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tests_trusted.sql
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-- This is a "procedural language" extension of PostgreSQL
-- allowing the execution of code in Haskell within SQL code.
--
-- Copyright (C) 2024 Edward F. Behn, Jr.
--
-- This program is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <https://www.gnu.org/licenses/>.
\set ON_ERROR_STOP on
DROP SCHEMA IF EXISTS plhaskell_test CASCADE;
CREATE SCHEMA plhaskell_test;
CREATE FUNCTION plhaskell_test.echo(bytea) RETURNS bytea IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(text) RETURNS text IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(char) RETURNS char IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(bool) RETURNS bool IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(smallint) RETURNS smallint IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(int) RETURNS int IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(bigint) RETURNS bigint IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(real) RETURNS real IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(float) RETURNS float IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.nan() RETURNS float IMMUTABLE AS
$$
import PGutils (PGm)
nan :: PGm (Maybe Double)
nan = return (Just (0.0 / 0.0))
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.poop() RETURNS char IMMUTABLE AS
$$
import PGutils (PGm)
poop :: PGm (Maybe Char)
poop = return (Just '\x0001F4A9')
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.shrug() RETURNS text IMMUTABLE AS
$$
import PGutils (PGm)
import Data.Text (Text)
shrug :: PGm (Maybe Text)
shrug = return (Just "¯\\_(ツ)_/¯")
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.len(bytea) RETURNS int IMMUTABLE AS
$$
import PGutils (PGm)
import Data.ByteString (length, ByteString)
import Data.Int (Int32)
len :: Maybe ByteString -> PGm (Maybe Int32)
len Nothing = return Nothing
len (Just s) = return $ Just $ fromIntegral $ Data.ByteString.length s
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.len(text) RETURNS int IMMUTABLE AS
$$
import PGutils (PGm)
import Data.Int (Int32)
import Data.Text (length, Text)
len :: Maybe Text -> PGm (Maybe Int32)
len Nothing = return Nothing
len (Just s) = return $ Just $ fromIntegral $ Data.Text.length s
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.make_length_bytea(int) RETURNS bytea IMMUTABLE AS
$$
import PGutils (PGm)
import Data.ByteString (pack, ByteString)
import Data.Int (Int32)
import Data.Word (Word8)
make_length :: Int32 -> [Word8]
make_length n = take (fromIntegral n) (repeat 0)
make_length_bytea :: Maybe Int32 -> PGm (Maybe ByteString)
make_length_bytea Nothing = return Nothing
make_length_bytea (Just n) = return $ Just (pack (make_length n))
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.make_length_text(int) RETURNS text IMMUTABLE AS
$$
import PGutils (PGm)
import Data.Int (Int32)
import Data.Text (pack, Text)
make_length_text :: Maybe Int32 -> PGm (Maybe Text)
make_length_text Nothing = return Nothing
make_length_text (Just n) = return $ Just $ pack (take (fromIntegral n) (repeat '_'))
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.inv(bool) RETURNS bool IMMUTABLE AS
$$
import PGutils (PGm)
inv :: Maybe Bool -> PGm (Maybe Bool)
inv Nothing = return Nothing
inv (Just True) = return (Just False)
inv (Just False) = return (Just True)
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.add(int, int) RETURNS int IMMUTABLE AS
$$
import PGutils (PGm)
import Data.Int (Int32)
add :: Maybe Int32 -> Maybe Int32 -> PGm (Maybe Int32)
add (Just a) (Just b) = return (Just (a+b))
add a Nothing = return a
add Nothing _ = return Nothing
$$
LANGUAGE plhaskell;
CREATE TYPE plhaskell_test.alpha AS (a text, b int, c float);
CREATE TYPE plhaskell_test.bravo AS (d plhaskell_test.alpha, e int);
CREATE TYPE plhaskell_test.charlie AS ();
CREATE TYPE plhaskell_test.delta AS (f plhaskell_test.bravo, g plhaskell_test.charlie);
CREATE FUNCTION plhaskell_test.alpha_test(int) RETURNS plhaskell_test.alpha IMMUTABLE AS
$$
import Data.Int (Int32)
import Data.Text (Text)
import PGutils (PGm, raiseError)
p :: Double
p = 12.3
r :: Double
r = 32.1
alpha_test :: Maybe Int32 -> PGm (Maybe (Maybe Text, Maybe Int32, Maybe Double))
alpha_test (Just 1) = return (Just (Just "abc", Just 42, Nothing))
alpha_test (Just 2) = return (Just (Just "cde", Nothing, Just p))
alpha_test (Just 3) = return (Just (Nothing, Just 42, Just r))
alpha_test (Just 4) = return Nothing
alpha_test _ = raiseError "Invalid"
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.delta_test() RETURNS plhaskell_test.delta IMMUTABLE AS
$$
import Data.Int (Int32)
import Data.Text (Text)
import PGutils (PGm)
delta_test :: PGm (Maybe (Maybe (Maybe (Maybe Text, Maybe Int32, Maybe Double), Maybe Int32), Maybe ()))
delta_test = return (Just (Just (Just (Just "abc", Just 42, Just (42.3)), Just 0), Just ()))
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(plhaskell_test.delta) RETURNS plhaskell_test.delta IMMUTABLE AS
$$
import Data.Int (Int32)
import Data.Text (Text)
import PGutils (PGm)
echo :: Maybe (Maybe (Maybe (Maybe Text, Maybe Int32, Maybe Double), Maybe Int32), Maybe ()) ->
PGm (Maybe (Maybe (Maybe (Maybe Text, Maybe Int32, Maybe Double), Maybe Int32), Maybe ()))
echo = return
$$
LANGUAGE plhaskell;
CREATE TYPE plhaskell_test.n_p AS (n int, p int);
CREATE FUNCTION plhaskell_test.primes(int) RETURNS SETOF plhaskell_test.n_p IMMUTABLE AS
$$
import PGutils (PGm, raiseError)
import Data.Int (Int32)
sieve :: [Int32] -> [Int32]
sieve (p:xs) = p : sieve [x | x <- xs, x `mod` p /= 0]
sieve [] = []
primes :: Maybe Int32 -> PGm [Maybe (Maybe Int32, Maybe Int32)]
primes Nothing = raiseError "Invalid Null"
primes (Just n) = return (map Just (zip [Just i | i <- [1..n]] (map Just (sieve [2..]))))
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.mk_array(int) RETURNS int[] IMMUTABLE AS
$$
import PGutils (PGm, Array (..))
import Data.Int (Int32)
chunksOf :: Int -> [a] -> [[a]]
chunksOf _ [] = []
chunksOf n xs = fxs : chunksOf n sxs
where (fxs, sxs) = splitAt n xs
mkList :: Int32 -> [Maybe Int32]
mkList upper = [if x `mod` 3 == 0 then Nothing else Just x | x <- [0 .. upper-1]]
mk_array :: Maybe Int32 -> PGm (Maybe (Array (Maybe Int32)))
mk_array m = case m of
Nothing -> return Nothing
Just 0 -> return (Just ArrayEmpty)
Just 1 -> return (Just (Array1D 20 (mkList 2)))
Just 2 -> return (Just (Array2D (20, 21) ( (chunksOf 2) (mkList 6))))
Just 3 -> return (Just (Array3D (20, 21, 22) ( (chunksOf 3) $ (chunksOf 2) (mkList 24))))
Just 4 -> return (Just (Array4D (20, 21, 22, 23) ( (chunksOf 4) $ (chunksOf 3) $ (chunksOf 2) (mkList 120))))
Just 5 -> return (Just (Array5D (20, 21, 22, 23, 24) ( (chunksOf 5) $ (chunksOf 4) $ (chunksOf 3) $ (chunksOf 2) (mkList 720))))
Just 6 -> return (Just (Array6D (20, 21, 22, 23, 24, 25) ((chunksOf 6) $ (chunksOf 5) $ (chunksOf 4) $ (chunksOf 3) $ (chunksOf 2) (mkList 5040))))
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(int[]) RETURNS int[] IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.echo(plhaskell_test.alpha[]) RETURNS plhaskell_test.alpha[] IMMUTABLE AS
$$
import PGutils (PGm)
echo :: a -> PGm a
echo = return
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.query_create() RETURNS void VOLATILE AS
$$
import PGutils (PGm, query, QueryResults (UtilityResults))
query_create :: PGm ()
query_create = do
UtilityResults _processed <- query "CREATE TABLE plhaskell_test.t(i int, l text)" []
return ()
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.query_insert(int, text) RETURNS void VOLATILE AS
$$
import PGutils (PGm, query, QueryResults (InsertResults), QueryParam (QueryParamInt4, QueryParamText))
import Data.Int (Int32)
import Data.Text (Text)
query_insert :: Maybe Int32 -> Maybe Text -> PGm ()
query_insert i l = do
InsertResults _processed <- query "INSERT INTO plhaskell_test.t(i, l) VALUES ($1, $2);" [QueryParamInt4 i, QueryParamText l]
return ()
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.query_insert_returning() RETURNS void VOLATILE AS
$$
import PGutils (PGm, query, QueryResults (InsertReturningResults), QueryResultValue (QueryResultValueInt4, QueryResultValueText), raiseError)
query_insert_returning :: PGm ()
query_insert_returning = do
InsertReturningResults processed [header1, header2] [[QueryResultValueInt4 i0, QueryResultValueText l0],
[QueryResultValueInt4 i1, QueryResultValueText l1],
[QueryResultValueInt4 i2, QueryResultValueText l2]] <- query "INSERT INTO plhaskell_test.t(i, l) \
\ SELECT i+3, l \
\ FROM plhaskell_test.t \
\ WHERE i is not NULL \
\ ORDER BY i RETURNING i, l" []
if processed == 3
then return ()
else raiseError "Bad processed"
if header1 == "i"
then return ()
else raiseError "Bad header1"
if header2 == "l"
then return ()
else raiseError "Bad header2"
if i0 == Just 4
then return ()
else raiseError "Bad i0"
if l0 == Just "A"
then return ()
else raiseError "Bad l0"
if i1 == Just 5
then return ()
else raiseError "Bad i1"
if l1 == Just "B"
then return ()
else raiseError "Bad l1"
if i2 == Just 6
then return ()
else raiseError "Bad i2"
if l2 == Just "C"
then return ()
else raiseError "Bad l2"
return ()
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.query_select() RETURNS void IMMUTABLE AS
$$
import PGutils (PGm, query, QueryResults (SelectResults), QueryResultValue (QueryResultValueInt4, QueryResultValueText), raiseError)
query_select :: PGm ()
query_select = do
SelectResults processed [header1, header2] [[QueryResultValueInt4 i0, QueryResultValueText l0],
[QueryResultValueInt4 i1, QueryResultValueText l1],
[QueryResultValueInt4 i2, QueryResultValueText l2],
[QueryResultValueInt4 i3, QueryResultValueText l3],
[QueryResultValueInt4 i4, QueryResultValueText l4],
[QueryResultValueInt4 i5, QueryResultValueText l5],
[QueryResultValueInt4 i6, QueryResultValueText l6]] <- query "SELECT i, l \
\ FROM plhaskell_test.t \
\ ORDER BY i" []
if processed == 7
then return ()
else raiseError "Bad processed"
if header1 == "i"
then return ()
else raiseError "Bad header1"
if header2 == "l"
then return ()
else raiseError "Bad header2"
if i0 == Just 1
then return ()
else raiseError "Bad i0"
if l0 == Just "A"
then return ()
else raiseError "Bad l0"
if i1 == Just 2
then return ()
else raiseError "Bad i1"
if l1 == Just "B"
then return ()
else raiseError "Bad l1"
if i2 == Just 3
then return ()
else raiseError "Bad i2"
if l2 == Just "C"
then return ()
else raiseError "Bad l2"
if i3 == Just 4
then return ()
else raiseError "Bad i3"
if l3 == Just "A"
then return ()
else raiseError "Bad l3"
if i4 == Just 5
then return ()
else raiseError "Bad i4"
if l4 == Just "B"
then return ()
else raiseError "Bad l4"
if i5 == Just 6
then return ()
else raiseError "Bad i5"
if l5 == Just "C"
then return ()
else raiseError "Bad l5"
if i6 == Nothing
then return ()
else raiseError "Bad i6"
if l6 == Nothing
then return ()
else raiseError "Bad l6"
return ()
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.query_delete() RETURNS void VOLATILE AS
$$
import PGutils (PGm, query, QueryResults (DeleteResults), raiseError)
query_delete :: PGm ()
query_delete = do
DeleteResults processed1 <- query "DELETE FROM plhaskell_test.t" []
DeleteResults processed2 <- query "DELETE FROM plhaskell_test.t" []
if processed1 == 7
then return ()
else raiseError "Bad processed1"
if processed2 == 0
then return ()
else raiseError "Bad processed2"
return ()
$$
LANGUAGE plhaskell;
CREATE FUNCTION plhaskell_test.query_drop() RETURNS void VOLATILE AS
$$
import PGutils (PGm, query, QueryResults (UtilityResults))
query_drop :: PGm ()
query_drop = do
UtilityResults _processed <- query "DROP TABLE plhaskell_test.t" []
return ()
$$
LANGUAGE plhaskell;
SELECT plhaskell_test.query_create();
SELECT plhaskell_test.query_insert(NULL::int, NULL::text);
SELECT plhaskell_test.query_insert(1, 'A');
SELECT plhaskell_test.query_insert(2, 'B');
SELECT plhaskell_test.query_insert(3, 'C');
SELECT plhaskell_test.query_insert_returning();
SELECT plhaskell_test.query_select();
SELECT plhaskell_test.query_delete();
SELECT plhaskell_test.query_drop();
CREATE FUNCTION plhaskell_test.query_composite() RETURNS void IMMUTABLE AS
$$
import PGutils (PGm, query, QueryResults (SelectResults), QueryResultValue (QueryResultValueComposite, QueryResultValueInt4, QueryResultValueText, QueryResultValueFloat8), raiseError)
query_composite :: PGm ()
query_composite = do
SelectResults processed [header] [row0, row1, row2, row3] <- query "SELECT d FROM plhaskell_test.deltas ORDER BY i" []
if processed == 4
then return ()
else raiseError "Bad processed"
if header == "d"
then return ()
else raiseError "Bad header"
let [QueryResultValueComposite (delta_schema0, delta_type0) (Just [QueryResultValueComposite (bravo_schema0, bravo_type0) (Just [QueryResultValueComposite (alpha_schema0, alpha_type0) (Just [QueryResultValueText (Just x0), QueryResultValueInt4 (Just x1), QueryResultValueFloat8 (Just x2)]), QueryResultValueInt4 (Just x3)]), QueryResultValueComposite (charlie_schema0, charlie_type0) (Just [])])] = row0
if delta_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema0"
if delta_type0 == "delta"
then return ()
else raiseError "Bad delta_type0"
if bravo_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad bravo_schema0"
if bravo_type0 == "bravo"
then return ()
else raiseError "Bad bravo_type0"
if alpha_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad alpha_schema0"
if alpha_type0 == "alpha"
then return ()
else raiseError "Bad alpha_type0"
if charlie_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad charlie_schema0"
if charlie_type0 == "charlie"
then return ()
else raiseError "Bad charlie_type0"
if x0 == "Hello"
then return ()
else raiseError "Bad x0"
if x1 == 12
then return ()
else raiseError "Bad x1"
if x2 == 3.4
then return ()
else raiseError "Bad x2"
if x3 == 76
then return ()
else raiseError "Bad x3"
let [QueryResultValueComposite (delta_schema1, delta_type1) (Just [QueryResultValueComposite (bravo_schema1, bravo_type1) (Just [QueryResultValueComposite (alpha_schema1, alpha_type1) (Just [QueryResultValueText (Just x4), QueryResultValueInt4 (Just x5), QueryResultValueFloat8 (Just x6)]), QueryResultValueInt4 (Just x7)]), QueryResultValueComposite (charlie_schema1, charlie_type1) Nothing])] = row1
if delta_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema1"
if delta_type1 == "delta"
then return ()
else raiseError "Bad delta_type1"
if bravo_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad bravo_schema1"
if bravo_type1 == "bravo"
then return ()
else raiseError "Bad bravo_type1"
if alpha_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad alpha_schema1"
if alpha_type1 == "alpha"
then return ()
else raiseError "Bad alpha_type1"
if charlie_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad charlie_schema1"
if charlie_type1 == "charlie"
then return ()
else raiseError "Bad charlie_type1"
if x4 == "world"
then return ()
else raiseError "Bad x4"
if x5 == 42
then return ()
else raiseError "Bad x5"
if x6 == 1.0
then return ()
else raiseError "Bad x6"
if x7 == -12
then return ()
else raiseError "Bad x7"
let [QueryResultValueComposite (delta_schema2, delta_type2) (Just [QueryResultValueComposite (bravo_schema2, bravo_type2) Nothing, QueryResultValueComposite (charlie_schema2, charlie_type2) (Just [])])] = row2
if delta_schema2 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema2"
if delta_type2 == "delta"
then return ()
else raiseError "Bad delta_type2"
if bravo_schema2 == "plhaskell_test"
then return ()
else raiseError "Bad bravo_schema2"
if bravo_type2 == "bravo"
then return ()
else raiseError "Bad bravo_type2"
if charlie_schema2 == "plhaskell_test"
then return ()
else raiseError "Bad charlie_schema2"
if charlie_type2 == "charlie"
then return ()
else raiseError "Bad charlie_type2"
let [QueryResultValueComposite (delta_schema3, delta_type3) Nothing] = row3
if delta_schema3 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema3"
if delta_type3 == "delta"
then return ()
else raiseError "Bad delta_type3"
return ()
$$
LANGUAGE plhaskell;
CREATE TABLE plhaskell_test.deltas(i int, d plhaskell_test.delta);
INSERT INTO plhaskell_test.deltas(i, d) VALUES (1, ((('Hello', 12, 3.4)::plhaskell_test.alpha, 76)::plhaskell_test.bravo, '()'::plhaskell_test.charlie)::plhaskell_test.delta);
INSERT INTO plhaskell_test.deltas(i, d) VALUES (2, ((('world', 42, 1.0)::plhaskell_test.alpha, -12)::plhaskell_test.bravo, NULL::plhaskell_test.charlie)::plhaskell_test.delta);
INSERT INTO plhaskell_test.deltas(i, d) VALUES (3, (NULL::plhaskell_test.bravo, '()'::plhaskell_test.charlie)::plhaskell_test.delta);
INSERT INTO plhaskell_test.deltas(i, d) VALUES (4, NULL::plhaskell_test.delta);
SELECT plhaskell_test.query_composite();
CREATE FUNCTION plhaskell_test.query_pass_composite() RETURNS void IMMUTABLE AS
$$
import PGutils (PGm, raiseError, query, QueryResults (SelectResults), QueryParam (QueryParamComposite, QueryParamText, QueryParamInt4, QueryParamFloat8), QueryResultValue (QueryResultValueComposite, QueryResultValueText, QueryResultValueInt4, QueryResultValueFloat8))
import Data.Text (Text, pack)
query_pass_composite :: PGm ()
query_pass_composite = do
SelectResults _processed _header [row0] <- query "SELECT $1" [QueryParamComposite (Just "plhaskell_test", "delta") (Just [QueryParamComposite (Just "plhaskell_test", "bravo") (Just [QueryParamComposite (Just "plhaskell_test", "alpha") (Just [QueryParamText (Just "Hello"), QueryParamInt4 (Just 12), QueryParamFloat8 (Just 3.4)]), QueryParamInt4 (Just 76)]), QueryParamComposite (Just "plhaskell_test", "charlie") (Just [])])]
let [QueryResultValueComposite (delta_schema0, delta_type0) (Just [QueryResultValueComposite (bravo_schema0, bravo_type0) (Just [QueryResultValueComposite (alpha_schema0, alpha_type0) (Just [QueryResultValueText (Just x0), QueryResultValueInt4 (Just x1), QueryResultValueFloat8 (Just x2)]), QueryResultValueInt4 (Just x3)]), QueryResultValueComposite (charlie_schema0, charlie_type0) (Just [])])] = row0
if delta_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema0"
if delta_type0 == "delta"
then return ()
else raiseError "Bad delta_type0"
if bravo_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad bravo_schema0"
if bravo_type0 == "bravo"
then return ()
else raiseError "Bad bravo_type0"
if alpha_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad alpha_schema0"
if alpha_type0 == "alpha"
then return ()
else raiseError "Bad alpha_type0"
if charlie_schema0 == "plhaskell_test"
then return ()
else raiseError "Bad charlie_schema0"
if charlie_type0 == "charlie"
then return ()
else raiseError "Bad charlie_type0"
if x0 == "Hello"
then return ()
else raiseError "Bad x0"
if x1 == 12
then return ()
else raiseError "Bad x1"
if x2 == 3.4
then return ()
else raiseError "Bad x2"
if x3 == 76
then return ()
else raiseError "Bad x3"
SelectResults _processed _header [row1] <- query "SELECT $1" [QueryParamComposite (Just "plhaskell_test", "delta") (Just [QueryParamComposite (Just "plhaskell_test", "bravo") (Just [QueryParamComposite (Just "plhaskell_test", "alpha") (Just [QueryParamText (Just "world"), QueryParamInt4 (Just 42), QueryParamFloat8 (Just 1.0)]), QueryParamInt4 (Just (-12))]), QueryParamComposite (Just "plhaskell_test", "charlie") Nothing])]
let [QueryResultValueComposite (delta_schema1, delta_type1) (Just [QueryResultValueComposite (bravo_schema1, bravo_type1) (Just [QueryResultValueComposite (alpha_schema1, alpha_type1) (Just [QueryResultValueText (Just x4), QueryResultValueInt4 (Just x5), QueryResultValueFloat8 (Just x6)]), QueryResultValueInt4 (Just x7)]), QueryResultValueComposite (charlie_schema1, charlie_type1) Nothing])] = row1
if delta_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema1"
if delta_type1 == "delta"
then return ()
else raiseError "Bad delta_type1"
if bravo_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad bravo_schema1"
if bravo_type1 == "bravo"
then return ()
else raiseError "Bad bravo_type1"
if alpha_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad alpha_schema1"
if alpha_type1 == "alpha"
then return ()
else raiseError "Bad alpha_type1"
if charlie_schema1 == "plhaskell_test"
then return ()
else raiseError "Bad charlie_schema1"
if charlie_type1 == "charlie"
then return ()
else raiseError "Bad charlie_type1"
if x4 == "world"
then return ()
else raiseError "Bad x4"
if x5 == 42
then return ()
else raiseError "Bad x5"
if x6 == 1.0
then return ()
else raiseError "Bad x6"
if x7 == -12
then return ()
else raiseError "Bad x7"
SelectResults _processed _header [row2] <- query "SELECT $1" [QueryParamComposite (Just "plhaskell_test", "delta") (Just [QueryParamComposite (Just "plhaskell_test", "bravo") Nothing, QueryParamComposite (Just "plhaskell_test", "charlie") (Just [])])]
let [QueryResultValueComposite (delta_schema2, delta_type2) (Just [QueryResultValueComposite (bravo_schema2, bravo_type2) Nothing, QueryResultValueComposite (charlie_schema2, charlie_type2) (Just [])])] = row2
if delta_schema2 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema2"
if delta_type2 == "delta"
then return ()
else raiseError "Bad delta_type2"
if bravo_schema2 == "plhaskell_test"
then return ()
else raiseError "Bad bravo_schema2"
if bravo_type2 == "bravo"
then return ()
else raiseError "Bad bravo_type2"
if charlie_schema2 == "plhaskell_test"
then return ()
else raiseError "Bad charlie_schema2"
if charlie_type2 == "charlie"
then return ()
else raiseError "Bad charlie_type2"
SelectResults _processed _header [row3] <- query "SELECT $1" [QueryParamComposite (Just "plhaskell_test", "delta") Nothing]
let [QueryResultValueComposite (delta_schema3, delta_type3) Nothing] = row3
if delta_schema3 == "plhaskell_test"
then return ()
else raiseError "Bad delta_schema3"
if delta_type3 == "delta"
then return ()
else raiseError "Bad delta_type3"
return ()
$$
LANGUAGE plhaskell;
SELECT plhaskell_test.query_pass_composite();
CREATE TABLE plhaskell_test.primes(n int, p int);
INSERT INTO plhaskell_test.primes(n, p)
SELECT n, p
FROM plhaskell_test.primes(10);
CREATE TABLE plhaskell_test.inline_test(i int, i_sq int);
DO LANGUAGE plhaskell $$
import PGutils (PGm, query, QueryResults(InsertResults), QueryParam(QueryParamInt4))
_' :: PGm ()
_' = do
InsertResults _processed <- query "INSERT INTO plhaskell_test.inline_test(i, i_sq) VALUES ($1, $2)" [QueryParamInt4 (Just 0), QueryParamInt4 (Just 0)]
InsertResults _processed <- query "INSERT INTO plhaskell_test.inline_test(i, i_sq) VALUES ($1, $2)" [QueryParamInt4 (Just 1), QueryParamInt4 (Just 1)]
InsertResults _processed <- query "INSERT INTO plhaskell_test.inline_test(i, i_sq) VALUES ($1, $2)" [QueryParamInt4 (Just 2), QueryParamInt4 (Just 4)]
InsertResults _processed <- query "INSERT INTO plhaskell_test.inline_test(i, i_sq) VALUES ($1, $2)" [QueryParamInt4 (Just 3), QueryParamInt4 (Just 9)]
InsertResults _processed <- query "INSERT INTO plhaskell_test.inline_test(i, i_sq) VALUES ($1, $2)" [QueryParamInt4 (Just 4), QueryParamInt4 (Just 16)]
InsertResults _processed <- query "INSERT INTO plhaskell_test.inline_test(i, i_sq) VALUES ($1, $2)" [QueryParamInt4 (Just 5), QueryParamInt4 (Just 25)]
return ()
$$;
CREATE TABLE plhaskell_test.query_arrays(a int[]) ;
CREATE FUNCTION plhaskell_test.query_array_insert() RETURNS void VOLATILE AS
$$
import PGutils (PGm, query, Array(Array6D), QueryResults(InsertResults), QueryParam(QueryParamArray, QueryParamInt4))
import Data.Int (Int32)
chunksOf :: Int -> [a] -> [[a]]
chunksOf _ [] = []
chunksOf n xs = fxs : chunksOf n sxs
where (fxs, sxs) = splitAt n xs
mkList :: Int32 -> [Maybe Int32]
mkList upper = [if x `mod` 3 == 0 then Nothing else Just x | x <- [0 .. upper-1]]
mk_array :: Maybe (Array QueryParam)
mk_array = Just (Array6D (20, 21, 22, 23, 24, 25) ((chunksOf 6) $ (chunksOf 5) $ (chunksOf 4) $ (chunksOf 3) $ (chunksOf 2) (map QueryParamInt4 (mkList 5040))))
query_array_insert :: PGm ()
query_array_insert = do
InsertResults _processed <- query "INSERT INTO plhaskell_test.query_arrays(a) VALUES ($1)" [QueryParamArray (Nothing, "int4") mk_array]
return ()
$$
LANGUAGE plhaskell;
SELECT plhaskell_test.query_array_insert();
CREATE FUNCTION plhaskell_test.query_array_select() RETURNS int[] IMMUTABLE AS
$$
import PGutils (PGm, raiseError, query, arrayMap, Array(Array6D), QueryResults(SelectResults), QueryResultValue(QueryResultValueArray, QueryResultValueInt4))
import Data.Int (Int32)
query_array_select :: PGm (Maybe (Array (Maybe Int32)))
query_array_select = do
SelectResults _processed [_header] [[QueryResultValueArray (_schema, name) a]] <- query "SELECT a FROM plhaskell_test.query_arrays" [];
if name == "int4"
then return ()
else raiseError "Bad type name"
return (fmap (arrayMap (\ (QueryResultValueInt4 i) -> i)) a)
$$
LANGUAGE plhaskell;
DO $$
DECLARE
r RECORD;
null_array int[];
array_empty int[];
array_1d int[];
array_2d int[];
array_3d int[];
array_4d int[];
array_5d int[];
array_6d int[];
x int;
a int;
alpha_array plhaskell_test.alpha[];
BEGIN
IF plhaskell_test.echo('\xabcdef'::bytea) <> '\xabcdef'::bytea THEN
raise EXCEPTION 'echo bytea failed';
END IF;
IF plhaskell_test.echo(NULL::bytea) is not NULL THEN
raise EXCEPTION 'echo NULL bytea failed';
END IF;
IF plhaskell_test.echo('\xabcdef'::text) <> '\xabcdef'::text THEN
raise EXCEPTION 'echo text failed';
END IF;
IF plhaskell_test.echo(NULL::text) is not NULL THEN
raise EXCEPTION 'echo NULL text failed';
END IF;
IF plhaskell_test.echo('A'::char) <> 'A'::char THEN
raise EXCEPTION 'echo char failed';
END IF;
IF plhaskell_test.echo(NULL::char) is not NULL THEN
raise EXCEPTION 'echo NULL char failed';
END IF;
IF plhaskell_test.echo(true) <> true THEN
raise EXCEPTION 'echo bool failed';
END IF;
IF plhaskell_test.echo(false) <> false THEN
raise EXCEPTION 'echo bool failed';
END IF;
IF plhaskell_test.echo(NULL::bool) is not NULL THEN
raise EXCEPTION 'echo NULL bool failed';
END IF;
IF plhaskell_test.echo(20488) <> 20488 THEN
raise EXCEPTION 'echo smallint failed';
END IF;
IF plhaskell_test.echo(-29268) <> -29268 THEN
raise EXCEPTION 'echo smallint failed';
END IF;
IF plhaskell_test.echo(NULL::smallint) is not NULL THEN
raise EXCEPTION 'echo NULL smallint failed';
END IF;
IF plhaskell_test.echo(1372801355::int) <> 1372801355 THEN
raise EXCEPTION 'echo int failed';
END IF;
IF plhaskell_test.echo(-1042672097::int) <> -1042672097 THEN
raise EXCEPTION 'echo int failed';
END IF;
IF plhaskell_test.echo(NULL::int) is not NULL THEN
raise EXCEPTION 'echo NULL int failed';
END IF;
IF plhaskell_test.echo(2263727920641201613::bigint) <> 2263727920641201613 THEN
raise EXCEPTION 'echo bigint failed';
END IF;
IF plhaskell_test.echo(-591947113936367256::bigint) <> -591947113936367256 THEN
raise EXCEPTION 'echo bigint failed';
END IF;