diff options
author | Francisco Jerez <[email protected]> | 2017-10-23 13:47:10 -0700 |
---|---|---|
committer | Francisco Jerez <[email protected]> | 2017-12-07 18:27:04 -0800 |
commit | 9355116bdad6ee9914554de8e48ba271bd36a8eb (patch) | |
tree | cee4ff9bf7eb7df5fb7ea5a430280871cb4e686b | |
parent | c3c1aa5aeb921caa2ec18c2320ceb94854e0f47c (diff) |
intel/fs: Don't let undefined values prevent copy propagation.
This makes the dataflow propagation logic of the copy propagation pass
more intelligent in cases where the destination of a copy is known to
be undefined for some incoming CFG edges, building upon the
definedness information provided by the last patch. Helps a few
programs, and avoids a handful shader-db regressions from the next
patch.
shader-db results on ILK:
total instructions in shared programs: 6541547 -> 6541523 (-0.00%)
instructions in affected programs: 360 -> 336 (-6.67%)
helped: 8
HURT: 0
LOST: 0
GAINED: 10
shader-db results on BDW:
total instructions in shared programs: 8174323 -> 8173882 (-0.01%)
instructions in affected programs: 7730 -> 7289 (-5.71%)
helped: 5
HURT: 2
LOST: 0
GAINED: 4
shader-db results on SKL:
total instructions in shared programs: 8185669 -> 8184598 (-0.01%)
instructions in affected programs: 10364 -> 9293 (-10.33%)
helped: 5
HURT: 2
LOST: 0
GAINED: 2
Reviewed-by: Jason Ekstrand <[email protected]>
-rw-r--r-- | src/intel/compiler/brw_fs_copy_propagation.cpp | 50 |
1 files changed, 47 insertions, 3 deletions
diff --git a/src/intel/compiler/brw_fs_copy_propagation.cpp b/src/intel/compiler/brw_fs_copy_propagation.cpp index d4d01d783ca..af5635eacef 100644 --- a/src/intel/compiler/brw_fs_copy_propagation.cpp +++ b/src/intel/compiler/brw_fs_copy_propagation.cpp @@ -36,9 +36,12 @@ #include "util/bitset.h" #include "brw_fs.h" +#include "brw_fs_live_variables.h" #include "brw_cfg.h" #include "brw_eu.h" +using namespace brw; + namespace { /* avoid conflict with opt_copy_propagation_elements */ struct acp_entry : public exec_node { fs_reg dst; @@ -77,12 +80,19 @@ struct block_data { * course of this block. */ BITSET_WORD *kill; + + /** + * Which entries in the fs_copy_prop_dataflow acp table are guaranteed to + * have a fully uninitialized destination at the end of this block. + */ + BITSET_WORD *undef; }; class fs_copy_prop_dataflow { public: fs_copy_prop_dataflow(void *mem_ctx, cfg_t *cfg, + const fs_live_variables *live, exec_list *out_acp[ACP_HASH_SIZE]); void setup_initial_values(); @@ -92,6 +102,7 @@ public: void *mem_ctx; cfg_t *cfg; + const fs_live_variables *live; acp_entry **acp; int num_acp; @@ -102,8 +113,9 @@ public: } /* anonymous namespace */ fs_copy_prop_dataflow::fs_copy_prop_dataflow(void *mem_ctx, cfg_t *cfg, + const fs_live_variables *live, exec_list *out_acp[ACP_HASH_SIZE]) - : mem_ctx(mem_ctx), cfg(cfg) + : mem_ctx(mem_ctx), cfg(cfg), live(live) { bd = rzalloc_array(mem_ctx, struct block_data, cfg->num_blocks); @@ -124,6 +136,7 @@ fs_copy_prop_dataflow::fs_copy_prop_dataflow(void *mem_ctx, cfg_t *cfg, bd[block->num].liveout = rzalloc_array(bd, BITSET_WORD, bitset_words); bd[block->num].copy = rzalloc_array(bd, BITSET_WORD, bitset_words); bd[block->num].kill = rzalloc_array(bd, BITSET_WORD, bitset_words); + bd[block->num].undef = rzalloc_array(bd, BITSET_WORD, bitset_words); for (int i = 0; i < ACP_HASH_SIZE; i++) { foreach_in_list(acp_entry, entry, &out_acp[block->num][i]) { @@ -189,6 +202,18 @@ fs_copy_prop_dataflow::setup_initial_values() } } } + + /* Initialize the undef set. */ + foreach_block (block, cfg) { + for (int i = 0; i < num_acp; i++) { + BITSET_SET(bd[block->num].undef, i); + for (unsigned off = 0; off < acp[i]->size_written; off += REG_SIZE) { + if (BITSET_TEST(live->block_data[block->num].defout, + live->var_from_reg(byte_offset(acp[i]->dst, off)))) + BITSET_CLEAR(bd[block->num].undef, i); + } + } + } } /** @@ -229,13 +254,30 @@ fs_copy_prop_dataflow::run() for (int i = 0; i < bitset_words; i++) { const BITSET_WORD old_livein = bd[block->num].livein[i]; + BITSET_WORD livein_from_any_block = 0; bd[block->num].livein[i] = ~0u; foreach_list_typed(bblock_link, parent_link, link, &block->parents) { bblock_t *parent = parent_link->block; - bd[block->num].livein[i] &= bd[parent->num].liveout[i]; + /* Consider ACP entries with a known-undefined destination to + * be available from the parent. This is valid because we're + * free to set the undefined variable equal to the source of + * the ACP entry without breaking the application's + * expectations, since the variable is undefined. + */ + bd[block->num].livein[i] &= (bd[parent->num].liveout[i] | + bd[parent->num].undef[i]); + livein_from_any_block |= bd[parent->num].liveout[i]; } + /* Limit to the set of ACP entries that can possibly be available + * at the start of the block, since propagating from a variable + * which is guaranteed to be undefined (rather than potentially + * undefined for some dynamic control-flow paths) doesn't seem + * particularly useful. + */ + bd[block->num].livein[i] &= livein_from_any_block; + if (old_livein != bd[block->num].livein[i]) progress = true; } @@ -834,6 +876,8 @@ fs_visitor::opt_copy_propagation() for (int i = 0; i < cfg->num_blocks; i++) out_acp[i] = new exec_list [ACP_HASH_SIZE]; + calculate_live_intervals(); + /* First, walk through each block doing local copy propagation and getting * the set of copies available at the end of the block. */ @@ -843,7 +887,7 @@ fs_visitor::opt_copy_propagation() } /* Do dataflow analysis for those available copies. */ - fs_copy_prop_dataflow dataflow(copy_prop_ctx, cfg, out_acp); + fs_copy_prop_dataflow dataflow(copy_prop_ctx, cfg, live_intervals, out_acp); /* Next, re-run local copy propagation, this time with the set of copies * provided by the dataflow analysis available at the start of a block. |