1 (**************************************************************************)
4 (* ||A|| A project by Andrea Asperti *)
6 (* ||I|| Developers: *)
7 (* ||T|| The HELM team. *)
8 (* ||A|| http://helm.cs.unibo.it *)
10 (* \ / This file is distributed under the terms of the *)
11 (* v GNU General Public License Version 2 *)
13 (**************************************************************************)
15 (* ********************************************************************** *)
16 (* Progetto FreeScale *)
19 (* Cosimo Oliboni, oliboni@cs.unibo.it *)
21 (* Questo materiale fa parte della tesi: *)
22 (* "Formalizzazione Interattiva dei Microcontroller a 8bit FreeScale" *)
24 (* data ultima modifica 15/11/2007 *)
25 (* ********************************************************************** *)
27 include "freescale/table_RS08.ma".
29 (* RS08: opcode non implementati come da manuale *)
30 definition RS08_not_impl_byte ≝
31 [〈x3,x2〉;〈x3,x3〉;〈x3,xD〉
32 ;〈x4,x0〉;〈x4,x7〉;〈x4,xD〉
33 ;〈xA,x3〉;〈xA,x5〉;〈xA,x7〉
37 lemma ok_byte_table_RS08 : forall_byte8 (λb.
38 (test_not_impl_byte b RS08_not_impl_byte ⊙ eqb (get_byte_count RS08 b 0 opcode_table_RS08) 1) ⊗
39 (⊖ (test_not_impl_byte b RS08_not_impl_byte) ⊙ eqb (get_byte_count RS08 b 0 opcode_table_RS08) 0))
44 (* RS08: pseudocodici non implementati come da manuale *)
45 definition RS08_not_impl_pseudo ≝
46 [ AIS ; AIX ; ASR ; BGE ; BGT ; BHCC ; BHCS ; BHI ; BIH ; BIL ; BIT ; BLE ; BLS
47 ; BLT ; BMC ; BMI ; BMS ; BPL ; BRN ; CBEQX ; CLI ; CPHX ; CPX ; DAA ; DIV
48 ; LDHX ; LDX ; MUL ; NEG ; NSA ; PSHA ; PSHH ; PSHX ; PULA ; PULH ; PULX ; RSP
49 ; RTI ; SEI ; STHX ; STX ; SWI ; TAP ; TAX ; TPA ; TST ; TSX ; TXA ; TXS ].
51 lemma ok_pseudo_table_RS08 : forall_opcode (λo.
52 (test_not_impl_pseudo o RS08_not_impl_pseudo ⊙ leb 1 (get_pseudo_count RS08 o 0 opcode_table_RS08)) ⊗
53 (⊖ (test_not_impl_pseudo o RS08_not_impl_pseudo) ⊙ eqb (get_pseudo_count RS08 o 0 opcode_table_RS08) 0))
58 (* RS08: modalita' non implementate come da manuale *)
59 definition RS08_not_impl_mode ≝
60 [ MODE_INHX ; MODE_INHH ; MODE_INHX0ADD ; MODE_INHX1ADD ; MODE_INHX2ADD ; MODE_IMM1EXT
61 ; MODE_DIR2 ; MODE_IX0 ; MODE_IX1 ; MODE_IX2 ; MODE_SP1 ; MODE_SP2
62 ; MODE_IX0p_to_DIR1 ; MODE_DIR1_to_IX0p ; MODE_INHX_and_IMM1 ; MODE_IX0_and_IMM1
63 ; MODE_IX0p_and_IMM1 ; MODE_IX1_and_IMM1 ; MODE_IX1p_and_IMM1 ; MODE_SP1_and_IMM1 ].
65 lemma ok_mode_table_RS08 : forall_instr_mode (λi.
66 (test_not_impl_mode i RS08_not_impl_mode ⊙ leb 1 (get_mode_count RS08 i 0 opcode_table_RS08)) ⊗
67 (⊖ (test_not_impl_mode i RS08_not_impl_mode) ⊙ eqb (get_mode_count RS08 i 0 opcode_table_RS08) 0))
72 lemma ok_OpIm_table_RS08 :
73 forall_instr_mode (λi:instr_mode.
74 forall_opcode (λop:opcode.
75 leb (get_OpIm_count RS08 (anyOP RS08 op) i 0 opcode_table_RS08) 1)) = true.