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NAMEdets - A disk-based term storage.DESCRIPTIONThis module provides a term storage on file. The stored terms, in this module called objects, are tuples such that one element is defined to be the key. A Dets table is a collection of objects with the key at the same position stored on a file.This module is used by the Mnesia application, and is provided "as is" for users who are interested in efficient storage of Erlang terms on disk only. Many applications only need to store some terms in a file. Mnesia adds transactions, queries, and distribution. The size of Dets files cannot exceed 2 GB. If larger tables are needed, table fragmentation in Mnesia can be used. Three types of Dets tables exist:
Dets tables must be opened before they can be updated or read, and when finished they must be properly closed. If a table is not properly closed, Dets automatically repairs the table. This can take a substantial time if the table is large. A Dets table is closed when the process which opened the table terminates. If many Erlang processes (users) open the same Dets table, they share the table. The table is properly closed when all users have either terminated or closed the table. Dets tables are not properly closed if the Erlang runtime system terminates abnormally. Note:
A ^C command abnormally terminates an Erlang runtime system in a Unix
environment with a break-handler.
As all operations performed by Dets are disk operations, it is important to realize that a single look-up operation involves a series of disk seek and read operations. The Dets functions are therefore much slower than the corresponding ets(3) functions, although Dets exports a similar interface. Dets organizes data as a linear hash list and the hash list grows gracefully as more data is inserted into the table. Space management on the file is performed by what is called a buddy system. The current implementation keeps the entire buddy system in RAM, which implies that if the table gets heavily fragmented, quite some memory can be used up. The only way to defragment a table is to close it and then open it again with option repair set to force. Notice that type ordered_set in Ets is not yet provided by Dets, neither is the limited support for concurrent updates that makes a sequence of first and next calls safe to use on fixed ETS tables. Both these features may be provided by Dets in a future release of Erlang/OTP. Until then, the Mnesia application (or some user-implemented method for locking) must be used to implement safe concurrency. Currently, no Erlang/OTP library has support for ordered disk-based term storage. All Dets functions return {error, Reason} if an error occurs (first/1 and next/2 are exceptions, they exit the process with the error tuple). If badly formed arguments are specified, all functions exit the process with a badarg message. DATA TYPESaccess() = read | read_write auto_save() = infinity | integer() >= 0 bindings_cont() Opaque continuation used by match/1 and match/3. cont() Opaque continuation used by bchunk/2. keypos() = integer() >= 1 match_spec() = ets:match_spec() Match specifications, see section Match Specification in Erlang in ERTS User's Guide and the ms_transform(3) module. no_slots() = default | integer() >= 0 object() = tuple() object_cont() Opaque continuation used by match_object/1 and match_object/3. pattern() = atom() | tuple() For a description of patterns, see ets:match/2. select_cont() Opaque continuation used by select/1 and select/3. tab_name() = term() type() = bag | duplicate_bag | set EXPORTSall() -> [tab_name()] Returns a list of the names of all open tables on this node. bchunk(Name, Continuation) -> {Continuation2, Data} | '$end_of_table' | {error, Reason} Types: Name = tab_name()
Continuation = start | cont() Continuation2 = cont() Data = binary() | tuple() Reason = term() Returns a list of objects stored in a table. The exact representation of the returned objects is not public. The lists of data can be used for initializing a table by specifying value bchunk to option format of function init_table/3 The Mnesia application uses this function for copying open tables. Unless the table is protected using safe_fixtable/2, calls to bchunk/2 do possibly not work as expected if concurrent updates are made to the table. The first time bchunk/2 is called, an initial continuation, the atom start, must be provided. bchunk/2 returns a tuple {Continuation2, Data}, where Data is a list of objects. Continuation2 is another continuation that is to be passed on to a subsequent call to bchunk/2. With a series of calls to bchunk/2, all table objects can be extracted. bchunk/2 returns '$end_of_table' when all objects are returned, or {error, Reason} if an error occurs. close(Name) -> ok | {error, Reason} Types: Name = tab_name()
Reason = term() Closes a table. Only processes that have opened a table are allowed to close it. All open tables must be closed before the system is stopped. If an attempt is made to open a table that is not properly closed, Dets automatically tries to repair it. delete(Name, Key) -> ok | {error, Reason} Types: Name = tab_name()
Key = Reason = term() Deletes all objects with key Key from table Name. delete_all_objects(Name) -> ok | {error, Reason} Types: Name = tab_name()
Reason = term() Deletes all objects from a table in almost constant time. However, if the table if fixed, delete_all_objects(T) is equivalent to match_delete(T, '_'). delete_object(Name, Object) -> ok | {error, Reason} Types: Name = tab_name()
Object = object() Reason = term() Deletes all instances of a specified object from a table. If a table is of type bag or duplicate_bag, this function can be used to delete only some of the objects with a specified key. first(Name) -> Key | '$end_of_table' Types: Name = tab_name()
Key = term() Returns the first key stored in table Name according to the internal order of the table, or '$end_of_table' if the table is empty. Unless the table is protected using safe_fixtable/2, subsequent calls to next/2 do possibly not work as expected if concurrent updates are made to the table. If an error occurs, the process is exited with an error tuple {error, Reason}. The error tuple is not returned, as it cannot be distinguished from a key. There are two reasons why first/1 and next/2 are not to be used: they are not efficient, and they prevent the use of key '$end_of_table', as this atom is used to indicate the end of the table. If possible, use functions match, match_object, and select for traversing tables. foldl(Function, Acc0, Name) -> Acc | {error, Reason} foldr(Function, Acc0, Name) -> Acc | {error, Reason} Types: Name = tab_name()
Function = fun((Object :: object(), AccIn) -> AccOut) Acc0 = Acc = AccIn = AccOut = Reason = term() Calls Function on successive elements of table Name together with an extra argument AccIn. The table elements are traversed in unspecified order. Function must return a new accumulator that is passed to the next call. Acc0 is returned if the table is empty. from_ets(Name, EtsTab) -> ok | {error, Reason} Types: Name = tab_name()
EtsTab = ets:tab() Reason = term() Deletes all objects of table Name and then inserts all the objects of the ETS table EtsTab. The objects are inserted in unspecified order. As ets:safe_fixtable/2 is called, the ETS table must be public or owned by the calling process. info(Name) -> InfoList | undefined Types: Name = tab_name()
InfoList = [InfoTuple] InfoTuple = {file_size, integer() >= 0} | {filename, file:name()} | {keypos, keypos()} | {size, integer() >= 0} | {type, type()} Returns information about table Name as a list of tuples:
info(Name, Item) -> Value | undefined Types: Name = tab_name()
Item = access | auto_save | bchunk_format | hash | file_size | filename | keypos | memory | no_keys | no_objects | no_slots | owner | ram_file | safe_fixed | safe_fixed_monotonic_time | size | type Value = term() Returns the information associated with Item for table Name. In addition to the {Item, Value} pairs defined for info/1, the following items are allowed:
FixedAtTime corresponds to the result returned by erlang:monotonic_time/0 at the time of fixation. The use of safe_fixed_monotonic_time is time warp safe.
FixedAtTime corresponds to the result returned by erlang:timestamp/0 at the time of fixation. Notice that when the system uses single or multi time warp modes, this can produce strange results. This is because the use of safe_fixed is not time warp safe. Time warp safe code must use safe_fixed_monotonic_time instead. init_table(Name, InitFun) -> ok | {error, Reason} init_table(Name, InitFun, Options) -> ok | {error, Reason} Types: Name = tab_name()
InitFun = fun((Arg) -> Res) Arg = read | close Res = end_of_input | {[object()], InitFun} | {Data, InitFun} | term() Options = Option | [Option] Option = {min_no_slots, no_slots()} | {format, term | bchunk} Reason = term() Data = binary() | tuple() Replaces the existing objects of table Name with objects created by calling the input function InitFun, see below. The reason for using this function rather than calling insert/2 is that of efficiency. Notice that the input functions are called by the process that handles requests to the Dets table, not by the calling process. When called with argument read, function InitFun is assumed to return end_of_input when there is no more input, or {Objects, Fun}, where Objects is a list of objects and Fun is a new input function. Any other value Value is returned as an error {error, {init_fun, Value}}. Each input function is called exactly once, and if an error occurs, the last function is called with argument close, the reply of which is ignored. If the table type is set and more than one object exists with a given key, one of the objects is chosen. This is not necessarily the last object with the given key in the sequence of objects returned by the input functions. Avoid duplicate keys, otherwise the file becomes unnecessarily fragmented. This holds also for duplicated objects stored in tables of type bag. It is important that the table has a sufficient number of slots for the objects. If not, the hash list starts to grow when init_table/2 returns, which significantly slows down access to the table for a period of time. The minimum number of slots is set by the open_file/2 option min_no_slots and returned by the info/2 item no_slots. See also option min_no_slots below. Argument Options is a list of {Key, Val} tuples, where the following values are allowed:
insert(Name, Objects) -> ok | {error, Reason} Types: Name = tab_name()
Objects = object() | [object()] Reason = term() Inserts one or more objects into the table Name. If there already exists an object with a key matching the key of some of the given objects and the table type is set, the old object will be replaced. insert_new(Name, Objects) -> boolean() | {error, Reason} Types: Name = tab_name()
Objects = object() | [object()] Reason = term() Inserts one or more objects into table Name. If there already exists some object with a key matching the key of any of the specified objects, the table is not updated and false is returned. Otherwise the objects are inserted and true returned. is_compatible_bchunk_format(Name, BchunkFormat) -> boolean() Types: Name = tab_name()
BchunkFormat = binary() Returns true if it would be possible to initialize table Name, using init_table/3 with option {format, bchunk}, with objects read with bchunk/2 from some table T, such that calling info(T, bchunk_format) returns BchunkFormat. is_dets_file(Filename) -> boolean() | {error, Reason} Types: Filename = file:name()
Reason = term() Returns true if file Filename is a Dets table, otherwise false. lookup(Name, Key) -> Objects | {error, Reason} Types: Name = tab_name()
Key = term() Objects = [object()] Reason = term() Returns a list of all objects with key Key stored in table Name, for example: 2> dets:open_file(abc, [{type, bag}]). {ok,abc} 3> dets:insert(abc, {1,2,3}). ok 4> dets:insert(abc, {1,3,4}). ok 5> dets:lookup(abc, 1). [{1,2,3},{1,3,4}] If the table type is set, the function returns either the empty list or a list with one object, as there cannot be more than one object with a given key. If the table type is bag or duplicate_bag, the function returns a list of arbitrary length. Notice that the order of objects returned is unspecified. In particular, the order in which objects were inserted is not reflected. match(Continuation) -> {[Match], Continuation2} | '$end_of_table' | {error, Reason} Types: Continuation = Continuation2 = bindings_cont()
Match = [term()] Reason = term() Matches some objects stored in a table and returns a non-empty list of the bindings matching a specified pattern in some unspecified order. The table, the pattern, and the number of objects that are matched are all defined by Continuation, which has been returned by a previous call to match/1 or match/3. When all table objects are matched, '$end_of_table' is returned. match(Name, Pattern) -> [Match] | {error, Reason} Types: Name = tab_name()
Pattern = pattern() Match = [term()] Reason = term() Returns for each object of table Name that matches Pattern a list of bindings in some unspecified order. For a description of patterns, see ets:match/2. If the keypos'th element of Pattern is unbound, all table objects are matched. If the keypos'th element is bound, only the objects with the correct key are matched. match(Name, Pattern, N) -> {[Match], Continuation} | '$end_of_table' | {error, Reason} Types: Name = tab_name()
Pattern = pattern() N = default | integer() >= 0 Continuation = bindings_cont() Match = [term()] Reason = term() Matches some or all objects of table Name and returns a non-empty list of the bindings that match Pattern in some unspecified order. For a description of patterns, see ets:match/2. A tuple of the bindings and a continuation is returned, unless the table is empty, in which case '$end_of_table' is returned. The continuation is to be used when matching further objects by calling match/1. If the keypos'th element of Pattern is bound, all table objects are matched. If the keypos'th element is unbound, all table objects are matched, N objects at a time, until at least one object matches or the end of the table is reached. The default, indicated by giving N the value default, is to let the number of objects vary depending on the sizes of the objects. All objects with the same key are always matched at the same time, which implies that more than N objects can sometimes be matched. The table is always to be protected using safe_fixtable/2 before calling match/3, otherwise errors can occur when calling match/1. match_delete(Name, Pattern) -> ok | {error, Reason} Types: Name = tab_name()
Pattern = pattern() Reason = term() Deletes all objects that match Pattern from table Name. For a description of patterns, see ets:match/2. If the keypos'th element of Pattern is bound, only the objects with the correct key are matched. match_object(Continuation) -> {Objects, Continuation2} | '$end_of_table' | {error, Reason} Types: Continuation = Continuation2 = object_cont()
Objects = [object()] Reason = term() Returns a non-empty list of some objects stored in a table that match a given pattern in some unspecified order. The table, the pattern, and the number of objects that are matched are all defined by Continuation, which has been returned by a previous call to match_object/1 or match_object/3. When all table objects are matched, '$end_of_table' is returned. match_object(Name, Pattern) -> Objects | {error, Reason} Types: Name = tab_name()
Pattern = pattern() Objects = [object()] Reason = term() Returns a list of all objects of table Name that match Pattern in some unspecified order. For a description of patterns, see ets:match/2. If the keypos'th element of Pattern is unbound, all table objects are matched. If the keypos'th element of Pattern is bound, only the objects with the correct key are matched. Using the match_object functions for traversing all table objects is more efficient than calling first/1 and next/2 or slot/2. match_object(Name, Pattern, N) -> {Objects, Continuation} | '$end_of_table' | {error, Reason} Types: Name = tab_name()
Pattern = pattern() N = default | integer() >= 0 Continuation = object_cont() Objects = [object()] Reason = term() Matches some or all objects stored in table Name and returns a non-empty list of the objects that match Pattern in some unspecified order. For a description of patterns, see ets:match/2. A list of objects and a continuation is returned, unless the table is empty, in which case '$end_of_table' is returned. The continuation is to be used when matching further objects by calling match_object/1. If the keypos'th element of Pattern is bound, all table objects are matched. If the keypos'th element is unbound, all table objects are matched, N objects at a time, until at least one object matches or the end of the table is reached. The default, indicated by giving N the value default, is to let the number of objects vary depending on the sizes of the objects. All matching objects with the same key are always returned in the same reply, which implies that more than N objects can sometimes be returned. The table is always to be protected using safe_fixtable/2 before calling match_object/3, otherwise errors can occur when calling match_object/1. member(Name, Key) -> boolean() | {error, Reason} Types: Name = tab_name()
Key = Reason = term() Works like lookup/2, but does not return the objects. Returns true if one or more table elements has key Key, otherwise false. next(Name, Key1) -> Key2 | '$end_of_table' Types: Name = tab_name()
Key1 = Key2 = term() Returns either the key following Key1 in table Name according to the internal order of the table, or '$end_of_table' if there is no next key. If an error occurs, the process is exited with an error tuple {error, Reason}. To find the first key in the table, use first/1. open_file(Filename) -> {ok, Reference} | {error, Reason} Types: Filename = file:name()
Reference = reference() Reason = term() Opens an existing table. If the table is not properly closed, it is repaired. The returned reference is to be used as the table name. This function is most useful for debugging purposes. open_file(Name, Args) -> {ok, Name} | {error, Reason} Types: Name = tab_name()
Args = [OpenArg] OpenArg = {access, access()} | {auto_save, auto_save()} | {estimated_no_objects, integer() >= 0} | {file, file:name()} | {max_no_slots, no_slots()} | {min_no_slots, no_slots()} | {keypos, keypos()} | {ram_file, boolean()} | {repair, boolean() | force} | {type, type()} Reason = term() Opens a table. An empty Dets table is created if no file exists. The atom Name is the table name. The table name must be provided in all subsequent operations on the table. The name can be used by other processes as well, and many processes can share one table. If two processes open the same table by giving the same name and arguments, the table has two users. If one user closes the table, it remains open until the second user closes it. Argument Args is a list of {Key, Val} tuples, where the following values are allowed:
Value force means that a reparation is made even if the table is properly closed. This is a seldom needed option. Option repair is ignored if the table is already open.
pid2name(Pid) -> {ok, Name} | undefined Types: Pid = pid()
Name = tab_name() Returns the table name given the pid of a process that handles requests to a table, or undefined if there is no such table. This function is meant to be used for debugging only. repair_continuation(Continuation, MatchSpec) -> Continuation2 Types: Continuation = Continuation2 = select_cont()
MatchSpec = match_spec() This function can be used to restore an opaque continuation returned by select/3 or select/1 if the continuation has passed through external term format (been sent between nodes or stored on disk). The reason for this function is that continuation terms contain compiled match specifications and therefore are invalidated if converted to external term format. Given that the original match specification is kept intact, the continuation can be restored, meaning it can once again be used in subsequent select/1 calls even though it has been stored on disk or on another node. For more information and examples, see the ets(3) module. Note:
This function is rarely needed in application code. It is used by application
Mnesia to provide distributed select/3 and select/1 sequences. A
normal application would either use Mnesia or keep the continuation from being
converted to external format.
The reason for not having an external representation of compiled match specifications is performance. It can be subject to change in future releases, while this interface remains for backward compatibility. safe_fixtable(Name, Fix) -> ok Types: Name = tab_name()
Fix = boolean() If Fix is true, table Name is fixed (once more) by the calling process, otherwise the table is released. The table is also released when a fixing process terminates. If many processes fix a table, the table remains fixed until all processes have released it or terminated. A reference counter is kept on a per process basis, and N consecutive fixes require N releases to release the table. It is not guaranteed that calls to first/1, next/2, or select and match functions work as expected even if the table is fixed; the limited support for concurrency provided by the ets(3) module is not yet provided by Dets. Fixing a table currently only disables resizing of the hash list of the table. If objects have been added while the table was fixed, the hash list starts to grow when the table is released, which significantly slows down access to the table for a period of time. select(Continuation) -> {Selection, Continuation2} | '$end_of_table' | {error, Reason} Types: Continuation = Continuation2 = select_cont()
Selection = [term()] Reason = term() Applies a match specification to some objects stored in a table and returns a non-empty list of the results. The table, the match specification, and the number of objects that are matched are all defined by Continuation, which is returned by a previous call to select/1 or select/3. When all objects of the table have been matched, '$end_of_table' is returned. select(Name, MatchSpec) -> Selection | {error, Reason} Types: Name = tab_name()
MatchSpec = match_spec() Selection = [term()] Reason = term() Returns the results of applying match specification MatchSpec to all or some objects stored in table Name. The order of the objects is not specified. For a description of match specifications, see the ERTS User's Guide. If the keypos'th element of MatchSpec is unbound, the match specification is applied to all objects of the table. If the keypos'th element is bound, the match specification is applied to the objects with the correct key(s) only. Using the select functions for traversing all objects of a table is more efficient than calling first/1 and next/2 or slot/2. select(Name, MatchSpec, N) -> {Selection, Continuation} | '$end_of_table' | {error, Reason} Types: Name = tab_name()
MatchSpec = match_spec() N = default | integer() >= 0 Continuation = select_cont() Selection = [term()] Reason = term() Returns the results of applying match specification MatchSpec to some or all objects stored in table Name. The order of the objects is not specified. For a description of match specifications, see the ERTS User's Guide. A tuple of the results of applying the match specification and a continuation is returned, unless the table is empty, in which case '$end_of_table' is returned. The continuation is to be used when matching more objects by calling select/1. If the keypos'th element of MatchSpec is bound, the match specification is applied to all objects of the table with the correct key(s). If the keypos'th element of MatchSpec is unbound, the match specification is applied to all objects of the table, N objects at a time, until at least one object matches or the end of the table is reached. The default, indicated by giving N the value default, is to let the number of objects vary depending on the sizes of the objects. All objects with the same key are always handled at the same time, which implies that the match specification can be applied to more than N objects. The table is always to be protected using safe_fixtable/2 before calling select/3, otherwise errors can occur when calling select/1. select_delete(Name, MatchSpec) -> N | {error, Reason} Types: Name = tab_name()
MatchSpec = match_spec() N = integer() >= 0 Reason = term() Deletes each object from table Name such that applying match specification MatchSpec to the object returns value true. For a description of match specifications, see the ERTS User's Guide. Returns the number of deleted objects. If the keypos'th element of MatchSpec is bound, the match specification is applied to the objects with the correct key(s) only. slot(Name, I) -> '$end_of_table' | Objects | {error, Reason} Types: Name = tab_name()
I = integer() >= 0 Objects = [object()] Reason = term() The objects of a table are distributed among slots, starting with slot 0 and ending with slot n. Returns the list of objects associated with slot I. If I > n, '$end_of_table' is returned. sync(Name) -> ok | {error, Reason} Types: Name = tab_name()
Reason = term() Ensures that all updates made to table Name are written to disk. This also applies to tables that have been opened with flag ram_file set to true. In this case, the contents of the RAM file are flushed to disk. Notice that the space management data structures kept in RAM, the buddy system, is also written to the disk. This can take some time if the table is fragmented. table(Name) -> QueryHandle table(Name, Options) -> QueryHandle Types: Name = tab_name()
Options = Option | [Option] Option = {n_objects, Limit} | {traverse, TraverseMethod} Limit = default | integer() >= 1 TraverseMethod = first_next | select | {select, match_spec()} QueryHandle = qlc:query_handle() Returns a Query List Comprehension (QLC) query handle. The qlc(3) module provides a query language aimed mainly for Mnesia, but ETS tables, Dets tables, and lists are also recognized by qlc as sources of data. Calling dets:table/1,2 is the means to make Dets table Name usable to qlc. When there are only simple restrictions on the key position, qlc uses dets:lookup/2 to look up the keys. When that is not possible, the whole table is traversed. Option traverse determines how this is done:
The following example uses an explicit match specification to traverse the table: 1> dets:open_file(t, []), ok = dets:insert(t, [{1,a},{2,b},{3,c},{4,d}]), MS = ets:fun2ms(fun({X,Y}) when (X > 1) or (X < 5) -> {Y} end), QH1 = dets:table(t, [{traverse, {select, MS}}]). An example with implicit match specification: 2> QH2 = qlc:q([{Y} || {X,Y} <- dets:table(t), (X > 1) or (X < 5)]). The latter example is equivalent to the former, which can be verified using function qlc:info/1: 3> qlc:info(QH1) =:= qlc:info(QH2). true qlc:info/1 returns information about a query handle. In this case identical information is returned for the two query handles. to_ets(Name, EtsTab) -> EtsTab | {error, Reason} Types: Name = tab_name()
EtsTab = ets:tab() Reason = term() Inserts the objects of the Dets table Name into the ETS table EtsTab. The order in which the objects are inserted is not specified. The existing objects of the ETS table are kept unless overwritten. traverse(Name, Fun) -> Return | {error, Reason} Types: Name = tab_name()
Fun = fun((Object) -> FunReturn) Object = object() FunReturn = continue | {continue, Val} | {done, Value} | OtherValue Return = [term()] | OtherValue Val = Value = OtherValue = Reason = term() Applies Fun to each object stored in table Name in some unspecified order. Different actions are taken depending on the return value of Fun. The following Fun return values are allowed:
fun(X) -> io:format("~p~n", [X]), continue end.
fun(X) -> {continue, X} end.
Any other value OtherValue returned by Fun terminates the traversal and is returned immediately. update_counter(Name, Key, Increment) -> Result Types: Name = tab_name()
Key = term() Increment = {Pos, Incr} | Incr Pos = Incr = Result = integer() Updates the object with key Key stored in table Name of type set by adding Incr to the element at the Pos:th position. The new counter value is returned. If no position is specified, the element directly following the key is updated. This functions provides a way of updating a counter, without having to look up an object, update the object by incrementing an element, and insert the resulting object into the table again. SEE ALSOets(3), mnesia(3), qlc(3)
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