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In C, why does the dereference operator have lower precedence than the operator? This doesn't really make sense to me, because this:

(*p).abc = 123

could become this:

*p.abc = 123

which would render this not needed:

p->abc = 123

Is there some problem with setting the dereference operator to a higher precedence than the dot operator?

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    What happens when p.abc is a pointer? How do you dereference it? Jun 25, 2020 at 17:29
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    Possibly historical reasons. (*p).abc used to mean something very different from p->abc. Can't find a link to the story behind it now though. Jun 25, 2020 at 17:29
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    @StoryTeller-UnslanderMonica: Well, you'd have to write *(p.abc), that's all. Jun 25, 2020 at 17:47
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    @Someprogrammerdude: I wonder if historically, there wasn't really full support for expressions of type struct foo. After all, there wasn't much that one could do to them; none of the arithmetic or logical operators make sense, and historically you couldn't even assign them. So it may have been that you actually couldn't dereference an expression of type struct foo *; you could only apply the -> operator. The idea of -> as equivalent to * followed by . may have only come about later, after support for dereferencing struct foo * was added. Jun 25, 2020 at 17:52
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    @Someprogrammerdude Yes, p->abc didn't use to be exact syntactic sugar for (*p).abc. The old C compiler would require that p in (*p).abc (or more specifically the *p subexpression) be a pointer (any pointer) whereas the p in p->abc could be any scalar (e.g., 42) and it would be coerced into a pointer appropriately offsetted, casted to typeof(.abc)* (member names used to be globals) and dereferenced. Either form could be used to do coercions (very useful because prehistoric C didn't have casts) but the dot form additionally required lvalueness in its left argument. Jul 1, 2020 at 12:28

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