Look at the grammar for the C language. It's listed, in full, in Appendix A of the standard. The way it works is that you can step through each token in a C program and match them up with the next item in the grammar. At each step you have only a limited number of options, so the interpretation of any given character will depend on the context in which it appears. Inside each rule in the grammar, each line gives a valid alternative for the program to match.
Specifically, if you look for
parameter-list, you will see that it contains an explicit comma. Therefore, whenever the compiler's C parser is in "parameter-list" mode, commas that it finds will be understood as parameter separators, not as comma operators. The same is true for brackets (that can also occur in expressions).
This works because the
parameter-list rule is careful to use
assignment-expression rules, rather than just the plain
expression rule. An
expression can contain commas, whereas an
assignment-expression cannot. If this were not the case the grammar would be ambiguous, and the compiler would not know what to do when it encountered a comma inside a parameter list.
However, an opening bracket, for example, that is not part of a function definition/call, or an
for statement, will be interpreted as part of an expression (because there's no other option, but only if the start of an expression is a valid choice at that point), and then, inside the brackets, the
expression syntax rules will apply, and that allows comma operators.