- Compilers now optimize code for out-of-order execution. The same C++ code can be compiled to different assembly code.
- So, try not to leave any space for an optimization :-)

Here are two the version of fun4:

```
void fun4_a(vector <uint8_t> &a, uint8_t num) {
size_t n = a.size();
f1: if (n <= 0) goto f2;
a[--n] += num;
goto f1;
f2: return;
}
void fun4_b(vector <uint8_t> &a, uint8_t num) {
size_t n = a.size();
while (n > 0) a[--n] += num;
}
```

You can run it on godbolt.

Compiler x86_64 gcc 9.1 produced the same assembly for fun4_a and fun4_b but still unrolled one 'add' loop:

```
fun4_a(std::vector<unsigned char, std::allocator<unsigned char> >&, unsigned char):
mov rdx, QWORD PTR [rdi]
mov rax, QWORD PTR [rdi+8]
mov ecx, esi
sub rax, rdx
je .L1
sub rax, 1
add BYTE PTR [rdx+rax], sil
test rax, rax
je .L1
.L3:
mov rdx, QWORD PTR [rdi]
sub rax, 1
add rdx, rax
add BYTE PTR [rdx], cl
test rax, rax
jne .L3
.L1:
```

While compiler x86-64 icc 19.0.1 decided to produce more optimizations for fun4_b:

```
fun4_a(std::vector<unsigned char, std::allocator<unsigned char> >&, unsigned char):
mov rcx, QWORD PTR [8+rdi] #806.26
mov rdx, rcx #806.26
mov rax, QWORD PTR [rdi] #806.52
sub rdx, rax #806.26
je ..B1.6 # Prob 18% #10.14
xor eax, eax #10.5
..B1.3: # Preds ..B1.4 ..B1.2
inc rax #10.5
mov r8, rcx #9.11
lea r9, QWORD PTR [rax+rax] #9.11
sub r8, r9 #9.11
neg r9 #9.11
add r9, rdx #9.11
mov rdi, r9 #9.11
add BYTE PTR [1+r8], sil #11.3
inc rdi #9.11
je ..B1.6 # Prob 18% #10.14
add BYTE PTR [r8], sil #11.3
test r9, r9 #10.14
jne ..B1.3 # Prob 82% #10.14
..B1.6: # Preds ..B1.3 ..B1.4 ..B1.1
ret #13.5
fun4_b(std::vector<unsigned char, std::allocator<unsigned char> >&, unsigned char):
mov r8d, esi #16.47
mov rsi, QWORD PTR [rdi] #806.52
mov rcx, QWORD PTR [8+rdi] #806.26
sub rcx, rsi #806.26
je ..B2.17 # Prob 50% #18.16
cmp rcx, 16 #18.5
jb ..B2.18 # Prob 10% #18.5
mov rdx, rsi #18.5
and rdx, 15 #18.5
je ..B2.9 # Prob 50% #18.5
mov rax, rdx #18.5
neg rax #18.5
lea rdx, QWORD PTR [16+rax] #18.5
add rax, 32 #18.5
cmp rcx, rax #18.5
jb ..B2.18 # Prob 10% #18.5
mov rax, rcx #18.5
xor r10d, r10d #18.5
sub rax, rdx #18.5
mov r9, rsi #18.5
and rax, 15 #18.5
neg rax #18.5
add rax, rcx #18.5
mov edi, r8d #18.20
..B2.7: # Preds ..B2.7 ..B2.6
inc r10 #18.5
add BYTE PTR [r9], dil #18.20
inc r9 #18.5
cmp r10, rdx #18.5
jb ..B2.7 # Prob 82% #18.5
jmp ..B2.10 # Prob 100% #18.5
..B2.9: # Preds ..B2.3
mov rax, rcx #18.5
and rax, 15 #18.5
neg rax #18.5
add rax, rcx #18.5
..B2.10: # Preds ..B2.7 ..B2.9
movzx edi, r8b #18.29
movd xmm0, edi #18.29
punpcklbw xmm0, xmm0 #18.29
punpcklwd xmm0, xmm0 #18.29
punpckldq xmm0, xmm0 #18.29
punpcklqdq xmm0, xmm0 #18.29
..B2.11: # Preds ..B2.11 ..B2.10
movdqu xmm1, XMMWORD PTR [rsi+rdx] #18.20
paddb xmm1, xmm0 #18.20
movdqu XMMWORD PTR [rdx+rsi], xmm1 #18.20
add rdx, 16 #18.5
cmp rdx, rax #18.5
jb ..B2.11 # Prob 82% #18.5
..B2.13: # Preds ..B2.11 ..B2.18
add rsi, rax #18.5
cmp rax, rcx #18.5
jae ..B2.17 # Prob 9% #18.5
..B2.15: # Preds ..B2.13 ..B2.15
inc rax #18.5
add BYTE PTR [rsi], r8b #18.20
inc rsi #18.5
cmp rax, rcx #18.5
jb ..B2.15 # Prob 82% #18.5
..B2.17: # Preds ..B2.15 ..B2.1 ..B2.13
ret #19.1
..B2.18: # Preds ..B2.2 ..B2.4
xor eax, eax #18.5
jmp ..B2.13 # Prob 100% #18.5
```

`char`

(and as extend`uint8_t`

). they are less "strict" with aliasing. uint32_t demo are more similar.`char*`

might alias any pointer, making optimization harder. (as you said`a.size()`

might have changed in`func4`

, with aliasing, it is worst)`a.data()`

might point to other variable.3more comments