On Mon, 29 Aug 2022, Martin Jambor wrote: > Hi, > > On Mon, Aug 29 2022, Richard Biener wrote: > > On Mon, 29 Aug 2022, Martin Jambor wrote: > > > >> Hi again, > >> > >> On Mon, Aug 29 2022, Richard Biener wrote: > >> > On Fri, 26 Aug 2022, Martin Jambor wrote: > >> > > >> >> Hi, > >> >> > >> >> On Fri, Aug 26 2022, Richard Biener wrote: > >> >> >> Am 26.08.2022 um 18:39 schrieb Martin Jambor : > >> >> >> > >> >> >> Hi, > >> >> >> > >> >> >> This patch adds constructors of array_slice that are required to > >> >> >> create them from non-const (heap or auto) vectors or from GC vectors. > >> >> >> > >> >> >> The use of non-const array_slices is somewhat limited, as creating one > >> >> >> from const vec still leads to array_slice, > >> >> >> so I eventually also only resorted to having read-only array_slices. > >> >> >> But I do need the constructor from the gc vector. > >> >> >> > >> >> >> Bootstrapped and tested along code that actually uses it on > >> >> >> x86_64-linux. OK for trunk? > >> >> >> > >> >> >> Thanks, > >> >> >> > >> >> >> Martin > >> >> >> > >> >> >> > >> >> >> gcc/ChangeLog: > >> >> >> > >> >> >> 2022-08-08 Martin Jambor > >> >> >> > >> >> >> * vec.h (array_slice): Add constructors for non-const reference to > >> >> >> heap vector and pointers to heap vectors. > >> >> >> --- > >> >> >> gcc/vec.h | 12 ++++++++++++ > >> >> >> 1 file changed, 12 insertions(+) > >> >> >> > >> >> >> diff --git a/gcc/vec.h b/gcc/vec.h > >> >> >> index eed075addc9..b0477e1044c 100644 > >> >> >> --- a/gcc/vec.h > >> >> >> +++ b/gcc/vec.h > >> >> >> @@ -2264,6 +2264,18 @@ public: > >> >> >> array_slice (const vec &v) > >> >> >> : m_base (v.address ()), m_size (v.length ()) {} > >> >> >> > >> >> >> + template > >> >> >> + array_slice (vec &v) > >> >> >> + : m_base (v.address ()), m_size (v.length ()) {} > >> >> >> + > >> >> >> + template > >> >> >> + array_slice (const vec *v) > >> >> >> + : m_base (v ? v->address () : nullptr), m_size (v ? v->length () : 0) {} > >> >> >> + > >> >> >> + template > >> >> >> + array_slice (vec *v) > >> >> >> + : m_base (v ? v->address () : nullptr), m_size (v ? v->length () : 0) {} > >> >> >> + > >> >> > > >> >> > I don?t quite understand why the generic ctor doesn?t cover the GC case. It looks more like reference vs pointer? > >> >> > > >> >> > >> >> If you think that this should work: > >> >> > >> >> vec *heh = cfun->local_decls; > >> >> array_slice arr_slice (*heh); > >> >> > >> >> then it does not: > >> >> > >> >> /home/mjambor/gcc/mine/src/gcc/ipa-cp.cc:6693:36: error: no matching function for call to ?array_slice::array_slice(vec&)? > >> >> 6693 | array_slice arr_slice (*heh); > >> >> | ^ > >> >> In file included from /home/mjambor/gcc/mine/src/gcc/hash-table.h:248, > >> >> from /home/mjambor/gcc/mine/src/gcc/coretypes.h:486, > >> >> from /home/mjambor/gcc/mine/src/gcc/ipa-cp.cc:105: > >> >> /home/mjambor/gcc/mine/src/gcc/vec.h:2264:3: note: candidate: ?template array_slice::array_slice(const vec&) [with T = tree_node*]? > >> >> 2264 | array_slice (const vec &v) > >> >> | ^~~~~~~~~~~ > >> >> /home/mjambor/gcc/mine/src/gcc/vec.h:2264:3: note: template argument deduction/substitution failed: > >> >> /home/mjambor/gcc/mine/src/gcc/ipa-cp.cc:6693:36: note: mismatched types ?va_heap? and ?va_gc? > >> >> 6693 | array_slice arr_slice (*heh); > >> >> | ^ > >> >> > >> >> [... I trimmed notes about all other candidates...] > >> >> > >> >> Or did you mean something else? > >> > > >> > Hmm, so what if you change > >> > > >> > template > >> > array_slice (const vec &v) > >> > : m_base (v.address ()), m_size (v.length ()) {} > >> > > >> > to > >> > > >> > template > >> > array_slice (const vec &v) > >> > : m_base (v.address ()), m_size (v.length ()) {} > >> > > >> > instead? Thus allow any allocation / placement template arg? > >> > > >> > >> So being fully awake helps, the issue was of course in how I tested the > >> code, the above works fine and I can adapt my code to use that. > >> > >> However, is it really preferable? > >> > >> We often use NULL as to mean zero-length vector, which my code handled > >> gracefully: > >> > >> + template > >> + array_slice (const vec *v) > >> + : m_base (v ? v->address () : nullptr), m_size (v ? v->length () : 0) {} > >> > >> whereas using the generic method will mean that users constructing the > >> vector will have to special case it - and I bet most will end up using > >> the above sequence and the constructor from explicit pointer and size in > >> all constructors from gc vectors. > >> > >> So, should I really change the patch and my code? > > > > Well, it's also inconsistent with a supposed use like > > > > vec *v = NULL; > > auto slice = array_slice (v); > > > > no? So, if we want to provide a "safe" (as in, handle NULL pointer) > > CTOR, don't we want to handle non-GC allocated vectors the same way? > > > > Our safe_* functions usually do no work with normal non-GC vectors > (which are not vl_embed), they do not accept them. I guess that is > because that is not how we use normal vectors, we usually pass around > vNULL to mean empty vector of that type. So I'd at least be consistent > with our inconsistencies. > > But whatever, I can have both reference and pointer template > constructors, I can resort to constructing them from v->address() and > v->length() too. I do not care much, I guess I trust your sense of code > esthetics more than mine, just please let me know what you prefer and > I'll go with that. > > > Btw, we have > > > > template > > array_slice (T (&array)[N]) : m_base (array), m_size (N) {} > > > > which would suggest handling NULL isn't desired(?) > > > > That is not how I read for example: > > // True if the array is valid, false if it is an array like INVALID. > bool is_valid () const { return m_base || m_size == 0; } > > And IMHO it would be a very very strange limitation too. I see. That said, the high number of CTORs does look a bit odd, but I'm fine with them if Richard is. Thanks and sorry for throwing in wrenches, Richard.