In general, desktop applications have to go through the OS to access any resources, from extra memory to hard drives and sound chips.
In an embedded system, the hardware can be accessed directly, usually through a pointer. So to write to a UART register, one would assign the address of the register to a pointer and dereference the pointer.
Many compiler libraries provide support for various platforms and embedded systems. I'm using an IAR compiler for an ARM embedded system and programming with C++. We don't use streams since we don't have terminal I/O.
Edit 1: cout example
For example, to print to the console, via
printf, the compiler provides a library that calls Operating System functions to display the text.
The Operating System function may send the text directly to the console or may pop up a "console window" and send the text to that.
The Console functions convert the text to bitmaps and send the bitmaps to the Graphics Controller.
The Graphics Controller displays the bitmap on the screen.