return_term loc (CicAst.Appl [CicAst.Symbol ("divide", 0); t1; t2])
]
];
+ term: LEVEL "power"
+ [
+ [ t1 = term; SYMBOL "^"; t2 = term ->
+ return_term loc (CicAst.Appl [CicAst.Symbol ("power", 0); t1; t2])
+ ]
+ ];
term: LEVEL "inv"
[
[ SYMBOL "-"; t = term ->
END
let _ =
- let uri s = UriManager.uri_of_string s in
- let const s = Cic.Const (uri s, []) in
- let mutind s = Cic.MutInd (uri s, 0, []) in
+ let const s = Cic.Const (s, []) in
+ let mutind s = Cic.MutInd (s, 0, []) in
DisambiguateChoices.add_num_choice
("natural number",
DisambiguateChoices.add_num_choice
("real number",
(fun _ num _ -> HelmLibraryObjects.build_real (int_of_string num)));
+ DisambiguateChoices.add_num_choice
+ ("binary positive number",
+ (fun _ num _ ->
+ let num = int_of_string num in
+ if num = 0 then
+ raise DisambiguateChoices.Invalid_choice
+ else
+ HelmLibraryObjects.build_bin_pos num));
+ DisambiguateChoices.add_num_choice
+ ("binary integer number",
+ (fun _ num _ ->
+ let num = int_of_string num in
+ if num = 0 then
+ HelmLibraryObjects.BinInt.z0
+ else if num > 0 then
+ Cic.Appl [
+ HelmLibraryObjects.BinInt.zpos;
+ HelmLibraryObjects.build_bin_pos num ]
+ else
+ assert false));
DisambiguateChoices.add_binary_op "plus" "natural plus"
HelmLibraryObjects.Peano.plus;
DisambiguateChoices.add_binary_op "plus" "real plus"
HelmLibraryObjects.Reals.rplus;
+ DisambiguateChoices.add_binary_op "plus" "binary integer plus"
+ HelmLibraryObjects.BinInt.zplus;
+ DisambiguateChoices.add_binary_op "plus" "binary positive plus"
+ HelmLibraryObjects.BinPos.pplus;
DisambiguateChoices.add_binary_op "minus" "natural minus"
- (const "cic:/Coq/Arith/Minus/minus.con");
+ (const HelmLibraryObjects.Peano.minus_URI);
DisambiguateChoices.add_binary_op "minus" "real minus"
- (const "cic:/Coq/Reals/Rdefinitions/Rminus.con");
+ (const HelmLibraryObjects.Reals.rminus_URI);
+ DisambiguateChoices.add_binary_op "minus" "binary integer minus"
+ HelmLibraryObjects.BinInt.zminus;
+ DisambiguateChoices.add_binary_op "minus" "binary positive minus"
+ HelmLibraryObjects.BinPos.pminus;
DisambiguateChoices.add_binary_op "times" "natural times"
- (const "cic:/Coq/Init/Peano/mult.con");
+ (const HelmLibraryObjects.Peano.mult_URI);
DisambiguateChoices.add_binary_op "times" "real times"
- (const "cic:/Coq/Reals/Rdefinitions/Rmult.con");
+ (const HelmLibraryObjects.Reals.rmult_URI);
+ DisambiguateChoices.add_binary_op "times" "binary positive times"
+ HelmLibraryObjects.BinPos.pmult;
+ DisambiguateChoices.add_binary_op "times" "binary integer times"
+ HelmLibraryObjects.BinInt.zmult;
+ DisambiguateChoices.add_binary_op "power" "real power"
+ (const HelmLibraryObjects.Reals.pow_URI);
+ DisambiguateChoices.add_binary_op "power" "integer power"
+ (const HelmLibraryObjects.BinInt.zpower_URI);
DisambiguateChoices.add_binary_op "divide" "real divide"
- (const "cic:/Coq/Reals/Rdefinitions/Rdiv.con");
+ (const HelmLibraryObjects.Reals.rdiv_URI);
DisambiguateChoices.add_unary_op "uminus" "real unary minus"
- (const "cic:/Coq/Reals/Rdefinitions/Ropp.con");
+ (const HelmLibraryObjects.Reals.ropp_URI);
+ DisambiguateChoices.add_unary_op "uminus" "binary integer negative sign"
+ (HelmLibraryObjects.BinInt.zneg);
+ DisambiguateChoices.add_unary_op "uminus" "binary integer unary minus"
+ (HelmLibraryObjects.BinInt.zopp);
DisambiguateChoices.add_binary_op "leq" "natural 'less or equal to'"
- (mutind "cic:/Coq/Init/Peano/le.ind");
+ (mutind HelmLibraryObjects.Peano.le_URI);
DisambiguateChoices.add_binary_op "leq" "real 'less or equal to'"
- (const "cic:/Coq/Reals/Rdefinitions/Rle.con");
+ (const HelmLibraryObjects.Reals.rle_URI);
DisambiguateChoices.add_binary_op "geq" "natural 'greater or equal to'"
- (const "cic:/Coq/Init/Peano/ge.con");
+ (const HelmLibraryObjects.Peano.ge_URI);
DisambiguateChoices.add_binary_op "geq" "real 'greater or equal to'"
- (const "cic:/Coq/Reals/Rdefinitions/Rge.con");
+ (const HelmLibraryObjects.Reals.rge_URI);
DisambiguateChoices.add_binary_op "lt" "natural 'less than'"
- (const "cic:/Coq/Init/Peano/lt.con");
+ (const HelmLibraryObjects.Peano.lt_URI);
DisambiguateChoices.add_binary_op "lt" "real 'less than'"
- (const "cic:/Coq/Reals/Rdefinitions/Rlt.con");
+ (const HelmLibraryObjects.Reals.rlt_URI);
DisambiguateChoices.add_binary_op "gt" "natural 'greater than'"
- (const "cic:/Coq/Init/Peano/gt.con");
+ (const HelmLibraryObjects.Peano.gt_URI);
DisambiguateChoices.add_binary_op "gt" "real 'greater than'"
- (const "cic:/Coq/Reals/Rdefinitions/Rgt.con");
+ (const HelmLibraryObjects.Reals.rgt_URI);
DisambiguateChoices.add_symbol_choice "neq"
("not equal to (leibnitz)",
(fun env _ args ->
| [t1; t2] -> t1, t2
| _ -> raise DisambiguateChoices.Invalid_choice
in
- Cic.Appl [ const "cic:/Coq/Init/Logic/not.con";
+ Cic.Appl [ const HelmLibraryObjects.Logic.not_URI;
Cic.Appl [
Cic.MutInd (HelmLibraryObjects.Logic.eq_URI, 0, []);
Cic.Implicit (Some `Type); t1; t2 ] ]));
- DisambiguateChoices.add_symbol_choice "neq"
- ("not equal to (sort Type)",
- (fun env _ args ->
- let t1, t2 =
- match args with
- | [t1; t2] -> t1, t2
- | _ -> raise DisambiguateChoices.Invalid_choice
- in
- Cic.Appl [ const "cic:/Coq/Init/Logic/not.con";
- Cic.Appl [
- Cic.MutInd (HelmLibraryObjects.Logic_Type.eqt_URI, 0, []);
- Cic.Implicit (Some `Type); t1; t2 ] ]));
+(* vim:set encoding=utf8: *)