/* $NetBSD: msg_171.c,v 1.8 2022/06/16 16:58:36 rillig Exp $ */ # 3 "msg_171.c" // Test for message: cannot assign to '%s' from '%s' [171] struct s { int member; }; /*ARGSUSED*/ void example(int i, void *vp, struct s *s) { /* expect+1: error: cannot assign to 'int' from 'struct s' [171] */ i = *s; /* expect+1: error: cannot assign to 'struct s' from 'int' [171] */ *s = i; /* expect+1: error: cannot assign to 'pointer to void' from 'struct s' [171] */ vp = *s; /* expect+1: error: cannot assign to 'struct s' from 'pointer to void' [171] */ *s = vp; } /* * C99 6.5.2.5 says that a compound literal evaluates to an unnamed object * with automatic storage duration, like any normal named object. It is an * lvalue, which means that it is possible to take the address of the object. * Seen in external/mpl/bind/dist/lib/dns/rbtdb.c, update_rrsetstats. * * Before init.c 1.111 from 2021-03-23, lint could not handle these nested * initializations (the outer one for the variable 'p', the inner one for the * compound literal) and wrongly complained about a type mismatch between * 'struct point' and 'pointer to struct point'. */ void pointer_to_compound_literal(void) { struct point { int x; int y; }; struct point *p = &(struct point){ 12, 5, }; /* * A sizeof expression is another way to create nested * initializations. */ struct point p2 = { (int)sizeof(struct point){ (int)sizeof(struct point){ (int)sizeof(struct point){ (int)sizeof(struct point){ 0, 0, }, 0, }, 0, }, 0, }, 0, }; } |