The compiler almost certainly figures it out so that there's no run-time performance penalty.
Reasons to be explicit are to avoid compiler warnings about implicit conversions, to avoid conversions that may behave unexpectedly, and for a specific types to be deduced in a type deduction context or to force a specific overload to be called.
Here's an example where the source wants to express a value as a fraction, but gets the wrong value because the literals are the wrong type:
float a = 3/4; // produces 0.0f instead of 0.75f
Here's a warning caused by an implicit conversion:
tmp.cpp:4:15: warning: implicit conversion loses floating-point precision:
'double' to 'float' [-Wconversion]
float a = 0.1;
~ ^~~
Here's a case of ambiguous overload error caused by not being specific:
tmp.cpp:6:5: error: call to 'foo' is ambiguous
foo(1);
^~~
tmp.cpp:2:6: note: candidate function
void foo(unsigned char a);
^
tmp.cpp:3:6: note: candidate function
void foo(float b);
^
1.f
or even just1.
to make it adouble
for floating point calculation instead of integer arithmetic.1.0f
would be float,1.0
would be double. No advantage as far as I know.