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authorIago Toral Quiroga <[email protected]>2018-07-10 09:52:46 +0200
committerJuan A. Suarez Romero <[email protected]>2019-04-18 11:05:18 +0200
commit40b3abb4d16af4cef0307e1b4904c2ec0924299e (patch)
tree10d23d1e311bf45914456c28e42b5509be97dd7e /src/intel/dev
parent0986199b31ab2a6086131887e474bc8f79fbc28d (diff)
intel/compiler: split is_partial_write() into two variants
This function is used in two different scenarios that for 32-bit instructions are the same, but for 16-bit instructions are not. One scenario is that in which we are working at a SIMD8 register level and we need to know if a register is fully defined or written. This is useful, for example, in the context of liveness analysis or register allocation, where we work with units of registers. The other scenario is that in which we want to know if an instruction is writing a full scalar component or just some subset of it. This is useful, for example, in the context of some optimization passes like copy propagation. For 32-bit instructions (or larger), a SIMD8 dispatch will always write at least a full SIMD8 register (32B) if the write is not partial. The function is_partial_write() checks this to determine if we have a partial write. However, when we deal with 16-bit instructions, that logic disables some optimizations that should be safe. For example, a SIMD8 16-bit MOV will only update half of a SIMD register, but it is still a complete write of the variable for a SIMD8 dispatch, so we should not prevent copy propagation in this scenario because we don't write all 32 bytes in the SIMD register or because the write starts at offset 16B (wehere we pack components Y or W of 16-bit vectors). This is a problem for SIMD8 executions (VS, TCS, TES, GS) of 16-bit instructions, which lose a number of optimizations because of this, most important of which is copy-propagation. This patch splits is_partial_write() into is_partial_reg_write(), which represents the current is_partial_write(), useful for things like liveness analysis, and is_partial_var_write(), which considers the dispatch size to check if we are writing a full variable (rather than a full register) to decide if the write is partial or not, which is what we really want in many optimization passes. Then the patch goes on and rewrites all uses of is_partial_write() to use one or the other version. Specifically, we use is_partial_var_write() in the following places: copy propagation, cmod propagation, common subexpression elimination, saturate propagation and sel peephole. Notice that the semantics of is_partial_var_write() exactly match the current implementation of is_partial_write() for anything that is 32-bit or larger, so no changes are expected for 32-bit instructions. Tested against ~5000 tests involving 16-bit instructions in CTS produced the following changes in instruction counts: Patched | Master | % | ================================================ SIMD8 | 621,900 | 706,721 | -12.00% | ================================================ SIMD16 | 93,252 | 93,252 | 0.00% | ================================================ As expected, the change only affects SIMD8 dispatches. Reviewed-by: Topi Pohjolainen <[email protected]>
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