There are 1,114,112 code points in Unicode. The Unicode standard assigns to each code point the property gc, General Category. If the value of this property is anything but Cs, Co, or Cn, then the code point is assigned to a character. (Code points with gc equal to Co are Private Use code points, to which no character is assigned, but they may be used for characters by private agreements.)
What you would need to do is to get a copy of some relevant files in the Unicode character database (just a collection of files in specific formats, really) and write code that reads it and generates information about assigned code points. For the purposes of printing all Unicode characters, it might be best to generate the information as an array of ranges of assigned codepoints. And this would need to be repeated when the standard is updated with new characters.
Even the rest isn’t trivial. You would need to decide what it means to print a character. Some characters are control characters that may have an effect such as causing a newline, but lacking a visible glyph. Some (spaces) have empty glyphs. Some (combining marks) are meant to be rendered as marks attached to preceding character, though they have conventional renderings as “standalone” characters, too. Some are meant to take essentially different shapes depending on nearest context; they may have isolated forms, too, but just writing a character after another by no means guarantees that an isolated form is used.
Then there’s the problem of fonts. No single font can contain all Unicode characters, so you would need to find a collection of fonts that cover all of Unicode when used together, preferably so that they stylistically match somehow.
So if you are just looking for a compilation of all printable Unicode characters, consider using the Unicode code charts.