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[/] [openmsp430/] [trunk/] [core/] [sim/] [rtl_sim/] [src/] [sing-op_rrc.s43] - Rev 23
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/*===========================================================================*//* Copyright (C) 2001 Authors *//* *//* This source file may be used and distributed without restriction provided *//* that this copyright statement is not removed from the file and that any *//* derivative work contains the original copyright notice and the associated *//* disclaimer. *//* *//* This source file is free software; you can redistribute it and/or modify *//* it under the terms of the GNU Lesser General Public License as published *//* by the Free Software Foundation; either version 2.1 of the License, or *//* (at your option) any later version. *//* *//* This source is distributed in the hope that it will be useful, but WITHOUT*//* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or *//* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public *//* License for more details. *//* *//* You should have received a copy of the GNU Lesser General Public License *//* along with this source; if not, write to the Free Software Foundation, *//* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA *//* *//*===========================================================================*//* SINGLE-OPERAND ARITHMETIC: RRC[.B] INSTRUCTION *//*---------------------------------------------------------------------------*//* Test the RRC[.B] instruction. *//* *//* Author(s): *//* - Olivier Girard, olgirard@gmail.com *//* *//*---------------------------------------------------------------------------*//* $Rev: 19 $ *//* $LastChangedBy: olivier.girard $ *//* $LastChangedDate: 2009-08-04 23:47:15 +0200 (Tue, 04 Aug 2009) $ *//*===========================================================================*/.global mainmain:/* -------------- TEST INSTRUCTION IN WORD MODE ------------------- */# Addressing mode: Rn#------------------------mov #0x0000, r2 ;# Test 1mov #0x3332, r4rrc r4 ;# RRC ({C=0, r4=0x3332} => {r4=0x1999, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3333, r6rrc r6 ;# RRC ({C=0, r6=0x3333} => {r6=0x1999, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3332, r8rrc r8 ;# RRC ({C=1, r9=0x3332} => {r9=0x9999, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3333, r10rrc r10 ;# RRC ({C=1, r10=0x3333} => {r10=0x9999, C=1})mov r2, r11mov #0x1000, r15# Addressing mode: @Rn#------------------------mov #0x0000, r2 ;# Test 1mov #0x3332, &0x0200mov #0x0200, r4mov #0xaaaa, &0x0202rrc @r4 ;# RRC ({C=0, mem00=0x3332} => {mem00=0x1999, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3333, &0x0202mov #0x0202, r6mov #0xaaaa, &0x0204rrc @r6 ;# RRC ({C=0, mem01=0x3333} => {mem01=0x1999, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3332, &0x0204mov #0x0204, r8mov #0xaaaa, &0x0206rrc @r8 ;# RRC ({C=1, mem02=0x3332} => {mem02=0x9999, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3333, &0x0206mov #0x0206, r10mov #0xaaaa, &0x0208rrc @r10 ;# RRC ({C=1, mem03=0x3333} => {mem03=0x9999, C=1})mov r2, r11mov #0x2000, r15# Addressing mode: @Rn+#------------------------mov #0x0000, r2 ;# Test 1mov #0x3332, &0x0208mov #0x0208, r4mov #0xaaaa, &0x020Arrc @r4+ ;# RRC ({C=0, mem04=0x3332} => {mem04=0x1999, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3333, &0x020Amov #0x020A, r6mov #0xaaaa, &0x020Crrc @r6+ ;# RRC ({C=0, mem05=0x3333} => {mem05=0x1999, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3332, &0x020Cmov #0x020C, r8mov #0xaaaa, &0x020Errc @r8+ ;# RRC ({C=1, mem06=0x3332} => {mem06=0x9999, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3333, &0x020Emov #0x020E, r10mov #0xaaaa, &0x0210rrc @r10+ ;# RRC ({C=1, mem07=0x3333} => {mem07=0x9999, C=1})mov r2, r11mov #0x3000, r15# Addressing mode: X(Rn)#------------------------mov #0x0000, r2 ;# Test 1mov #0x3332, &0x0210mov #0x0200, r4mov #0xaaaa, &0x0212rrc 16(r4) ;# RRC ({C=0, mem08=0x3332} => {mem08=0x1999, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3333, &0x0212mov #0x0200, r6mov #0xaaaa, &0x0214rrc 18(r6) ;# RRC ({C=0, mem09=0x3333} => {mem09=0x1999, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3332, &0x0214mov #0x0200, r8mov #0xaaaa, &0x0216rrc 20(r8) ;# RRC ({C=1, mem0a=0x3332} => {mem0a=0x9999, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3333, &0x0216mov #0x0200, r10mov #0xaaaa, &0x0218rrc 22(r10) ;# RRC ({C=1, mem0b=0x3333} => {mem0b=0x9999, C=1})mov r2, r11mov #0x4000, r15# Addressing mode: EDE#------------------------.set EDE_218, (__data_start+0x0018).set EDE_21A, (__data_start+0x001A).set EDE_21C, (__data_start+0x001C).set EDE_21E, (__data_start+0x001E)mov #0x0000, r2 ;# Test 1mov #0x3332, &0x0218mov #0xaaaa, &0x021Arrc EDE_218 ;# RRC ({C=0, mem0c=0x3332} => {mem0c=0x1999, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3333, &0x021Amov #0xaaaa, &0x021Crrc EDE_21A ;# RRC ({C=0, mem0d=0x3333} => {mem0d=0x1999, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3332, &0x021Cmov #0xaaaa, &0x021Errc EDE_21C ;# RRC ({C=1, mem0e=0x3332} => {mem0e=0x9999, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3333, &0x021Emov #0xaaaa, &0x0220rrc EDE_21E ;# RRC ({C=1, mem0f=0x3333} => {mem0f=0x9999, C=1})mov r2, r11mov #0x5000, r15# Addressing mode: &EDE#------------------------.set aEDE_220, 0x0220.set aEDE_222, 0x0222.set aEDE_224, 0x0224.set aEDE_226, 0x0226mov #0x0000, r2 ;# Test 1mov #0x3332, &0x0220mov #0xaaaa, &0x0222rrc &aEDE_220 ;# RRC ({C=0, mem10=0x3332} => {mem10=0x1999, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3333, &0x0222mov #0xaaaa, &0x0224rrc &aEDE_222 ;# RRC ({C=0, mem11=0x3333} => {mem11=0x1999, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3332, &0x0224mov #0xaaaa, &0x0226rrc &aEDE_224 ;# RRC ({C=1, mem12=0x3332} => {mem12=0x9999, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3333, &0x0226mov #0xaaaa, &0x0228rrc &aEDE_226 ;# RRC ({C=1, mem13=0x3333} => {mem13=0x9999, C=1})mov r2, r11mov #0x6000, r15/* ----------------------- CLEAR MEMORY --------------------------- */mov #0x0015, r4mov #0x0200, r5clear_mem_loop:clr 0(r5)incd r5dec r4jnz clear_mem_loopmov #0x7000, r15/* -------------- TEST INSTRUCTION IN BYTE MODE ------------------- */# Addressing mode: Rn#------------------------mov #0x0000, r2 ;# Test 1mov #0xff32, r4rrc.b r4 ;# RRC.B ({C=0, r4=0x32} => {r4=0x19, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0xff33, r6rrc.b r6 ;# RRC.B ({C=0, r6=0x33} => {r6=0x19, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0xf032, r8rrc.b r8 ;# RRC.B ({C=1, r9=0x32} => {r9=0x99, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0xf033, r10rrc.b r10 ;# RRC.B ({C=1, r10=0x33} => {r10=0x99, C=1})mov r2, r11mov #0x8000, r15# Addressing mode: @Rn (Low Byte)#---------------------------------mov #0x0000, r2 ;# Test 1: Low Bytemov #0x2532, &0x0200mov #0x0200, r4mov #0xaaaa, &0x0202rrc.b @r4 ;# RRC.B ({C=0, mem00=0x2532} => {mem00=0x2519, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2: Low Bytemov #0x2533, &0x0202mov #0x0202, r6mov #0xaaaa, &0x0204rrc.b @r6 ;# RRC.B ({C=0, mem01=0x2533} => {mem01=0x2519, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3: Low Bytemov #0x2532, &0x0204mov #0x0204, r8mov #0xaaaa, &0x0206rrc.b @r8 ;# RRC.B ({C=1, mem02=0x2532} => {mem02=0x2599, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4: Low Bytemov #0x2533, &0x0206mov #0x0206, r10mov #0xaaaa, &0x0208rrc.b @r10 ;# RRC.B ({C=1, mem03=0x2533} => {mem03=0x2599, C=1})mov r2, r11mov #0x9000, r15# Addressing mode: @Rn (High Byte)#---------------------------------mov #0x0000, r2 ;# Test 1: High Bytemov #0x3225, &0x0208mov #0x0209, r4mov #0xaaaa, &0x020Arrc.b @r4 ;# RRC.B ({C=0, mem04=0x3225} => {mem04=0x1925, C=0})mov r2, r6mov #0x0000, r2 ;# Test 2: High Bytemov #0x3325, &0x020Amov #0x020B, r6mov #0xaaaa, &0x020Crrc.b @r6 ;# RRC.B ({C=0, mem05=0x3325} => {mem05=0x1925, C=1})mov r2, r8mov #0x0001, r2 ;# Test 3: High Bytemov #0x3225, &0x020Cmov #0x020D, r8mov #0xaaaa, &0x020Errc.b @r8 ;# RRC.B ({C=1, mem06=0x3225} => {mem06=0x9925, C=0})mov r2, r10mov #0x0001, r2 ;# Test 4: High Bytemov #0x3325, &0x020Emov #0x020F, r10mov #0xaaaa, &0x0210rrc.b @r10 ;# RRC.B ({C=1, mem07=0x3325} => {mem07=0x9925, C=1})mov r2, r11mov #0x9001, r15# Addressing mode: @Rn+ (Low Byte)#---------------------------------mov #0x0000, r2 ;# Test 1: Low Bytemov #0x2532, &0x0210mov #0x0210, r4mov #0xaaaa, &0x0212rrc.b @r4+ ;# RRC.B ({C=0, mem08=0x2532} => {mem08=0x2519, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2: Low Bytemov #0x2533, &0x0212mov #0x0212, r6mov #0xaaaa, &0x0214rrc.b @r6+ ;# RRC.B ({C=0, mem09=0x2533} => {mem09=0x2519, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3: Low Bytemov #0x2532, &0x0214mov #0x0214, r8mov #0xaaaa, &0x0216rrc.b @r8+ ;# RRC.B ({C=1, mem0a=0x2532} => {mem0a=0x2599, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4: Low Bytemov #0x2533, &0x0216mov #0x0216, r10mov #0xaaaa, &0x0218rrc.b @r10+ ;# RRC.B ({C=1, mem0b=0x2533} => {mem0b=0x2599, C=1})mov r2, r11mov #0xA000, r15# Addressing mode: @Rn+ (High Byte)#-----------------------------------mov #0x0000, r2 ;# Test 1: High Bytemov #0x3225, &0x0218mov #0x0219, r4mov #0xaaaa, &0x021Arrc.b @r4+ ;# RRC.B ({C=0, mem0c=0x3225} => {mem0c=0x1925, C=0})mov r2, r6mov #0x0000, r2 ;# Test 2: High Bytemov #0x3325, &0x021Amov #0x021B, r6mov #0xaaaa, &0x021Crrc.b @r6+ ;# RRC.B ({C=0, mem0d=0x3325} => {mem0d=0x1925, C=1})mov r2, r8mov #0x0001, r2 ;# Test 3: High Bytemov #0x3225, &0x021Cmov #0x021D, r8mov #0xaaaa, &0x021Errc.b @r8+ ;# RRC.B ({C=1, mem0e=0x3225} => {mem0e=0x9925, C=0})mov r2, r10mov #0x0001, r2 ;# Test 4: High Bytemov #0x3325, &0x021Emov #0x021F, r10mov #0xaaaa, &0x0220rrc.b @r10+ ;# RRC.B ({C=1, mem0f=0x3325} => {mem0f=0x9925, C=1})mov r2, r11mov #0xA001, r15# Addressing mode: X(Rn) (Low Byte)#-----------------------------------mov #0x0000, r2 ;# Test 1mov #0x2532, &0x0220mov #0x0200, r4mov #0xaaaa, &0x0222rrc.b 32(r4) ;# RRC ({C=0, mem10=0x2532} => {mem10=0x2519, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x2533, &0x0222mov #0x0200, r6mov #0xaaaa, &0x0224rrc.b 34(r6) ;# RRC ({C=0, mem11=0x2533} => {mem11=0x2519, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x2532, &0x0224mov #0x0200, r8mov #0xaaaa, &0x0226rrc.b 36(r8) ;# RRC ({C=1, mem12=0x2532} => {mem12=0x2599, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x2533, &0x0226mov #0x0200, r10mov #0xaaaa, &0x0228rrc.b 38(r10) ;# RRC ({C=1, mem13=0x2533} => {mem13=0x2599, C=1})mov r2, r11mov #0xB000, r15# Addressing mode: X(Rn) (High Byte)#------------------------------------mov #0x0000, r2 ;# Test 1mov #0x3225, &0x0228mov #0x0200, r4mov #0xaaaa, &0x022Arrc.b 41(r4) ;# RRC ({C=0, mem14=0x3225} => {mem14=0x1925, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3325, &0x022Amov #0x0200, r6mov #0xaaaa, &0x022Crrc.b 43(r6) ;# RRC ({C=0, mem15=0x3325} => {mem15=0x1925, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3225, &0x022Cmov #0x0200, r8mov #0xaaaa, &0x022Errc.b 45(r8) ;# RRC ({C=1, mem16=0x3225} => {mem16=0x9925, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3325, &0x022Emov #0x0200, r10mov #0xaaaa, &0x0230rrc.b 47(r10) ;# RRC ({C=1, mem17=0x3325} => {mem17=0x9925, C=1})mov r2, r11mov #0xB001, r15# Addressing mode: EDE (Low Byte)#---------------------------------.set EDE_230, (__data_start+0x0030).set EDE_232, (__data_start+0x0032).set EDE_234, (__data_start+0x0034).set EDE_236, (__data_start+0x0036)mov #0x0000, r2 ;# Test 1mov #0x2532, &0x0230mov #0xaaaa, &0x0232rrc.b EDE_230 ;# RRC ({C=0, mem18=0x2532} => {mem18=0x2519, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x2533, &0x0232mov #0xaaaa, &0x0234rrc.b EDE_232 ;# RRC ({C=0, mem19=0x2533} => {mem19=0x2519, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x2532, &0x0234mov #0xaaaa, &0x0236rrc.b EDE_234 ;# RRC ({C=1, mem1a=0x2532} => {mem1a=0x2599, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x2533, &0x0236mov #0xaaaa, &0x0238rrc.b EDE_236 ;# RRC ({C=1, mem1b=0x2533} => {mem1b=0x2599, C=1})mov r2, r11mov #0xC000, r15# Addressing mode: EDE (High Byte)#----------------------------------.set EDE_239, (__data_start+0x0039).set EDE_23B, (__data_start+0x003B).set EDE_23D, (__data_start+0x003D).set EDE_23F, (__data_start+0x003F)mov #0x0000, r2 ;# Test 1mov #0x3225, &0x0238mov #0xaaaa, &0x023Arrc.b EDE_239 ;# RRC ({C=0, mem1c=0x3225} => {mem1c=0x1925, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3325, &0x023Amov #0xaaaa, &0x023Crrc.b EDE_23B ;# RRC ({C=0, mem1d=0x3325} => {mem1d=0x1925, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3225, &0x023Cmov #0xaaaa, &0x023Errc.b EDE_23D ;# RRC ({C=1, mem1e=0x3225} => {mem1e=0x9925, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3325, &0x023Emov #0xaaaa, &0x0240rrc.b EDE_23F ;# RRC ({C=1, mem1f=0x3325} => {mem1f=0x9925, C=1})mov r2, r11mov #0xC001, r15# Addressing mode: &EDE (Low Byte)#----------------------------------.set aEDE_240, 0x0240.set aEDE_242, 0x0242.set aEDE_244, 0x0244.set aEDE_246, 0x0246mov #0x0000, r2 ;# Test 1mov #0x2532, &0x0240mov #0xaaaa, &0x0242rrc.b &aEDE_240 ;# RRC ({C=0, mem20=0x2532} => {mem20=0x2519, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x2533, &0x0242mov #0xaaaa, &0x0244rrc.b &aEDE_242 ;# RRC ({C=0, mem21=0x2533} => {mem21=0x2519, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x2532, &0x0244mov #0xaaaa, &0x0246rrc.b &aEDE_244 ;# RRC ({C=1, mem22=0x2532} => {mem22=0x2599, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x2533, &0x0246mov #0xaaaa, &0x0248rrc.b &aEDE_246 ;# RRC ({C=1, mem23=0x2533} => {mem23=0x2599, C=1})mov r2, r11mov #0xD000, r15# Addressing mode: &EDE (High Byte)#-----------------------------------.set aEDE_249, 0x0249.set aEDE_24B, 0x024B.set aEDE_24D, 0x024D.set aEDE_24F, 0x024Fmov #0x0000, r2 ;# Test 1mov #0x3225, &0x0248mov #0xaaaa, &0x024Arrc.b &aEDE_249 ;# RRC ({C=0, mem24=0x3225} => {mem24=0x1925, C=0})mov r2, r5mov #0x0000, r2 ;# Test 2mov #0x3325, &0x024Amov #0xaaaa, &0x024Crrc.b &aEDE_24B ;# RRC ({C=0, mem25=0x3325} => {mem25=0x1925, C=1})mov r2, r7mov #0x0001, r2 ;# Test 3mov #0x3225, &0x024Cmov #0xaaaa, &0x024Errc.b &aEDE_24D ;# RRC ({C=1, mem26=0x3225} => {mem26=0x9925, C=0})mov r2, r9mov #0x0001, r2 ;# Test 4mov #0x3325, &0x024Emov #0xaaaa, &0x0250rrc.b &aEDE_24F ;# RRC ({C=1, mem27=0x3325} => {mem27=0x9925, C=1})mov r2, r11mov #0xD001, r15/* ---------------------- END OF TEST --------------- */end_of_test:nopbr #0xffff/* ---------------------- INTERRUPT VECTORS --------------- */.section .vectors, "a".word end_of_test ; Interrupt 0 (lowest priority) <unused>.word end_of_test ; Interrupt 1 <unused>.word end_of_test ; Interrupt 2 <unused>.word end_of_test ; Interrupt 3 <unused>.word end_of_test ; Interrupt 4 <unused>.word end_of_test ; Interrupt 5 <unused>.word end_of_test ; Interrupt 6 <unused>.word end_of_test ; Interrupt 7 <unused>.word end_of_test ; Interrupt 8 <unused>.word end_of_test ; Interrupt 9 <unused>.word end_of_test ; Interrupt 10 Watchdog timer.word end_of_test ; Interrupt 11 <unused>.word end_of_test ; Interrupt 12 <unused>.word end_of_test ; Interrupt 13 <unused>.word end_of_test ; Interrupt 14 NMI.word main ; Interrupt 15 (highest priority) RESET
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