scanf function works this way per the specification:
An input item shall be defined as the longest sequence of input bytes (up to any specified maximum field width, which may be measured in characters or bytes dependent on the conversion specifier) which is an initial subsequence of a matching sequence. [Emphasis added.]
In your example, the following C string represents the contents of stdin when the first
scanf call requests input:
For this initial call, your format string consists of a single specifier,
%d, which represents an integer. That means that the function will read as many bytes as possible from stdin which satisfy the definition of an integer. In your example, that's just
4, leaving stdin to contain
".4\n" (if this is confusing for you, you might want to check out what an integer is).
The second call to
scanf does not request any additional input from the user because stdin already contains
".4\n" as shown above. Using the format string
%f attempts to read a floating-point number from the current value of stdin. The number it reads is
.4 (per the specification,
scanf disregards whitespace like
\n in most cases).
To fully answer your question, the problem is not that you're misusing
scanf, but rather that there's a mismatch between what you're inputting and how you're expecting
scanf to behave.
If you want to guarantee that people can't mess up the input like that, I would recommend using
strtod in conjunction with