### What to do

For 32-bit / 32-bit => 32-bit division: zero- or sign-extend the 32-bit dividend from EAX into 64-bit EDX:EAX.

For 16-bit, AX into DX:AX with `cwd`

or xor-zeroing.

- unsigned:
`XOR EDX,EDX`

then `DIV divisor`

- signed:
`CDQ`

then `IDIV divisor`

See also When and why do we sign extend and use cdq with mul/div?

### Why (TL;DR)

For `DIV`

, the registers `EDX`

and `EAX`

form one single 64 bit value (often shown as `EDX:EAX`

), which is then divided, in this case, by `EBX`

.

So if `EAX`

= `10`

or hex `A`

and `EDX`

is, say `20`

or hex `14`

, then together they form the 64 bit value hex `14 0000 000A`

or decimal `85899345930`

. If this is divided by `5`

, the result is `17179869186`

or hex

`4 0000 0002`

, **which is a value that does not fit in 32 bits**.

**That is why you get an integer overflow.**

If, however, `EDX`

were only `1`

, you would divide hex `1 0000 000A`

by `5`

, which results in hex

`3333 3335`

. That is not the value you wanted, but it does not cause an integer overflow.

To really divide 32 bit register `EAX`

by another 32 bit register, take care that the top of the 64 bit value formed by `EDX:EAX`

is `0`

.

So, **before** a single division, you should *generally* set `EDX`

to `0`

.

(Or for signed division, `cdq`

to sign extend `EAX`

into `EDX:EAX`

before `idiv`

)

But `EDX`

does not have always have to be `0`

. It can just not be that big that the result causes an overflow.

One example from my `BigInteger`

code:

After a division with `DIV`

, the quotient is in `EAX`

and the remainder is in `EDX`

. To divide something like a `BigInteger`

, which consists of an array of many `DWORDS`

, by `10`

(for instance to convert the value to a decimal string), you do something like the following:

```
; ECX contains number of "limbs" (DWORDs) to divide by 10
XOR EDX,EDX ; before start of loop, set EDX to 0
MOV EBX,10
LEA ESI,[EDI + 4*ECX - 4] ; now points to top element of array
@DivLoop:
MOV EAX,[ESI]
DIV EBX ; divide EDX:EAX by EBX. After that,
; quotient in EAX, remainder in EDX
MOV [ESI],EAX
SUB ESI,4 ; remainder in EDX is re-used as top DWORD...
DEC ECX ; ... for the next iteration, and is NOT set to 0.
JNE @DivLoop
```

After that loop, the value represented by the entire array (i.e. by the `BigInteger`

) is divided by `10`

, and `EDX`

contains the remainder of that division.

*FWIW, in the assembler I use (Delphi's built-in assembler), labels starting with *`@`

are local to the function, i.e. they don't interfere with equally named labels in other functions.

`div bl`

(16b / 8b => 8b), using AX (not DL:AL). 8086 assembly on DOSBox: Bug with idiv instruction?2more comments