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I'm reading textbook that says this:

C++ treats all floating-point numbers you type in a program's source code (such as 7.33 and 0.0975) as double values by default.

I find this a bit odd and have never heard of it. Seems wasteful? Why get extra precision if you don't specify it? Why have two different types that mean the same thing? What about a long double?

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What's the book? – doctorlove Jun 25 '13 at 8:20
@doctorlove:…. – Oliver Charlesworth Jun 25 '13 at 8:21
double d = 7.33; float f = 7.33f; – gx_ Jun 25 '13 at 8:22
The quote is very misleading. 12.3f is a floating point number you can type in a program's source code, and it is float. – juanchopanza Jun 25 '13 at 8:23
+1 because it is not your fault, it is a misleading text on that book. – Theraot Jun 25 '13 at 8:26
up vote 7 down vote accepted

This is referring to floating-point literals only.

This is the same as saying that any integer number you write in code is always treated as a (signed) int. As soon as you assign this to a variable, you will get the type of the variable.

However, when using standalone literals in computation you will get the type of the literal for that computation, potentially triggering implicit type conversions:

float f = 3.141;    // f is of type float, even though the literal was double
auto d = f * 2.0;   // d will be of type double because of the literal 2.0
auto f2 = f * 2.0f; // f2 will be of type float again

The computation on the second line involves two different types: The type of the variable f is float. Even though it was constructed from a double literal, the type of the variable is what counts. The type of the literal 2.0 on the other hand is double and hence triggers an implicit conversion for the computation. The actual multiplication is therefore performed as a multiplication of two doubles.

If you want a standalone value to have a specific type, use the matching literal.

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Or you can make the int unsigned with the 'u' suffix - if I'm not wrong, long time no C++. – Theraot Jun 25 '13 at 8:29
Exactly. There's quite a number of suffixes for the different literals. In C++11 you can even define your own. – ComicSansMS Jun 25 '13 at 8:32

This is a part of language specification. If you want a double, write:

auto a = 12.3;

If you want a float, write:

auto a = 12.3f;

If you want a long double, write:

auto a = 12.3L;

Source: MSDN

The whole topic is extensively described in C++ standard in chapter 2.14 Literals.

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@OliCharlesworth: Lets change it to auto a = then – PlasmaHH Jun 25 '13 at 8:21
As you wish, then. – Spook Jun 25 '13 at 8:22
@Spook Hey, I added a comparison with integral types for illustration :) I thought it would be better than copying your answer and adding it there. Feel free to remove it altogether or edit it heavily, though! (Also, I wasn't warned about your previous edit. Didn't SO use to warn about overwriting other people's edits?) – Magnus Hoff Jun 25 '13 at 8:24
@MagnusHoff: I don't think your edit was correct; char operands are promoted to int when being divided, so your two snippets would give the same result. – Oliver Charlesworth Jun 25 '13 at 8:31
@OliCharlesworth I'm not good at quoting the standard, but both g++ 4.2.1 and clang++ 4.0 give the results I posted (150 and 22) – Magnus Hoff Jun 25 '13 at 8:33

I actually think the text in the book is correct. I'm paraphrasing a little bit:

By default a floating point valud, such as 12.3 is a double.

In other words, if you don't add the letter "f" at the end of the number, to make it 12.3f, it is indeed a double.

Most of the time (if floating point calculations are just a small part of the code), this makes little difference, but if you have floating point variables, and use double constants for initialization and comparison, there will be an extra conversion from float to double. And of course, the storage needed for the constants will be larger, for example.

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Although one would hope that the compiler would optimise that... – Oliver Charlesworth Jun 25 '13 at 8:32
Is it even ALLOWED to optimize a double to float comparison, for example, into float? Maybe when it's a constant? – Mats Petersson Jun 25 '13 at 8:33
As every float value can be represented exactly with double (at least with IEEE-754), then I would expect that the compiler could optimize e.g. float x = ...; if (x == 3.14) to if (x == 3.14f). There may be some edge-case I'm not considering, though. – Oliver Charlesworth Jun 25 '13 at 8:38

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