Sqlite3_utils
is a high-level wrapper around the
sqlite3 bindings
with utils and helpers functions to manage resources and handle typing and statements.
A few examples to illustrate basic usage of this library. Let's assume you have installed the library and run:
# #require "sqlite3_utils";;
# open Sqlite3_utils;;
Most functions come with f
and f_exn
versions, the latter raising RcError rc
where Sqlite returns the error code rc
, the former returning a ('a, Rc.t) result
.
Here we use with_db
to open a new handle and run some code with this
handle, ensuring the handle is closed when our code returns (no resource leak).
The function exec0_exn
is a convenient form for running simple statements
that take no parameters and return no values, and exec_raw_args
deal with Sqlite3.Data.t
values for both parameters and values returned by the cursor:
# with_db ":memory:" (fun db ->
exec0_exn db "create table person (name text, age int);";
exec0_exn db "insert into person values ('alice', 20), ('bob', 25) ;";
exec_raw_args db "select age from person where name=? ;" [| Data.TEXT "alice" |]
~f:Cursor.to_list);;
- : (Data.t array list, Rc.t) result = Ok [[|Sqlite3_utils.Data.INT 20L|]]
Let us re-consider the previous example but with the typed API:
# with_db ":memory:" (fun db ->
exec0_exn db "create table person (name text, age int);";
exec0_exn db "insert into person values ('alice', 20), ('bob', 25) ;";
exec db "select age from person where name=? ;"
~ty:Ty.([text], [int], (fun (x:int) -> x))
"alice"
~f:Cursor.to_list);;
- : (int list, Rc.t) result = Ok [20]
We provide a ~ty
argument that, in the most general case, exec
,
for a parametrized statement that returns values, defines the type
of parameters and the type of return values.
Here ty
is a triple (type of params, type of result columns, function f)
where f
turns the list of returned columns into a single value. f
can typically be used to build a tuple or record for each result row.
The module Sqlite3_utils.Ty
contains combinators for declaring types
(base types: text
, int
, blob
, etc. and composition operators including
::
so that one can one [int; text]
)
as well as for making simple tuples.
We can use sqlite to compute recursive functions with the
WITH RECURSIVE
form:
# let fib n =
let q = "with recursive fib(a,b,c) as
( values (1,1,1),(2,1,2) UNION select a+1, c, b+c from fib where a<=?)
select c from fib where a = ?;"
in
with_db ":memory:" (fun db ->
let l =
exec db q ~ty:Ty.([int; int], [int], p1 int, id)
n n ~f:Cursor.to_list
in
match l with
| Ok [n] -> n
| _ -> assert false
)
;;
# fib 10;;
- : int = 89
# fib 15;;
- : int = 987