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;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2015, 2016, 2017, 2018 Ludovic Courtès <ludo@gnu.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; GNU Guix is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Guix is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Guix.  If not, see <http://www.gnu.org/licenses/>.

(define-module (guix scripts graph)
  #:use-module (guix ui)
  #:use-module (guix graph)
  #:use-module (guix grafts)
  #:use-module (guix scripts)
  #:use-module (guix packages)
  #:use-module (guix monads)
  #:use-module (guix store)
  #:use-module (guix gexp)
  #:use-module (guix derivations)
  #:use-module (guix memoization)
  #:use-module (guix modules)
  #:use-module ((guix build-system gnu) #:select (standard-packages))
  #:use-module (gnu packages)
  #:use-module (guix sets)
  #:use-module ((guix utils) #:select (location-file))
  #:use-module (srfi srfi-1)
  #:use-module (srfi srfi-26)
  #:use-module (srfi srfi-34)
  #:use-module (srfi srfi-35)
  #:use-module (srfi srfi-37)
  #:use-module (ice-9 match)
  #:export (%package-node-type
            %reverse-package-node-type
            %bag-node-type
            %bag-with-origins-node-type
            %bag-emerged-node-type
            %derivation-node-type
            %reference-node-type
            %referrer-node-type
            %module-node-type
            %node-types

            guix-graph))


;;;
;;; Package DAG.
;;;

(define (node-full-name thing)
  "Return a human-readable name to denote THING, a package, origin, or file
name."
  (cond ((package? thing)
         (package-full-name thing))
        ((origin? thing)
         (origin-actual-file-name thing))
        ((string? thing)                          ;file name
         (or (basename thing)
             (error "basename" thing)))
        (else
         (number->string (object-address thing) 16))))

(define (package-node-edges package)
  "Return the list of dependencies of PACKAGE."
  (match (package-direct-inputs package)
    (((labels packages . outputs) ...)
     ;; Filter out origins and other non-package dependencies.
     (filter package? packages))))

(define assert-package
  (match-lambda
    ((? package? package)
     package)
    (x
     (raise
      (condition
       (&message
        (message (format #f (G_ "~a: invalid argument (package name expected)")
                         x))))))))

(define nodes-from-package
  ;; The default conversion method.
  (lift1 (compose list assert-package) %store-monad))

(define %package-node-type
  ;; Type for the traversal of package nodes.
  (node-type
   (name "package")
   (description "the DAG of packages, excluding implicit inputs")
   (convert nodes-from-package)

   ;; We use package addresses as unique identifiers.  This generally works
   ;; well, but for generated package objects, we could end up with two
   ;; packages that are not 'eq?', yet map to the same derivation (XXX).
   (identifier (lift1 object-address %store-monad))
   (label node-full-name)
   (edges (lift1 package-node-edges %store-monad))))


;;;
;;; Reverse package DAG.
;;;

(define %reverse-package-node-type
  ;; For this node type we first need to compute the list of packages and the
  ;; list of back-edges.  Since we want to do it only once, we use the
  ;; promises below.
  (let* ((packages   (delay (fold-packages cons '())))
         (back-edges (delay (run-with-store #f    ;store not actually needed
                              (node-back-edges %package-node-type
                                               (force packages))))))
    (node-type
     (inherit %package-node-type)
     (name "reverse-package")
     (description "the reverse DAG of packages")
     (edges (lift1 (force back-edges) %store-monad)))))


;;;
;;; Package DAG using bags.
;;;

(define (bag-node-identifier thing)
  "Return a unique identifier for THING, which may be a package, origin, or a
file name."
  ;; If THING is a file name (a string), we just return it; if it's a package
  ;; or origin, we return its address.  That gives us the object graph, but
  ;; that may differ from the derivation graph (for instance,
  ;; 'package-with-bootstrap-guile' generates fresh package objects, and
  ;; several packages that are not 'eq?' may actually map to the same
  ;; derivation.)  Thus, we lower THING and use its derivation file name as a
  ;; unique identifier.
  (with-monad %store-monad
    (if (string? thing)
        (return thing)
        (mlet %store-monad ((low (lower-object thing)))
          (return (if (derivation? low)
                      (derivation-file-name low)
                      low))))))

(define (bag-node-edges thing)
  "Return the list of dependencies of THING, a package or origin.
Dependencies may include packages, origin, and file names."
  (cond ((package? thing)
         (match (bag-direct-inputs (package->bag thing))
           (((labels things . outputs) ...)
            things)))
        ((origin? thing)
         (cons (or (origin-patch-guile thing) (default-guile))
               (if (or (pair? (origin-patches thing))
                       (origin-snippet thing))
                   (match (origin-patch-inputs thing)
                     (#f '())
                     (((labels dependencies _ ...) ...)
                      (delete-duplicates dependencies eq?)))
                   '())))
        (else
         '())))

(define %bag-node-type
  ;; Type for the traversal of package nodes via the "bag" representation,
  ;; which includes implicit inputs.
  (node-type
   (name "bag")
   (description "the DAG of packages, including implicit inputs")
   (convert nodes-from-package)
   (identifier bag-node-identifier)
   (label node-full-name)
   (edges (lift1 (compose (cut filter package? <>) bag-node-edges)
                 %store-monad))))

(define %bag-with-origins-node-type
  (node-type
   (name "bag-with-origins")
   (description "the DAG of packages and origins, including implicit inputs")
   (convert nodes-from-package)
   (identifier bag-node-identifier)
   (label node-full-name)
   (edges (lift1 (lambda (thing)
                   (filter (match-lambda
                             ((? package?) #t)
                             ((? origin?)  #t)
                             (_            #f))
                           (bag-node-edges thing)))
                 %store-monad))))

(define standard-package-set
  (mlambda ()
    "Return the set of standard packages provided by GNU-BUILD-SYSTEM."
    (match (standard-packages)
      (((labels packages . output) ...)
       (list->setq packages)))))

(define (bag-node-edges-sans-bootstrap thing)
  "Like 'bag-node-edges', but pretend that the standard packages of
GNU-BUILD-SYSTEM have zero dependencies."
  (if (set-contains? (standard-package-set) thing)
      '()
      (bag-node-edges thing)))

(define %bag-emerged-node-type
  ;; Like %BAG-NODE-TYPE, but without the bootstrap subset of the DAG.
  (node-type
   (name "bag-emerged")
   (description "same as 'bag', but without the bootstrap nodes")
   (convert nodes-from-package)
   (identifier bag-node-identifier)
   (label node-full-name)
   (edges (lift1 (compose (cut filter package? <>)
                          bag-node-edges-sans-bootstrap)
                 %store-monad))))


;;;
;;; Derivation DAG.
;;;

(define (derivation-dependencies obj)
  "Return the <derivation> objects and store items corresponding to the
dependencies of OBJ, a <derivation> or store item."
  (if (derivation? obj)
      (append (map (compose read-derivation-from-file derivation-input-path)
                   (derivation-inputs obj))
              (derivation-sources obj))
      '()))

(define (derivation-node-identifier node)
  "Return a unique identifier for NODE, which may be either a <derivation> or
a plain store file."
  (if (derivation? node)
      (derivation-file-name node)
      node))

(define (derivation-node-label node)
  "Return a label for NODE, a <derivation> object or plain store item."
  (store-path-package-name (match node
                             ((? derivation? drv)
                              (derivation-file-name drv))
                             ((? string? file)
                              file))))

(define %derivation-node-type
  ;; DAG of derivations.  Very accurate, very detailed, but usually too much
  ;; detailed.
  (node-type
   (name "derivation")
   (description "the DAG of derivations")
   (convert (match-lambda
              ((? package? package)
               (with-monad %store-monad
                 (>>= (package->derivation package)
                      (lift1 list %store-monad))))
              ((? derivation-path? item)
               (mbegin %store-monad
                 ((store-lift add-temp-root) item)
                 (return (list (read-derivation-from-file item)))))
              (x
               (raise
                (condition (&message (message "unsupported argument for \
derivation graph")))))))
   (identifier (lift1 derivation-node-identifier %store-monad))
   (label derivation-node-label)
   (edges (lift1 derivation-dependencies %store-monad))))


;;;
;;; DAG of residual references (aka. run-time dependencies).
;;;

(define ensure-store-items
  ;; Return a list of store items as a monadic value based on the given
  ;; argument, which may be a store item or a package.
  (match-lambda
    ((? package? package)
     ;; Return the output file names of PACKAGE.
     (mlet %store-monad ((drv (package->derivation package)))
       (return (match (derivation->output-paths drv)
                 (((_ . file-names) ...)
                  file-names)))))
    ((? store-path? item)
     (with-monad %store-monad
       (return (list item))))
    (x
     (raise
      (condition (&message (message "unsupported argument for \
this type of graph")))))))

(define (references* item)
  "Return as a monadic value the references of ITEM, based either on the
information available in the local store or using information about
substitutes."
  (lambda (store)
    (guard (c ((nix-protocol-error? c)
               (match (substitutable-path-info store (list item))
                 ((info)
                  (values (substitutable-references info) store))
                 (()
                  (leave (G_ "references for '~a' are not known~%")
                         item)))))
      (values (references store item) store))))

(define %reference-node-type
  (node-type
   (name "references")
   (description "the DAG of run-time dependencies (store references)")
   (convert ensure-store-items)
   (identifier (lift1 identity %store-monad))
   (label store-path-package-name)
   (edges references*)))

(define non-derivation-referrers
  (let ((referrers (store-lift referrers)))
    (lambda (item)
      "Return the referrers of ITEM, except '.drv' files."
      (mlet %store-monad ((items (referrers item)))
        (return (remove derivation-path? items))))))

(define %referrer-node-type
  (node-type
   (name "referrers")
   (description "the DAG of referrers in the store")
   (convert ensure-store-items)
   (identifier (lift1 identity %store-monad))
   (label store-path-package-name)
   (edges non-derivation-referrers)))


;;;
;;; Scheme modules.
;;;

(define (module-from-package package)
  (file-name->module-name (location-file (package-location package))))

(define (source-module-dependencies* module)
  "Like 'source-module-dependencies' but filter out modules that are not
package modules, while attempting to retain user package modules."
  (remove (match-lambda
            (('guix _ ...) #t)
            (('system _ ...) #t)
            (('language _ ...) #t)
            (('ice-9 _ ...) #t)
            (('srfi _ ...) #t)
            (_ #f))
          (source-module-dependencies module)))

(define %module-node-type
  ;; Show the graph of package modules.
  (node-type
   (name "module")
   (description "the graph of package modules")
   (convert (lift1 (compose list module-from-package) %store-monad))
   (identifier (lift1 identity %store-monad))
   (label object->string)
   (edges (lift1 source-module-dependencies* %store-monad))))


;;;
;;; List of node types.
;;;

(define %node-types
  ;; List of all the node types.
  (list %package-node-type
        %reverse-package-node-type
        %bag-node-type
        %bag-with-origins-node-type
        %bag-emerged-node-type
        %derivation-node-type
        %reference-node-type
        %referrer-node-type
        %module-node-type))

(define (lookup-node-type name)
  "Return the node type called NAME.  Raise an error if it is not found."
  (or (find (lambda (type)
              (string=? (node-type-name type) name))
            %node-types)
      (leave (G_ "~a: unknown node type~%") name)))

(define (lookup-backend name)
  "Return the graph backend called NAME.  Raise an error if it is not found."
  (or (find (lambda (backend)
              (string=? (graph-backend-name backend) name))
            %graph-backends)
      (leave (G_ "~a: unknown backend~%") name)))

(define (list-node-types)
  "Print the available node types along with their synopsis."
  (display (G_ "The available node types are:\n"))
  (newline)
  (for-each (lambda (type)
              (format #t "  - ~a: ~a~%"
                      (node-type-name type)
                      (node-type-description type)))
            %node-types))

(define (list-backends)
  "Print the available backends along with their synopsis."
  (display (G_ "The available backend types are:\n"))
  (newline)
  (for-each (lambda (backend)
              (format #t "  - ~a: ~a~%"
                      (graph-backend-name backend)
                      (graph-backend-description backend)))
            %graph-backends))


;;;
;;; Command-line options.
;;;

(define %options
  (list (option '(#\t "type") #t #f
                (lambda (opt name arg result)
                  (alist-cons 'node-type (lookup-node-type arg)
                              result)))
        (option '("list-types") #f #f
                (lambda (opt name arg result)
                  (list-node-types)
                  (exit 0)))
        (option '(#\b "backend") #t #f
                (lambda (opt name arg result)
                  (alist-cons 'backend (lookup-backend arg)
                              result)))
        (option '("list-backends") #f #f
                (lambda (opt name arg result)
                  (list-backends)
                  (exit 0)))
        (option '(#\e "expression") #t #f
                (lambda (opt name arg result)
                  (alist-cons 'expression arg result)))
        (option '(#\h "help") #f #f
                (lambda args
                  (show-help)
                  (exit 0)))
        (option '(#\V "version") #f #f
                (lambda args
                  (show-version-and-exit "guix edit")))))

(define (show-help)
  ;; TRANSLATORS: Here 'dot' is the name of a program; it must not be
  ;; translated.
  (display (G_ "Usage: guix graph PACKAGE...
Emit a representation of the dependency graph of PACKAGE...\n"))
  (display (G_ "
  -b, --backend=TYPE     produce a graph with the given backend TYPE"))
  (display (G_ "
      --list-backends    list the available graph backends"))
  (display (G_ "
  -t, --type=TYPE        represent nodes of the given TYPE"))
  (display (G_ "
      --list-types       list the available graph types"))
  (display (G_ "
  -e, --expression=EXPR  consider the package EXPR evaluates to"))
  (newline)
  (display (G_ "
  -h, --help             display this help and exit"))
  (display (G_ "
  -V, --version          display version information and exit"))
  (newline)
  (show-bug-report-information))

(define %default-options
  `((node-type . ,%package-node-type)
    (backend   . ,%graphviz-backend)))


;;;
;;; Entry point.
;;;

(define (guix-graph . args)
  (with-error-handling
    (let* ((opts     (parse-command-line args %options
                                         (list %default-options)
                                         #:build-options? #f))
           (backend  (assoc-ref opts 'backend))
           (type     (assoc-ref opts 'node-type))
           (items    (filter-map (match-lambda
                                   (('argument . (? store-path? item))
                                    item)
                                   (('argument . spec)
                                    (specification->package spec))
                                   (('expression . exp)
                                    (read/eval-package-expression exp))
                                   (_ #f))
                                 opts)))
      (with-store store
        ;; Ask for absolute file names so that .drv file names passed from the
        ;; user to 'read-derivation' are absolute when it returns.
        (with-fluids ((%file-port-name-canonicalization 'absolute))
          (run-with-store store
            ;; XXX: Since grafting can trigger unsolicited builds, disable it.
            (mlet %store-monad ((_     (set-grafting #f))
                                (nodes (mapm %store-monad
                                             (node-type-convert type)
                                             items)))
              (export-graph (concatenate nodes)
                            (current-output-port)
                            #:node-type type
                            #:backend backend)))))))
  #t)

;;; graph.scm ends here