monads: Add a template and specialization mechanism for monadic procedures.
* guix/monads.scm (%templates, %template-instances): New variables. (register-template!, register-template-instance!): New procedures. (template-directory, define-template): New macro. (foldm, sequence, anym): Define using 'define-template'. Avoid replace ellipses with dots. (mapm): Likewise, but do not use 'foldm'. * guix/store.scm: Add 'template-directory' invocation.master
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guix/monads.scm
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guix/monads.scm
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@ -1,5 +1,5 @@
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;;; GNU Guix --- Functional package management for GNU
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;;; Copyright © 2013, 2014, 2015 Ludovic Courtès <ludo@gnu.org>
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;;; Copyright © 2013, 2014, 2015, 2017 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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@ -29,6 +29,8 @@
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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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@ -92,6 +94,9 @@
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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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@ -103,6 +108,172 @@
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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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@ -265,7 +436,7 @@ MONAD---i.e., return a monadic function in MONAD."
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(with-monad monad
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(return (apply proc args)))))
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(define (foldm monad mproc init lst)
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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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@ -277,33 +448,33 @@ MONAD---i.e., return a monadic function in MONAD."
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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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((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 (mapm monad mproc lst)
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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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(mlet monad ((result (foldm monad
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(lambda (item result)
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(>>= (mproc item)
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(lambda (item)
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(return (cons item result)))))
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'()
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lst)))
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(return (reverse result))))
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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-syntax-rule (sequence monad lst)
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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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;; XXX: Making it a macro is a bit brutal as it leads to a lot of code
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;; duplication. However, it allows >>= and return to be open-coded, which
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;; avoids struct-ref's to MONAD and a few closure allocations when using
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;; %STATE-MONAD.
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(with-monad monad
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(let seq ((lstx lst)
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(result '()))
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(lambda (item)
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(seq tail (cons item result)))))))))
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(define (anym monad mproc lst)
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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
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value for which MPROC returns a true monadic value or #f. For example:
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(match lst
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(()
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(return #f))
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((head tail ...)
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((head . tail)
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(>>= (mproc head)
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(lambda (result)
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(if result
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@ -1237,6 +1237,10 @@ be used internally by the daemon's build hook."
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(define-alias store-return state-return)
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(define-alias store-bind state-bind)
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;; Instantiate templates for %STORE-MONAD since it's syntactically different
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;; from %STATE-MONAD.
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(template-directory instantiations %store-monad)
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(define (preserve-documentation original proc)
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"Return PROC with documentation taken from ORIGINAL."
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(set-object-property! proc 'documentation
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