squeal-postgresql-0.9.0.0: Squeal PostgreSQL Library
Copyright(c) Eitan Chatav 2019
Maintainereitan@morphism.tech
Stabilityexperimental
Safe HaskellNone
LanguageHaskell2010

Squeal.PostgreSQL.Query.From.Set

Description

set returning functions

Synopsis

Set Functions

type (-|->) arg set = forall db. SetFun db arg set Source #

A RankNType for set returning functions with 1 argument.

type (--|->) arg set Source #

Arguments

 = forall db. SetFunN db arg set

output

A RankNType for set returning functions with multiple argument.

type SetFun db arg row Source #

Arguments

 = forall lat with params. Expression 'Ungrouped lat with db params '[] arg

input

-> FromClause lat with db params '[row]

output

Like -|-> but depends on the schemas of the database

type SetFunN db args set Source #

Arguments

 = forall lat with params. NP (Expression 'Ungrouped lat with db params '[]) args

input

-> FromClause lat with db params '[set]

output

Like --|-> but depends on the schemas of the database

generateSeries Source #

Arguments

:: ty `In` '['PGint4, 'PGint8, 'PGnumeric] 
=> '[null ty, null ty] --|-> ("generate_series" ::: '["generate_series" ::: null ty])

set returning function

generateSeries (start :* stop)

Generate a series of values, from start to stop with a step size of one

>>> printSQL (generateSeries @'PGint4 (1 *: 10))
generate_series((1 :: int4), (10 :: int4))

generateSeriesStep Source #

Arguments

:: ty `In` '['PGint4, 'PGint8, 'PGnumeric] 
=> '[null ty, null ty, null ty] --|-> ("generate_series" ::: '["generate_series" ::: null ty])

set returning function

generateSeriesStep (start :* stop *: step)

Generate a series of values, from start to stop with a step size of step

>>> printSQL (generateSeriesStep @'PGint8 (2 :* 100 *: 2))
generate_series((2 :: int8), (100 :: int8), (2 :: int8))

generateSeriesTimestamp Source #

Arguments

:: ty `In` '['PGtimestamp, 'PGtimestamptz] 
=> '[null ty, null ty, null 'PGinterval] --|-> ("generate_series" ::: '["generate_series" ::: null ty])

set returning function

generateSeriesTimestamp (start :* stop *: step)

Generate a series of timestamps, from start to stop with a step size of step

>>> :{
let
  start = now
  stop = now !+ interval_ 10 Years
  step = interval_ 1 Months
in printSQL (generateSeriesTimestamp (start :* stop *: step))
:}
generate_series(now(), (now() + (INTERVAL '10.000 years')), (INTERVAL '1.000 months'))

unsafeSetFunction Source #

Arguments

:: forall fun ty row. KnownSymbol fun 
=> ByteString 
-> ty -|-> (fun ::: row)

set returning function

Escape hatch for a set returning function of a single variable

setFunction Source #

Arguments

:: (Has sch db schema, Has fun schema ('Function ('[ty] :=> 'ReturnsTable row))) 
=> QualifiedAlias sch fun

function alias

-> SetFun db ty (fun ::: row) 

Call a user defined set returning function of a single variable

>>> type Fn = '[ 'Null 'PGbool] :=> 'ReturnsTable '["ret" ::: 'NotNull 'PGnumeric]
>>> type Schema = '["fn" ::: 'Function Fn]
>>> :{
let
  fn :: SetFun (Public Schema) ('Null 'PGbool) ("fn" ::: '["ret" ::: 'NotNull 'PGnumeric])
  fn = setFunction #fn
in
  printSQL (fn true)
:}
"fn"(TRUE)

unsafeSetFunctionN Source #

Arguments

:: forall fun tys row. (SListI tys, KnownSymbol fun) 
=> ByteString 
-> tys --|-> (fun ::: row)

set returning function

Escape hatch for a multivariable set returning function

setFunctionN Source #

Arguments

:: (Has sch db schema, Has fun schema ('Function (tys :=> 'ReturnsTable row)), SListI tys) 
=> QualifiedAlias sch fun

function alias

-> SetFunN db tys (fun ::: row) 

Call a user defined multivariable set returning function

>>> type Fn = '[ 'Null 'PGbool, 'Null 'PGtext] :=> 'ReturnsTable '["ret" ::: 'NotNull 'PGnumeric]
>>> type Schema = '["fn" ::: 'Function Fn]
>>> :{
let
  fn :: SetFunN (Public Schema)
    '[ 'Null 'PGbool, 'Null 'PGtext]
    ("fn" ::: '["ret" ::: 'NotNull 'PGnumeric])
  fn = setFunctionN #fn
in
  printSQL (fn (true *: "hi"))
:}
"fn"(TRUE, (E'hi' :: text))