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I happen to come across some similar kind of programming styles mostly when there is an Float or Double operations.

ratio = 1.0 * (top - bottom) / (right - left);  

All variables involved are float.
What is the significance of having 1.0 multiplied to the result?
As per my thinking multiplying 1.0 is some extra burden.Since the result wont change.

Or is it similar to write an condition having and 1==1.

P.S: There are some situations where in some variables(except ratio) are assigned to non Float/double values as a long or integer.

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What language? What platform? – Oded Dec 16 '11 at 9:58
@Oded Have seen this in C++,Delphi. – Shirish11 Dec 16 '11 at 10:04
real factor 1.0 causes compiler to treat a part of expression as real (which can be integer otherwise), that's all – OnTheFly Dec 16 '11 at 10:25
Split your statement into three-address code to figure out where type conversion might occur. [Aho, Sethi, Ullman] for more details. – OnTheFly Dec 16 '11 at 10:33
@user539484: It does not depend on three-address-code, but rather on the rules of the language (in particular precedence ordering and automatic type conversions/promotions). – phresnel Dec 16 '11 at 10:45

3 Answers 3

up vote 8 down vote accepted


When one or more of the variables top, bottom etc. are of type double then the multiplication by 1.0 is pointless. You should simply remove it since it serves no purpose. When all of the variables are of type float then the multiplication by the double literal 1.0 forces the expression to be evaluated with double precision arithmetic.

On the other hand, when all of the variables are integers, the multiplication by 1.0 forces the calculation to be performed with floating point arithmetic. Without the multiplication the calculation would be performed with integer arithmetic which would yield a different result.

My guess is that the code originally used integers and the 1.0 was needed. At some point in time the code was changed to use floating point variables but the now spurious multiplication was not removed.


If you saw such an expression in Delphi code then you should simply remove the multiplication. The presence of a division operator forces the expression to be evaluated as a floating point expression.

The rules for Delphi expression evaluation are a little different from C and C++. In C and C++ a single symbol, / is used for both integer and floating point division, with the context of the expression determined which form of division is used. In Delphi / is floating point division and div is integer division.

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I think the last part is ambiguous: division is a separate operator in Delphi, div and the / operator always means floating point division. I propose division is a separate operator in Delphi (namely div), the / operator always means floating point division – phresnel Dec 16 '11 at 10:42
Yeah, that's better than my proposal :) – phresnel Dec 16 '11 at 10:45

In C++, the rule of thumb is

If the operation involves a floating type, both operands are converted to the floating type (the result is of floating type)

Keep in mind that operation is very related to operator. And the order of operations is determined by operator precedence.

Precedence of the basic operations in C++ is quite natural w.r.t. maths:

  • *,/ happen before +,-
  • expressions within (, ) happen first

So if you have

float f = 1.0f + 1 / 2;

// then `f` will be `1.0f`, because

int   sub = 1 / 2     ;  // <- an integer division, happens first and gives 0
float f   = 1.0f + sub;  // <- 0 because the division result was evaluated first

The final result is of type float because the last operations is a float + int.

Another example, involving braced expressions:

float f = (1.0f + 1) / 4;

// `f` will be `0.5` this time. The braced expressions happens first:

float sub = 1.0f + 1;  // float + int = float
float f   = sub / 4;   // float / int = float

Here it is important to note that the conversion of 4 to 4.0f happens before the operation, like in this exemplary assembly:

// [mnemomic] [what]+ [target]
fload 1.0f, float_register_0
fload 1,    float_register_1
fadd  float_register_0, float_register_1, float_register_2 // sub is in [2]
fload 4,    float_register_3                               // 4 is in [3]
fdiv  float_register_2, float_register_3, f                // [2]/[3] -> f


If the operation involves a floating type, both operands are converted to the floating type (the result is of floating type)

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In C++, 1.0 is a double, so it would increase the precision of the calculations. It would be clearer to just explicitly cast to double if that's the intention though. It's also not in an ideal place in the expression if this is the intention (top-bottom will be evaluated before the increase in precision).

There could hypothetically be additional reasons for it though, like the constant used to be 2.0 but over time was fine-tuned to 1.0, hiding the original reason for this multiplication. Judging from the calculation you're performing, I don't think this was the case.

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