System.in is an InputStream (i.e. a stream) associated with the
stdin (a file descriptor that comes standard with an operating system process) of the JVM process that runs your program on the given operating system.
What is happening under the hood is quite eloquently described in the seminal work Advanced programming in Unix Environment by Stevens and Rago. Basically, the Java implementation delegates to the standard I/O library (written/ported by Dennis Ritchie some 40 years ago!) implementation on your operating system.
Two characteristics of the standard I/O library are of essence:
- It deals with streams, rather than files.
- It provides buffering, an intermediate place in the RAM of your computer that is utilized before the input stream is read from or the output stream is written to.
The standard I/O library chooses the defaults for the buffer carefully and the whole thrust is to minimize the number of
write system calls thereby reducing the CPU time required to carry out the I/O operation. Based on how the buffering occurs, there are three flavors of the streams: fully-buffered, line-buffered and unbuffered.
Now, in the above book, following appears in section 5.4:
Most implementations default to the following types of buffering:
Standard error is always unbuffered. All other streams are line
buffered if they refer to a terminal device; otherwise, they are fully
buffered. The four platforms discussed in this book follow these
conventions for standard I/O buffering: standard error is unbuffered,
streams open to terminal devices are line buffered, and all other
streams are fully buffered.
This means that the standard input, by default, is going to be blocked (as if nothing happens) till you press the newline character. If you redirect the input from a file (e.g.
java MyProgram < foo.txt) then you are reading from a stream that is fully-buffered by default.
There are some low-level details here, but when the program reads from the terminal device, it blocks for the newline character or EOF character to be pressed to flush the buffer. When reading from a file, since the stream is fully buffered, you don't notice that as the buffer is filled and flushed by the time your program starts reading it. When an EOF is read, in both cases,
hasNext() returns false.