guix/guix/import/cabal.scm

;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2015 Federico Beffa <beffa@fbengineering.ch>
;;; Copyright © 2018 Ricardo Wurmus <rekado@elephly.net>
;;; Copyright © 2021 Xinglu Chen <public@yoctocell.xyz>
;;;
;;; 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 import cabal)
  #:use-module (ice-9 match)
  #:use-module (ice-9 regex)
  #:use-module (ice-9 rdelim)
  #:use-module (srfi srfi-26)
  #:use-module (srfi srfi-34)
  #:use-module (srfi srfi-35)
  #:use-module (srfi srfi-11)
  #:use-module (srfi srfi-1)
  #:use-module (srfi srfi-9)
  #:use-module (srfi srfi-9 gnu)
  #:use-module (system base lalr)
  #:use-module (rnrs enums)
  #:use-module (guix utils)
  #:export (read-cabal
            eval-cabal
            
            cabal-custom-setup-dependencies

            cabal-package?
            cabal-package-name
            cabal-package-version
            cabal-package-revision
            cabal-package-license
            cabal-package-home-page
            cabal-package-source-repository
            cabal-package-synopsis
            cabal-package-description
            cabal-package-executables
            cabal-package-library
            cabal-package-test-suites
            cabal-package-flags
            cabal-package-eval-environment
            cabal-package-custom-setup

            cabal-source-repository?
            cabal-source-repository-use-case
            cabal-source-repository-type
            cabal-source-repository-location

            cabal-flag?
            cabal-flag-name
            cabal-flag-description
            cabal-flag-default
            cabal-flag-manual

            cabal-dependency?
            cabal-dependency-name
            cabal-dependency-version

            cabal-executable?
            cabal-executable-name
            cabal-executable-dependencies

            cabal-library?
            cabal-library-name
            cabal-library-dependencies

            cabal-test-suite?
            cabal-test-suite-name
            cabal-test-suite-dependencies))

;; Part 1:
;;
;; Functions used to read a Cabal file.

;; Comment:
;;
;; The use of virtual closing braces VCCURLY and some lexer functions were
;; inspired from http://hackage.haskell.org/package/haskell-src

;; Object containing information about the structure of a block: (i) delimited
;; by braces or by indentation, (ii) minimum indentation.
(define-record-type  <parse-context>
  (make-parse-context mode indentation)
  parse-context?
  (mode parse-context-mode)                ; 'layout or 'no-layout
  (indentation parse-context-indentation)) ; #f for 'no-layout

;; <parse-context> mode set universe
(define-enumeration context (layout no-layout) make-context)

(define (make-stack)
  "Creates a simple stack closure.  Actions on the generated stack are
requested by calling it with one of the following symbols as the first
argument: 'empty?, 'push!, 'top, 'pop! and 'clear!.  The action 'push! is the
only one requiring a second argument corresponding to the object to be added
to the stack."
  (let ((stack '()))
    (lambda (msg . args)
      (cond ((eqv? msg 'empty?) (null? stack))
            ((eqv? msg 'push!) (set! stack (cons (first args) stack)))
            ((eqv? msg 'top) (if (null? stack) '() (first stack)))
            ((eqv? msg 'pop!) (match stack
                                ((e r ...) (set! stack (cdr stack)) e)
                                (_ #f)))
            ((eqv? msg 'clear!) (set! stack '()))
            (else #f)))))

;; Stack to track the structure of nested blocks and simple interface
(define context-stack (make-parameter (make-stack)))

(define (context-stack-empty?) ((context-stack) 'empty?))

(define (context-stack-push! e) ((context-stack) 'push! e))

(define (context-stack-top) ((context-stack) 'top))

(define (context-stack-pop!) ((context-stack) 'pop!))

(define (context-stack-clear!) ((context-stack) 'clear!))

;; Indentation of the line being parsed and that of the previous line.
(define current-indentation* (make-parameter 0))

(define previous-indentation (make-parameter 0))

(define* (current-indentation #:optional value)
  (if value
    (begin
      (previous-indentation (current-indentation*))
      (current-indentation* value))
    (current-indentation*)))

;; Signal to reprocess the beginning of line, in case we need to close more
;; than one indentation level.
(define check-bol? (make-parameter #f))

;; Name of the file being parsed. Used in error messages.
(define cabal-file-name (make-parameter "unknowk"))

;; Specify the grammar of a Cabal file and generate a suitable syntax analyser.
(define (make-cabal-parser)
  "Generate a parser for Cabal files."
  (lalr-parser
   ;; --- token definitions
   (CCURLY VCCURLY OPAREN CPAREN TEST ID VERSION RELATION TRUE FALSE -ANY -NONE
           (right: IF FLAG EXEC TEST-SUITE CUSTOM-SETUP SOURCE-REPO BENCHMARK LIB COMMON OCURLY)
           (left: OR)
           (left: PROPERTY AND)
           (right: ELIF ELSE NOT))
   ;; --- rules
   (body        (properties sections)   : (append $1 $2))
   (sections    (sections flags)        : (append $1 $2)
                (sections source-repo)  : (append $1 (list $2))
                (sections executables)  : (append $1 $2)
                (sections test-suites)  : (append $1 $2)
                (sections common)       : (append $1 $2)
                (sections custom-setup) : (append $1 $2)
                (sections benchmarks)   : (append $1 $2)
                (sections lib-sec)      : (append $1 (list $2))
                ()                      : '())
   (flags       (flags flag-sec)        : (append $1 (list $2))
                (flag-sec)              : (list $1))
   (flag-sec    (FLAG OCURLY properties CCURLY) : `(section flag ,$1 ,$3)
                (FLAG open properties close)    : `(section flag ,$1 ,$3)
                (FLAG)                          : `(section flag ,$1 '()))
   (source-repo (SOURCE-REPO OCURLY properties CCURLY)
                : `(section source-repository ,$1 ,$3)
                (SOURCE-REPO open properties close)
                : `(section source-repository ,$1 ,$3))
   (properties  (properties PROPERTY)   : (append $1 (list $2))
                (PROPERTY)              : (list $1))
   (executables (executables exec-sec)  : (append $1 (list $2))
                (exec-sec)              : (list $1))
   (exec-sec    (EXEC OCURLY exprs CCURLY) : `(section executable ,$1 ,$3)
                (EXEC open exprs close)    : `(section executable ,$1 ,$3))
   (test-suites (test-suites ts-sec)    : (append $1 (list $2))
                (ts-sec)                : (list $1))
   (ts-sec      (TEST-SUITE OCURLY exprs CCURLY) : `(section test-suite ,$1 ,$3)
                (TEST-SUITE open exprs close)    : `(section test-suite ,$1 ,$3))
   (common      (common common-sec)     : (append $1 (list $2))
                (common-sec)            : (list $1))
   (common-sec  (COMMON OCURLY exprs CCURLY)     : `(section common ,$1 ,$3)
                (COMMON open exprs close)        : `(section common ,$1 ,$3))
   (custom-setup (CUSTOM-SETUP exprs) : (list `(section custom-setup ,$1 ,$2)))
   (benchmarks  (benchmarks bm-sec)     : (append $1 (list $2))
                (bm-sec)                : (list $1))
   (bm-sec      (BENCHMARK OCURLY exprs CCURLY) : `(section benchmark ,$1 ,$3)
                (BENCHMARK open exprs close)    : `(section benchmark ,$1 ,$3))
   (lib-sec     (LIB OCURLY exprs CCURLY) : `(section library ,$1 ,$3)
                (LIB open exprs close)    : `(section library ,$1 ,$3))
   (exprs       (exprs PROPERTY)         : (append $1 (list $2))
                (PROPERTY)               : (list $1)
                (exprs elif-else)          : (append $1 (list ($2 '(()))))
                (elif-else)                : (list ($1 '(()))))
   ;; LALR(1) parsers prefer to be left-recursive, which make if-statements slightly involved.
   (elif        (elif ELIF tests OCURLY exprs CCURLY) : (lambda (y) ($1 (list (append (list 'if $3 $5) y))))
                (elif ELIF tests open exprs close) : (lambda (y) ($1 (list (append (list 'if $3 $5) y))))
                ;; Terminating rule.
                (if-then) : (lambda (y) (append $1 y)))
   (elif-else   (elif ELSE OCURLY exprs CCURLY) : (lambda (y) ($1 (list $4)))
                (elif ELSE open exprs close)    : (lambda (y) ($1 (list $4)))
                (elif)                          : $1)
   (if-then     (IF tests OCURLY exprs CCURLY) : (list 'if $2 $4)
                (IF tests open exprs close)    : (list 'if $2 $4))
   (tests       (TEST OPAREN ID CPAREN)        : `(,$1 ,$3)
                (TRUE)                         : 'true
                (FALSE)                        : 'false
                (TEST OPAREN ID RELATION VERSION CPAREN)
                : `(,$1 ,(string-append $3 " " $4 " " $5))
                (TEST OPAREN ID -ANY CPAREN)
                : `(,$1 ,(string-append $3 " -any"))
                (TEST OPAREN ID -NONE CPAREN)
                : `(,$1 ,(string-append $3 " -none"))
                (TEST OPAREN ID RELATION VERSION AND RELATION VERSION CPAREN)
                : `(and (,$1 ,(string-append $3 " " $4 " " $5))
                        (,$1 ,(string-append $3 " " $7 " " $8)))
               (NOT tests)                     : `(not ,$2)
               (tests AND tests)               : `(and ,$1 ,$3)
               (tests OR tests)                : `(or ,$1 ,$3)
               (OPAREN tests CPAREN)           : $2)
   (open       () : (context-stack-push!
                                   (make-parse-context (context layout)
                                                       (+ 1 (previous-indentation)))))
   (close      (VCCURLY))))

(define (peek-next-line-indent port)
  "This function can be called when the next character on PORT is #\newline
and returns the indentation of the line starting after the #\newline
character.  Discard (and consume) empty and comment lines."
  (if (eof-object? (peek-char port))
      ;; If the file is missing the #\newline on the last line, add it and act
      ;; as if it were there. This is needed for proper operation of
      ;; indentation based block recognition (based on ‘port-column’).
      (begin (unread-char #\newline port) (read-char port) 0)
      (let ((initial-newline (string (read-char port))))
        (let loop ((char (peek-char port))
                   (word ""))
          (cond ((eqv? char #\newline) (read-char port)
                 (loop (peek-char port) ""))
                ((or (eqv? char #\space) (eqv? char #\tab))
                 (let ((c (read-char port)))
                   (loop (peek-char port) (string-append word (string c)))))
                ((comment-line port char) (loop (peek-char port) ""))
                (else
                 (let ((len (string-length word)))
                   (unread-string (string-append initial-newline word) port)
                   len)))))))

(define* (read-value port value min-indent #:optional (separator " "))
  "The next character on PORT must be #\newline.  Append to VALUE the
following lines with indentation larger than MIN-INDENT."
  (let loop ((val (string-trim-both value))
             (x (peek-next-line-indent port)))
    (if (> x min-indent)
        (begin
          (read-char port) ; consume #\newline
          (loop (string-append
                 val (if (string-null? val) "" separator)
                 (string-trim-both (read-delimited "\n" port 'peek)))
                (peek-next-line-indent port)))
        val)))

(define* (read-braced-value port)
  "Read up to a closing brace."
  (string-trim-both (read-delimited "}" port 'trim)))

(define (lex-white-space port bol)
  "Consume white spaces and comment lines on PORT.  If a new line is started return #t,
otherwise return BOL (beginning-of-line)."
  (let loop ((c (peek-char port))
             (bol bol))
    (cond
     ((and (not (eof-object? c))
           (or (char=? c #\space) (char=? c #\tab)))
      (read-char port)
      (loop (peek-char port) bol))
     ((and (not (eof-object? c)) (char=? c #\newline))
      (read-char port)
      (loop (peek-char port) #t))
     ((comment-line port c)
      (lex-white-space port bol))
     (else
      bol))))

(define (lex-bol port)
  "Process the beginning of a line on PORT: update current-indentation and
check the end of an indentation based context."
  (let ((loc (make-source-location (cabal-file-name) (port-line port)
                                   (port-column port) -1 -1)))
    (current-indentation (source-location-column loc))
    (case (get-offside port)
      ((less-than)
       (check-bol? #t) ; need to check if closing more than 1 indent level.
       (unless (context-stack-empty?) (context-stack-pop!))
       (make-lexical-token 'VCCURLY loc #f))
      (else
       (lex-token port)))))

(define (bol? port) (or (check-bol?) (= (port-column port) 0)))

(define (comment-line port c)
  "If PORT starts with a comment line, consume it up to, but not including
#\newline.  C is the next character on PORT."
  (cond ((and (not (eof-object? c)) (char=? c #\-))
         (read-char port)
         (let ((c2 (peek-char port)))
           (if (char=? c2 #\-)
               (read-delimited "\n" port 'peek)
               (begin (unread-char c port) #f))))
        (else #f)))

(define-enumeration ordering (less-than equal greater-than) make-ordering)

(define (get-offside port)
  "In an indentation based context return the symbol 'greater-than, 'equal or
'less-than to signal if the current column number on PORT is greater-, equal-,
or less-than the indentation of the current context."
  (let ((x (port-column port)))
    (match (context-stack-top)
      (($ <parse-context> 'layout indentation)
       (cond
        ((> x indentation) (ordering greater-than))
        ((= x indentation) (ordering equal))
        (else (ordering less-than))))
      (_ (ordering greater-than)))))
 
;; (Semi-)Predicates for individual tokens.

(define (is-relation? c)
  (and (char? c) (any (cut char=? c <>) '(#\< #\> #\=))))

(define* (make-rx-matcher pat #:optional (flag #f))
  "Compile PAT into a regular expression with FLAG and creates a function
matching a string against the created regexp."
  (let ((rx (if flag
                (make-regexp pat flag)
                (make-regexp pat))))
    (cut regexp-exec rx <>)))

(define is-layout-property (make-rx-matcher "([a-z0-9-]+)[ \t]*:[ \t]*(\\w?[^{}]*)"
                                            regexp/icase))

(define is-braced-property (make-rx-matcher "([a-z0-9-]+)[ \t]*:[ \t]*\\{[ \t]*$"
                                            regexp/icase))

(define is-flag (make-rx-matcher "^flag +([a-z0-9_-]+)"
                                 regexp/icase))

(define is-src-repo
  (make-rx-matcher "^source-repository +([a-z0-9_-]+)"
                   regexp/icase))

(define is-exec (make-rx-matcher "^executable +([a-z0-9_-]+)"
                                 regexp/icase))

(define is-test-suite (make-rx-matcher "^test-suite +([a-z0-9_-]+)"
                                       regexp/icase))

(define is-common (make-rx-matcher "^common +([a-z0-9_-]+)"
                                   regexp/icase))

(define is-custom-setup (make-rx-matcher "^(custom-setup)"
                                         regexp/icase))

(define is-benchmark (make-rx-matcher "^benchmark +([a-z0-9_-]+)"
                                      regexp/icase))

;; Libraries can have optional names since Cabal 2.0.
(define is-lib (make-rx-matcher "^library(\\s+([a-z0-9_-]+))?\\s*" regexp/icase))

(define (is-else s) (string-ci=? s "else"))

(define (is-elif s) (string-ci=? s "elif"))

(define (is-if s) (string-ci=? s "if"))

(define (is-true s) (string-ci=? s "true"))

(define (is-false s) (string-ci=? s "false"))

(define (is-any s) (string-ci=? s "-any"))

(define (is-none s) (string-ci=? s "-none"))

(define (is-and s) (string=? s "&&"))

(define (is-or s) (string=? s "||"))

(define (is-id s port loc)
  (let ((cabal-reserved-words
         '("if" "else" "elif" "library" "flag" "executable" "test-suite"
           "custom-setup" "source-repository" "benchmark" "common"))
        (spaces (read-while (cut char-set-contains? char-set:blank <>) port))
        (c (peek-char port)))
    (unread-string spaces port)
    ;; Sometimes the name of an identifier is the same as one of the reserved
    ;; words, which would normally lead to an error, see
    ;; <https://debbugs.gnu.org/cgi/bugreport.cgi?bug=25138>.  Unless the word
    ;; is at the beginning of a line (excluding whitespace), treat is as just
    ;; another identifier instead of a reserved word.
    (and (or (not (= (source-location-column loc) (current-indentation)))
             (every (cut string-ci<> s <>) cabal-reserved-words))
         (and (not (char=? (last (string->list s)) #\:))
              (not (char=? #\: c))))))

(define (is-test s port)
  (let ((tests-rx (make-regexp "os|arch|flag|impl"))
        (spaces (read-while (cut char-set-contains? char-set:blank <>) port))
        (c (peek-char port)))
    (if (and (regexp-exec tests-rx s) (char=? #\( c))
        #t
        (begin (unread-string spaces port) #f))))

;; Lexers for individual tokens.

(define (lex-relation loc port)
  (make-lexical-token 'RELATION loc (read-while is-relation? port)))

(define (lex-version loc port)
  (make-lexical-token 'VERSION loc
                      (read-while (lambda (x)
                                    (or (char-numeric? x)
                                        (char=? x #\*)
                                        (char=? x #\.)))
                                  port)))

(define* (read-while is? port #:optional
                     (is-if-followed-by? (lambda (c) #f))
                     (is-allowed-follower? (lambda (c) #f)))
  "Read from PORT as long as: (i) either the read character satisfies the
predicate IS?, or (ii) it satisfies the predicate IS-IF-FOLLOWED-BY? and the
character immediately following it satisfies IS-ALLOWED-FOLLOWER?.  Returns a
string with the read characters."
  (let loop ((c (peek-char port))
             (res '()))
    (cond ((and (not (eof-object? c)) (is? c))
           (let ((c (read-char port)))
             (loop (peek-char port) (append res (list c)))))
          ((and (not (eof-object? c)) (is-if-followed-by? c))
           (let ((c (read-char port))
                 (c2 (peek-char port)))
             (if (and (not (eof-object? c2)) (is-allowed-follower? c2))
                 (loop c2 (append res (list c)))
                 (begin (unread-char c) (list->string res)))))
          (else (list->string res)))))

(define (lex-layout-property k-v-rx-res loc port)
  (let ((key (string-downcase (match:substring k-v-rx-res 1)))
        (value (match:substring k-v-rx-res 2)))
    (make-lexical-token
     'PROPERTY loc
     (list key `(,(if (eqv? (peek-char port) #\newline) ; The next character
                      ; is not necessarily a newline if a bracket follows the property.
                      (read-value port value (current-indentation))
                      value))))))

(define (lex-braced-property k-rx-res loc port)
  (let ((key (string-downcase (match:substring k-rx-res 1))))
    (make-lexical-token
     'PROPERTY loc
     (list key `(,(read-braced-value port))))))

(define* (lex-rx-res rx-res token loc #:optional (substring-id 1))
  (let* ((match (match:substring rx-res substring-id))
         (name (if match (string-downcase match) match)))
    (make-lexical-token token loc name)))

(define (lex-flag flag-rx-res loc) (lex-rx-res flag-rx-res 'FLAG loc))

(define (lex-src-repo src-repo-rx-res loc)
  (lex-rx-res src-repo-rx-res 'SOURCE-REPO loc))

(define (lex-exec exec-rx-res loc) (lex-rx-res exec-rx-res 'EXEC loc))

(define (lex-test-suite ts-rx-res loc) (lex-rx-res ts-rx-res 'TEST-SUITE loc))

(define (lex-common common-rx-res loc) (lex-rx-res common-rx-res 'COMMON loc))

(define (lex-custom-setup ts-rx-res loc) (lex-rx-res ts-rx-res 'CUSTOM-SETUP loc))

(define (lex-benchmark bm-rx-res loc) (lex-rx-res bm-rx-res 'BENCHMARK loc))

(define (lex-lib lib-rx-res loc) (lex-rx-res lib-rx-res 'LIB loc 2))

(define (lex-else loc) (make-lexical-token 'ELSE loc #f))

(define (lex-elif loc) (make-lexical-token 'ELIF loc #f))

(define (lex-if loc) (make-lexical-token 'IF loc #f))

(define (lex-true loc) (make-lexical-token 'TRUE loc #t))

(define (lex-false loc) (make-lexical-token 'FALSE loc #f))

(define (lex-any loc) (make-lexical-token '-ANY loc #f))

(define (lex-none loc) (make-lexical-token '-NONE loc #f))

(define (lex-and loc) (make-lexical-token 'AND loc #f))

(define (lex-or loc) (make-lexical-token 'OR loc #f))

(define (lex-id w loc) (make-lexical-token 'ID loc w))

(define (lex-test w loc) (make-lexical-token 'TEST loc (string->symbol w)))

;; Lexer for tokens recognizable by single char.

(define* (is-ref-char->token ref-char next-char token loc port
                         #:optional (hook-fn #f))
  "If the next character NEXT-CHAR on PORT is REF-CHAR, then read it,
execute HOOK-FN if it isn't #f and return a lexical token of type TOKEN with
location information LOC."
  (cond ((char=? next-char ref-char)
         (read-char port)
         (when hook-fn (hook-fn))
         (make-lexical-token token loc (string next-char)))
        (else #f)))

(define (is-ocurly->token c loc port)
  (is-ref-char->token #\{ c 'OCURLY loc port
                  (lambda ()
                    (context-stack-push! (make-parse-context
                                          (context no-layout) #f)))))

(define (is-ccurly->token c loc port)
  (is-ref-char->token #\} c 'CCURLY loc port (lambda () (context-stack-pop!))))

(define (is-oparen->token c loc port)
  (is-ref-char->token #\( c 'OPAREN loc port))

(define (is-cparen->token c loc port)
  (is-ref-char->token #\) c 'CPAREN loc port))

(define (is-not->token c loc port)
  (is-ref-char->token #\! c 'NOT loc port))

(define (is-version? c) (char-numeric? c))

;; Main lexer functions

(define (lex-single-char port loc)
  "Process tokens which can be recognised by peeking the next character on
PORT.  If no token can be recognized return #f.  LOC is the current port
location."
  (let* ((c (peek-char port)))
    (cond ((eof-object? c) (read-char port) '*eoi*)
          ((is-ocurly->token c loc port))
          ((is-ccurly->token c loc port))
          ((is-oparen->token c loc port))
          ((is-cparen->token c loc port))
          ((is-not->token c loc port))
          ((is-version? c) (lex-version loc port))
          ((is-relation? c) (lex-relation loc port))
          (else
           #f))))

(define (lex-word port loc)
  "Process tokens which can be recognized by reading the next word form PORT.
LOC is the current port location."
  (let* ((w (read-delimited " <>=():\t\n" port 'peek)))
    (cond ((is-if w) (lex-if loc))
          ((is-elif w) (lex-elif loc))
          ((is-else w) (lex-else loc))
          ((is-test w port) (lex-test w loc))
          ((is-true w) (lex-true loc))
          ((is-false w) (lex-false loc))
          ((is-any w) (lex-any loc))
          ((is-none w) (lex-none loc))
          ((is-and w) (lex-and loc))
          ((is-or w) (lex-or loc))
          ((is-id w port loc) (lex-id w loc))
          (else (unread-string w port) #f))))

(define (lex-line port loc)
  "Process tokens which can be recognised by reading a line from PORT.  LOC is
the current port location."
  (let* ((s (read-delimited "\n{}" port 'peek)))
    (cond
     ((is-flag s) => (cut lex-flag <> loc))
     ((is-src-repo s) => (cut lex-src-repo <> loc))
     ((is-exec s) => (cut lex-exec <> loc))
     ((is-test-suite s) => (cut lex-test-suite <> loc))
     ((is-common s) => (cut lex-common <> loc))
     ((is-custom-setup s) => (cut lex-custom-setup <> loc))
     ((is-benchmark s) => (cut lex-benchmark <> loc))
     ((is-lib s) => (cut lex-lib <> loc))
     (else (unread-string s port) #f))))

(define (lex-property port loc)
  ;; Stop reading on a }, so closing brackets (for example during
  ;; if-clauses) work properly.
  (let* ((s (read-delimited "\n}" port 'peek)))
    (cond
      ((is-braced-property s) => (cut lex-braced-property <> loc port))
      ((is-layout-property s) => (cut lex-layout-property <> loc port))
      (else #f))))

(define (lex-token port)
  (let* ((loc (make-source-location (cabal-file-name) (port-line port)
                                    (port-column port) -1 -1)))
    (or (lex-single-char port loc)
        (lex-word port loc)
        (lex-line port loc)
        (lex-property port loc))))

;; Lexer- and error-function generators

(define (errorp)
  "Generates the lexer error function."
  (let ((p (current-error-port)))
    (lambda (message . args)
      (format p "~a" message)
      (if (and (pair? args) (lexical-token? (car args)))
          (let* ((token (car args))
                 (source (lexical-token-source token))
                 (line (source-location-line source))
                 (column (source-location-column source)))
            (format p "~a " (or (lexical-token-value token)
                                 (lexical-token-category token)))
            (when (and (number? line) (number? column))
              (format p "(at line ~a, column ~a)" (1+ line) column)))
          (for-each display args))
      (format p "~%"))))

(define (make-lexer port)
  "Generate the Cabal lexical analyser reading from PORT."
  (let ((p port))
    (lambda ()
      (let ((bol (lex-white-space p (bol? p))))
        (check-bol? #f)
        (if bol (lex-bol p) (lex-token p))))))

(define* (read-cabal #:optional (port (current-input-port))
                     (file-name #f))
  "Read a Cabal file from PORT.  FILE-NAME is a string used in error messages.
If #f use the function 'port-filename' to obtain it."
  (let ((cabal-parser (make-cabal-parser)))
    (parameterize ((cabal-file-name
                    (or file-name (port-filename port) "standard input"))
                   (current-indentation* 0)
                   (previous-indentation 0)
                   (check-bol? #f)
                   (context-stack (make-stack)))
      (cabal-parser (make-lexer port) (errorp)))))

;; Part 2:
;;
;; Evaluate the S-expression returned by 'read-cabal'.

;; This defines the object and interface that we provide to access the Cabal
;; file information.  Note that this does not include all the pieces of
;; information of the Cabal file, but only the ones we currently are
;; interested in.
(define-record-type <cabal-package>
  (make-cabal-package name version revision license home-page source-repository
                      synopsis description
                      executables lib test-suites
                      flags eval-environment custom-setup)
  cabal-package?
  (name   cabal-package-name)
  (version cabal-package-version)
  (revision cabal-package-revision)
  (license cabal-package-license)
  (home-page cabal-package-home-page)
  (source-repository cabal-package-source-repository)
  (synopsis cabal-package-synopsis)
  (description cabal-package-description)
  (executables cabal-package-executables)
  (lib cabal-package-library) ; 'library' is a Scheme keyword
  (test-suites cabal-package-test-suites)
  (flags cabal-package-flags)
  (eval-environment cabal-package-eval-environment) ; alist
  (custom-setup cabal-package-custom-setup))

(set-record-type-printer! <cabal-package>
                          (lambda (package port)
                            (format port "#<cabal-package ~a@~a>"
                                      (cabal-package-name package)
                                      (cabal-package-version package))))

(define-record-type <cabal-source-repository>
  (make-cabal-source-repository use-case type location)
  cabal-source-repository?
  (use-case cabal-source-repository-use-case)
  (type cabal-source-repository-type)
  (location cabal-source-repository-location))

;; We need to be able to distinguish the value of a flag from the Scheme #t
;; and #f values.
(define-record-type <cabal-flag>
  (make-cabal-flag name description default manual)
  cabal-flag?
  (name cabal-flag-name)
  (description cabal-flag-description)
  (default cabal-flag-default) ; 'true or 'false
  (manual cabal-flag-manual))  ; 'true or 'false

(set-record-type-printer! <cabal-flag>
                          (lambda (package port)
                            (format port "#<cabal-flag ~a default:~a>"
                                      (cabal-flag-name package)
                                      (cabal-flag-default package))))

(define-record-type <cabal-dependency>
  (make-cabal-dependency name version)
  cabal-dependency?
  (name cabal-dependency-name)
  (version cabal-dependency-version))

(define-record-type <cabal-executable>
  (make-cabal-executable name dependencies)
  cabal-executable?
  (name cabal-executable-name)
  (dependencies cabal-executable-dependencies)) ; list of <cabal-dependency>

(define-record-type <cabal-library>
  (make-cabal-library name dependencies)
  cabal-library?
  (name cabal-library-name)
  (dependencies cabal-library-dependencies)) ; list of <cabal-dependency>

(define-record-type <cabal-test-suite>
  (make-cabal-test-suite name dependencies)
  cabal-test-suite?
  (name cabal-test-suite-name)
  (dependencies cabal-test-suite-dependencies)) ; list of <cabal-dependency>

(define-record-type <cabal-custom-setup>
  (make-cabal-custom-setup name dependencies)
  cabal-custom-setup?
  (name cabal-custom-setup-name)
  (dependencies cabal-custom-setup-dependencies)) ; list of <cabal-dependency>

(define (cabal-flags->alist flag-list)
    "Return an alist associating the flag name to its default value from a
list of <cabal-flag> objects."
  (map (lambda (flag) (cons (cabal-flag-name flag) (cabal-flag-default flag)))
       flag-list))

(define (eval-cabal cabal-sexp env)
  "Given the CABAL-SEXP produced by 'read-cabal', evaluate all conditionals
and return a 'cabal-package' object.  The values of all tests can be
overwritten by specifying the desired value in ENV.  ENV must be an alist.
The accepted keys are: \"os\", \"arch\", \"impl\" and a name of a flag.  The
value associated with a flag has to be either \"true\" or \"false\".  The
value associated with other keys has to conform to the Cabal file format
definition."
  (define (os name)
    (let ((env-os (or (assoc-ref env "os") "linux")))
      (string-match env-os name)))
  
  (define (arch name)
    (let ((env-arch (or (assoc-ref env "arch") "x86_64")))
      (string-match env-arch name)))

  (define (comp-name+version haskell)
    "Extract the compiler name and version from the string HASKELL."
    (let* ((matcher-fn (make-rx-matcher "([a-zA-Z0-9_]+)-([0-9.]+)"))
           (name (or (and=> (matcher-fn haskell) (cut match:substring <> 1))
                     haskell))
           (version (and=> (matcher-fn haskell) (cut match:substring <> 2))))
      (values name version)))

  (define (comp-spec-name+op+version spec)
    "Extract the compiler specification from SPEC.  Return the compiler name,
the ordering operation and the version."
    (let* ((with-ver-matcher-fn (make-rx-matcher
                                 "([a-zA-Z0-9_-]+) *([<>=]+) *([0-9.]+) *"))
           (without-ver-matcher-fn (make-rx-matcher "([a-zA-Z0-9_-]+)"))
           (without-ver-matcher-fn-2 (make-rx-matcher "([a-zA-Z0-9_-]+) (-any|-none)"))
           (name (or (and=> (with-ver-matcher-fn spec)
                            (cut match:substring <> 1))
                     (and=> (without-ver-matcher-fn-2 spec)
                            (cut match:substring <> 1))
                     (match:substring (without-ver-matcher-fn spec) 1)))
           (operator (or (and=> (with-ver-matcher-fn spec)
                                (cut match:substring <> 2))
                         (and=> (without-ver-matcher-fn-2 spec)
                                (cut match:substring <> 2))))
           (version (or (and=> (with-ver-matcher-fn spec)
                               (cut match:substring <> 3))
                        (and=> (without-ver-matcher-fn-2 spec)
                               (cut match:substring <> 2)))))
      (values name operator version)))
  
  (define (impl haskell)
    (let*-values (((comp-name comp-ver)
                   (comp-name+version (or (assoc-ref env "impl") "ghc")))
                  ((spec-name spec-op spec-ver)
                   (comp-spec-name+op+version haskell)))
      (if (and spec-ver comp-ver)
          (cond
           ((not (string= spec-name comp-name)) #f)
           ((string= spec-op "==") (string= spec-ver comp-ver))
           ((string= spec-op ">=") (version>=? comp-ver spec-ver))
           ((string= spec-op ">") (version>? comp-ver spec-ver))
           ((string= spec-op "<=") (not (version>? comp-ver spec-ver)))
           ((string= spec-op "<") (not (version>=? comp-ver spec-ver)))
           ((string= spec-op "-any") #t)
           ((string= spec-op "-none") #f)
           (else
            (raise (condition
                    (&message (message "Failed to evaluate 'impl' test."))))))
          (string-match spec-name comp-name))))

  (define (cabal-flags)
    (make-cabal-section cabal-sexp 'flag))
  
  (define (flag name)
    (let ((value (or (assoc-ref env name)
                     (assoc-ref (cabal-flags->alist (cabal-flags)) name))))
      (if (eq? value 'false) #f #t)))

  (define common-stanzas
    (filter-map (match-lambda
                  (('section 'common common-name common)
                   (cons common-name common))
                  (_ #f))
                cabal-sexp))

  (define (eval sexp)
    "Given an SEXP and an ENV, return the evaluated (SEXP . ENV)."
    (match sexp
      (() '())
      ;; nested 'if'
      ((('if predicate true-group false-group) rest ...)
       (append (if (eval predicate)
                   (eval true-group)
                   (eval false-group))
               (eval rest)))
      (('if predicate true-group false-group)
       (if (eval predicate)
           (eval true-group)
           (eval false-group)))
      (('flag name) (flag name))
      (('os name) (os name))
      (('arch name) (arch name))
      (('impl name) (impl name))
      ('true #t)
      ('false #f)
      (('not name) (not (eval name)))
      ;; 'and' and 'or' aren't functions, thus we can't use apply
      (('and args ...) (fold (lambda (e s) (and e s)) #t (eval args)))
      (('or args ...) (fold (lambda (e s) (or e s)) #f (eval args)))
      ;; no need to evaluate flag parameters
      (('section 'flag name parameters)
       (list 'section 'flag name parameters))
      (('section 'custom-setup parameters)
       (list 'section 'custom-setup parameters))
      (('section type name parameters)
       (list 'section type name (eval parameters)))
      (((? string? name) values)
       (list name values))
      ((("import" imports) rest ...)
       (eval (append (append-map
                     ;; The imports are (at least sometimes) a list with one string
                     ;; containing all the names separeted by commas. This splits
                     ;; those strings to a list of strings in the same format that is
                     ;; used in common-stanzas.
                     (cut assoc-ref common-stanzas <>)
                      (append-map (lambda (imports-string)
                                    (map (compose string-downcase string-trim-both)
                                         (string-split imports-string #\,)))
                                  imports))
                     rest)))
      ((element rest ...)
       (cons (eval element) (eval rest)))
      (_ (raise (condition
                 (&message (message "Failed to evaluate Cabal file. \
See the manual for limitations.")))))))

  (define (cabal-evaluated-sexp->package evaluated-sexp)
    (let* ((name (lookup-join evaluated-sexp "name"))
           (version (lookup-join evaluated-sexp "version"))
           (revision (lookup-join evaluated-sexp "x-revision"))
           (license (lookup-join evaluated-sexp "license"))
           (home-page (lookup-join evaluated-sexp "homepage"))
           (home-page-or-hackage
            (if (string-null? home-page)
                (string-append "http://hackage.haskell.org/package/" name)
                home-page))
           (source-repository (make-cabal-section evaluated-sexp
                                                  'source-repository))
           (synopsis (lookup-join evaluated-sexp "synopsis"))
           (description (lookup-join evaluated-sexp "description"))
           (executables (make-cabal-section evaluated-sexp 'executable))
           (lib (make-cabal-section evaluated-sexp 'library))
           (test-suites (make-cabal-section evaluated-sexp 'test-suite))
           (flags (make-cabal-section evaluated-sexp 'flag))
           (eval-environment '())
           (custom-setup (match (make-cabal-section evaluated-sexp 'custom-setup)
                           ((x) x)
                           (_ #f))))
      (make-cabal-package name version revision license home-page-or-hackage
                          source-repository synopsis description executables lib
                          test-suites flags eval-environment custom-setup)))

  ((compose cabal-evaluated-sexp->package eval) cabal-sexp))

(define (make-cabal-section sexp section-type)
  "Given an SEXP as produced by 'read-cabal', produce a list of objects
pertaining to SECTION-TYPE sections.  SECTION-TYPE must be one of:
'executable, 'flag, 'test-suite, 'custom-setup, 'source-repository or
'library."
  (filter-map (cut match <>
                   (('section (? (cut equal? <> section-type)) name parameters)
                    (case section-type
                      ((test-suite) (make-cabal-test-suite
                                      name (dependencies parameters)))
                      ((custom-setup) (make-cabal-custom-setup
                                       name (dependencies parameters "setup-depends")))
                      ((executable) (make-cabal-executable
                                      name (dependencies parameters)))
                      ((source-repository) (make-cabal-source-repository
                                            name
                                            (lookup-join parameters "type")
                                            (lookup-join parameters "location")))
                      ((library) (make-cabal-library name
                                                     (dependencies parameters)))
                      ((flag)
                       (let* ((default (lookup-join parameters "default"))
                              (default-true-or-false
                                (if (and default (string-ci=? "false" default))
                                    'false
                                    'true))
                              (description (lookup-join parameters "description"))
                              (manual (lookup-join parameters "manual"))
                              (manual-true-or-false
                               (if (and manual (string-ci=? "true" manual))
                                   'true
                                   'false)))
                         (make-cabal-flag name description
                                          default-true-or-false
                                          manual-true-or-false)))
                      (else #f)))
                   (_ #f))
              sexp))

(define* (lookup-join key-values-list key #:optional (delimiter " "))
  "Lookup and joint all values pertaining to keys of value KEY in
KEY-VALUES-LIST.  The optional DELIMITER is used to specify a delimiter string
to be added between the values found in different key/value pairs."
  (string-join 
   (filter-map (cut match <> 
                    (((? (lambda(x) (equal? x key))) value)
                     (string-join value delimiter))
                    (_ #f))
               key-values-list)
   delimiter))

(define dependency-name-version-rx
  (make-regexp "([a-zA-Z0-9_-]+) *(.*)"))

(define* (dependencies key-values-list #:optional (key "build-depends"))
  "Return a list of 'cabal-dependency' objects for the dependencies found in
KEY-VALUES-LIST."
  (let ((deps (string-tokenize (lookup-join key-values-list key ",")
                               (char-set-complement (char-set #\,)))))
    (map (lambda (d)
           (let ((rx-result (regexp-exec dependency-name-version-rx d)))
             (make-cabal-dependency
              (match:substring rx-result 1)
              (match:substring rx-result 2))))
         deps)))

;;; cabal.scm ends here