/************************************************ gdbm.c - $Author$ modified at: Mon Jan 24 15:59:52 JST 1994 Documentation by Peter Adolphs < futzilogik at users dot sourceforge dot net > ************************************************/ #include "ruby.h" #include #include #include /* * Document-class: GDBM * * == Summary * * Ruby extension for GNU dbm (gdbm) -- a simple database engine for storing * key-value pairs on disk. * * == Description * * GNU dbm is a library for simple databases. A database is a file that stores * key-value pairs. Gdbm allows the user to store, retrieve, and delete data by * key. It furthermore allows a non-sorted traversal of all key-value pairs. * A gdbm database thus provides the same functionality as a hash. As * with objects of the Hash class, elements can be accessed with []. * Furthermore, GDBM mixes in the Enumerable module, thus providing convenient * methods such as #find, #collect, #map, etc. * * A process is allowed to open several different databases at the same time. * A process can open a database as a "reader" or a "writer". Whereas a reader * has only read-access to the database, a writer has read- and write-access. * A database can be accessed either by any number of readers or by exactly one * writer at the same time. * * == Examples * * 1. Opening/creating a database, and filling it with some entries: * * require 'gdbm' * * gdbm = GDBM.new("fruitstore.db") * gdbm["ananas"] = "3" * gdbm["banana"] = "8" * gdbm["cranberry"] = "4909" * gdbm.close * * 2. Reading out a database: * * require 'gdbm' * * gdbm = GDBM.new("fruitstore.db") * gdbm.each_pair do |key, value| * print "#{key}: #{value}\n" * end * gdbm.close * * produces * * banana: 8 * ananas: 3 * cranberry: 4909 * * == Links * * * http://www.gnu.org/software/gdbm/ */ static VALUE rb_cGDBM, rb_eGDBMError, rb_eGDBMFatalError; #if SIZEOF_LONG > SIZEOF_INT #define TOO_LONG(n) ((long)(+(int)(n)) != (long)(n)) #else #define TOO_LONG(n) 0 #endif #define RUBY_GDBM_RW_BIT 0x20000000 #define MY_BLOCK_SIZE (2048) #define MY_FATAL_FUNC rb_gdbm_fatal static void rb_gdbm_fatal(const char *msg) { rb_raise(rb_eGDBMFatalError, "%s", msg); } struct dbmdata { int di_size; GDBM_FILE di_dbm; }; static void closed_dbm(void) { rb_raise(rb_eRuntimeError, "closed GDBM file"); } #define GetDBM(obj, dbmp) do {\ TypedData_Get_Struct((obj), struct dbmdata, &dbm_type, (dbmp));\ if ((dbmp)->di_dbm == 0) closed_dbm();\ } while (0) #define GetDBM2(obj, dbmp, dbm) do {\ GetDBM((obj), (dbmp));\ (dbm) = (dbmp)->di_dbm;\ } while (0) static void free_dbm(void *ptr) { struct dbmdata *dbmp = ptr; if (dbmp) { if (dbmp->di_dbm) gdbm_close(dbmp->di_dbm); xfree(dbmp); } } static size_t memsize_dbm(const void *ptr) { size_t size = 0; const struct dbmdata *dbmp = ptr; if (dbmp) { size += sizeof(*dbmp); if (dbmp->di_dbm) size += DBM_SIZEOF_DBM; } return size; } static const rb_data_type_t dbm_type = { "gdbm", {0, free_dbm, memsize_dbm,}, 0, 0, RUBY_TYPED_FREE_IMMEDIATELY, }; /* * call-seq: * gdbm.close -> nil * * Closes the associated database file. */ static VALUE fgdbm_close(VALUE obj) { struct dbmdata *dbmp; GetDBM(obj, dbmp); gdbm_close(dbmp->di_dbm); dbmp->di_dbm = 0; return Qnil; } /* * call-seq: * gdbm.closed? -> true or false * * Returns true if the associated database file has been closed. */ static VALUE fgdbm_closed(VALUE obj) { struct dbmdata *dbmp; TypedData_Get_Struct(obj, struct dbmdata, &dbm_type, dbmp); if (dbmp->di_dbm == 0) return Qtrue; return Qfalse; } static VALUE fgdbm_s_alloc(VALUE klass) { struct dbmdata *dbmp; return TypedData_Make_Struct(klass, struct dbmdata, &dbm_type, dbmp); } /* * call-seq: * GDBM.new(filename, mode = 0666, flags = nil) * * Creates a new GDBM instance by opening a gdbm file named _filename_. * If the file does not exist, a new file with file mode _mode_ will be * created. _flags_ may be one of the following: * * *READER* - open as a reader * * *WRITER* - open as a writer * * *WRCREAT* - open as a writer; if the database does not exist, create a new one * * *NEWDB* - open as a writer; overwrite any existing databases * * The values *WRITER*, *WRCREAT* and *NEWDB* may be combined with the following * values by bitwise or: * * *SYNC* - cause all database operations to be synchronized to the disk * * *NOLOCK* - do not lock the database file * * If no _flags_ are specified, the GDBM object will try to open the database * file as a writer and will create it if it does not already exist * (cf. flag WRCREAT). If this fails (for instance, if another process * has already opened the database as a reader), it will try to open the * database file as a reader (cf. flag READER). */ static VALUE fgdbm_initialize(int argc, VALUE *argv, VALUE obj) { VALUE file, vmode, vflags; GDBM_FILE dbm; struct dbmdata *dbmp; int mode, flags = 0; TypedData_Get_Struct(obj, struct dbmdata, &dbm_type, dbmp); if (rb_scan_args(argc, argv, "12", &file, &vmode, &vflags) == 1) { mode = 0666; /* default value */ } else if (NIL_P(vmode)) { mode = -1; /* return nil if DB does not exist */ } else { mode = NUM2INT(vmode); } if (!NIL_P(vflags)) flags = NUM2INT(vflags); FilePathValue(file); #ifdef GDBM_CLOEXEC /* GDBM_CLOEXEC is available since gdbm 1.10. */ flags |= GDBM_CLOEXEC; #endif if (flags & RUBY_GDBM_RW_BIT) { flags &= ~RUBY_GDBM_RW_BIT; dbm = gdbm_open(RSTRING_PTR(file), MY_BLOCK_SIZE, flags, mode, MY_FATAL_FUNC); } else { dbm = 0; if (mode >= 0) dbm = gdbm_open(RSTRING_PTR(file), MY_BLOCK_SIZE, GDBM_WRCREAT|flags, mode, MY_FATAL_FUNC); if (!dbm) dbm = gdbm_open(RSTRING_PTR(file), MY_BLOCK_SIZE, GDBM_WRITER|flags, 0, MY_FATAL_FUNC); if (!dbm) dbm = gdbm_open(RSTRING_PTR(file), MY_BLOCK_SIZE, GDBM_READER|flags, 0, MY_FATAL_FUNC); } if (dbm) { rb_fd_fix_cloexec(gdbm_fdesc(dbm)); } if (!dbm) { if (mode == -1) return Qnil; if (gdbm_errno == GDBM_FILE_OPEN_ERROR || gdbm_errno == GDBM_CANT_BE_READER || gdbm_errno == GDBM_CANT_BE_WRITER) rb_sys_fail_str(file); else rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } if (dbmp->di_dbm) gdbm_close(dbmp->di_dbm); dbmp->di_dbm = dbm; dbmp->di_size = -1; return obj; } /* * call-seq: * GDBM.open(filename, mode = 0666, flags = nil) * GDBM.open(filename, mode = 0666, flags = nil) { |gdbm| ... } * * If called without a block, this is synonymous to GDBM::new. * If a block is given, the new GDBM instance will be passed to the block * as a parameter, and the corresponding database file will be closed * after the execution of the block code has been finished. * * Example for an open call with a block: * * require 'gdbm' * GDBM.open("fruitstore.db") do |gdbm| * gdbm.each_pair do |key, value| * print "#{key}: #{value}\n" * end * end */ static VALUE fgdbm_s_open(int argc, VALUE *argv, VALUE klass) { VALUE obj = fgdbm_s_alloc(klass); if (NIL_P(fgdbm_initialize(argc, argv, obj))) { return Qnil; } if (rb_block_given_p()) { return rb_ensure(rb_yield, obj, fgdbm_close, obj); } return obj; } static VALUE rb_gdbm_fetch(GDBM_FILE dbm, datum key) { datum val; VALUE str; val = gdbm_fetch(dbm, key); if (val.dptr == 0) return Qnil; str = rb_str_new(val.dptr, val.dsize); free(val.dptr); OBJ_TAINT(str); return str; } static VALUE rb_gdbm_fetch2(GDBM_FILE dbm, VALUE keystr) { datum key; long len; ExportStringValue(keystr); len = RSTRING_LEN(keystr); if (TOO_LONG(len)) return Qnil; key.dptr = RSTRING_PTR(keystr); key.dsize = (int)len; return rb_gdbm_fetch(dbm, key); } static VALUE rb_gdbm_fetch3(VALUE obj, VALUE keystr) { struct dbmdata *dbmp; GDBM_FILE dbm; GetDBM2(obj, dbmp, dbm); return rb_gdbm_fetch2(dbm, keystr); } static VALUE rb_gdbm_firstkey(GDBM_FILE dbm) { datum key; VALUE str; key = gdbm_firstkey(dbm); if (key.dptr == 0) return Qnil; str = rb_str_new(key.dptr, key.dsize); free(key.dptr); OBJ_TAINT(str); return str; } static VALUE rb_gdbm_nextkey(GDBM_FILE dbm, VALUE keystr) { datum key, key2; VALUE str; long len; len = RSTRING_LEN(keystr); if (TOO_LONG(len)) return Qnil; key.dptr = RSTRING_PTR(keystr); key.dsize = (int)len; key2 = gdbm_nextkey(dbm, key); if (key2.dptr == 0) return Qnil; str = rb_str_new(key2.dptr, key2.dsize); free(key2.dptr); OBJ_TAINT(str); return str; } static VALUE fgdbm_fetch(VALUE obj, VALUE keystr, VALUE ifnone) { VALUE valstr; valstr = rb_gdbm_fetch3(obj, keystr); if (NIL_P(valstr)) { if (ifnone == Qnil && rb_block_given_p()) return rb_yield(keystr); return ifnone; } return valstr; } /* * call-seq: * gdbm[key] -> value * * Retrieves the _value_ corresponding to _key_. */ static VALUE fgdbm_aref(VALUE obj, VALUE keystr) { return rb_gdbm_fetch3(obj, keystr); } /* * call-seq: * gdbm.fetch(key [, default]) -> value * * Retrieves the _value_ corresponding to _key_. If there is no value * associated with _key_, _default_ will be returned instead. */ static VALUE fgdbm_fetch_m(int argc, VALUE *argv, VALUE obj) { VALUE keystr, valstr, ifnone; rb_scan_args(argc, argv, "11", &keystr, &ifnone); valstr = fgdbm_fetch(obj, keystr, ifnone); if (argc == 1 && !rb_block_given_p() && NIL_P(valstr)) rb_raise(rb_eIndexError, "key not found"); return valstr; } /* * call-seq: * gdbm.key(value) -> key * * Returns the _key_ for a given _value_. If several keys may map to the * same value, the key that is found first will be returned. */ static VALUE fgdbm_key(VALUE obj, VALUE valstr) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, valstr2; ExportStringValue(valstr); GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { valstr2 = rb_gdbm_fetch2(dbm, keystr); if (!NIL_P(valstr2) && (int)RSTRING_LEN(valstr) == (int)RSTRING_LEN(valstr2) && memcmp(RSTRING_PTR(valstr), RSTRING_PTR(valstr2), (int)RSTRING_LEN(valstr)) == 0) { return keystr; } } return Qnil; } /* :nodoc: */ static VALUE fgdbm_index(VALUE obj, VALUE value) { rb_warn("GDBM#index is deprecated; use GDBM#key"); return fgdbm_key(obj, value); } /* * call-seq: * gdbm.select { |key, value| block } -> array * * Returns a new array of all key-value pairs of the database for which _block_ * evaluates to true. */ static VALUE fgdbm_select(VALUE obj) { VALUE new = rb_ary_new(); GDBM_FILE dbm; struct dbmdata *dbmp; VALUE keystr; GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { VALUE assoc = rb_assoc_new(keystr, rb_gdbm_fetch2(dbm, keystr)); VALUE v = rb_yield(assoc); if (RTEST(v)) { rb_ary_push(new, assoc); } GetDBM2(obj, dbmp, dbm); } return new; } /* * call-seq: * gdbm.values_at(key, ...) -> array * * Returns an array of the values associated with each specified _key_. */ static VALUE fgdbm_values_at(int argc, VALUE *argv, VALUE obj) { VALUE new = rb_ary_new2(argc); int i; for (i=0; idi_size = -1; rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } else if (dbmp->di_size >= 0) { dbmp->di_size--; } return obj; } /* * call-seq: * gdbm.delete(key) -> value or nil * * Removes the key-value-pair with the specified _key_ from this database and * returns the corresponding _value_. Returns nil if the database is empty. */ static VALUE fgdbm_delete(VALUE obj, VALUE keystr) { VALUE valstr; valstr = fgdbm_fetch(obj, keystr, Qnil); rb_gdbm_delete(obj, keystr); return valstr; } /* * call-seq: * gdbm.shift -> (key, value) or nil * * Removes a key-value-pair from this database and returns it as a * two-item array [ _key_, _value_ ]. Returns nil if the database is empty. */ static VALUE fgdbm_shift(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, valstr; rb_gdbm_modify(obj); GetDBM2(obj, dbmp, dbm); keystr = rb_gdbm_firstkey(dbm); if (NIL_P(keystr)) return Qnil; valstr = rb_gdbm_fetch2(dbm, keystr); rb_gdbm_delete(obj, keystr); return rb_assoc_new(keystr, valstr); } /* * call-seq: * gdbm.delete_if { |key, value| block } -> gdbm * gdbm.reject! { |key, value| block } -> gdbm * * Deletes every key-value pair from _gdbm_ for which _block_ evaluates to true. */ static VALUE fgdbm_delete_if(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, valstr; VALUE ret, ary = rb_ary_tmp_new(0); long i; int status = 0, n; rb_gdbm_modify(obj); GetDBM2(obj, dbmp, dbm); n = dbmp->di_size; dbmp->di_size = -1; for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { OBJ_FREEZE(keystr); valstr = rb_gdbm_fetch2(dbm, keystr); 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++) rb_gdbm_delete(obj, RARRAY_AREF(ary, i)); if (status) rb_jump_tag(status); if (n > 0) dbmp->di_size = n - (int)RARRAY_LEN(ary); rb_ary_clear(ary); return obj; } /* * call-seq: * gdbm.clear -> gdbm * * Removes all the key-value pairs within _gdbm_. */ static VALUE fgdbm_clear(VALUE obj) { datum key, nextkey; struct dbmdata *dbmp; GDBM_FILE dbm; rb_gdbm_modify(obj); GetDBM2(obj, dbmp, dbm); dbmp->di_size = -1; #if 0 while (key = gdbm_firstkey(dbm), key.dptr) { if (gdbm_delete(dbm, key)) { free(key.dptr); rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } free(key.dptr); } #else while (key = gdbm_firstkey(dbm), key.dptr) { for (; key.dptr; key = nextkey) { nextkey = gdbm_nextkey(dbm, key); if (gdbm_delete(dbm, key)) { free(key.dptr); if (nextkey.dptr) free(nextkey.dptr); rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } free(key.dptr); } } #endif dbmp->di_size = 0; return obj; } /* * call-seq: * gdbm.invert -> hash * * Returns a hash created by using _gdbm_'s values as keys, and the keys * as values. */ static VALUE fgdbm_invert(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, valstr; VALUE hash = rb_hash_new(); GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { valstr = rb_gdbm_fetch2(dbm, keystr); rb_hash_aset(hash, valstr, keystr); } return hash; } /* * call-seq: * gdbm[key]= value -> value * gdbm.store(key, value) -> value * * Associates the value _value_ with the specified _key_. */ static VALUE fgdbm_store(VALUE obj, VALUE keystr, VALUE valstr) { datum key, val; struct dbmdata *dbmp; GDBM_FILE dbm; rb_gdbm_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 (gdbm_store(dbm, key, val, GDBM_REPLACE)) { if (errno == EPERM) rb_sys_fail(0); rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } return valstr; } static VALUE update_i(RB_BLOCK_CALL_FUNC_ARGLIST(pair, dbm)) { const VALUE *ptr; Check_Type(pair, T_ARRAY); if (RARRAY_LEN(pair) < 2) { rb_raise(rb_eArgError, "pair must be [key, value]"); } ptr = RARRAY_CONST_PTR(pair); fgdbm_store(dbm, ptr[0], ptr[1]); return Qnil; } /* * call-seq: * gdbm.update(other) -> gdbm * * Adds the key-value pairs of _other_ to _gdbm_, overwriting entries with * duplicate keys with those from _other_. _other_ must have an each_pair * method. */ static VALUE fgdbm_update(VALUE obj, VALUE other) { rb_block_call(other, rb_intern("each_pair"), 0, 0, update_i, obj); return obj; } /* * call-seq: * gdbm.replace(other) -> gdbm * * Replaces the content of _gdbm_ with the key-value pairs of _other_. * _other_ must have an each_pair method. */ static VALUE fgdbm_replace(VALUE obj, VALUE other) { fgdbm_clear(obj); rb_block_call(other, rb_intern("each_pair"), 0, 0, update_i, obj); return obj; } /* * call-seq: * gdbm.length -> fixnum * gdbm.size -> fixnum * * Returns the number of key-value pairs in this database. */ static VALUE fgdbm_length(VALUE obj) { datum key, nextkey; struct dbmdata *dbmp; GDBM_FILE dbm; int i = 0; GetDBM2(obj, dbmp, dbm); if (dbmp->di_size > 0) return INT2FIX(dbmp->di_size); for (key = gdbm_firstkey(dbm); key.dptr; key = nextkey) { nextkey = gdbm_nextkey(dbm, key); free(key.dptr); i++; } dbmp->di_size = i; return INT2FIX(i); } /* * call-seq: * gdbm.empty? -> true or false * * Returns true if the database is empty. */ static VALUE fgdbm_empty_p(VALUE obj) { datum key; struct dbmdata *dbmp; GDBM_FILE dbm; GetDBM(obj, dbmp); if (dbmp->di_size < 0) { dbm = dbmp->di_dbm; key = gdbm_firstkey(dbm); if (key.dptr) { free(key.dptr); return Qfalse; } return Qtrue; } if (dbmp->di_size == 0) return Qtrue; return Qfalse; } /* * call-seq: * gdbm.each_value { |value| block } -> gdbm * * Executes _block_ for each key in the database, passing the corresponding * _value_ as a parameter. */ static VALUE fgdbm_each_value(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { rb_yield(rb_gdbm_fetch2(dbm, keystr)); GetDBM2(obj, dbmp, dbm); } return obj; } /* * call-seq: * gdbm.each_key { |key| block } -> gdbm * * Executes _block_ for each key in the database, passing the * _key_ as a parameter. */ static VALUE fgdbm_each_key(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { rb_yield(keystr); GetDBM2(obj, dbmp, dbm); } return obj; } /* * call-seq: * gdbm.each_pair { |key, value| block } -> gdbm * * Executes _block_ for each key in the database, passing the _key_ and the * corresponding _value_ as a parameter. */ static VALUE fgdbm_each_pair(VALUE obj) { GDBM_FILE dbm; struct dbmdata *dbmp; VALUE keystr; RETURN_ENUMERATOR(obj, 0, 0); GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { rb_yield(rb_assoc_new(keystr, rb_gdbm_fetch2(dbm, keystr))); GetDBM2(obj, dbmp, dbm); } return obj; } /* * call-seq: * gdbm.keys -> array * * Returns an array of all keys of this database. */ static VALUE fgdbm_keys(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, ary; GetDBM2(obj, dbmp, dbm); ary = rb_ary_new(); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { rb_ary_push(ary, keystr); } return ary; } /* * call-seq: * gdbm.values -> array * * Returns an array of all values of this database. */ static VALUE fgdbm_values(VALUE obj) { datum key, nextkey; struct dbmdata *dbmp; GDBM_FILE dbm; VALUE valstr, ary; GetDBM2(obj, dbmp, dbm); ary = rb_ary_new(); for (key = gdbm_firstkey(dbm); key.dptr; key = nextkey) { nextkey = gdbm_nextkey(dbm, key); valstr = rb_gdbm_fetch(dbm, key); free(key.dptr); rb_ary_push(ary, valstr); } return ary; } /* * call-seq: * gdbm.include?(k) -> true or false * gdbm.has_key?(k) -> true or false * gdbm.member?(k) -> true or false * gdbm.key?(k) -> true or false * * Returns true if the given key _k_ exists within the database. * Returns false otherwise. */ static VALUE fgdbm_has_key(VALUE obj, VALUE keystr) { datum key; struct dbmdata *dbmp; GDBM_FILE dbm; long len; ExportStringValue(keystr); len = RSTRING_LENINT(keystr); if (TOO_LONG(len)) return Qfalse; key.dptr = RSTRING_PTR(keystr); key.dsize = (int)len; GetDBM2(obj, dbmp, dbm); if (gdbm_exists(dbm, key)) return Qtrue; return Qfalse; } /* * call-seq: * gdbm.has_value?(v) -> true or false * gdbm.value?(v) -> true or false * * Returns true if the given value _v_ exists within the database. * Returns false otherwise. */ static VALUE fgdbm_has_value(VALUE obj, VALUE valstr) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, valstr2; ExportStringValue(valstr); GetDBM2(obj, dbmp, dbm); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { valstr2 = rb_gdbm_fetch2(dbm, keystr); if (!NIL_P(valstr2) && (int)RSTRING_LEN(valstr) == (int)RSTRING_LEN(valstr2) && memcmp(RSTRING_PTR(valstr), RSTRING_PTR(valstr2), (int)RSTRING_LEN(valstr)) == 0) { return Qtrue; } } return Qfalse; } /* * call-seq: * gdbm.to_a -> array * * Returns an array of all key-value pairs contained in the database. */ static VALUE fgdbm_to_a(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, ary; GetDBM2(obj, dbmp, dbm); ary = rb_ary_new(); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { rb_ary_push(ary, rb_assoc_new(keystr, rb_gdbm_fetch2(dbm, keystr))); } return ary; } /* * call-seq: * gdbm.reorganize -> gdbm * * Reorganizes the database file. This operation removes reserved space of * elements that have already been deleted. It is only useful after a lot of * deletions in the database. */ static VALUE fgdbm_reorganize(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; rb_gdbm_modify(obj); GetDBM2(obj, dbmp, dbm); gdbm_reorganize(dbm); rb_fd_fix_cloexec(gdbm_fdesc(dbm)); return obj; } /* * call-seq: * gdbm.sync -> gdbm * * Unless the _gdbm_ object has been opened with the *SYNC* flag, it is not * guaranteed that database modification operations are immediately applied to * the database file. This method ensures that all recent modifications * to the database are written to the file. Blocks until all writing operations * to the disk have been finished. */ static VALUE fgdbm_sync(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; rb_gdbm_modify(obj); GetDBM2(obj, dbmp, dbm); gdbm_sync(dbm); return obj; } /* * call-seq: * gdbm.cachesize = size -> size * * Sets the size of the internal bucket cache to _size_. */ static VALUE fgdbm_set_cachesize(VALUE obj, VALUE val) { struct dbmdata *dbmp; GDBM_FILE dbm; int optval; GetDBM2(obj, dbmp, dbm); optval = FIX2INT(val); if (gdbm_setopt(dbm, GDBM_CACHESIZE, &optval, sizeof(optval)) == -1) { rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } return val; } /* * call-seq: * gdbm.fastmode = boolean -> boolean * * Turns the database's fast mode on or off. If fast mode is turned on, gdbm * does not wait for writes to be flushed to the disk before continuing. * * This option is obsolete for gdbm >= 1.8 since fast mode is turned on by * default. See also: #syncmode= */ static VALUE fgdbm_set_fastmode(VALUE obj, VALUE val) { struct dbmdata *dbmp; GDBM_FILE dbm; int optval; GetDBM2(obj, dbmp, dbm); optval = 0; if (RTEST(val)) optval = 1; if (gdbm_setopt(dbm, GDBM_FASTMODE, &optval, sizeof(optval)) == -1) { rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } return val; } /* * call-seq: * gdbm.syncmode = boolean -> boolean * * Turns the database's synchronization mode on or off. If the synchronization * mode is turned on, the database's in-memory state will be synchronized to * disk after every database modification operation. If the synchronization * mode is turned off, GDBM does not wait for writes to be flushed to the disk * before continuing. * * This option is only available for gdbm >= 1.8 where syncmode is turned off * by default. See also: #fastmode= */ static VALUE fgdbm_set_syncmode(VALUE obj, VALUE val) { #if !defined(GDBM_SYNCMODE) fgdbm_set_fastmode(obj, RTEST(val) ? Qfalse : Qtrue); return val; #else struct dbmdata *dbmp; GDBM_FILE dbm; int optval; GetDBM2(obj, dbmp, dbm); optval = 0; if (RTEST(val)) optval = 1; if (gdbm_setopt(dbm, GDBM_FASTMODE, &optval, sizeof(optval)) == -1) { rb_raise(rb_eGDBMError, "%s", gdbm_strerror(gdbm_errno)); } return val; #endif } /* * call-seq: * gdbm.to_hash -> hash * * Returns a hash of all key-value pairs contained in the database. */ static VALUE fgdbm_to_hash(VALUE obj) { struct dbmdata *dbmp; GDBM_FILE dbm; VALUE keystr, hash; GetDBM2(obj, dbmp, dbm); hash = rb_hash_new(); for (keystr = rb_gdbm_firstkey(dbm); RTEST(keystr); keystr = rb_gdbm_nextkey(dbm, keystr)) { rb_hash_aset(hash, keystr, rb_gdbm_fetch2(dbm, keystr)); } return hash; } /* * call-seq: * gdbm.reject { |key, value| block } -> hash * * Returns a hash copy of _gdbm_ where all key-value pairs from _gdbm_ for * which _block_ evaluates to true are removed. See also: #delete_if */ static VALUE fgdbm_reject(VALUE obj) { return rb_hash_delete_if(fgdbm_to_hash(obj)); } void Init_gdbm(void) { rb_cGDBM = rb_define_class("GDBM", rb_cObject); rb_eGDBMError = rb_define_class("GDBMError", rb_eStandardError); rb_eGDBMFatalError = rb_define_class("GDBMFatalError", rb_eException); rb_include_module(rb_cGDBM, rb_mEnumerable); rb_define_alloc_func(rb_cGDBM, fgdbm_s_alloc); rb_define_singleton_method(rb_cGDBM, "open", fgdbm_s_open, -1); rb_define_method(rb_cGDBM, "initialize", fgdbm_initialize, -1); rb_define_method(rb_cGDBM, "close", fgdbm_close, 0); rb_define_method(rb_cGDBM, "closed?", fgdbm_closed, 0); rb_define_method(rb_cGDBM, "[]", fgdbm_aref, 1); rb_define_method(rb_cGDBM, "fetch", fgdbm_fetch_m, -1); rb_define_method(rb_cGDBM, "[]=", fgdbm_store, 2); rb_define_method(rb_cGDBM, "store", fgdbm_store, 2); rb_define_method(rb_cGDBM, "index", fgdbm_index, 1); rb_define_method(rb_cGDBM, "key", fgdbm_key, 1); rb_define_method(rb_cGDBM, "select", fgdbm_select, 0); rb_define_method(rb_cGDBM, "values_at", fgdbm_values_at, -1); rb_define_method(rb_cGDBM, "length", fgdbm_length, 0); rb_define_method(rb_cGDBM, "size", fgdbm_length, 0); rb_define_method(rb_cGDBM, "empty?", fgdbm_empty_p, 0); rb_define_method(rb_cGDBM, "each", fgdbm_each_pair, 0); rb_define_method(rb_cGDBM, "each_value", fgdbm_each_value, 0); rb_define_method(rb_cGDBM, "each_key", fgdbm_each_key, 0); rb_define_method(rb_cGDBM, "each_pair", fgdbm_each_pair, 0); rb_define_method(rb_cGDBM, "keys", fgdbm_keys, 0); rb_define_method(rb_cGDBM, "values", fgdbm_values, 0); rb_define_method(rb_cGDBM, "shift", fgdbm_shift, 0); rb_define_method(rb_cGDBM, "delete", fgdbm_delete, 1); rb_define_method(rb_cGDBM, "delete_if", fgdbm_delete_if, 0); rb_define_method(rb_cGDBM, "reject!", fgdbm_delete_if, 0); rb_define_method(rb_cGDBM, "reject", fgdbm_reject, 0); rb_define_method(rb_cGDBM, "clear", fgdbm_clear, 0); rb_define_method(rb_cGDBM, "invert", fgdbm_invert, 0); rb_define_method(rb_cGDBM, "update", fgdbm_update, 1); rb_define_method(rb_cGDBM, "replace", fgdbm_replace, 1); rb_define_method(rb_cGDBM, "reorganize", fgdbm_reorganize, 0); rb_define_method(rb_cGDBM, "sync", fgdbm_sync, 0); /* rb_define_method(rb_cGDBM, "setopt", fgdbm_setopt, 2); */ rb_define_method(rb_cGDBM, "cachesize=", fgdbm_set_cachesize, 1); rb_define_method(rb_cGDBM, "fastmode=", fgdbm_set_fastmode, 1); rb_define_method(rb_cGDBM, "syncmode=", fgdbm_set_syncmode, 1); rb_define_method(rb_cGDBM, "include?", fgdbm_has_key, 1); rb_define_method(rb_cGDBM, "has_key?", fgdbm_has_key, 1); rb_define_method(rb_cGDBM, "member?", fgdbm_has_key, 1); rb_define_method(rb_cGDBM, "has_value?", fgdbm_has_value, 1); rb_define_method(rb_cGDBM, "key?", fgdbm_has_key, 1); rb_define_method(rb_cGDBM, "value?", fgdbm_has_value, 1); rb_define_method(rb_cGDBM, "to_a", fgdbm_to_a, 0); rb_define_method(rb_cGDBM, "to_hash", fgdbm_to_hash, 0); /* flag for #new and #open: open database as a reader */ rb_define_const(rb_cGDBM, "READER", INT2FIX(GDBM_READER|RUBY_GDBM_RW_BIT)); /* flag for #new and #open: open database as a writer */ rb_define_const(rb_cGDBM, "WRITER", INT2FIX(GDBM_WRITER|RUBY_GDBM_RW_BIT)); /* flag for #new and #open: open database as a writer; if the database does not exist, create a new one */ rb_define_const(rb_cGDBM, "WRCREAT", INT2FIX(GDBM_WRCREAT|RUBY_GDBM_RW_BIT)); /* flag for #new and #open: open database as a writer; overwrite any existing databases */ rb_define_const(rb_cGDBM, "NEWDB", INT2FIX(GDBM_NEWDB|RUBY_GDBM_RW_BIT)); /* flag for #new and #open. this flag is obsolete for gdbm >= 1.8 */ rb_define_const(rb_cGDBM, "FAST", INT2FIX(GDBM_FAST)); /* this flag is obsolete in gdbm 1.8. On gdbm 1.8, fast mode is default behavior. */ /* gdbm version 1.8 specific */ #if defined(GDBM_SYNC) /* flag for #new and #open. only for gdbm >= 1.8 */ rb_define_const(rb_cGDBM, "SYNC", INT2FIX(GDBM_SYNC)); #endif #if defined(GDBM_NOLOCK) /* flag for #new and #open */ rb_define_const(rb_cGDBM, "NOLOCK", INT2FIX(GDBM_NOLOCK)); #endif /* version of the gdbm library*/ rb_define_const(rb_cGDBM, "VERSION", rb_str_new2(gdbm_version)); }