In Files
- sdbm/init.c
Parent
Object
Methods
Included Modules
- Enumerable
SDBM
SDBM provides a simple file-based key-value store, which can only store String keys and values.
Note that Ruby comes with the source code for SDBM, while the DBM and GDBM standard libraries rely on external libraries and headers.
Examples¶ ↑
Insert values:
require 'sdbm' SDBM.open 'my_database' do |db| db['apple'] = 'fruit' db['pear'] = 'fruit' db['carrot'] = 'vegetable' db['tomato'] = 'vegetable' end
Bulk update:
require 'sdbm' SDBM.open 'my_database' do |db| db.update('peach' => 'fruit', 'tomato' => 'fruit') end
Retrieve values:
require 'sdbm' SDBM.open 'my_database' do |db| db.each do |key, value| puts "Key: #{key}, Value: #{value}" end end
Outputs:
Key: apple, Value: fruit Key: pear, Value: fruit Key: carrot, Value: vegetable Key: peach, Value: fruit Key: tomato, Value: fruit
Public Class Methods
Creates a new database handle by opening the given filename
.
SDBM actually uses two physical files, with
extensions ‘.dir’ and ‘.pag’. These extensions will automatically be
appended to the filename
.
If the file does not exist, a new file will be created using the given
mode
, unless mode
is explicitly set to nil. In
the latter case, no database will be created.
If the file exists, it will be opened in read/write mode. If this fails, it will be opened in read-only mode.
static VALUE fsdbm_initialize(int argc, VALUE *argv, VALUE obj) { volatile VALUE file; VALUE vmode; DBM *dbm; struct dbmdata *dbmp; int mode; if (rb_scan_args(argc, argv, "11", &file, &vmode) == 1) { mode = 0666; /* default value */ } else if (NIL_P(vmode)) { mode = -1; /* return nil if DB not exist */ } else { mode = NUM2INT(vmode); } FilePathValue(file); dbm = 0; if (mode >= 0) dbm = sdbm_open(RSTRING_PTR(file), O_RDWR|O_CREAT, mode); if (!dbm) dbm = sdbm_open(RSTRING_PTR(file), O_RDWR, 0); if (!dbm) dbm = sdbm_open(RSTRING_PTR(file), O_RDONLY, 0); if (!dbm) { if (mode == -1) return Qnil; rb_sys_fail_str(file); } dbmp = ALLOC(struct dbmdata); DATA_PTR(obj) = dbmp; dbmp->di_dbm = dbm; dbmp->di_size = -1; return obj; }
If called without a block, this is the same as ::new.
If a block is given, the new database will be passed to the block and will be safely closed after the block has executed.
Example:
require 'sdbm' SDBM.open('my_database') do |db| db['hello'] = 'world' end
static VALUE fsdbm_s_open(int argc, VALUE *argv, VALUE klass) { VALUE obj = fsdbm_alloc(klass); if (NIL_P(fsdbm_initialize(argc, argv, obj))) { return Qnil; } if (rb_block_given_p()) { return rb_ensure(rb_yield, obj, fsdbm_close, obj); } return obj; }
Public Instance Methods
Returns the value
in the database associated with the given
key
string.
If no value is found, returns nil
.
static VALUE fsdbm_aref(VALUE obj, VALUE keystr) { return fsdbm_fetch(obj, keystr, Qnil); }
Stores a new value
in the database with the given
key
as an index.
If the key
already exists, this will update the
value
associated with the key
.
Returns the given value
.
static VALUE fsdbm_store(VALUE obj, VALUE keystr, VALUE valstr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; if (valstr == Qnil) { fsdbm_delete(obj, keystr); return Qnil; } fdbm_modify(obj); ExportStringValue(keystr); ExportStringValue(valstr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); val.dptr = RSTRING_PTR(valstr); val.dsize = RSTRING_LENINT(valstr); GetDBM2(obj, dbmp, dbm); dbmp->di_size = -1; if (sdbm_store(dbm, key, val, DBM_REPLACE)) { #ifdef HAVE_DBM_CLAERERR sdbm_clearerr(dbm); #endif if (errno == EPERM) rb_sys_fail(0); rb_raise(rb_eDBMError, "sdbm_store failed"); } return valstr; }
Deletes all data from the database.
static VALUE fsdbm_clear(VALUE obj) { datum key; struct dbmdata *dbmp; DBM *dbm; fdbm_modify(obj); GetDBM2(obj, dbmp, dbm); dbmp->di_size = -1; while (key = sdbm_firstkey(dbm), key.dptr) { if (sdbm_delete(dbm, key)) { rb_raise(rb_eDBMError, "sdbm_delete failed"); } } dbmp->di_size = 0; return obj; }
Closes the database file.
Raises SDBMError if the database is already closed.
static VALUE fsdbm_close(VALUE obj) { struct dbmdata *dbmp; GetDBM(obj, dbmp); sdbm_close(dbmp->di_dbm); dbmp->di_dbm = 0; return Qnil; }
Returns true
if the database is closed.
static VALUE fsdbm_closed(VALUE obj) { struct dbmdata *dbmp; TypedData_Get_Struct(obj, struct dbmdata, &sdbm_type, dbmp); if (dbmp == 0) return Qtrue; if (dbmp->di_dbm == 0) return Qtrue; return Qfalse; }
Deletes the key-value pair corresponding to the given key
. If
the key
exists, the deleted value will be returned, otherwise
nil
.
If a block is provided, the deleted key
and value
will be passed to the block as arguments. If the key
does not
exist in the database, the value will be nil
.
static VALUE fsdbm_delete(VALUE obj, VALUE keystr) { datum key, value; struct dbmdata *dbmp; DBM *dbm; VALUE valstr; fdbm_modify(obj); ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); GetDBM2(obj, dbmp, dbm); dbmp->di_size = -1; value = sdbm_fetch(dbm, key); if (value.dptr == 0) { if (rb_block_given_p()) return rb_yield(keystr); return Qnil; } /* need to save value before sdbm_delete() */ valstr = rb_external_str_new(value.dptr, value.dsize); if (sdbm_delete(dbm, key)) { dbmp->di_size = -1; rb_raise(rb_eDBMError, "dbm_delete failed"); } else if (dbmp->di_size >= 0) { dbmp->di_size--; } return valstr; }
Iterates over the key-value pairs in the database, deleting those for which
the block returns true
.
static VALUE fsdbm_delete_if(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE keystr, valstr; VALUE ret, ary = rb_ary_new(); long i; int status = 0, n; fdbm_modify(obj); GetDBM2(obj, dbmp, dbm); n = dbmp->di_size; dbmp->di_size = -1; for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); keystr = rb_external_str_new(key.dptr, key.dsize); valstr = rb_external_str_new(val.dptr, val.dsize); ret = rb_protect(rb_yield, rb_assoc_new(rb_str_dup(keystr), valstr), &status); if (status != 0) break; if (RTEST(ret)) rb_ary_push(ary, keystr); GetDBM2(obj, dbmp, dbm); } for (i = 0; i < RARRAY_LEN(ary); i++) { keystr = RARRAY_AREF(ary, i); ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); if (sdbm_delete(dbm, key)) { rb_raise(rb_eDBMError, "sdbm_delete failed"); } } if (status) rb_jump_tag(status); if (n > 0) dbmp->di_size = n - RARRAY_LENINT(ary); return obj; }
Iterates over each key-value pair in the database.
If no block is given, returns an Enumerator.
static VALUE fsdbm_each_pair(VALUE obj) { datum key, val; DBM *dbm; struct dbmdata *dbmp; VALUE keystr, valstr; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); keystr = rb_external_str_new(key.dptr, key.dsize); valstr = rb_external_str_new(val.dptr, val.dsize); rb_yield(rb_assoc_new(keystr, valstr)); GetDBM2(obj, dbmp, dbm); } return obj; }
Iterates over each key
in the database.
If no block is given, returns an Enumerator.
static VALUE fsdbm_each_key(VALUE obj) { datum key; struct dbmdata *dbmp; DBM *dbm; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { rb_yield(rb_external_str_new(key.dptr, key.dsize)); GetDBM2(obj, dbmp, dbm); } return obj; }
Iterates over each key-value pair in the database.
If no block is given, returns an Enumerator.
static VALUE fsdbm_each_pair(VALUE obj) { datum key, val; DBM *dbm; struct dbmdata *dbmp; VALUE keystr, valstr; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); keystr = rb_external_str_new(key.dptr, key.dsize); valstr = rb_external_str_new(val.dptr, val.dsize); rb_yield(rb_assoc_new(keystr, valstr)); GetDBM2(obj, dbmp, dbm); } return obj; }
Iterates over each value
in the database.
If no block is given, returns an Enumerator.
static VALUE fsdbm_each_value(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); rb_yield(rb_external_str_new(val.dptr, val.dsize)); GetDBM2(obj, dbmp, dbm); } return obj; }
Returns true
if the database is empty.
static VALUE fsdbm_empty_p(VALUE obj) { datum key; struct dbmdata *dbmp; DBM *dbm; GetDBM(obj, dbmp); if (dbmp->di_size < 0) { dbm = dbmp->di_dbm; for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { return Qfalse; } } else { if (dbmp->di_size) return Qfalse; } return Qtrue; }
Returns the value
in the database associated with the given
key
string.
If a block is provided, the block will be called when there is no
value
associated with the given key
. The
key
will be passed in as an argument to the block.
If no block is provided and no value is associated with the given
key
, then an IndexError will be raised.
static VALUE fsdbm_fetch_m(int argc, VALUE *argv, VALUE obj) { VALUE keystr, valstr, ifnone; rb_scan_args(argc, argv, "11", &keystr, &ifnone); valstr = fsdbm_fetch(obj, keystr, ifnone); if (argc == 1 && !rb_block_given_p() && NIL_P(valstr)) rb_raise(rb_eIndexError, "key not found"); return valstr; }
Returns true
if the database contains the given
key
.
static VALUE fsdbm_has_key(VALUE obj, VALUE keystr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); GetDBM2(obj, dbmp, dbm); val = sdbm_fetch(dbm, key); if (val.dptr) return Qtrue; return Qfalse; }
Returns true
if the database contains the given
value
.
static VALUE fsdbm_has_value(VALUE obj, VALUE valstr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(valstr); val.dptr = RSTRING_PTR(valstr); val.dsize = RSTRING_LENINT(valstr); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); if (val.dsize == RSTRING_LENINT(valstr) && memcmp(val.dptr, RSTRING_PTR(valstr), val.dsize) == 0) return Qtrue; } return Qfalse; }
Returns true
if the database contains the given
key
.
static VALUE fsdbm_has_key(VALUE obj, VALUE keystr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); GetDBM2(obj, dbmp, dbm); val = sdbm_fetch(dbm, key); if (val.dptr) return Qtrue; return Qfalse; }
Returns a Hash in which the key-value pairs have been inverted.
Example:
require 'sdbm' SDBM.open 'my_database' do |db| db.update('apple' => 'fruit', 'spinach' => 'vegetable') db.invert #=> {"fruit" => "apple", "vegetable" => "spinach"} end
static VALUE fsdbm_invert(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE keystr, valstr; VALUE hash = rb_hash_new(); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); keystr = rb_external_str_new(key.dptr, key.dsize); valstr = rb_external_str_new(val.dptr, val.dsize); rb_hash_aset(hash, valstr, keystr); } return hash; }
Returns the key
associated with the given value
.
If more than one key
corresponds to the given
value
, then the first key to be found will be returned. If no
keys are found, nil
will be returned.
static VALUE fsdbm_key(VALUE obj, VALUE valstr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(valstr); val.dptr = RSTRING_PTR(valstr); val.dsize = RSTRING_LENINT(valstr); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); if (val.dsize == RSTRING_LEN(valstr) && memcmp(val.dptr, RSTRING_PTR(valstr), val.dsize) == 0) return rb_external_str_new(key.dptr, key.dsize); } return Qnil; }
Returns true
if the database contains the given
key
.
static VALUE fsdbm_has_key(VALUE obj, VALUE keystr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); GetDBM2(obj, dbmp, dbm); val = sdbm_fetch(dbm, key); if (val.dptr) return Qtrue; return Qfalse; }
Returns a new Array containing the keys in the database.
static VALUE fsdbm_keys(VALUE obj) { datum key; struct dbmdata *dbmp; DBM *dbm; VALUE ary; GetDBM2(obj, dbmp, dbm); ary = rb_ary_new(); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { rb_ary_push(ary, rb_external_str_new(key.dptr, key.dsize)); } return ary; }
Returns the number of keys in the database.
static VALUE fsdbm_length(VALUE obj) { datum key; struct dbmdata *dbmp; DBM *dbm; int i = 0; GetDBM2(obj, dbmp, dbm); if (dbmp->di_size > 0) return INT2FIX(dbmp->di_size); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { i++; } dbmp->di_size = i; return INT2FIX(i); }
Returns true
if the database contains the given
key
.
static VALUE fsdbm_has_key(VALUE obj, VALUE keystr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); GetDBM2(obj, dbmp, dbm); val = sdbm_fetch(dbm, key); if (val.dptr) return Qtrue; return Qfalse; }
Creates a new Hash using the key-value pairs from the database, then calls
Hash#reject with the given block, which returns a Hash with only the
key-value pairs for which the block returns false
.
static VALUE fsdbm_reject(VALUE obj) { return rb_hash_delete_if(fsdbm_to_hash(obj)); }
Iterates over the key-value pairs in the database, deleting those for which
the block returns true
.
static VALUE fsdbm_delete_if(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE keystr, valstr; VALUE ret, ary = rb_ary_new(); long i; int status = 0, n; fdbm_modify(obj); GetDBM2(obj, dbmp, dbm); n = dbmp->di_size; dbmp->di_size = -1; for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); keystr = rb_external_str_new(key.dptr, key.dsize); valstr = rb_external_str_new(val.dptr, val.dsize); ret = rb_protect(rb_yield, rb_assoc_new(rb_str_dup(keystr), valstr), &status); if (status != 0) break; if (RTEST(ret)) rb_ary_push(ary, keystr); GetDBM2(obj, dbmp, dbm); } for (i = 0; i < RARRAY_LEN(ary); i++) { keystr = RARRAY_AREF(ary, i); ExportStringValue(keystr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); if (sdbm_delete(dbm, key)) { rb_raise(rb_eDBMError, "sdbm_delete failed"); } } if (status) rb_jump_tag(status); if (n > 0) dbmp->di_size = n - RARRAY_LENINT(ary); return obj; }
Empties the database, then inserts the given key-value pairs.
This method will work with any object which implements an #each_pair method, such as a Hash.
static VALUE fsdbm_replace(VALUE obj, VALUE other) { fsdbm_clear(obj); rb_block_call(other, rb_intern("each_pair"), 0, 0, update_i, obj); return obj; }
Returns a new Array of key-value pairs for which the block returns
true
.
Example:
require 'sdbm' SDBM.open 'my_database' do |db| db['apple'] = 'fruit' db['pear'] = 'fruit' db['spinach'] = 'vegetable' veggies = db.select do |key, value| value == 'vegetable' end #=> [["apple", "fruit"], ["pear", "fruit"]] end
static VALUE fsdbm_select(VALUE obj) { VALUE new = rb_ary_new(); datum key, val; DBM *dbm; struct dbmdata *dbmp; GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { VALUE assoc, v; val = sdbm_fetch(dbm, key); assoc = rb_assoc_new(rb_external_str_new(key.dptr, key.dsize), rb_external_str_new(val.dptr, val.dsize)); v = rb_yield(assoc); if (RTEST(v)) { rb_ary_push(new, assoc); } GetDBM2(obj, dbmp, dbm); } return new; }
Removes a key-value pair from the database and returns them as an Array. If
the database is empty, returns nil
.
static VALUE fsdbm_shift(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE keystr, valstr; fdbm_modify(obj); GetDBM2(obj, dbmp, dbm); key = sdbm_firstkey(dbm); if (!key.dptr) return Qnil; val = sdbm_fetch(dbm, key); keystr = rb_external_str_new(key.dptr, key.dsize); valstr = rb_external_str_new(val.dptr, val.dsize); sdbm_delete(dbm, key); if (dbmp->di_size >= 0) { dbmp->di_size--; } return rb_assoc_new(keystr, valstr); }
Returns the number of keys in the database.
static VALUE fsdbm_length(VALUE obj) { datum key; struct dbmdata *dbmp; DBM *dbm; int i = 0; GetDBM2(obj, dbmp, dbm); if (dbmp->di_size > 0) return INT2FIX(dbmp->di_size); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { i++; } dbmp->di_size = i; return INT2FIX(i); }
Stores a new value
in the database with the given
key
as an index.
If the key
already exists, this will update the
value
associated with the key
.
Returns the given value
.
static VALUE fsdbm_store(VALUE obj, VALUE keystr, VALUE valstr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; if (valstr == Qnil) { fsdbm_delete(obj, keystr); return Qnil; } fdbm_modify(obj); ExportStringValue(keystr); ExportStringValue(valstr); key.dptr = RSTRING_PTR(keystr); key.dsize = RSTRING_LENINT(keystr); val.dptr = RSTRING_PTR(valstr); val.dsize = RSTRING_LENINT(valstr); GetDBM2(obj, dbmp, dbm); dbmp->di_size = -1; if (sdbm_store(dbm, key, val, DBM_REPLACE)) { #ifdef HAVE_DBM_CLAERERR sdbm_clearerr(dbm); #endif if (errno == EPERM) rb_sys_fail(0); rb_raise(rb_eDBMError, "sdbm_store failed"); } return valstr; }
Returns a new Array containing each key-value pair in the database.
Example:
require 'sdbm' SDBM.open 'my_database' do |db| db.update('apple' => 'fruit', 'spinach' => 'vegetable') db.to_a #=> [["apple", "fruit"], ["spinach", "vegetable"]] end
static VALUE fsdbm_to_a(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE ary; GetDBM2(obj, dbmp, dbm); ary = rb_ary_new(); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); rb_ary_push(ary, rb_assoc_new(rb_external_str_new(key.dptr, key.dsize), rb_external_str_new(val.dptr, val.dsize))); } return ary; }
Returns a new Hash containing each key-value pair in the database.
static VALUE fsdbm_to_hash(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE hash; GetDBM2(obj, dbmp, dbm); hash = rb_hash_new(); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); rb_hash_aset(hash, rb_external_str_new(key.dptr, key.dsize), rb_external_str_new(val.dptr, val.dsize)); } return hash; }
Insert or update key-value pairs.
This method will work with any object which implements an #each_pair method, such as a Hash.
static VALUE fsdbm_update(VALUE obj, VALUE other) { rb_block_call(other, rb_intern("each_pair"), 0, 0, update_i, obj); return obj; }
Returns true
if the database contains the given
value
.
static VALUE fsdbm_has_value(VALUE obj, VALUE valstr) { datum key, val; struct dbmdata *dbmp; DBM *dbm; ExportStringValue(valstr); val.dptr = RSTRING_PTR(valstr); val.dsize = RSTRING_LENINT(valstr); GetDBM2(obj, dbmp, dbm); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); if (val.dsize == RSTRING_LENINT(valstr) && memcmp(val.dptr, RSTRING_PTR(valstr), val.dsize) == 0) return Qtrue; } return Qfalse; }
Returns a new Array containing the values in the database.
static VALUE fsdbm_values(VALUE obj) { datum key, val; struct dbmdata *dbmp; DBM *dbm; VALUE ary; GetDBM2(obj, dbmp, dbm); ary = rb_ary_new(); for (key = sdbm_firstkey(dbm); key.dptr; key = sdbm_nextkey(dbm)) { val = sdbm_fetch(dbm, key); rb_ary_push(ary, rb_external_str_new(val.dptr, val.dsize)); } return ary; }