Provided by: libqdbm-dev_1.8.78-6build3_amd64 bug

NAME

       Villa - the advanced API of QDBM

SYNOPSIS

       #include <depot.h>
       #include <cabin.h>
       #include <villa.h>
       #include <stdlib.h>

       typedef int(*VLCFUNC)(const char *aptr, int asiz, const char *bptr, int bsiz);

       VILLA *vlopen(const char *name, int omode, VLCFUNC cmp);

       int vlclose(VILLA *villa);

       int  vlput(VILLA  *villa,  const  char  *kbuf,  int  ksiz, const char *vbuf, int vsiz, int
       dmode);

       int vlout(VILLA *villa, const char *kbuf, int ksiz);

       char *vlget(VILLA *villa, const char *kbuf, int ksiz, int *sp);

       int vlvsiz(VILLA *villa, const char *kbuf, int ksiz);

       int vlvnum(VILLA *villa, const char *kbuf, int ksiz);

       int vlputlist(VILLA *villa, const char *kbuf, int ksiz, const CBLIST *vals);

       int vloutlist(VILLA *villa, const char *kbuf, int ksiz);

       CBLIST *vlgetlist(VILLA *villa, const char *kbuf, int ksiz);

       char *vlgetcat(VILLA *villa, const char *kbuf, int ksiz, int *sp);

       int vlcurfirst(VILLA *villa);

       int vlcurlast(VILLA *villa);

       int vlcurprev(VILLA *villa);

       int vlcurnext(VILLA *villa);

       int vlcurjump(VILLA *villa, const char *kbuf, int ksiz, int jmode);

       char *vlcurkey(VILLA *villa, int *sp);

       char *vlcurval(VILLA *villa, int *sp);

       int vlcurput(VILLA *villa, const char *vbuf, int vsiz, int cpmode);

       int vlcurout(VILLA *villa);

       void vlsettuning(VILLA *villa, int lrecmax, int nidxmax, int lcnum, int ncnum);

       int vlsetfbpsiz(VILLA *villa, int size);

       int vlsync(VILLA *villa);

       int vloptimize(VILLA *villa);

       char *vlname(VILLA *villa);

       int vlfsiz(VILLA *villa);

       int vllnum(VILLA *villa);

       int vlnnum(VILLA *villa);

       int vlrnum(VILLA *villa);

       int vlwritable(VILLA *villa);

       int vlfatalerror(VILLA *villa);

       int vlinode(VILLA *villa);

       time_t vlmtime(VILLA *villa);

       int vltranbegin(VILLA *villa);

       int vltrancommit(VILLA *villa);

       int vltranabort(VILLA *villa);

       int vlremove(const char *name);

       int vlrepair(const char *name, VLCFUNC cmp);

       int vlexportdb(VILLA *villa, const char *name);

       int vlimportdb(VILLA *villa, const char *name);

DESCRIPTION

       Villa is the advanced API of QDBM.  It provides routines for managing a database  file  of
       B+  tree.   Each  record  is  stored being sorted in order defined by a user.  As for hash
       databases, retrieving method is provided only as complete accord.  However, with Villa, it
       is  possible  to  retrieve  records specified by range.  Cursor is used in order to access
       each record in order.  It is possible to store records duplicating  keys  in  a  database.
       Moreover,  according to the transaction mechanism, you can commit or abort operations of a
       database in a lump.

       Villa is implemented, based on Depot and Cabin.  A database file of Villa is actual one of
       Depot.  Although processing speed of retrieving and storing is slower than Depot, the size
       of a database is smaller.

       In order to use Villa, you should include `depot.h', `cabin.h', `villa.h'  and  `stdlib.h'
       in  the  source files.  Usually, the following description will be near the beginning of a
       source file.

              #include <depot.h>
              #include <cabin.h>
              #include <villa.h>
              #include <stdlib.h>

       A pointer to `VILLA' is used as a database handle. It is like that some file I/O  routines
       of  `stdio.h'  use  a  pointer  to  `FILE'.  A database handle is opened with the function
       `vlopen' and closed with `vlclose'.  You should not refer directly to any  member  of  the
       handle.   If  a  fatal error occurs in a database, any access method via the handle except
       `vlclose' will not work and return error status.  Although a process  is  allowed  to  use
       multiple  database  handles at the same time, handles of the same database file should not
       be used.  Before the cursor is used, it should be  initialized  by  one  of  `vlcurfirst',
       `vlcurlast' or `vlcurjump'.  Also after storing or deleting a record with functions except
       for `vlcurput' and `vlcurout', the cursor should be initialized.

       Villa also assign the external variable  `dpecode'  with  the  error  code.  The  function
       `dperrmsg' is used in order to get the message of the error code.

       You  can define a comparing function to specify the order of records.  The function should
       be the following type.

       typedef int(*VLCFUNC)(const char *aptr, int asiz, const char *bptr, int bsiz);
              `aptr' specifies the pointer to the region of one key.  `asiz' specifies  the  size
              of  the region of one key.  `bptr' specifies the pointer to the region of the other
              key.  `bsiz' specifies the size of the region of the other key.  The  return  value
              is  positive  if  the  former  is big, negative if the latter is big, 0 if both are
              equivalent.

       The function `vlopen' is used in order to get a database handle.

       VILLA *vlopen(const char *name, int omode, VLCFUNC cmp);
              `name' specifies the name of a database file.   `omode'  specifies  the  connection
              mode:  `VL_OWRITER'  as  a  writer,  `VL_OREADER'  as  a  reader.   If  the mode is
              `VL_OWRITER', the following may be added by bitwise or: `VL_OCREAT', which means it
              creates  a  new  database  if  not exist, `VL_OTRUNC', which means it creates a new
              database regardless if one exists, `VL_OZCOMP', which means leaves in the  database
              are compressed, `VL_OYCOMP', which means leaves in the database are compressed with
              LZO, `VL_OXCOMP', which means leaves in the database  are  compressed  with  BZIP2.
              Both  of  `VL_OREADER' and `VL_OWRITER' can be added to by bitwise or: `VL_ONOLCK',
              which means it opens a database file without file locking,  or  `VL_OLCKNB',  which
              means  locking  is  performed  without  blocking.   `cmp'  specifies  the comparing
              function: `VL_CMPLEX' comparing keys in lexical order, `VL_CMPINT'  comparing  keys
              as  objects of `int' in native byte order, `VL_CMPNUM' comparing keys as numbers of
              big endian, `VL_CMPDEC' comparing keys as decimal strings.  Any function  based  on
              the  declaration  of  the type `VLCFUNC' can be assigned to the comparing function.
              The comparing function should be kept same in the life of a database.   The  return
              value  is  the database handle or `NULL' if it is not successful.  While connecting
              as a writer, an exclusive lock is invoked to the database file.   While  connecting
              as  a  reader,  a  shared  lock is invoked to the database file.  The thread blocks
              until  the  lock  is  achieved.   `VL_OZCOMP',  `VL_OYCOMP',  and  `VL_OXCOMP'  are
              available  only  if  QDBM  was  built  each  with ZLIB, LZO, and BZIP2 enabled.  If
              `VL_ONOLCK' is used, the application is responsible for exclusion control.

       The function `vlclose' is used in order to close a database handle.

       int vlclose(VILLA *villa);
              `villa' specifies a database handle.  If successful,  the  return  value  is  true,
              else,  it  is false.  Because the region of a closed handle is released, it becomes
              impossible to use the handle.  Updating a database is assured to  be  written  when
              the  handle  is  closed.   If  a  writer  opens  a  database  but does not close it
              appropriately, the database will be broken.  If the transaction  is  activated  and
              not committed, it is aborted.

       The function `vlput' is used in order to store a record.

       int  vlput(VILLA  *villa,  const  char  *kbuf,  int  ksiz, const char *vbuf, int vsiz, int
       dmode);
              `villa' specifies a database handle connected as a writer.   `kbuf'  specifies  the
              pointer  to  the  region  of a key.  `ksiz' specifies the size of the region of the
              key.  If it  is  negative,  the  size  is  assigned  with  `strlen(kbuf)'.   `vbuf'
              specifies  the  pointer to the region of a value.  `vsiz' specifies the size of the
              region of the value.  If it is negative, the size is assigned with  `strlen(vbuf)'.
              `dmode'  specifies  behavior  when  the  key  overlaps,  by  the  following values:
              `VL_DOVER',  which  means  the  specified  value  overwrites  the   existing   one,
              `VL_DKEEP',  which  means  the  existing  value is kept, `VL_DCAT', which means the
              specified value is concatenated at the end of the existing value, `VL_DDUP',  which
              means  duplication  of keys is allowed and the specified value is added as the last
              one, `VL_DDUPR', which means duplication of keys is allowed and the specified value
              is  added  as  the first one.  If successful, the return value is true, else, it is
              false.  The cursor becomes unavailable due to updating database.

       The function `vlout' is used in order to delete a record.

       int vlout(VILLA *villa, const char *kbuf, int ksiz);
              `villa' specifies a database handle connected as a writer.   `kbuf'  specifies  the
              pointer  to  the  region  of a key.  `ksiz' specifies the size of the region of the
              key.  If it is negative, the size is assigned with `strlen(kbuf)'.  If  successful,
              the  return  value  is  true,  else, it is false.  False is returned when no record
              corresponds to the specified key.  When the key of duplicated records is specified,
              the first record of the same key is deleted.  The cursor becomes unavailable due to
              updating database.

       The function `vlget' is used in order to retrieve a record.

       char *vlget(VILLA *villa, const char *kbuf, int ksiz, int *sp);
              `villa' specifies a database handle.  `kbuf' specifies the pointer to the region of
              a key.  `ksiz' specifies the size of the region of the key.  If it is negative, the
              size is assigned with `strlen(kbuf)'.  `sp' specifies the pointer to a variable  to
              which  the size of the region of the return value is assigned.  If it is `NULL', it
              is not used.  If successful, the return value is the pointer to the region  of  the
              value  of the corresponding record, else, it is `NULL'.  `NULL' is returned when no
              record corresponds to the specified key.  When the key  of  duplicated  records  is
              specified,  the  value of the first record of the same key is selected.  Because an
              additional zero code is appended at the end of the region of the return value,  the
              return  value  can  be  treated  as  a character string.  Because the region of the
              return value is allocated with the `malloc' call, it should be  released  with  the
              `free' call if it is no longer in use.

       The function `vlvsiz' is used in order to get the size of the value of a record.

       int vlvsiz(VILLA *villa, const char *kbuf, int ksiz);
              `villa' specifies a database handle.  `kbuf' specifies the pointer to the region of
              a key.  `ksiz' specifies the size of the region of the key.  If it is negative, the
              size  is assigned with `strlen(kbuf)'.  If successful, the return value is the size
              of the value of the corresponding record, else, it  is  -1.   If  multiple  records
              correspond, the size of the first is returned.

       The function `vlvnum' is used in order to get the number of records corresponding a key.

       int vlvnum(VILLA *villa, const char *kbuf, int ksiz);
              `villa' specifies a database handle.  `kbuf' specifies the pointer to the region of
              a key.  `ksiz' specifies the size of the region of the key.  If it is negative, the
              size  is  assigned  with  `strlen(kbuf)'.   The  return  value  is  the  number  of
              corresponding records.  If no record corresponds, 0 is returned.

       The function `vlputlist' is used in order to store plural records corresponding a key.

       int vlputlist(VILLA *villa, const char *kbuf, int ksiz, const CBLIST *vals);
              `villa' specifies a database handle connected as a writer.   `kbuf'  specifies  the
              pointer  to  the  region  of a key.  `ksiz' specifies the size of the region of the
              key.  If it  is  negative,  the  size  is  assigned  with  `strlen(kbuf)'.   `vals'
              specifies  a  list handle of values.  The list should not be empty.  If successful,
              the return value is true, else, it is false.  The cursor becomes unavailable due to
              updating database.

       The function `vloutlist' is used in order to delete all records corresponding a key.

       int vloutlist(VILLA *villa, const char *kbuf, int ksiz);
              `villa'  specifies  a  database handle connected as a writer.  `kbuf' specifies the
              pointer to the region of a key.  `ksiz' specifies the size of  the  region  of  the
              key.   If it is negative, the size is assigned with `strlen(kbuf)'.  If successful,
              the return value is true, else, it is false.  False  is  returned  when  no  record
              corresponds  to  the specified key.  The cursor becomes unavailable due to updating
              database.

       The function `vlgetlist' is used in order to retrieve values of all records  corresponding
       a key.

       CBLIST *vlgetlist(VILLA *villa, const char *kbuf, int ksiz);
              `villa' specifies a database handle.  `kbuf' specifies the pointer to the region of
              a key.  `ksiz' specifies the size of the region of the key.  If it is negative, the
              size  is  assigned  with `strlen(kbuf)'.  If successful, the return value is a list
              handle of the values of the corresponding records, else, it is `NULL'.   `NULL'  is
              returned  when  no  record corresponds to the specified key.  Because the handle of
              the return value is opened with the function `cblistopen', it should be closed with
              the function `cblistclose' if it is no longer in use.

       The  function  `vlgetcat'  is used in order to retrieve concatenated values of all records
       corresponding a key.

       char *vlgetcat(VILLA *villa, const char *kbuf, int ksiz, int *sp);
              `villa' specifies a database handle.  `kbuf' specifies the pointer to the region of
              a key.  `ksiz' specifies the size of the region of the key.  If it is negative, the
              size is assigned with `strlen(kbuf)'.  `sp' specifies the pointer to a variable  to
              which  the size of the region of the return value is assigned.  If it is `NULL', it
              is not used.  If successful, the return value is the pointer to the region  of  the
              concatenated  values  of  the  corresponding record, else, it is `NULL'.  `NULL' is
              returned when no record corresponds to the specified key.   Because  an  additional
              zero  code  is  appended  at  the end of the region of the return value, the return
              value can be treated as a character string.  Because the region of the return value
              is allocated with the `malloc' call, it should be released with the `free'  call if
              it is no longer in use.

       The function `vlcurfirst' is used in order to move the cursor to the first record.

       int vlcurfirst(VILLA *villa);
              `villa' specifies a database handle.  If successful,  the  return  value  is  true,
              else, it is false.  False is returned if there is no record in the database.

       The function `vlcurlast' is used in order to move the cursor to the last record.

       int vlcurlast(VILLA *villa);
              `villa'  specifies  a  database  handle.   If successful, the return value is true,
              else, it is false.  False is returned if there is no record in the database.

       The function `vlcurprev' is used in order to move the cursor to the previous record.

       int vlcurprev(VILLA *villa);
              `villa' specifies a database handle.  If successful,  the  return  value  is  true,
              else, it is false.  False is returned if there is no previous record.

       The function `vlcurnext' is used in order to move the cursor to the next record.

       int vlcurnext(VILLA *villa);
              `villa'  specifies  a  database  handle.   If successful, the return value is true,
              else, it is false.  False is returned if there is no next record.

       The function `vlcurjump' is used in order to move  the  cursor  to  a  position  around  a
       record.

       int vlcurjump(VILLA *villa, const char *kbuf, int ksiz, int jmode);
              `villa' specifies a database handle.  `kbuf' specifies the pointer to the region of
              a key.  `ksiz' specifies the size of the region of the key.  If it is negative, the
              size  is  assigned  with  `strlen(kbuf)'.   `jmode'  specifies  detail  adjustment:
              `VL_JFORWARD', which means that the cursor is set to the first record of  the  same
              key and that the cursor is set to the next substitute if completely matching record
              does not exist, `VL_JBACKWARD', which means that the cursor  is  set  to  the  last
              record  of  the  same  key and that the cursor is set to the previous substitute if
              completely matching record does not exist.  If  successful,  the  return  value  is
              true, else, it is false.  False is returned if there is no record corresponding the
              condition.

       The function `vlcurkey' is used in order to get the key of the record where the cursor is.

       char *vlcurkey(VILLA *villa, int *sp);
              `villa' specifies a database handle.  `sp' specifies the pointer to a  variable  to
              which  the size of the region of the return value is assigned.  If it is `NULL', it
              is not used.  If successful, the return value is the pointer to the region  of  the
              key  of  the  corresponding record, else, it is `NULL'.  `NULL' is returned when no
              record corresponds to the cursor.  Because an additional zero code is  appended  at
              the  end  of  the  region of the return value, the return value can be treated as a
              character string.  Because the region of the return value  is  allocated  with  the
              `malloc'  call,  it  should  be released with the `free' call if it is no longer in
              use.

       The function `vlcurval' is used in order to get the value of the record where  the  cursor
       is.

       char *vlcurval(VILLA *villa, int *sp);
              `villa'  specifies  a database handle.  `sp' specifies the pointer to a variable to
              which the size of the region of the return value assigned.  If it is `NULL', it  is
              not  used.   If  successful,  the  return value is the pointer to the region of the
              value of the corresponding record, else, it is `NULL'.  `NULL' is returned when  no
              record  corresponds  to the cursor.  Because an additional zero code is appended at
              the end of the region of the return value, the return value can  be  treated  as  a
              character  string.   Because  the  region of the return value is allocated with the
              `malloc' call, it should be released with the `free' call if it  is  no  longer  in
              use.

       The function `vlcurput' is used in order to insert a record around the cursor.

       int vlcurput(VILLA *villa, const char *vbuf, int vsiz, int cpmode);
              `villa'  specifies  a  database handle connected as a writer.  `vbuf' specifies the
              pointer to the region of a value.  `vsiz' specifies the size of the region  of  the
              value.   If  it  is  negative,  the size is assigned with `strlen(vbuf)'.  `cpmode'
              specifies detail adjustment: `VL_CPCURRENT', which means  that  the  value  of  the
              current  record  is  overwritten,  `VL_CPBEFORE',  which means that a new record is
              inserted before the current record, `VL_CPAFTER', which means that a new record  is
              inserted  after the current record.  If successful, the return value is true, else,
              it is false.  False is returned when no record corresponds to  the  cursor.   After
              insertion, the cursor is moved to the inserted record.

       The function `vlcurout' is used in order to delete the record where the cursor is.

       int vlcurout(VILLA *villa);
              `villa'  specifies  a  database  handle  connected as a writer.  If successful, the
              return value is true, else,  it  is  false.   False  is  returned  when  no  record
              corresponds  to the cursor.  After deletion, the cursor is moved to the next record
              if possible.

       The function `vlsettuning' is used in order to set the tuning parameters for performance.

       void vlsettuning(VILLA *villa, int lrecmax, int nidxmax, int lcnum, int ncnum);
              `villa' specifies a database handle.  `lrecmax' specifies the max number of records
              in  a  leaf  node  of  B+  tree.   If  it  is not more than 0, the default value is
              specified.  `nidxmax' specifies the max number of indexes in a non-leaf node of  B+
              tree.  If it is not more than 0, the default value is specified.  `lcnum' specifies
              the max number of caching leaf nodes.  If it is not more than 0, the default  value
              is  specified.   `ncnum' specifies the max number of caching non-leaf nodes.  If it
              is not more than 0, the  default  value  is  specified.   The  default  setting  is
              equivalent to `vlsettuning(49, 192, 1024, 512)'.  Because tuning parameters are not
              saved in a database, you should specify them every opening a database.

       The function `vlsetfbpsiz' is used in order to set the size of the free block  pool  of  a
       database handle.

       int vlsetfbpsiz(VILLA *villa, int size);
              `villa'  specifies  a  database handle connected as a writer.  `size' specifies the
              size of the free block pool of a database.  If  successful,  the  return  value  is
              true,  else,  it is false.  The default size of the free block pool is 256.  If the
              size is greater, the space efficiency of overwriting values is  improved  with  the
              time efficiency sacrificed.

       The  function `vlsync' is used in order to synchronize updating contents with the file and
       the device.

       int vlsync(VILLA *villa);
              `villa' specifies a database handle connected as  a  writer.   If  successful,  the
              return  value  is  true,  else,  it is false.  This function is useful when another
              process uses the connected database file.  This function should not be  used  while
              the transaction is activated.

       The function `vloptimize' is used in order to optimize a database.

       int vloptimize(VILLA *villa);
              `villa'  specifies  a  database  handle  connected as a writer.  If successful, the
              return value is true, else, it is false.  In an alternating succession of  deleting
              and  storing  with  overwrite or concatenate, dispensable regions accumulate.  This
              function is useful to do away with them.  This function should not  be  used  while
              the transaction is activated.

       The function `vlname' is used in order to get the name of a database.

       char *vlname(VILLA *villa);
              `villa'  specifies  a  database  handle.   If  successful,  the return value is the
              pointer to the region of the name of the database, else, it is `NULL'.  Because the
              region  of  the  return  value  is  allocated  with the `malloc' call, it should be
              released with the `free' call if it is no longer in use.

       The function `vlfsiz' is used in order to get the size of a database file.

       int vlfsiz(VILLA *villa);
              `villa' specifies a database handle.  If successful, the return value is  the  size
              of  the database file, else, it is -1.  Because of the I/O buffer, the return value
              may be less than the hard size.

       The function `vllnum' is used in order to get the number of the leaf nodes of B+ tree.

       int vllnum(VILLA *villa);
              `villa' specifies a database handle.  If successful, the return value is the number
              of the leaf nodes, else, it is -1.

       The function `vlnnum' is used in order to get the number of the non-leaf nodes of B+ tree.

       int vlnnum(VILLA *villa);
              `villa' specifies a database handle.  If successful, the return value is the number
              of the non-leaf nodes, else, it is -1.

       The function `vlrnum' is used in order to get the  number  of  the  records  stored  in  a
       database.

       int vlrnum(VILLA *villa);
              `villa' specifies a database handle.  If successful, the return value is the number
              of the records stored in the database, else, it is -1.

       The function `vlwritable' is used in order to check whether a database handle is a  writer
       or not.

       int vlwritable(VILLA *villa);
              `villa'  specifies  a database handle.  The return value is true if the handle is a
              writer, false if not.

       The function `vlfatalerror' is used in order to check whether a database has a fatal error
       or not.

       int vlfatalerror(VILLA *villa);
              `villa'  specifies a database handle.  The return value is true if the database has
              a fatal error, false if not.

       The function `vlinode' is used in order to get the inode number of a database file.

       int vlinode(VILLA *villa);
              `villa' specifies a database handle.  The return value is the inode number  of  the
              database file.

       The function `vlmtime' is used in order to get the last modified time of a database.

       time_t vlmtime(VILLA *villa);
              `villa' specifies a database handle.  The return value is the last modified time of
              the database.

       The function `vltranbegin' is used in order to begin the transaction.

       int vltranbegin(VILLA *villa);
              `villa' specifies a database handle connected as  a  writer.   If  successful,  the
              return  value  is  true, else, it is false.  Because this function does not perform
              mutual exclusion control in multi-thread, the application is  responsible  for  it.
              Only one transaction can be activated with a database handle at the same time.

       The function `vltrancommit' is used in order to commit the transaction.

       int vltrancommit(VILLA *villa);
              `villa'  specifies  a  database  handle  connected as a writer.  If successful, the
              return value is true, else, it is false.  Updating a database in the transaction is
              fixed when it is committed successfully.

       The function `vltranabort' is used in order to abort the transaction.

       int vltranabort(VILLA *villa);
              `villa'  specifies  a  database  handle  connected as a writer.  If successful, the
              return value is true, else, it is false.  Updating a database in the transaction is
              discarded  when  it  is aborted.  The state of the database is rollbacked to before
              transaction.

       The function `vlremove' is used in order to remove a database file.

       int vlremove(const char *name);
              `name' specifies the name of a database file.  If successful, the return  value  is
              true, else, it is false.

       The function `vlrepair' is used in order to repair a broken database file.

       int vlrepair(const char *name, VLCFUNC cmp);
              `name'  specifies  the  name  of  a  database  file.  `cmp' specifies the comparing
              function of the database file.  If successful, the return value is true,  else,  it
              is  false.   There  is  no  guarantee  that all records in a repaired database file
              correspond to the original or expected state.

       The function `vlexportdb' is used in order to dump all records as endian independent data.

       int vlexportdb(VILLA *villa, const char *name);
              `villa' specifies a database handle.  `name' specifies the name of an output  file.
              If successful, the return value is true, else, it is false.

       The  function  `vlimportdb'  is  used in order to load all records from endian independent
       data.

       int vlimportdb(VILLA *villa, const char *name);
              `villa' specifies a database handle connected as a writer.   The  database  of  the
              handle  must be empty.  `name' specifies the name of an input file.  If successful,
              the return value is true, else, it is false.

       If QDBM was built with POSIX thread enabled, the global variable `dpecode' is  treated  as
       thread  specific  data,  and  functions  of  Villa  are reentrant.  In that case, they are
       thread-safe as long as a handle is not accessed by  threads  at  the  same  time,  on  the
       assumption that `errno', `malloc', and so on are thread-safe.

       Vista  is  the  extended  API  of  Villa.  To compensate for the defect that Villa can not
       handle a file whose size is more than 2GB, Vista does not use Depot but Curia for handling
       its  internal  database.  While Vista provides data structure and operations of B+ tree as
       with Villa, its database is realized as a directory.

       In order to use Vista, you should include `vista.h' instead of `villa.h'.   Because  Vista
       is  implemented  by  overriding  symbols of Villa, it can be used as with Villa.  That is,
       Signatures of Villa and Vista is all the same.  However, as its  adverse  effect,  modules
       using Vista can not use Depot nor Villa.

SEE ALSO

       qdbm(3), depot(3), curia(3), relic(3), hovel(3), cabin(3), odeum(3), ndbm(3), gdbm(3)