URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [gnu-old/] [gdb-6.8/] [sim/] [testsuite/] [sim/] [h8300/] [xorb.s] - Rev 840
Compare with Previous | Blame | View Log
# Hitachi H8 testcase 'xor.b' # mach(): all # as(h8300): --defsym sim_cpu=0 # as(h8300h): --defsym sim_cpu=1 # as(h8300s): --defsym sim_cpu=2 # as(h8sx): --defsym sim_cpu=3 # ld(h8300h): -m h8300helf # ld(h8300s): -m h8300self # ld(h8sx): -m h8300sxelf .include "testutils.inc" # Instructions tested: # xor.b #xx:8, rd ; d rd xxxxxxxx # xor.b #xx:8, @erd ; 7 d rd ???? d ???? xxxxxxxx # xor.b #xx:8, @erd+ ; 0 1 7 4 6 c rd 1??? d ???? xxxxxxxx # xor.b #xx:8, @erd- ; 0 1 7 6 6 c rd 1??? d ???? xxxxxxxx # xor.b #xx:8, @+erd ; 0 1 7 5 6 c rd 1??? d ???? xxxxxxxx # xor.b #xx:8, @-erd ; 0 1 7 7 6 c rd 1??? d ???? xxxxxxxx # xor.b rs, rd ; 1 5 rs rd # xor.b reg8, @erd ; 7 d rd ???? 1 5 rs ???? # xor.b reg8, @erd+ ; 0 1 7 9 8 rd 5 rs # xor.b reg8, @erd- ; 0 1 7 9 a rd 5 rs # xor.b reg8, @+erd ; 0 1 7 9 9 rd 5 rs # xor.b reg8, @-erd ; 0 1 7 9 b rd 5 rs # # xorc #xx:8, ccr ; # xorc #xx:8, exr ; # Coming soon: # ... .data pre_byte: .byte 0 byte_dest: .byte 0xa5 post_byte: .byte 0 start xor_b_imm8_reg: set_grs_a5a5 ; Fill all general regs with a fixed pattern ;; fixme set ccr ;; xor.b #xx:8,Rd xor.b #0xff, r0l ; Immediate 8-bit operand ;; fixme test ccr ; H=0 N=1 Z=0 V=0 C=0 test_h_gr16 0xa55a r0 ; xor result: a5 ^ ff .if (sim_cpu) ; non-zero means h8300h, s, or sx test_h_gr32 0xa5a5a55a er0 ; xor result: a5 ^ ff .endif test_gr_a5a5 1 ; Make sure other general regs not disturbed test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 .if (sim_cpu == h8sx) xor_b_imm8_rdind: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xor.b #xx:8,@eRd mov #byte_dest, er0 xor.b #0xff:8, @er0 ; Immediate 8-bit src, reg indirect dst ;;; .word 0x7d00 ;;; .word 0xd0ff test_carry_clear ; H=0 N=0 Z=0 V=0 C=0 test_ovf_clear test_zero_clear test_neg_clear test_h_gr32 byte_dest, er0 ; er0 still contains address test_gr_a5a5 1 ; Make sure other general regs not disturbed test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 ;; Now check the result of the xor to memory. sub.b r0l, r0l mov.b @byte_dest, r0l cmp.b #0x5a, r0l beq .L1 fail .L1: xor_b_imm8_postinc: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xor.b #xx:8,@eRd+ mov #byte_dest, er0 xor.b #0xff:8, @er0+ ; Immediate 8-bit src, reg indirect dst ;;; .word 0x0174 ;;; .word 0x6c08 ;;; .word 0xd0ff test_carry_clear ; H=0 N=1 Z=0 V=0 C=0 test_ovf_clear test_zero_clear test_neg_set test_h_gr32 post_byte, er0 ; er0 contains address plus one test_gr_a5a5 1 ; Make sure other general regs not disturbed test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 ;; Now check the result of the xor to memory. sub.b r0l, r0l mov.b @byte_dest, r0l cmp.b #0xa5, r0l beq .L2 fail .L2: xor_b_imm8_rdpostdec: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xor.b #xx:8,@eRd- mov #byte_dest, er0 xor.b #0xff:8, @er0- ; Immediate 8-bit src, reg indirect dst ;;; .word 0x0176 ;;; .word 0x6c08 ;;; .word 0xd0ff test_carry_clear ; H=0 N=0 Z=0 V=0 C=0 test_ovf_clear test_zero_clear test_neg_clear test_h_gr32 pre_byte, er0 ; er0 contains address minus one test_gr_a5a5 1 ; Make sure other general regs not disturbed test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 ;; Now check the result of the xor to memory. sub.b r0l, r0l mov.b @byte_dest, r0l cmp.b #0x5a, r0l beq .L3 fail .L3: .endif xor_b_reg8_reg8: set_grs_a5a5 ; Fill all general regs with a fixed pattern ;; fixme set ccr ;; xor.b Rs,Rd mov.b #0xff, r0h xor.b r0h, r0l ; Register operand ;; fixme test ccr ; H=0 N=1 Z=0 V=0 C=0 test_h_gr16 0xff5a r0 ; xor result: a5 ^ ff .if (sim_cpu) ; non-zero means h8300h, s, or sx test_h_gr32 0xa5a5ff5a er0 ; xor result: a5 ^ ff .endif test_gr_a5a5 1 ; Make sure other general regs not disturbed test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 .if (sim_cpu == h8sx) xor_b_reg8_rdind: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xor.b rs8,@eRd ; xor reg8 to register indirect mov #byte_dest, er0 mov #0xff, r1l xor.b r1l, @er0 ; reg8 src, reg indirect dest ;;; .word 0x7d00 ;;; .word 0x1590 test_carry_clear ; H=0 N=1 Z=0 V=0 C=0 test_ovf_clear test_zero_clear test_neg_set test_h_gr32 byte_dest er0 ; er0 still contains address test_h_gr32 0xa5a5a5ff er1 ; er1 has the test load test_gr_a5a5 2 ; Make sure other general regs not disturbed test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 ;; Now check the result of the or to memory. sub.b r0l, r0l mov.b @byte_dest, r0l cmp.b #0xa5, r0l beq .L4 fail .L4: xor_b_reg8_rdpostinc: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xor.b rs8,@eRd+ ; xor reg8 to register post-increment mov #byte_dest, er0 mov #0xff, r1l xor.b r1l, @er0+ ; reg8 src, reg post-increment dest ;;; .word 0x0179 ;;; .word 0x8059 test_carry_clear ; H=0 N=0 Z=0 V=0 C=0 test_ovf_clear test_zero_clear test_neg_clear test_h_gr32 post_byte er0 ; er0 contains address plus one test_h_gr32 0xa5a5a5ff er1 ; er1 has the test load test_gr_a5a5 2 ; Make sure other general regs not disturbed test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 ;; Now check the result of the or to memory. sub.b r0l, r0l mov.b @byte_dest, r0l cmp.b #0x5a, r0l beq .L5 fail .L5: xor_b_reg8_rdpostdec: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xor.b rs8,@eRd- ; xor reg8 to register post-decrement mov #byte_dest, er0 mov #0xff, r1l xor.b r1l, @er0- ; reg8 src, reg indirect dest ;;; .word 0x0179 ;;; .word 0xa059 test_carry_clear ; H=0 N=1 Z=0 V=0 C=0 test_ovf_clear test_zero_clear test_neg_set test_h_gr32 pre_byte er0 ; er0 contains address minus one test_h_gr32 0xa5a5a5ff er1 ; er1 has the test load test_gr_a5a5 2 ; Make sure other general regs not disturbed test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 ;; Now check the result of the or to memory. sub.b r0l, r0l mov.b @byte_dest, r0l cmp.b #0xa5, r0l beq .L6 fail .L6: .endif ; h8sx xorc_imm8_ccr: set_grs_a5a5 ; Fill all general regs with a fixed pattern set_ccr_zero ;; xorc #xx:8,ccr test_neg_clear xorc #0x8, ccr ; Immediate 8-bit operand (neg flag) test_neg_set xorc #0x8, ccr test_neg_clear test_zero_clear xorc #0x4, ccr ; Immediate 8-bit operand (zero flag) test_zero_set xorc #0x4, ccr test_zero_clear test_ovf_clear xorc #0x2, ccr ; Immediate 8-bit operand (overflow flag) test_ovf_set xorc #0x2, ccr test_ovf_clear test_carry_clear xorc #0x1, ccr ; Immediate 8-bit operand (carry flag) test_carry_set xorc #0x1, ccr test_carry_clear test_gr_a5a5 0 ; Make sure other general regs not disturbed test_gr_a5a5 1 test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 .if (sim_cpu == h8300s || sim_cpu == h8sx) ; Earlier versions, no exr xorc_imm8_exr: set_grs_a5a5 ; Fill all general regs with a fixed pattern ldc #0, exr stc exr, r0l test_h_gr8 0, r0l set_ccr_zero ;; xorc #xx:8,exr xorc #0x80, exr test_cc_clear stc exr, r0l test_h_gr8 0x80, r0l xorc #0x80, exr stc exr, r0l test_h_gr8 0, r0l xorc #0x4, exr stc exr, r0l test_h_gr8 4, r0l xorc #0x4, exr stc exr, r0l test_h_gr8 0, r0l xorc #0x2, exr ; Immediate 8-bit operand (overflow flag) stc exr, r0l test_h_gr8 2, r0l xorc #0x2, exr stc exr, r0l test_h_gr8 0, r0l xorc #0x1, exr ; Immediate 8-bit operand (carry flag) stc exr, r0l test_h_gr8 1, r0l xorc #0x1, exr stc exr, r0l test_h_gr8 0, r0l test_h_gr32 0xa5a5a500 er0 test_gr_a5a5 1 ; Make sure other general regs not disturbed test_gr_a5a5 2 test_gr_a5a5 3 test_gr_a5a5 4 test_gr_a5a5 5 test_gr_a5a5 6 test_gr_a5a5 7 .endif ; not h8300 or h8300h pass exit 0