For example,
int result;
result = 125/100;
or
result = 43/100;
Will result always be the floor of the division? What is the defined behavior?
Will result always be the floor of the division? What is the defined behavior?
Not quite. It truncates toward 0, rather than flooring.
6.5.5 Multiplicative operators
6 When integers are divided, the result of the / operator is the algebraic quotient with any fractional part discarded.^{88)} If the quotient a/b is representable, the expression (a/b)*b + a%b shall equal a.
and the corresponding footnote:
- This is often called ‘‘truncation toward zero’’.
Of course two points to note are:
3 The usual arithmetic conversions are performed on the operands.
and:
5 The result of the / operator is the quotient from the division of the first operand by the second; the result of the % operator is the remainder. In both operations, if the value of the second operand is zero, the behavior is undefined.
[Note: Emphasis mine]
(a / b) * b + a % b == a
had to be satisfied, and the absolute value of a % b
had to be less than a
, but whether a % b
was negative for negative a
or b
was not specified.
Commented
Aug 30, 2010 at 21:28
Dirkgently gives an excellent description of integer division in C99, but you should also know that in C89 integer division with a negative operand has an implementation-defined direction.
From the ANSI C draft (3.3.5):
If either operand is negative, whether the result of the / operator is the largest integer less than the algebraic quotient or the smallest integer greater than the algebraic quotient is implementation-defined, as is the sign of the result of the % operator. If the quotient a/b is representable, the expression (a/b)*b + a%b shall equal a.
So watch out with negative numbers when you are stuck with a C89 compiler.
It's a fun fact that C99 chose truncation towards zero because that was how FORTRAN did it. See this message on comp.std.c.
reliable integer division
as a new language feature. Amazing *-*
.
Commented
Sep 11, 2016 at 8:24
expr1 / expr2
and expr1 % expr2
must be consistent with each other when both instances of expr1
combine the same objects in the same way, and likewise for expr2
, but the choice of truncating versus floored division is otherwise Unspecified. That would have allowed more efficient code generation without breaking much compatibility (and implementations could document specific behavior if inclined)
Yes, the result is always truncated towards zero. It will round towards the smallest absolute value.
-5 / 2 = -2
5 / 2 = 2
For unsigned and non-negative signed values, this is the same as floor (rounding towards -Infinity).
Where the result is negative, C truncates towards 0 rather than flooring - I learnt this reading about why Python integer division always floors here: Why Python's Integer Division Floors
filtered = (k - 1) * filtered + value + carry; carry = filtered % factor; filtered /= factor
, iterated with changing values of value
. It makes a nice integer approximation to a first-order lowpass filter with time constant k
... but it's only symmetric if division is truncating and carry
gets negative values. Both behaviors for division come in handy from time to time.
div
is a floored division operator and factor
is odd, then filtered += (filter+(factor div 2)) div factor
would yield clean and symmetrical behavior for all values up to INT_MAX-(factor div 2)
.
Will result always be the floor of the division?
No. The result varies, but variation happens only for negative values.
What is the defined behavior?
To make it clear floor rounds towards negative infinity,while integer division rounds towards zero (truncates)
For positive values they are the same
int integerDivisionResultPositive= 125/100;//= 1
double flooringResultPositive= floor(125.0/100.0);//=1.0
For negative value this is different
int integerDivisionResultNegative= -125/100;//=-1
double flooringResultNegative= floor(-125.0/100.0);//=-2.0
I know people have answered your question but in layman terms:
5 / 2 = 2
//since both 5 and 2 are integers and integers division always truncates decimals
5.0 / 2 or 5 / 2.0 or 5.0 /2.0 = 2.5
//here either 5 or 2 or both has decimal hence the quotient you will get will be in decimal.
"I just throw the dam fraction part in the trash and move on with life"