On 06/06/16 18:47, Pranith Kumar wrote: > On Mon, Jun 6, 2016 at 11:44 AM, Sergey Fedorov <[email protected]> wrote: >> On 03/06/16 21:27, Pranith Kumar wrote: >>> On Thu, Jun 2, 2016 at 5:18 PM, Richard Henderson <[email protected]> wrote: >>>> What if we have tcg_canonicalize_memop (or some such) split off the >>>> barriers >>>> into separate opcodes. E.g. >>>> >>>> MO_BAR_LD_B = 32 // prevent earlier loads from crossing current op >>>> MO_BAR_ST_B = 64 // prevent earlier stores from crossing current op >>>> MO_BAR_LD_A = 128 // prevent later loads from crossing current op >>>> MO_BAR_ST_A = 256 // prevent later stores from crossing current op >>>> MO_BAR_LDST_B = MO_BAR_LD_B | MO_BAR_ST_B >>>> MO_BAR_LDST_A = MO_BAR_LD_A | MO_BAR_ST_A >>>> MO_BAR_MASK = MO_BAR_LDST_B | MO_BAR_LDST_A >>>> >>>> // Match Sparc MEMBAR as the most flexible host. >>>> TCG_BAR_LD_LD = 1 // #LoadLoad barrier >>>> TCG_BAR_ST_LD = 2 // #StoreLoad barrier >>>> TCG_BAR_LD_ST = 4 // #LoadStore barrier >>>> TCG_BAR_ST_ST = 8 // #StoreStore barrier >>>> TCG_BAR_SYNC = 64 // SEQ_CST barrier >>> I really like this format. I would also like to add to the frontend: >>> >> Actually, the acquire barrier is a combined load-load + load-store >> barrier; and the release barrier is a combo of load-store + store-store >> barriers. >> > All the above are two-way barriers. Acquire/Release are one-way > barriers. So we cannot combine the above to get acquire/release > semantics without being conservative.
Do you mean *barriers* or *memory access* operations implying memory ordering? Regards, Sergey
