--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/src/HOL/Library/ML_Int.thy Thu Jul 19 21:47:46 2007 +0200
@@ -0,0 +1,204 @@
+(* ID: $Id$
+ Author: Florian Haftmann, TU Muenchen
+*)
+
+header {* Built-in integers for ML *}
+
+theory ML_Int
+imports List
+begin
+
+subsection {* Datatype of built-in integers *}
+
+datatype ml_int = ml_int_of_int int
+
+lemmas [code func del] = ml_int.recs ml_int.cases
+
+fun
+ int_of_ml_int :: "ml_int \<Rightarrow> int"
+where
+ "int_of_ml_int (ml_int_of_int k) = k"
+lemmas [code func del] = int_of_ml_int.simps
+
+lemma ml_int_id [simp]:
+ "ml_int_of_int (int_of_ml_int k) = k"
+ by (cases k) simp_all
+
+lemma ml_int:
+ "(\<And>k\<Colon>ml_int. PROP P k) \<equiv> (\<And>k\<Colon>int. PROP P (ml_int_of_int k))"
+proof
+ fix k :: int
+ assume "\<And>k\<Colon>ml_int. PROP P k"
+ then show "PROP P (ml_int_of_int k)" .
+next
+ fix k :: ml_int
+ assume "\<And>k\<Colon>int. PROP P (ml_int_of_int k)"
+ then have "PROP P (ml_int_of_int (int_of_ml_int k))" .
+ then show "PROP P k" by simp
+qed
+
+lemma [code func]: "size (k\<Colon>ml_int) = 0"
+ by (cases k) simp_all
+
+
+subsection {* Built-in integers as datatype on numerals *}
+
+instance ml_int :: number
+ "number_of \<equiv> ml_int_of_int" ..
+
+lemmas [code inline] = number_of_ml_int_def [symmetric]
+
+code_datatype "number_of \<Colon> int \<Rightarrow> ml_int"
+
+lemma number_of_ml_int_id [simp]:
+ "number_of (int_of_ml_int k) = k"
+ unfolding number_of_ml_int_def by simp
+
+
+subsection {* Basic arithmetic *}
+
+instance ml_int :: zero
+ [simp]: "0 \<equiv> ml_int_of_int 0" ..
+lemmas [code func del] = zero_ml_int_def
+
+instance ml_int :: one
+ [simp]: "1 \<equiv> ml_int_of_int 1" ..
+lemmas [code func del] = one_ml_int_def
+
+instance ml_int :: plus
+ [simp]: "k + l \<equiv> ml_int_of_int (int_of_ml_int k + int_of_ml_int l)" ..
+lemmas [code func del] = plus_ml_int_def
+lemma plus_ml_int_code [code func]:
+ "ml_int_of_int k + ml_int_of_int l = ml_int_of_int (k + l)"
+ unfolding plus_ml_int_def by simp
+
+instance ml_int :: minus
+ [simp]: "- k \<equiv> ml_int_of_int (- int_of_ml_int k)"
+ [simp]: "k - l \<equiv> ml_int_of_int (int_of_ml_int k - int_of_ml_int l)" ..
+lemmas [code func del] = uminus_ml_int_def minus_ml_int_def
+lemma uminus_ml_int_code [code func]:
+ "- ml_int_of_int k \<equiv> ml_int_of_int (- k)"
+ unfolding uminus_ml_int_def by simp
+lemma minus_ml_int_code [code func]:
+ "ml_int_of_int k - ml_int_of_int l = ml_int_of_int (k - l)"
+ unfolding minus_ml_int_def by simp
+
+instance ml_int :: times
+ [simp]: "k * l \<equiv> ml_int_of_int (int_of_ml_int k * int_of_ml_int l)" ..
+lemmas [code func del] = times_ml_int_def
+lemma times_ml_int_code [code func]:
+ "ml_int_of_int k * ml_int_of_int l = ml_int_of_int (k * l)"
+ unfolding times_ml_int_def by simp
+
+instance ml_int :: ord
+ [simp]: "k \<le> l \<equiv> int_of_ml_int k \<le> int_of_ml_int l"
+ [simp]: "k < l \<equiv> int_of_ml_int k < int_of_ml_int l" ..
+lemmas [code func del] = less_eq_ml_int_def less_ml_int_def
+lemma less_eq_ml_int_code [code func]:
+ "ml_int_of_int k \<le> ml_int_of_int l \<longleftrightarrow> k \<le> l"
+ unfolding less_eq_ml_int_def by simp
+lemma less_ml_int_code [code func]:
+ "ml_int_of_int k < ml_int_of_int l \<longleftrightarrow> k < l"
+ unfolding less_ml_int_def by simp
+
+instance ml_int :: ring_1
+ by default (auto simp add: left_distrib right_distrib)
+
+lemma of_nat_ml_int: "of_nat n = ml_int_of_int (of_nat n)"
+proof (induct n)
+ case 0 show ?case by simp
+next
+ case (Suc n)
+ then have "int_of_ml_int (ml_int_of_int (int_of_nat n))
+ = int_of_ml_int (of_nat n)" by simp
+ then have "int_of_nat n = int_of_ml_int (of_nat n)" by simp
+ then show ?case by simp
+qed
+
+instance ml_int :: number_ring
+ by default
+ (simp_all add: left_distrib number_of_ml_int_def of_int_of_nat of_nat_ml_int)
+
+lemma zero_ml_int_code [code inline, code func]:
+ "(0\<Colon>ml_int) = Numeral0"
+ by simp
+
+lemma one_ml_int_code [code inline, code func]:
+ "(1\<Colon>ml_int) = Numeral1"
+ by simp
+
+instance ml_int :: minus
+ "\<bar>k\<bar> \<equiv> if k < 0 then -k else k" ..
+
+
+subsection {* Conversion to @{typ nat} *}
+
+definition
+ nat_of_ml_int :: "ml_int \<Rightarrow> nat"
+where
+ "nat_of_ml_int = nat o int_of_ml_int"
+
+definition
+ nat_of_ml_int_aux :: "ml_int \<Rightarrow> nat \<Rightarrow> nat" where
+ "nat_of_ml_int_aux i n = nat_of_ml_int i + n"
+
+lemma nat_of_ml_int_aux_code [code]:
+ "nat_of_ml_int_aux i n = (if i \<le> 0 then n else nat_of_ml_int_aux (i - 1) (Suc n))"
+ by (auto simp add: nat_of_ml_int_aux_def nat_of_ml_int_def)
+
+lemma nat_of_ml_int_code [code]:
+ "nat_of_ml_int i = nat_of_ml_int_aux i 0"
+ by (simp add: nat_of_ml_int_aux_def)
+
+
+subsection {* ML interface *}
+
+ML {*
+structure ML_Int =
+struct
+
+fun mk k = @{term ml_int_of_int} $ HOLogic.mk_number @{typ ml_int} k;
+
+end;
+*}
+
+
+subsection {* Code serialization *}
+
+code_type ml_int
+ (SML "int")
+
+setup {*
+ CodegenSerializer.add_pretty_numeral "SML" false
+ (@{const_name number_of}, @{typ "int \<Rightarrow> ml_int"})
+ @{const_name Numeral.B0} @{const_name Numeral.B1}
+ @{const_name Numeral.Pls} @{const_name Numeral.Min}
+ @{const_name Numeral.Bit}
+*}
+
+code_reserved SML int
+
+code_const "op + \<Colon> ml_int \<Rightarrow> ml_int \<Rightarrow> ml_int"
+ (SML "Int.+ ((_), (_))")
+
+code_const "uminus \<Colon> ml_int \<Rightarrow> ml_int"
+ (SML "Int.~")
+
+code_const "op - \<Colon> ml_int \<Rightarrow> ml_int \<Rightarrow> ml_int"
+ (SML "Int.- ((_), (_))")
+
+code_const "op * \<Colon> ml_int \<Rightarrow> ml_int \<Rightarrow> ml_int"
+ (SML "Int.* ((_), (_))")
+
+code_const "op = \<Colon> ml_int \<Rightarrow> ml_int \<Rightarrow> bool"
+ (SML "!((_ : Int.int) = _)")
+
+code_const "op \<le> \<Colon> ml_int \<Rightarrow> ml_int \<Rightarrow> bool"
+ (SML "Int.<= ((_), (_))")
+
+code_const "op < \<Colon> ml_int \<Rightarrow> ml_int \<Rightarrow> bool"
+ (SML "Int.< ((_), (_))")
+
+end
+
+
--- a/src/HOL/Library/Pretty_Int.thy Thu Jul 19 21:47:45 2007 +0200
+++ b/src/HOL/Library/Pretty_Int.thy Thu Jul 19 21:47:46 2007 +0200
@@ -24,7 +24,7 @@
(Haskell -)
setup {*
- fold (fn target => CodegenSerializer.add_pretty_numeral target
+ fold (fn target => CodegenSerializer.add_pretty_numeral target true
(@{const_name number_of}, @{typ "int \<Rightarrow> int"})
@{const_name Numeral.B0} @{const_name Numeral.B1}
@{const_name Numeral.Pls} @{const_name Numeral.Min}
--- a/src/Pure/Tools/codegen_serializer.ML Thu Jul 19 21:47:45 2007 +0200
+++ b/src/Pure/Tools/codegen_serializer.ML Thu Jul 19 21:47:46 2007 +0200
@@ -23,7 +23,7 @@
val add_pretty_list_string: string -> string -> string
-> string -> string list -> theory -> theory;
val add_pretty_char: string -> string -> string list -> theory -> theory
- val add_pretty_numeral: string -> string * typ -> string -> string -> string
+ val add_pretty_numeral: string -> bool -> string * typ -> string -> string -> string
-> string -> string -> theory -> theory;
val add_pretty_ml_string: string -> string -> string list -> string
-> string -> string -> theory -> theory;
@@ -1635,13 +1635,15 @@
val pretty : (string * {
pretty_char: string -> string,
pretty_string: string -> string,
- pretty_numeral: IntInf.int -> string,
+ pretty_numeral: bool -> IntInf.int -> string,
pretty_list: Pretty.T list -> Pretty.T,
infix_cons: int * string
}) list = [
("SML", { pretty_char = prefix "#" o quote o ML_Syntax.print_char,
pretty_string = ML_Syntax.print_string,
- pretty_numeral = fn k => "(" ^ IntInf.toString k ^ " : IntInf.int)",
+ pretty_numeral = fn unbounded => fn k =>
+ if unbounded then "(" ^ IntInf.toString k ^ " : IntInf.int)"
+ else IntInf.toString k,
pretty_list = Pretty.enum "," "[" "]",
infix_cons = (7, "::")}),
("OCaml", { pretty_char = fn c => enclose "'" "'"
@@ -1651,11 +1653,15 @@
else c
end),
pretty_string = (fn _ => error "OCaml: no pretty strings"),
- pretty_numeral = fn k => if k >= IntInf.fromInt 0 then
- "(Big_int.big_int_of_int " ^ IntInf.toString k ^ ")"
+ pretty_numeral = fn unbounded => fn k => if k >= IntInf.fromInt 0 then
+ if unbounded then
+ "(Big_int.big_int_of_int " ^ IntInf.toString k ^ ")"
+ else IntInf.toString k
else
- "(Big_int.big_int_of_int " ^ (enclose "(" ")" o prefix "-"
- o IntInf.toString o op ~) k ^ ")",
+ if unbounded then
+ "(Big_int.big_int_of_int " ^ (enclose "(" ")" o prefix "-"
+ o IntInf.toString o op ~) k ^ ")"
+ else (enclose "(" ")" o prefix "-" o IntInf.toString o op ~) k,
pretty_list = Pretty.enum ";" "[" "]",
infix_cons = (6, "::")}),
("Haskell", { pretty_char = fn c => enclose "'" "'"
@@ -1665,7 +1671,7 @@
else c
end),
pretty_string = ML_Syntax.print_string,
- pretty_numeral = fn k => if k >= IntInf.fromInt 0 then
+ pretty_numeral = fn unbounded => fn k => if k >= IntInf.fromInt 0 then
IntInf.toString k
else
(enclose "(" ")" o Library.prefix "-" o IntInf.toString o IntInf.~) k,
@@ -1719,12 +1725,12 @@
| NONE => error "Illegal character expression";
in (2, pretty) end;
-fun pretty_numeral c_bit0 c_bit1 c_pls c_min c_bit target =
+fun pretty_numeral unbounded c_bit0 c_bit1 c_pls c_min c_bit target =
let
val mk_numeral = #pretty_numeral (pr_pretty target);
fun pretty _ _ _ [(t, _)] =
case implode_numeral c_bit0 c_bit1 c_pls c_min c_bit t
- of SOME k => (str o mk_numeral) k
+ of SOME k => (str o mk_numeral unbounded) k
| NONE => error "Illegal numeral expression";
in (1, pretty) end;
@@ -1994,7 +2000,7 @@
|> add_syntax_const target charr' (SOME pr)
end;
-fun add_pretty_numeral target number_of b0 b1 pls min bit thy =
+fun add_pretty_numeral target unbounded number_of b0 b1 pls min bit thy =
let
val number_of' = CodegenConsts.const_of_cexpr thy number_of;
val (_, b0'') = idfs_of_const thy b0;
@@ -2002,7 +2008,7 @@
val (_, pls'') = idfs_of_const thy pls;
val (_, min'') = idfs_of_const thy min;
val (_, bit'') = idfs_of_const thy bit;
- val pr = pretty_numeral b0'' b1'' pls'' min'' bit'' target;
+ val pr = pretty_numeral unbounded b0'' b1'' pls'' min'' bit'' target;
in
thy
|> add_syntax_const target number_of' (SOME pr)