CHAPTER 24. 64-BIT VALUES IN 32-BIT ENVIRONMENT CHAPTER 24. 64-BIT VALUES IN 32-BIT ENVIRONMENT
f_sub PROC
SUBS r0,r0,r2
SBC r1,r1,r3
BX lr
ENDP
f_add_test PROC
PUSH {r4,lr}
LDR r2,|L0.68| ; 0x75939f79
LDR r3,|L0.72| ; 0x00001555
LDR r0,|L0.76| ; 0x73ce2ff2
LDR r1,|L0.80| ; 0x00000b3a
BL f_add
POP {r4,lr}
MOV r2,r0
MOV r3,r1
ADR r0,|L0.84| ; "%I64d\n"
B __2printf
ENDP
|L0.68|
DCD 0x75939f79
|L0.72|
DCD 0x00001555
|L0.76|
DCD 0x73ce2ff2
|L0.80|
DCD 0x00000b3a
|L0.84|
DCB "%I64d\n",0
The first 64-bit value is passed in R0 and R1 register pair, the second in R2 and R3 register pair. ARM has the ADC instruction
as well (which counts carry flag) and SBC (“subtract with carry”).
Important thing: when the low parts are added/subtracted, ADDS and SUBS instructions with -S suffix are used. The -S
suffix stands for “set flags”, and flags (esp. carry flag) is what consequent ADC/SBC instructions definitely need.
Otherwise, instructions without the -S suffix would do the job (ADD and SUB).
24.2.3 MIPS.
Listing 24.8: Optimizing GCC 4.4.5 (IDA)
f_add:
; $a0 - high part of a
; $a1 - low part of a
; $a2 - high part of b
; $a3 - low part of b
addu $v1, $a3, $a1 ; sum up low parts
addu $a0, $a2, $a0 ; sum up high parts
; will carry generated while summing up low parts?
; if yes, set $v0 to 1
sltu $v0, $v1, $a3
jr $ra
; add 1 to high part of result if carry should be generated:
addu $v0, $a0 ; branch delay slot
; $v0 - high part of result
; $v1 - low part of result
f_sub:
; $a0 - high part of a
; $a1 - low part of a
; $a2 - high part of b
; $a3 - low part of b
subu $v1, $a1, $a3 ; subtract low parts
subu $v0, $a0, $a2 ; subtract high parts
; will carry generated while subtracting low parts?
; if yes, set $a0 to 1