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* etc/system-tests.scm (mparameterize): Move to... * guix/monads.scm (mparameterize): ... here. * tests/monads.scm ("mparameterize"): New test. * .dir-locals.el (c-mode): Add it.
603 lines
20 KiB
Scheme
603 lines
20 KiB
Scheme
;;; GNU Guix --- Functional package management for GNU
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;;; Copyright © 2013, 2014, 2015, 2017, 2022 Ludovic Courtès <ludo@gnu.org>
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;;;
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;;; This file is part of GNU Guix.
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;;;
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;;; GNU Guix is free software; you can redistribute it and/or modify it
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;;; under the terms of the GNU General Public License as published by
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;;; the Free Software Foundation; either version 3 of the License, or (at
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;;; your option) any later version.
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;;;
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;;; GNU Guix is distributed in the hope that it will be useful, but
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;;; WITHOUT ANY WARRANTY; without even the implied warranty of
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;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;;; GNU General Public License for more details.
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;;;
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;;; You should have received a copy of the GNU General Public License
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;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
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(define-module (guix monads)
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#:use-module ((system syntax)
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#:select (syntax-local-binding))
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#:use-module (ice-9 match)
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#:use-module (srfi srfi-1)
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#:use-module (srfi srfi-9)
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#:use-module (srfi srfi-26)
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#:export (;; Monads.
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define-monad
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monad?
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monad-bind
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monad-return
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template-directory
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;; Syntax.
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>>=
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return
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with-monad
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mlet
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mlet*
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mbegin
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mwhen
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munless
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mparameterize
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lift0 lift1 lift2 lift3 lift4 lift5 lift6 lift7 lift
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listm
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foldm
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mapm
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sequence
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anym
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;; Concrete monads.
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%identity-monad
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%state-monad
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state-return
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state-bind
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current-state
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set-current-state
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state-push
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state-pop
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run-with-state))
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;;; Commentary:
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;;;
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;;; This module implements the general mechanism of monads, and provides in
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;;; particular an instance of the "state" monad. The API was inspired by that
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;;; of Racket's "better-monads" module (see
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;;; <http://planet.racket-lang.org/package-source/toups/functional.plt/1/1/planet-docs/better-monads-guide/index.html>).
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;;; The implementation and use case were influenced by Oleg Kysielov's
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;;; "Monadic Programming in Scheme" (see
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;;; <http://okmij.org/ftp/Scheme/monad-in-Scheme.html>).
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;;;
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;;; Code:
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;; Record type for monads manipulated at run time.
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(define-record-type <monad>
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(make-monad bind return)
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monad?
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(bind monad-bind)
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(return monad-return)) ; TODO: Add 'plus' and 'zero'
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(define-syntax define-monad
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(lambda (s)
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"Define the monad under NAME, with the given bind and return methods."
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(define prefix (string->symbol "% "))
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(define (make-rtd-name name)
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(datum->syntax name
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(symbol-append prefix (syntax->datum name) '-rtd)))
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(syntax-case s (bind return)
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((_ name (bind b) (return r))
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(with-syntax ((rtd (make-rtd-name #'name)))
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#`(begin
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(define rtd
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;; The record type, for use at run time.
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(make-monad b r))
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;; Instantiate all the templates, specialized for this monad.
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(template-directory instantiations name)
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(define-syntax name
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;; An "inlined record", for use at expansion time. The goal is
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;; to allow 'bind' and 'return' to be resolved at expansion
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;; time, in the common case where the monad is accessed
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;; directly as NAME.
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(lambda (s)
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(syntax-case s (%bind %return)
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((_ %bind) #'b)
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((_ %return) #'r)
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(_ #'rtd))))))))))
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;; Expansion- and run-time state of the template directory. This needs to be
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;; available at run time (and not just at expansion time) so we can
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;; instantiate templates defined in other modules, or use instances defined
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;; elsewhere.
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(eval-when (load expand eval)
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;; Mapping of syntax objects denoting the template to a pair containing (1)
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;; the syntax object of the parameter over which it is templated, and (2)
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;; the syntax of its body.
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(define-once %templates (make-hash-table))
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(define (register-template! name param body)
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(hash-set! %templates name (cons param body)))
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;; List of template instances, where each entry is a triplet containing the
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;; syntax of the name, the actual parameter for which the template is
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;; specialized, and the syntax object referring to this specialization (the
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;; procedure's identifier.)
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(define-once %template-instances '())
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(define (register-template-instance! name actual instance)
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(set! %template-instances
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(cons (list name actual instance) %template-instances))))
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(define-syntax template-directory
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(lambda (s)
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"This is a \"stateful macro\" to register and lookup templates and
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template instances."
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(define location
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(syntax-source s))
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(define current-info-port
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;; Port for debugging info.
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(const (%make-void-port "w")))
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(define location-string
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(format #f "~a:~a:~a"
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(assq-ref location 'filename)
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(and=> (assq-ref location 'line) 1+)
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(assq-ref location 'column)))
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(define (matching-instance? name actual)
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(match-lambda
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((name* instance-param proc)
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(and (free-identifier=? name name*)
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(or (equal? actual instance-param)
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(and (identifier? actual)
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(identifier? instance-param)
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(free-identifier=? instance-param
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actual)))
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proc))))
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(define (instance-identifier name actual)
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(define stem
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(string-append
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" "
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(symbol->string (syntax->datum name))
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(if (identifier? actual)
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(string-append " " (symbol->string (syntax->datum actual)))
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"")
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" instance"))
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(datum->syntax actual (string->symbol stem)))
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(define (instance-definition name template actual)
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(match template
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((formal . body)
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(let ((instance (instance-identifier name actual)))
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(format (current-info-port)
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"~a: info: specializing '~a' for '~a' as '~a'~%"
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location-string
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(syntax->datum name) (syntax->datum actual)
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(syntax->datum instance))
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(register-template-instance! name actual instance)
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#`(begin
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(define #,instance
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(let-syntax ((#,formal (identifier-syntax #,actual)))
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#,body))
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;; Generate code to register the thing at run time.
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(register-template-instance! #'#,name #'#,actual
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#'#,instance))))))
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(syntax-case s (register! lookup exists? instantiations)
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((_ register! name param body)
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;; Register NAME as a template on PARAM with the given BODY.
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(begin
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(register-template! #'name #'param #'body)
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;; Generate code to register the template at run time. XXX: Because
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;; of this, BODY must not contain ellipses.
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#'(register-template! #'name #'param #'body)))
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((_ lookup name actual)
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;; Search for an instance of template NAME for this ACTUAL parameter.
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;; On success, expand to the identifier of the instance; otherwise
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;; expand to #f.
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(any (matching-instance? #'name #'actual) %template-instances))
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((_ exists? name actual)
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;; Likewise, but return a Boolean.
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(let ((result (->bool
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(any (matching-instance? #'name #'actual)
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%template-instances))))
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(unless result
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(format (current-warning-port)
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"~a: warning: no specialization of template '~a' for '~a'~%"
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location-string
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(syntax->datum #'name) (syntax->datum #'actual)))
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result))
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((_ instantiations actual)
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;; Expand to the definitions of all the existing templates
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;; specialized for ACTUAL.
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#`(begin
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#,@(hash-map->list (cut instance-definition <> <> #'actual)
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%templates))))))
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(define-syntax define-template
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(lambda (s)
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"Define a template, which is a procedure that can be specialized over its
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first argument. In our case, the first argument is typically the identifier
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of a monad.
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Defining templates for procedures like 'mapm' allows us to make have a
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specialized version of those procedures for each monad that we define, such
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that calls to:
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(mapm %state-monad proc lst)
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automatically expand to:
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(#{ mapm %state-monad instance}# proc lst)
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Here, #{ mapm %state-monad instance}# is specialized for %state-monad, and
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thus it contains inline calls to %state-bind and %state-return. This avoids
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repeated calls to 'struct-ref' to get the 'bind' and 'return' procedure of the
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monad, and allows 'bind' and 'return' to be inlined, which in turn allows for
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more optimizations."
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(syntax-case s ()
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((_ (name arg0 args ...) body ...)
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(with-syntax ((generic-name (datum->syntax
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#'name
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(symbol-append '#{ %}#
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(syntax->datum #'name)
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'-generic)))
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(original-name #'name))
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#`(begin
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(template-directory register! name arg0
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(lambda (args ...)
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body ...))
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(define (generic-name arg0 args ...)
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;; The generic instance of NAME, for when no specialization was
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;; found.
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body ...)
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(define-syntax name
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(lambda (s)
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(syntax-case s ()
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((_ arg0* args ...)
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;; Expand to either the specialized instance or the
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;; generic instance of template ORIGINAL-NAME.
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#'(if (template-directory exists? original-name arg0*)
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((template-directory lookup original-name arg0*)
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args ...)
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(generic-name arg0* args ...)))
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(_
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#'generic-name))))))))))
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(define-syntax-parameter >>=
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;; The name 'bind' is already taken, so we choose this (obscure) symbol.
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(lambda (s)
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(syntax-violation '>>= ">>= (bind) used outside of 'with-monad'" s)))
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(define-syntax-parameter return
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(lambda (s)
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(syntax-violation 'return "return used outside of 'with-monad'" s)))
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(define-syntax-rule (bind-syntax bind)
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"Return a macro transformer that handles the expansion of '>>=' expressions
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using BIND as the binary bind operator.
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This macro exists to allow the expansion of n-ary '>>=' expressions, even
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though BIND is simply binary, as in:
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(with-monad %state-monad
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(>>= (return 1)
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(lift 1+ %state-monad)
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(lift 1+ %state-monad)))
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"
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(lambda (stx)
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(define (expand body)
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(syntax-case body ()
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((_ mval mproc)
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#'(bind mval mproc))
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((x mval mproc0 mprocs (... ...))
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(expand #'(>>= (>>= mval mproc0)
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mprocs (... ...))))))
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(expand stx)))
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(define-syntax with-monad
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(lambda (s)
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"Evaluate BODY in the context of MONAD, and return its result."
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(syntax-case s ()
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((_ monad body ...)
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(eq? 'macro (syntax-local-binding #'monad))
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;; MONAD is a syntax transformer, so we can obtain the bind and return
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;; methods by directly querying it.
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#'(syntax-parameterize ((>>= (bind-syntax (monad %bind)))
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(return (identifier-syntax (monad %return))))
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body ...))
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((_ monad body ...)
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;; MONAD refers to the <monad> record that represents the monad at run
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;; time, so use the slow method.
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#'(syntax-parameterize ((>>= (bind-syntax
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(monad-bind monad)))
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(return (identifier-syntax
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(monad-return monad))))
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body ...)))))
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(define-syntax mlet*
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(syntax-rules (->)
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"Bind the given monadic values MVAL to the given variables VAR. When the
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form is (VAR -> VAL), bind VAR to the non-monadic value VAL in the same way as
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'let'."
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;; Note: the '->' symbol corresponds to 'is:' in 'better-monads.rkt'.
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((_ monad () body ...)
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(with-monad monad body ...))
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((_ monad ((var mval) rest ...) body ...)
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(with-monad monad
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(>>= mval
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(lambda (var)
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(mlet* monad (rest ...)
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body ...)))))
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((_ monad ((var -> val) rest ...) body ...)
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(let ((var val))
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(mlet* monad (rest ...)
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body ...)))))
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(define-syntax mlet
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(lambda (s)
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(syntax-case s ()
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((_ monad ((var mval ...) ...) body ...)
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(with-syntax (((temp ...) (generate-temporaries #'(var ...))))
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#'(mlet* monad ((temp mval ...) ...)
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(let ((var temp) ...)
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body ...)))))))
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(define-syntax mbegin
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(syntax-rules (%current-monad)
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"Bind MEXP and the following monadic expressions in sequence, returning
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the result of the last expression. Every expression in the sequence must be a
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monadic expression."
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((_ %current-monad mexp)
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mexp)
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((_ %current-monad mexp rest ...)
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(>>= mexp
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(lambda (unused-value)
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(mbegin %current-monad rest ...))))
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((_ monad mexp)
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(with-monad monad
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mexp))
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((_ monad mexp rest ...)
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(with-monad monad
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(>>= mexp
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(lambda (unused-value)
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(mbegin monad rest ...)))))))
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(define-syntax mwhen
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(syntax-rules ()
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"When CONDITION is true, evaluate the sequence of monadic expressions
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MEXP0..MEXP* as in an 'mbegin'. When CONDITION is false, return *unspecified*
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in the current monad. Every expression in the sequence must be a monadic
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expression."
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((_ condition mexp0 mexp* ...)
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(if condition
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(mbegin %current-monad
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mexp0 mexp* ...)
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(return *unspecified*)))))
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(define-syntax munless
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(syntax-rules ()
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"When CONDITION is false, evaluate the sequence of monadic expressions
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MEXP0..MEXP* as in an 'mbegin'. When CONDITION is true, return *unspecified*
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in the current monad. Every expression in the sequence must be a monadic
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expression."
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((_ condition mexp0 mexp* ...)
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(if condition
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(return *unspecified*)
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(mbegin %current-monad
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mexp0 mexp* ...)))))
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(define-syntax mparameterize
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(syntax-rules ()
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"This form implements dynamic scoping, similar to 'parameterize', but in a
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monadic context."
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((_ monad ((parameter value) rest ...) body ...)
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(let ((old-value (parameter)))
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(mbegin monad
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;; XXX: Non-local exits are not correctly handled.
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(return (parameter value))
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(mlet monad ((result (mparameterize monad (rest ...) body ...)))
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(parameter old-value)
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(return result)))))
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((_ monad () body ...)
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(mbegin monad body ...))))
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(define-syntax define-lift
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(syntax-rules ()
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((_ liftn (args ...))
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(define-syntax liftn
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(lambda (s)
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"Lift PROC to MONAD---i.e., return a monadic function in MONAD."
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(syntax-case s ()
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((liftn proc monad)
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;; Inline the result of lifting PROC, such that 'return' can in
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;; turn be open-coded.
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#'(lambda (args ...)
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(with-monad monad
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(return (proc args ...)))))
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(id
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(identifier? #'id)
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;; Slow path: Return a closure-returning procedure (we don't
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;; guarantee (eq? LIFTN LIFTN), but that's fine.)
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#'(lambda (proc monad)
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(lambda (args ...)
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(with-monad monad
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(return (proc args ...))))))))))))
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(define-lift lift0 ())
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(define-lift lift1 (a))
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(define-lift lift2 (a b))
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(define-lift lift3 (a b c))
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(define-lift lift4 (a b c d))
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(define-lift lift5 (a b c d e))
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(define-lift lift6 (a b c d e f))
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(define-lift lift7 (a b c d e f g))
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(define (lift proc monad)
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"Lift PROC, a procedure that accepts an arbitrary number of arguments, to
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MONAD---i.e., return a monadic function in MONAD."
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(lambda args
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(with-monad monad
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(return (apply proc args)))))
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(define-template (foldm monad mproc init lst)
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"Fold MPROC over LST and return a monadic value seeded by INIT.
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(foldm %state-monad (lift2 cons %state-monad) '() '(a b c))
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=> '(c b a) ;monadic
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"
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(with-monad monad
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(let loop ((lst lst)
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(result init))
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(match lst
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(()
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(return result))
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((head . tail)
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(>>= (mproc head result)
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(lambda (result)
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(loop tail result))))))))
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(define-template (mapm monad mproc lst)
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"Map MPROC over LST and return a monadic list.
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(mapm %state-monad (lift1 1+ %state-monad) '(0 1 2))
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=> (1 2 3) ;monadic
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"
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;; XXX: We don't use 'foldm' because template specialization wouldn't work
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;; in this context.
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(with-monad monad
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(let mapm ((lst lst)
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(result '()))
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(match lst
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(()
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(return (reverse result)))
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((head . tail)
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(>>= (mproc head)
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(lambda (head)
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(mapm tail (cons head result)))))))))
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(define-template (sequence monad lst)
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"Turn the list of monadic values LST into a monadic list of values, by
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evaluating each item of LST in sequence."
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(with-monad monad
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(let seq ((lstx lst)
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(result '()))
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(match lstx
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(()
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(return (reverse result)))
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((head . tail)
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(>>= head
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(lambda (item)
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(seq tail (cons item result)))))))))
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(define-template (anym monad mproc lst)
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||
"Apply MPROC to the list of values LST; return as a monadic value the first
|
||
value for which MPROC returns a true monadic value or #f. For example:
|
||
|
||
(anym %state-monad (lift1 odd? %state-monad) '(0 1 2))
|
||
=> #t ;monadic
|
||
"
|
||
(with-monad monad
|
||
(let loop ((lst lst))
|
||
(match lst
|
||
(()
|
||
(return #f))
|
||
((head . tail)
|
||
(>>= (mproc head)
|
||
(lambda (result)
|
||
(if result
|
||
(return result)
|
||
(loop tail)))))))))
|
||
|
||
(define-syntax listm
|
||
(lambda (s)
|
||
"Return a monadic list in MONAD from the monadic values MVAL."
|
||
(syntax-case s ()
|
||
((_ monad mval ...)
|
||
(with-syntax (((val ...) (generate-temporaries #'(mval ...))))
|
||
#'(mlet monad ((val mval) ...)
|
||
(return (list val ...))))))))
|
||
|
||
|
||
|
||
;;;
|
||
;;; Identity monad.
|
||
;;;
|
||
|
||
(define-inlinable (identity-return value)
|
||
value)
|
||
|
||
(define-inlinable (identity-bind mvalue mproc)
|
||
(mproc mvalue))
|
||
|
||
(define-monad %identity-monad
|
||
(bind identity-bind)
|
||
(return identity-return))
|
||
|
||
|
||
;;;
|
||
;;; State monad.
|
||
;;;
|
||
|
||
(define-inlinable (state-return value)
|
||
(lambda (state)
|
||
(values value state)))
|
||
|
||
(define-inlinable (state-bind mvalue mproc)
|
||
"Bind MVALUE, a value in the state monad, and pass it to MPROC."
|
||
(lambda (state)
|
||
(call-with-values
|
||
(lambda ()
|
||
(mvalue state))
|
||
(lambda (value state)
|
||
;; Note: as of Guile 2.0.11, declaring a variable to hold the result
|
||
;; of (mproc value) prevents a bit of unfolding/inlining.
|
||
((mproc value) state)))))
|
||
|
||
(define-monad %state-monad
|
||
(bind state-bind)
|
||
(return state-return))
|
||
|
||
(define* (run-with-state mval #:optional (state '()))
|
||
"Run monadic value MVAL starting with STATE as the initial state. Return
|
||
two values: the resulting value, and the resulting state."
|
||
(mval state))
|
||
|
||
(define-inlinable (current-state)
|
||
"Return the current state as a monadic value."
|
||
(lambda (state)
|
||
(values state state)))
|
||
|
||
(define-inlinable (set-current-state value)
|
||
"Set the current state to VALUE and return the previous state as a monadic
|
||
value."
|
||
(lambda (state)
|
||
(values state value)))
|
||
|
||
(define (state-pop)
|
||
"Pop a value from the current state and return it as a monadic value. The
|
||
state is assumed to be a list."
|
||
(lambda (state)
|
||
(match state
|
||
((head . tail)
|
||
(values head tail)))))
|
||
|
||
(define (state-push value)
|
||
"Push VALUE to the current state, which is assumed to be a list, and return
|
||
the previous state as a monadic value."
|
||
(lambda (state)
|
||
(values state (cons value state))))
|
||
|
||
;;; monads.scm end here
|