/***************************************************************************** Copyright (c) 1996, 2009, Innobase Oy. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA *****************************************************************************/ /****************************************************** Data types Created 1/16/1996 Heikki Tuuri *******************************************************/ #include "data0type.h" #ifdef UNIV_NONINL #include "data0type.ic" #endif /********************************************************************** This function is used to find the storage length in bytes of the first n characters for prefix indexes using a multibyte character set. The function finds charset information and returns length of prefix_len characters in the index field in bytes. NOTE: the prototype of this function is copied from ha_innodb.cc! If you change this function, you MUST change also the prototype here! */ UNIV_INTERN ulint innobase_get_at_most_n_mbchars( /*===========================*/ /* out: number of bytes occupied by the first n characters */ ulint charset_id, /* in: character set id */ ulint prefix_len, /* in: prefix length in bytes of the index (this has to be divided by mbmaxlen to get the number of CHARACTERS n in the prefix) */ ulint data_len, /* in: length of the string in bytes */ const char* str); /* in: character string */ /* At the database startup we store the default-charset collation number of this MySQL installation to this global variable. If we have < 4.1.2 format column definitions, or records in the insert buffer, we use this charset-collation code for them. */ UNIV_INTERN ulint data_mysql_default_charset_coll; /************************************************************************* Determine how many bytes the first n characters of the given string occupy. If the string is shorter than n characters, returns the number of bytes the characters in the string occupy. */ UNIV_INTERN ulint dtype_get_at_most_n_mbchars( /*========================*/ /* out: length of the prefix, in bytes */ ulint prtype, /* in: precise type */ ulint mbminlen, /* in: minimum length of a multi-byte character */ ulint mbmaxlen, /* in: maximum length of a multi-byte character */ ulint prefix_len, /* in: length of the requested prefix, in characters, multiplied by dtype_get_mbmaxlen(dtype) */ ulint data_len, /* in: length of str (in bytes) */ const char* str) /* in: the string whose prefix length is being determined */ { #ifndef UNIV_HOTBACKUP ut_a(data_len != UNIV_SQL_NULL); ut_ad(!mbmaxlen || !(prefix_len % mbmaxlen)); if (mbminlen != mbmaxlen) { ut_a(!(prefix_len % mbmaxlen)); return(innobase_get_at_most_n_mbchars( dtype_get_charset_coll(prtype), prefix_len, data_len, str)); } if (prefix_len < data_len) { return(prefix_len); } return(data_len); #else /* UNIV_HOTBACKUP */ /* This function depends on MySQL code that is not included in InnoDB Hot Backup builds. Besides, this function should never be called in InnoDB Hot Backup. */ ut_error; #endif /* UNIV_HOTBACKUP */ } /************************************************************************* Checks if a data main type is a string type. Also a BLOB is considered a string type. */ UNIV_INTERN ibool dtype_is_string_type( /*=================*/ /* out: TRUE if string type */ ulint mtype) /* in: InnoDB main data type code: DATA_CHAR, ... */ { if (mtype <= DATA_BLOB || mtype == DATA_MYSQL || mtype == DATA_VARMYSQL) { return(TRUE); } return(FALSE); } /************************************************************************* Checks if a type is a binary string type. Note that for tables created with < 4.0.14, we do not know if a DATA_BLOB column is a BLOB or a TEXT column. For those DATA_BLOB columns this function currently returns FALSE. */ UNIV_INTERN ibool dtype_is_binary_string_type( /*========================*/ /* out: TRUE if binary string type */ ulint mtype, /* in: main data type */ ulint prtype) /* in: precise type */ { if ((mtype == DATA_FIXBINARY) || (mtype == DATA_BINARY) || (mtype == DATA_BLOB && (prtype & DATA_BINARY_TYPE))) { return(TRUE); } return(FALSE); } /************************************************************************* Checks if a type is a non-binary string type. That is, dtype_is_string_type is TRUE and dtype_is_binary_string_type is FALSE. Note that for tables created with < 4.0.14, we do not know if a DATA_BLOB column is a BLOB or a TEXT column. For those DATA_BLOB columns this function currently returns TRUE. */ UNIV_INTERN ibool dtype_is_non_binary_string_type( /*============================*/ /* out: TRUE if non-binary string type */ ulint mtype, /* in: main data type */ ulint prtype) /* in: precise type */ { if (dtype_is_string_type(mtype) == TRUE && dtype_is_binary_string_type(mtype, prtype) == FALSE) { return(TRUE); } return(FALSE); } /************************************************************************* Forms a precise type from the < 4.1.2 format precise type plus the charset-collation code. */ UNIV_INTERN ulint dtype_form_prtype( /*==============*/ ulint old_prtype, /* in: the MySQL type code and the flags DATA_BINARY_TYPE etc. */ ulint charset_coll) /* in: MySQL charset-collation code */ { ut_a(old_prtype < 256 * 256); ut_a(charset_coll < 256); return(old_prtype + (charset_coll << 16)); } /************************************************************************* Validates a data type structure. */ UNIV_INTERN ibool dtype_validate( /*===========*/ /* out: TRUE if ok */ const dtype_t* type) /* in: type struct to validate */ { ut_a(type); ut_a(type->mtype >= DATA_VARCHAR); ut_a(type->mtype <= DATA_MYSQL); if (type->mtype == DATA_SYS) { ut_a((type->prtype & DATA_MYSQL_TYPE_MASK) < DATA_N_SYS_COLS); } ut_a(type->mbminlen <= type->mbmaxlen); return(TRUE); } /************************************************************************* Prints a data type structure. */ UNIV_INTERN void dtype_print( /*========*/ const dtype_t* type) /* in: type */ { ulint mtype; ulint prtype; ulint len; ut_a(type); mtype = type->mtype; prtype = type->prtype; switch (mtype) { case DATA_VARCHAR: fputs("DATA_VARCHAR", stderr); break; case DATA_CHAR: fputs("DATA_CHAR", stderr); break; case DATA_BINARY: fputs("DATA_BINARY", stderr); break; case DATA_FIXBINARY: fputs("DATA_FIXBINARY", stderr); break; case DATA_BLOB: fputs("DATA_BLOB", stderr); break; case DATA_INT: fputs("DATA_INT", stderr); break; case DATA_MYSQL: fputs("DATA_MYSQL", stderr); break; case DATA_SYS: fputs("DATA_SYS", stderr); break; default: fprintf(stderr, "type %lu", (ulong) mtype); break; } len = type->len; if ((type->mtype == DATA_SYS) || (type->mtype == DATA_VARCHAR) || (type->mtype == DATA_CHAR)) { putc(' ', stderr); if (prtype == DATA_ROW_ID) { fputs("DATA_ROW_ID", stderr); len = DATA_ROW_ID_LEN; } else if (prtype == DATA_ROLL_PTR) { fputs("DATA_ROLL_PTR", stderr); len = DATA_ROLL_PTR_LEN; } else if (prtype == DATA_TRX_ID) { fputs("DATA_TRX_ID", stderr); len = DATA_TRX_ID_LEN; } else if (prtype == DATA_ENGLISH) { fputs("DATA_ENGLISH", stderr); } else { fprintf(stderr, "prtype %lu", (ulong) prtype); } } else { if (prtype & DATA_UNSIGNED) { fputs(" DATA_UNSIGNED", stderr); } if (prtype & DATA_BINARY_TYPE) { fputs(" DATA_BINARY_TYPE", stderr); } if (prtype & DATA_NOT_NULL) { fputs(" DATA_NOT_NULL", stderr); } } fprintf(stderr, " len %lu", (ulong) len); }