freescale porting, work in progress

diff --git a/helm/software/matita/contribs/ng_assembly/compiler/ast_type.ma b/helm/software/matita/contribs/ng_assembly/compiler/ast_type.ma
new file mode 100755 (executable)
index 0000000..8f6de6f
--- /dev/null
+++ b/helm/software/matita/contribs/ng_assembly/compiler/ast_type.ma
@@ -0,0 +1,194 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* ********************************************************************** *)
+(*                          Progetto FreeScale                            *)
+(*                                                                        *)
+(*   Sviluppato da: Cosimo Oliboni, oliboni@cs.unibo.it                   *)
+(*     Cosimo Oliboni, oliboni@cs.unibo.it                                *)
+(*                                                                        *)
+(* ********************************************************************** *)
+
+include "utility/utility.ma".
+include "freescale/nat_lemmas.ma".
+
+(* ************************* *)
+(* dimensioni degli elementi *)
+(* ************************* *)
+
+(* usato per definire nell'ast *)
+ninductive ast_base_type : Type ≝
+  AST_BASE_TYPE_BYTE8: ast_base_type
+| AST_BASE_TYPE_WORD16: ast_base_type
+| AST_BASE_TYPE_WORD32: ast_base_type.
+
+ndefinition ast_base_type_ind
+ : ΠP:ast_base_type → Prop.P AST_BASE_TYPE_BYTE8 → P AST_BASE_TYPE_WORD16 → P AST_BASE_TYPE_WORD32 →
+   Πa:ast_base_type.P a ≝
+λP:ast_base_type → Prop.λp:P AST_BASE_TYPE_BYTE8.λp1:P AST_BASE_TYPE_WORD16.λp2:P AST_BASE_TYPE_WORD32.
+λa:ast_base_type.
+ match a with [ AST_BASE_TYPE_BYTE8 ⇒ p | AST_BASE_TYPE_WORD16 ⇒ p1 | AST_BASE_TYPE_WORD32 ⇒ p2 ].
+
+ndefinition ast_base_type_rec
+ : ΠP:ast_base_type → Set.P AST_BASE_TYPE_BYTE8 → P AST_BASE_TYPE_WORD16 → P AST_BASE_TYPE_WORD32 →
+   Πa:ast_base_type.P a ≝
+λP:ast_base_type → Set.λp:P AST_BASE_TYPE_BYTE8.λp1:P AST_BASE_TYPE_WORD16.λp2:P AST_BASE_TYPE_WORD32.
+λa:ast_base_type.
+ match a with [ AST_BASE_TYPE_BYTE8 ⇒ p | AST_BASE_TYPE_WORD16 ⇒ p1 | AST_BASE_TYPE_WORD32 ⇒ p2 ].
+
+ndefinition ast_base_type_rect
+ : ΠP:ast_base_type → Type.P AST_BASE_TYPE_BYTE8 → P AST_BASE_TYPE_WORD16 → P AST_BASE_TYPE_WORD32 →
+   Πa:ast_base_type.P a ≝
+λP:ast_base_type → Type.λp:P AST_BASE_TYPE_BYTE8.λp1:P AST_BASE_TYPE_WORD16.λp2:P AST_BASE_TYPE_WORD32.
+λa:ast_base_type.
+ match a with [ AST_BASE_TYPE_BYTE8 ⇒ p | AST_BASE_TYPE_WORD16 ⇒ p1 | AST_BASE_TYPE_WORD32 ⇒ p2 ].
+
+ninductive ast_type : Type ≝
+  AST_TYPE_BASE: ast_base_type → ast_type
+| AST_TYPE_ARRAY: ast_type → nat → ast_type
+| AST_TYPE_STRUCT: ne_list ast_type → ast_type.
+
+nlet rec ast_type_ind_aux (P:ast_type → Prop)
+                          (f:Πt.P t → P (AST_TYPE_STRUCT (ne_nil ? t)))
+                          (f1:Πh,t.P h → P (AST_TYPE_STRUCT t) → P (AST_TYPE_STRUCT (ne_cons ? h t)))
+                          (f2:Πt.P t)
+                          (t:ne_list ast_type) on t ≝
+ match t return λt.P (AST_TYPE_STRUCT t) with
+  [ ne_nil h ⇒ f h (f2 h)
+  | ne_cons h t ⇒ f1 h t (f2 h) (ast_type_ind_aux P f f1 f2 t)
+  ].
+
+nlet rec ast_type_ind (P:ast_type → Prop)
+                      (f:Πb.P (AST_TYPE_BASE b))
+                      (f1:Πt,n.P t → P (AST_TYPE_ARRAY t n))
+                      (f2:Πt.P t → P (AST_TYPE_STRUCT (ne_nil ? t)))
+                      (f3:Πh,t.P h → P (AST_TYPE_STRUCT t) → P (AST_TYPE_STRUCT (ne_cons ? h t)))
+                      (t:ast_type) on t : P t ≝
+ match t return λt.P t with
+  [ AST_TYPE_BASE b ⇒ f b
+  | AST_TYPE_ARRAY t' n ⇒ f1 t' n (ast_type_ind P f f1 f2 f3 t')
+  | AST_TYPE_STRUCT nl ⇒ match nl with
+   [ ne_nil h ⇒ f2 h (ast_type_ind P f f1 f2 f3 h)
+   | ne_cons h t ⇒ f3 h t (ast_type_ind P f f1 f2 f3 h) (ast_type_ind_aux P f2 f3 (ast_type_ind P f f1 f2 f3) t)
+   ]
+  ]. 
+
+nlet rec ast_type_rec_aux (P:ast_type → Set)
+                          (f:Πt.P t → P (AST_TYPE_STRUCT (ne_nil ? t)))
+                          (f1:Πh,t.P h → P (AST_TYPE_STRUCT t) → P (AST_TYPE_STRUCT (ne_cons ? h t)))
+                          (f2:Πt.P t)
+                          (t:ne_list ast_type) on t ≝
+ match t return λt.P (AST_TYPE_STRUCT t) with
+  [ ne_nil h ⇒ f h (f2 h)
+  | ne_cons h t ⇒ f1 h t (f2 h) (ast_type_rec_aux P f f1 f2 t)
+  ].
+
+nlet rec ast_type_rec (P:ast_type → Set)
+                      (f:Πb.P (AST_TYPE_BASE b))
+                      (f1:Πt,n.P t → P (AST_TYPE_ARRAY t n))
+                      (f2:Πt.P t → P (AST_TYPE_STRUCT (ne_nil ? t)))
+                      (f3:Πh,t.P h → P (AST_TYPE_STRUCT t) → P (AST_TYPE_STRUCT (ne_cons ? h t)))
+                      (t:ast_type) on t : P t ≝
+ match t return λt.P t with
+  [ AST_TYPE_BASE b ⇒ f b
+  | AST_TYPE_ARRAY t' n ⇒ f1 t' n (ast_type_rec P f f1 f2 f3 t')
+  | AST_TYPE_STRUCT nl ⇒ match nl with
+   [ ne_nil h ⇒ f2 h (ast_type_rec P f f1 f2 f3 h)
+   | ne_cons h t ⇒ f3 h t (ast_type_rec P f f1 f2 f3 h) (ast_type_rec_aux P f2 f3 (ast_type_rec P f f1 f2 f3) t)
+   ]
+  ]. 
+
+nlet rec ast_type_rect_aux (P:ast_type → Type)
+                           (f:Πt.P t → P (AST_TYPE_STRUCT (ne_nil ? t)))
+                           (f1:Πh,t.P h → P (AST_TYPE_STRUCT t) → P (AST_TYPE_STRUCT (ne_cons ? h t)))
+                           (f2:Πt.P t)
+                           (t:ne_list ast_type) on t ≝
+ match t return λt.P (AST_TYPE_STRUCT t) with
+  [ ne_nil h ⇒ f h (f2 h)
+  | ne_cons h t ⇒ f1 h t (f2 h) (ast_type_rect_aux P f f1 f2 t)
+  ].
+
+nlet rec ast_type_rect (P:ast_type → Type)
+                       (f:Πb.P (AST_TYPE_BASE b))
+                       (f1:Πt,n.P t → P (AST_TYPE_ARRAY t n))
+                       (f2:Πt.P t → P (AST_TYPE_STRUCT (ne_nil ? t)))
+                       (f3:Πh,t.P h → P (AST_TYPE_STRUCT t) → P (AST_TYPE_STRUCT (ne_cons ? h t)))
+                       (t:ast_type) on t : P t ≝
+ match t return λt.P t with
+  [ AST_TYPE_BASE b ⇒ f b
+  | AST_TYPE_ARRAY t' n ⇒ f1 t' n (ast_type_rect P f f1 f2 f3 t')
+  | AST_TYPE_STRUCT nl ⇒ match nl with
+   [ ne_nil h ⇒ f2 h (ast_type_rect P f f1 f2 f3 h)
+   | ne_cons h t ⇒ f3 h t (ast_type_rect P f f1 f2 f3 h) (ast_type_rect_aux P f2 f3 (ast_type_rect P f f1 f2 f3) t)
+   ]
+  ]. 
+
+ndefinition eq_ast_base_type ≝
+λt1,t2:ast_base_type.match t1 with
+ [ AST_BASE_TYPE_BYTE8 ⇒ match t2 with
+  [ AST_BASE_TYPE_BYTE8 ⇒ true | _ ⇒ false ]
+ | AST_BASE_TYPE_WORD16 ⇒ match t2 with
+  [ AST_BASE_TYPE_WORD16 ⇒ true | _ ⇒ false ]
+ | AST_BASE_TYPE_WORD32 ⇒ match t2 with
+  [ AST_BASE_TYPE_WORD32 ⇒ true | _ ⇒ false ]
+ ].
+
+nlet rec eq_ast_type (t1,t2:ast_type) on t1 ≝
+ match t1 with
+  [ AST_TYPE_BASE bType1 ⇒ match t2 with
+   [ AST_TYPE_BASE bType2 ⇒ eq_ast_base_type bType1 bType2
+   | _ ⇒ false ]
+  | AST_TYPE_ARRAY subType1 dim1 ⇒ match t2 with
+   [ AST_TYPE_ARRAY subType2 dim2 ⇒ (eq_ast_type subType1 subType2) ⊗ (eq_nat dim1 dim2)
+   | _ ⇒ false ]
+  | AST_TYPE_STRUCT nelSubType1 ⇒ match t2 with
+   [ AST_TYPE_STRUCT nelSubType2 ⇒
+    match eq_nat (len_neList ? nelSubType1) (len_neList ? nelSubType2)
+     return λx.eq_nat (len_neList ? nelSubType1) (len_neList ? nelSubType2) = x → bool
+    with
+     [ true ⇒ λp:(eq_nat (len_neList ? nelSubType1) (len_neList ? nelSubType2) = true).
+      fold_right_neList2 ?? (λx1,x2,acc.(eq_ast_type x1 x2)⊗acc)
+                         true nelSubType1 nelSubType2
+                         (eqnat_to_eq (len_neList ? nelSubType1) (len_neList ? nelSubType2) p)
+     | false ⇒ λp:(eq_nat (len_neList ? nelSubType1) (len_neList ? nelSubType2) = false).false
+     ] (refl_eq ? (eq_nat (len_neList ? nelSubType1) (len_neList ? nelSubType2)))
+   | _ ⇒ false
+   ]
+  ].
+
+ndefinition is_ast_base_type ≝
+λast:ast_type.match ast with [ AST_TYPE_BASE _ ⇒ True | _ ⇒ False ].
+
+ndefinition isb_ast_base_type ≝
+λast:ast_type.match ast with [ AST_TYPE_BASE _ ⇒ true | _ ⇒ false ].
+
+ndefinition isnt_ast_base_type ≝
+λast:ast_type.match ast with [ AST_TYPE_BASE _ ⇒ False | _ ⇒ True ].
+
+ndefinition isntb_ast_base_type ≝
+λast:ast_type.match ast with [ AST_TYPE_BASE _ ⇒ false | _ ⇒ true ].
+
+ndefinition eval_size_base_type ≝
+λast:ast_base_type.match ast with
+ [ AST_BASE_TYPE_BYTE8 ⇒ 1
+ | AST_BASE_TYPE_WORD16 ⇒ 2
+ | AST_BASE_TYPE_WORD32 ⇒ 4
+ ].
+
+nlet rec eval_size_type (ast:ast_type) on ast ≝
+ match ast with
+  [ AST_TYPE_BASE b ⇒ eval_size_base_type b
+  | AST_TYPE_ARRAY sub_ast dim ⇒ (dim+1)*(eval_size_type sub_ast)
+  | AST_TYPE_STRUCT nel_ast ⇒ fold_right_neList ?? (λt,x.(eval_size_type t)+x) O nel_ast
+  ].

diff --git a/helm/software/matita/contribs/ng_assembly/compiler/ast_type_lemmas.ma b/helm/software/matita/contribs/ng_assembly/compiler/ast_type_lemmas.ma
new file mode 100755 (executable)
index 0000000..99f0f1b
--- /dev/null
+++ b/helm/software/matita/contribs/ng_assembly/compiler/ast_type_lemmas.ma
@@ -0,0 +1,177 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* ********************************************************************** *)
+(*                          Progetto FreeScale                            *)
+(*                                                                        *)
+(*   Sviluppato da: Cosimo Oliboni, oliboni@cs.unibo.it                   *)
+(*     Cosimo Oliboni, oliboni@cs.unibo.it                                *)
+(*                                                                        *)
+(* ********************************************************************** *)
+
+include "compiler/ast_type.ma".
+
+(* ************************* *)
+(* dimensioni degli elementi *)
+(* ************************* *)
+
+ndefinition astbasetype_destruct_aux ≝
+Πb1,b2:ast_base_type.ΠP:Prop.b1 = b2 →
+ match b1 with
+  [ AST_BASE_TYPE_BYTE8 ⇒ match b2 with [ AST_BASE_TYPE_BYTE8 ⇒ P → P | _ ⇒ P ]
+  | AST_BASE_TYPE_WORD16 ⇒ match b2 with [ AST_BASE_TYPE_WORD16 ⇒ P → P | _ ⇒ P ]
+  | AST_BASE_TYPE_WORD32 ⇒ match b2 with [ AST_BASE_TYPE_WORD32 ⇒ P → P | _ ⇒ P ]
+  ].
+
+ndefinition astbasetype_destruct : astbasetype_destruct_aux.
+ #b1; #b2; #P;
+ nelim b1;
+ nelim b2;
+ nnormalize;
+ #H;
+ ##[ ##1,5,9: napply (λx:P.x)
+ ##| ##2,3: napply (False_ind ??);
+            nchange with (match AST_BASE_TYPE_BYTE8 with [ AST_BASE_TYPE_BYTE8 ⇒ False | _ ⇒ True]);
+            nrewrite > H;
+            nnormalize;
+            napply I
+ ##| ##4,6: napply (False_ind ??);
+            nchange with (match AST_BASE_TYPE_WORD16 with [ AST_BASE_TYPE_WORD16 ⇒ False | _ ⇒ True]);
+            nrewrite > H;
+            nnormalize;
+            napply I
+ ##| ##7,8: napply (False_ind ??);
+            nchange with (match AST_BASE_TYPE_WORD32 with [ AST_BASE_TYPE_WORD32 ⇒ False | _ ⇒ True]);
+            nrewrite > H;
+            nnormalize;
+            napply I
+ ##]
+nqed.
+
+nlemma symmetric_eqastbasetype : symmetricT ast_base_type bool eq_ast_base_type.
+ #b1; #b2; ncases b1; ncases b2; nnormalize; napply (refl_eq ??). nqed.
+
+nlemma eqastbasetype_to_eq : ∀b1,b2.eq_ast_base_type b1 b2 = true → b1 = b2.
+ #b1; #b2; ncases b1; ncases b2; nnormalize;
+ ##[ ##1,5,9: #H; napply (refl_eq ??)
+ ##| ##*: #H; napply (bool_destruct ??? H)
+ ##]
+nqed.
+
+nlemma eq_to_eqastbasetype : ∀b1,b2.b1 = b2 → eq_ast_base_type b1 b2 = true.
+ #b1; #b2; ncases b1; ncases b2; nnormalize;
+ ##[ ##1,5,9: #H; napply (refl_eq ??)
+ ##| ##*: #H; napply (astbasetype_destruct ??? H)
+ ##]
+nqed.
+
+nlemma asttype_destruct_base_base : ∀b1,b2.AST_TYPE_BASE b1 = AST_TYPE_BASE b2 → b1 = b2.
+ #b1; #b2; #H;
+ nchange with (match AST_TYPE_BASE b2 with [ AST_TYPE_BASE a ⇒ b1 = a | _ ⇒ False ]);
+ nrewrite < H;
+ nnormalize;
+ napply (refl_eq ??).
+nqed.
+
+nlemma asttype_destruct_array_array_1 : ∀x1,x2,y1,y2.AST_TYPE_ARRAY x1 y1 = AST_TYPE_ARRAY x2 y2 → x1 = x2.
+ #x1; #x2; #y1; #y2; #H;
+ nchange with (match AST_TYPE_ARRAY x2 y2 with [ AST_TYPE_ARRAY a _ ⇒ x1 = a | _ ⇒ False ]);
+ nrewrite < H;
+ nnormalize;
+ napply (refl_eq ??).
+nqed.
+
+nlemma asttype_destruct_array_array_2 : ∀x1,x2,y1,y2.AST_TYPE_ARRAY x1 y1 = AST_TYPE_ARRAY x2 y2 → y1 = y2.
+ #x1; #x2; #y1; #y2; #H;
+ nchange with (match AST_TYPE_ARRAY x2 y2 with [ AST_TYPE_ARRAY _ b ⇒ y1 = b | _ ⇒ False ]);
+ nrewrite < H;
+ nnormalize;
+ napply (refl_eq ??).
+nqed.
+
+nlemma asttype_destruct_struc_struct : ∀b1,b2.AST_TYPE_STRUCT b1 = AST_TYPE_STRUCT b2 → b1 = b2.
+ #b1; #b2; #H;
+ nchange with (match AST_TYPE_STRUCT b2 with [ AST_TYPE_STRUCT a ⇒ b1 = a | _ ⇒ False ]);
+ nrewrite < H;
+ nnormalize;
+ napply (refl_eq ??).
+nqed.
+
+ndefinition asttype_destruct_aux ≝
+Πb1,b2:ast_type.ΠP:Prop.b1 = b2 →
+ match b1 with
+  [ AST_TYPE_BASE s1 ⇒ match b2 with
+   [ AST_TYPE_BASE s2 ⇒ match s1 with
+    [ AST_BASE_TYPE_BYTE8 ⇒ match s2 with [ AST_BASE_TYPE_BYTE8 ⇒ P → P | _ ⇒ P ]
+    | AST_BASE_TYPE_WORD16 ⇒ match s2 with [ AST_BASE_TYPE_WORD16 ⇒ P → P | _ ⇒ P ]
+    | AST_BASE_TYPE_WORD32 ⇒ match s2 with [ AST_BASE_TYPE_WORD32 ⇒ P → P | _ ⇒ P ]
+    ] | _ ⇒ P ]
+  | AST_TYPE_ARRAY _ _ ⇒ match b2 with [ AST_TYPE_ARRAY _ _ ⇒ P → P | _ ⇒ P ]
+  | AST_TYPE_STRUCT _ ⇒ match b2 with [ AST_TYPE_STRUCT _ ⇒ P → P | _ ⇒ P ]
+  ].
+
+ndefinition asttype_destruct : asttype_destruct_aux.
+ #b1; #b2; #P;
+ ncases b1;
+ ##[ ##1: ncases b2;
+          ##[ ##1: nnormalize; #s1; #s2; ncases s1; ncases s2; nnormalize;
+                   ##[ ##1,5,9: #H; napply (λx:P.x)
+                   ##| ##*: #H; napply (astbasetype_destruct ??? (asttype_destruct_base_base ?? H))
+                   ##]
+          ##| ##2: #t; #n; #b; nnormalize; #H
+          ##| ##3: #l; #b; nnormalize; #H
+          ##]
+          napply (False_ind ??);
+          nchange with (match AST_TYPE_BASE b with [ AST_TYPE_BASE _ ⇒ False | _ ⇒ True ]);
+          nrewrite > H; nnormalize; napply I
+ ##| ##2: ncases b2;
+          ##[ ##2: #t1; #n1; #t2; #n2; nnormalize; #H; napply (λx:P.x)
+          ##| ##1: #b; #t; #n; nnormalize; #H
+          ##| ##3: #l; #t; #n; nnormalize; #H
+          ##]
+          napply (False_ind ??);
+          nchange with (match AST_TYPE_ARRAY t n with [ AST_TYPE_ARRAY _ _ ⇒ False | _ ⇒ True ]);
+          nrewrite > H; nnormalize; napply I
+ ##| ##3: ncases b2;
+          ##[ ##3: #l1; #l2; nnormalize; #H; napply (λx:P.x)
+          ##| ##1: #b; #l; nnormalize; #H
+          ##| ##2: #t; #n; #l; nnormalize; #H
+          ##]
+          napply (False_ind ??);
+          nchange with (match AST_TYPE_STRUCT l with [ AST_TYPE_STRUCT _ ⇒ False | _ ⇒ True ]);
+          nrewrite > H; nnormalize; napply I
+ ##]
+nqed.
+
+(* eq_ast lemmas missing *)
+
+nlemma isbastbasetype_to_isastbasetype : ∀ast.isb_ast_base_type ast = true → is_ast_base_type ast.
+ #ast;
+ ncases ast;
+ nnormalize;
+ ##[ ##1: #t; #H; napply I
+ ##| ##2: #t; #n; #H; napply (bool_destruct ??? H)
+ ##| ##3: #t; #H; napply (bool_destruct ??? H)
+ ##]
+nqed.
+
+nlemma isntbastbasetype_to_isntastbasetype : ∀ast.isntb_ast_base_type ast = true → isnt_ast_base_type ast.
+ #ast;
+ ncases ast;
+ nnormalize;
+ ##[ ##1: #t; #H; napply (bool_destruct ??? H)
+ ##| ##2: #t; #n; #H; napply I
+ ##| ##3: #l; #H; napply I
+ ##]
+nqed.

diff --git a/helm/software/matita/contribs/ng_assembly/depends b/helm/software/matita/contribs/ng_assembly/depends
index 3a517048bc378ee825163e82cbda63506d57a7a9..4c1f165d266bc7896f6196ef8e2cf25e55860d3d 100644 (file)
--- a/helm/software/matita/contribs/ng_assembly/depends
+++ b/helm/software/matita/contribs/ng_assembly/depends
@@ -3,10 +3,11 @@ freescale/status.ma freescale/memory_abs.ma freescale/opcode_base.ma freescale/p
 freescale/memory_bits.ma freescale/memory_trees.ma
 utility/ascii_lemmas1.ma freescale/theory.ma utility/ascii.ma
 freescale/byte8_lemmas.ma freescale/byte8.ma freescale/exadecim_lemmas.ma
-utility/string_lemmas.ma utility/ascii_lemmas2.ma utility/string.ma
+utility/string_lemmas.ma freescale/nat_lemmas.ma utility/ascii_lemmas2.ma utility/string.ma
 freescale/table_HCS08_tests.ma freescale/table_HCS08.ma
 freescale/multivm.ma freescale/load_write.ma freescale/nat_lemmas.ma
 freescale/opcode_base_lemmas.ma freescale/bool_lemmas.ma freescale/opcode_base.ma
+compiler/ast_type_lemmas.ma compiler/ast_type.ma
 freescale/table_HC05_tests.ma freescale/table_HC05.ma
 freescale/option.ma freescale/bool.ma
 freescale/bool.ma freescale/pts.ma
@@ -23,12 +24,13 @@ freescale/nat.ma freescale/bool.ma freescale/pts.ma
 freescale/medium_tests_tools.ma freescale/multivm.ma
 utility/utility_lemmas.ma utility/utility.ma
 freescale/memory_abs.ma freescale/memory_bits.ma freescale/memory_func.ma freescale/memory_trees.ma
-test_errori.ma freescale/byte8_lemmas.ma utility/utility.ma
+test_errori.ma compiler/ast_type_lemmas.ma freescale/byte8_lemmas.ma utility/utility.ma
 freescale/memory_struct.ma freescale/aux_bases.ma freescale/byte8.ma
 freescale/model.ma freescale/status.ma
 freescale/aux_bases.ma freescale/byte8.ma freescale/nat.ma
 freescale/table_HC05.ma freescale/opcode.ma
 freescale/exadecim_lemmas.ma freescale/bool_lemmas.ma freescale/exadecim.ma
+compiler/ast_type.ma freescale/nat_lemmas.ma utility/utility.ma
 freescale/word16.ma freescale/byte8.ma
 utility/ascii.ma freescale/bool.ma
 freescale/memory_trees.ma freescale/memory_struct.ma freescale/option.ma freescale/theory.ma freescale/word16.ma
@@ -38,7 +40,7 @@ freescale/aux_bases_lemmas.ma freescale/aux_bases.ma freescale/bool_lemmas.ma
 freescale/opcode_base_lemmas1.ma freescale/opcode_base_lemmas_instrmode2.ma freescale/opcode_base_lemmas_opcode2.ma freescale/word16_lemmas.ma
 freescale/table_HC08.ma freescale/opcode.ma
 freescale/prod.ma freescale/bool.ma
-utility/string.ma utility/ascii.ma utility/utility.ma
+utility/string.ma freescale/nat.ma freescale/theory.ma utility/ascii.ma
 freescale/table_HCS08.ma freescale/opcode.ma
 freescale/word32.ma freescale/word16.ma
 freescale/prod_lemmas.ma freescale/bool_lemmas.ma freescale/prod.ma
@@ -46,6 +48,7 @@ freescale/opcode_base.ma freescale/aux_bases.ma freescale/theory.ma freescale/wo
 freescale/word32_lemmas.ma freescale/word16_lemmas.ma freescale/word32.ma
 freescale/status_lemmas.ma freescale/opcode_base_lemmas1.ma freescale/option_lemmas.ma freescale/prod_lemmas.ma freescale/status.ma freescale/word16_lemmas.ma
 utility/ascii_lemmas2.ma freescale/bool_lemmas.ma utility/ascii_lemmas1.ma
+freescale/micro_tests.ma freescale/multivm.ma freescale/status_lemmas.ma
 freescale/table_HC08_tests.ma freescale/table_HC08.ma
 utility/utility.ma freescale/nat_lemmas.ma freescale/option.ma freescale/theory.ma
 freescale/opcode_base_lemmas_instrmode1.ma freescale/aux_bases_lemmas.ma freescale/exadecim_lemmas.ma freescale/opcode_base.ma

diff --git a/helm/software/matita/contribs/ng_assembly/freescale/medium_tests.ma b/helm/software/matita/contribs/ng_assembly/freescale/medium_tests.ma
index e50fe56a7926a18c8d030452355549c310d43195..54004c4447184b0eba20227bead788fc5a97b5ba 100755 (executable)
--- a/helm/software/matita/contribs/ng_assembly/freescale/medium_tests.ma
+++ b/helm/software/matita/contribs/ng_assembly/freescale/medium_tests.ma
@@ -175,10 +175,9 @@ lemma dTest_HCS08_sReverse_dump :
 qed.
 *)
 
-(*
 (* parametrizzazione dell'enunciato del teorema *)
 (* dimostrazione senza svolgimento degli stati *)
-lemma dTest_HCS08_sReverse_aux ≝
+nlemma dTest_HCS08_sReverse_aux ≝
 λt:memory_impl.λstring:list byte8.
  (* 1) la stringa deve avere una lunghezza ∈ [0,3072] *)
  (byte8_bounded_strlen string 〈〈x0,xC〉:〈x0,x0〉〉) ∧
@@ -227,7 +226,7 @@ lemma dTest_HCS08_sReverse :
 qed.
 *)
 
-definition sReverseCalc ≝
+ndefinition sReverseCalc ≝
 λstring:list byte8.
  match execute HCS08 MEM_TREE
   (TickOK ? (dTest_HCS08_sReverse_status MEM_TREE 〈x0,x0〉 〈〈x0,xD〉:〈x4,xB〉〉 (byte8_strlen string) string))
@@ -237,7 +236,7 @@ definition sReverseCalc ≝
    | TickOK s ⇒ Some ? (set_mem_desc HCS08 MEM_TREE s (load_from_source_at MEM_TREE (get_mem_desc HCS08 MEM_TREE s) dTest_zeros 〈〈x0,xD〉:〈x0,x0〉〉))
    ]. 
 
-definition sReverseNoCalc ≝
+ndefinition sReverseNoCalc ≝
 λstring:list byte8.
  Some ? (set_pc_reg HCS08 MEM_TREE
    (dTest_HCS08_sReverse_status MEM_TREE (fst ?? (shr_b8 (w16h (byte8_strlen string))))
@@ -245,30 +244,30 @@ definition sReverseNoCalc ≝
                                          (byte8_strlen string) (reverse_list ? string)) 
    (mk_word16 (mk_byte8 x1 x9) (mk_byte8 x2 xB))).
 
-definition sReverseCalc32   ≝ sReverseCalc dTest_random_32.
-definition sReverseCalc64   ≝ sReverseCalc dTest_random_64.
-definition sReverseCalc128  ≝ sReverseCalc dTest_random_128.
-definition sReverseCalc256  ≝ sReverseCalc dTest_random_256.
-definition sReverseCalc512  ≝ sReverseCalc dTest_random_512.
-definition sReverseCalc1024 ≝ sReverseCalc dTest_random_1024.
-definition sReverseCalc2048 ≝ sReverseCalc dTest_random_2048.
-definition sReverseCalc3072 ≝ sReverseCalc dTest_random_3072.
-
-definition sReverseNoCalc32   ≝ sReverseNoCalc dTest_random_32.
-definition sReverseNoCalc64   ≝ sReverseNoCalc dTest_random_64.
-definition sReverseNoCalc128  ≝ sReverseNoCalc dTest_random_128.
-definition sReverseNoCalc256  ≝ sReverseNoCalc dTest_random_256.
-definition sReverseNoCalc512  ≝ sReverseNoCalc dTest_random_512.
-definition sReverseNoCalc1024 ≝ sReverseNoCalc dTest_random_1024.
-definition sReverseNoCalc2048 ≝ sReverseNoCalc dTest_random_2048.
-definition sReverseNoCalc3072 ≝ sReverseNoCalc dTest_random_3072.
+ndefinition sReverseCalc32   ≝ sReverseCalc dTest_random_32.
+ndefinition sReverseCalc64   ≝ sReverseCalc dTest_random_64.
+ndefinition sReverseCalc128  ≝ sReverseCalc dTest_random_128.
+ndefinition sReverseCalc256  ≝ sReverseCalc dTest_random_256.
+ndefinition sReverseCalc512  ≝ sReverseCalc dTest_random_512.
+ndefinition sReverseCalc1024 ≝ sReverseCalc dTest_random_1024.
+ndefinition sReverseCalc2048 ≝ sReverseCalc dTest_random_2048.
+ndefinition sReverseCalc3072 ≝ sReverseCalc dTest_random_3072.
+
+ndefinition sReverseNoCalc32   ≝ sReverseNoCalc dTest_random_32.
+ndefinition sReverseNoCalc64   ≝ sReverseNoCalc dTest_random_64.
+ndefinition sReverseNoCalc128  ≝ sReverseNoCalc dTest_random_128.
+ndefinition sReverseNoCalc256  ≝ sReverseNoCalc dTest_random_256.
+ndefinition sReverseNoCalc512  ≝ sReverseNoCalc dTest_random_512.
+ndefinition sReverseNoCalc1024 ≝ sReverseNoCalc dTest_random_1024.
+ndefinition sReverseNoCalc2048 ≝ sReverseNoCalc dTest_random_2048.
+ndefinition sReverseNoCalc3072 ≝ sReverseNoCalc dTest_random_3072.
 
 (* *********************** *)
 (* HCS08GB60 Counting Sort *)
 (* *********************** *)
 
 (* versione ridotta, in cui non si riazzerano gli elementi di counters *)
-definition dTest_HCS08_cSort_source : word16 → (list byte8) ≝
+ndefinition dTest_HCS08_cSort_source : word16 → (list byte8) ≝
 λelems:word16.
 let m ≝ HCS08 in source_to_byte8 m (
 (* BEFORE: A=0x00 H:X=0x0F4C SP=0x0F4B PC=0x18C8 Z=true *)
@@ -370,7 +369,7 @@ let m ≝ HCS08 in source_to_byte8 m (
  ).
 
 (* creazione del processore+caricamento+impostazione registri *)
-definition dTest_HCS08_cSort_status ≝
+ndefinition dTest_HCS08_cSort_status ≝
 λt:memory_impl.
 λI_op:bool.
 λA_op:byte8.
@@ -400,7 +399,7 @@ definition dTest_HCS08_cSort_status ≝
   I_op.
 
 (* parametrizzazione dell'enunciato del teorema parziale *)
-lemma dTest_HCS08_cSort_aux ≝
+nlemma dTest_HCS08_cSort_aux ≝
 λt:memory_impl.λstring:list byte8.
  (* 1) la stringa deve avere una lunghezza ∈ [0,3072] *)
  (byte8_bounded_strlen string 〈〈x0,xC〉:〈x0,x0〉〉) ∧
@@ -430,7 +429,7 @@ lemma dTest_HCS08_cSort :
 qed.
 *)
 
-definition cSortCalc ≝
+ndefinition cSortCalc ≝
 λstring:list byte8.
  match execute HCS08 MEM_TREE
   (TickOK ? (dTest_HCS08_cSort_status MEM_TREE true 〈x0,x0〉 〈〈x0,xF〉:〈x4,xC〉〉 (byte8_strlen string) string))
@@ -440,36 +439,36 @@ definition cSortCalc ≝
    | TickOK s ⇒ None ?
    ].
 
-definition cSortNoCalc ≝
+ndefinition cSortNoCalc ≝
 λstring:list byte8.
  Some ? (set_pc_reg HCS08 MEM_TREE
    (dTest_HCS08_cSort_status MEM_TREE false 〈xF,xF〉 〈〈x0,x1〉:〈x0,x0〉〉 (byte8_strlen string) (byte8_list_ordering string)) 
    (mk_word16 (mk_byte8 x1 x9) (mk_byte8 x3 xC))).
 
-definition cSortCalc32   ≝ cSortCalc dTest_random_32.
-definition cSortCalc64   ≝ cSortCalc dTest_random_64.
-definition cSortCalc128  ≝ cSortCalc dTest_random_128.
-definition cSortCalc256  ≝ cSortCalc dTest_random_256.
-definition cSortCalc512  ≝ cSortCalc dTest_random_512.
-definition cSortCalc1024 ≝ cSortCalc dTest_random_1024.
-definition cSortCalc2048 ≝ cSortCalc dTest_random_2048.
-definition cSortCalc3072 ≝ cSortCalc dTest_random_3072.
-
-definition cSortNoCalc32   ≝ cSortNoCalc dTest_random_32.
-definition cSortNoCalc64   ≝ cSortNoCalc dTest_random_64.
-definition cSortNoCalc128  ≝ cSortNoCalc dTest_random_128.
-definition cSortNoCalc256  ≝ cSortNoCalc dTest_random_256.
-definition cSortNoCalc512  ≝ cSortNoCalc dTest_random_512.
-definition cSortNoCalc1024 ≝ cSortNoCalc dTest_random_1024.
-definition cSortNoCalc2048 ≝ cSortNoCalc dTest_random_2048.
-definition cSortNoCalc3072 ≝ cSortNoCalc dTest_random_3072.
+ndefinition cSortCalc32   ≝ cSortCalc dTest_random_32.
+ndefinition cSortCalc64   ≝ cSortCalc dTest_random_64.
+ndefinition cSortCalc128  ≝ cSortCalc dTest_random_128.
+ndefinition cSortCalc256  ≝ cSortCalc dTest_random_256.
+ndefinition cSortCalc512  ≝ cSortCalc dTest_random_512.
+ndefinition cSortCalc1024 ≝ cSortCalc dTest_random_1024.
+ndefinition cSortCalc2048 ≝ cSortCalc dTest_random_2048.
+ndefinition cSortCalc3072 ≝ cSortCalc dTest_random_3072.
+
+ndefinition cSortNoCalc32   ≝ cSortNoCalc dTest_random_32.
+ndefinition cSortNoCalc64   ≝ cSortNoCalc dTest_random_64.
+ndefinition cSortNoCalc128  ≝ cSortNoCalc dTest_random_128.
+ndefinition cSortNoCalc256  ≝ cSortNoCalc dTest_random_256.
+ndefinition cSortNoCalc512  ≝ cSortNoCalc dTest_random_512.
+ndefinition cSortNoCalc1024 ≝ cSortNoCalc dTest_random_1024.
+ndefinition cSortNoCalc2048 ≝ cSortNoCalc dTest_random_2048.
+ndefinition cSortNoCalc3072 ≝ cSortNoCalc dTest_random_3072.
 
 (* ********************** *)
 (* HCS08GB60 numeri aurei *)
 (* ********************** *)
 
 (* versione ridotta, in cui non si riazzerano gli elementi di counters *)
-definition dTest_HCS08_gNum_source : word16 → (list byte8) ≝
+ndefinition dTest_HCS08_gNum_source : word16 → (list byte8) ≝
 λelems:word16.
 let m ≝ HCS08 in source_to_byte8 m (
 (* BEFORE: A=0x00 HX=0x1A00 PC=0x18BE SP=0x016F Z=1 (I=1) *)
@@ -747,7 +746,7 @@ void _POP32(void) { ... }
  ).
 
 (* creazione del processore+caricamento+impostazione registri *)
-definition dTest_HCS08_gNum_status ≝
+ndefinition dTest_HCS08_gNum_status ≝
 λt:memory_impl.
 λI_op:bool.
 λA_op:byte8.
@@ -779,7 +778,7 @@ definition dTest_HCS08_gNum_status ≝
   I_op.
 
 (* NUMERI AUREI: Somma divisori(x)=x, fino a 0xFFFF sono 6/28/496/8128 *)
-definition dTest_HCS08_gNum_aurei ≝
+ndefinition dTest_HCS08_gNum_aurei ≝
 λnum:word16.match gt_w16 num 〈〈x1,xF〉:〈xC,x0〉〉 with
  [ true ⇒ [ 〈x0,x0〉 ; 〈x0,x6〉 ; 〈x0,x0〉 ; 〈x1,xC〉 ; 〈x0,x1〉 ; 〈xF,x0〉 ; 〈x1,xF〉 ; 〈xC,x0〉 ]
  | false ⇒ match gt_w16 num 〈〈x0,x1〉:〈xF,x0〉〉 with
@@ -797,7 +796,7 @@ definition dTest_HCS08_gNum_aurei ≝
      ; 〈x0,x0〉 ; 〈x0,x0〉 ; 〈x0,x0〉 ; 〈x0,x0〉 ; 〈x0,x0〉 ; 〈x0,x0〉 ; 〈x0,x0〉 ; 〈x0,x0〉 ].
 
 (* esecuzione execute k*(n+2) *)
-let rec dTest_HCS08_gNum_execute1 (m:mcu_type) (t:memory_impl) (s:tick_result (any_status m t)) (n,ntot:nat) on n ≝
+nlet rec dTest_HCS08_gNum_execute1 (m:mcu_type) (t:memory_impl) (s:tick_result (any_status m t)) (n,ntot:nat) on n ≝
  match s with
   [ TickERR s' error ⇒ TickERR ? s' error
   | TickSUSP s' susp ⇒ TickSUSP ? s' susp
@@ -807,7 +806,7 @@ let rec dTest_HCS08_gNum_execute1 (m:mcu_type) (t:memory_impl) (s:tick_result (a
   ].
 
 (* esecuzione execute k*(n+1)*(n+2) *)
-let rec dTest_HCS08_gNum_execute2 (m:mcu_type) (t:memory_impl) (s:tick_result (any_status m t)) (n,ntot:nat) on n ≝
+nlet rec dTest_HCS08_gNum_execute2 (m:mcu_type) (t:memory_impl) (s:tick_result (any_status m t)) (n,ntot:nat) on n ≝
  match s with
   [ TickERR s' error ⇒ TickERR ? s' error
   | TickSUSP s' susp ⇒ TickSUSP ? s' susp
@@ -817,7 +816,7 @@ let rec dTest_HCS08_gNum_execute2 (m:mcu_type) (t:memory_impl) (s:tick_result (a
   ].
 
 (* esecuzione execute k*n*(n+1)*(n+2) *)
-let rec dTest_HCS08_gNum_execute3 (m:mcu_type) (t:memory_impl) (s:tick_result (any_status m t)) (n,ntot:nat) on n ≝
+nlet rec dTest_HCS08_gNum_execute3 (m:mcu_type) (t:memory_impl) (s:tick_result (any_status m t)) (n,ntot:nat) on n ≝
  match s with
   [ TickERR s' error ⇒ TickERR ? s' error
   | TickSUSP s' susp ⇒ TickSUSP ? s' susp
@@ -827,7 +826,7 @@ let rec dTest_HCS08_gNum_execute3 (m:mcu_type) (t:memory_impl) (s:tick_result (a
   ].
 
 (* esecuzione execute 80+11*n*(n+1)*(n+2) *)
-definition dTest_HCS08_gNum_execute4 ≝
+ndefinition dTest_HCS08_gNum_execute4 ≝
 λm:mcu_type.λt:memory_impl.λs:tick_result (any_status m t).λntot:nat.
  match s with
   [ TickERR s' error ⇒ TickERR ? s' error
@@ -836,7 +835,7 @@ definition dTest_HCS08_gNum_execute4 ≝
   ].
 
 (* parametrizzazione dell'enunciato del teorema parziale *)
-lemma dTest_HCS08_gNum_aux ≝
+nlemma dTest_HCS08_gNum_aux ≝
 λt:memory_impl.λnum:word16.
  (* 2) match di esecuzione su tempo in forma di upperbound *)
  match dTest_HCS08_gNum_execute4 HCS08 t
@@ -850,7 +849,7 @@ lemma dTest_HCS08_gNum_aux ≝
    ] =
   Some ? (dTest_HCS08_gNum_status t false 〈x0,x0〉 num 〈〈x1,x9〉:〈x5,x1〉〉 〈〈x1,x8〉:〈xB,xE〉〉 num (dTest_HCS08_gNum_aurei num)).
 
-definition gNumCalc ≝
+ndefinition gNumCalc ≝
 λnum:word16.
  match dTest_HCS08_gNum_execute4 HCS08 MEM_TREE
   (TickOK ? (dTest_HCS08_gNum_status MEM_TREE true 〈x0,x0〉 〈〈x1,xA〉:〈x0,x0〉〉 〈〈x1,x8〉:〈xB,xE〉〉 〈〈x1,x8〉:〈xB,xE〉〉 num dTest_zeros))
@@ -860,30 +859,28 @@ definition gNumCalc ≝
    | TickOK s ⇒ None ?
    ].
 
-definition gNumNoCalc ≝
+ndefinition gNumNoCalc ≝
 λnum:word16.
  Some ? (dTest_HCS08_gNum_status MEM_TREE false 〈x0,x0〉 num 〈〈x1,x9〉:〈x5,x1〉〉 〈〈x1,x8〉:〈xB,xE〉〉 num (dTest_HCS08_gNum_aurei num)).
 
-definition gNumCalc1    ≝ gNumCalc 〈〈x0,x0〉:〈x0,x1〉〉.
-definition gNumCalc2    ≝ gNumCalc 〈〈x0,x0〉:〈x0,x2〉〉.
-definition gNumCalc5    ≝ gNumCalc 〈〈x0,x0〉:〈x0,x5〉〉.
-definition gNumCalc10   ≝ gNumCalc 〈〈x0,x0〉:〈x0,xA〉〉.
-definition gNumCalc20   ≝ gNumCalc 〈〈x0,x0〉:〈x1,x4〉〉.
-definition gNumCalc50   ≝ gNumCalc 〈〈x0,x0〉:〈x3,x2〉〉.
-definition gNumCalc100  ≝ gNumCalc 〈〈x0,x0〉:〈x6,x4〉〉.
-definition gNumCalc250  ≝ gNumCalc 〈〈x0,x0〉:〈xF,xA〉〉.
-definition gNumCalc500  ≝ gNumCalc 〈〈x0,x1〉:〈xF,x4〉〉.
-definition gNumCalc1000 ≝ gNumCalc 〈〈x0,x3〉:〈xE,x8〉〉.
-
-definition gNumNoCalc1    ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,x1〉〉.
-definition gNumNoCalc2    ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,x2〉〉.
-definition gNumNoCalc5    ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,x5〉〉.
-definition gNumNoCalc10   ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,xA〉〉.
-definition gNumNoCalc20   ≝ gNumNoCalc 〈〈x0,x0〉:〈x1,x4〉〉.
-definition gNumNoCalc50   ≝ gNumNoCalc 〈〈x0,x0〉:〈x3,x2〉〉.
-definition gNumNoCalc100  ≝ gNumNoCalc 〈〈x0,x0〉:〈x6,x4〉〉.
-definition gNumNoCalc250  ≝ gNumNoCalc 〈〈x0,x0〉:〈xF,xA〉〉.
-definition gNumNoCalc500  ≝ gNumNoCalc 〈〈x0,x1〉:〈xF,x4〉〉.
-definition gNumNoCalc1000 ≝ gNumNoCalc 〈〈x0,x3〉:〈xE,x8〉〉.
-*)
-
+ndefinition gNumCalc1    ≝ gNumCalc 〈〈x0,x0〉:〈x0,x1〉〉.
+ndefinition gNumCalc2    ≝ gNumCalc 〈〈x0,x0〉:〈x0,x2〉〉.
+ndefinition gNumCalc5    ≝ gNumCalc 〈〈x0,x0〉:〈x0,x5〉〉.
+ndefinition gNumCalc10   ≝ gNumCalc 〈〈x0,x0〉:〈x0,xA〉〉.
+ndefinition gNumCalc20   ≝ gNumCalc 〈〈x0,x0〉:〈x1,x4〉〉.
+ndefinition gNumCalc50   ≝ gNumCalc 〈〈x0,x0〉:〈x3,x2〉〉.
+ndefinition gNumCalc100  ≝ gNumCalc 〈〈x0,x0〉:〈x6,x4〉〉.
+ndefinition gNumCalc250  ≝ gNumCalc 〈〈x0,x0〉:〈xF,xA〉〉.
+ndefinition gNumCalc500  ≝ gNumCalc 〈〈x0,x1〉:〈xF,x4〉〉.
+ndefinition gNumCalc1000 ≝ gNumCalc 〈〈x0,x3〉:〈xE,x8〉〉.
+
+ndefinition gNumNoCalc1    ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,x1〉〉.
+ndefinition gNumNoCalc2    ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,x2〉〉.
+ndefinition gNumNoCalc5    ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,x5〉〉.
+ndefinition gNumNoCalc10   ≝ gNumNoCalc 〈〈x0,x0〉:〈x0,xA〉〉.
+ndefinition gNumNoCalc20   ≝ gNumNoCalc 〈〈x0,x0〉:〈x1,x4〉〉.
+ndefinition gNumNoCalc50   ≝ gNumNoCalc 〈〈x0,x0〉:〈x3,x2〉〉.
+ndefinition gNumNoCalc100  ≝ gNumNoCalc 〈〈x0,x0〉:〈x6,x4〉〉.
+ndefinition gNumNoCalc250  ≝ gNumNoCalc 〈〈x0,x0〉:〈xF,xA〉〉.
+ndefinition gNumNoCalc500  ≝ gNumNoCalc 〈〈x0,x1〉:〈xF,x4〉〉.
+ndefinition gNumNoCalc1000 ≝ gNumNoCalc 〈〈x0,x3〉:〈xE,x8〉〉.

diff --git a/helm/software/matita/contribs/ng_assembly/freescale/micro_tests.ma b/helm/software/matita/contribs/ng_assembly/freescale/micro_tests.ma
new file mode 100755 (executable)
index 0000000..a135d15
--- /dev/null
+++ b/helm/software/matita/contribs/ng_assembly/freescale/micro_tests.ma
@@ -0,0 +1,787 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* ********************************************************************** *)
+(*                          Progetto FreeScale                            *)
+(*                                                                        *)
+(*   Sviluppato da: Cosimo Oliboni, oliboni@cs.unibo.it                   *)
+(*     Cosimo Oliboni, oliboni@cs.unibo.it                                *)
+(*                                                                        *)
+(* ********************************************************************** *)
+
+include "freescale/multivm.ma".
+include "freescale/status_lemmas.ma".
+
+(* ****************************************** *)
+(* MICRO TEST DI CORRETTEZZA DELLE ISTRUZIONI *)
+(* ****************************************** *)
+
+(* tabella 0x00 - 0xFF utile da caricare in RAM/ROM *)
+ndefinition mTest_bytes : list byte8 ≝
+ [   〈x0,x0〉 ; 〈x0,x1〉 ; 〈x0,x2〉 ; 〈x0,x3〉 ; 〈x0,x4〉 ; 〈x0,x5〉 ; 〈x0,x6〉 ; 〈x0,x7〉
+ ; 〈x0,x8〉 ; 〈x0,x9〉 ; 〈x0,xA〉 ; 〈x0,xB〉 ; 〈x0,xC〉 ; 〈x0,xD〉 ; 〈x0,xE〉 ; 〈x0,xF〉 ]
+@[   〈x1,x0〉 ; 〈x1,x1〉 ; 〈x1,x2〉 ; 〈x1,x3〉 ; 〈x1,x4〉 ; 〈x1,x5〉 ; 〈x1,x6〉 ; 〈x1,x7〉
+ ; 〈x1,x8〉 ; 〈x1,x9〉 ; 〈x1,xA〉 ; 〈x1,xB〉 ; 〈x1,xC〉 ; 〈x1,xD〉 ; 〈x1,xE〉 ; 〈x1,xF〉 ]
+@[   〈x2,x0〉 ; 〈x2,x1〉 ; 〈x2,x2〉 ; 〈x2,x3〉 ; 〈x2,x4〉 ; 〈x2,x5〉 ; 〈x2,x6〉 ; 〈x2,x7〉
+ ; 〈x2,x8〉 ; 〈x2,x9〉 ; 〈x2,xA〉 ; 〈x2,xB〉 ; 〈x2,xC〉 ; 〈x2,xD〉 ; 〈x2,xE〉 ; 〈x2,xF〉 ]
+@[   〈x3,x0〉 ; 〈x3,x1〉 ; 〈x3,x2〉 ; 〈x3,x3〉 ; 〈x3,x4〉 ; 〈x3,x5〉 ; 〈x3,x6〉 ; 〈x3,x7〉
+ ; 〈x3,x8〉 ; 〈x3,x9〉 ; 〈x3,xA〉 ; 〈x3,xB〉 ; 〈x3,xC〉 ; 〈x3,xD〉 ; 〈x3,xE〉 ; 〈x3,xF〉 ]
+@[   〈x4,x0〉 ; 〈x4,x1〉 ; 〈x4,x2〉 ; 〈x4,x3〉 ; 〈x4,x4〉 ; 〈x4,x5〉 ; 〈x4,x6〉 ; 〈x4,x7〉
+ ; 〈x4,x8〉 ; 〈x4,x9〉 ; 〈x4,xA〉 ; 〈x4,xB〉 ; 〈x4,xC〉 ; 〈x4,xD〉 ; 〈x4,xE〉 ; 〈x4,xF〉 ]
+@[   〈x5,x0〉 ; 〈x5,x1〉 ; 〈x5,x2〉 ; 〈x5,x3〉 ; 〈x5,x4〉 ; 〈x5,x5〉 ; 〈x5,x6〉 ; 〈x5,x7〉
+ ; 〈x5,x8〉 ; 〈x5,x9〉 ; 〈x5,xA〉 ; 〈x5,xB〉 ; 〈x5,xC〉 ; 〈x5,xD〉 ; 〈x5,xE〉 ; 〈x5,xF〉 ]
+@[   〈x6,x0〉 ; 〈x6,x1〉 ; 〈x6,x2〉 ; 〈x6,x3〉 ; 〈x6,x4〉 ; 〈x6,x5〉 ; 〈x6,x6〉 ; 〈x6,x7〉
+ ; 〈x6,x8〉 ; 〈x6,x9〉 ; 〈x6,xA〉 ; 〈x6,xB〉 ; 〈x6,xC〉 ; 〈x6,xD〉 ; 〈x6,xE〉 ; 〈x6,xF〉 ]
+@[   〈x7,x0〉 ; 〈x7,x1〉 ; 〈x7,x2〉 ; 〈x7,x3〉 ; 〈x7,x4〉 ; 〈x7,x5〉 ; 〈x7,x6〉 ; 〈x7,x7〉
+ ; 〈x7,x8〉 ; 〈x7,x9〉 ; 〈x7,xA〉 ; 〈x7,xB〉 ; 〈x7,xC〉 ; 〈x7,xD〉 ; 〈x7,xE〉 ; 〈x7,xF〉 ]
+@[  〈x8,x0〉 ; 〈x8,x1〉 ; 〈x8,x2〉 ; 〈x8,x3〉 ; 〈x8,x4〉 ; 〈x8,x5〉 ; 〈x8,x6〉 ; 〈x8,x7〉
+ ; 〈x8,x8〉 ; 〈x8,x9〉 ; 〈x8,xA〉 ; 〈x8,xB〉 ; 〈x8,xC〉 ; 〈x8,xD〉 ; 〈x8,xE〉 ; 〈x8,xF〉 ]
+@[   〈x9,x0〉 ; 〈x9,x1〉 ; 〈x9,x2〉 ; 〈x9,x3〉 ; 〈x9,x4〉 ; 〈x9,x5〉 ; 〈x9,x6〉 ; 〈x9,x7〉
+ ; 〈x9,x8〉 ; 〈x9,x9〉 ; 〈x9,xA〉 ; 〈x9,xB〉 ; 〈x9,xC〉 ; 〈x9,xD〉 ; 〈x9,xE〉 ; 〈x9,xF〉 ]
+@[   〈xA,x0〉 ; 〈xA,x1〉 ; 〈xA,x2〉 ; 〈xA,x3〉 ; 〈xA,x4〉 ; 〈xA,x5〉 ; 〈xA,x6〉 ; 〈xA,x7〉
+ ; 〈xA,x8〉 ; 〈xA,x9〉 ; 〈xA,xA〉 ; 〈xA,xB〉 ; 〈xA,xC〉 ; 〈xA,xD〉 ; 〈xA,xE〉 ; 〈xA,xF〉 ]
+@[   〈xB,x0〉 ; 〈xB,x1〉 ; 〈xB,x2〉 ; 〈xB,x3〉 ; 〈xB,x4〉 ; 〈xB,x5〉 ; 〈xB,x6〉 ; 〈xB,x7〉
+ ; 〈xB,x8〉 ; 〈xB,x9〉 ; 〈xB,xA〉 ; 〈xB,xB〉 ; 〈xB,xC〉 ; 〈xB,xD〉 ; 〈xB,xE〉 ; 〈xB,xF〉 ]
+@[   〈xC,x0〉 ; 〈xC,x1〉 ; 〈xC,x2〉 ; 〈xC,x3〉 ; 〈xC,x4〉 ; 〈xC,x5〉 ; 〈xC,x6〉 ; 〈xC,x7〉
+ ; 〈xC,x8〉 ; 〈xC,x9〉 ; 〈xC,xA〉 ; 〈xC,xB〉 ; 〈xC,xC〉 ; 〈xC,xD〉 ; 〈xC,xE〉 ; 〈xC,xF〉 ]
+@[   〈xD,x0〉 ; 〈xD,x1〉 ; 〈xD,x2〉 ; 〈xD,x3〉 ; 〈xD,x4〉 ; 〈xD,x5〉 ; 〈xD,x6〉 ; 〈xD,x7〉
+ ; 〈xD,x8〉 ; 〈xD,x9〉 ; 〈xD,xA〉 ; 〈xD,xB〉 ; 〈xD,xC〉 ; 〈xD,xD〉 ; 〈xD,xE〉 ; 〈xD,xF〉 ]
+@[   〈xE,x0〉 ; 〈xE,x1〉 ; 〈xE,x2〉 ; 〈xE,x3〉 ; 〈xE,x4〉 ; 〈xE,x5〉 ; 〈xE,x6〉 ; 〈xE,x7〉
+ ; 〈xE,x8〉 ; 〈xE,x9〉 ; 〈xE,xA〉 ; 〈xE,xB〉 ; 〈xE,xC〉 ; 〈xE,xD〉 ; 〈xE,xE〉 ; 〈xE,xF〉 ]
+@[   〈xF,x0〉 ; 〈xF,x1〉 ; 〈xF,x2〉 ; 〈xF,x3〉 ; 〈xF,x4〉 ; 〈xF,x5〉 ; 〈xF,x6〉 ; 〈xF,x7〉
+ ; 〈xF,x8〉 ; 〈xF,x9〉 ; 〈xF,xA〉 ; 〈xF,xB〉 ; 〈xF,xC〉 ; 〈xF,xD〉 ; 〈xF,xE〉 ; 〈xF,xF〉
+ ].
+
+(*
+   1) mTest_x_RAM : inizio della RAM
+       (start point per caricamento mTest_bytes in RAM) 
+   2) mTest_x_prog: inizio della ROM
+       (start point per caricamento programma in ROM)
+   3) mTest_x_data: ultimi 256b della ROM
+       (start point per caricamento mTest_bytes in ROM)
+*)
+ndefinition mTest_HCS08_RAM ≝ 〈〈x0,x0〉:〈x7,x0〉〉.
+ndefinition mTest_HCS08_prog ≝ 〈〈x1,x8〉:〈x6,x0〉〉.
+ndefinition mTest_HCS08_data ≝ 〈〈xF,xF〉:〈x0,x0〉〉.
+
+ndefinition mTest_RS08_RAM ≝ 〈〈x0,x0〉:〈x2,x0〉〉.
+ndefinition mTest_RS08_prog ≝ 〈〈x3,x8〉:〈x0,x0〉〉.
+ndefinition mTest_RS08_data ≝ 〈〈x3,xF〉:〈x0,x0〉〉.
+
+ndefinition mTest_HCS08_ADC_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* testa la logica di ADC e le modalita' IMM1,DIR1/2,IX0/1/2,SP1/2 *)
+(* BEFORE: A=0x00 H:X=0xFF50 PC=0x1860 SP=0x0110 C=true *)
+(* [0x1860] 2clk *) (compile m ? ADC (maIMM1 〈xA,xA〉) I) @           (* AFTER1: imm1=0xAA quindi 0x00+imm1+true=A:0xAB C:false *)
+(* [0x1862] 3clk *) (compile m ? ADC (maDIR1 〈xF,xF〉) I) @           (* AFTER2: dir1=[0x00FF]=0x8F quindi 0xAB+dir1+false=A:0x3A C:true *)
+(* [0x1864] 4clk *) (compile m ? ADC (maDIR2 〈〈xF,xF〉:〈x1,x1〉〉) I) @ (* AFTER3: dir2=[0xFF11]=0x11 quindi 0x3A+dir2+true=A:0x4C C:false *)
+(* [0x1867] 4clk *) (compile m ? ADC (maIX2 〈〈xF,xF〉:〈xF,x0〉〉) I) @  (* AFTER4: ix2=[X+0xFFF0]=[0xFF40]=0x40 quindi 0x4C+ix2+false=A:0x8C C:false *)
+(* [0x186A] 3clk *) (compile m ? ADC (maIX1 〈x2,x4〉) I) @            (* AFTER5: ix1=[X+0x0024]=[0xFF74]=0x74 quindi 0x8C+ix1+false=A:0x00 C:true *)
+(* [0x186C] 3clk *) (compile m ? ADC maIX0 I) @                      (* AFTER6: ix0=[X]=[0xFF50]=0x50 quindi 0x00+ix0+true=A:0x51 C:false *)
+(* [0x186D] 5clk *) (compile m ? ADC (maSP2 〈〈xF,xF〉:〈x6,x1〉〉) I) @  (* AFTER7: sp2=[SP+0xFF61]=[0x0071]=0x01 quindi 0x51+sp2+false=A:0x52 C:false *)
+(* [0x1871] 4clk *) (compile m ? ADC (maSP1 〈x2,x4〉) I)              (* AFTER8: sp1=[SP+0x0024]=[0x0134]=0xC4 quindi 0x52+sp1+false=A:0x16 C:true *)
+(* [0x1874] si puo' quindi enunciare che dopo 2+3+4+4+3+3+5+4=28 clk *)
+(*          A<-0x16 PC<-0x1874 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+ndefinition mTest_HCS08_ADC_status ≝
+λt:memory_impl.
+ set_c_flag HCS08 t (* C<-true *)
+  (setweak_sp_reg HCS08 t (* SP<-0x0110 *)
+   (setweak_indX_16_reg HCS08 t (* H:X<-0xFF50 *)
+    (set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+     (start_of_mcu_version_HCS08
+      MC9S08AW60 t
+      (load_from_source_at t (* carica mTest_bytes in ROM:mTest_HCS08_data *)
+       (load_from_source_at t (* carica mTest_bytes in RAM:mTest_HCS08_RAM *)
+        (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_HCS08_prog *)
+          mTest_HCS08_ADC_source mTest_HCS08_prog)
+         mTest_bytes mTest_HCS08_RAM)
+        mTest_bytes mTest_HCS08_data)
+      (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+      (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+      false false false false false false) (* non deterministici tutti a 0 *)
+     mTest_HCS08_prog)
+    (mk_word16 〈xF,xF〉 〈x5,x0〉))
+   (mk_word16 〈x0,x1〉 〈x1,x0〉))
+  true.
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+nlemma ok_mTest_HCS08_ADC_full :
+ ∀t:memory_impl.
+ execute HCS08 t (TickOK ? (mTest_HCS08_ADC_status t)) 28 =
+ (* NB: V,N,Z sono tornati false C e' tornato true *)
+ TickOK ? (set_pc_reg HCS08 t (* nuovo PC *)
+           (set_acc_8_low_reg HCS08 t (mTest_HCS08_ADC_status t) 〈x1,x6〉) (* nuovo A *)
+            (mk_word16 〈x1,x8〉 〈x7,x4〉)).
+ #t; nelim t;
+ (* esempio per svoglimento degli stati manualmente
+ [ 1:
+  letin BEFORE ≝ (get_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC));
+  normalize in BEFORE:(%);
+
+ letin AFTER_ALU1 ≝ (match execute HCS08 MEM_FUNC (TickOK ? (mTest_HCS08_ADC_status MEM_FUNC)) 2 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU1:(%);
+
+ letin AFTER_ALU2 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU1)) 3 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU2:(%);
+
+  letin AFTER_ALU3 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU2)) 4 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU3:(%);  
+
+ letin AFTER_ALU4 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU3)) 4 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU4:(%); 
+
+ letin AFTER_ALU5 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU4)) 3 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU5:(%); 
+
+ letin AFTER_ALU6 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU5)) 3 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU6:(%); 
+
+ letin AFTER_ALU7 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU6)) 5 with
+  [ TickERR _ _ ⇒ BEFORE 
+  | TickSUSP _ _ ⇒ BEFORE 
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU7:(%); 
+
+ letin AFTER_ALU8 ≝ (match execute HCS08 MEM_FUNC (TickOK ? 
+                     (set_alu HCS08 MEM_FUNC (mTest_HCS08_ADC_status MEM_FUNC) AFTER_ALU7)) 4 with
+  [ TickERR _ _ ⇒ BEFORE
+  | TickSUSP _ _ ⇒ BEFORE
+  | TickOK s ⇒ get_alu HCS08 MEM_FUNC s ]);
+ normalize in AFTER_ALU8:(%); *) 
+
+ napply (refl_eq ??).
+nqed.
+
+(* ********* *)
+(* HCS08 MOV *)
+(* ********* *)
+
+(*
+definition mTest_HCS08_MOV_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* testa la logica di MOV e le modalita' xxx_to_xxx *)
+(* BEFORE: H:X=0x0071 PC=0x1860 *)
+(* [0x1860] 4clk *) (compile m ? MOV (maIMM1_to_DIR1 〈x3,xA〉 〈x7,x0〉) I) @ (* 0x3A in [0x0070] *)
+(* [0x1863] 5clk *) (compile m ? MOV (maDIR1_to_DIR1 〈x7,x0〉 〈x7,x1〉) I) @ (* [0x0070] in [0x0071] *)
+(* [0x1866] 5clk *) (compile m ? MOV (maIX0p_to_DIR1 〈x7,x2〉) I) @         (* [X++=0x0071] in [0x0072] *)
+(* [0x1868] 5clk *) (compile m ? MOV (maDIR1_to_IX0p 〈x7,x2〉) I)           (* [0x0072] in [X++=0x0072] *)
+(* [0x186A] si puo' quindi enunciare che dopo 4+5+5+5=19 clk *)
+(*          PC<-0x186A X<-0x0073 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_HCS08_MOV_status ≝
+λt:memory_impl.
+λb1,b2,b3:byte8.
+ setweak_indX_16_reg HCS08 t (* H:X<-0x0071 *)
+  (set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+   (start_of_mcu_version_HCS08
+    MC9S08AW60 t
+    (load_from_source_at t (* carica b1-3 in RAM:mTest_HCS08_RAM *)
+     (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_HCS08_prog *)
+       mTest_HCS08_MOV_source mTest_HCS08_prog)
+     [ b1 ; b2 ; b3 ] mTest_HCS08_RAM)
+    (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+    (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+    false false false false false false) (* non deterministici tutti a 0 *)
+   mTest_HCS08_prog)
+  (mk_word16 〈x0,x0〉 〈x7,x1〉).
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+(* NB: la memoria e' cambiata e bisogna applicare eq_status *)
+lemma ok_mTest_HCS08_MOV_full :
+∀t:memory_impl.
+ eq_status HCS08 t
+  (match execute HCS08 t (TickOK ? (mTest_HCS08_MOV_status t 〈x0,x0〉 〈x0,x0〉 〈x0,x0〉)) 19
+   with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+  (setweak_indX_16_reg HCS08 t (* H:X *) 
+   (set_pc_reg HCS08 t (mTest_HCS08_MOV_status t 〈x3,xA〉 〈x3,xA〉 〈x3,xA〉) (* PC *)
+    (mk_word16 〈x1,x8〉 〈x6,xA〉))
+     (mk_word16 〈x0,x0〉 〈x7,x3〉))
+  [ 〈〈x0,x0〉:〈x7,x0〉〉 ; 〈〈x0,x0〉:〈x7,x1〉〉 ; 〈〈x0,x0〉:〈x7,x2〉〉 ] = true.
+ intro; 
+ apply (eq_to_eqstatus_weak [ 〈〈x0,x0〉:〈x7,x0〉〉 ; 〈〈x0,x0〉:〈x7,x1〉〉 ; 〈〈x0,x0〉:〈x7,x2〉〉 ] HCS08 t
+        (match execute HCS08 t (TickOK ? (mTest_HCS08_MOV_status t 〈x0,x0〉 〈x0,x0〉 〈x0,x0〉)) 19
+         with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+        (setweak_indX_16_reg HCS08 t (* H:X *) 
+         (set_pc_reg HCS08 t (mTest_HCS08_MOV_status t 〈x3,xA〉 〈x3,xA〉 〈x3,xA〉) (* PC *)
+          (mk_word16 〈x1,x8〉 〈x6,xA〉))
+           (mk_word16 〈x0,x0〉 〈x7,x3〉)));
+ elim t;
+ [ 1,2,3: normalize in ⊢ (? ? ? %); reflexivity
+ | 4,5,6: normalize in ⊢ (? ? ? %); reflexivity
+ | 7,8,9: normalize; reflexivity
+ ].
+qed.
+
+(* ************* *)
+(* HCS08 ROL/ROR *)
+(* ************* *)
+
+definition mTest_HCS08_ROL_ROR_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* testa la logica di ROL/ROR e le modalita' IMM2,INHx *)
+(* BEFORE: A=0x00 H:X=0x0000 PC=0x1860 Z=true *)
+(* [0x1860] 3clk *) (compile m ? LDHX (maIMM2 〈〈x1,x2〉:〈x3,x4〉〉) I) @
+(* [0x1863] 2clk *) (compile m ? LDA (maIMM1 〈x5,x6〉) I) @
+(* [0x1865] 1clk *) (compile m ? ROL maINHA I) @
+(* [0x1866] 1clk *) (compile m ? ROL maINHX I) @
+(* [0x1867] 1clk *) (compile m ? ROR maINHA I) @
+(* [0x1868] 1clk *) (compile m ? ROR maINHX I) @
+(* [0x1869] 1clk *) (compile m ? CLR maINHA I) @
+(* [0x186A] 1clk *) (compile m ? CLR maINHX I) @
+(* [0x186B] 1clk *) (compile m ? CLR maINHH I)
+(* [0x186C] si puo' quindi enunciare che dopo 3+2+1+1+1+1+1+1+1=12 clk *)
+(*          PC<-0x186C *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_HCS08_ROL_ROR_status ≝
+λt:memory_impl.
+ set_z_flag HCS08 t (* Z<-true *)
+  (setweak_indX_16_reg HCS08 t (* H:X<-0x0000 *)
+   (set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+    (start_of_mcu_version_HCS08
+     MC9S08AW60 t
+     (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_HCS08_prog *)
+      mTest_HCS08_ROL_ROR_source mTest_HCS08_prog)
+     (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+     (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+     false false false false false false) (* non deterministici tutti a 0 *)
+    mTest_HCS08_prog)
+   (mk_word16 (mk_byte8 x0 x0) (mk_byte8 x0 x0)))
+  true.
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+lemma ok_mTest_HCS08_ROL_ROR_full :
+ ∀t:memory_impl.
+ execute HCS08 t (TickOK ? (mTest_HCS08_ROL_ROR_status t)) 12 =
+ TickOK ? (set_pc_reg HCS08 t (* nuovo PC *)
+           (mTest_HCS08_ROL_ROR_status t) (mk_word16 〈x1,x8〉 〈x6,xC〉)).
+ intro;
+ elim t;
+ reflexivity.
+qed.
+
+(* **************** *)
+(* HCS08 CBEQx/DBNZ *)
+(* **************** *)
+
+definition mTest_HCS08_CBEQ_DBNZ_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* testa la logica di CBEQx/DBNZ e le modalita' xxx_and_IMM1 *)
+(* BEFORE: H:X=0x006F SP=0x006F PC=0x1860 *)
+(* [0x1860] 5clk *) (compile m ? CBEQA (maDIR1_and_IMM1 〈x7,x1〉 〈x0,x1〉) I) @
+(* [0x1863] 1clk *) (compile m ? NOP maINH I) @                               (* eseguito: A≠[0x0071]=0x01 *)
+(* [0x1864] 4clk *) (compile m ? CBEQA (maIMM1_and_IMM1 〈x0,x0〉 〈x0,x1〉) I) @
+(* [0x1867] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: A=0x00 *)
+(* [0x1868] 4clk *) (compile m ? CBEQX (maIMM1_and_IMM1 〈x6,xF〉 〈x0,x1〉) I) @
+(* [0x186B] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: X=0x6F *)
+(* [0x186C] 5clk *) (compile m ? CBEQA (maIX1p_and_IMM1 〈x0,x1〉 〈x0,x1〉) I) @ (* H:X++ *)
+(* [0x186F] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: A=[X+0x01]=[0x0070]=0x00 *)
+(* [0x1870] 5clk *) (compile m ? CBEQA (maIX0p_and_IMM1 〈x0,x1〉) I) @         (* H:X++ *)
+(* [0x1872] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: A=[X]=[0x0070]=0x00 *)
+(* [0x1873] 6clk *) (compile m ? CBEQA (maSP1_and_IMM1 〈x0,x2〉 〈x0,x1〉) I) @
+(* [0x1877] 1clk *) (compile m ? NOP maINH I) @                               (* eseguito: A≠[SP+0x02]=[0x0071]=0x01 *)
+
+(* [0x1878] 7clk *) (compile m ? DBNZ (maDIR1_and_IMM1 〈x7,x2〉 〈x0,x1〉) I) @
+(* [0x187B] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: --[0x0072]=0x01≠0 *)
+(* [0x187C] 4clk *) (compile m ? DBNZ (maINHA_and_IMM1 〈x0,x1〉) I) @
+(* [0x187E] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: --A=0xFF≠0 *)
+(* [0x187F] 4clk *) (compile m ? DBNZ (maINHX_and_IMM1 〈x0,x1〉) I) @
+(* [0x1881] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: --X=0x70≠0 *)
+(* [0x1882] 7clk *) (compile m ? DBNZ (maIX1_and_IMM1 〈x0,x2〉 〈x0,x1〉) I) @
+(* [0x1885] 1clk *) (compile m ? NOP maINH I) @                               (* eseguito: --[X+0x02]=[0x0072]=0x00=0 *)
+(* [0x1886] 6clk *) (compile m ? DBNZ (maIX0_and_IMM1 〈x0,x1〉) I) @
+(* [0x1888] 1clk *) (compile m ? NOP maINH I) @                               (* non eseguito: --[X]=[0x0070]=0xFF≠0 *)
+(* [0x1889] 8clk *) (compile m ? DBNZ (maSP1_and_IMM1 〈x0,x1〉 〈x0,x1〉) I) @ 
+(* [0x188D] 1clk *) (compile m ? NOP maINH I)                                 (* non eseguito: --[SP+0x01]=[0x0070]=0xFE≠0 *)
+(* [0x188E] si puo' quindi enunciare che dopo 5+1+4+4+5+5+6+1 (31)
+                                              7+4+4+7+1+6+8   (37) =68 clk *)
+(*          A<-0xFF PC<-0x188E H:X<-0070 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_HCS08_CBEQ_DBNZ_status ≝
+λt:memory_impl.
+λb1,b2,b3:byte8.
+ setweak_sp_reg HCS08 t (* SP<-0x006F *)
+  (setweak_indX_16_reg HCS08 t (* H:X<-0x006F *)
+   (set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+    (start_of_mcu_version_HCS08
+     MC9S08AW60 t
+     (load_from_source_at t (* carica b1-3 in RAM:mTest_HCS08_RAM *)
+      (load_from_source_at t (* carica mTest_bytes in RAM:mTest_HCS08_RAM *)
+       (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_HCS08_prog *)
+         mTest_HCS08_CBEQ_DBNZ_source mTest_HCS08_prog)
+        mTest_bytes mTest_HCS08_RAM)
+       [ b1 ; b2 ; b3 ] mTest_HCS08_RAM)
+     (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+     (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+     false false false false false false) (* non deterministici tutti a 0 *)
+    mTest_HCS08_prog)
+   (mk_word16 (mk_byte8 x0 x0) (mk_byte8 x6 xF)))
+  (mk_word16 (mk_byte8 x0 x0) (mk_byte8 x6 xF)).
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+(* NB: la memoria e' cambiata e bisogna applicare eq_status *)
+lemma ok_mTest_HCS08_CBEQ_DBNZ_full :
+∀t:memory_impl.
+ eq_status HCS08 t
+  (match execute HCS08 t (TickOK ? (mTest_HCS08_CBEQ_DBNZ_status t 〈x0,x0〉 〈x0,x1〉 〈x0,x2〉)) 68
+   with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+  (set_acc_8_low_reg HCS08 t (* nuovo A *)
+   (set_pc_reg HCS08 t (* nuovo PC *)
+    (setweak_indX_16_reg HCS08 t (mTest_HCS08_CBEQ_DBNZ_status t 〈xF,xE〉 〈x0,x1〉 〈x0,x0〉) (* nuovo H:X *)
+     (mk_word16 〈x0,x0〉 〈x7,x0〉))
+    (mk_word16 〈x1,x8〉 〈x8,xE〉))
+   (mk_byte8 xF xF))
+  [ 〈〈x0,x0〉:〈x7,x0〉〉 ; 〈〈x0,x0〉:〈x7,x1〉〉 ; 〈〈x0,x0〉:〈x7,x2〉〉 ] = true.
+ intro; 
+ apply (eq_to_eqstatus_weak [ 〈〈x0,x0〉:〈x7,x0〉〉 ; 〈〈x0,x0〉:〈x7,x1〉〉 ; 〈〈x0,x0〉:〈x7,x2〉〉 ] HCS08 t
+        (match execute HCS08 t (TickOK ? (mTest_HCS08_CBEQ_DBNZ_status t 〈x0,x0〉 〈x0,x1〉 〈x0,x2〉)) 68
+         with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+        (set_acc_8_low_reg HCS08 t (* nuovo A *)
+         (set_pc_reg HCS08 t (* nuovo PC *)
+          (setweak_indX_16_reg HCS08 t (mTest_HCS08_CBEQ_DBNZ_status t 〈xF,xE〉 〈x0,x1〉 〈x0,x0〉) (* nuovo H:X *)
+           (mk_word16 〈x0,x0〉 〈x7,x0〉))
+          (mk_word16 〈x1,x8〉 〈x8,xE〉))
+         (mk_byte8 xF xF)));
+ elim t;
+ [ 1,2,3: normalize in ⊢ (? ? ? %); reflexivity
+ | 4,5,6: normalize in ⊢ (? ? ? %); reflexivity
+ | 7,8,9: normalize; reflexivity
+ ].
+qed.
+
+(* ***************** *)
+(* HCS08 BSETn/BCLRn *)
+(* ***************** *)
+
+definition mTest_HCS08_BSETn_BCLRn_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* testa la logica di BSETn/BCLRn e le modalita' DIRn *)
+(* BEFORE: PC=0x1860 *)
+(* [0x1860] 5clk *) (compile m ? BSETn (maDIRn o0 〈x7,x0〉) I) @ (* [0x0070]=0x01 *)
+(* [0x1862] 5clk *) (compile m ? BSETn (maDIRn o1 〈x7,x0〉) I) @ (* [0x0070]=0x03 *)
+(* [0x1864] 5clk *) (compile m ? BSETn (maDIRn o2 〈x7,x0〉) I) @ (* [0x0070]=0x07 *)
+(* [0x1866] 5clk *) (compile m ? BSETn (maDIRn o3 〈x7,x0〉) I) @ (* [0x0070]=0x0F *)
+(* [0x1868] 5clk *) (compile m ? BSETn (maDIRn o4 〈x7,x0〉) I) @ (* [0x0070]=0x1F *)
+(* [0x186A] 5clk *) (compile m ? BSETn (maDIRn o5 〈x7,x0〉) I) @ (* [0x0070]=0x3F *)
+(* [0x186C] 5clk *) (compile m ? BSETn (maDIRn o6 〈x7,x0〉) I) @ (* [0x0070]=0x7F *)
+(* [0x186E] 5clk *) (compile m ? BSETn (maDIRn o7 〈x7,x0〉) I) @ (* [0x0070]=0xFF *)
+
+(* [0x1870] 5clk *) (compile m ? BCLRn (maDIRn o0 〈x7,x0〉) I) @ (* [0x0070]=0xFE *)
+(* [0x1872] 5clk *) (compile m ? BCLRn (maDIRn o1 〈x7,x0〉) I) @ (* [0x0070]=0xFC *)
+(* [0x1874] 5clk *) (compile m ? BCLRn (maDIRn o2 〈x7,x0〉) I) @ (* [0x0070]=0xF8 *)
+(* [0x1876] 5clk *) (compile m ? BCLRn (maDIRn o3 〈x7,x0〉) I) @ (* [0x0070]=0xF0 *)
+(* [0x1878] 5clk *) (compile m ? BCLRn (maDIRn o4 〈x7,x0〉) I) @ (* [0x0070]=0xE0 *)
+(* [0x187A] 5clk *) (compile m ? BCLRn (maDIRn o5 〈x7,x0〉) I) @ (* [0x0070]=0xC0 *)
+(* [0x187C] 5clk *) (compile m ? BCLRn (maDIRn o6 〈x7,x0〉) I) @ (* [0x0070]=0x80 *)
+(* [0x187E] 5clk *) (compile m ? BCLRn (maDIRn o7 〈x7,x0〉) I)   (* [0x0070]=0x00 *)
+(* [0x1880] si puo' quindi enunciare che dopo 5+5+5+5+5+5+5+5
+                                              5+5+5+5+5+5+5+5 =80 clk *)
+(*          PC<-0x1880 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_HCS08_BSETn_BCLRn_status ≝
+λt:memory_impl.
+λb1:byte8.
+ set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+  (start_of_mcu_version_HCS08
+   MC9S08AW60 t
+   (load_from_source_at t (* carica b1 in RAM:mTest_HCS08_RAM *)
+    (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_HCS08_prog *)
+      mTest_HCS08_BSETn_BCLRn_source mTest_HCS08_prog)
+     [ b1 ] mTest_HCS08_RAM)
+   (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+   (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+   false false false false false false) (* non deterministici tutti a 0 *)
+  mTest_HCS08_prog.
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+(* NB: la memoria e' cambiata e bisogna applicare eq_status *)
+lemma ok_mTest_HCS08_BSETn_BCLRn_full :
+∀t:memory_impl.
+ eq_status HCS08 t
+  (match execute HCS08 t (TickOK ? (mTest_HCS08_BSETn_BCLRn_status t 〈x0,x0〉)) 80
+   with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+  (set_pc_reg HCS08 t (mTest_HCS08_BSETn_BCLRn_status t 〈x0,x0〉) 〈〈x1,x8〉:〈x8,x0〉〉 (* nuovo PC *))
+  [ 〈〈x0,x0〉:〈x7,x0〉〉 ; 〈〈x0,x0〉:〈x7,x1〉〉 ; 〈〈x0,x0〉:〈x7,x2〉〉 ] = true.
+ intro; 
+ apply (eq_to_eqstatus_weak [ 〈〈x0,x0〉:〈x7,x0〉〉 ; 〈〈x0,x0〉:〈x7,x1〉〉 ; 〈〈x0,x0〉:〈x7,x2〉〉 ] HCS08 t
+        (match execute HCS08 t (TickOK ? (mTest_HCS08_BSETn_BCLRn_status t 〈x0,x0〉)) 80
+         with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+        (set_pc_reg HCS08 t (mTest_HCS08_BSETn_BCLRn_status t 〈x0,x0〉) 〈〈x1,x8〉:〈x8,x0〉〉 (* nuovo PC *)));
+ elim t;
+ [ 1,2,3: normalize in ⊢ (? ? ? %); reflexivity
+ | 4,5,6: normalize in ⊢ (? ? ? %); reflexivity
+ | 7,8,9: normalize; reflexivity
+ ].
+qed.
+
+(* ******************* *)
+(* HCS08 BRSETn/BRCLRn *)
+(* ******************* *)
+
+definition mTest_HCS08_BRSETn_BRCLRn_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* testa la logica di BRSETn/BRCLRn e le modalita' DIRn_and_IMM1 *)
+(* BEFORE: va a testare [0x00C5]=0x55 PC=0x1860 *)
+(* [0x1860] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o0 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1863] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1864] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o1 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1867] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1868] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o2 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x186B] 1clk *) (compile m ? NOP maINH I) @
+(* [0x186C] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o3 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x186F] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1870] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o4 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1873] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1874] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o5 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1877] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1878] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o6 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x187B] 1clk *) (compile m ? NOP maINH I) @
+(* [0x187C] 5clk *) (compile m ? BRSETn (maDIRn_and_IMM1 o7 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x187F] 1clk *) (compile m ? NOP maINH I) @
+
+(* [0x1880] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o0 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1883] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1884] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o1 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1887] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1888] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o2 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x188B] 1clk *) (compile m ? NOP maINH I) @
+(* [0x188C] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o3 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x188F] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1890] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o4 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1893] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1894] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o5 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x1897] 1clk *) (compile m ? NOP maINH I) @
+(* [0x1898] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o6 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x189B] 1clk *) (compile m ? NOP maINH I) @
+(* [0x189C] 5clk *) (compile m ? BRCLRn (maDIRn_and_IMM1 o7 〈xC,x5〉 〈x0,x1〉) I) @
+(* [0x189F] 1clk *) (compile m ? NOP maINH I)
+
+(* [0x18A0] si puo' quindi enunciare che dopo 80+8=88 clk
+            (vengono eseguiti 16*5 test, meta' BRSETn/BRCLRn saltano *) 
+(*          PC<-0x18A0 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_HCS08_BRSETn_BRCLRn_status ≝
+λt:memory_impl.
+ set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+  (start_of_mcu_version_HCS08
+   MC9S08AW60 t
+   (load_from_source_at t
+    (load_from_source_at t (zero_memory t) (* carica mTest_bytes in RAM:mTest_HCS08_RAM *)
+      mTest_HCS08_BRSETn_BRCLRn_source mTest_HCS08_prog) (* carica source in ROM:mTest_HCS08_prog *)
+     mTest_bytes mTest_HCS08_RAM)
+   (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+   (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+   false false false false false false) (* non deterministici tutti a 0 *)
+  mTest_HCS08_prog.
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+lemma ok_mTest_HCS08_BRSETn_BRCLRn_full :
+ ∀t:memory_impl.
+ execute HCS08 t (TickOK ? (mTest_HCS08_BRSETn_BRCLRn_status t)) 88 =
+ TickOK ? (set_pc_reg HCS08 t (mTest_HCS08_BRSETn_BRCLRn_status t) (* nuovo PC *)
+           (mk_word16 〈x1,x8〉 〈xA,x0〉)).
+ intro;
+ elim t;
+ reflexivity.
+qed.
+
+(* *************** *)
+(* RS08 X,D[X],TNY *)
+(* *************** *)
+
+definition mTest_RS08_TNY_source ≝ let m ≝ RS08 in source_to_byte8 m (
+(* testa la logica RS08 X,D[X] le modalita' TNY *)
+(* NB: il meccanismo utilizzato e' quello complesso dell'RS08
+       fare riferimento alle spiegazioni in STATUS/LOAD_WRITE *)
+(* X=20 PS=0 *)
+(* [0x3800] 3clk *) (compile m ? ADD (maTNY xD) I) @       (* ... +[0x000D]=0x0C *)
+(* [0x3801] 3clk *) (compile m ? ADD (maTNY xE) I) @       (* ... +D[X]=[0x0020]=0x1F *)
+(* [0x3802] 3clk *) (compile m ? ADD (maTNY xF) I) @       (* ... +X=0x20 *)
+(* [0x3803] 3clk *) (compile m ? ADD (maDIR1 〈xC,xF〉) I) @ (* ... +X=0x20 *)
+(* [0x3805] 3clk *) (compile m ? ADD (maDIR1 〈xC,xE〉) I)   (* ... +[0x000E]=0x0D *)
+(* [0x3807] si puo' quindi enunciare che dopo 15 clk
+            A<-0x78 PC<-0x3807 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_RS08_TNY_status ≝
+λt:memory_impl.
+ setweak_x_map RS08 t (* X<-0x20 *)
+ (setweak_ps_map RS08 t (* PS<-0x00 *)
+ (set_pc_reg RS08 t (* PC<-mTest_RS08_prog *)
+  (start_of_mcu_version_RS08 
+   MC9RS08KA2 t
+   (load_from_source_at t (* carica mTest_bytes in RAM:mTest_RS08_RAM *)
+    (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_RS08_prog *)
+     mTest_RS08_TNY_source mTest_RS08_prog)
+    mTest_bytes 〈〈x0,x0〉:〈x0,x1〉〉)
+   (build_memory_type_of_mcu_version (FamilyRS08 MC9RS08KA2) t)
+   (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+   false false false false false false (* non deterministici tutti a 0 *)
+   ) mTest_RS08_prog)
+  (mk_byte8 x0 x0))
+  (mk_byte8 x2 x0).
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+lemma ok_mTest_RS08_TNY_full :
+ ∀t:memory_impl.
+ execute RS08 t (TickOK ? (mTest_RS08_TNY_status t)) 15 =
+ TickOK ? (set_acc_8_low_reg RS08 t (* nuovo A *)
+           (set_pc_reg RS08 t (mTest_RS08_TNY_status t) (* nuovo PC *)
+            (mk_word16 〈x3,x8〉 〈x0,x7〉))
+             (mk_byte8 x7 x8)).
+ intro;
+ elim t;
+ reflexivity.
+qed.
+
+(* *********** *)
+(* RS08 PS,SRT *)
+(* *********** *)
+
+definition mTest_RS08_SRT_source ≝ let m ≝ RS08 in source_to_byte8 m (
+(* testa la logica RS08 PS le modalita' SRT *)
+(* NB: il meccanismo utilizzato e' quello complesso dell'RS08
+       fare riferimento alle spiegazioni in STATUS/LOAD_WRITE *)
+(* X=0x1F PS=0xFE Z=1 *)
+(* [0x3800] 3clk *) (compile m ? LDA (maSRT t1F) I) @      (* A<-PS *)
+(* [0x3801] 2clk *) (compile m ? SUB (maIMM1 〈xF,xE〉) I) @ (* risulta 0 *)
+(* [0x3803] 3clk *) (compile m ? BEQ (maIMM1 〈x0,x1〉) I) @ (* salta *)
+(* [0x3805] 1clk *) (compile m ? NOP maINH I) @ 
+
+(* [0x3806] 3clk *) (compile m ? LDA (maSRT t0E) I) @      (* A<-PS *)
+(* [0x3807] 2clk *) (compile m ? SUB (maIMM1 〈xF,xE〉) I) @ (* risulta 0 *)
+(* [0x3809] 3clk *) (compile m ? BEQ (maIMM1 〈x0,x1〉) I) @ (* salta *)
+(* [0x380B] 1clk *) (compile m ? NOP maINH I) @
+
+(* [0x380C] 3clk *) (compile m ? LDA (maDIR1 〈xC,x3〉) I) @ (* A<-[0x00C3]=[0x3F83]=0x83 *)
+(* [0x380E] 2clk *) (compile m ? SUB (maIMM1 〈x8,x3〉) I) @ (* risulta 0 *)
+(* [0x3810] 3clk *) (compile m ? BEQ (maIMM1 〈x0,x1〉) I) @ (* salta *)
+(* [0x3812] 1clk *) (compile m ? NOP maINH I)
+(* [0x3813] si puo' quindi enunciare che dopo 24 clk
+            PC<-0x3813 *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_RS08_SRT_status ≝
+λt:memory_impl.
+ setweak_x_map RS08 t (* X<-0x1F *)
+  (setweak_ps_map RS08 t (* PS<-0xFE *)
+   (set_z_flag RS08 t (* Z<-true *)
+    (set_pc_reg RS08 t (* PC<-mTest_RS08_prog *)
+     (start_of_mcu_version_RS08
+      MC9RS08KA2 t
+       (load_from_source_at t (* carica mTest_bytes in ROM:mTest_RS08_data *)
+        (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_RS08_prog *)
+         mTest_RS08_SRT_source mTest_RS08_prog)
+        mTest_bytes mTest_RS08_data)
+       (build_memory_type_of_mcu_version (FamilyRS08 MC9RS08KA2) t)
+      (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+      false false false false false false (* non deterministici tutti a 0 *)
+      ) mTest_RS08_prog)
+     true)
+    (mk_byte8 xF xE))
+   (mk_byte8 x1 xF).
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+lemma ok_mTest_RS08_SRT_full :
+ ∀t:memory_impl.
+ execute RS08 t (TickOK ? (mTest_RS08_SRT_status t)) 24 =
+ TickOK ? (set_pc_reg RS08 t (mTest_RS08_SRT_status t) (* nuovo PC *)
+           (mk_word16 〈x3,x8〉 〈x1,x3〉)).
+ intro;
+ elim t;
+ reflexivity.
+qed.
+
+(* ********************* *)
+(* TEOREMA MULT PER RS08 *)
+(* ********************* *)
+
+definition mTest_RS08_mult_source ≝ let m ≝ RS08 in source_to_byte8 m (
+(* 
+   ZH:ZL=X*Y con [0x0020-0x004F] X ≝ [0x0020] Y ≝ [0x0021] ZH ≝ [0x0022] ZL ≝ [0x0023]
+*)
+(* [0x3800] ZH <- 0      3clk *) (compile m ? CLR (maDIR1 〈x2,x2〉) I) @
+(* [0x3802] ZL <- 0      3clk *) (compile m ? CLR (maDIR1 〈x2,x3〉) I) @
+(* [0x3804] (l1) A <- Y  3clk *) (compile m ? LDA (maDIR1 〈x2,x1〉) I) @
+(* [0x3806] A=0 goto l2  3clk *) (compile m ? BEQ (maIMM1 〈x0,xE〉) I) @
+(* [0x3808] A <- ZL      3clk *) (compile m ? LDA (maDIR1 〈x2,x3〉) I) @
+(* [0x380A] Y --         5clk *) (compile m ? DEC (maDIR1 〈x2,x1〉) I) @
+(* [0x380C] A += X       3clk *) (compile m ? ADD (maDIR1 〈x2,x0〉) I) @
+(* [0x380E] C=0 goto l3  3clk *) (compile m ? BCC (maIMM1 〈x0,x2〉) I) @
+(* [0x3810] ZH ++        5clk *) (compile m ? INC (maDIR1 〈x2,x2〉) I) @
+(* [0x3812] (l3) ZL <- A 3clk *) (compile m ? STA (maDIR1 〈x2,x3〉) I) @
+(* [0x3814] goto l1      3clk *) (compile m ? BRA (maIMM1 〈xE,xE〉) I)
+(* [0x3816] (l2) si puo' quindi enunciare che
+                 - il caso base X * 0 richiede 12 cicli
+                 - bisogna aggiungere Y * 26 cicli, Y>0
+                 - bisogna aggiungere ZH * 5 cicli, X * Y > 0xFF *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_RS08_mult_status ≝
+λt:memory_impl.
+λb1,b2,b3,b4:byte8.
+ set_z_flag RS08 t (* Z<-true *)
+ (set_pc_reg RS08 t (* PC<-mTest_RS08_prog *)
+  (start_of_mcu_version_RS08 
+   MC9RS08KA2 t
+   (load_from_source_at t (* carica X,Y,ZH,ZL:mTest_RS08_RAM *)
+    (load_from_source_at t (zero_memory t) (* carica source in ROM:mTest_RS08_prog *)
+     mTest_RS08_mult_source mTest_RS08_prog)
+    [ b1 ; b2 ; b3 ; b4 ] mTest_RS08_RAM)
+   (build_memory_type_of_mcu_version (FamilyRS08 MC9RS08KA2) t)
+   (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+   false false false false false false (* non deterministici tutti a 0 *)
+   ) mTest_RS08_prog)
+  true.
+
+(* parametrizzazione dell'enunciato del teorema mult *)
+(* NB: la memoria e' cambiata e bisogna applicare eq_status *)
+definition ok_mTest_RS08_mult_full_aux ≝
+λt:memory_impl.λX,Y:byte8.
+ eq_status RS08 t
+  (match execute RS08 t (TickOK ? (mTest_RS08_mult_status t X Y 〈x0,x0〉 〈x0,x0〉))
+                                  (12 + (26 * (nat_of_byte8 Y)) + (5 * (nat_of_byte8 (w16h (mul_b8 X Y)))))
+   (* FIXME: alla ALU azzero C perche' la funzione che ne descrive il valore finale e' MOLTO complessa *)
+   with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ set_c_flag RS08 t s false ])
+  (set_pc_reg RS08 t (mTest_RS08_mult_status t X 〈x0,x0〉 (w16h (mul_b8 X Y)) (w16l (mul_b8 X Y))) 〈〈x3,x8〉:〈x1,x6〉〉)
+  (* controllo che coincidano X,Y,ZH,ZL *)
+  [ 〈〈x0,x0〉:〈x2,x0〉〉 ; 〈〈x0,x0〉:〈x2,x1〉〉 ; 〈〈x0,x0〉:〈x2,x2〉〉 ; 〈〈x0,x0〉:〈x2,x3〉〉 ] = true.
+
+lemma ok_mTest_RS08_mult_full : 
+let X ≝ 〈xF,xF〉 in
+let Y ≝ 〈x1,xE〉 in
+ ∀t:memory_impl.
+  ok_mTest_RS08_mult_full_aux t X Y.
+ unfold ok_mTest_RS08_mult_full_aux;
+ intros 3; 
+ apply (eq_to_eqstatus_weak [ 〈〈x0,x0〉:〈x2,x0〉〉 ; 〈〈x0,x0〉:〈x2,x1〉〉 ; 〈〈x0,x0〉:〈x2,x2〉〉 ; 〈〈x0,x0〉:〈x2,x3〉〉 ] RS08 t
+        (match execute RS08 t (TickOK ? (mTest_RS08_mult_status t X Y 〈x0,x0〉 〈x0,x0〉))
+                                        (12 + (26 * (nat_of_byte8 Y)) + (5 * (nat_of_byte8 (w16h (mul_b8 X Y)))))
+         with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ set_c_flag RS08 t s false ])
+        (set_pc_reg RS08 t (mTest_RS08_mult_status t X 〈x0,x0〉 (w16h (mul_b8 X Y)) (w16l (mul_b8 X Y))) 〈〈x3,x8〉:〈x1,x6〉〉));
+ elim t;
+ [ 1,2,3: normalize in ⊢ (? ? ? %); reflexivity
+ | 4,5,6: normalize in ⊢ (? ? ? %); reflexivity
+ | 7,8,9: normalize; reflexivity
+ ].
+qed.
+
+(* ************************ *)
+(* TEST SU GRANULARITA' BIT *)
+(* ************************ *)
+
+definition mTest_bits_source ≝ let m ≝ HCS08 in source_to_byte8 m (
+(* BEFORE: va a testare [0x0070]=0x00 *)
+(* [0x1860] 4clk *) (compile m ? MOV (maIMM1_to_DIR1 〈xF,xF〉 〈x7,x0〉) I)
+(* [0x1863] *)
+).
+
+(* creazione del processore+caricamento+impostazione registri *)
+definition mTest_bits_status ≝
+λt:memory_impl.
+λsub:oct.
+λb:byte8.
+ setweak_n_flag HCS08 t (* N<-1 *)
+  (set_pc_reg HCS08 t (* PC<-mTest_HCS08_prog *)
+   (start_of_mcu_version_HCS08
+    MC9S08AW60 t
+    (load_from_source_at t
+     (load_from_source_at t (zero_memory t) (* carica b in RAM:mTest_HCS08_RAM *)
+       mTest_bits_source mTest_HCS08_prog) (* carica source in ROM:mTest_HCS08_prog *)
+      [ b ] mTest_HCS08_RAM)
+    (check_update_bit t (* setta mTest_HCS08_RAM,o come ROM *)
+     (build_memory_type_of_mcu_version (FamilyHCS08 MC9S08AW60) t)
+     mTest_HCS08_RAM sub MEM_READ_ONLY)
+    (mk_byte8 x0 x0) (mk_byte8 x0 x0) (* non deterministici tutti a 0 *)
+    false false false false false false) (* non deterministici tutti a 0 *)
+   mTest_HCS08_prog)
+  true.
+
+(* dimostrazione senza svolgimento degli stati, immediata *)
+lemma ok_mTest_bits_MEM_BITS_full :
+ ∀sub:oct.
+ execute HCS08 MEM_BITS (TickOK ? (mTest_bits_status MEM_BITS sub 〈x0,x0〉)) 4 =
+ TickOK ? (set_pc_reg HCS08 MEM_BITS (mTest_bits_status MEM_BITS sub (byte8_of_bits (setn_array8T sub ? (bits_of_byte8 〈xF,xF〉) false))) (* nuovo PC *)
+           (mk_word16 〈x1,x8〉 〈x6,x3〉)).
+ intro;
+ elim sub;
+ reflexivity.
+qed.
+
+(* NB: la memoria e' cambiata e bisogna applicare eq_status *)
+lemma ok_mTest_bits_MEM_FUNC_full :
+∀sub:oct.
+ eq_status HCS08 MEM_FUNC
+  (match execute HCS08 MEM_FUNC (TickOK ? (mTest_bits_status MEM_FUNC sub 〈x0,x0〉)) 4
+   with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+  (set_pc_reg HCS08 MEM_FUNC (mTest_bits_status MEM_FUNC sub 〈xF,xF〉) (* nuovo PC *) 〈〈x1,x8〉:〈x6,x3〉〉)
+  [ 〈〈x0,x0〉:〈x7,x0〉〉 ] = true.
+ intro; 
+ apply (eq_to_eqstatus_weak [ 〈〈x0,x0〉:〈x7,x0〉〉 ] HCS08 MEM_FUNC
+        (match execute HCS08 MEM_FUNC (TickOK ? (mTest_bits_status MEM_FUNC sub 〈x0,x0〉)) 4
+         with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+        (set_pc_reg HCS08 MEM_FUNC (mTest_bits_status MEM_FUNC sub 〈xF,xF〉) (* nuovo PC *) 〈〈x1,x8〉:〈x6,x3〉〉));
+ normalize in ⊢ (? ? ? %);
+ reflexivity.
+qed.
+
+lemma ok_mTest_bits_MEM_TREE_full :
+∀sub:oct.
+ eq_status HCS08 MEM_TREE
+  (match execute HCS08 MEM_TREE (TickOK ? (mTest_bits_status MEM_TREE sub 〈x0,x0〉)) 4
+   with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+  (set_pc_reg HCS08 MEM_TREE (mTest_bits_status MEM_TREE sub 〈xF,xF〉) (* nuovo PC *) 〈〈x1,x8〉:〈x6,x3〉〉)
+  [ 〈〈x0,x0〉:〈x7,x0〉〉 ] = true.
+ intro; 
+ apply (eq_to_eqstatus_weak [ 〈〈x0,x0〉:〈x7,x0〉〉 ] HCS08 MEM_TREE
+        (match execute HCS08 MEM_TREE (TickOK ? (mTest_bits_status MEM_TREE sub 〈x0,x0〉)) 4
+         with [ TickERR s _ ⇒ s | TickSUSP s _ ⇒ s | TickOK s ⇒ s ])
+        (set_pc_reg HCS08 MEM_TREE (mTest_bits_status MEM_TREE sub 〈xF,xF〉) (* nuovo PC *) 〈〈x1,x8〉:〈x6,x3〉〉));
+ normalize in ⊢ (? ? ? %);
+ reflexivity.
+qed.
+*)

diff --git a/helm/software/matita/contribs/ng_assembly/freescale/model.ma b/helm/software/matita/contribs/ng_assembly/freescale/model.ma
index 4f6d713d1e1d9e0e7b497d6128e3c448b4f29f8b..5dad70809d036fb226473c97bbfbd39093b9d8fe 100755 (executable)
--- a/helm/software/matita/contribs/ng_assembly/freescale/model.ma
+++ b/helm/software/matita/contribs/ng_assembly/freescale/model.ma
@@ -62,20 +62,21 @@ ndefinition HC08_mcu_model_rect : ΠP:HC08_mcu_model → Type.P MC68HC08AB16A 
 
 (* modelli di HCS08 *)
 ninductive HCS08_mcu_model : Type ≝
-  MC9S08GB60  : HCS08_mcu_model
+  MC9S08AW60 : HCS08_mcu_model
+| MC9S08GB60 : HCS08_mcu_model
   (*..*).
 
-ndefinition HCS08_mcu_model_ind : ΠP:HCS08_mcu_model → Prop.P MC9S08GB60 → Πh:HCS08_mcu_model.P h ≝
-λP:HCS08_mcu_model → Prop.λp:P MC9S08GB60.λh:HCS08_mcu_model.
- match h with [ MC9S08GB60 ⇒ p ].
+ndefinition HCS08_mcu_model_ind : ΠP:HCS08_mcu_model → Prop.P MC9S08GB60 → P MC9S08AW60 → Πh:HCS08_mcu_model.P h ≝
+λP:HCS08_mcu_model → Prop.λp:P MC9S08GB60.λp1:P MC9S08AW60.λh:HCS08_mcu_model.
+ match h with [ MC9S08GB60 ⇒ p | MC9S08AW60 ⇒ p1 ].
 
-ndefinition HCS08_mcu_model_rec : ΠP:HCS08_mcu_model → Set.P MC9S08GB60 → Πh:HCS08_mcu_model.P h ≝
-λP:HCS08_mcu_model → Set.λp:P MC9S08GB60.λh:HCS08_mcu_model.
- match h with [ MC9S08GB60 ⇒ p ].
+ndefinition HCS08_mcu_model_rec : ΠP:HCS08_mcu_model → Set.P MC9S08GB60 → P MC9S08AW60 → Πh:HCS08_mcu_model.P h ≝
+λP:HCS08_mcu_model → Set.λp:P MC9S08GB60.λp1:P MC9S08AW60.λh:HCS08_mcu_model.
+ match h with [ MC9S08GB60 ⇒ p | MC9S08AW60 ⇒ p1 ].
 
-ndefinition HCS08_mcu_model_rect : ΠP:HCS08_mcu_model → Type.P MC9S08GB60 → Πh:HCS08_mcu_model.P h ≝
-λP:HCS08_mcu_model → Type.λp:P MC9S08GB60.λh:HCS08_mcu_model.
- match h with [ MC9S08GB60 ⇒ p ].
+ndefinition HCS08_mcu_model_rect : ΠP:HCS08_mcu_model → Type.P MC9S08GB60 → P MC9S08AW60 → Πh:HCS08_mcu_model.P h ≝
+λP:HCS08_mcu_model → Type.λp:P MC9S08GB60.λp1:P MC9S08AW60.λh:HCS08_mcu_model.
+ match h with [ MC9S08GB60 ⇒ p | MC9S08AW60 ⇒ p1 ].
 
 (* modelli di RS08 *)
 ninductive RS08_mcu_model : Type ≝
@@ -187,7 +188,15 @@ ndefinition memory_type_of_FamilyHC08 ≝
 (* memoria degli HCS08 *)
 ndefinition memory_type_of_FamilyHCS08 ≝
 λm:HCS08_mcu_model.match m with
-  [ MC9S08GB60 ⇒
+  [ MC9S08AW60 ⇒
+   [ 
+  (* astraggo molto *)
+  (* 0x0000-0x006F,0x1800-0x185F: sarebbe memory mapped IO *)
+  
+     triple ??? 〈〈x0,x0〉:〈x7,x0〉〉 〈〈x0,x8〉:〈x6,xF〉〉 MEM_READ_WRITE (* 2048B RAM *)
+   ; triple ??? 〈〈x0,x8〉:〈x7,x0〉〉 〈〈x1,x7〉:〈xF,xF〉〉 MEM_READ_ONLY  (* 3984B FLASH *)
+   ; triple ??? 〈〈x1,x8〉:〈x6,x0〉〉 〈〈xF,xF〉:〈xF,xF〉〉 MEM_READ_ONLY  (* 59296B FLASH *) ]
+  | MC9S08GB60 ⇒
    [ 
   (* astraggo molto *)
   (* 0x0000-0x006F,0x1800-0x185F: sarebbe memory mapped IO *)

diff --git a/helm/software/matita/contribs/ng_assembly/test_errori.ma b/helm/software/matita/contribs/ng_assembly/test_errori.ma
index 430df6e17f8b9d6cbd94239a272c0458ab57096c..155b6073fe79eb1019284f7f5ba2e0531ad0597f 100644 (file)
--- a/helm/software/matita/contribs/ng_assembly/test_errori.ma
+++ b/helm/software/matita/contribs/ng_assembly/test_errori.ma
@@ -69,3 +69,98 @@ nlemma associative_plusb8
  
  (*...*)
 *)
+
+include "compiler/ast_type_lemmas.ma".
+
+(*
+nlemma symmetric_eqasttype_aux1
+ : ∀x1,x2,y2.eq_nat (len_neList ast_type («£x1»)) (len_neList ast_type (x2§§y2)) = false.
+ #x1; #x2; #y2; ncases y2; nnormalize;
+ ##[ ##1: #t; napply (refl_eq ??)
+ ##| ##2: #t; #l; napply (refl_eq ??)
+ ##]
+nqed.
+
+nlemma symmetric_eqasttype_aux2
+ : ∀x1,y1,x2.eq_nat (len_neList ast_type (x1§§y1)) (len_neList ast_type («£x2»)) = false.
+ #x1; #y1; #x2; ncases y1; nnormalize;
+ ##[ ##1: #t; napply (refl_eq ??)
+ ##| ##2: #t; #l; napply (refl_eq ??)
+ ##]
+nqed.
+
+ndefinition symmetric_eqasttype_aux3 ≝
+λnelSubType1,nelSubType2:ne_list ast_type.
+ match eq_nat (len_neList ast_type nelSubType1) (len_neList ast_type nelSubType2)
+  return λx.eq_nat (len_neList ast_type nelSubType1) (len_neList ast_type nelSubType2) = x → bool
+ with
+  [ true ⇒ λp:(eq_nat (len_neList ast_type nelSubType1) (len_neList ast_type nelSubType2) = true).
+   fold_right_neList2 ?? (λx1,x2,acc.(eq_ast_type x1 x2)⊗acc)
+                      true nelSubType1 nelSubType2
+                      (eqnat_to_eq (len_neList ? nelSubType1) (len_neList ? nelSubType2) p)
+  | false ⇒ λp:(eq_nat (len_neList ast_type nelSubType1) (len_neList ast_type nelSubType2) = false).false
+  ] (refl_eq ? (eq_nat (len_neList ast_type nelSubType1) (len_neList ast_type nelSubType2))).
+
+nlemma symmetric_eqasttype : symmetricT ast_type bool eq_ast_type.
+ #t1;
+ napply (ast_type_ind ????? t1);
+ ##[ ##1: #b1; #t2; ncases t2;
+          ##[ ##1: #b2; nchange with ((eq_ast_base_type b1 b2) = (eq_ast_base_type b2 b1));
+                   nrewrite > (symmetric_eqastbasetype b1 b2);
+                   napply (refl_eq ??)
+          ##| ##2: #tt; #n; nnormalize; napply (refl_eq ??)
+          ##| ##3: #l; nnormalize; napply (refl_eq ??)
+          ##]
+ ##| ##2: #tt1; #n1; #H; #t2; ncases t2;
+          ##[ ##2: #tt2; #n2; nchange with (((eq_ast_type tt1 tt2)⊗(eq_nat n1 n2)) = ((eq_ast_type tt2 tt1)⊗(eq_nat n2 n1)));
+                   nrewrite > (H tt2);
+                   nrewrite > (symmetric_eqnat n1 n2);
+                   napply (refl_eq ??)
+          ##| ##1: #b2; nnormalize; napply (refl_eq ??)
+          ##| ##3: #l; nnormalize; napply (refl_eq ??)
+          ##]
+ ##| ##3: #tt1; #H; #t2; ncases t2;
+          ##[ ##3: #l; ncases l;
+                   ##[ ##1: #tt2; nnormalize; nrewrite > (H tt2); napply (refl_eq ??)
+                   ##| ##2: #tt2; #l1;
+                            nchange with (
+                             (match eq_nat (len_neList ast_type «£tt1») (len_neList ast_type (tt2§§l1))
+                               return λx.eq_nat (len_neList ast_type «£tt1») (len_neList ast_type (tt2§§l1)) = x → bool
+                              with
+                               [ true ⇒ λp:(eq_nat (len_neList ast_type «£tt1») (len_neList ast_type (tt2§§l1)) = true).
+                                fold_right_neList2 ?? (λx1,x2,acc.(eq_ast_type x1 x2)⊗acc)
+                                                   true «£tt1» (tt2§§l1)
+                                                   (eqnat_to_eq (len_neList ? «£tt1») (len_neList ? (tt2§§l1)) p)
+                               | false ⇒ λp:(eq_nat (len_neList ast_type «£tt1») (len_neList ast_type (tt2§§l1)) = false).false
+                               ] (refl_eq ? (eq_nat (len_neList ast_type «£tt1») (len_neList ast_type (tt2§§l1))))) = ?);
+
+                            (* eseguendo questa sequenza e' ok *)
+                            nrewrite > (symmetric_eqasttype_aux1 tt1 tt2 l1);
+                            nchange with (
+                             false = (match eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1»)
+                               return λx.eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1») = x → bool
+                              with
+                               [ true ⇒ λp:(eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1») = true).
+                                fold_right_neList2 ?? (λx1,x2,acc.(eq_ast_type x1 x2)⊗acc)
+                                                   true (tt2§§l1) «£tt1»
+                                                   (eqnat_to_eq (len_neList ? (tt2§§l1)) (len_neList ? «£tt1») p)
+                               | false ⇒ λp:(eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1») = false).false
+                               ] (refl_eq ? (eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1»)))));
+                            nrewrite > (symmetric_eqasttype_aux2 tt2 l1 tt1);
+                            nnormalize;
+
+                            (* se commentiamo invece la prima sequenza ed eseguiamo questa *)
+                            (* come e' possibile che rigetti la seconda rewrite? *)
+                            nchange with (
+                             ? = (match eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1»)
+                               return λx.eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1») = x → bool
+                              with
+                               [ true ⇒ λp:(eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1») = true).
+                                fold_right_neList2 ?? (λx1,x2,acc.(eq_ast_type x1 x2)⊗acc)
+                                                   true (tt2§§l1) «£tt1»
+                                                   (eqnat_to_eq (len_neList ? (tt2§§l1)) (len_neList ? «£tt1») p)
+                               | false ⇒ λp:(eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1») = false).false
+                               ] (refl_eq ? (eq_nat (len_neList ast_type (tt2§§l1)) (len_neList ast_type «£tt1»)))));
+                            nrewrite > (symmetric_eqasttype_aux1 tt1 tt2 l1);                            
+                            nrewrite > (symmetric_eqasttype_aux2 tt2 l1 tt1);
+*)

diff --git a/helm/software/matita/contribs/ng_assembly/utility/string.ma b/helm/software/matita/contribs/ng_assembly/utility/string.ma
index 227f9f478d2cb285d09c501be7cc7e712ded1371..d2a55290124d6b60ac9ba2a317c6daf21f1aca62 100644 (file)
--- a/helm/software/matita/contribs/ng_assembly/utility/string.ma
+++ b/helm/software/matita/contribs/ng_assembly/utility/string.ma
@@ -21,7 +21,8 @@
 (* ********************************************************************** *)
 
 include "utility/ascii.ma".
-include "utility/utility.ma".
+include "freescale/theory.ma".
+include "freescale/nat.ma".
 
 (* ************************ *)
 (* MANIPOLAZIONE DI STRINGA *)
@@ -30,14 +31,6 @@ include "utility/utility.ma".
 (* tipo pubblico *)
 ndefinition aux_str_type ≝ list ascii.
 
-(* empty string *)
-ndefinition empty_str ≝ nil ascii.
-
-(* is empty ? *)
-ndefinition isNull_str ≝
-λstr:aux_str_type.match str with
- [ nil ⇒ true | cons _ _ ⇒ false ].
-
 (* strcmp *)
 nlet rec eq_str (str,str':aux_str_type) ≝
  match str with
@@ -50,13 +43,6 @@ nlet rec eq_str (str,str':aux_str_type) ≝
    ]
   ].
 
-(* strcat *)
-ndefinition strCat_str ≝
-λstr,str':aux_str_type.str@str'.
-
-(* strlen *)
-ndefinition strLen_str ≝ len_list ascii.
-
 (* ************ *)
 (* STRINGA + ID *)
 (* ************ *)

diff --git a/helm/software/matita/contribs/ng_assembly/utility/string_lemmas.ma b/helm/software/matita/contribs/ng_assembly/utility/string_lemmas.ma
index 52b3b9f7a816925d1a7ead4ba155497fb292a011..3944d87ad9a5e194e2e4962d718378a771c60d74 100755 (executable)
--- a/helm/software/matita/contribs/ng_assembly/utility/string_lemmas.ma
+++ b/helm/software/matita/contribs/ng_assembly/utility/string_lemmas.ma
@@ -22,6 +22,7 @@
 
 include "utility/string.ma".
 include "utility/ascii_lemmas2.ma".
+include "freescale/nat_lemmas.ma".
 
 (* ************************ *)
 (* MANIPOLAZIONE DI STRINGA *)

diff --git a/helm/software/matita/contribs/ng_assembly/utility/utility_lemmas.ma b/helm/software/matita/contribs/ng_assembly/utility/utility_lemmas.ma
index 6ed8dea6c82004a4bc5faf9b3c258b9f41cafb72..557cdfbb11097ad22ef1cdc3b61ea4b45df2b76e 100755 (executable)
--- a/helm/software/matita/contribs/ng_assembly/utility/utility_lemmas.ma
+++ b/helm/software/matita/contribs/ng_assembly/utility/utility_lemmas.ma
@@ -58,7 +58,7 @@ nlemma nelist_destruct_cons_nil : ∀T.∀x1,x2:T.∀y1:ne_list T.ne_cons T x1 y
  napply I.
 nqed.
 
-nlemma list_destruct_nil_cons : ∀T.∀x1,x2:T.∀y2:ne_list T.ne_nil T x1 = ne_cons T x2 y2 → False.
+nlemma nelist_destruct_nil_cons : ∀T.∀x1,x2:T.∀y2:ne_list T.ne_nil T x1 = ne_cons T x2 y2 → False.
  #T; #x1; #x2; #y2; #H;
  nchange with (match ne_cons T x2 y2 with [ ne_nil _ ⇒ True | ne_cons a b ⇒ False ]);
  nrewrite < H;
@@ -66,6 +66,119 @@ nlemma list_destruct_nil_cons : ∀T.∀x1,x2:T.∀y2:ne_list T.ne_nil T x1 = ne
  napply I.
 nqed.
 
+nlemma symmetric_eqlenlist : ∀T.∀l1,l2:list T.len_list T l1 = len_list T l2 → len_list T l2 = len_list T l1.
+ #T; #l1;
+ napply (list_ind ???? l1);
+ ##[ ##1: #l2; ncases l2; nnormalize;
+          ##[ ##1: #H; napply (refl_eq ??)
+          ##| ##2: #h; #t; #H; nelim (nat_destruct_0_S ? H)
+          ##]
+ ##| ##2: #h; #l2; ncases l2; nnormalize;
+          ##[ ##1: #H; #l; #H1; nrewrite < H1; napply (refl_eq ??)
+          ##| ##2: #h; #l; #H; #l3; #H1; nrewrite < H1; napply (refl_eq ??)
+          ##]
+ ##]
+nqed.
+
+nlemma symmetric_foldrightlist2_aux
+ : ∀T1,T2:Type.∀f:T1 → T1 → T2 → T2.∀acc:T2.∀l1,l2:list T1.
+   ∀H1:len_list T1 l1 = len_list T1 l2.∀H2:len_list T1 l2 = len_list T1 l1.
+  (∀x,y,z.f x y z = f y x z) →
+  fold_right_list2 T1 T2 f acc l1 l2 H1 = fold_right_list2 T1 T2 f acc l2 l1 H2.
+ #T1; #T2; #f; #acc; #l1;
+ napply (list_ind ???? l1);
+ ##[ ##1: #l2; ncases l2;
+          ##[ ##1: nnormalize; #H1; #H2; #H3; napply (refl_eq ??)
+          ##| ##2: #h; #l; #H1; #H2; #H3;
+                   nchange in H1:(%) with (O = (S (len_list ? l)));
+                   nelim (nat_destruct_0_S ? H1)
+          ##]
+ ##| ##2: #h3; #l3; #H; #l2; ncases l2;
+          ##[ ##1: #H1; #H2; #H3; nchange in H1:(%) with ((S (len_list ? l3)) = O);
+                   nelim (nat_destruct_S_0 ? H1)
+          ##| ##2: #h4; #l4; #H1; #H2; #H3;
+                   nchange in H1:(%) with ((S (len_list ? l3)) = (S (len_list ? l4)));
+                   nchange in H2:(%) with ((S (len_list ? l4)) = (S (len_list ? l3)));
+                   nchange with ((f h3 h4 (fold_right_list2 T1 T2 f acc l3 l4 (fold_right_list2_aux3 T1 h3 h4 l3 l4 ?))) =
+                                 (f h4 h3 (fold_right_list2 T1 T2 f acc l4 l3 (fold_right_list2_aux3 T1 h4 h3 l4 l3 ?))));
+                   nrewrite < (H l4 (fold_right_list2_aux3 T1 h3 h4 l3 l4 H1) (fold_right_list2_aux3 T1 h4 h3 l4 l3 H2) H3);
+                   nrewrite > (H3 h3 h4 (fold_right_list2 T1 T2 f acc l3 l4 ?));
+                   napply (refl_eq ??)
+          ##]
+ ##]
+nqed.
+
+nlemma symmetric_foldrightlist2
+ : ∀T1,T2:Type.∀f:T1 → T1 → T2 → T2.∀acc:T2.∀l1,l2:list T1.∀H:len_list T1 l1 = len_list T1 l2.
+  (∀x,y,z.f x y z = f y x z) →
+  fold_right_list2 T1 T2 f acc l1 l2 H = fold_right_list2 T1 T2 f acc l2 l1 (symmetric_eqlenlist T1 l1 l2 H).
+ #T1; #T2; #f; #acc; #l1; #l2; #H; #H1;
+ nrewrite > (symmetric_foldrightlist2_aux T1 T2 f acc l1 l2 H (symmetric_eqlenlist T1 l1 l2 H) H1);
+ napply (refl_eq ??).
+nqed.
+
+nlemma symmetric_eqlennelist : ∀T.∀l1,l2:ne_list T.len_neList T l1 = len_neList T l2 → len_neList T l2 = len_neList T l1.
+ #T; #l1;
+ napply (ne_list_ind ???? l1);
+ ##[ ##1: #h; #l2; ncases l2; nnormalize;
+          ##[ ##1: #H; #H1; napply (refl_eq ??)
+          ##| ##2: #h; #t; #H; nrewrite > H; napply (refl_eq ??)
+          ##]
+ ##| ##2: #h; #l2; ncases l2; nnormalize;
+          ##[ ##1: #h1; #H; #l; #H1; nrewrite < H1; napply (refl_eq ??)
+          ##| ##2: #h; #l; #H; #l3; #H1; nrewrite < H1; napply (refl_eq ??)
+          ##]
+ ##]
+nqed.
+
+nlemma symmetric_foldrightnelist2_aux
+ : ∀T1,T2:Type.∀f:T1 → T1 → T2 → T2.∀acc:T2.∀l1,l2:ne_list T1.
+   ∀H1:len_neList T1 l1 = len_neList T1 l2.∀H2:len_neList T1 l2 = len_neList T1 l1.
+  (∀x,y,z.f x y z = f y x z) →
+  fold_right_neList2 T1 T2 f acc l1 l2 H1 = fold_right_neList2 T1 T2 f acc l2 l1 H2.
+ #T1; #T2; #f; #acc; #l1;
+ napply (ne_list_ind ???? l1);
+ ##[ ##1: #h; #l2; ncases l2;
+          ##[ ##1: #h1; nnormalize; #H1; #H2; #H3; nrewrite > (H3 h h1 acc); napply (refl_eq ??)
+          ##| ##2: #h1; #l; ncases l;
+                   ##[ ##1: #h3; #H1; #H2; #H3;
+                            nchange in H1:(%) with ((S O) = (S (S O)));
+                            nelim (nat_destruct_0_S ? (nat_destruct_S_S ?? H1))
+                   ##| ##2: #h3; #l3; #H1; #H2; #H3;
+                            nchange in H1:(%) with ((S O) = (S (S (len_neList ? l3))));
+                            nelim (nat_destruct_0_S ? (nat_destruct_S_S ?? H1))
+                   ##]                   
+          ##]
+ ##| ##2: #h3; #l3; #H; #l2; ncases l2;
+          ##[ ##1: #h4; ncases l3;
+                   ##[ ##1: #h5; #H1; #H2; #H3;
+                            nchange in H1:(%) with ((S (S O)) = (S O));
+                            nelim (nat_destruct_S_0 ? (nat_destruct_S_S ?? H1))
+                   ##| ##2: #h5; #l5; #H1; #H2; #H3;
+                            nchange in H1:(%) with ((S (S (len_neList ? l5))) = (S O));
+                            nelim (nat_destruct_S_0 ? (nat_destruct_S_S ?? H1))
+                   ##]
+          ##| ##2: #h4; #l4; #H1; #H2; #H3;
+                   nchange in H1:(%) with ((S (len_neList ? l3)) = (S (len_neList ? l4)));
+                   nchange in H2:(%) with ((S (len_neList ? l4)) = (S (len_neList ? l3)));
+                   nchange with ((f h3 h4 (fold_right_neList2 T1 T2 f acc l3 l4 (fold_right_neList2_aux3 T1 h3 h4 l3 l4 ?))) =
+                                 (f h4 h3 (fold_right_neList2 T1 T2 f acc l4 l3 (fold_right_neList2_aux3 T1 h4 h3 l4 l3 ?))));
+                   nrewrite < (H l4 (fold_right_neList2_aux3 T1 h3 h4 l3 l4 H1) (fold_right_neList2_aux3 T1 h4 h3 l4 l3 H2) H3);
+                   nrewrite > (H3 h3 h4 (fold_right_neList2 T1 T2 f acc l3 l4 ?));
+                   napply (refl_eq ??)
+          ##]
+ ##]
+nqed.
+
+nlemma symmetric_foldrightnelist2
+ : ∀T1,T2:Type.∀f:T1 → T1 → T2 → T2.∀acc:T2.∀l1,l2:ne_list T1.∀H:len_neList T1 l1 = len_neList T1 l2.
+  (∀x,y,z.f x y z = f y x z) →
+  fold_right_neList2 T1 T2 f acc l1 l2 H = fold_right_neList2 T1 T2 f acc l2 l1 (symmetric_eqlennelist T1 l1 l2 H).
+ #T1; #T2; #f; #acc; #l1; #l2; #H; #H1;
+ nrewrite > (symmetric_foldrightnelist2_aux T1 T2 f acc l1 l2 H (symmetric_eqlennelist T1 l1 l2 H) H1);
+ napply (refl_eq ??).
+nqed.
+
 nlemma isbemptylist_to_isemptylist : ∀T,l.isb_empty_list T l = true → is_empty_list T l.
  #T; #l;
  ncases l;