Mercurial > urweb
view lib/ur/basis.urs @ 2077:3cd2bd4b1de0
More simple textual HTML5 input types
author | Adam Chlipala <adam@chlipala.net> |
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date | Sun, 16 Nov 2014 14:16:11 -0500 |
parents | 855d7746a084 |
children | 6d126af2e1cb |
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type int type float type string type char type time type blob type unit = {} datatype bool = False | True datatype option t = None | Some of t datatype list t = Nil | Cons of t * list t (** Polymorphic variants *) con variant :: {Type} -> Type val make : nm :: Name -> t ::: Type -> ts ::: {Type} -> [[nm] ~ ts] => t -> variant ([nm = t] ++ ts) val match : ts ::: {Type} -> t ::: Type -> variant ts -> $(map (fn t' => t' -> t) ts) -> t (** Basic type classes *) class eq val eq : t ::: Type -> eq t -> t -> t -> bool val ne : t ::: Type -> eq t -> t -> t -> bool val eq_int : eq int val eq_float : eq float val eq_string : eq string val eq_char : eq char val eq_bool : eq bool val eq_time : eq time val mkEq : t ::: Type -> (t -> t -> bool) -> eq t class num val zero : t ::: Type -> num t -> t val neg : t ::: Type -> num t -> t -> t val plus : t ::: Type -> num t -> t -> t -> t val minus : t ::: Type -> num t -> t -> t -> t val times : t ::: Type -> num t -> t -> t -> t val divide : t ::: Type -> num t -> t -> t -> t val mod : t ::: Type -> num t -> t -> t -> t val pow : t ::: Type -> num t -> t -> t -> t val num_int : num int val num_float : num float class ord val lt : t ::: Type -> ord t -> t -> t -> bool val le : t ::: Type -> ord t -> t -> t -> bool val gt : t ::: Type -> ord t -> t -> t -> bool val ge : t ::: Type -> ord t -> t -> t -> bool val ord_int : ord int val ord_float : ord float val ord_string : ord string val ord_char : ord char val ord_bool : ord bool val ord_time : ord time val mkOrd : t ::: Type -> {Lt : t -> t -> bool, Le : t -> t -> bool} -> ord t (** Character operations *) val isalnum : char -> bool val isalpha : char -> bool val isblank : char -> bool val iscntrl : char -> bool val isdigit : char -> bool val isgraph : char -> bool val islower : char -> bool val isprint : char -> bool val ispunct : char -> bool val isspace : char -> bool val isupper : char -> bool val isxdigit : char -> bool val tolower : char -> char val toupper : char -> char val ord : char -> int val chr : int -> char (** String operations *) val strlen : string -> int val strlenGe : string -> int -> bool val strcat : string -> string -> string val strsub : string -> int -> char val strsuffix : string -> int -> string val strchr : string -> char -> option string val strindex : string -> char -> option int val strsindex : string -> string -> option int val strcspn : string -> string -> int val substring : string -> int -> int -> string val str1 : char -> string class show val show : t ::: Type -> show t -> t -> string val show_int : show int val show_float : show float val show_string : show string val show_char : show char val show_bool : show bool val show_time : show time val mkShow : t ::: Type -> (t -> string) -> show t class read val read : t ::: Type -> read t -> string -> option t val readError : t ::: Type -> read t -> string -> t (* [readError] calls [error] if the input is malformed. *) val read_int : read int val read_float : read float val read_string : read string val read_char : read char val read_bool : read bool val read_time : read time val mkRead : t ::: Type -> (string -> t) -> (string -> option t) -> read t (** * Monads *) class monad :: (Type -> Type) -> Type val return : m ::: (Type -> Type) -> t ::: Type -> monad m -> t -> m t val bind : m ::: (Type -> Type) -> t1 ::: Type -> t2 ::: Type -> monad m -> m t1 -> (t1 -> m t2) -> m t2 val mkMonad : m ::: (Type -> Type) -> {Return : t ::: Type -> t -> m t, Bind : t1 ::: Type -> t2 ::: Type -> m t1 -> (t1 -> m t2) -> m t2} -> monad m con transaction :: Type -> Type val transaction_monad : monad transaction con source :: Type -> Type val source : t ::: Type -> t -> transaction (source t) val set : t ::: Type -> source t -> t -> transaction unit val get : t ::: Type -> source t -> transaction t con signal :: Type -> Type val signal_monad : monad signal val signal : t ::: Type -> source t -> signal t val current : t ::: Type -> signal t -> transaction t (** * Floats *) val float : int -> float val ceil : float -> int val trunc : float -> int val round : float -> int (** * Time *) val now : transaction time val minTime : time val addSeconds : time -> int -> time val toSeconds : time -> int val diffInSeconds : time -> time -> int (* Earlier time first *) val toMilliseconds : time -> int val diffInMilliseconds : time -> time -> int val timef : string -> time -> string (* Uses strftime() format string *) val readUtc : string -> option time (* Takes a year, month, day, hour, minute, second. *) val fromDatetime : int -> int -> int -> int -> int -> int -> time val datetimeYear : time -> int val datetimeMonth : time -> int val datetimeDay : time -> int val datetimeHour : time -> int val datetimeMinute: time -> int val datetimeSecond : time -> int val datetimeDayOfWeek : time -> int (** * Encryption *) val crypt : string -> string -> string (** HTTP operations *) con http_cookie :: Type -> Type val getCookie : t ::: Type -> http_cookie t -> transaction (option t) val setCookie : t ::: Type -> http_cookie t -> {Value : t, Expires : option time, Secure : bool} -> transaction unit val clearCookie : t ::: Type -> http_cookie t -> transaction unit type requestHeader val blessRequestHeader : string -> requestHeader val checkRequestHeader : string -> option requestHeader val getHeader : requestHeader -> transaction (option string) type responseHeader val blessResponseHeader : string -> responseHeader val checkResponseHeader : string -> option responseHeader val setHeader : responseHeader -> string -> transaction unit type envVar val blessEnvVar : string -> envVar val checkEnvVar : string -> option envVar val getenv : envVar -> transaction (option string) (** JavaScript-y gadgets *) val alert : string -> transaction unit val confirm : string -> transaction bool val spawn : transaction unit -> transaction unit val sleep : int -> transaction unit val rpc : t ::: Type -> transaction t -> transaction t val tryRpc : t ::: Type -> transaction t -> transaction (option t) (* Returns [None] on error condition. *) (** Channels *) con channel :: Type -> Type val channel : t ::: Type -> transaction (channel t) val send : t ::: Type -> channel t -> t -> transaction unit val recv : t ::: Type -> channel t -> transaction t type client val self : transaction client (** SQL *) con sql_table :: {Type} -> {{Unit}} -> Type con sql_view :: {Type} -> Type class fieldsOf :: Type -> {Type} -> Type val fieldsOf_table : fs ::: {Type} -> keys ::: {{Unit}} -> fieldsOf (sql_table fs keys) fs val fieldsOf_view : fs ::: {Type} -> fieldsOf (sql_view fs) fs (*** Constraints *) (**** Primary keys *) class sql_injectable_prim val sql_bool : sql_injectable_prim bool val sql_int : sql_injectable_prim int val sql_float : sql_injectable_prim float val sql_string : sql_injectable_prim string val sql_char : sql_injectable_prim char val sql_time : sql_injectable_prim time val sql_blob : sql_injectable_prim blob val sql_channel : t ::: Type -> sql_injectable_prim (channel t) val sql_client : sql_injectable_prim client con serialized :: Type -> Type val serialize : t ::: Type -> t -> serialized t val deserialize : t ::: Type -> serialized t -> t val sql_serialized : t ::: Type -> sql_injectable_prim (serialized t) con primary_key :: {Type} -> {{Unit}} -> Type val no_primary_key : fs ::: {Type} -> primary_key fs [] val primary_key : rest ::: {Type} -> t ::: Type -> key1 :: Name -> keys :: {Type} -> [[key1] ~ keys] => [[key1 = t] ++ keys ~ rest] => $([key1 = sql_injectable_prim t] ++ map sql_injectable_prim keys) -> primary_key ([key1 = t] ++ keys ++ rest) [Pkey = [key1] ++ map (fn _ => ()) keys] (**** Other constraints *) con sql_constraints :: {Type} -> {{Unit}} -> Type (* Arguments: column types, uniqueness implications of constraints *) con sql_constraint :: {Type} -> {Unit} -> Type val no_constraint : fs ::: {Type} -> sql_constraints fs [] val one_constraint : fs ::: {Type} -> unique ::: {Unit} -> name :: Name -> sql_constraint fs unique -> sql_constraints fs [name = unique] val join_constraints : fs ::: {Type} -> uniques1 ::: {{Unit}} -> uniques2 ::: {{Unit}} -> [uniques1 ~ uniques2] => sql_constraints fs uniques1 -> sql_constraints fs uniques2 -> sql_constraints fs (uniques1 ++ uniques2) val unique : rest ::: {Type} -> t ::: Type -> unique1 :: Name -> unique :: {Type} -> [[unique1] ~ unique] => [[unique1 = t] ++ unique ~ rest] => sql_constraint ([unique1 = t] ++ unique ++ rest) ([unique1] ++ map (fn _ => ()) unique) class linkable :: Type -> Type -> Type val linkable_same : t ::: Type -> linkable t t val linkable_from_nullable : t ::: Type -> linkable (option t) t val linkable_to_nullable : t ::: Type -> linkable t (option t) con matching :: {Type} -> {Type} -> Type val mat_nil : matching [] [] val mat_cons : t1 ::: Type -> rest1 ::: {Type} -> t2 ::: Type -> rest2 ::: {Type} -> nm1 :: Name -> nm2 :: Name -> [[nm1] ~ rest1] => [[nm2] ~ rest2] => linkable t1 t2 -> matching rest1 rest2 -> matching ([nm1 = t1] ++ rest1) ([nm2 = t2] ++ rest2) con propagation_mode :: {Type} -> Type val restrict : fs ::: {Type} -> propagation_mode fs val cascade : fs ::: {Type} -> propagation_mode fs val no_action : fs ::: {Type} -> propagation_mode fs val set_null : fs ::: {Type} -> propagation_mode (map option fs) val foreign_key : mine1 ::: Name -> t ::: Type -> mine ::: {Type} -> munused ::: {Type} -> foreign ::: {Type} -> funused ::: {Type} -> nm ::: Name -> uniques ::: {{Unit}} -> [[mine1] ~ mine] => [[mine1 = t] ++ mine ~ munused] => [foreign ~ funused] => [[nm] ~ uniques] => matching ([mine1 = t] ++ mine) foreign -> sql_table (foreign ++ funused) ([nm = map (fn _ => ()) foreign] ++ uniques) -> {OnDelete : propagation_mode ([mine1 = t] ++ mine), OnUpdate : propagation_mode ([mine1 = t] ++ mine)} -> sql_constraint ([mine1 = t] ++ mine ++ munused) [] con sql_exp :: {{Type}} -> {{Type}} -> {Type} -> Type -> Type val sql_exp_weaken : fs ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> fs' ::: {{Type}} -> agg' ::: {{Type}} -> exps' ::: {Type} -> [fs ~ fs'] => [agg ~ agg'] => [exps ~ exps'] => sql_exp fs agg exps t -> sql_exp (fs ++ fs') (agg ++ agg') (exps ++ exps') t val check : fs ::: {Type} -> sql_exp [] [] fs bool -> sql_constraint fs [] (*** Queries *) con sql_query :: {{Type}} -> {{Type}} -> {{Type}} -> {Type} -> Type con sql_query1 :: {{Type}} -> {{Type}} -> {{Type}} -> {{Type}} -> {Type} -> Type con sql_subset :: {{Type}} -> {{Type}} -> Type val sql_subset : keep_drop :: {({Type} * {Type})} -> sql_subset (map (fn fields :: ({Type} * {Type}) => fields.1 ++ fields.2) keep_drop) (map (fn fields :: ({Type} * {Type}) => fields.1) keep_drop) val sql_subset_all : tables :: {{Type}} -> sql_subset tables tables val sql_subset_concat : big1 ::: {{Type}} -> little1 ::: {{Type}} -> big2 ::: {{Type}} -> little2 ::: {{Type}} -> [big1 ~ big2] => [little1 ~ little2] => sql_subset big1 little1 -> sql_subset big2 little2 -> sql_subset (big1 ++ big2) (little1 ++ little2) con sql_from_items :: {{Type}} -> {{Type}} -> Type val sql_from_nil : free ::: {{Type}} -> sql_from_items free [] val sql_from_table : free ::: {{Type}} -> t ::: Type -> fs ::: {Type} -> fieldsOf t fs -> name :: Name -> t -> sql_from_items free [name = fs] val sql_from_query : free ::: {{Type}} -> fs ::: {Type} -> name :: Name -> sql_query free [] [] fs -> sql_from_items free [name = fs] val sql_from_comma : free ::: {{Type}} -> tabs1 ::: {{Type}} -> tabs2 ::: {{Type}} -> [tabs1 ~ tabs2] => sql_from_items free tabs1 -> sql_from_items free tabs2 -> sql_from_items free (tabs1 ++ tabs2) val sql_inner_join : free ::: {{Type}} -> tabs1 ::: {{Type}} -> tabs2 ::: {{Type}} -> [free ~ tabs1] => [free ~ tabs2] => [tabs1 ~ tabs2] => sql_from_items free tabs1 -> sql_from_items free tabs2 -> sql_exp (free ++ tabs1 ++ tabs2) [] [] bool -> sql_from_items free (tabs1 ++ tabs2) class nullify :: Type -> Type -> Type val nullify_option : t ::: Type -> nullify (option t) (option t) val nullify_prim : t ::: Type -> sql_injectable_prim t -> nullify t (option t) val sql_left_join : free ::: {{Type}} -> tabs1 ::: {{Type}} -> tabs2 ::: {{(Type * Type)}} -> [free ~ tabs1] => [free ~ tabs2] => [tabs1 ~ tabs2] => $(map (fn r => $(map (fn p :: (Type * Type) => nullify p.1 p.2) r)) tabs2) -> sql_from_items free tabs1 -> sql_from_items free (map (map (fn p :: (Type * Type) => p.1)) tabs2) -> sql_exp (free ++ tabs1 ++ map (map (fn p :: (Type * Type) => p.1)) tabs2) [] [] bool -> sql_from_items free (tabs1 ++ map (map (fn p :: (Type * Type) => p.2)) tabs2) val sql_right_join : free ::: {{Type}} -> tabs1 ::: {{(Type * Type)}} -> tabs2 ::: {{Type}} -> [free ~ tabs1] => [free ~ tabs2] => [tabs1 ~ tabs2] => $(map (fn r => $(map (fn p :: (Type * Type) => nullify p.1 p.2) r)) tabs1) -> sql_from_items free (map (map (fn p :: (Type * Type) => p.1)) tabs1) -> sql_from_items free tabs2 -> sql_exp (free ++ map (map (fn p :: (Type * Type) => p.1)) tabs1 ++ tabs2) [] [] bool -> sql_from_items free (map (map (fn p :: (Type * Type) => p.2)) tabs1 ++ tabs2) val sql_full_join : free ::: {{Type}} -> tabs1 ::: {{(Type * Type)}} -> tabs2 ::: {{(Type * Type)}} -> [free ~ tabs1] => [free ~ tabs2] => [tabs1 ~ tabs2] => $(map (fn r => $(map (fn p :: (Type * Type) => nullify p.1 p.2) r)) (tabs1 ++ tabs2)) -> sql_from_items free (map (map (fn p :: (Type * Type) => p.1)) tabs1) -> sql_from_items free (map (map (fn p :: (Type * Type) => p.1)) tabs2) -> sql_exp (free ++ map (map (fn p :: (Type * Type) => p.1)) (tabs1 ++ tabs2)) [] [] bool -> sql_from_items free (map (map (fn p :: (Type * Type) => p.2)) (tabs1 ++ tabs2)) (** [ORDER BY] and [SELECT] expressions may use window functions, so we introduce a type family for such expressions. *) con sql_expw :: {{Type}} -> {{Type}} -> {Type} -> Type -> Type val sql_query1 : free ::: {{Type}} -> afree ::: {{Type}} -> tables ::: {{Type}} -> grouped ::: {{Type}} -> selectedFields ::: {{Type}} -> selectedExps ::: {Type} -> empties :: {Unit} -> [free ~ tables] => [free ~ grouped] => [afree ~ tables] => [empties ~ selectedFields] => {Distinct : bool, From : sql_from_items free tables, Where : sql_exp (free ++ tables) afree [] bool, GroupBy : sql_subset tables grouped, Having : sql_exp (free ++ grouped) (afree ++ tables) [] bool, SelectFields : sql_subset grouped (map (fn _ => []) empties ++ selectedFields), SelectExps : $(map (sql_expw (free ++ grouped) (afree ++ tables) []) selectedExps) } -> sql_query1 free afree tables selectedFields selectedExps type sql_relop val sql_union : sql_relop val sql_intersect : sql_relop val sql_except : sql_relop val sql_relop : free ::: {{Type}} -> afree ::: {{Type}} -> tables1 ::: {{Type}} -> tables2 ::: {{Type}} -> selectedFields ::: {{Type}} -> selectedExps ::: {Type} -> sql_relop -> bool (* ALL *) -> sql_query1 free afree tables1 selectedFields selectedExps -> sql_query1 free afree tables2 selectedFields selectedExps -> sql_query1 free afree [] selectedFields selectedExps val sql_forget_tables : free ::: {{Type}} -> afree ::: {{Type}} -> tables ::: {{Type}} -> selectedFields ::: {{Type}} -> selectedExps ::: {Type} -> sql_query1 free afree tables selectedFields selectedExps -> sql_query1 free afree [] selectedFields selectedExps type sql_direction val sql_asc : sql_direction val sql_desc : sql_direction (** This type class supports automatic injection of either regular or window expressions into [sql_expw]. *) class sql_window :: ({{Type}} -> {{Type}} -> {Type} -> Type -> Type) -> Type val sql_window_normal : sql_window sql_exp val sql_window_fancy : sql_window sql_expw val sql_window : tf ::: ({{Type}} -> {{Type}} -> {Type} -> Type -> Type) -> tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_window tf -> tf tables agg exps t -> sql_expw tables agg exps t con sql_order_by :: {{Type}} -> {Type} -> Type val sql_order_by_Nil : tables ::: {{Type}} -> exps :: {Type} -> sql_order_by tables exps val sql_order_by_Cons : tf ::: ({{Type}} -> {{Type}} -> {Type} -> Type -> Type) -> tables ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_window tf -> tf tables [] exps t -> sql_direction -> sql_order_by tables exps -> sql_order_by tables exps val sql_order_by_random : tables ::: {{Type}} -> exps ::: {Type} -> sql_order_by tables exps type sql_limit val sql_no_limit : sql_limit val sql_limit : int -> sql_limit type sql_offset val sql_no_offset : sql_offset val sql_offset : int -> sql_offset val sql_query : free ::: {{Type}} -> afree ::: {{Type}} -> tables ::: {{Type}} -> selectedFields ::: {{Type}} -> selectedExps ::: {Type} -> [free ~ tables] => {Rows : sql_query1 free afree tables selectedFields selectedExps, OrderBy : sql_order_by (free ++ tables) selectedExps, Limit : sql_limit, Offset : sql_offset} -> sql_query free afree selectedFields selectedExps val sql_field : otherTabs ::: {{Type}} -> otherFields ::: {Type} -> fieldType ::: Type -> agg ::: {{Type}} -> exps ::: {Type} -> tab :: Name -> field :: Name -> sql_exp ([tab = [field = fieldType] ++ otherFields] ++ otherTabs) agg exps fieldType val sql_exp : tabs ::: {{Type}} -> agg ::: {{Type}} -> t ::: Type -> rest ::: {Type} -> nm :: Name -> sql_exp tabs agg ([nm = t] ++ rest) t class sql_injectable val sql_prim : t ::: Type -> sql_injectable_prim t -> sql_injectable t val sql_option_prim : t ::: Type -> sql_injectable_prim t -> sql_injectable (option t) val sql_inject : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_injectable t -> t -> sql_exp tables agg exps t val sql_is_null : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_exp tables agg exps (option t) -> sql_exp tables agg exps bool val sql_coalesce : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_exp tables agg exps (option t) -> sql_exp tables agg exps t -> sql_exp tables agg exps t val sql_if_then_else : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_exp tables agg exps bool -> sql_exp tables agg exps t -> sql_exp tables agg exps t -> sql_exp tables agg exps t class sql_arith val sql_arith_int : sql_arith int val sql_arith_float : sql_arith float val sql_arith_option : t ::: Type -> sql_arith t -> sql_arith (option t) con sql_unary :: Type -> Type -> Type val sql_not : sql_unary bool bool val sql_unary : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> arg ::: Type -> res ::: Type -> sql_unary arg res -> sql_exp tables agg exps arg -> sql_exp tables agg exps res val sql_neg : t ::: Type -> sql_arith t -> sql_unary t t con sql_binary :: Type -> Type -> Type -> Type val sql_and : sql_binary bool bool bool val sql_or : sql_binary bool bool bool val sql_binary : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> arg1 ::: Type -> arg2 ::: Type -> res ::: Type -> sql_binary arg1 arg2 res -> sql_exp tables agg exps arg1 -> sql_exp tables agg exps arg2 -> sql_exp tables agg exps res val sql_plus : t ::: Type -> sql_arith t -> sql_binary t t t val sql_minus : t ::: Type -> sql_arith t -> sql_binary t t t val sql_times : t ::: Type -> sql_arith t -> sql_binary t t t val sql_div : t ::: Type -> sql_arith t -> sql_binary t t t val sql_mod : sql_binary int int int val sql_eq : t ::: Type -> sql_binary t t bool val sql_ne : t ::: Type -> sql_binary t t bool val sql_lt : t ::: Type -> sql_binary t t bool val sql_le : t ::: Type -> sql_binary t t bool val sql_gt : t ::: Type -> sql_binary t t bool val sql_ge : t ::: Type -> sql_binary t t bool val sql_like : sql_binary string string bool val sql_count : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> sql_exp tables agg exps int con sql_aggregate :: Type -> Type -> Type val sql_aggregate : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> dom ::: Type -> ran ::: Type -> sql_aggregate dom ran -> sql_exp agg agg exps dom -> sql_exp tables agg exps ran val sql_count_col : t ::: Type -> sql_aggregate (option t) int class sql_summable val sql_summable_int : sql_summable int val sql_summable_float : sql_summable float val sql_summable_option : t ::: Type -> sql_summable t -> sql_summable (option t) val sql_avg : t ::: Type -> sql_summable t -> sql_aggregate t (option float) val sql_sum : t ::: Type -> nt ::: Type -> sql_summable t -> nullify t nt -> sql_aggregate t nt class sql_maxable val sql_maxable_int : sql_maxable int val sql_maxable_float : sql_maxable float val sql_maxable_string : sql_maxable string val sql_maxable_time : sql_maxable time val sql_maxable_option : t ::: Type -> sql_maxable t -> sql_maxable (option t) val sql_max : t ::: Type -> nt ::: Type -> sql_maxable t -> nullify t nt -> sql_aggregate t nt val sql_min : t ::: Type -> nt ::: Type -> sql_maxable t -> nullify t nt -> sql_aggregate t nt con sql_nfunc :: Type -> Type val sql_nfunc : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_nfunc t -> sql_exp tables agg exps t val sql_current_timestamp : sql_nfunc time con sql_ufunc :: Type -> Type -> Type val sql_ufunc : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> dom ::: Type -> ran ::: Type -> sql_ufunc dom ran -> sql_exp tables agg exps dom -> sql_exp tables agg exps ran val sql_octet_length : sql_ufunc blob int val sql_known : t ::: Type -> sql_ufunc t bool val sql_lower : sql_ufunc string string val sql_upper : sql_ufunc string string val sql_nullable : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_injectable_prim t -> sql_exp tables agg exps t -> sql_exp tables agg exps (option t) val sql_subquery : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> nm ::: Name -> t ::: Type -> nt ::: Type -> nullify t nt -> sql_query tables agg [] [nm = t] -> sql_exp tables agg exps nt (** Window function expressions *) con sql_partition :: {{Type}} -> {{Type}} -> {Type} -> Type val sql_no_partition : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> sql_partition tables agg exps val sql_partition : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_exp tables agg exps t -> sql_partition tables agg exps con sql_window_function :: {{Type}} -> {{Type}} -> {Type} -> Type -> Type val sql_window_function : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_window_function tables agg exps t -> sql_partition tables agg exps -> sql_order_by tables exps -> sql_expw tables agg exps t val sql_window_aggregate : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> nt ::: Type -> sql_aggregate t nt -> sql_exp tables agg exps t -> sql_window_function tables agg exps nt val sql_window_count : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> sql_window_function tables agg exps int val sql_rank : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> sql_window_function tables agg exps int (*** Executing queries *) val query : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => state ::: Type -> sql_query [] [] tables exps -> ($(exps ++ map (fn fields :: {Type} => $fields) tables) -> state -> transaction state) -> state -> transaction state val show_sql_query : freeTables ::: {{Type}} -> freeAggs ::: {{Type}} -> tables ::: {{Type}} -> exps ::: {Type} -> show (sql_query freeTables freeAggs tables exps) (*** Database mutators *) type dml val dml : dml -> transaction unit val tryDml : dml -> transaction (option string) (* Returns an error message on failure. *) val insert : fields ::: {Type} -> uniques ::: {{Unit}} -> sql_table fields uniques -> $(map (fn t :: Type => sql_exp [] [] [] t) fields) -> dml val update : unchanged ::: {Type} -> uniques ::: {{Unit}} -> changed :: {Type} -> [changed ~ unchanged] => $(map (fn t :: Type => sql_exp [T = changed ++ unchanged] [] [] t) changed) -> sql_table (changed ++ unchanged) uniques -> sql_exp [T = changed ++ unchanged] [] [] bool -> dml val delete : fields ::: {Type} -> uniques ::: {{Unit}} -> sql_table fields uniques -> sql_exp [T = fields] [] [] bool -> dml (*** Sequences *) type sql_sequence val nextval : sql_sequence -> transaction int val setval : sql_sequence -> int -> transaction unit (** XML *) type css_class val show_css_class : show css_class val null : css_class (* No special formatting *) val classes : css_class -> css_class -> css_class (* The equivalent of writing one class after the other, separated by a space, in * an HTML 'class' attribute *) type css_value val atom : string -> css_value type url val css_url : url -> css_value val sql_url : sql_injectable_prim url type css_property val property : string -> css_property val value : css_property -> css_value -> css_property type css_style val noStyle : css_style val oneProperty : css_style -> css_property -> css_style con tag :: {Type} -> {Unit} -> {Unit} -> {Type} -> {Type} -> Type con xml :: {Unit} -> {Type} -> {Type} -> Type val cdata : ctx ::: {Unit} -> use ::: {Type} -> string -> xml ctx use [] val cdataChar : ctx ::: {Unit} -> use ::: {Type} -> char -> xml ctx use [] val tag : attrsGiven ::: {Type} -> attrsAbsent ::: {Type} -> ctxOuter ::: {Unit} -> ctxInner ::: {Unit} -> useOuter ::: {Type} -> useInner ::: {Type} -> bindOuter ::: {Type} -> bindInner ::: {Type} -> [attrsGiven ~ attrsAbsent] => [useOuter ~ useInner] => [bindOuter ~ bindInner] => css_class -> option (signal css_class) -> css_style -> option (signal css_style) -> $attrsGiven -> tag (attrsGiven ++ attrsAbsent) ctxOuter ctxInner useOuter bindOuter -> xml ctxInner useInner bindInner -> xml ctxOuter (useOuter ++ useInner) (bindOuter ++ bindInner) val join : ctx ::: {Unit} -> use1 ::: {Type} -> bind1 ::: {Type} -> bind2 ::: {Type} -> [use1 ~ bind1] => [bind1 ~ bind2] => xml ctx use1 bind1 -> xml ctx (use1 ++ bind1) bind2 -> xml ctx use1 (bind1 ++ bind2) val useMore : ctx ::: {Unit} -> use1 ::: {Type} -> use2 ::: {Type} -> bind ::: {Type} -> [use1 ~ use2] => xml ctx use1 bind -> xml ctx (use1 ++ use2) bind con html = [Html] con head = [Head] con body' = [MakeForm, Body] con form' = [Body, Form] con subform' = [Body, Subform] con tabl' = [MakeForm, Table] con tr' = [MakeForm, Tr] con body = [Dyn] ++ body' con form = [Dyn] ++ form' con subform = [Dyn] ++ subform' con tabl = [Dyn] ++ tabl' con tr = [Dyn] ++ tr' con xhtml = xml html con page = xhtml [] [] con xbody = xml body [] [] con xhead = xml head [] [] con xtable = xml tabl [] [] con xtr = xml tr [] [] con xform = xml form [] [] (*** HTML details *) type queryString val show_queryString : show queryString val show_url : show url val bless : string -> url val checkUrl : string -> option url val currentUrl : transaction url val currentUrlHasPost : transaction bool val currentUrlHasQueryString : transaction bool val url : transaction page -> url val effectfulUrl : (option queryString -> transaction page) -> url val redirect : t ::: Type -> url -> transaction t type id val fresh : transaction id val giveFocus : id -> transaction unit val show_id : show id val dyn : ctx ::: {Unit} -> use ::: {Type} -> bind ::: {Type} -> [ctx ~ [Dyn]] => unit -> tag [Signal = signal (xml ([Dyn] ++ ctx) use bind)] ([Dyn] ++ ctx) [] use bind val active : unit -> tag [Code = transaction xbody] body [] [] [] val script : unit -> tag [Code = transaction unit] head [] [] [] (* Type for HTML5 "data-*" and "aria-*" attributes. *) type data_attr_kind val data_kind : data_attr_kind val aria_kind : data_attr_kind type data_attr val data_attr : data_attr_kind -> string (* Key *) -> string (* Value *) -> data_attr (* This function will fail if the key doesn't meet HTML's lexical rules! *) val data_attrs : data_attr -> data_attr -> data_attr val head : unit -> tag [Data = data_attr] html head [] [] val title : unit -> tag [Data = data_attr] head [] [] [] val link : unit -> tag [Data = data_attr, Id = id, Rel = string, Typ = string, Href = url, Media = string] head [] [] [] val body : unit -> tag [Data = data_attr, Onload = transaction unit, Onresize = transaction unit, Onunload = transaction unit, Onhashchange = transaction unit] html body [] [] con bodyTag = fn (attrs :: {Type}) => ctx ::: {Unit} -> [[Body] ~ ctx] => unit -> tag attrs ([Body] ++ ctx) ([Body] ++ ctx) [] [] con bodyTagStandalone = fn (attrs :: {Type}) => ctx ::: {Unit} -> [[Body] ~ ctx] => unit -> tag attrs ([Body] ++ ctx) [] [] [] val br : bodyTagStandalone [Data = data_attr, Id = id] con focusEvents = [Onblur = transaction unit, Onfocus = transaction unit] datatype mouseButton = Left | Right | Middle type mouseEvent = { ScreenX : int, ScreenY : int, ClientX : int, ClientY : int, CtrlKey : bool, ShiftKey : bool, AltKey : bool, MetaKey : bool, Button : mouseButton } con mouseEvents = map (fn _ :: Unit => mouseEvent -> transaction unit) [Onclick, Ondblclick, Onmousedown, Onmousemove, Onmouseout, Onmouseover, Onmouseup] type keyEvent = { KeyCode : int, CtrlKey : bool, ShiftKey : bool, AltKey : bool, MetaKey : bool } con keyEvents = map (fn _ :: Unit => keyEvent -> transaction unit) [Onkeydown, Onkeypress, Onkeyup] (* Key arguments are character codes. *) con resizeEvents = [Onresize = transaction unit] con scrollEvents = [Onscroll = transaction unit] con boxEvents = focusEvents ++ mouseEvents ++ keyEvents ++ resizeEvents ++ scrollEvents con tableEvents = focusEvents ++ mouseEvents ++ keyEvents con boxAttrs = [Data = data_attr, Id = id, Title = string, Role = string] ++ boxEvents con tableAttrs = [Data = data_attr, Id = id, Title = string] ++ tableEvents val span : bodyTag boxAttrs val div : bodyTag boxAttrs val p : bodyTag boxAttrs val strong : bodyTag boxAttrs val em : bodyTag boxAttrs val b : bodyTag boxAttrs val i : bodyTag boxAttrs val tt : bodyTag boxAttrs val sub : bodyTag boxAttrs val sup : bodyTag boxAttrs val h1 : bodyTag boxAttrs val h2 : bodyTag boxAttrs val h3 : bodyTag boxAttrs val h4 : bodyTag boxAttrs val h5 : bodyTag boxAttrs val h6 : bodyTag boxAttrs val li : bodyTag boxAttrs val ol : bodyTag boxAttrs val ul : bodyTag boxAttrs val hr : bodyTag boxAttrs val pre : bodyTag boxAttrs (** sections **) val section : bodyTag boxAttrs val article : bodyTag boxAttrs val nav : bodyTag boxAttrs val aside : bodyTag boxAttrs val footer : bodyTag boxAttrs val header : bodyTag boxAttrs val main : bodyTag boxAttrs (** forms **) val meter : bodyTag boxAttrs val progress : bodyTag boxAttrs val output : bodyTag boxAttrs val keygen : bodyTag boxAttrs val datalist : bodyTag boxAttrs (** Interactive Elements **) val details : bodyTag boxAttrs val dialog : bodyTag boxAttrs val menuitem : bodyTag boxAttrs (** Grouping Content **) val figure : bodyTag boxAttrs val figcaption : bodyTag boxAttrs (** Text Level Semantics **) val data : bodyTag boxAttrs val mark : bodyTag boxAttrs val rp : bodyTag boxAttrs val rt : bodyTag boxAttrs val ruby : bodyTag boxAttrs val summary : bodyTag boxAttrs val time : bodyTag boxAttrs val wbr : bodyTag boxAttrs val bdi : bodyTag boxAttrs val a : bodyTag ([Link = transaction page, Href = url, Target = string, Rel = string] ++ boxAttrs) val img : bodyTag ([Alt = string, Src = url, Width = int, Height = int, Onabort = transaction unit, Onerror = transaction unit, Onload = transaction unit] ++ boxAttrs) val form : ctx ::: {Unit} -> bind ::: {Type} -> [[MakeForm, Form] ~ ctx] => option css_class -> xml ([Form] ++ ctx) [] bind -> xml ([MakeForm] ++ ctx) [] [] val subform : ctx ::: {Unit} -> use ::: {Type} -> bind ::: {Type} -> [[Form] ~ ctx] => nm :: Name -> [[nm] ~ use] => xml ([Form] ++ ctx) [] bind -> xml ([Form] ++ ctx) use [nm = $bind] val subforms : ctx ::: {Unit} -> use ::: {Type} -> bind ::: {Type} -> [[Form, Subform] ~ ctx] => nm :: Name -> [[nm] ~ use] => xml ([Subform] ++ ctx) [Entry = $bind] [] -> xml ([Form] ++ ctx) use [nm = list ($bind)] val entry : ctx ::: {Unit} -> bind ::: {Type} -> [[Subform, Form] ~ ctx] => xml ([Form] ++ ctx) [] bind -> xml ([Subform] ++ ctx) [Entry = $bind] [] con formTag = fn (ty :: Type) (inner :: {Unit}) (attrs :: {Type}) => ctx ::: {Unit} -> [[Form] ~ ctx] => nm :: Name -> unit -> tag attrs ([Form] ++ ctx) inner [] [nm = ty] con inputAttrs = [Required = bool, Autofocus = bool] val hidden : formTag string [] [Data = data_attr, Id = string, Value = string] val textbox : formTag string [] ([Value = string, Size = int, Placeholder = string, Source = source string, Onchange = transaction unit, Ontext = transaction unit] ++ boxAttrs ++ inputAttrs) val password : formTag string [] ([Value = string, Size = int, Placeholder = string, Onchange = transaction unit] ++ boxAttrs ++ inputAttrs) val textarea : formTag string [] ([Rows = int, Cols = int, Onchange = transaction unit, Ontext = transaction unit] ++ boxAttrs ++ inputAttrs) val checkbox : formTag bool [] ([Checked = bool, Onchange = transaction unit] ++ boxAttrs) (* HTML5 widgets galore! *) type textWidget = formTag string [] ([Value = string, Size = int, Placeholder = string, Onchange = transaction unit] ++ boxAttrs ++ inputAttrs) val email : textWidget val search : textWidget val url_ : textWidget val tel : textWidget type file val fileName : file -> option string val fileMimeType : file -> string val fileData : file -> blob val upload : formTag file [] ([Value = string, Size = int] ++ boxAttrs) type mimeType val blessMime : string -> mimeType val checkMime : string -> option mimeType val returnBlob : t ::: Type -> blob -> mimeType -> transaction t val blobSize : blob -> int val textBlob : string -> blob type postBody val postType : postBody -> string val postData : postBody -> string type postField val firstFormField : string -> option postField val fieldName : postField -> string val fieldValue : postField -> string val remainingFields : postField -> string con radio = [Body, Radio] val radio : formTag (option string) radio [Data = data_attr, Id = id] val radioOption : unit -> tag ([Value = string, Checked = bool] ++ boxAttrs) radio [] [] [] con select = [Select] val select : formTag string select ([Onchange = transaction unit] ++ boxAttrs) val option : unit -> tag [Data = data_attr, Value = string, Selected = bool] select [] [] [] val submit : ctx ::: {Unit} -> use ::: {Type} -> [[Form] ~ ctx] => unit -> tag ([Value = string, Action = $use -> transaction page] ++ boxAttrs) ([Form] ++ ctx) ([Form] ++ ctx) use [] val image : ctx ::: {Unit} -> use ::: {Type} -> [[Form] ~ ctx] => unit -> tag ([Src = url, Width = int, Height = int, Alt = string, Action = $use -> transaction page] ++ boxAttrs) ([Form] ++ ctx) ([Form] ++ ctx) use [] val label : bodyTag ([For = id, Accesskey = string] ++ tableAttrs) (*** AJAX-oriented widgets *) con cformTag = fn (attrs :: {Type}) (inner :: {Unit}) => ctx ::: {Unit} -> [[Body] ~ ctx] => [[Body] ~ inner] => unit -> tag attrs ([Body] ++ ctx) ([Body] ++ inner) [] [] val ctextbox : cformTag ([Value = string, Size = int, Source = source string, Placeholder = string, Onchange = transaction unit, Ontext = transaction unit] ++ boxAttrs ++ inputAttrs) [] val cpassword : cformTag ([Value = string, Size = int, Source = source string, Placeholder = string, Onchange = transaction unit, Ontext = transaction unit] ++ boxAttrs ++ inputAttrs) [] val button : cformTag ([Value = string] ++ boxAttrs) [] val ccheckbox : cformTag ([Value = bool, Size = int, Source = source bool, Onchange = transaction unit] ++ boxAttrs ++ inputAttrs) [] val cselect : cformTag ([Source = source string, Onchange = transaction unit] ++ boxAttrs) [Cselect] val coption : unit -> tag [Value = string, Selected = bool] [Cselect, Body] [] [] [] val ctextarea : cformTag ([Value = string, Rows = int, Cols = int, Source = source string, Onchange = transaction unit, Ontext = transaction unit] ++ boxAttrs ++ inputAttrs) [] (*** Tables *) val tabl : other ::: {Unit} -> [other ~ [Body, Table]] => unit -> tag ([Border = int] ++ boxAttrs) ([Body] ++ other) ([Table] ++ other) [] [] val tr : other ::: {Unit} -> [other ~ [Table, Tr]] => unit -> tag tableAttrs ([Table] ++ other) ([Tr] ++ other) [] [] val th : other ::: {Unit} -> [other ~ [Body, Tr]] => unit -> tag ([Colspan = int, Rowspan = int] ++ tableAttrs) ([Tr] ++ other) ([Body] ++ other) [] [] val td : other ::: {Unit} -> [other ~ [Body, Tr]] => unit -> tag ([Colspan = int, Rowspan = int] ++ tableAttrs) ([Tr] ++ other) ([Body] ++ other) [] [] val thead : other ::: {Unit} -> [other ~ [Table]] => unit -> tag tableAttrs ([Table] ++ other) ([Table] ++ other) [] [] val tbody : other ::: {Unit} -> [other ~ [Table]] => unit -> tag tableAttrs ([Table] ++ other) ([Table] ++ other) [] [] val tfoot : other ::: {Unit} -> [other ~ [Table]] => unit -> tag tableAttrs ([Table] ++ other) ([Table] ++ other) [] [] (** Definition lists *) val dl : other ::: {Unit} -> [other ~ [Body,Dl]] => unit -> tag [Data = data_attr] ([Body] ++ other) ([Dl] ++ other) [] [] val dt : other ::: {Unit} -> [other ~ [Body,Dl]] => unit -> tag [Data = data_attr] ([Dl] ++ other) ([Body] ++ other) [] [] val dd : other ::: {Unit} -> [other ~ [Body,Dl]] => unit -> tag [Data = data_attr] ([Dl] ++ other) ([Body] ++ other) [] [] (** Aborting *) val error : t ::: Type -> xbody -> t (* Client-side-only handlers: *) val onError : (xbody -> transaction unit) -> transaction unit val onFail : (string -> transaction unit) -> transaction unit val onConnectFail : transaction unit -> transaction unit val onDisconnect : transaction unit -> transaction unit val onServerError : (string -> transaction unit) -> transaction unit (* More standard document-level JavaScript handlers *) val onClick : (mouseEvent -> transaction unit) -> transaction unit val onDblclick : (mouseEvent -> transaction unit) -> transaction unit val onKeydown : (keyEvent -> transaction unit) -> transaction unit val onKeypress : (keyEvent -> transaction unit) -> transaction unit val onKeyup : (keyEvent -> transaction unit) -> transaction unit val onMousedown : (mouseEvent -> transaction unit) -> transaction unit val onMousemove : (mouseEvent -> transaction unit) -> transaction unit val onMouseout : (mouseEvent -> transaction unit) -> transaction unit val onMouseover : (mouseEvent -> transaction unit) -> transaction unit val onMouseup : (mouseEvent -> transaction unit) -> transaction unit (* Prevents default handling of current event *) val preventDefault : transaction unit (* Stops propagation of current event *) val stopPropagation : transaction unit val show_xml : ctx ::: {Unit} -> use ::: {Type} -> bind ::: {Type} -> show (xml ctx use bind) (** Tasks *) con task_kind :: Type -> Type val initialize : task_kind unit val clientLeaves : task_kind client val periodic : int -> task_kind unit (** Information flow security *) type sql_policy val sendClient : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> sql_policy val sendOwnIds : sql_sequence -> sql_policy val mayInsert : fs ::: {Type} -> tables ::: {{Type}} -> [[New] ~ tables] => sql_query [] [] ([New = fs] ++ tables) [] -> sql_policy val mayDelete : fs ::: {Type} -> tables ::: {{Type}} -> [[Old] ~ tables] => sql_query [] [] ([Old = fs] ++ tables) [] -> sql_policy val mayUpdate : fs ::: {Type} -> tables ::: {{Type}} -> [[Old, New] ~ tables] => sql_query [] [] ([Old = fs, New = fs] ++ tables) [] -> sql_policy val also : sql_policy -> sql_policy -> sql_policy val debug : string -> transaction unit val naughtyDebug : string -> int val rand : transaction int