adam@1732: (* Copyright (c) 2008-2010, 2012, Adam Chlipala adamc@2: * All rights reserved. adamc@2: * adamc@2: * Redistribution and use in source and binary forms, with or without adamc@2: * modification, are permitted provided that the following conditions are met: adamc@2: * adamc@2: * - Redistributions of source code must retain the above copyright notice, adamc@2: * this list of conditions and the following disclaimer. adamc@2: * - Redistributions in binary form must reproduce the above copyright notice, adamc@2: * this list of conditions and the following disclaimer in the documentation adamc@2: * and/or other materials provided with the distribution. adamc@2: * - The names of contributors may not be used to endorse or promote products adamc@2: * derived from this software without specific prior written permission. adamc@2: * adamc@2: * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" adamc@2: * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE adamc@2: * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE adamc@2: * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE adamc@2: * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR adamc@2: * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF adamc@2: * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS adamc@2: * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN adamc@2: * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) adamc@2: * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE adamc@2: * POSSIBILITY OF SUCH DAMAGE. adamc@2: *) adamc@2: adamc@2: signature ELAB_UTIL = sig adamc@2: adamc@198: val classifyDatatype : (string * int * 'a option) list -> Elab.datatype_kind adamc@188: adam@1303: val mliftConInCon : (int -> Elab.con -> Elab.con) ref adam@1303: adamc@2: structure Kind : sig adamc@623: val mapfoldB : {kind : ('context, Elab.kind', 'state, 'abort) Search.mapfolderB, adamc@623: bind : 'context * string -> 'context} adamc@623: -> ('context, Elab.kind, 'state, 'abort) Search.mapfolderB adamc@6: val mapfold : (Elab.kind', 'state, 'abort) Search.mapfolder adamc@2: -> (Elab.kind, 'state, 'abort) Search.mapfolder adamc@2: val exists : (Elab.kind' -> bool) -> Elab.kind -> bool adamc@623: val mapB : {kind : 'context -> Elab.kind' -> Elab.kind', adamc@623: bind : 'context * string -> 'context} adamc@623: -> 'context -> (Elab.kind -> Elab.kind) adamc@2: end adamc@2: adamc@6: structure Con : sig adamc@11: datatype binder = adamc@623: RelK of string adamc@623: | RelC of string * Elab.kind adamc@792: | NamedC of string * int * Elab.kind * Elab.con option adamc@11: adamc@623: val mapfoldB : {kind : ('context, Elab.kind', 'state, 'abort) Search.mapfolderB, adamc@11: con : ('context, Elab.con', 'state, 'abort) Search.mapfolderB, adamc@11: bind : 'context * binder -> 'context} adamc@11: -> ('context, Elab.con, 'state, 'abort) Search.mapfolderB adamc@6: val mapfold : {kind : (Elab.kind', 'state, 'abort) Search.mapfolder, adamc@10: con : (Elab.con', 'state, 'abort) Search.mapfolder} adamc@6: -> (Elab.con, 'state, 'abort) Search.mapfolder adamc@11: adamc@623: val mapB : {kind : 'context -> Elab.kind' -> Elab.kind', adamc@11: con : 'context -> Elab.con' -> Elab.con', adamc@11: bind : 'context * binder -> 'context} adamc@11: -> 'context -> (Elab.con -> Elab.con) adamc@34: val map : {kind : Elab.kind' -> Elab.kind', adamc@34: con : Elab.con' -> Elab.con'} adamc@34: -> Elab.con -> Elab.con adam@1639: val appB : {kind : 'context -> Elab.kind' -> unit, adam@1639: con : 'context -> Elab.con' -> unit, adam@1639: bind : 'context * binder -> 'context} adam@1639: -> 'context -> (Elab.con -> unit) adam@1639: val app : {kind : Elab.kind' -> unit, adam@1639: con : Elab.con' -> unit} adam@1639: -> Elab.con -> unit adamc@711: val existsB : {kind : 'context * Elab.kind' -> bool, adamc@711: con : 'context * Elab.con' -> bool, adamc@711: bind : 'context * binder -> 'context} adamc@711: -> 'context -> Elab.con -> bool adamc@6: val exists : {kind : Elab.kind' -> bool, adamc@6: con : Elab.con' -> bool} -> Elab.con -> bool adamc@448: adamc@623: val foldB : {kind : 'context * Elab.kind' * 'state -> 'state, adamc@448: con : 'context * Elab.con' * 'state -> 'state, adamc@448: bind : 'context * binder -> 'context} adamc@448: -> 'context -> 'state -> Elab.con -> 'state adamc@839: val fold : {kind : Elab.kind' * 'state -> 'state, adamc@839: con : Elab.con' * 'state -> 'state} adamc@839: -> 'state -> Elab.con -> 'state adamc@6: end adamc@6: adamc@10: structure Exp : sig adamc@11: datatype binder = adamc@623: RelK of string adamc@623: | RelC of string * Elab.kind adamc@792: | NamedC of string * int * Elab.kind * Elab.con option adamc@11: | RelE of string * Elab.con adamc@11: | NamedE of string * Elab.con adamc@11: adamc@623: val mapfoldB : {kind : ('context, Elab.kind', 'state, 'abort) Search.mapfolderB, adamc@11: con : ('context, Elab.con', 'state, 'abort) Search.mapfolderB, adamc@11: exp : ('context, Elab.exp', 'state, 'abort) Search.mapfolderB, adamc@11: bind : 'context * binder -> 'context} adamc@11: -> ('context, Elab.exp, 'state, 'abort) Search.mapfolderB adamc@10: val mapfold : {kind : (Elab.kind', 'state, 'abort) Search.mapfolder, adamc@10: con : (Elab.con', 'state, 'abort) Search.mapfolder, adamc@10: exp : (Elab.exp', 'state, 'abort) Search.mapfolder} adamc@10: -> (Elab.exp, 'state, 'abort) Search.mapfolder adamc@623: val mapB : {kind : 'context -> Elab.kind' -> Elab.kind', adamc@211: con : 'context -> Elab.con' -> Elab.con', adamc@211: exp : 'context -> Elab.exp' -> Elab.exp', adamc@211: bind : 'context * binder -> 'context} adamc@211: -> 'context -> (Elab.exp -> Elab.exp) adamc@10: val exists : {kind : Elab.kind' -> bool, adamc@10: con : Elab.con' -> bool, adamc@10: exp : Elab.exp' -> bool} -> Elab.exp -> bool adam@1795: val existsB : {kind : 'context * Elab.kind' -> bool, adam@1795: con : 'context * Elab.con' -> bool, adam@1795: exp : 'context * Elab.exp' -> bool, adam@1795: bind : 'context * binder -> 'context} adam@1795: -> 'context -> Elab.exp -> bool adamc@448: adamc@623: val foldB : {kind : 'context * Elab.kind' * 'state -> 'state, adamc@448: con : 'context * Elab.con' * 'state -> 'state, adamc@448: exp : 'context * Elab.exp' * 'state -> 'state, adamc@448: bind : 'context * binder -> 'context} adamc@448: -> 'context -> 'state -> Elab.exp -> 'state adamc@10: end adamc@10: adamc@34: structure Sgn : sig adamc@34: datatype binder = adamc@623: RelK of string adamc@623: | RelC of string * Elab.kind adamc@792: | NamedC of string * int * Elab.kind * Elab.con option adamc@792: | Str of string * int * Elab.sgn adamc@792: | Sgn of string * int * Elab.sgn adamc@34: adamc@623: val mapfoldB : {kind : ('context, Elab.kind', 'state, 'abort) Search.mapfolderB, adamc@34: con : ('context, Elab.con', 'state, 'abort) Search.mapfolderB, adamc@34: sgn_item : ('context, Elab.sgn_item', 'state, 'abort) Search.mapfolderB, adamc@34: sgn : ('context, Elab.sgn', 'state, 'abort) Search.mapfolderB, adamc@34: bind : 'context * binder -> 'context} adamc@34: -> ('context, Elab.sgn, 'state, 'abort) Search.mapfolderB adamc@34: adamc@34: adamc@34: val mapfold : {kind : (Elab.kind', 'state, 'abort) Search.mapfolder, adamc@34: con : (Elab.con', 'state, 'abort) Search.mapfolder, adamc@34: sgn_item : (Elab.sgn_item', 'state, 'abort) Search.mapfolder, adamc@34: sgn : (Elab.sgn', 'state, 'abort) Search.mapfolder} adamc@34: -> (Elab.sgn, 'state, 'abort) Search.mapfolder adamc@34: adamc@34: val map : {kind : Elab.kind' -> Elab.kind', adamc@34: con : Elab.con' -> Elab.con', adamc@34: sgn_item : Elab.sgn_item' -> Elab.sgn_item', adamc@34: sgn : Elab.sgn' -> Elab.sgn'} adamc@34: -> Elab.sgn -> Elab.sgn adamc@34: adamc@792: val mapB : {kind : 'context -> Elab.kind' -> Elab.kind', adamc@792: con : 'context -> Elab.con' -> Elab.con', adamc@792: sgn_item : 'context -> Elab.sgn_item' -> Elab.sgn_item', adamc@792: sgn : 'context -> Elab.sgn' -> Elab.sgn', adamc@792: bind : 'context * binder -> 'context} adamc@792: -> 'context -> Elab.sgn -> Elab.sgn adamc@792: adamc@2: end adamc@34: adamc@76: structure Decl : sig adamc@76: datatype binder = adamc@623: RelK of string adamc@623: | RelC of string * Elab.kind adamc@792: | NamedC of string * int * Elab.kind * Elab.con option adamc@76: | RelE of string * Elab.con adamc@76: | NamedE of string * Elab.con adam@1345: | Str of string * int * Elab.sgn adam@1345: | Sgn of string * int * Elab.sgn adamc@76: adamc@623: val mapfoldB : {kind : ('context, Elab.kind', 'state, 'abort) Search.mapfolderB, adamc@76: con : ('context, Elab.con', 'state, 'abort) Search.mapfolderB, adamc@76: exp : ('context, Elab.exp', 'state, 'abort) Search.mapfolderB, adamc@76: sgn_item : ('context, Elab.sgn_item', 'state, 'abort) Search.mapfolderB, adamc@76: sgn : ('context, Elab.sgn', 'state, 'abort) Search.mapfolderB, adamc@76: str : ('context, Elab.str', 'state, 'abort) Search.mapfolderB, adamc@76: decl : ('context, Elab.decl', 'state, 'abort) Search.mapfolderB, adamc@76: bind : 'context * binder -> 'context} adamc@76: -> ('context, Elab.decl, 'state, 'abort) Search.mapfolderB adamc@76: val mapfold : {kind : (Elab.kind', 'state, 'abort) Search.mapfolder, adamc@76: con : (Elab.con', 'state, 'abort) Search.mapfolder, adamc@76: exp : (Elab.exp', 'state, 'abort) Search.mapfolder, adamc@76: sgn_item : (Elab.sgn_item', 'state, 'abort) Search.mapfolder, adamc@76: sgn : (Elab.sgn', 'state, 'abort) Search.mapfolder, adamc@76: str : (Elab.str', 'state, 'abort) Search.mapfolder, adamc@76: decl : (Elab.decl', 'state, 'abort) Search.mapfolder} adamc@76: -> (Elab.decl, 'state, 'abort) Search.mapfolder adamc@76: val exists : {kind : Elab.kind' -> bool, adamc@76: con : Elab.con' -> bool, adamc@76: exp : Elab.exp' -> bool, adamc@76: sgn_item : Elab.sgn_item' -> bool, adamc@76: sgn : Elab.sgn' -> bool, adamc@76: str : Elab.str' -> bool, adamc@76: decl : Elab.decl' -> bool} adamc@76: -> Elab.decl -> bool adamc@76: val search : {kind : Elab.kind' -> 'a option, adamc@76: con : Elab.con' -> 'a option, adamc@76: exp : Elab.exp' -> 'a option, adamc@76: sgn_item : Elab.sgn_item' -> 'a option, adamc@76: sgn : Elab.sgn' -> 'a option, adamc@76: str : Elab.str' -> 'a option, adamc@76: decl : Elab.decl' -> 'a option} adamc@76: -> Elab.decl -> 'a option adamc@448: adamc@623: val foldMapB : {kind : 'context * Elab.kind' * 'state -> Elab.kind' * 'state, adamc@448: con : 'context * Elab.con' * 'state -> Elab.con' * 'state, adamc@448: exp : 'context * Elab.exp' * 'state -> Elab.exp' * 'state, adamc@448: sgn_item : 'context * Elab.sgn_item' * 'state -> Elab.sgn_item' * 'state, adamc@448: sgn : 'context * Elab.sgn' * 'state -> Elab.sgn' * 'state, adamc@448: str : 'context * Elab.str' * 'state -> Elab.str' * 'state, adamc@448: decl : 'context * Elab.decl' * 'state -> Elab.decl' * 'state, adamc@448: bind : 'context * binder -> 'context} adamc@448: -> 'context -> 'state -> Elab.decl -> Elab.decl * 'state adam@1345: adam@1345: val map : {kind : Elab.kind' -> Elab.kind', adam@1345: con : Elab.con' -> Elab.con', adam@1345: exp : Elab.exp' -> Elab.exp', adam@1345: sgn_item : Elab.sgn_item' -> Elab.sgn_item', adam@1345: sgn : Elab.sgn' -> Elab.sgn', adam@1345: str : Elab.str' -> Elab.str', adam@1345: decl : Elab.decl' -> Elab.decl'} adam@1345: -> Elab.decl -> Elab.decl adam@1345: adam@1345: val mapB : {kind : 'context -> Elab.kind' -> Elab.kind', adam@1345: con : 'context -> Elab.con' -> Elab.con', adam@1345: exp : 'context -> Elab.exp' -> Elab.exp', adam@1345: sgn_item : 'context -> Elab.sgn_item' -> Elab.sgn_item', adam@1345: sgn : 'context -> Elab.sgn' -> Elab.sgn', adam@1345: str : 'context -> Elab.str' -> Elab.str', adam@1345: decl : 'context -> Elab.decl' -> Elab.decl', adam@1345: bind : 'context * binder -> 'context} adam@1345: -> 'context -> Elab.decl -> Elab.decl adam@1732: adam@1732: val fold : {kind : Elab.kind' * 'state -> 'state, adam@1732: con : Elab.con' * 'state -> 'state, adam@1732: exp : Elab.exp' * 'state -> 'state, adam@1732: sgn_item : Elab.sgn_item' * 'state -> 'state, adam@1732: sgn : Elab.sgn' * 'state -> 'state, adam@1732: str : Elab.str' * 'state -> 'state, adam@1732: decl : Elab.decl' * 'state -> 'state} adam@1732: -> 'state -> Elab.decl -> 'state adamc@448: end adamc@448: adamc@448: structure File : sig adamc@448: val maxName : Elab.file -> int adam@1584: adam@1584: val findDecl : (Elab.decl -> bool) -> Elab.file -> Elab.decl option adamc@34: end adamc@76: adamc@76: end