... characters are represented as patterns of bits.
On a computer, everything is represented as a pattern of bits: characters, integers, real numbers, and executable code. The eight bits
01000001 could represent the integer
65 (though integers normally take up at least 16 bits), or the letter
A in the ASCII system. There are elaborate ways of keeping track of what is what, it's one of the main responsibilities of the operating system and of high-level programming languages.
printf is one of the rare cases where the programmer has to explicitly tell a function what kind of data is being passed.
I read that in C, char is actually an integer because characters are represented as patterns of bits.
That's not quite right: In C, chars and ints have been distinct types for a very long time. C allows you to use a
char as an
int if you want, by choice of the language designers: the bit pattern is basically used as the corresponding
int. C won't let you use a
float as an
int since the bit pattern would not give you anything useful (the bit pattern for
1.0 looks nothing like the bit pattern for integer
As for the ASCII table, it's embodied in the design of the hardware and software that displays text, and of the programming language functions that manipulate it. A computer font is a mapping from numbers to shapes. or "glyphs". In the simplest case, it maps numbers in the ASCII range (32-126) to the appropriate glyph. (In reality it's often a more indirect route to the same result). Old computer terminals had the glyphs hardwired, while Windows or X11 applications use software fonts.
As for programming languages, a function like
isalpha() just looks up the character code on a table of its properties:
true for the numbers 48-57 (which encode the ASCII digits), and
false for all others. No glyphs are involved.