drc: update according to the interpreter (3)

[pcsx_rearmed.git] / libpcsxcore / new_dynarec / linkage_arm.S

/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
 *   linkage_arm.s for PCSX                                                *
 *   Copyright (C) 2009-2011 Ari64                                         *
 *   Copyright (C) 2010-2013 Gražvydas "notaz" Ignotas                     *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 of the License, or     *
 *   (at your option) any later version.                                   *
 *                                                                         *
 *   This program 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 General Public License for more details.                          *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, write to the                         *
 *   Free Software Foundation, Inc.,                                       *
 *   51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.          *
 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */

#include "arm_features.h"
#include "new_dynarec_config.h"
#include "linkage_offsets.h"


#ifdef __MACH__
#define dynarec_local           ESYM(dynarec_local)
#define ndrc_add_jump_out       ESYM(ndrc_add_jump_out)
#define ndrc_try_restore_block  ESYM(ndrc_try_restore_block)
#define ndrc_get_addr_ht        ESYM(ndrc_get_addr_ht)
#define ndrc_get_addr_ht_param  ESYM(ndrc_get_addr_ht_param)
#define ndrc_write_invalidate_one ESYM(ndrc_write_invalidate_one)
#define gen_interupt            ESYM(gen_interupt)
#define gteCheckStallRaw        ESYM(gteCheckStallRaw)
#define psxException            ESYM(psxException)
#endif

        .bss
        .align  4
        .global dynarec_local
        .type   dynarec_local, %object
        .size   dynarec_local, LO_dynarec_local_size
dynarec_local:
        .space  LO_dynarec_local_size

#define DRC_VAR_(name, vname, size_) \
        vname = dynarec_local + LO_##name; \
        .global vname; \
        .type   vname, %object; \
        .size   vname, size_

#define DRC_VAR(name, size_) \
        DRC_VAR_(name, ESYM(name), size_)

DRC_VAR(next_interupt, 4)
DRC_VAR(cycle_count, 4)
DRC_VAR(last_count, 4)
DRC_VAR(pending_exception, 4)
DRC_VAR(stop, 4)
DRC_VAR(branch_target, 4)
DRC_VAR(address, 4)
DRC_VAR(hack_addr, 4)
DRC_VAR(psxRegs, LO_psxRegs_end - LO_psxRegs)

/* psxRegs */
@DRC_VAR(reg, 128)
DRC_VAR(lo, 4)
DRC_VAR(hi, 4)
DRC_VAR(reg_cop0, 128)
DRC_VAR(reg_cop2d, 128)
DRC_VAR(reg_cop2c, 128)
DRC_VAR(pcaddr, 4)
@DRC_VAR(code, 4)
@DRC_VAR(cycle, 4)
@DRC_VAR(interrupt, 4)
@DRC_VAR(intCycle, 256)

DRC_VAR(rcnts, 7*4*4)
DRC_VAR(inv_code_start, 4)
DRC_VAR(inv_code_end, 4)
DRC_VAR(mem_rtab, 4)
DRC_VAR(mem_wtab, 4)
DRC_VAR(psxH_ptr, 4)
DRC_VAR(zeromem_ptr, 4)
DRC_VAR(invc_ptr, 4)
DRC_VAR(scratch_buf_ptr, 4)
DRC_VAR(ram_offset, 4)
DRC_VAR(mini_ht, 256)


        .syntax unified
        .text
        .align  2

#ifndef HAVE_ARMV5
.macro blx rd
        mov     lr, pc
        bx      \rd
.endm
#endif

.macro load_varadr reg var
#if defined(HAVE_ARMV7) && defined(TEXRELS_FORBIDDEN)
        movw    \reg, #:lower16:(\var-(1678f+8))
        movt    \reg, #:upper16:(\var-(1678f+8))
1678:
        add     \reg, pc
#elif defined(HAVE_ARMV7) && !defined(__PIC__)
        movw    \reg, #:lower16:\var
        movt    \reg, #:upper16:\var
#else
        ldr     \reg, =\var
#endif
.endm

.macro load_varadr_ext reg var
#if defined(HAVE_ARMV7) && defined(TEXRELS_FORBIDDEN)
        movw    \reg, #:lower16:(ptr_\var-(1678f+8))
        movt    \reg, #:upper16:(ptr_\var-(1678f+8))
1678:
        ldr     \reg, [pc, \reg]
#else
        load_varadr \reg \var
#endif
.endm

.macro mov_16 reg imm
#ifdef HAVE_ARMV7
        movw    \reg, #\imm
#else
        mov     \reg, #(\imm & 0x00ff)
        orr     \reg, #(\imm & 0xff00)
#endif
.endm

.macro mov_24 reg imm
#ifdef HAVE_ARMV7
        movw    \reg, #(\imm & 0xffff)
        movt    \reg, #(\imm >> 16)
#else
        mov     \reg, #(\imm & 0x0000ff)
        orr     \reg, #(\imm & 0x00ff00)
        orr     \reg, #(\imm & 0xff0000)
#endif
.endm

FUNCTION(dyna_linker):
        /* r0 = virtual target address */
        /* r1 = pointer to an instruction to patch */
#ifndef NO_WRITE_EXEC
        ldr     r7, [r1]
        mov     r4, r0
        add     r6, r7, #2
        mov     r5, r1
        lsl     r6, r6, #8
        /* must not compile - that might expire the caller block */
        mov     r1, #0
        bl      ndrc_get_addr_ht_param

        movs    r8, r0
        beq     0f
        add     r6, r5, r6, asr #6  /* old target */
        teq     r0, r6
        moveq   pc, r0 /* Stale i-cache */
        mov     r0, r4
        mov     r1, r6
        bl      ndrc_add_jump_out

        sub     r2, r8, r5
        and     r1, r7, #0xff000000
        lsl     r2, r2, #6
        sub     r1, r1, #2
        add     r1, r1, r2, lsr #8
        str     r1, [r5]
        mov     pc, r8
0:
        mov     r0, r4
#else
        /* XXX: should be able to do better than this... */
#endif
        bl      ndrc_get_addr_ht
        mov     pc, r0
        .size   dyna_linker, .-dyna_linker

        .align  2
FUNCTION(jump_vaddr_r1):
        mov     r0, r1
        b       jump_vaddr_r0
        .size   jump_vaddr_r1, .-jump_vaddr_r1
FUNCTION(jump_vaddr_r2):
        mov     r0, r2
        b       jump_vaddr_r0
        .size   jump_vaddr_r2, .-jump_vaddr_r2
FUNCTION(jump_vaddr_r3):
        mov     r0, r3
        b       jump_vaddr_r0
        .size   jump_vaddr_r3, .-jump_vaddr_r3
FUNCTION(jump_vaddr_r4):
        mov     r0, r4
        b       jump_vaddr_r0
        .size   jump_vaddr_r4, .-jump_vaddr_r4
FUNCTION(jump_vaddr_r5):
        mov     r0, r5
        b       jump_vaddr_r0
        .size   jump_vaddr_r5, .-jump_vaddr_r5
FUNCTION(jump_vaddr_r6):
        mov     r0, r6
        b       jump_vaddr_r0
        .size   jump_vaddr_r6, .-jump_vaddr_r6
FUNCTION(jump_vaddr_r8):
        mov     r0, r8
        b       jump_vaddr_r0
        .size   jump_vaddr_r8, .-jump_vaddr_r8
FUNCTION(jump_vaddr_r9):
        mov     r0, r9
        b       jump_vaddr_r0
        .size   jump_vaddr_r9, .-jump_vaddr_r9
FUNCTION(jump_vaddr_r10):
        mov     r0, r10
        b       jump_vaddr_r0
        .size   jump_vaddr_r10, .-jump_vaddr_r10
FUNCTION(jump_vaddr_r12):
        mov     r0, r12
        b       jump_vaddr_r0
        .size   jump_vaddr_r12, .-jump_vaddr_r12
FUNCTION(jump_vaddr_r7):
        add     r0, r7, #0
        .size   jump_vaddr_r7, .-jump_vaddr_r7
FUNCTION(jump_vaddr_r0):
        bl      ndrc_get_addr_ht
        mov     pc, r0
        .size   jump_vaddr_r0, .-jump_vaddr_r0

        .align  2
FUNCTION(cc_interrupt):
        ldr     r0, [fp, #LO_last_count]
        mov     r1, #0
        add     r10, r0, r10
        str     r1, [fp, #LO_pending_exception]
        str     r10, [fp, #LO_cycle]            /* PCSX cycles */
        mov     r10, lr

        add     r0, fp, #LO_reg_cop0            /* CP0 */
        bl      gen_interupt
        mov     lr, r10
        ldr     r10, [fp, #LO_cycle]
        ldr     r0, [fp, #LO_next_interupt]
        ldr     r1, [fp, #LO_pending_exception]
        ldr     r2, [fp, #LO_stop]
        str     r0, [fp, #LO_last_count]
        sub     r10, r10, r0
        tst     r2, r2
        ldmfdne sp!, {r4, r5, r6, r7, r8, r9, sl, fp, ip, pc}
        tst     r1, r1
        moveq   pc, lr
        ldr     r0, [fp, #LO_pcaddr]
        bl      ndrc_get_addr_ht
        mov     pc, r0
        .size   cc_interrupt, .-cc_interrupt

        .align  2
FUNCTION(jump_addrerror_ds): /* R3000E_AdEL / R3000E_AdES in r0 */
        str     r1, [fp, #(LO_psxRegs + (34+8)*4)]  /* BadVaddr */
        mov     r1, #1
        b       call_psxException
FUNCTION(jump_addrerror):
        str     r1, [fp, #(LO_psxRegs + (34+8)*4)]  /* BadVaddr */
        mov     r1, #0
        b       call_psxException
FUNCTION(jump_overflow_ds):
        mov     r0, #(12<<2)  /* R3000E_Ov */
        mov     r1, #1
        b       call_psxException
FUNCTION(jump_overflow):
        mov     r0, #(12<<2)
        mov     r1, #0
        b       call_psxException
FUNCTION(jump_break_ds):
        mov     r0, #(9<<2)  /* R3000E_Bp */
        mov     r1, #1
        b       call_psxException
FUNCTION(jump_break):
        mov     r0, #(9<<2)
        mov     r1, #0
        b       call_psxException
FUNCTION(jump_syscall_ds):
        mov     r0, #(8<<2)  /* R3000E_Syscall */
        mov     r1, #2
        b       call_psxException
FUNCTION(jump_syscall):
        mov     r0, #(8<<2)
        mov     r1, #0

call_psxException:
        ldr     r3, [fp, #LO_last_count]
        str     r2, [fp, #LO_pcaddr]
        add     r10, r3, r10
        str     r10, [fp, #LO_cycle]            /* PCSX cycles */
        add     r2, fp, #LO_reg_cop0            /* CP0 */
        bl      psxException

        /* note: psxException might do recursive recompiler call from it's HLE code,
         * so be ready for this */
FUNCTION(jump_to_new_pc):
        ldr     r1, [fp, #LO_next_interupt]
        ldr     r10, [fp, #LO_cycle]
        ldr     r0, [fp, #LO_pcaddr]
        sub     r10, r10, r1
        str     r1, [fp, #LO_last_count]
        bl      ndrc_get_addr_ht
        mov     pc, r0
        .size   jump_to_new_pc, .-jump_to_new_pc

        .align  2
FUNCTION(new_dyna_leave):
        ldr     r0, [fp, #LO_last_count]
        add     r12, fp, #28
        add     r10, r0, r10
        str     r10, [fp, #LO_cycle]
        ldmfd   sp!, {r4, r5, r6, r7, r8, r9, sl, fp, ip, pc}
        .size   new_dyna_leave, .-new_dyna_leave

        .align  2
FUNCTION(invalidate_addr_r0):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        b       invalidate_addr_call
        .size   invalidate_addr_r0, .-invalidate_addr_r0
        .align  2
FUNCTION(invalidate_addr_r1):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r1
        b       invalidate_addr_call
        .size   invalidate_addr_r1, .-invalidate_addr_r1
        .align  2
FUNCTION(invalidate_addr_r2):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r2
        b       invalidate_addr_call
        .size   invalidate_addr_r2, .-invalidate_addr_r2
        .align  2
FUNCTION(invalidate_addr_r3):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r3
        b       invalidate_addr_call
        .size   invalidate_addr_r3, .-invalidate_addr_r3
        .align  2
FUNCTION(invalidate_addr_r4):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r4
        b       invalidate_addr_call
        .size   invalidate_addr_r4, .-invalidate_addr_r4
        .align  2
FUNCTION(invalidate_addr_r5):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r5
        b       invalidate_addr_call
        .size   invalidate_addr_r5, .-invalidate_addr_r5
        .align  2
FUNCTION(invalidate_addr_r6):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r6
        b       invalidate_addr_call
        .size   invalidate_addr_r6, .-invalidate_addr_r6
        .align  2
FUNCTION(invalidate_addr_r7):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r7
        b       invalidate_addr_call
        .size   invalidate_addr_r7, .-invalidate_addr_r7
        .align  2
FUNCTION(invalidate_addr_r8):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r8
        b       invalidate_addr_call
        .size   invalidate_addr_r8, .-invalidate_addr_r8
        .align  2
FUNCTION(invalidate_addr_r9):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r9
        b       invalidate_addr_call
        .size   invalidate_addr_r9, .-invalidate_addr_r9
        .align  2
FUNCTION(invalidate_addr_r10):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r10
        b       invalidate_addr_call
        .size   invalidate_addr_r10, .-invalidate_addr_r10
        .align  2
FUNCTION(invalidate_addr_r12):
        stmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, lr}
        mov     r0, r12
        .size   invalidate_addr_r12, .-invalidate_addr_r12
        .align  2
invalidate_addr_call:
        ldr     r12, [fp, #LO_inv_code_start]
        ldr     lr, [fp, #LO_inv_code_end]
        cmp     r0, r12
        cmpcs   lr, r0
        blcc    ndrc_write_invalidate_one
        ldmia   fp, {r0, r1, r2, r3, EXTRA_UNSAVED_REGS r12, pc}
        .size   invalidate_addr_call, .-invalidate_addr_call

        .align  2
FUNCTION(new_dyna_start):
        /* ip is stored to conform EABI alignment */
        stmfd   sp!, {r4, r5, r6, r7, r8, r9, sl, fp, ip, lr}
        mov     fp, r0 /* dynarec_local */
        ldr     r0, [fp, #LO_pcaddr]
        bl      ndrc_get_addr_ht
        ldr     r1, [fp, #LO_next_interupt]
        ldr     r10, [fp, #LO_cycle]
        str     r1, [fp, #LO_last_count]
        sub     r10, r10, r1
        mov     pc, r0
        .size   new_dyna_start, .-new_dyna_start

/* --------------------------------------- */

.align  2

.macro pcsx_read_mem readop tab_shift
        /* r0 = address, r1 = handler_tab, r2 = cycles */
        lsl     r3, r0, #20
        lsr     r3, #(20+\tab_shift)
        ldr     r12, [fp, #LO_last_count]
        ldr     r1, [r1, r3, lsl #2]
        add     r2, r2, r12
        lsls    r1, #1
.if \tab_shift == 1
        lsl     r3, #1
        \readop r0, [r1, r3]
.else
        \readop r0, [r1, r3, lsl #\tab_shift]
.endif
        movcc   pc, lr
        str     r2, [fp, #LO_cycle]
        bx      r1
.endm

FUNCTION(jump_handler_read8):
        add     r1, #0x1000/4*4 + 0x1000/2*4 @ shift to r8 part
        pcsx_read_mem ldrbcc, 0

FUNCTION(jump_handler_read16):
        add     r1, #0x1000/4*4              @ shift to r16 part
        pcsx_read_mem ldrhcc, 1

FUNCTION(jump_handler_read32):
        pcsx_read_mem ldrcc, 2


.macro memhandler_post
        ldr     r0, [fp, #LO_next_interupt]
        ldr     r2, [fp, #LO_cycle]        @ memhandlers can modify cc, like dma
        str     r0, [fp, #LO_last_count]
        sub     r0, r2, r0
.endm

.macro pcsx_write_mem wrtop tab_shift
        /* r0 = address, r1 = data, r2 = cycles, r3 = handler_tab */
        lsl     r12,r0, #20
        lsr     r12, #(20+\tab_shift)
        ldr     r3, [r3, r12, lsl #2]
        str     r0, [fp, #LO_address]      @ some handlers still need it..
        lsls    r3, #1
        mov     r0, r2                     @ cycle return in case of direct store
.if \tab_shift == 1
        lsl     r12, #1
        \wrtop  r1, [r3, r12]
.else
        \wrtop  r1, [r3, r12, lsl #\tab_shift]
.endif
        movcc   pc, lr
        ldr     r12, [fp, #LO_last_count]
        mov     r0, r1
        add     r2, r2, r12
        str     r2, [fp, #LO_cycle]

        str     lr, [fp, #LO_saved_lr]
        blx     r3
        ldr     lr, [fp, #LO_saved_lr]

        memhandler_post
        bx      lr
.endm

FUNCTION(jump_handler_write8):
        add     r3, #0x1000/4*4 + 0x1000/2*4 @ shift to r8 part
        pcsx_write_mem strbcc, 0

FUNCTION(jump_handler_write16):
        add     r3, #0x1000/4*4              @ shift to r16 part
        pcsx_write_mem strhcc, 1

FUNCTION(jump_handler_write32):
        pcsx_write_mem strcc, 2

FUNCTION(jump_handler_write_h):
        /* r0 = address, r1 = data, r2 = cycles, r3 = handler */
        ldr     r12, [fp, #LO_last_count]
        str     r0, [fp, #LO_address]      @ some handlers still need it..
        add     r2, r2, r12
        mov     r0, r1
        str     r2, [fp, #LO_cycle]

        str     lr, [fp, #LO_saved_lr]
        blx     r3
        ldr     lr, [fp, #LO_saved_lr]

        memhandler_post
        bx      lr

FUNCTION(jump_handle_swl):
        /* r0 = address, r1 = data, r2 = cycles */
        ldr     r3, [fp, #LO_mem_wtab]
        mov     r12,r0,lsr #12
        ldr     r3, [r3, r12, lsl #2]
        lsls    r3, #1
        bcs     jump_handle_swx_interp
        add     r3, r0, r3
        mov     r0, r2
        tst     r3, #2
        beq     101f
        tst     r3, #1
        beq     2f
3:
        str     r1, [r3, #-3]
        bx      lr
2:
        lsr     r2, r1, #8
        lsr     r1, #24
        strh    r2, [r3, #-2]
        strb    r1, [r3]
        bx      lr
101:
        tst     r3, #1
        lsrne   r1, #16         @ 1
        lsreq   r12, r1, #24    @ 0
        strhne  r1, [r3, #-1]
        strbeq  r12, [r3]
        bx      lr

FUNCTION(jump_handle_swr):
        /* r0 = address, r1 = data, r2 = cycles */
        ldr     r3, [fp, #LO_mem_wtab]
        mov     r12,r0,lsr #12
        ldr     r3, [r3, r12, lsl #2]
        lsls    r3, #1
        bcs     jump_handle_swx_interp
        add     r3, r0, r3
        and     r12,r3, #3
        mov     r0, r2
        cmp     r12,#2
        strbgt  r1, [r3]        @ 3
        strheq  r1, [r3]        @ 2
        cmp     r12,#1
        strlt   r1, [r3]        @ 0
        bxne    lr
        lsr     r2, r1, #8      @ 1
        strb    r1, [r3]
        strh    r2, [r3, #1]
        bx      lr

jump_handle_swx_interp: /* almost never happens */
        ldr     r3, [fp, #LO_last_count]
        add     r0, fp, #LO_psxRegs
        add     r2, r3, r2
        str     r2, [fp, #LO_cycle]           /* PCSX cycles */
        bl      execI
        b       jump_to_new_pc

.macro rcntx_read_mode0 num
        /* r0 = address, r2 = cycles */
        ldr     r3, [fp, #LO_rcnts+6*4+7*4*\num] @ cycleStart
        mov     r0, r2, lsl #16
        sub     r0, r0, r3, lsl #16
        lsr     r0, #16
        bx      lr
.endm

FUNCTION(rcnt0_read_count_m0):
        rcntx_read_mode0 0

FUNCTION(rcnt1_read_count_m0):
        rcntx_read_mode0 1

FUNCTION(rcnt2_read_count_m0):
        rcntx_read_mode0 2

FUNCTION(rcnt0_read_count_m1):
        /* r0 = address, r2 = cycles */
        ldr     r3, [fp, #LO_rcnts+6*4+7*4*0] @ cycleStart
        mov_16  r1, 0x3334
        sub     r2, r2, r3
        mul     r0, r1, r2              @ /= 5
        lsr     r0, #16
        bx      lr

FUNCTION(rcnt1_read_count_m1):
        /* r0 = address, r2 = cycles */
        ldr     r3, [fp, #LO_rcnts+6*4+7*4*1]
        mov_24  r1, 0x1e6cde
        sub     r2, r2, r3
        umull   r3, r0, r1, r2          @ ~ /= hsync_cycles, max ~0x1e6cdd
        bx      lr

FUNCTION(rcnt2_read_count_m1):
        /* r0 = address, r2 = cycles */
        ldr     r3, [fp, #LO_rcnts+6*4+7*4*2]
        mov     r0, r2, lsl #16-3
        sub     r0, r0, r3, lsl #16-3
        lsr     r0, #16                 @ /= 8
        bx      lr

FUNCTION(call_gteStall):
        /* r0 = op_cycles, r1 = cycles */
        ldr     r2, [fp, #LO_last_count]
        str     lr, [fp, #LO_saved_lr]
        add     r1, r1, r2
        str     r1, [fp, #LO_cycle]
        add     r1, fp, #LO_psxRegs
        bl      gteCheckStallRaw
        ldr     lr, [fp, #LO_saved_lr]
        add     r10, r10, r0
        bx      lr

#ifdef HAVE_ARMV6

FUNCTION(get_reg):
        ldr     r12, [r0]
        and     r1, r1, #0xff
        ldr     r2, [r0, #4]
        orr     r1, r1, r1, lsl #8
        ldr     r3, [r0, #8]
        orr     r1, r1, r1, lsl #16   @ searched char in every byte
        ldrb    r0, [r0, #12]         @ last byte
        eor     r12, r12, r1
        eor     r2, r2, r1
        eor     r3, r3, r1
        cmp     r0, r1, lsr #24
        mov     r0, #12
        mvn     r1, #0                @ r1=~0
        bxeq    lr
        orr     r3, r3, #0xff000000   @ EXCLUDE_REG
        uadd8   r0, r12, r1           @ add and set GE bits when not 0 (match)
        mov     r12, #0
        sel     r0, r12, r1           @ 0 if no match, else ff in some byte
        uadd8   r2, r2, r1
        sel     r2, r12, r1
        uadd8   r3, r3, r1
        sel     r3, r12, r1
        mov     r12, #3
        clz     r0, r0                @ 0, 8, 16, 24 or 32
        clz     r2, r2
        clz     r3, r3
        sub     r0, r12, r0, lsr #3   @ 3, 2, 1, 0 or -1
        sub     r2, r12, r2, lsr #3
        sub     r3, r12, r3, lsr #3
        orr     r2, r2, #4
        orr     r3, r3, #8
        and     r0, r0, r2
        and     r0, r0, r3
        bx      lr

#endif /* HAVE_ARMV6 */

@ vim:filetype=armasm