https://gcc.gnu.org/bugzilla/show_bug.cgi?id=97172
--- Comment #20 from rguenther at suse dot de <rguenther at suse dot de> --- On Tue, 1 Dec 2020, hubicka at ucw dot cz wrote: > https://gcc.gnu.org/bugzilla/show_bug.cgi?id=97172 > > --- Comment #19 from Jan Hubicka <hubicka at ucw dot cz> --- > > https://gcc.gnu.org/bugzilla/show_bug.cgi?id=97172 > > > > --- Comment #18 from Martin Sebor <msebor at gcc dot gnu.org> --- > > Let me explain how this works. The VLA bounds in function parameters are > > used > > in two ways: > > 1) in the front end, to check function redeclarations involving arrays and > > VLAs > > for equivalence, > > 2) in the middle end, to check function calls for out of bounds accesses. > > > > As an example of (1) consider the following declarations of function f(): > > > > void f (int X, int, int A[X], int B[foo()]); > > and > > void f (int, int J, int A[J], int B[foo() + 1]); > > > > The bounds in the parameters A and B are different and we'd like them > > diagnosed. The bound X is the first parameter in the first declaration of f > > but J is the second parameter in the second f(). Because the bounds are > > also > > parameters, we use their positions in the argument list to determine that > > they > > don't match. > > > > Likewise, the bound foo() in B is different from foo() + 1, but because > > neither > > is a parameter the only way to determine whether they match is by comparing > > them for equivalence. The code uses operand_equal_p(..., > > OEP_LEXICOGRAPHIC). > > > > (2) is done only for bounds that are parameters. Other bounds are not used > > for > > anything, but they're still stored in the attributes so they can be > > compared in > > the redeclarations. > > > > Since the "complex" bounds aren't used after the front end is done with > > them, > > unless there's a way to remove them at some point after the front end is > > done > > (or set them to NULL or something), the LTO streaming code could ignore them > > instead of asserting on them. Alternatively, instead of storing them in > > their > > free_lang_data should a good place to free them. In general we should > avoid storing things to IL that are not useful to middle end and keep > them there till LTO streaming. Even if it does not make LTO streaming > to ICE it stll consumes memory, disk space and compile time. The frontend needs to make sure no frontend specific tree codes leak into GENERIC so GENERICization is the place where the FE should clear those. FLD is too late and doing it there would be a hack.
