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1cdecf24f5
* guix/gexp.scm (<gexp-compiler>)[predicate]: Remove. [type]: New field. (%gexp-compilers): Turn into a hash table. (register-compiler!, lookup-compiler, lookup-expander): Adjust accordingly. (define-gexp-compiler): Replace 'predicate' by 'record-type'. (derivation-compiler, local-file-compiler, plain-file-compiler) (computed-file-compiler, program-file-compiler, scheme-file-compiler) (file-append-compiler): Adjust accordingly. * guix/packages.scm (package-compiler, origin-compiler): Likewise.
1168 lines
45 KiB
Scheme
1168 lines
45 KiB
Scheme
;;; GNU Guix --- Functional package management for GNU
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;;; Copyright © 2014, 2015, 2016 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 gexp)
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#:use-module (guix store)
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#:use-module (guix monads)
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#:use-module (guix derivations)
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#:use-module (guix grafts)
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#:use-module (guix utils)
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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-9 gnu)
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#:use-module (srfi srfi-26)
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#:use-module (ice-9 match)
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#:export (gexp
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gexp?
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with-imported-modules
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gexp-input
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gexp-input?
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local-file
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local-file?
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local-file-file
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local-file-absolute-file-name
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local-file-name
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local-file-recursive?
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plain-file
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plain-file?
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plain-file-name
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plain-file-content
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computed-file
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computed-file?
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computed-file-name
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computed-file-gexp
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computed-file-options
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program-file
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program-file?
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program-file-name
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program-file-gexp
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program-file-guile
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scheme-file
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scheme-file?
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scheme-file-name
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scheme-file-gexp
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file-append
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file-append?
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file-append-base
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file-append-suffix
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gexp->derivation
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gexp->file
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gexp->script
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text-file*
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mixed-text-file
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imported-files
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imported-modules
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compiled-modules
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define-gexp-compiler
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gexp-compiler?
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lower-object
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lower-inputs))
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;;; Commentary:
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;;;
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;;; This module implements "G-expressions", or "gexps". Gexps are like
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;;; S-expressions (sexps), with two differences:
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;;;
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;;; 1. References (un-quotations) to derivations or packages in a gexp are
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;;; replaced by the corresponding output file name; in addition, the
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;;; 'ungexp-native' unquote-like form allows code to explicitly refer to
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;;; the native code of a given package, in case of cross-compilation;
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;;;
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;;; 2. Gexps embed information about the derivations they refer to.
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;;;
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;;; Gexps make it easy to write to files Scheme code that refers to store
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;;; items, or to write Scheme code to build derivations.
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;;;
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;;; Code:
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;; "G expressions".
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(define-record-type <gexp>
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(make-gexp references modules proc)
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gexp?
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(references gexp-references) ;list of <gexp-input>
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(modules gexp-self-modules) ;list of module names
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(proc gexp-proc)) ;procedure
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(define (write-gexp gexp port)
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"Write GEXP on PORT."
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(display "#<gexp " port)
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;; Try to write the underlying sexp. Now, this trick doesn't work when
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;; doing things like (ungexp-splicing (gexp ())) because GEXP's procedure
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;; tries to use 'append' on that, which fails with wrong-type-arg.
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(false-if-exception
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(write (apply (gexp-proc gexp)
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(gexp-references gexp))
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port))
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(format port " ~a>"
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(number->string (object-address gexp) 16)))
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(set-record-type-printer! <gexp> write-gexp)
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;;;
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;;; Methods.
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;;;
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;; Compiler for a type of objects that may be introduced in a gexp.
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(define-record-type <gexp-compiler>
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(gexp-compiler type lower expand)
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gexp-compiler?
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(type gexp-compiler-type) ;record type descriptor
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(lower gexp-compiler-lower)
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(expand gexp-compiler-expand)) ;#f | DRV -> sexp
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(define %gexp-compilers
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;; 'eq?' mapping of record type descriptor to <gexp-compiler>.
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(make-hash-table 20))
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(define (default-expander thing obj output)
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"This is the default expander for \"things\" that appear in gexps. It
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returns its output file name of OBJ's OUTPUT."
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(match obj
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((? derivation? drv)
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(derivation->output-path drv output))
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((? string? file)
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file)))
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(define (register-compiler! compiler)
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"Register COMPILER as a gexp compiler."
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(hashq-set! %gexp-compilers
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(gexp-compiler-type compiler) compiler))
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(define (lookup-compiler object)
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"Search for a compiler for OBJECT. Upon success, return the three argument
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procedure to lower it; otherwise return #f."
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(and=> (hashq-ref %gexp-compilers (struct-vtable object))
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gexp-compiler-lower))
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(define (lookup-expander object)
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"Search for an expander for OBJECT. Upon success, return the three argument
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procedure to expand it; otherwise return #f."
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(and=> (hashq-ref %gexp-compilers (struct-vtable object))
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gexp-compiler-expand))
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(define* (lower-object obj
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#:optional (system (%current-system))
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#:key target)
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"Return as a value in %STORE-MONAD the derivation or store item
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corresponding to OBJ for SYSTEM, cross-compiling for TARGET if TARGET is true.
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OBJ must be an object that has an associated gexp compiler, such as a
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<package>."
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(let ((lower (lookup-compiler obj)))
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(lower obj system target)))
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(define-syntax define-gexp-compiler
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(syntax-rules (=> compiler expander)
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"Define NAME as a compiler for objects matching PREDICATE encountered in
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gexps.
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In the simplest form of the macro, BODY must return a derivation for PARAM, an
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object that matches PREDICATE, for SYSTEM and TARGET (the latter of which is
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#f except when cross-compiling.)
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The more elaborate form allows you to specify an expander:
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(define-gexp-compiler something something?
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compiler => (lambda (param system target) ...)
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expander => (lambda (param drv output) ...))
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The expander specifies how an object is converted to its sexp representation."
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((_ (name (param record-type) system target) body ...)
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(define-gexp-compiler name record-type
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compiler => (lambda (param system target) body ...)
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expander => default-expander))
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((_ name record-type
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compiler => compile
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expander => expand)
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(begin
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(define name
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(gexp-compiler record-type compile expand))
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(register-compiler! name)))))
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(define-gexp-compiler (derivation-compiler (drv <derivation>) system target)
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;; Derivations are the lowest-level representation, so this is the identity
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;; compiler.
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(with-monad %store-monad
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(return drv)))
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;;;
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;;; File declarations.
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;;;
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;; A local file name. FILE is the file name the user entered, which can be a
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;; relative file name, and ABSOLUTE is a promise that computes its canonical
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;; absolute file name. We keep it in a promise to compute it lazily and avoid
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;; repeated 'stat' calls.
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(define-record-type <local-file>
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(%%local-file file absolute name recursive? select?)
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local-file?
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(file local-file-file) ;string
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(absolute %local-file-absolute-file-name) ;promise string
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(name local-file-name) ;string
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(recursive? local-file-recursive?) ;Boolean
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(select? local-file-select?)) ;string stat -> Boolean
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(define (true file stat) #t)
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(define* (%local-file file promise #:optional (name (basename file))
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#:key recursive? (select? true))
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;; This intermediate procedure is part of our ABI, but the underlying
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;; %%LOCAL-FILE is not.
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(%%local-file file promise name recursive? select?))
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(define (absolute-file-name file directory)
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"Return the canonical absolute file name for FILE, which lives in the
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vicinity of DIRECTORY."
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(canonicalize-path
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(cond ((string-prefix? "/" file) file)
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((not directory) file)
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((string-prefix? "/" directory)
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(string-append directory "/" file))
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(else file))))
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(define-syntax-rule (local-file file rest ...)
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"Return an object representing local file FILE to add to the store; this
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object can be used in a gexp. If FILE is a relative file name, it is looked
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up relative to the source file where this form appears. FILE will be added to
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the store under NAME--by default the base name of FILE.
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When RECURSIVE? is true, the contents of FILE are added recursively; if FILE
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designates a flat file and RECURSIVE? is true, its contents are added, and its
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permission bits are kept.
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When RECURSIVE? is true, call (SELECT? FILE STAT) for each directory entry,
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where FILE is the entry's absolute file name and STAT is the result of
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'lstat'; exclude entries for which SELECT? does not return true.
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This is the declarative counterpart of the 'interned-file' monadic procedure."
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(%local-file file
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(delay (absolute-file-name file (current-source-directory)))
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rest ...))
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(define (local-file-absolute-file-name file)
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"Return the absolute file name for FILE, a <local-file> instance. A
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'system-error' exception is raised if FILE could not be found."
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(force (%local-file-absolute-file-name file)))
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(define-gexp-compiler (local-file-compiler (file <local-file>) system target)
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;; "Compile" FILE by adding it to the store.
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(match file
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(($ <local-file> file (= force absolute) name recursive? select?)
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;; Canonicalize FILE so that if it's a symlink, it is resolved. Failing
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;; to do that, when RECURSIVE? is #t, we could end up creating a dangling
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;; symlink in the store, and when RECURSIVE? is #f 'add-to-store' would
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;; just throw an error, both of which are inconvenient.
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(interned-file absolute name
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#:recursive? recursive? #:select? select?))))
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(define-record-type <plain-file>
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(%plain-file name content references)
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plain-file?
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(name plain-file-name) ;string
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(content plain-file-content) ;string
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(references plain-file-references)) ;list (currently unused)
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(define (plain-file name content)
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"Return an object representing a text file called NAME with the given
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CONTENT (a string) to be added to the store.
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This is the declarative counterpart of 'text-file'."
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;; XXX: For now just ignore 'references' because it's not clear how to use
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;; them in a declarative context.
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(%plain-file name content '()))
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(define-gexp-compiler (plain-file-compiler (file <plain-file>) system target)
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;; "Compile" FILE by adding it to the store.
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(match file
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(($ <plain-file> name content references)
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(text-file name content references))))
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(define-record-type <computed-file>
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(%computed-file name gexp options)
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computed-file?
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(name computed-file-name) ;string
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(gexp computed-file-gexp) ;gexp
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(options computed-file-options)) ;list of arguments
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(define* (computed-file name gexp
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#:key (options '(#:local-build? #t)))
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"Return an object representing the store item NAME, a file or directory
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computed by GEXP. OPTIONS is a list of additional arguments to pass
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to 'gexp->derivation'.
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This is the declarative counterpart of 'gexp->derivation'."
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(%computed-file name gexp options))
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(define-gexp-compiler (computed-file-compiler (file <computed-file>)
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system target)
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;; Compile FILE by returning a derivation whose build expression is its
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;; gexp.
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(match file
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(($ <computed-file> name gexp options)
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(apply gexp->derivation name gexp options))))
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(define-record-type <program-file>
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(%program-file name gexp guile)
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program-file?
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(name program-file-name) ;string
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(gexp program-file-gexp) ;gexp
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(guile program-file-guile)) ;package
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(define* (program-file name gexp #:key (guile #f))
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"Return an object representing the executable store item NAME that runs
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GEXP. GUILE is the Guile package used to execute that script.
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This is the declarative counterpart of 'gexp->script'."
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(%program-file name gexp guile))
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(define-gexp-compiler (program-file-compiler (file <program-file>)
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system target)
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;; Compile FILE by returning a derivation that builds the script.
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(match file
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(($ <program-file> name gexp guile)
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(gexp->script name gexp
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#:guile (or guile (default-guile))))))
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(define-record-type <scheme-file>
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(%scheme-file name gexp)
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scheme-file?
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(name scheme-file-name) ;string
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(gexp scheme-file-gexp)) ;gexp
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(define* (scheme-file name gexp)
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"Return an object representing the Scheme file NAME that contains GEXP.
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This is the declarative counterpart of 'gexp->file'."
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(%scheme-file name gexp))
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(define-gexp-compiler (scheme-file-compiler (file <scheme-file>)
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system target)
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;; Compile FILE by returning a derivation that builds the file.
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(match file
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(($ <scheme-file> name gexp)
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(gexp->file name gexp))))
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;; Appending SUFFIX to BASE's output file name.
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(define-record-type <file-append>
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(%file-append base suffix)
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file-append?
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(base file-append-base) ;<package> | <derivation> | ...
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(suffix file-append-suffix)) ;list of strings
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(define (file-append base . suffix)
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"Return a <file-append> object that expands to the concatenation of BASE and
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SUFFIX."
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(%file-append base suffix))
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(define-gexp-compiler file-append-compiler <file-append>
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compiler => (lambda (obj system target)
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(match obj
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(($ <file-append> base _)
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(lower-object base system #:target target))))
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expander => (lambda (obj lowered output)
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(match obj
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(($ <file-append> base suffix)
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(let* ((expand (lookup-expander base))
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(base (expand base lowered output)))
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(string-append base (string-concatenate suffix)))))))
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;;;
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;;; Inputs & outputs.
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;;;
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;; The input of a gexp.
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(define-record-type <gexp-input>
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(%gexp-input thing output native?)
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gexp-input?
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(thing gexp-input-thing) ;<package> | <origin> | <derivation> | ...
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(output gexp-input-output) ;string
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(native? gexp-input-native?)) ;Boolean
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(define (write-gexp-input input port)
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(match input
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(($ <gexp-input> thing output #f)
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(format port "#<gexp-input ~s:~a>" thing output))
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(($ <gexp-input> thing output #t)
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(format port "#<gexp-input native ~s:~a>" thing output))))
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(set-record-type-printer! <gexp-input> write-gexp-input)
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(define* (gexp-input thing ;convenience procedure
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#:optional (output "out")
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#:key native?)
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"Return a new <gexp-input> for the OUTPUT of THING; NATIVE? determines
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whether this should be considered a \"native\" input or not."
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(%gexp-input thing output native?))
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;; Reference to one of the derivation's outputs, for gexps used in
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;; derivations.
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(define-record-type <gexp-output>
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(gexp-output name)
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gexp-output?
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(name gexp-output-name))
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(define (write-gexp-output output port)
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(match output
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(($ <gexp-output> name)
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(format port "#<gexp-output ~a>" name))))
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(set-record-type-printer! <gexp-output> write-gexp-output)
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(define (gexp-modules gexp)
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"Return the list of Guile module names GEXP relies on."
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(delete-duplicates
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(append (gexp-self-modules gexp)
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(append-map (match-lambda
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(($ <gexp-input> (? gexp? exp))
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(gexp-modules exp))
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(($ <gexp-input> (lst ...))
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(append-map (lambda (item)
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(if (gexp? item)
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(gexp-modules item)
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'()))
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lst))
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(_
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'()))
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(gexp-references gexp)))))
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(define raw-derivation
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(store-lift derivation))
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(define* (lower-inputs inputs
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#:key system target)
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"Turn any package from INPUTS into a derivation for SYSTEM; return the
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corresponding input list as a monadic value. When TARGET is true, use it as
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the cross-compilation target triplet."
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(with-monad %store-monad
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(sequence %store-monad
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(map (match-lambda
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(((? struct? thing) sub-drv ...)
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(mlet %store-monad ((drv (lower-object
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thing system #:target target)))
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(return `(,drv ,@sub-drv))))
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(input
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(return input)))
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inputs))))
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(define* (lower-reference-graphs graphs #:key system target)
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"Given GRAPHS, a list of (FILE-NAME INPUT ...) lists for use as a
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#:reference-graphs argument, lower it such that each INPUT is replaced by the
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corresponding derivation."
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(match graphs
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(((file-names . inputs) ...)
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(mlet %store-monad ((inputs (lower-inputs inputs
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#:system system
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#:target target)))
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(return (map cons file-names inputs))))))
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|
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(define* (lower-references lst #:key system target)
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||
"Based on LST, a list of output names and packages, return a list of output
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names and file names suitable for the #:allowed-references argument to
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'derivation'."
|
||
(with-monad %store-monad
|
||
(define lower
|
||
(match-lambda
|
||
((? string? output)
|
||
(return output))
|
||
(($ <gexp-input> thing output native?)
|
||
(mlet %store-monad ((drv (lower-object thing system
|
||
#:target (if native?
|
||
#f target))))
|
||
(return (derivation->output-path drv output))))
|
||
(thing
|
||
(mlet %store-monad ((drv (lower-object thing system
|
||
#:target target)))
|
||
(return (derivation->output-path drv))))))
|
||
|
||
(sequence %store-monad (map lower lst))))
|
||
|
||
(define default-guile-derivation
|
||
;; Here we break the abstraction by talking to the higher-level layer.
|
||
;; Thus, do the resolution lazily to hide the circular dependency.
|
||
(let ((proc (delay
|
||
(let ((iface (resolve-interface '(guix packages))))
|
||
(module-ref iface 'default-guile-derivation)))))
|
||
(lambda (system)
|
||
((force proc) system))))
|
||
|
||
(define* (gexp->derivation name exp
|
||
#:key
|
||
system (target 'current)
|
||
hash hash-algo recursive?
|
||
(env-vars '())
|
||
(modules '())
|
||
(module-path %load-path)
|
||
(guile-for-build (%guile-for-build))
|
||
(graft? (%graft?))
|
||
references-graphs
|
||
allowed-references disallowed-references
|
||
leaked-env-vars
|
||
local-build? (substitutable? #t)
|
||
(script-name (string-append name "-builder")))
|
||
"Return a derivation NAME that runs EXP (a gexp) with GUILE-FOR-BUILD (a
|
||
derivation) on SYSTEM; EXP is stored in a file called SCRIPT-NAME. When
|
||
TARGET is true, it is used as the cross-compilation target triplet for
|
||
packages referred to by EXP.
|
||
|
||
MODULES is deprecated in favor of 'with-imported-modules'. Its meaning is to
|
||
make MODULES available in the evaluation context of EXP; MODULES is a list of
|
||
names of Guile modules searched in MODULE-PATH to be copied in the store,
|
||
compiled, and made available in the load path during the execution of
|
||
EXP---e.g., '((guix build utils) (guix build gnu-build-system)).
|
||
|
||
GRAFT? determines whether packages referred to by EXP should be grafted when
|
||
applicable.
|
||
|
||
When REFERENCES-GRAPHS is true, it must be a list of tuples of one of the
|
||
following forms:
|
||
|
||
(FILE-NAME PACKAGE)
|
||
(FILE-NAME PACKAGE OUTPUT)
|
||
(FILE-NAME DERIVATION)
|
||
(FILE-NAME DERIVATION OUTPUT)
|
||
(FILE-NAME STORE-ITEM)
|
||
|
||
The right-hand-side of each element of REFERENCES-GRAPHS is automatically made
|
||
an input of the build process of EXP. In the build environment, each
|
||
FILE-NAME contains the reference graph of the corresponding item, in a simple
|
||
text format.
|
||
|
||
ALLOWED-REFERENCES must be either #f or a list of output names and packages.
|
||
In the latter case, the list denotes store items that the result is allowed to
|
||
refer to. Any reference to another store item will lead to a build error.
|
||
Similarly for DISALLOWED-REFERENCES, which can list items that must not be
|
||
referenced by the outputs.
|
||
|
||
The other arguments are as for 'derivation'."
|
||
(define %modules
|
||
(delete-duplicates
|
||
(append modules (gexp-modules exp))))
|
||
(define outputs (gexp-outputs exp))
|
||
|
||
(define (graphs-file-names graphs)
|
||
;; Return a list of (FILE-NAME . STORE-PATH) pairs made from GRAPHS.
|
||
(map (match-lambda
|
||
;; TODO: Remove 'derivation?' special cases.
|
||
((file-name (? derivation? drv))
|
||
(cons file-name (derivation->output-path drv)))
|
||
((file-name (? derivation? drv) sub-drv)
|
||
(cons file-name (derivation->output-path drv sub-drv)))
|
||
((file-name thing)
|
||
(cons file-name thing)))
|
||
graphs))
|
||
|
||
(mlet* %store-monad (;; The following binding forces '%current-system' and
|
||
;; '%current-target-system' to be looked up at >>=
|
||
;; time.
|
||
(graft? (set-grafting graft?))
|
||
|
||
(system -> (or system (%current-system)))
|
||
(target -> (if (eq? target 'current)
|
||
(%current-target-system)
|
||
target))
|
||
(normals (lower-inputs (gexp-inputs exp)
|
||
#:system system
|
||
#:target target))
|
||
(natives (lower-inputs (gexp-native-inputs exp)
|
||
#:system system
|
||
#:target #f))
|
||
(inputs -> (append normals natives))
|
||
(sexp (gexp->sexp exp
|
||
#:system system
|
||
#:target target))
|
||
(builder (text-file script-name
|
||
(object->string sexp)))
|
||
(modules (if (pair? %modules)
|
||
(imported-modules %modules
|
||
#:system system
|
||
#:module-path module-path
|
||
#:guile guile-for-build)
|
||
(return #f)))
|
||
(compiled (if (pair? %modules)
|
||
(compiled-modules %modules
|
||
#:system system
|
||
#:module-path module-path
|
||
#:guile guile-for-build)
|
||
(return #f)))
|
||
(graphs (if references-graphs
|
||
(lower-reference-graphs references-graphs
|
||
#:system system
|
||
#:target target)
|
||
(return #f)))
|
||
(allowed (if allowed-references
|
||
(lower-references allowed-references
|
||
#:system system
|
||
#:target target)
|
||
(return #f)))
|
||
(disallowed (if disallowed-references
|
||
(lower-references disallowed-references
|
||
#:system system
|
||
#:target target)
|
||
(return #f)))
|
||
(guile (if guile-for-build
|
||
(return guile-for-build)
|
||
(default-guile-derivation system))))
|
||
(mbegin %store-monad
|
||
(set-grafting graft?) ;restore the initial setting
|
||
(raw-derivation name
|
||
(string-append (derivation->output-path guile)
|
||
"/bin/guile")
|
||
`("--no-auto-compile"
|
||
,@(if (pair? %modules)
|
||
`("-L" ,(derivation->output-path modules)
|
||
"-C" ,(derivation->output-path compiled))
|
||
'())
|
||
,builder)
|
||
#:outputs outputs
|
||
#:env-vars env-vars
|
||
#:system system
|
||
#:inputs `((,guile)
|
||
(,builder)
|
||
,@(if modules
|
||
`((,modules) (,compiled) ,@inputs)
|
||
inputs)
|
||
,@(match graphs
|
||
(((_ . inputs) ...) inputs)
|
||
(_ '())))
|
||
#:hash hash #:hash-algo hash-algo #:recursive? recursive?
|
||
#:references-graphs (and=> graphs graphs-file-names)
|
||
#:allowed-references allowed
|
||
#:disallowed-references disallowed
|
||
#:leaked-env-vars leaked-env-vars
|
||
#:local-build? local-build?
|
||
#:substitutable? substitutable?))))
|
||
|
||
(define* (gexp-inputs exp #:key native?)
|
||
"Return the input list for EXP. When NATIVE? is true, return only native
|
||
references; otherwise, return only non-native references."
|
||
(define (add-reference-inputs ref result)
|
||
(match ref
|
||
(($ <gexp-input> (? gexp? exp) _ #t)
|
||
(if native?
|
||
(append (gexp-inputs exp)
|
||
(gexp-inputs exp #:native? #t)
|
||
result)
|
||
result))
|
||
(($ <gexp-input> (? gexp? exp) _ #f)
|
||
(if native?
|
||
(append (gexp-inputs exp #:native? #t)
|
||
result)
|
||
(append (gexp-inputs exp)
|
||
result)))
|
||
(($ <gexp-input> (? string? str))
|
||
(if (direct-store-path? str)
|
||
(cons `(,str) result)
|
||
result))
|
||
(($ <gexp-input> (? struct? thing) output)
|
||
(if (lookup-compiler thing)
|
||
;; THING is a derivation, or a package, or an origin, etc.
|
||
(cons `(,thing ,output) result)
|
||
result))
|
||
(($ <gexp-input> (lst ...) output n?)
|
||
(fold-right add-reference-inputs result
|
||
;; XXX: For now, automatically convert LST to a list of
|
||
;; gexp-inputs.
|
||
(map (match-lambda
|
||
((? gexp-input? x) x)
|
||
(x (%gexp-input x "out" (or n? native?))))
|
||
lst)))
|
||
(_
|
||
;; Ignore references to other kinds of objects.
|
||
result)))
|
||
|
||
(define (native-input? x)
|
||
(and (gexp-input? x)
|
||
(gexp-input-native? x)))
|
||
|
||
(fold-right add-reference-inputs
|
||
'()
|
||
(if native?
|
||
(filter native-input? (gexp-references exp))
|
||
(remove native-input? (gexp-references exp)))))
|
||
|
||
(define gexp-native-inputs
|
||
(cut gexp-inputs <> #:native? #t))
|
||
|
||
(define (gexp-outputs exp)
|
||
"Return the outputs referred to by EXP as a list of strings."
|
||
(define (add-reference-output ref result)
|
||
(match ref
|
||
(($ <gexp-output> name)
|
||
(cons name result))
|
||
(($ <gexp-input> (? gexp? exp))
|
||
(append (gexp-outputs exp) result))
|
||
(($ <gexp-input> (lst ...) output native?)
|
||
;; XXX: Automatically convert LST.
|
||
(add-reference-output (map (match-lambda
|
||
((? gexp-input? x) x)
|
||
(x (%gexp-input x "out" native?)))
|
||
lst)
|
||
result))
|
||
((lst ...)
|
||
(fold-right add-reference-output result lst))
|
||
(_
|
||
result)))
|
||
|
||
(delete-duplicates
|
||
(add-reference-output (gexp-references exp) '())))
|
||
|
||
(define* (gexp->sexp exp #:key
|
||
(system (%current-system))
|
||
(target (%current-target-system)))
|
||
"Return (monadically) the sexp corresponding to EXP for the given OUTPUT,
|
||
and in the current monad setting (system type, etc.)"
|
||
(define* (reference->sexp ref #:optional native?)
|
||
(with-monad %store-monad
|
||
(match ref
|
||
(($ <gexp-output> output)
|
||
;; Output file names are not known in advance but the daemon defines
|
||
;; an environment variable for each of them at build time, so use
|
||
;; that trick.
|
||
(return `((@ (guile) getenv) ,output)))
|
||
(($ <gexp-input> (? gexp? exp) output n?)
|
||
(gexp->sexp exp
|
||
#:system system
|
||
#:target (if (or n? native?) #f target)))
|
||
(($ <gexp-input> (refs ...) output n?)
|
||
(sequence %store-monad
|
||
(map (lambda (ref)
|
||
;; XXX: Automatically convert REF to an gexp-input.
|
||
(reference->sexp
|
||
(if (gexp-input? ref)
|
||
ref
|
||
(%gexp-input ref "out" n?))
|
||
(or n? native?)))
|
||
refs)))
|
||
(($ <gexp-input> (? struct? thing) output n?)
|
||
(let ((target (if (or n? native?) #f target))
|
||
(expand (lookup-expander thing)))
|
||
(mlet %store-monad ((obj (lower-object thing system
|
||
#:target target)))
|
||
;; OBJ must be either a derivation or a store file name.
|
||
(return (expand thing obj output)))))
|
||
(($ <gexp-input> x)
|
||
(return x))
|
||
(x
|
||
(return x)))))
|
||
|
||
(mlet %store-monad
|
||
((args (sequence %store-monad
|
||
(map reference->sexp (gexp-references exp)))))
|
||
(return (apply (gexp-proc exp) args))))
|
||
|
||
(define (syntax-location-string s)
|
||
"Return a string representing the source code location of S."
|
||
(let ((props (syntax-source s)))
|
||
(if props
|
||
(let ((file (assoc-ref props 'filename))
|
||
(line (and=> (assoc-ref props 'line) 1+))
|
||
(column (assoc-ref props 'column)))
|
||
(if file
|
||
(simple-format #f "~a:~a:~a"
|
||
file line column)
|
||
(simple-format #f "~a:~a" line column)))
|
||
"<unknown location>")))
|
||
|
||
(define-syntax-parameter current-imported-modules
|
||
;; Current list of imported modules.
|
||
(identifier-syntax '()))
|
||
|
||
(define-syntax-rule (with-imported-modules modules body ...)
|
||
"Mark the gexps defined in BODY... as requiring MODULES in their execution
|
||
environment."
|
||
(syntax-parameterize ((current-imported-modules
|
||
(identifier-syntax modules)))
|
||
body ...))
|
||
|
||
(define-syntax gexp
|
||
(lambda (s)
|
||
(define (collect-escapes exp)
|
||
;; Return all the 'ungexp' present in EXP.
|
||
(let loop ((exp exp)
|
||
(result '()))
|
||
(syntax-case exp (ungexp
|
||
ungexp-splicing
|
||
ungexp-native
|
||
ungexp-native-splicing)
|
||
((ungexp _)
|
||
(cons exp result))
|
||
((ungexp _ _)
|
||
(cons exp result))
|
||
((ungexp-splicing _ ...)
|
||
(cons exp result))
|
||
((ungexp-native _ ...)
|
||
(cons exp result))
|
||
((ungexp-native-splicing _ ...)
|
||
(cons exp result))
|
||
((exp0 exp ...)
|
||
(let ((result (loop #'exp0 result)))
|
||
(fold loop result #'(exp ...))))
|
||
(_
|
||
result))))
|
||
|
||
(define (escape->ref exp)
|
||
;; Turn 'ungexp' form EXP into a "reference".
|
||
(syntax-case exp (ungexp ungexp-splicing
|
||
ungexp-native ungexp-native-splicing
|
||
output)
|
||
((ungexp output)
|
||
#'(gexp-output "out"))
|
||
((ungexp output name)
|
||
#'(gexp-output name))
|
||
((ungexp thing)
|
||
#'(%gexp-input thing "out" #f))
|
||
((ungexp drv-or-pkg out)
|
||
#'(%gexp-input drv-or-pkg out #f))
|
||
((ungexp-splicing lst)
|
||
#'(%gexp-input lst "out" #f))
|
||
((ungexp-native thing)
|
||
#'(%gexp-input thing "out" #t))
|
||
((ungexp-native drv-or-pkg out)
|
||
#'(%gexp-input drv-or-pkg out #t))
|
||
((ungexp-native-splicing lst)
|
||
#'(%gexp-input lst "out" #t))))
|
||
|
||
(define (substitute-ungexp exp substs)
|
||
;; Given EXP, an 'ungexp' or 'ungexp-native' form, substitute it with
|
||
;; the corresponding form in SUBSTS.
|
||
(match (assoc exp substs)
|
||
((_ id)
|
||
id)
|
||
(_
|
||
#'(syntax-error "error: no 'ungexp' substitution"
|
||
#'ref))))
|
||
|
||
(define (substitute-ungexp-splicing exp substs)
|
||
(syntax-case exp ()
|
||
((exp rest ...)
|
||
(match (assoc #'exp substs)
|
||
((_ id)
|
||
(with-syntax ((id id))
|
||
#`(append id
|
||
#,(substitute-references #'(rest ...) substs))))
|
||
(_
|
||
#'(syntax-error "error: no 'ungexp-splicing' substitution"
|
||
#'ref))))))
|
||
|
||
(define (substitute-references exp substs)
|
||
;; Return a variant of EXP where all the cars of SUBSTS have been
|
||
;; replaced by the corresponding cdr.
|
||
(syntax-case exp (ungexp ungexp-native
|
||
ungexp-splicing ungexp-native-splicing)
|
||
((ungexp _ ...)
|
||
(substitute-ungexp exp substs))
|
||
((ungexp-native _ ...)
|
||
(substitute-ungexp exp substs))
|
||
(((ungexp-splicing _ ...) rest ...)
|
||
(substitute-ungexp-splicing exp substs))
|
||
(((ungexp-native-splicing _ ...) rest ...)
|
||
(substitute-ungexp-splicing exp substs))
|
||
((exp0 exp ...)
|
||
#`(cons #,(substitute-references #'exp0 substs)
|
||
#,(substitute-references #'(exp ...) substs)))
|
||
(x #''x)))
|
||
|
||
(syntax-case s (ungexp output)
|
||
((_ exp)
|
||
(let* ((escapes (delete-duplicates (collect-escapes #'exp)))
|
||
(formals (generate-temporaries escapes))
|
||
(sexp (substitute-references #'exp (zip escapes formals)))
|
||
(refs (map escape->ref escapes)))
|
||
#`(make-gexp (list #,@refs)
|
||
current-imported-modules
|
||
(lambda #,formals
|
||
#,sexp)))))))
|
||
|
||
|
||
;;;
|
||
;;; Module handling.
|
||
;;;
|
||
|
||
(define %utils-module
|
||
;; This file provides 'mkdir-p', needed to implement 'imported-files' and
|
||
;; other primitives below. Note: We give the file name relative to this
|
||
;; file you are currently reading; 'search-path' could return a file name
|
||
;; relative to the current working directory.
|
||
(local-file "build/utils.scm"
|
||
"build-utils.scm"))
|
||
|
||
(define* (imported-files files
|
||
#:key (name "file-import")
|
||
(system (%current-system))
|
||
(guile (%guile-for-build)))
|
||
"Return a derivation that imports FILES into STORE. FILES must be a list
|
||
of (FINAL-PATH . FILE-NAME) pairs; each FILE-NAME is read from the file
|
||
system, imported, and appears under FINAL-PATH in the resulting store path."
|
||
(define file-pair
|
||
(match-lambda
|
||
((final-path . file-name)
|
||
(mlet %store-monad ((file (interned-file file-name
|
||
(basename final-path))))
|
||
(return (list final-path file))))))
|
||
|
||
(mlet %store-monad ((files (sequence %store-monad
|
||
(map file-pair files))))
|
||
(define build
|
||
(gexp
|
||
(begin
|
||
(primitive-load (ungexp %utils-module)) ;for 'mkdir-p'
|
||
(use-modules (ice-9 match))
|
||
|
||
(mkdir (ungexp output)) (chdir (ungexp output))
|
||
(for-each (match-lambda
|
||
((final-path store-path)
|
||
(mkdir-p (dirname final-path))
|
||
(symlink store-path final-path)))
|
||
'(ungexp files)))))
|
||
|
||
;; TODO: Pass FILES as an environment variable so that BUILD remains
|
||
;; exactly the same regardless of FILES: less disk space, and fewer
|
||
;; 'add-to-store' RPCs.
|
||
(gexp->derivation name build
|
||
#:system system
|
||
#:guile-for-build guile
|
||
#:local-build? #t)))
|
||
|
||
(define* (imported-modules modules
|
||
#:key (name "module-import")
|
||
(system (%current-system))
|
||
(guile (%guile-for-build))
|
||
(module-path %load-path))
|
||
"Return a derivation that contains the source files of MODULES, a list of
|
||
module names such as `(ice-9 q)'. All of MODULES must be in the MODULE-PATH
|
||
search path."
|
||
;; TODO: Determine the closure of MODULES, build the `.go' files,
|
||
;; canonicalize the source files through read/write, etc.
|
||
(let ((files (map (lambda (m)
|
||
(let ((f (module->source-file-name m)))
|
||
(cons f (search-path* module-path f))))
|
||
modules)))
|
||
(imported-files files #:name name #:system system
|
||
#:guile guile)))
|
||
|
||
(define* (compiled-modules modules
|
||
#:key (name "module-import-compiled")
|
||
(system (%current-system))
|
||
(guile (%guile-for-build))
|
||
(module-path %load-path))
|
||
"Return a derivation that builds a tree containing the `.go' files
|
||
corresponding to MODULES. All the MODULES are built in a context where
|
||
they can refer to each other."
|
||
(mlet %store-monad ((modules (imported-modules modules
|
||
#:system system
|
||
#:guile guile
|
||
#:module-path
|
||
module-path)))
|
||
(define build
|
||
(gexp
|
||
(begin
|
||
(primitive-load (ungexp %utils-module)) ;for 'mkdir-p'
|
||
|
||
(use-modules (ice-9 ftw)
|
||
(srfi srfi-26)
|
||
(system base compile))
|
||
|
||
(define (regular? file)
|
||
(not (member file '("." ".."))))
|
||
|
||
(define (process-directory directory output)
|
||
(let ((entries (map (cut string-append directory "/" <>)
|
||
(scandir directory regular?))))
|
||
(for-each (lambda (entry)
|
||
(if (file-is-directory? entry)
|
||
(let ((output (string-append output "/"
|
||
(basename entry))))
|
||
(mkdir-p output)
|
||
(process-directory entry output))
|
||
(let* ((base (string-drop-right
|
||
(basename entry)
|
||
4)) ;.scm
|
||
(output (string-append output "/" base
|
||
".go")))
|
||
(compile-file entry
|
||
#:output-file output
|
||
#:opts
|
||
%auto-compilation-options))))
|
||
entries)))
|
||
|
||
(set! %load-path (cons (ungexp modules) %load-path))
|
||
(mkdir (ungexp output))
|
||
(chdir (ungexp modules))
|
||
(process-directory "." (ungexp output)))))
|
||
|
||
;; TODO: Pass MODULES as an environment variable.
|
||
(gexp->derivation name build
|
||
#:system system
|
||
#:guile-for-build guile
|
||
#:local-build? #t)))
|
||
|
||
|
||
;;;
|
||
;;; Convenience procedures.
|
||
;;;
|
||
|
||
(define (default-guile)
|
||
;; Lazily resolve 'guile-final'. This module must not refer to (gnu …)
|
||
;; modules directly, to avoid circular dependencies, hence this hack.
|
||
(module-ref (resolve-interface '(gnu packages commencement))
|
||
'guile-final))
|
||
|
||
(define (load-path-expression modules)
|
||
"Return as a monadic value a gexp that sets '%load-path' and
|
||
'%load-compiled-path' to point to MODULES, a list of module names."
|
||
(mlet %store-monad ((modules (imported-modules modules))
|
||
(compiled (compiled-modules modules)))
|
||
(return (gexp (eval-when (expand load eval)
|
||
(set! %load-path
|
||
(cons (ungexp modules) %load-path))
|
||
(set! %load-compiled-path
|
||
(cons (ungexp compiled)
|
||
%load-compiled-path)))))))
|
||
|
||
(define* (gexp->script name exp
|
||
#:key (guile (default-guile)))
|
||
"Return an executable script NAME that runs EXP using GUILE, with EXP's
|
||
imported modules in its search path."
|
||
(mlet %store-monad ((set-load-path
|
||
(load-path-expression (gexp-modules exp))))
|
||
(gexp->derivation name
|
||
(gexp
|
||
(call-with-output-file (ungexp output)
|
||
(lambda (port)
|
||
;; Note: that makes a long shebang. When the store
|
||
;; is /gnu/store, that fits within the 128-byte
|
||
;; limit imposed by Linux, but that may go beyond
|
||
;; when running tests.
|
||
(format port
|
||
"#!~a/bin/guile --no-auto-compile~%!#~%"
|
||
(ungexp guile))
|
||
|
||
(write '(ungexp set-load-path) port)
|
||
(write '(ungexp exp) port)
|
||
(chmod port #o555)))))))
|
||
|
||
(define* (gexp->file name exp #:key (set-load-path? #t))
|
||
"Return a derivation that builds a file NAME containing EXP. When
|
||
SET-LOAD-PATH? is true, emit code in the resulting file to set '%load-path'
|
||
and '%load-compiled-path' to honor EXP's imported modules."
|
||
(match (if set-load-path? (gexp-modules exp) '())
|
||
(() ;zero modules
|
||
(gexp->derivation name
|
||
(gexp
|
||
(call-with-output-file (ungexp output)
|
||
(lambda (port)
|
||
(write '(ungexp exp) port))))
|
||
#:local-build? #t
|
||
#:substitutable? #f))
|
||
((modules ...)
|
||
(mlet %store-monad ((set-load-path (load-path-expression modules)))
|
||
(gexp->derivation name
|
||
(gexp
|
||
(call-with-output-file (ungexp output)
|
||
(lambda (port)
|
||
(write '(ungexp set-load-path) port)
|
||
(write '(ungexp exp) port))))
|
||
#:local-build? #t
|
||
#:substitutable? #f)))))
|
||
|
||
(define* (text-file* name #:rest text)
|
||
"Return as a monadic value a derivation that builds a text file containing
|
||
all of TEXT. TEXT may list, in addition to strings, objects of any type that
|
||
can be used in a gexp: packages, derivations, local file objects, etc. The
|
||
resulting store file holds references to all these."
|
||
(define builder
|
||
(gexp (call-with-output-file (ungexp output "out")
|
||
(lambda (port)
|
||
(display (string-append (ungexp-splicing text)) port)))))
|
||
|
||
(gexp->derivation name builder
|
||
#:local-build? #t
|
||
#:substitutable? #f))
|
||
|
||
(define* (mixed-text-file name #:rest text)
|
||
"Return an object representing store file NAME containing TEXT. TEXT is a
|
||
sequence of strings and file-like objects, as in:
|
||
|
||
(mixed-text-file \"profile\"
|
||
\"export PATH=\" coreutils \"/bin:\" grep \"/bin\")
|
||
|
||
This is the declarative counterpart of 'text-file*'."
|
||
(define build
|
||
(gexp (call-with-output-file (ungexp output "out")
|
||
(lambda (port)
|
||
(display (string-append (ungexp-splicing text)) port)))))
|
||
|
||
(computed-file name build))
|
||
|
||
|
||
;;;
|
||
;;; Syntactic sugar.
|
||
;;;
|
||
|
||
(eval-when (expand load eval)
|
||
(define* (read-ungexp chr port #:optional native?)
|
||
"Read an 'ungexp' or 'ungexp-splicing' form from PORT. When NATIVE? is
|
||
true, use 'ungexp-native' and 'ungexp-native-splicing' instead."
|
||
(define unquote-symbol
|
||
(match (peek-char port)
|
||
(#\@
|
||
(read-char port)
|
||
(if native?
|
||
'ungexp-native-splicing
|
||
'ungexp-splicing))
|
||
(_
|
||
(if native?
|
||
'ungexp-native
|
||
'ungexp))))
|
||
|
||
(match (read port)
|
||
((? symbol? symbol)
|
||
(let ((str (symbol->string symbol)))
|
||
(match (string-index-right str #\:)
|
||
(#f
|
||
`(,unquote-symbol ,symbol))
|
||
(colon
|
||
(let ((name (string->symbol (substring str 0 colon)))
|
||
(output (substring str (+ colon 1))))
|
||
`(,unquote-symbol ,name ,output))))))
|
||
(x
|
||
`(,unquote-symbol ,x))))
|
||
|
||
(define (read-gexp chr port)
|
||
"Read a 'gexp' form from PORT."
|
||
`(gexp ,(read port)))
|
||
|
||
;; Extend the reader
|
||
(read-hash-extend #\~ read-gexp)
|
||
(read-hash-extend #\$ read-ungexp)
|
||
(read-hash-extend #\+ (cut read-ungexp <> <> #t)))
|
||
|
||
;;; gexp.scm ends here
|