(* Title: Pure/Isar/isar_syn.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
Pure outer syntax.
TODO:
- constdefs;
- axclass axioms: attribs;
- instance: theory_to_proof (with special attribute to add result arity);
- witness: eliminate (!);
- result (interactive): print current result (?);
- check evaluation of transformers (exns!);
- 'result' command;
- '--' (comment) option almost everywhere:
- 'thm': xthms1;
*)
signature ISAR_SYN =
sig
val keywords: string list
val parsers: OuterSyntax.parser list
end;
structure IsarSyn: ISAR_SYN =
struct
open OuterParse;
(** init and exit **)
val contextP =
OuterSyntax.parser false "context" "switch theory context"
(name >> (fn x => Toplevel.print o Toplevel.init_theory (IsarThy.the_theory x) (K ())));
val theoryP =
OuterSyntax.parser false "theory" "begin theory"
(name -- ($$$ "=" |-- !!! (enum "+" name --| (Scan.ahead eof || $$$ ":")))
>> (fn x => Toplevel.print o
Toplevel.init_theory (IsarThy.begin_theory x) IsarThy.end_theory));
(*end current theory / sub-proof / excursion*)
val endP =
OuterSyntax.parser false "end" "end current theory / sub-proof / excursion"
(Scan.succeed (Toplevel.print o Toplevel.exit o Toplevel.proof IsarThy.end_block));
(** theory sections **)
(* formal comments *)
val textP = OuterSyntax.parser false "text" "formal comments"
(text >> (Toplevel.theory o IsarThy.add_text));
val chapterP = OuterSyntax.parser false "chapter" "chapter heading"
(text >> (Toplevel.theory o IsarThy.add_chapter));
val sectionP = OuterSyntax.parser false "section" "section heading"
(text >> (Toplevel.theory o IsarThy.add_section));
val subsectionP = OuterSyntax.parser false "subsection" "subsection heading"
(text >> (Toplevel.theory o IsarThy.add_subsection));
val subsubsectionP = OuterSyntax.parser false "subsubsection" "subsubsection heading"
(text >> (Toplevel.theory o IsarThy.add_subsubsection));
(* classes and sorts *)
val classesP =
OuterSyntax.parser false "classes" "declare type classes"
(Scan.repeat1 (name -- Scan.optional ($$$ "<" |-- !!! (list1 xname)) [])
>> (Toplevel.theory o Theory.add_classes));
val classrelP =
OuterSyntax.parser false "classrel" "state inclusion of type classes (axiomatic!)"
(xname -- ($$$ "<" |-- !!! xname) >> (Toplevel.theory o Theory.add_classrel o single));
val defaultsortP =
OuterSyntax.parser false "defaultsort" "declare default sort"
(sort >> (Toplevel.theory o Theory.add_defsort));
(* types *)
val typedeclP =
OuterSyntax.parser false "typedecl" "declare logical type"
(type_args -- name -- opt_infix
>> (fn ((args, a), mx) => Toplevel.theory (PureThy.add_typedecls [(a, args, mx)])));
val typeabbrP =
OuterSyntax.parser false "types" "declare type abbreviations"
(Scan.repeat1 (type_args -- name -- ($$$ "=" |-- !!! (typ -- opt_infix)))
>> (Toplevel.theory o Theory.add_tyabbrs o
map (fn ((args, a), (T, mx)) => (a, args, T, mx))));
val nontermP =
OuterSyntax.parser false "nonterminals" "declare types treated as grammar nonterminal symbols"
(Scan.repeat1 name >> (Toplevel.theory o Theory.add_nonterminals));
val aritiesP =
OuterSyntax.parser false "arities" "state type arities (axiomatic!)"
(Scan.repeat1 (xname -- ($$$ "::" |-- !!! arity) >> triple2)
>> (Toplevel.theory o Theory.add_arities));
(* consts and syntax *)
val constsP =
OuterSyntax.parser false "consts" "declare constants"
(Scan.repeat1 const >> (Toplevel.theory o Theory.add_consts));
val opt_mode =
Scan.optional
($$$ "(" |-- !!! (name -- Scan.optional ($$$ "output" >> K false) true --| $$$ ")"))
("", true);
val syntaxP =
OuterSyntax.parser false "syntax" "declare syntactic constants"
(opt_mode -- Scan.repeat1 const >> (Toplevel.theory o uncurry Theory.add_modesyntax));
(* translations *)
val trans_pat =
Scan.optional ($$$ "(" |-- !!! (xname --| $$$ ")")) "logic" -- string;
fun trans_arrow toks =
($$$ "=>" >> K Syntax.ParseRule ||
$$$ "<=" >> K Syntax.PrintRule ||
$$$ "==" >> K Syntax.ParsePrintRule) toks;
val trans_line =
trans_pat -- !!! (trans_arrow -- trans_pat)
>> (fn (left, (arr, right)) => arr (left, right));
val translationsP =
OuterSyntax.parser false "translations" "declare syntax translation rules"
(Scan.repeat1 trans_line >> (Toplevel.theory o Theory.add_trrules));
(* axioms and definitions *)
val spec = thm_name ":" -- prop >> (fn ((x, y), z) => ((x, z), y));
val spec' = opt_thm_name ":" -- prop >> (fn ((x, y), z) => ((x, z), y));
val axiomsP =
OuterSyntax.parser false "axioms" "state arbitrary propositions (axiomatic!)"
(Scan.repeat1 spec >> (Toplevel.theory o IsarThy.add_axioms));
val defsP =
OuterSyntax.parser false "defs" "define constants"
(Scan.repeat1 spec' >> (Toplevel.theory o IsarThy.add_defs));
(* theorems *)
val facts = opt_thm_name "=" -- xthms1;
val theoremsP =
OuterSyntax.parser false "theorems" "define theorems"
(facts >> (Toplevel.theory o IsarThy.have_theorems));
val lemmasP =
OuterSyntax.parser false "lemmas" "define lemmas"
(facts >> (Toplevel.theory o IsarThy.have_lemmas));
(* axclass *)
val axclassP =
OuterSyntax.parser false "axclass" "define axiomatic type class"
(name -- Scan.optional ($$$ "<" |-- !!! (list1 xname)) [] -- Scan.repeat (spec >> fst)
>> (Toplevel.theory o uncurry AxClass.add_axclass));
(* instance *)
val opt_witness =
Scan.optional ($$$ "(" |-- !!! (list1 xname --| $$$ ")")) [];
val instanceP =
OuterSyntax.parser false "instance" "prove type arity"
((xname -- ($$$ "<" |-- xname) >> AxClass.add_inst_subclass ||
xname -- ($$$ "::" |-- arity) >> (AxClass.add_inst_arity o triple2))
-- opt_witness >> (fn (f, x) => Toplevel.theory (f x [] None)));
(* name space entry path *)
val globalP =
OuterSyntax.parser false "global" "disable prefixing of theory name"
(Scan.succeed (Toplevel.theory PureThy.global_path));
val localP =
OuterSyntax.parser false "local" "enable prefixing of theory name"
(Scan.succeed (Toplevel.theory PureThy.local_path));
val pathP =
OuterSyntax.parser false "path" "modify name-space entry path"
(xname >> (Toplevel.theory o Theory.add_path));
(* use ML text *)
val useP =
OuterSyntax.parser true "use" "eval ML text from file"
(name >> IsarCmd.use);
val mlP =
OuterSyntax.parser false "ML" "eval ML text"
(text >> (fn txt => IsarCmd.use_mltext txt o IsarCmd.use_mltext_theory txt));
val setupP =
OuterSyntax.parser false "setup" "apply ML theory transformer"
(text >> (Toplevel.theory o IsarThy.use_setup));
(* translation functions *)
val parse_ast_translationP =
OuterSyntax.parser false "parse_ast_translation" "install parse ast translation functions"
(text >> (Toplevel.theory o IsarThy.parse_ast_translation));
val parse_translationP =
OuterSyntax.parser false "parse_translation" "install parse translation functions"
(text >> (Toplevel.theory o IsarThy.parse_translation));
val print_translationP =
OuterSyntax.parser false "print_translation" "install print translation functions"
(text >> (Toplevel.theory o IsarThy.print_translation));
val typed_print_translationP =
OuterSyntax.parser false "typed_print_translation" "install typed print translation functions"
(text >> (Toplevel.theory o IsarThy.typed_print_translation));
val print_ast_translationP =
OuterSyntax.parser false "print_ast_translation" "install print ast translation functions"
(text >> (Toplevel.theory o IsarThy.print_ast_translation));
val token_translationP =
OuterSyntax.parser false "token_translation" "install token translation functions"
(text >> (Toplevel.theory o IsarThy.token_translation));
(* oracles *)
val oracleP =
OuterSyntax.parser false "oracle" "install oracle"
(name -- text >> (Toplevel.theory o IsarThy.add_oracle));
(** proof commands **)
(* statements *)
val is_props = $$$ "(" |-- !!! (Scan.repeat1 ($$$ "is" |-- prop) --| $$$ ")");
val propp = prop -- Scan.optional is_props [];
fun statement f = opt_thm_name ":" -- propp >> (fn ((x, y), z) => f x y z);
val theoremP =
OuterSyntax.parser false "theorem" "state theorem"
(statement IsarThy.theorem >> (fn f => Toplevel.print o Toplevel.theory_to_proof f));
val lemmaP =
OuterSyntax.parser false "lemma" "state lemma"
(statement IsarThy.lemma >> (fn f => Toplevel.print o Toplevel.theory_to_proof f));
val showP =
OuterSyntax.parser false "show" "state local goal, solving current obligation"
(statement IsarThy.show >> (fn f => Toplevel.print o Toplevel.proof f));
val haveP =
OuterSyntax.parser false "have" "state local goal"
(statement IsarThy.have >> (fn f => Toplevel.print o Toplevel.proof f));
(* facts *)
val thenP =
OuterSyntax.parser false "then" "forward chaining"
(Scan.succeed (Toplevel.print o Toplevel.proof IsarThy.chain));
val fromP =
OuterSyntax.parser false "from" "forward chaining from given facts"
(xthms1 >> (fn x => Toplevel.print o Toplevel.proof (IsarThy.from_facts x)));
val factsP =
OuterSyntax.parser false "note" "define facts"
(facts >> (Toplevel.proof o IsarThy.have_facts));
(* proof context *)
val assumeP =
OuterSyntax.parser false "assume" "assume propositions"
(opt_thm_name ":" -- Scan.repeat1 propp >>
(fn ((x, y), z) => Toplevel.print o Toplevel.proof (IsarThy.assume x y z)));
val fixP =
OuterSyntax.parser false "fix" "fix variables (Skolem constants)"
(Scan.repeat1 (name -- Scan.option ($$$ "::" |-- typ))
>> (fn xs => Toplevel.print o Toplevel.proof (IsarThy.fix xs)));
val letP =
OuterSyntax.parser false "let" "bind text variables"
(enum1 "and" (enum1 "as" term -- ($$$ "=" |-- term))
>> (fn bs => Toplevel.print o Toplevel.proof (IsarThy.match_bind bs)));
(* proof structure *)
val beginP =
OuterSyntax.parser false "begin" "begin block"
(Scan.succeed (Toplevel.print o Toplevel.proof IsarThy.begin_block));
val nextP =
OuterSyntax.parser false "next" "enter next block"
(Scan.succeed (Toplevel.print o Toplevel.proof IsarThy.next_block));
(* end proof *)
val qedP =
OuterSyntax.parser false "qed" "conclude proof"
(Scan.succeed (Toplevel.proof_to_theory IsarThy.qed));
val qed_withP =
OuterSyntax.parser true "qed_with" "conclude proof, may patch name and attributes"
(Scan.option name -- Scan.option attribs >> (Toplevel.proof_to_theory o IsarThy.qed_with));
val kill_proofP =
OuterSyntax.parser true "kill" "abort current proof"
(Scan.succeed (Toplevel.print o Toplevel.proof_to_theory IsarThy.kill_proof));
(* proof steps *)
fun gen_stepP meth int name cmt f =
OuterSyntax.parser int name cmt
(meth >> (fn txt => Toplevel.print o Toplevel.proof (f txt)));
val stepP = gen_stepP method;
val refineP = stepP true "refine" "unstructured backward proof step, ignoring facts" IsarThy.tac;
val then_refineP =
stepP true "then_refine" "unstructured backward proof step, using facts" IsarThy.then_tac;
val proofP = gen_stepP (Scan.option method) false "proof" "backward proof" IsarThy.proof;
val terminal_proofP = stepP false "by" "terminal backward proof" IsarThy.terminal_proof;
val trivial_proofP =
OuterSyntax.parser false "." "trivial proof"
(Scan.succeed (Toplevel.print o Toplevel.proof IsarThy.trivial_proof));
val default_proofP =
OuterSyntax.parser false ".." "default proof"
(Scan.succeed (Toplevel.print o Toplevel.proof IsarThy.default_proof));
(* proof history *)
val clear_undoP =
OuterSyntax.parser true "clear_undo" "clear proof command undo information"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.clear));
val undoP =
OuterSyntax.parser true "undo" "undo proof command"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.undo));
val redoP =
OuterSyntax.parser true "redo" "redo proof command"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.redo));
val undosP =
OuterSyntax.parser true "undos" "undo proof commands"
(nat >> (fn n => Toplevel.print o Toplevel.proof (ProofHistory.undos n)));
val redosP =
OuterSyntax.parser true "redos" "redo proof commands"
(nat >> (fn n => Toplevel.print o Toplevel.proof (ProofHistory.redos n)));
val backP =
OuterSyntax.parser true "back" "backtracking of proof command"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.back));
val prevP =
OuterSyntax.parser true "prev" "previous proof state"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.prev));
val upP =
OuterSyntax.parser true "up" "upper proof state"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.up));
val topP =
OuterSyntax.parser true "top" "to initial proof state"
(Scan.succeed (Toplevel.print o Toplevel.proof ProofHistory.top));
(** diagnostic commands (for interactive mode only) **)
val print_commandsP =
OuterSyntax.parser true "help" "print outer syntax (global)"
(Scan.succeed (Toplevel.imperative OuterSyntax.print_outer_syntax));
val print_theoryP =
OuterSyntax.parser true "print_theory" "print logical theory contents (verbose!)"
(Scan.succeed IsarCmd.print_theory);
val print_syntaxP =
OuterSyntax.parser true "print_syntax" "print inner syntax of theory (verbose!)"
(Scan.succeed IsarCmd.print_syntax);
val print_theoremsP =
OuterSyntax.parser true "print_theorems" "print theorems known in this theory"
(Scan.succeed IsarCmd.print_theorems);
val print_attributesP =
OuterSyntax.parser true "print_attributes" "print attributes known in this theory"
(Scan.succeed IsarCmd.print_attributes);
val print_methodsP =
OuterSyntax.parser true "print_methods" "print methods known in this theory"
(Scan.succeed IsarCmd.print_methods);
val print_bindsP =
OuterSyntax.parser true "print_binds" "print term bindings of proof context"
(Scan.succeed IsarCmd.print_binds);
val print_lthmsP =
OuterSyntax.parser true "print_facts" "print local theorems of proof context"
(Scan.succeed IsarCmd.print_lthms);
val print_thmsP =
OuterSyntax.parser true "thm" "print theorems" (xthm >> IsarCmd.print_thms);
val print_propP =
OuterSyntax.parser true "prop" "read and print proposition"
(term >> IsarCmd.print_prop);
val print_termP =
OuterSyntax.parser true "term" "read and print term"
(term >> IsarCmd.print_term);
val print_typeP =
OuterSyntax.parser true "typ" "read and print type"
(typ >> IsarCmd.print_type);
(** system commands (for interactive mode only) **)
val cdP =
OuterSyntax.parser true "cd" "change current working directory"
(name >> IsarCmd.cd);
val pwdP =
OuterSyntax.parser true "pwd" "print current working directory"
(Scan.succeed IsarCmd.pwd);
val use_thyP =
OuterSyntax.parser true "use_thy" "use_thy theory file"
(name >> IsarCmd.use_thy);
val loadP =
OuterSyntax.parser true "load" "load theory file"
(name >> IsarCmd.load);
val prP =
OuterSyntax.parser true "pr" "print current toplevel state"
(Scan.succeed (Toplevel.print o Toplevel.imperative (K ())));
val opt_unit = Scan.optional ($$$ "(" -- $$$ ")" >> (K ())) ();
val commitP =
OuterSyntax.parser true "commit" "commit current session to ML database"
(opt_unit >> (K IsarCmd.use_commit));
val quitP =
OuterSyntax.parser true "quit" "quit Isabelle"
(opt_unit >> (K IsarCmd.quit));
val exitP =
OuterSyntax.parser true "exit" "exit Isar loop"
(Scan.succeed IsarCmd.exit);
val restartP =
OuterSyntax.parser true "restart" "restart Isar loop"
(Scan.succeed IsarCmd.restart);
val breakP =
OuterSyntax.parser true "break" "discontinue excursion (keep current state)"
(Scan.succeed IsarCmd.break);
(** the Pure outer syntax **)
(*keep keywords consistent with the parsers, including those in
outer_parse.ML, otherwise be prepared for unexpected errors*)
val keywords =
["(", ")", "*", "+", "--", ",", ":", "::", ";", "<", "<=", "=", "==", "=>",
"?", "[", "]", "and", "as", "binder", "infixl", "infixr", "is",
"mixfix", "output", "{", "|", "}"];
val parsers = [
(*theory structure*)
contextP, theoryP, endP,
(*theory sections*)
textP, chapterP, sectionP, subsectionP, subsubsectionP, classesP,
classrelP, defaultsortP, typedeclP, typeabbrP, nontermP, aritiesP,
constsP, syntaxP, translationsP, axiomsP, defsP, theoremsP, lemmasP,
axclassP, instanceP, globalP, localP, pathP, useP, mlP, setupP,
parse_ast_translationP, parse_translationP, print_translationP,
typed_print_translationP, print_ast_translationP,
token_translationP, oracleP,
(*proof commands*)
theoremP, lemmaP, showP, haveP, assumeP, fixP, letP, thenP, fromP,
factsP, beginP, nextP, qedP, qed_withP, kill_proofP, refineP,
then_refineP, proofP, terminal_proofP, trivial_proofP,
default_proofP, clear_undoP, undoP, redoP, undosP, redosP, backP,
prevP, upP, topP,
(*diagnostic commands*)
print_commandsP, print_theoryP, print_syntaxP, print_attributesP,
print_methodsP, print_theoremsP, print_bindsP, print_lthmsP,
print_thmsP, print_propP, print_termP, print_typeP,
(*system commands*)
cdP, pwdP, use_thyP, loadP, prP, commitP, quitP, exitP, restartP, breakP];
end;
(* install the Pure outer syntax *)
OuterSyntax.add_keywords IsarSyn.keywords;
OuterSyntax.add_parsers IsarSyn.parsers;