type = sub_type) {
    case BSON_INT: ;
    case BSON_LONG: ;
    case BSON_DOUBLE: ;
 /* case BSON_STRING: ; */
    case BSON_BOOL: ;
    case BSON_DATE:
        break;
    case BSON_OBJECT:
        if (_iterator_getComplex(&sub[ndims], &z))
            break;
        /* fall thru to default */
    default:
        /* including empty array */
        mexPrintf("Unable to convert array - invalid type (%d)", common_type);
        return 0;
    }

    /* initial lowest level count */
    for (j = 0; j <= ndims; j++)
        count[j] = 1;
    while ((sub_type = bson_iterator_next(&sub[ndims])) != BSON_EOO) {
        if (sub_type != common_type) {
            mexPrintf("Unable to convert array - inconsistent types");
            return 0;
        }
        if (sub_type == BSON_OBJECT && !_iterator_getComplex(&sub[ndims], &z)) {
            mexPrintf("Unable to convert array - invalid subobject");
            return 0;
        }
        ++count[ndims];
    }

    /* step through rest of array -- checking common type and dimensions */
    memset(dim, 0, sizeof(dim));
    depth = ndims;
    while (depth >= 1) {
        sub_type = bson_iterator_next(&sub[depth]);
        switch (sub_type) {
        case BSON_EOO:
            if (dim[depth] == 0)
                dim[depth] = count[depth];
            else if (dim[depth] != count[depth]) {
                mexPrintf("Unable to convert array - inconsistent dimensions");
                return 0;
            }
            depth--;
            break;
        case BSON_ARRAY:
            count[depth]++;
            bson_iterator_subiterator(&sub[depth], &sub[depth+1]);
            if (++depth > ndims) {
                mexPrintf("Unable to convert array - inconsistent dimensions");
                return 0;
            }
            count[depth] = 0;
            break;
        case BSON_INT: ;
        case BSON_LONG: ;
        case BSON_DOUBLE: ;
/*      case BSON_STRING: ; */
        case BSON_BOOL: ;
        case BSON_DATE: ;
GotEl:  {
            if (depth != ndims || sub_type != common_type) {
                mexPrintf("Unable to convert array - inconsistent dimensions or types");
                return 0;
            }
            count[depth]++;
            break;
        }
        case BSON_OBJECT:
            if (_iterator_getComplex(&sub[depth], &z))
                goto GotEl;
            /* fall thru to default */
        default:
            mexPrintf("Unable to convert array - invalid type (%d)", sub_type);
            return 0;
        }
    }

    if (ndims > 1) {
        j = dim[ndims];            /* reverse row and column */
        dim[ndims] = dim[ndims-1];
        dim[ndims-1] = j;
    }
    /* calculate offset each dimension multiplies it's index by */
    len = 1;
    for (depth = ndims; depth > 0; depth--) {
        sizes[depth] = len;
        len *= dim[depth];
    }

    if (ndims > 1) {
        reverse(mdim, ndims); /* reverse dimensions for Matlab */
        j = sizes[ndims];
        sizes[ndims] = sizes[ndims-1];
        sizes[ndims-1] = j;
    } else {
        isRow = 1;
        ndims = 2;
        mdim[1] = mdim[0];
        mdim[0] = 1;
    }
/*
    for (j = 1; j <= ndims; j++)
        mexPrintf("%d ", dim[j]);
    mexPrintf("\n");

    for (j = 1; j <= ndims; j++)
        mexPrintf("%d ", sizes[j]);
    mexPrintf("\n");
*/
    switch (common_type) {
    case BSON_INT:    ret = mxCreateNumericArray(ndims, mdim, mxINT32_CLASS, mxREAL); break;
    case BSON_LONG:   ret = mxCreateNumericArray(ndims, mdim, mxINT64_CLASS, mxREAL); break;
    case BSON_DATE:
    case BSON_DOUBLE: ret = mxCreateNumericArray(ndims, mdim, mxDOUBLE_CLASS, mxREAL); break;
/*  case BSON_STRING: */
    case BSON_BOOL:   ret = mxCreateLogicalArray(ndims, mdim); break;
    case BSON_OBJECT: ret = mxCreateNumericArray(ndims, mdim, mxDOUBLE_CLASS, mxCOMPLEX); break;
    default:
        /* never reaches here */
        ret = 0;
    }

    if (isRow)
        ndims--;
    /* step through array(s) again, pulling out values */
    bson_iterator_subiterator(&sub[0], &sub[1]);
    depth = 1;
    count[depth] = 0;
    while (depth >= 1) {
        sub_type = bson_iterator_next(&sub[depth]);
        count[depth]++;
        if (sub_type == BSON_EOO) {
            depth--;
        } else if (sub_type == BSON_ARRAY) {
            bson_iterator_subiterator(&sub[depth], &sub[depth+1]);
            depth++;
            count[depth] = 0;
        } else {
            ofs = 0;
            for (j = 1; j <= ndims; j++)
                ofs += sizes[j] * (count[j] - 1);

            switch (sub_type) {
                case BSON_INT:
                    ((int*)mxGetData(ret))[ofs] = bson_iterator_int(&sub[depth]);
                    break;
                case BSON_DATE:
                    mxGetPr(ret)[ofs] = 719529.0 + bson_iterator_date(&sub[depth]) / (1000.0 * 60 * 60 * 24);
                    break;
                case BSON_DOUBLE: 
                    mxGetPr(ret)[ofs] = bson_iterator_double(&sub[depth]);
                    break;
                case BSON_LONG:
                    ((int64_t*)mxGetData(ret))[ofs] = bson_iterator_long(&sub[depth]);
                    break;
                case BSON_STRING:
                    break;
                case BSON_BOOL: ;
                    ((mxLogical*)mxGetData(ret))[ofs] = bson_iterator_bool(&sub[depth]);
                    break;
                case BSON_OBJECT:
                    _iterator_getComplex(&sub[depth], &z);
                    mxGetPr(ret)[ofs] = z.r;
                    mxGetPi(ret)[ofs] = z.i;
                    break;
                default: ;
                    /* never reaches here */
            }
        }
    }

    return ret;
}
コード例 #24
0
int main(){
    mongo_connection conn[1];
    bson_buffer bb;
    bson obj;
    bson cond;
    int i;
    bson_oid_t oid;
    const char* col = "c.update_test";
    const char* ns = "test.c.update_test";

    INIT_SOCKETS_FOR_WINDOWS;

    if (mongo_connect( conn , TEST_SERVER, 27017 )){
        printf("failed to connect\n");
        exit(1);
    }

    /* if the collection doesn't exist dropping it will fail */
    if ( mongo_cmd_drop_collection(conn, "test", col, NULL) == MONGO_OK
          && mongo_find_one(conn, ns, bson_empty(&obj), bson_empty(&obj), NULL) != MONGO_OK ){
        printf("failed to drop collection\n");
        exit(1);
    }

    bson_oid_gen(&oid);

    { /* insert */
        bson_buffer_init(&bb);
        bson_append_oid(&bb, "_id", &oid);
        bson_append_int(&bb, "a", 3 );
        bson_from_buffer(&obj, &bb);
        mongo_insert(conn, ns, &obj);
        bson_destroy(&obj);
    }

    { /* insert */
        bson op;

        bson_buffer_init(&bb);
        bson_append_oid(&bb, "_id", &oid);
        bson_from_buffer(&cond, &bb);

        bson_buffer_init(&bb);
        {
            bson_append_start_object(&bb, "$inc");
                bson_append_int(&bb, "a", 2 );
            bson_append_finish_object(&bb);
        }
        {
            bson_append_start_object(&bb, "$set");
                bson_append_double(&bb, "b", -1.5 );
            bson_append_finish_object(&bb);
        }
        bson_from_buffer(&op, &bb);

        for (i=0; i<5; i++)
            mongo_update(conn, ns, &cond, &op, 0);

        /* cond is used later */
        bson_destroy(&op);
    }

    if( mongo_find_one(conn, ns, &cond, 0, &obj) != MONGO_OK ){
        printf("Failed to find object\n");
        exit(1);
    } else {
        int fields = 0;
        bson_iterator it;
        bson_iterator_init(&it, obj.data);

        bson_destroy(&cond);

        while(bson_iterator_next(&it)){
            switch(bson_iterator_key(&it)[0]){
                case '_': /* id */
                    ASSERT(bson_iterator_type(&it) == BSON_OID);
                    ASSERT(!memcmp(bson_iterator_oid(&it)->bytes, oid.bytes, 12));
                    fields++;
                    break;
                case 'a':
                    ASSERT(bson_iterator_type(&it) == BSON_INT);
                    ASSERT(bson_iterator_int(&it) == 3 + 5*2);
                    fields++;
                    break;
                case 'b':
                    ASSERT(bson_iterator_type(&it) == BSON_DOUBLE);
                    ASSERT(bson_iterator_double(&it) == -1.5);
                    fields++;
                    break;
            }
        }

        ASSERT(fields == 3);
    }

    bson_destroy(&obj);

    mongo_cmd_drop_db(conn, "test");
    mongo_destroy(conn);
    return 0;
}
コード例 #25
0
ファイル: all_types.c プロジェクト: hahnakane/junkcode
int main(int argc, char *argv[])
{
    bson_buffer bb;
    bson b;
    bson_iterator it, it2, it3;
    bson_oid_t oid;

    bson_buffer_init(&bb);
    bson_append_double(&bb, "d", 3.14);
    bson_append_string(&bb, "s", "hello");

    {
        bson_buffer *obj = bson_append_start_object(&bb, "o");
        bson_buffer *arr = bson_append_start_array(obj, "a");
        bson_append_binary(arr, "0", 8, "w\0rld", 5);
        bson_append_finish_object(arr);
        bson_append_finish_object(obj);
    }

    bson_append_undefined(&bb, "u");

    bson_oid_from_string(&oid, "010203040506070809101112");
    ASSERT(!memcmp(oid.bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12));
    bson_append_oid(&bb, "oid", &oid);

    bson_append_bool(&bb, "b", 1);
    bson_append_date(&bb, "date", 0x0102030405060708ULL);
    bson_append_null(&bb, "n");
    bson_append_regex(&bb, "r", "^asdf", "imx");
    /* no dbref test (deprecated) */
    bson_append_code(&bb, "c", "function(){}");
    bson_append_symbol(&bb, "symbol", "SYMBOL");

    {
        bson_buffer scope_buf;
        bson scope;
        bson_buffer_init(&scope_buf);
        bson_append_int(&scope_buf, "i", 123);
        bson_from_buffer(&scope, &scope_buf);

        bson_append_code_w_scope(&bb, "cws", "function(){return i}", &scope);
        bson_destroy(&scope);
    }

    /* no timestamp test (internal) */
    bson_append_long(&bb, "l", 0x1122334455667788ULL);

    bson_from_buffer(&b, &bb);

    bson_iterator_init(&it, b.data);
    
    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_double);
    ASSERT(bson_iterator_type(&it) == bson_double);
    ASSERT(!strcmp(bson_iterator_key(&it), "d"));
    ASSERT(bson_iterator_double(&it) == 3.14);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_string);
    ASSERT(bson_iterator_type(&it) == bson_string);
    ASSERT(!strcmp(bson_iterator_key(&it), "s"));
    ASSERT(!strcmp(bson_iterator_string(&it), "hello"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_object);
    ASSERT(bson_iterator_type(&it) == bson_object);
    ASSERT(!strcmp(bson_iterator_key(&it), "o"));
    bson_iterator_subiterator(&it, &it2);

    ASSERT(bson_iterator_more(&it2));
    ASSERT(bson_iterator_next(&it2) == bson_array);
    ASSERT(bson_iterator_type(&it2) == bson_array);
    ASSERT(!strcmp(bson_iterator_key(&it2), "a"));
    bson_iterator_subiterator(&it2, &it3);

    ASSERT(bson_iterator_more(&it3));
    ASSERT(bson_iterator_next(&it3) == bson_bindata);
    ASSERT(bson_iterator_type(&it3) == bson_bindata);
    ASSERT(!strcmp(bson_iterator_key(&it3), "0"));
    ASSERT(bson_iterator_bin_type(&it3) == 8);
    ASSERT(bson_iterator_bin_len(&it3) == 5);
    ASSERT(!memcmp(bson_iterator_bin_data(&it3), "w\0rld", 5));
    
    ASSERT(bson_iterator_more(&it3));
    ASSERT(bson_iterator_next(&it3) == bson_eoo);
    ASSERT(bson_iterator_type(&it3) == bson_eoo);
    ASSERT(!bson_iterator_more(&it3));

    ASSERT(bson_iterator_more(&it2));
    ASSERT(bson_iterator_next(&it2) == bson_eoo);
    ASSERT(bson_iterator_type(&it2) == bson_eoo);
    ASSERT(!bson_iterator_more(&it2));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_undefined);
    ASSERT(bson_iterator_type(&it) == bson_undefined);
    ASSERT(!strcmp(bson_iterator_key(&it), "u"));


    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_oid);
    ASSERT(bson_iterator_type(&it) == bson_oid);
    ASSERT(!strcmp(bson_iterator_key(&it), "oid"));
    ASSERT(!memcmp(bson_iterator_oid(&it)->bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12));
    ASSERT(bson_iterator_oid(&it)->ints[0] == oid.ints[0]);
    ASSERT(bson_iterator_oid(&it)->ints[1] == oid.ints[1]);
    ASSERT(bson_iterator_oid(&it)->ints[2] == oid.ints[2]);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_bool);
    ASSERT(bson_iterator_type(&it) == bson_bool);
    ASSERT(!strcmp(bson_iterator_key(&it), "b"));
    ASSERT(bson_iterator_bool(&it) == 1);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_date);
    ASSERT(bson_iterator_type(&it) == bson_date);
    ASSERT(!strcmp(bson_iterator_key(&it), "date"));
    ASSERT(bson_iterator_date(&it) == 0x0102030405060708ULL);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_null);
    ASSERT(bson_iterator_type(&it) == bson_null);
    ASSERT(!strcmp(bson_iterator_key(&it), "n"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_regex);
    ASSERT(bson_iterator_type(&it) == bson_regex);
    ASSERT(!strcmp(bson_iterator_key(&it), "r"));
    ASSERT(!strcmp(bson_iterator_regex(&it), "^asdf"));
    ASSERT(!strcmp(bson_iterator_regex_opts(&it), "imx"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_code);
    ASSERT(bson_iterator_type(&it) == bson_code);
    ASSERT(!strcmp(bson_iterator_key(&it), "c"));
    ASSERT(!strcmp(bson_iterator_string(&it), "function(){}"));
    ASSERT(!strcmp(bson_iterator_code(&it), "function(){}"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_symbol);
    ASSERT(bson_iterator_type(&it) == bson_symbol);
    ASSERT(!strcmp(bson_iterator_key(&it), "symbol"));
    ASSERT(!strcmp(bson_iterator_string(&it), "SYMBOL"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_codewscope);
    ASSERT(bson_iterator_type(&it) == bson_codewscope);
    ASSERT(!strcmp(bson_iterator_key(&it), "cws"));
    ASSERT(!strcmp(bson_iterator_code(&it), "function(){return i}"));

    {
        bson scope;
        bson_iterator_code_scope(&it, &scope);
        bson_iterator_init(&it2, scope.data);

        ASSERT(bson_iterator_more(&it2));
        ASSERT(bson_iterator_next(&it2) == bson_int);
        ASSERT(bson_iterator_type(&it2) == bson_int);
        ASSERT(!strcmp(bson_iterator_key(&it2), "i"));
        ASSERT(bson_iterator_int(&it2) == 123);

        ASSERT(bson_iterator_more(&it2));
        ASSERT(bson_iterator_next(&it2) == bson_eoo);
        ASSERT(bson_iterator_type(&it2) == bson_eoo);
        ASSERT(!bson_iterator_more(&it2));
    }

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_long);
    ASSERT(bson_iterator_type(&it) == bson_long);
    ASSERT(!strcmp(bson_iterator_key(&it), "l"));
    ASSERT(bson_iterator_long(&it) == 0x1122334455667788ULL);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_eoo);
    ASSERT(bson_iterator_type(&it) == bson_eoo);
    ASSERT(!bson_iterator_more(&it));
    
    return 0;
}
コード例 #26
0
ファイル: mg.c プロジェクト: carriercomm/mudos-1
INLINE void bson_to_v P2(bson_iterator *, i, svalue_t *, v){
	int temp;   
	const char *cp;
    char oidhex[25];
    bson scope;
    bson_type t;
    bson_timestamp_t ts;
    t = bson_iterator_type( i );
    switch ( t ) {
    case BSON_DOUBLE:
    	v->type = T_REAL;
		v->u.real = bson_iterator_double( i );
        break;
    case BSON_STRING:
    	cp = bson_iterator_string( i );
    	v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy(cp,"bson_to_v:1");
        break;
    case BSON_SYMBOL:
       	v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("SYMBOL","bson_to_v:2");
        break;
    case BSON_OID:
        bson_oid_to_string( bson_iterator_oid( i ), oidhex );
        v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy(oidhex,"bson_to_v:3");
        break;
    case BSON_BOOL:
    	v->type = T_NUMBER;
		v->u.number = ( long )bson_iterator_bool( i );
        break;
    case BSON_DATE:
        v->type = T_NUMBER;
		v->u.number = ( long )bson_iterator_date( i );
        break;
    case BSON_BINDATA:
    	v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("BSON_BINDATA","bson_to_v:4");
        break;
    case BSON_UNDEFINED:
    	v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("BSON_UNDEFINED","bson_to_v:5");
        break;
    case BSON_NULL:
    	v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
        v->u.string = string_copy("BSON_NULL","bson_to_v:6");
        break;
    case BSON_REGEX:
        v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("BSON_REGEX","bson_to_v:7");
        break;
    case BSON_CODE:
        v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("BSON_CODE","bson_to_v:8");
        break;
    case BSON_CODEWSCOPE:
        v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("BSON_CODEWSCOPE","bson_to_v:9");
        break;
    case BSON_INT:
        v->type = T_NUMBER;
		v->u.number = ( long )bson_iterator_int( i );
        break;
    case BSON_LONG:
    	v->type = T_NUMBER;
		v->u.number = ( long )bson_iterator_long( i );
        break;
    case BSON_TIMESTAMP:
        ts = bson_iterator_timestamp( i );
        v->type = T_NUMBER;
		v->u.number = ( long )ts.t;
        break;
    case BSON_OBJECT:
    	bson_to_mapping( bson_iterator_value( i ) , v);
    	break;
    case BSON_ARRAY:
        bson_to_array( bson_iterator_value( i ) , v);
        break;
    default:
    	v->type = T_STRING;
    	v->subtype = STRING_MALLOC;
    	v->u.string = string_copy("UNKOWN_TYPE","bson_to_v:10");
    	break;
    }
}
コード例 #27
0
ファイル: luabson.c プロジェクト: alextooter/ejdb
static void bson_print_xstr(TCXSTR* xstr, const char *data, int depth) {
    bson_iterator i;
    const char *key;
    int temp;
    bson_timestamp_t ts;
    char oidhex[25];
    bson scope;
    bson_iterator_from_buffer(&i, data);

    while (bson_iterator_next(&i)) {
        bson_type t = bson_iterator_type(&i);
        if (t == 0)
            break;
        key = bson_iterator_key(&i);

        for (temp = 0; temp <= depth; temp++) {
            tcxstrprintf(xstr, ".");
        }
        tcxstrprintf(xstr, "%s(%d)=", key, t);
        switch (t) {
            case BSON_DOUBLE:
                tcxstrprintf(xstr, "%f", bson_iterator_double(&i));
                break;
            case BSON_STRING:
                tcxstrprintf(xstr, "%s", bson_iterator_string(&i));
                break;
            case BSON_SYMBOL:
                tcxstrprintf(xstr, "SYMBOL: %s", bson_iterator_string(&i));
                break;
            case BSON_OID:
                bson_oid_to_string(bson_iterator_oid(&i), oidhex);
                tcxstrprintf(xstr, "%s", oidhex);
                break;
            case BSON_BOOL:
                tcxstrprintf(xstr, "%s", bson_iterator_bool(&i) ? "true" : "false");
                break;
            case BSON_DATE:
                tcxstrprintf(xstr, "%lld", (uint64_t) bson_iterator_long(&i));
                break;
            case BSON_BINDATA:
                tcxstrprintf(xstr, "BSON_BINDATA");
                break;
            case BSON_UNDEFINED:
                tcxstrprintf(xstr, "BSON_UNDEFINED");
                break;
            case BSON_NULL:
                tcxstrprintf(xstr, "BSON_NULL");
                break;
            case BSON_REGEX:
                tcxstrprintf(xstr, "BSON_REGEX: %s", bson_iterator_regex(&i));
                break;
            case BSON_CODE:
                tcxstrprintf(xstr, "BSON_CODE: %s", bson_iterator_code(&i));
                break;
            case BSON_CODEWSCOPE:
                tcxstrprintf(xstr, "BSON_CODE_W_SCOPE: %s", bson_iterator_code(&i));
                /* bson_init( &scope ); */ /* review - stepped on by bson_iterator_code_scope? */
                bson_iterator_code_scope(&i, &scope);
                tcxstrprintf(xstr, "\n  SCOPE: ");
                bson_print_xstr(xstr, scope.data, 0);
                /* bson_destroy( &scope ); */ /* review - causes free error */
                break;
            case BSON_INT:
                tcxstrprintf(xstr, "%d", bson_iterator_int(&i));
                break;
            case BSON_LONG:
                tcxstrprintf(xstr, "%lld", (uint64_t) bson_iterator_long(&i));
                break;
            case BSON_TIMESTAMP:
                ts = bson_iterator_timestamp(&i);
                tcxstrprintf(xstr, "i: %d, t: %d", ts.i, ts.t);
                break;
            case BSON_OBJECT:
            case BSON_ARRAY:
                tcxstrprintf(xstr, "\n");
                bson_print_xstr(xstr, bson_iterator_value(&i), depth + 1);
                break;
            default:
                fprintf(stderr, "can't print type : %d\n", t);
        }
        tcxstrprintf(xstr, "\n");
    }
}
コード例 #28
0
ファイル: api_bson.c プロジェクト: nosarcasm/philoexplorer
EXPORT double mongo_bson_iterator_double(struct bson_iterator_* i) {
    return bson_iterator_double((bson_iterator*)i);
}
コード例 #29
0
ファイル: cs_matrix.cpp プロジェクト: HPeX/hermes
    void CSMatrix<Scalar>::import_from_file(const char *filename, const char *var_name, MatrixExportFormat fmt, bool invert_storage)
    {
      this->free();

      switch (fmt)
      {
      case EXPORT_FORMAT_MATRIX_MARKET:
        throw Exceptions::MethodNotOverridenException("CSMatrix<Scalar>::import_from_file - Matrix Market");
        break;
      case EXPORT_FORMAT_MATLAB_MATIO:
      {
#ifdef WITH_MATIO
                                       mat_t    *matfp;
                                       matvar_t *matvar;

                                       matfp = Mat_Open(filename, MAT_ACC_RDONLY);

                                       if (!matfp)
                                         throw Exceptions::IOException(Exceptions::IOException::Read, filename);

                                       matvar = Mat_VarRead(matfp, var_name);

                                       if (matvar)
                                       {
                                         mat_sparse_t *sparse = (mat_sparse_t *)matvar->data;

                                         this->nnz = sparse->nir;
                                         this->Ax = malloc_with_check<CSMatrix<Scalar>, Scalar>(this->nnz, this);
                                         this->Ai = malloc_with_check<CSMatrix<Scalar>, int>(this->nnz, this);
                                         this->size = sparse->njc;
                                         this->Ap = malloc_with_check<CSMatrix<Scalar>, int>(this->size + 1, this);

                                         void* data = nullptr;
                                         if (Hermes::Helpers::TypeIsReal<Scalar>::value)
                                           data = sparse->data;
                                         else
                                         {
                                           std::complex<double>* complex_data = malloc_with_check<CSMatrix<Scalar>, std::complex<double> >(this->nnz, this);
                                           double* real_array = (double*)((mat_complex_split_t*)sparse->data)->Re;
                                           double* imag_array = (double*)((mat_complex_split_t*)sparse->data)->Im;
                                           for (int i = 0; i < this->nnz; i++)
                                             complex_data[i] = std::complex<double>(real_array[i], imag_array[i]);
                                           data = (void*)complex_data;
                                         }
                                         memcpy(this->Ax, data, this->nnz * sizeof(Scalar));
                                         if (!Hermes::Helpers::TypeIsReal<Scalar>::value)
                                           free_with_check(data);
                                         memcpy(this->Ap, sparse->jc, this->size * sizeof(int));
                                         this->Ap[this->size] = this->nnz;
                                         memcpy(this->Ai, sparse->ir, this->nnz * sizeof(int));

                                         if (invert_storage)
                                           this->switch_orientation();
                                       }

                                       Mat_Close(matfp);

                                       if (!matvar)
                                         throw Exceptions::IOException(Exceptions::IOException::Read, filename);
#else
                                       throw Exceptions::Exception("MATIO not included.");
#endif
      }
        break;

      case EXPORT_FORMAT_PLAIN_ASCII:
        throw Exceptions::MethodNotOverridenException("CSMatrix<Scalar>::import_from_file - Simple format");

#ifdef WITH_BSON
      case EXPORT_FORMAT_BSON:
      {
                               FILE *fpr;
                               fpr = fopen(filename, "rb");

                               // file size:
                               fseek(fpr, 0, SEEK_END);
                               int size = ftell(fpr);
                               rewind(fpr);

                               // allocate memory to contain the whole file:
                               char *datar = malloc_with_check<char>(size);
                               fread(datar, size, 1, fpr);
                               fclose(fpr);

                               bson br;
                               bson_init_finished_data(&br, datar, 0);

                               bson_iterator it;
                               bson sub;
                               bson_find(&it, &br, "size");
                               this->size = bson_iterator_int(&it);
                               bson_find(&it, &br, "nnz");
                               this->nnz = bson_iterator_int(&it);

                               this->Ap = malloc_with_check<CSMatrix<Scalar>, int>(this->size + 1, this);
                               this->Ai = malloc_with_check<CSMatrix<Scalar>, int>(nnz, this);
                               this->Ax = malloc_with_check<CSMatrix<Scalar>, Scalar>(nnz, this);

                               // coeffs
                               bson_iterator it_coeffs;
                               bson_find(&it_coeffs, &br, "Ap");
                               bson_iterator_subobject_init(&it_coeffs, &sub, 0);
                               bson_iterator_init(&it, &sub);
                               int index_coeff = 0;
                               while (bson_iterator_next(&it))
                                 this->Ap[index_coeff++] = bson_iterator_int(&it);
                               this->Ap[this->size] = this->nnz;

                               bson_find(&it_coeffs, &br, "Ai");
                               bson_iterator_subobject_init(&it_coeffs, &sub, 0);
                               bson_iterator_init(&it, &sub);
                               index_coeff = 0;
                               while (bson_iterator_next(&it))
                                 this->Ai[index_coeff++] = bson_iterator_int(&it);

                                bson_find(&it_coeffs, &br, "Ax");
                                bson_iterator_subobject_init(&it_coeffs, &sub, 0);
                                bson_iterator_init(&it, &sub);
                                index_coeff = 0;
                                while (bson_iterator_next(&it))
                                  this->Ax[index_coeff++] = bson_iterator_double(&it);
                               
                                if (!Hermes::Helpers::TypeIsReal<Scalar>::value)
                               {
                                 bson_find(&it_coeffs, &br, "Ax-imag");
                                 bson_iterator_subobject_init(&it_coeffs, &sub, 0);
                                 bson_iterator_init(&it, &sub);
                                 index_coeff = 0;
                                 while (bson_iterator_next(&it))
                                   ((std::complex<double>)this->Ax[index_coeff++]).imag(bson_iterator_double(&it));
                               }

                                if (invert_storage)
                                  this->switch_orientation();

                               bson_destroy(&br);
                               free_with_check(datar);
      }
#endif
        break;
      }
    }
コード例 #30
0
ファイル: luabson.c プロジェクト: alextooter/ejdb
void lua_push_bson_value(lua_State *L, bson_iterator *it) {
    bson_type bt = bson_iterator_type(it);
    switch (bt) {
        case BSON_OID:
        {
            char xoid[25];
            bson_oid_to_string(bson_iterator_oid(it), xoid);
            lua_pushstring(L, xoid);
            break;
        }
        case BSON_STRING:
        case BSON_SYMBOL:
            lua_pushstring(L, bson_iterator_string(it));
            break;
        case BSON_NULL:
        case BSON_UNDEFINED:
            lua_push_bsontype_table(L, bt);
            break;
        case BSON_INT:
            lua_pushinteger(L, bson_iterator_int(it));
            break;
        case BSON_LONG:
        case BSON_DOUBLE:
            lua_pushnumber(L, (lua_Number) bson_iterator_double(it));
            break;
        case BSON_BOOL:
            lua_pushboolean(L, bson_iterator_bool(it));
            break;
        case BSON_OBJECT:
        case BSON_ARRAY:
        {
            bson_iterator nit;
            bson_iterator_subiterator(it, &nit);
            if (bt == BSON_OBJECT) {
                lua_push_bson_table(L, &nit);
            } else {
                lua_push_bson_array(L, &nit);
            }
            break;
        }
        case BSON_DATE:
        {
            lua_push_bsontype_table(L, bt);
            lua_pushnumber(L, bson_iterator_date(it));
            lua_rawseti(L, -2, 1);
            break;
        }
        case BSON_BINDATA:
        {
            lua_push_bsontype_table(L, bt);
            lua_pushlstring(L, bson_iterator_bin_data(it), bson_iterator_bin_len(it));
            break;
        }
        case BSON_REGEX:
        {
            const char *re = bson_iterator_regex(it);
            const char *ro = bson_iterator_regex_opts(it);
            lua_push_bsontype_table(L, bt);
            lua_pushstring(L, re);
            lua_rawseti(L, -2, 1);
            lua_pushstring(L, ro);
            lua_rawseti(L, -2, 2);
            break;
        }
        default:
            break;
    }
}