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;; gallina-syntax.el Font lock expressions for Coq
;; Copyright (C) 1997-2007 LFCS Edinburgh. 
;; Authors: Thomas Kleymann, Healfdene Goguen, Pierre Courtieu
;; License:     GPL (GNU GENERAL PUBLIC LICENSE)
;; Maintainer: Pierre Courtieu <courtieu@lri.fr>

;; gallina-syntax.el,v 9.9 2008/07/21 15:14:58 pier Exp

;(require 'proof-syntax)
;(require 'proof-utils)                  ; proof-locate-executable
(require 'gallina-db)



 ;;; keyword databases


(defcustom coq-user-tactics-db nil
  "User defined tactic information.  See `coq-syntax-db' for
 syntax. It is not necessary to add your own tactics here (it is not
 needed by the synchronizing/backtracking system). You may however do
 so for the following reasons:

   1 your tactics will be colorized by font-lock

   2 your tactics will be added to the menu and to completion when
   calling \\[coq-insert-tactic]

   3 you may define an abbreviation for your tactic."

  :type '(repeat sexp)
  :group 'coq)


(defcustom coq-user-commands-db nil
  "User defined command information.  See `coq-syntax-db' for
 syntax. It is not necessary to add your own commands here (it is not
 needed by the synchronizing/backtracking system). You may however do
 so for the following reasons:

   1 your commands will be colorized by font-lock

   2 your commands will be added to the menu and to completion when
   calling \\[coq-insert-command]

   3 you may define an abbreviation for your command."

  :type '(repeat sexp)
  :group 'coq)

(defcustom coq-user-tacticals-db nil
  "User defined tactical information.  See `coq-syntax-db' for
 syntax. It is not necessary to add your own commands here (it is not
 needed by the synchronizing/backtracking system). You may however do
 so for the following reasons:

   1 your commands will be colorized by font-lock

   2 your commands will be added to the menu and to completion when
   calling \\[coq-insert-command]

   3 you may define an abbreviation for your command."

  :type '(repeat sexp)
  :group 'coq)

(defcustom coq-user-solve-tactics-db nil
  "User defined closing tactics. See `coq-syntax-db' for
 syntax. It is not necessary to add your own commands here (it is not
 needed by the synchronizing/backtracking system). You may however do
 so for the following reasons:

   1 your commands will be colorized by font-lock

   2 your commands will be added to the menu and to completion when
   calling \\[coq-insert-command]

   3 you may define an abbreviation for your command."

  :type '(repeat sexp)
  :group 'coq)



(defcustom coq-user-reserved-db nil
  "User defined reserved keywords information.  See `coq-syntax-db' for
 syntax. It is not necessary to add your own commands here (it is not
 needed by the synchronizing/backtracking system). You may however do
 so for the following reasons:

   1 your commands will be colorized by font-lock

   2 your commands will be added to the menu and to completion when
   calling \\[coq-insert-command]

   3 you may define an abbreviation for your command."

  :type '(repeat sexp)
  :group 'coq)



(defvar coq-tactics-db
  (append 
   coq-user-tactics-db
   '(
     ("absurd " "abs" "absurd " t "absurd")
     ("apply" "ap" "apply " t "apply")
     ("assert by" "assb" "assert ( # : # ) by #" t "assert")
     ("assert" "ass" "assert ( # : # )" t)
     ;;     ("assumption" "as" "assumption" t "assumption")
     ("auto with arith" "awa" "auto with arith" t)
     ("auto with" "aw" "auto with @{db}" t)
     ("auto" "a" "auto" t "auto")
     ("autorewrite with in using" "arwiu" "autorewrite with @{db,db...} in @{hyp} using @{tac}" t)
     ("autorewrite with in" "arwi" "autorewrite with @{db,db...} in @{hyp}" t)
     ("autorewrite with using" "arwu" "autorewrite with @{db,db...} using @{tac}" t)
     ("autorewrite with" "ar" "autorewrite with @{db,db...}" t "autorewrite")
     ("case" "c" "case " t "case")
     ("cbv" "cbv" "cbv beta [#] delta iota zeta" t "cbv")
     ("change in" "chi" "change # in #" t)
     ("change with in" "chwi" "change # with # in #" t)
     ("change with" "chw" "change # with" t)
     ("change" "ch" "change " t "change")
     ("clear" "cl" "clear" t "clear")
     ("clearbody" "cl" "clearbody" t "clearbody")
     ("cofix" "cof" "cofix" t "cofix")
     ("coinduction" "coind" "coinduction" t "coinduction")
     ("compare" "cmpa" "compare # #" t "compare")
     ("compute" "cmpu" "compute" t "compute")
     ;;     ("congruence" "cong" "congruence" t "congruence")
     ("constructor" "cons" "constructor" t "constructor")
     ;;     ("contradiction" "contr" "contradiction" t "contradiction")
     ("cut" "cut" "cut" t "cut")
     ("cutrewrite" "cutr" "cutrewrite -> # = #" t "cutrewrite")
     ;;     ("decide equality" "deg" "decide equality" t "decide\\s-+equality")
     ("decompose record" "decr" "decompose record #" t "decompose\\s-+record")
     ("decompose sum" "decs" "decompose sum #" t "decompose\\s-+sum")
     ("decompose" "dec" "decompose [#] #" t "decompose")
     ("dependent inversion" "depinv" "dependent inversion" t "dependent\\s-+inversion")
     ("dependent inversion with" "depinvw" "dependent inversion # with #" t)
     ("dependent inversion_clear" "depinvc" "dependent inversion_clear" t "dependent\\s-+inversion_clear")
     ("dependent inversion_clear with" "depinvw" "dependent inversion_clear # with #" t)
     ("dependent rewrite ->" "depr" "dependent rewrite -> @{id}" t "dependent\\s-+rewrite")
     ("dependent rewrite <-" "depr<" "dependent rewrite <- @{id}" t)
     ("destruct as" "desa" "destruct # as #" t)
     ("destruct using" "desu" "destruct # using #" t)
     ("destruct" "des" "destruct " t  "destruct")
     ;;     ("discriminate" "dis" "discriminate" t "discriminate")
     ("discrR" "discrR" "discrR" t "discrR")
     ("double induction" "dind" "double induction # #" t "double\\s-+induction")
     ("eapply" "eap" "eapply #" t "eapply")
     ("eauto with arith" "eawa" "eauto with arith" t)
     ("eauto with" "eaw" "eauto with @{db}" t)
     ("eauto" "ea" "eauto" t "eauto")
     ("econstructor" "econs" "econstructor" t "econstructor")
     ("eexists" "eex" "eexists" t "eexists")
     ("eleft" "eleft" "eleft" t "eleft")
     ("elim using" "elu" "elim # using #" t)
     ("elim" "e" "elim #" t "elim")
     ("elimtype" "elt" "elimtype" "elimtype")
     ("eright" "erig" "eright" "eright")
     ("esplit" "esp" "esplit" t "esplit")
     ;;     ("exact" "exa" "exact" t "exact")
     ("exists" "ex" "exists #" t "exists")
     ;;     ("fail" "fa" "fail" nil)
     ;;     ("field" "field" "field" t "field")
     ("firstorder" "fsto" "firstorder" t "firstorder")
     ("firstorder with" "fsto" "firstorder with #" t)
     ("firstorder with using" "fsto" "firstorder # with #" t)
     ("fold" "fold" "fold #" t "fold")
     ;;     ("fourier" "four" "fourier" t "fourier")
     ("functional induction" "fi" "functional induction @{f} @{args}" t "functional\\s-+induction")
     ("generalize dependent" "gd" "generalize dependent #" t "generalize\\s-+dependent")
     ("generalize" "g" "generalize #" t "generalize")
     ("hnf" "hnf" "hnf" t "hnf")
     ("idtac" "id" "idtac" nil "idtac") ; also in tacticals with abbrev id
     ("idtac \"" "id\"" "idtac \"#\"")  ; also in tacticals
     ("induction" "ind" "induction #" t "induction")
     ("induction using" "indu" "induction # using #" t)
     ("injection" "inj" "injection #" t "injection")
     ("instantiate" "inst" "instantiate" t "instantiate")
     ("intro" "i" "intro" t "intro")
     ("intro after" "ia" "intro # after #" t)
     ("intros" "is" "intros #" t "intros")
     ("intros! (guess names)" nil "intros #" nil nil coq-insert-intros)
     ("intros until" "isu" "intros until #" t)
     ("intuition" "intu" "intuition #" t "intuition")
     ("inversion" "inv" "inversion #" t "inversion")
     ("inversion in" "invi" "inversion # in #" t)
     ("inversion using" "invu" "inversion # using #" t)
     ("inversion using in" "invui" "inversion # using # in #" t)
     ("inversion_clear" "invcl" "inversion_clear" t "inversion_clear")
     ("lapply" "lap" "lapply" t "lapply")
     ("lazy" "lazy" "lazy beta [#] delta iota zeta" t "lazy")
     ("left" "left" "left" t "left")
     ("linear" "lin" "linear" t "linear")
     ("load" "load" "load" t "load")
     ("move after" "mov" "move # after #" t "move")
     ("omega" "o" "omega" t "omega")
     ("pattern" "pat" "pattern" t "pattern")
     ("pattern(s)" "pats" "pattern # , #" t)
     ("pattern at" "pata" "pattern # at #" t)
     ("pose" "po" "pose ( # := # )" t "pose")
     ("prolog" "prol" "prolog" t "prolog")
     ("quote" "quote" "quote" t "quote")
     ("quote []" "quote2" "quote # [#]" t)
     ("red" "red" "red" t "red")
     ("refine" "ref" "refine" t "refine")
     ;;      ("reflexivity" "refl" "reflexivity #" t "reflexivity")
     ("rename into" "ren" "rename # into #" t "rename")
     ("replace with" "rep" "replace # with #" t "replace")
     ("replace with in" "repi" "replace # with # in #" t)
     ("rewrite <- in" "ri<" "rewrite <- # in #" t)
     ("rewrite <-" "r<" "rewrite <- #" t)
     ("rewrite in" "ri" "rewrite # in #" t)
     ("rewrite" "r" "rewrite #" t "rewrite")
     ("right" "rig" "right" t "right")
     ;;      ("ring" "ring" "ring #" t "ring")
     ("set in * |-" "seth" "set ( # := #) in * |-" t)
     ("set in *" "set*" "set ( # := #) in *" t)
     ("set in |- *" "setg" "set ( # := #) in |- *" t)
     ("set in" "seti" "set ( # := #) in #" t)
     ("set" "set" "set ( # := #)" t "set")
     ("setoid_replace with" "strep2" "setoid_replace # with #" t "setoid_replace")
     ("setoid replace with" "strep" "setoid replace # with #" t "setoid\\s-+replace")
     ("setoid_rewrite" "strew" "setoid_rewrite #" t "setoid_rewrite")
     ("setoid rewrite" "strew" "setoid rewrite #" t "setoid\\s-+rewrite")
     ("simpl" "s" "simpl" t "simpl")
     ("simpl" "sa" "simpl # at #" t)
     ("simple destruct" "sdes" "simple destruct" t "simple\\s-+destruct")
     ("simple inversion" "sinv" "simple inversion" t "simple\\s-+inversion")
     ("simple induction" "sind" "simple induction" t "simple\\s-+induction")
     ("simplify_eq" "simeq" "simplify_eq @{hyp}" t "simplify_eq")
     ("specialize" "spec" "specialize" t "specialize")
     ("split" "sp" "split" t "split")
     ("split_Rabs" "spra" "splitRabs" t "split_Rabs")
     ("split_Rmult" "sprm" "splitRmult" t "split_Rmult")
     ("stepl" "stl" "stepl #" t "stepl")
     ("stepl by" "stlb" "stepl # by #" t)
     ("stepr" "str" "stepr #" t "stepr")
     ("stepr by" "strb" "stepr # by #" t)
     ("subst" "su" "subst #" t "subst")
     ("symmetry" "sy" "symmetry" t "symmetry")
     ("symmetry in" "syi" "symmetry in #" t)
     ;;    ("tauto" "ta" "tauto" t "tauto")
     ("transitivity" "trans" "transitivity #" t "transitivity")
     ("trivial" "t" "trivial" t "trivial")
     ("trivial with" "tw" "trivial with @{db}" t)
     ("unfold" "u" "unfold #" t "unfold")
     ("unfold(s)" "us" "unfold # , #" t)
     ("unfold in" "unfi" "unfold # in #" t)
     ("unfold at" "unfa" "unfold # at #" t)
     ))
  "Coq tactics information list. See `coq-syntax-db' for syntax. "
  )

(defvar coq-solve-tactics-db
  (append
   coq-user-solve-tactics-db
   '(
     ("assumption" "as" "assumption" t "assumption")
     ("by" "by" "by #" t "by")
     ("congruence" "cong" "congruence" t "congruence")
     ("contradiction" "contr" "contradiction" t "contradiction")
     ("decide equality" "deg" "decide equality" t "decide\\s-+equality")
     ("discriminate" "dis" "discriminate" t "discriminate")
     ("exact" "exa" "exact" t "exact")
     ("fourier" "four" "fourier" t "fourier")
     ("fail" "fa" "fail" nil)
     ("field" "field" "field" t "field")
     ("omega" "o" "omega" t "omega")
     ("reflexivity" "refl" "reflexivity #" t "reflexivity")
     ("ring" "ring" "ring #" t "ring")
     ("solve" nil "solve [ # | # ]" nil "solve")
     ("tauto" "ta" "tauto" t "tauto")
     ))
  "Coq tactic(al)s that solve a subgoal." 
  )


(defvar coq-tacticals-db
  (append 
   coq-user-tacticals-db
   '(
     ("info" nil "info #" nil "info")
     ("first" nil "first [ # | # ]" nil "first")
     ("abstract" nil "abstract @{tac} using @{name}." nil "abstract")
     ("do" nil "do @{num} @{tac}" nil "do")
     ("idtac" nil "idtac")              ; also in tactics
                                        ;    ("idtac \"" nil "idtac \"#\"") ; also in tactics
     ("fail" "fa" "fail" nil "fail")
                                        ;    ("fail \"" "fa\"" "fail" nil) ;
                                        ;    ("orelse" nil "orelse #" t "orelse")
     ("repeat" nil "repeat #" nil "repeat")
     ("try" nil "try #" nil "try")
     ("progress" nil "progress #" nil "progress")
     ("|" nil "[ # | # ]" nil)
     ("||" nil "# || #" nil)
     ))
  "Coq tacticals information list.  See `coq-syntax-db' for syntax.")




(defvar coq-decl-db
  '(
    ("Axiom" "ax" "Axiom # : #" t "Axiom")
    ("Hint Constructors" "hc" "Hint Constructors # : #." t "Hint\\s-+Constructors")
    ("Hint Extern" "he" "Hint Extern @{cost} @{pat} => @{tac} : @{db}." t "Hint\\s-+Extern")
    ("Hint Immediate" "hi" "Hint Immediate # : @{db}." t "Hint\\s-+Immediate")
    ("Hint Resolve" "hr" "Hint Resolve # : @{db}." t "Hint\\s-+Resolve")
    ("Hint Rewrite ->" "hrw" "Hint Rewrite -> @{t1,t2...} using @{tac} : @{db}." t "Hint\\s-+Rewrite")
    ("Hint Rewrite <-" "hrw" "Hint Rewrite <- @{t1,t2...} using @{tac} : @{db}." t )
    ("Hint Unfold" "hu" "Hint Unfold # : #." t "Hint\\s-+Unfold")
    ("Hypothesis" "hyp" "Hypothesis #: #" t "Hypothesis")
    ("Hypotheses" "hyp" "Hypotheses #: #" t "Hypotheses")
    ("Parameter" "par" "Parameter #: #" t "Parameter")
    ("Parameters" "par" "Parameter #: #" t "Parameters")
    ("Conjecture" "conj" "Conjecture #: #." t "Conjecture")
    ("Variable" "v" "Variable #: #." t "Variable")
    ("Variables" "vs" "Variables # , #: #." t "Variables")	
    ("Coercion" "coerc" "Coercion @{id} : @{typ1} >-> @{typ2}." t "Coercion")
    )
  "Coq declaration keywords information list. See `coq-syntax-db' for syntax."
  )

(defvar coq-defn-db
  '(
    ("CoFixpoint" "cfix" "CoFixpoint # (#:#) : # :=\n#." t "CoFixpoint")
    ("CoInductive" "coindv" "CoInductive # : # :=\n|# : #." t "CoInductive") 
    ("Declare Module : :=" "dm" "Declare Module # : # := #." t "Declare\\s-+Module")
    ("Declare Module <: :=" "dm2" "Declare Module # <: # := #." t);; careful
    ("Declare Module Import : :=" "dmi" "Declare Module # : # := #." t)
    ("Declare Module Import <: :=" "dmi2" "Declare Module # <: # := #." t);; careful
    ("Declare Module Export : :=" "dme" "Declare Module # : # := #." t)
    ("Declare Module Export <: :=" "dme2" "Declare Module # <: # := #." t);; careful
    ("Definition" "def" "Definition #:# := #." t "Definition");; careful
    ("Definition (2 args)" "def2" "Definition # (# : #) (# : #):# := #." t)
    ("Definition (3 args)" "def3" "Definition # (# : #) (# : #) (# : #):# := #." t)
    ("Definition (4 args)" "def4" "Definition # (# : #) (# : #) (# : #) (# : #):# := #." t)
    ("Program Definition" "pdef" "Program Definition #:# := #." t "Program\\s-+Definition");; careful ?
    ("Program Definition (2 args)" "pdef2" "Program Definition # (# : #) (# : #):# := #." t)
    ("Program Definition (3 args)" "pdef3" "Program Definition # (# : #) (# : #) (# : #):# := #." t)
    ("Program Definition (4 args)" "pdef4" "Program Definition # (# : #) (# : #) (# : #) (# : #):# := #." t)
    ("Derive Inversion" nil "Derive Inversion @{id} with # Sort #." t "Derive\\s-+Inversion")
    ("Derive Dependent Inversion" nil "Derive Dependent Inversion @{id} with # Sort #." t "Derive\\s-+Dependent\\s-+Inversion")
    ("Derive Inversion_clear" nil "Derive Inversion_clear @{id} with # Sort #." t)
    ("Fixpoint" "fix" "Fixpoint # (#:#) {struct @{arg}} : # :=\n#." t "Fixpoint")
    ("Program Fixpoint" "pfix" "Program Fixpoint # (#:#) {struct @{arg}} : # :=\n#." t "Program\\s-+Fixpoint")
    ("Program Fixpoint measure" "pfixm" "Program Fixpoint # (#:#) {measure @{arg} @{f}} : # :=\n#." t)
    ("Program Fixpoint wf" "pfixwf" "Program Fixpoint # (#:#) {wf @{arg} @{f}} : # :=\n#." t)
    ("Function" "func" "Function # (#:#) {struct @{arg}} : # :=\n#." t "Function")
    ("Function measure" "funcm" "Function # (#:#) {measure @{f} @{arg}} : # :=\n#." t)
    ("Function wf" "func wf" "Function # (#:#) {wf @{R} @{arg}} : # :=\n#." t)
    ("Functional Scheme with" "fsw" "Functional Scheme @{name} := Induction for @{fun} with @{mutfuns}." t )
    ("Functional Scheme" "fs" "Functional Scheme @{name} := Induction for @{fun}." t "Functional\\s-+Scheme")
    ("Inductive" "indv" "Inductive # : # := # : #." t "Inductive")
    ("Inductive (2 args)" "indv2" "Inductive # : # :=\n| # : #\n| # : #." t )
    ("Inductive (3 args)" "indv3" "Inductive # : # :=\n| # : #\n| # : #\n| # : #." t )
    ("Inductive (4 args)" "indv4" "Inductive # : # :=\n| # : #\n| # : #\n| # : #\n| # : #." t )
    ("Inductive (5 args)" "indv5" "Inductive # : # :=\n| # : #\n| # : #\n| # : #\n| # : #\n| # : #." t )
    ("Variant" "indv" "Variant # : # := # : #." t "Variant")
    ("Variant (2 args)" "indv2" "Variant # : # :=\n| # : #\n| # : #." t )
    ("Variant (3 args)" "indv3" "Variant # : # :=\n| # : #\n| # : #\n| # : #." t )
    ("Variant (4 args)" "indv4" "Variant # : # :=\n| # : #\n| # : #\n| # : #\n| # : #." t )
    ("Variant (5 args)" "indv5" "Variant # : # :=\n| # : #\n| # : #\n| # : #\n| # : #\n| # : #." t )
    ("Let" "Let" "Let # : # := #." t "Let")
    ("Ltac" "ltac" "Ltac # := #" t "Ltac")
    ("Module :=" "mo" "Module # : # := #." t ) ; careful
    ("Module <: :=" "mo2" "Module # <: # := #." t ) ; careful
    ("Module Import :=" "moi" "Module Import # : # := #." t ) ; careful
    ("Module Import <: :=" "moi2" "Module Import # <: # := #." t ) ; careful
    ("Module Export :=" "moe" "Module Export # : # := #." t ) ; careful
    ("Module Export <: :=" "moe2" "Module Export# <: # := #." t ) ; careful
    ("Record" "rec" "Record # : # := {\n# : #;\n# : # }" t "Record")
    ("Scheme" "sc" "Scheme @{name} := #." t "Scheme")
    ("Scheme Induction" "sci" "Scheme @{name} := Induction for # Sort #." t)
    ("Scheme Minimality" "scm" "Scheme @{name} := Minimality for # Sort #." t)
    ("Structure" "str" "Structure # : # := {\n# : #;\n# : # }" t "Structure")	
    )
  "Coq definition keywords information list. See `coq-syntax-db' for syntax. "
  )

;; modules and section are indented like goal starters
(defvar coq-goal-starters-db
  '(
    ("Add Morphism" "addmor" "Add Morphism @{f} : @{id}" t "Add\\s-+Morphism")
    ("Chapter" "chp" "Chapter # : #." t "Chapter")
    ("Corollary" "cor" "Corollary # : #.\nProof.\n#\nQed." t "Corollary")
    ("Declare Module :" "dmi" "Declare Module # : #.\n#\nEnd #." t)
    ("Declare Module <:" "dmi2" "Declare Module # <: #.\n#\nEnd #." t)
    ("Definition goal" "defg" "Definition #:#.\n#\nSave." t);; careful
    ("Fact" "fct" "Fact # : #." t "Fact")
    ("Goal" nil "Goal #." t "Goal")
    ("Lemma" "l" "Lemma # : #.\nProof.\n#\nQed." t "Lemma")
    ("Program Lemma" "pl" "Program Lemma # : #.\nProof.\n#\nQed." t "Program\\s-+Lemma")
    ("Module! (interactive)" nil "Module # : #.\n#\nEnd #." nil nil coq-insert-section-or-module)
    ("Module Type" "mti" "Module Type #.\n#\nEnd #." t "Module\\s-+Type") ; careful
    ("Module :" "moi" "Module # : #.\n#\nEnd #." t "Module") ; careful
    ("Module <:" "moi2" "Module # <: #.\n#\nEnd #." t ) ; careful
    ("Remark" "rk" "Remark # : #.\n#\nQed." t "Remark")
    ("Section" "sec" "Section #." t "Section")
    ("Theorem" "th" "Theorem # : #.\n#\nQed." t "Theorem")
    ("Program Theorem" "pth" "Program Theorem # : #.\nProof.\n#\nQed." t "Program\\s-+Theorem")
    ("Obligation" "obl" "Obligation #.\n#\nQed." t "Obligation")
    ("Next Obligation" "nobl" "Next Obligation.\n#\nQed." t "Next Obligation")
    )
  "Coq goal starters keywords information list. See `coq-syntax-db' for syntax. "
  )

;; command that are not declarations, definition or goal starters
(defvar coq-other-commands-db
   '(
     ;; ("Abort" nil "Abort." t "Abort" nil nil);don't appear in menu
     ("About" nil "About #." nil "About")
     ("Add" nil "Add #." nil "Add" nil t)
     ("Add Abstract Ring" nil "Add Abstract Ring #." t "Add\\s-+Abstract\\s-+Ring")
     ("Add Abstract Semi Ring" nil "Add Abstract Semi Ring #." t "Add\\s-+Abstract\\s-+Semi\\s-+Ring")
     ("Add Field" nil "Add Field #." t "Add\\s-+Field")
     ("Add LoadPath" nil "Add LoadPath #." nil "Add\\s-+LoadPath")
     ("Add ML Path" nil "Add ML Path #." nil "Add\\s-+ML\\s-+Path")
     ("Add Morphism" nil "Add Morphism #." t "Add\\s-+Morphism")
     ("Add Printing" nil "Add Printing #." t "Add\\s-+Printing")
     ("Add Printing Constructor" nil "Add Printing Constructor #." t "Add\\s-+Printing\\s-+Constructor")
     ("Add Printing If" nil "Add Printing If #." t "Add\\s-+Printing\\s-+If")
     ("Add Printing Let" nil "Add Printing Let #." t "Add\\s-+Printing\\s-+Let")
     ("Add Printing Record" nil "Add Printing Record #." t "Add\\s-+Printing\\s-+Record")
     ("Add Rec LoadPath" nil "Add Rec LoadPath #." nil "Add\\s-+Rec\\s-+LoadPath")
     ("Add Rec ML Path" nil "Add Rec ML Path #." nil "Add\\s-+Rec\\s-+ML\\s-+Path")
     ("Add Ring" nil "Add Ring #." t "Add\\s-+Ring")
     ("Add Semi Ring" nil "Add Semi Ring #." t "Add\\s-+Semi\\s-+Ring")
     ("Add Setoid" nil "Add Setoid #." t "Add\\s-+Setoid")
     ("Admit Obligations" "oblsadmit" "Admit Obligations." nil "Admit\\s-+Obligations")
     ("Arguments Scope" "argsc" "Arguments Scope @{id} [ @{_} ]" t "Arguments\\s-+Scope")
     ("Bind Scope" "bndsc" "Bind Scope @{scope} with @{type}" t "Bind\\s-+Scope")
     ("Canonical Structure" nil "Canonical Structure #." t "Canonical\\s-+Structure")
     ("Cd" nil "Cd #." nil "Cd")
     ("Check" nil "Check" nil "Check")
     ("Close Local Scope" "cllsc" "Close Local Scope #" t "Close\\s-+Local\\s-+Scope")
     ("Close Scope" "clsc" "Close Scope #" t "Close\\s-+Scope")
     ("Comments" nil "Comments #." nil "Comments")
     ("Delimit Scope" "delsc" "Delimit Scope @{scope} with @{id}." t "Delimit\\s-+Scope" )
     ("Eval" nil "Eval #." nil "Eval")
     ("Export" nil "Export #." t "Export")
     ("Extract Constant" "extrc" "Extract Constant @{id} => \"@{id}\"." nil "Extract\\s-+Constant")
     ("Extract Inlined Constant" "extric" "Extract Inlined Constant @{id} => \"@{id}\"." nil "Extract\\s-+Inlined\\s-+Constant")
     ("Extract Inductive" "extri" "Extract Inductive @{id} => \"@{id}\" [\"@{id}\" \"@{id...}\"]." nil "Extract")
     ("Extraction" "extr" "Extraction @{id}." nil "Extraction")
     ("Extraction (in a file)" "extrf" "Extraction \"@{file}\" @{id}." nil)
     ("Extraction Inline" nil "Extraction Inline #." t "Extraction\\s-+Inline")
     ("Extraction NoInline" nil "Extraction NoInline #." t "Extraction\\s-+NoInline")
     ("Extraction Language" "extrlang" "Extraction Language #." t "Extraction\\s-+Language")
     ("Extraction Library" "extrl" "Extraction Library @{id}." nil "Extraction\\s-+Library")
     ("Focus" nil "Focus #." nil "Focus")
     ("Identity Coercion" nil "Identity Coercion #." t "Identity\\s-+Coercion")
     ("Implicit Arguments Off" nil "Implicit Arguments Off." t "Implicit\\s-+Arguments\\s-+Off")
     ("Implicit Arguments On" nil "Implicit Arguments On." t "Implicit\\s-+Arguments\\s-+On")
     ("Implicit Arguments" nil "Implicit Arguments # [#]." t "Implicit\\s-+Arguments")
     ("Import" nil "Import #." t "Import")
     ("Infix" "inf" "Infix \"#\" := # (at level #) : @{scope}." t "Infix")
     ("Inspect" nil "Inspect #." nil "Inspect")
     ("Locate" nil "Locate" nil "Locate")
     ("Locate File" nil "Locate File \"#\"." nil "Locate\\s-+File")
     ("Locate Library" nil "Locate Library #." nil "Locate\\s-+Library")
     ("Notation (assoc)" "notas" "Notation \"#\" := # (at level #, # associativity)." t)
     ("Notation (at assoc)" "notassc" "Notation \"#\" := # (at level #, # associativity) : @{scope}." t)
     ("Notation (at at scope)" "notasc" "Notation \"#\" := # (at level #, # at level #) : @{scope}." t)
     ("Notation (at at)" "nota" "Notation \"#\" := # (at level #, # at level #)." t)
     ("Notation (only parsing)" "notsp" "Notation # := # (only parsing)." t)
     ("Notation Local (only parsing)" "notslp" "Notation Local # := # (only parsing)." t)
     ("Notation Local" "notsl" "Notation Local # := #." t "Notation\\s-+Local")
     ("Notation (simple)" "nots" "Notation # := #." t "Notation")
     ("Opaque" nil "Opaque #." nil "Opaque")
     ("Obligations Tactic" nil "Obligations Tactic := #." t "Obligations\\s-+Tactic")
     ("Open Local Scope" "oplsc" "Open Local Scope #" t "Open\\s-+Local\\s-+Scope")
     ("Open Scope" "opsc" "Open Scope #" t "Open\\s-+Scope")
     ("Print Coercions" nil "Print Coercions." nil "Print\\s-+Coercions")
     ("Print Hint" nil "Print Hint." nil "Print\\s-+Hint" coq-PrintHint)
     ("Print" "p" "Print #." nil "Print")
     ("Qed" nil "Qed." nil "Qed")
     ("Pwd" nil "Pwd." nil "Pwd")
     ("Recursive Extraction" "recextr" "Recursive Extraction @{id}." nil "Recursive\\s-+Extraction")
     ("Recursive Extraction Library" "recextrl" "Recursive Extraction Library @{id}." nil "Recursive\\s-+Extraction\\s-+Library")
     ("Recursive Extraction Module" "recextrm" "Recursive Extraction Module @{id}." nil "Recursive\\s-+Extraction\\s-+Module")
     ("Remove LoadPath" nil "Remove LoadPath" nil "Remove\\s-+LoadPath")
     ("Remove LoadPath" nil "Remove LoadPath" nil "Remove\\s-+LoadPath")
     ("Remove Printing If" nil "Remove Printing If #." t "Remove\\s-+Printing\\s-+If")
     ("Remove Printing Let" nil "Remove Printing Let #." t "Remove\\s-+Printing\\s-+Let")
     ("Require Export" nil "Require Export #." t "Require\\s-+Export")
     ("Require Import" nil "Require Import #." t "Require\\s-+Import")
     ("Require" nil "Require #." t "Require")
     ("Reserved Notation" nil "Reserved Notation" nil "Reserved\\s-+Notation")
     ("Reset Extraction Inline" nil "Reset Extraction Inline." t "Reset\\s-+Extraction\\s-+Inline")
     ("Save" nil "Save." t "Save")
     ("Search" nil "Search #" nil "Search")
     ("SearchAbout" nil "SearchAbout #" nil "SearchAbout")
     ("SearchPattern" nil "SearchPattern #" nil "SearchPattern")
     ("SearchRewrite" nil "SearchRewrite #" nil "SearchRewrite")
     ("Set Extraction AutoInline" nil "Set Extraction AutoInline" t "Set\\s-+Extraction\\s-+AutoInline")
     ("Set Extraction Optimize" nil "Set Extraction Optimize" t "Set\\s-+Extraction\\s-+Optimize")
     ("Set Implicit Arguments" nil "Set Implicit Arguments" t "Set\\s-+Implicit\\s-+Arguments")
     ("Set Strict Implicit" nil "Set Strict Implicit" t "Set\\s-+Strict\\s-+Implicit")
     ("Set Printing Synth" nil "Set Printing Synth" t "Set\\s-+Printing\\s-+Synth")
     ("Set Printing Wildcard" nil "Set Printing Wildcard" t "Set\\s-+Printing\\s-+Wildcard")
     ("Set Printing All" "sprall" "Set Printing All" t "Set\\s-+Printing\\s-+All")
     ("Set Printing Records" nil "Set Printing Records" t "Set\\s-+Printing\\s-+Records")
     ("Set Hyps Limit" nil "Set Hyps Limit #." nil "Set\\s-+Hyps\\s-+Limit")
     ("Set Printing Coercions" nil "Set Printing Coercions." t "Set\\s-+Printing\\s-+Coercions")
     ("Set Printing Notations" "sprn" "Set Printing Notations" t "Set\\s-+Printing\\s-+Notations")
     ("Set Undo" nil "Set Undo #." nil "Set\\s-+Undo")
     ("Show" nil "Show #." nil "Show")
     ("Solve Obligations" "oblssolve" "Solve Obligations using #." nil "Solve\\s-+Obligations")
     ("Test" nil "Test" nil "Test" nil t)
     ("Test Printing Depth" nil "Test Printing Depth." nil "Test\\s-+Printing\\s-+Depth")
     ("Test Printing If" nil "Test Printing If #." nil "Test\\s-+Printing\\s-+If")
     ("Test Printing Let" nil "Test Printing Let #." nil "Test\\s-+Printing\\s-+Let")
     ("Test Printing Synth" nil "Test Printing Synth." nil "Test\\s-+Printing\\s-+Synth")
     ("Test Printing Width" nil "Test Printing Width." nil "Test\\s-+Printing\\s-+Width")
     ("Test Printing Wildcard" nil "Test Printing Wildcard." nil "Test\\s-+Printing\\s-+Wildcard")
     ("Transparent" nil "Transparent #." nil "Transparent")
     ("Unfocus" nil "Unfocus." nil "Unfocus")
     ("Unset Extraction AutoInline" nil "Unset Extraction AutoInline" t "Unset\\s-+Extraction\\s-+AutoInline")
     ("Unset Extraction Optimize" nil "Unset Extraction Optimize" t "Unset\\s-+Extraction\\s-+Optimize")
     ("Unset Implicit Arguments" nil "Unset Implicit Arguments" t "Unset\\s-+Implicit\\s-+Arguments")
     ("Unset Strict Implicit" nil "Unset Strict Implicit" t "Unset\\s-+Strict\\s-+Implicit")
     ("Unset Printing Synth" nil "Unset Printing Synth" t "Unset\\s-+Printing\\s-+Synth")
     ("Unset Printing Wildcard" nil "Unset Printing Wildcard" t "Unset\\s-+Printing\\s-+Wildcard")
     ("Unset Hyps Limit" nil "Unset Hyps Limit" nil "Unset\\s-+Hyps\\s-+Limit")
     ("Unset Printing All" "unsprall" "Unset Printing All" nil "Unset\\s-+Printing\\s-+All")
     ("Unset Printing Coercion" nil "Unset Printing Coercion #." t "Unset\\s-+Printing\\s-+Coercion")
     ("Unset Printing Coercions" nil "Unset Printing Coercions." nil "Unset\\s-+Printing\\s-+Coercions")
     ("Unset Printing Notations" "unsprn" "Unset Printing Notations" nil "Unset\\s-+Printing\\s-+Notations")
     ("Unset Undo" nil "Unset Undo." nil "Unset\\s-+Undo")
 ;    ("print" "pr" "print #" "print")
     )   
   "Command that are not declarations, definition or goal starters."
  )

(defvar coq-commands-db
  (append coq-decl-db coq-defn-db coq-goal-starters-db
          coq-other-commands-db coq-user-commands-db)
  "Coq all commands keywords information list. See `coq-syntax-db' for syntax. "      
  )


(defvar coq-terms-db
  '(
    ("fun (1 args)" "f" "fun #:# => #" nil "fun")
    ("fun (2 args)" "f2" "fun (#:#) (#:#) => #")
    ("fun (3 args)" "f3" "fun (#:#) (#:#) (#:#) => #")
    ("fun (4 args)" "f4" "fun (#:#) (#:#) (#:#) (#:#) => #")
    ("forall" "fo" "forall #:#,#" nil "forall")
    ("forall (2 args)" "fo2" "forall (#:#) (#:#), #")
    ("forall (3 args)" "fo3" "forall (#:#) (#:#) (#:#), #")
    ("forall (4 args)" "fo4" "forall (#:#) (#:#) (#:#) (#:#), #")
    ("if" "if" "if # then # else #" nil "if")
    ("let in" "li" "let # := # in #" nil "let")
    ("match! (from type)" nil "" nil "match" coq-insert-match)
    ("match with" "m" "match # with\n| # => #\nend")
    ("match with 2" "m2" "match # with\n| # => #\n| # => #\nend")
    ("match with 3" "m3" "match # with\n| # => #\n| # => #\n| # => #\nend")
    ("match with 4" "m4" "match # with\n| # => #\n| # => #\n| # => #\n| # => #\nend")
    ("match with 5" "m5" "match # with\n| # => #\n| # => #\n| # => #\n| # => #\n| # => #\nend")
    )
  "Coq terms keywords information list. See `coq-syntax-db' for syntax. "
  )







 ;;; Goals (and module/sections) starters detection


;; ----- keywords for font-lock.

;; FIXME da: this one function breaks the nice configuration of Proof General:
;; would like to have proof-goal-regexp instead.
;; Unfortunately Coq allows "Definition" and friends to perhaps have a goal, 
;; so it appears more difficult than just a proof-goal-regexp setting.
;; Future improvement may simply to be allow a function value for
;; proof-goal-regexp.

;; FIXME Pierre: the right way IMHO here would be to set a span
;; property 'goalcommand when coq prompt says it (if the name of
;; current proof has changed).

;; excerpt of Jacek Chrzaszcz, implementer of the module system: sorry
;; for the french:
;;*) suivant les suggestions de Chritine, pas de mode preuve dans un type de
;;    module (donc pas de Definition truc:machin.  Lemma, Theorem ... )
;;
;; *) la commande Module M [ ( : | <: ) MTYP ] [ := MEXPR ] est valable
;;    uniquement hors d'un MT
;;    - si :=MEXPR est absent, elle demarre un nouveau module interactif
;;    - si :=MEXPR est present, elle definit un module
;;    (la fonction vernac_define_module dans toplevel/vernacentries) 
;;
;; *) la nouvelle commande Declare Module M [ ( : | <: ) MTYP ] [ := MEXPR ]
;;    est valable uniquement dans un MT
;;    - si :=MEXPR absent, :MTYP absent, elle demarre un nouveau module
;;      interactif
;;    - si (:=MEXPR absent, :MTYP present) 
;;      ou (:=MEXPR present, :MTYP absent)
;;      elle declare un module.
;;    (la fonction vernac_declare_module dans toplevel/vernacentries)

(defun coq-count-match (regexp strg)
  "Count the number of (maximum, non overlapping) matching substring 
 of STRG matching REGEXP. Empty match are counted once."
  (let ((nbmatch 0) (str strg))
    (while (and (proof-string-match regexp str) (not (string-equal str "")))
      (incf nbmatch)
      (if (= (match-end 0) 0) (setq str (substring str 1))
        (setq str (substring str (match-end 0)))))
    nbmatch))

;; This function is used for amalgamating a proof into a single
;; goal-save region (proof-goal-command-p used in
;; proof-done-advancing-save in generic/proof-script.el) for coq <
;; 8.0. It is the test when looking backward the start of the proof.
;; It is NOT used for coq > v8.1
;; (coq-find-and-forget in gallina.el uses state numbers, proof numbers and
;; lemma names given in the prompt)

;; compatibility with v8.0, will delete it some day
(defun coq-goal-command-str-v80-p (str)
  "See `coq-goal-command-p'."
  (let* ((match (coq-count-match "\\<match\\>" str))
	 (with (coq-count-match "\\<with\\>" str))
	 (letwith (+ (coq-count-match "\\<let\\>" str) (- with match)))
	 (affect (coq-count-match ":=" str)))

    (and (proof-string-match coq-goal-command-regexp str)
 	 (not				; 
 	  (and 
 	   (proof-string-match "\\`\\(Local\\|Definition\\|Lemma\\|Module\\)\\>" str)
 	   (not (= letwith affect))))
 	 (not (proof-string-match "\\`Declare\\s-+Module\\(\\w\\|\\s-\\|<\\)*:" str))
 	 )
    )
  )

;; Module and or section openings are detected syntactically. Module
;; *openings* are difficult to detect because there can be Module
;; ...with X := ... . So we need to count :='s to detect real openings.

;; TODO: have opened section/chapter in the prompt too, and get rid of
;; syntactical tests everywhere
(defun coq-module-opening-p (str)
  "Decide whether STR is a module or section opening or not. 
Used by `coq-goal-command-p'"
  (let* ((match (coq-count-match "\\<match\\>" str))
 	 (with (coq-count-match "\\<with\\>" str))
 	 (letwith (+ (coq-count-match "\\<let\\>" str) (- with match)))
 	 (affect (coq-count-match ":=" str)))
    (and (proof-string-match "\\`\\(Module\\)\\>" str)
 	 (= letwith affect))
    ))

(defun coq-section-command-p (str)
  (proof-string-match "\\`\\(Section\\|Chapter\\)\\>" str))


(defun coq-goal-command-str-v81-p (str)
  "Decide syntactically whether STR is a goal start or not. Use
   `coq-goal-command-p-v81' on a span instead if possible."
  (coq-goal-command-str-v80-p str)
  )

;; This is the function that tests if a SPAN is a goal start. All it
;; has to do is look at the 'goalcmd attribute of the span.
;; It also looks if this is not a module start.

;; TODO: have also attributes 'modulecmd and 'sectioncmd. This needs
;; something in the coq prompt telling the name of all opened modules
;; (like for open goals), and use it to set goalcmd --> no more need
;; to look at Modules and section (actually indentation will still
;; need it)
(defun coq-goal-command-p-v81 (span)
  "see `coq-goal-command-p'"
  (or (span-property span 'goalcmd)
      ;; module and section starts are detected here
      (let ((str (or (span-property span 'cmd) "")))
 	(or (coq-section-command-p str)
 	    (coq-module-opening-p str))
        )))

;; In coq > 8.1 This is used only for indentation.
(defun coq-goal-command-str-p (str)
  "Decide whether argument is a goal or not.  Use
   `coq-goal-command-p' on a span instead if posible."
  (cond 
   (coq-version-is-V8-1 (coq-goal-command-str-v81-p str))
   (coq-version-is-V8-0 (coq-goal-command-str-v80-p str))
   (t (coq-goal-command-str-v80-p str));; this is temporary
   ))

;; This is used for backtracking
(defun coq-goal-command-p (span)
  "Decide whether argument is a goal or not."
  (cond 
   (coq-version-is-V8-1 (coq-goal-command-p-v81 span))
   (coq-version-is-V8-0 (coq-goal-command-str-v80-p (span-property span 'cmd)))
   (t (coq-goal-command-str-v80-p (span-property span 'cmd)));; this is temporary
   ))

(defvar coq-keywords-save-strict
  '("Defined"
    "Save"
    "Qed"
    "End"
    "Admitted"
    "Abort"
    ))

(defvar coq-keywords-save
  (append coq-keywords-save-strict '("Proof"))
  )

(defun coq-save-command-p (span str)
  "Decide whether argument is a Save command or not"
  (or (proof-string-match coq-save-command-regexp-strict str)
      (and (proof-string-match "\\`Proof\\>" str)
           (not (proof-string-match "Proof\\s-*\\(\\.\\|\\<with\\>\\)" str)))
      )
  )


(defvar coq-keywords-kill-goal 
  '("Abort"))

;; Following regexps are all state changing
(defvar coq-keywords-state-changing-misc-commands
  (coq-build-regexp-list-from-db coq-commands-db 'filter-state-changing))

(defvar coq-keywords-goal
  (coq-build-regexp-list-from-db coq-goal-starters-db))

(defvar coq-keywords-decl
  (coq-build-regexp-list-from-db coq-decl-db))

(defvar coq-keywords-defn
  (coq-build-regexp-list-from-db coq-defn-db))


(defvar coq-keywords-state-changing-commands
  (append
   coq-keywords-state-changing-misc-commands
   coq-keywords-decl                    ; all state changing
   coq-keywords-defn                    ; idem
   coq-keywords-goal))                  ; idem


;; 
(defvar coq-keywords-state-preserving-commands
  (coq-build-regexp-list-from-db coq-commands-db 'filter-state-preserving))

;; concat this is faster that redoing coq-build-regexp-list-from-db on
;; whole commands-db
(defvar coq-keywords-commands
  (append coq-keywords-state-changing-commands
 	  coq-keywords-state-preserving-commands)
  "All commands keyword.")

(defvar coq-solve-tactics
  (coq-build-regexp-list-from-db coq-solve-tactics-db)
  "Keywords for closing tactic(al)s.")

(defvar coq-tacticals
  (coq-build-regexp-list-from-db coq-tacticals-db)
  "Keywords for tacticals in a Coq script.")


 ;; From JF Monin:
(defvar coq-reserved
  (append 
   coq-user-reserved-db
   '(
     "False" "True" "after" "as" "cofix" "fix" "forall" "fun" "match"
     "return" "struct" "else" "end" "if" "in" "into" "let" "then"
     "using" "with" "beta" "delta" "iota" "zeta" "after" "until"
     "at" "Sort" "Time"))
  "Reserved keywords of Coq.")


(defvar coq-state-changing-tactics
  (coq-build-regexp-list-from-db coq-tactics-db 'filter-state-changing))

(defvar coq-state-preserving-tactics
  (coq-build-regexp-list-from-db coq-tactics-db 'filter-state-preserving))


(defvar coq-tactics
  (append coq-state-changing-tactics coq-state-preserving-tactics))

(defvar coq-retractable-instruct
  (append coq-state-changing-tactics coq-keywords-state-changing-commands))

(defvar coq-non-retractable-instruct
  (append coq-state-preserving-tactics
          coq-keywords-state-preserving-commands))

(defvar coq-keywords
  (append coq-keywords-goal coq-keywords-save coq-keywords-decl
 	  coq-keywords-defn coq-keywords-commands)
  "All keywords in a Coq script.")



(defvar coq-symbols
  '("|"
    "||"
    ":"
    ";"
    ","
    "("
    ")"
    "["
    "]"
    "{"
    "}"
    ":="
    "=>"
    "->"
    ".")
  "Punctuation Symbols used by Coq.")

;; ----- regular expressions
(defvar coq-error-regexp "^\\(Error:\\|Discarding pattern\\|Syntax error:\\|System Error:\\|User Error:\\|User error:\\|Anomaly[:.]\\|Toplevel input[,]\\)"
  "A regexp indicating that the Coq process has identified an error.")

(defvar coq-id proof-id)
(defvar coq-id-shy "\\(?:\\w\\(?:\\w\\|\\s_\\)*\\)")

(defvar coq-ids (proof-ids coq-id " "))

(defun coq-first-abstr-regexp (paren end)
  (concat paren "\\s-*\\(" coq-ids "\\)\\s-*" end))

(defcustom coq-variable-highlight-enable t
  "Activates partial bound variable highlighting"
  :type 'boolean
  :group 'coq)


(defvar coq-font-lock-terms
  (if coq-variable-highlight-enable
  (list
   ;; lambda binders
   (list (coq-first-abstr-regexp "\\<fun\\>" "\\(?:=>\\|:\\)") 1 'font-lock-variable-name-face)
   ;; forall binder
   (list (coq-first-abstr-regexp "\\<forall\\>" "\\(?:,\\|:\\)") 1 'font-lock-variable-name-face)
                                        ;   (list "\\<forall\\>"
                                        ;         (list 0 font-lock-type-face)
                                        ;         (list (concat "[^ :]\\s-*\\(" coq-ids "\\)\\s-*") nil nil 
                                        ;               (list 0 font-lock-variable-name-face)))
   ;; parenthesized binders
   (list (coq-first-abstr-regexp "(" ":[ a-zA-Z]") 1 'font-lock-variable-name-face)
   ))
  "*Font-lock table for Coq terms.")



;; According to Coq, "Definition" is both a declaration and a goal.
;; It is understood here as being a goal.  This is important for
;; recognizing global identifiers, see coq-global-p.
(defconst coq-save-command-regexp-strict
  (proof-anchor-regexp 
   (concat "\\(Time\\s-+\\|\\)\\(" (proof-ids-to-regexp coq-keywords-save-strict)
           "\\)")))
(defconst coq-save-command-regexp
  (proof-anchor-regexp 
   (concat "\\(Time\\s-+\\|\\)\\(" (proof-ids-to-regexp coq-keywords-save)
           "\\)")))
(defconst coq-save-with-hole-regexp
  (concat "\\(Time\\s-+\\|\\)\\(" (proof-ids-to-regexp coq-keywords-save-strict)
 	  "\\)\\s-+\\(" coq-id "\\)\\s-*\\."))

(defconst coq-goal-command-regexp
  (proof-anchor-regexp (proof-ids-to-regexp coq-keywords-goal)))

(defconst coq-goal-with-hole-regexp
  (concat "\\(" (proof-ids-to-regexp coq-keywords-goal)
 	  "\\)\\s-+\\(" coq-id "\\)\\s-*:?"))

(defconst coq-decl-with-hole-regexp
  (concat "\\(" (proof-ids-to-regexp coq-keywords-decl)
 	  "\\)\\s-+\\(" coq-ids "\\)\\s-*:"))

;;  (defconst coq-decl-with-hole-regexp
;;    (if coq-variable-highlight-enable coq-decl-with-hole-regexp-1 'nil))

(defconst coq-defn-with-hole-regexp
  (concat "\\(" (proof-ids-to-regexp coq-keywords-defn)
          "\\)\\s-+\\(" coq-id "\\)"))

;; must match:
;; "with f x y :" (followed by = or not)
;; "with f x y (z:" (not followed by =)
;; BUT NOT:
;; "with f ... (x:=" 
;; "match ... with .. => "
(defconst coq-with-with-hole-regexp
  (concat "\\(with\\)\\s-+\\(" coq-id "\\)\\s-*\\([^=(.]*:\\|[^(]*(\\s-*" 
          coq-id "\\s-*:[^=]\\)"))
;; marche aussi a peu pres
;;  (concat "\\(with\\)\\s-+\\(" coq-id "\\)\\s-*\\([^(.]*:\\|.*)[^(.]*:=\\)"))
;;"\\<Prop\\>\\|\\<Set\\>\\|\\<Type\\>"
(defvar coq-font-lock-keywords-1
   (append
    coq-font-lock-terms
    (list
    (cons (proof-ids-to-regexp coq-solve-tactics) 'coq-solve-tactics-face)
    (cons (proof-ids-to-regexp coq-keywords) 'font-lock-keyword-face)
    (cons (proof-ids-to-regexp coq-reserved) 'font-lock-type-face)
    (cons (proof-ids-to-regexp coq-tactics ) 'proof-tactics-name-face)
    (cons (proof-ids-to-regexp coq-tacticals) 'proof-tacticals-name-face)
    (cons (proof-ids-to-regexp (list "Set" "Type" "Prop")) 'font-lock-type-face)
    (cons "============================" 'font-lock-keyword-face)
    (cons "Subtree proved!" 'font-lock-keyword-face)
    (cons "subgoal [0-9]+ is:" 'font-lock-keyword-face)
    (list "^\\([^ \n]+\\) \\(is defined\\)"
          (list 2 'font-lock-keyword-face t)
          (list 1 'font-lock-function-name-face t))

    (list coq-goal-with-hole-regexp 2 'font-lock-function-name-face))
    (if coq-variable-highlight-enable (list (list coq-decl-with-hole-regexp 2 'font-lock-variable-name-face)))
    (list
    (list coq-defn-with-hole-regexp 2 'font-lock-function-name-face)
    (list coq-with-with-hole-regexp 2 'font-lock-function-name-face)
    (list coq-save-with-hole-regexp 2 'font-lock-function-name-face)
    ;; Remove spurious variable and function faces on commas.
    '(proof-zap-commas))))

(defvar coq-font-lock-keywords coq-font-lock-keywords-1)

(defun coq-init-syntax-table ()
  "Set appropriate values for syntax table in current buffer."

  (modify-syntax-entry ?\$ ".")
  (modify-syntax-entry ?\/ ".")
  (modify-syntax-entry ?\\ ".")
  (modify-syntax-entry ?+  ".")
  (modify-syntax-entry ?-  ".")
  (modify-syntax-entry ?=  ".")
  (modify-syntax-entry ?%  ".")
  (modify-syntax-entry ?<  ".")
  (modify-syntax-entry ?>  ".")
  (modify-syntax-entry ?\& ".")
  (modify-syntax-entry ?_  "_")
  (modify-syntax-entry ?\' "_")
  (modify-syntax-entry ?\| ".")

;; should maybe be "_" but it makes coq-find-and-forget (in gallina.el) bug
  (modify-syntax-entry ?\. ".") 

  (condition-case nil
      ;; Try to use Emacs-21's nested comments.
      (modify-syntax-entry ?\* ". 23n")
    ;; Revert to non-nested comments if that failed.
    (error (modify-syntax-entry ?\* ". 23")))
  (modify-syntax-entry ?\( "()1")
  (modify-syntax-entry ?\) ")(4"))


(defconst coq-generic-expression
  (mapcar (lambda (kw) 
 	    (list (capitalize kw)
 		  (concat "\\<" kw "\\>" "\\s-+\\(\\w+\\)\\W" )
 		  1))
 	  (append coq-keywords-decl coq-keywords-defn coq-keywords-goal)))

(provide 'gallina-syntax)
 ;;; gallina-syntax.el ends here

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