From: Eric Anholt Date: Tue, 2 Dec 2014 23:42:58 +0000 (-0800) Subject: vc4: Add separate write-after-read dependency tracking for pairing. X-Git-Tag: android-x86-4.4-r3~1545 X-Git-Url: http://git.osdn.net/view?a=commitdiff_plain;h=6f32deb538b1b62ff6d5d1212105bbe8d6adce72;p=android-x86%2Fexternal-mesa.git vc4: Add separate write-after-read dependency tracking for pairing. If an operation is the last one to read a register, the instruction containing it can also include the op that has the next write to that register. total instructions in shared programs: 57486 -> 56995 (-0.85%) instructions in affected programs: 43004 -> 42513 (-1.14%) --- diff --git a/src/gallium/drivers/vc4/vc4_qpu_schedule.c b/src/gallium/drivers/vc4/vc4_qpu_schedule.c index 2b0a6326b8c..6bba66ad852 100644 --- a/src/gallium/drivers/vc4/vc4_qpu_schedule.c +++ b/src/gallium/drivers/vc4/vc4_qpu_schedule.c @@ -40,16 +40,23 @@ static bool debug; +struct schedule_node_child; + struct schedule_node { struct simple_node link; struct queued_qpu_inst *inst; - struct schedule_node **children; + struct schedule_node_child *children; uint32_t child_count; uint32_t child_array_size; uint32_t parent_count; uint32_t delay; }; +struct schedule_node_child { + struct schedule_node *node; + bool write_after_read; +}; + /* When walking the instructions in reverse, we need to swap before/after in * add_dep(). */ @@ -71,8 +78,11 @@ struct schedule_state { static void add_dep(struct schedule_state *state, struct schedule_node *before, - struct schedule_node *after) + struct schedule_node *after, + bool write) { + bool write_after_read = !write && state->dir == R; + if (!before || !after) return; @@ -85,28 +95,40 @@ add_dep(struct schedule_state *state, } for (int i = 0; i < before->child_count; i++) { - if (before->children[i] == after) + if (before->children[i].node == after && + (before->children[i].write_after_read == write_after_read)) { return; + } } if (before->child_array_size <= before->child_count) { before->child_array_size = MAX2(before->child_array_size * 2, 16); before->children = reralloc(before, before->children, - struct schedule_node *, + struct schedule_node_child, before->child_array_size); } - before->children[before->child_count] = after; + before->children[before->child_count].node = after; + before->children[before->child_count].write_after_read = + write_after_read; before->child_count++; after->parent_count++; } static void +add_read_dep(struct schedule_state *state, + struct schedule_node *before, + struct schedule_node *after) +{ + add_dep(state, before, after, false); +} + +static void add_write_dep(struct schedule_state *state, struct schedule_node **before, struct schedule_node *after) { - add_dep(state, *before, after); + add_dep(state, *before, after, true); *before = after; } @@ -152,9 +174,9 @@ process_raddr_deps(struct schedule_state *state, struct schedule_node *n, default: if (raddr < 32) { if (is_a) - add_dep(state, state->last_ra[raddr], n); + add_read_dep(state, state->last_ra[raddr], n); else - add_dep(state, state->last_rb[raddr], n); + add_read_dep(state, state->last_rb[raddr], n); } else { fprintf(stderr, "unknown raddr %d\n", raddr); abort(); @@ -186,7 +208,7 @@ process_mux_deps(struct schedule_state *state, struct schedule_node *n, uint32_t mux) { if (mux != QPU_MUX_A && mux != QPU_MUX_B) - add_dep(state, state->last_r[mux], n); + add_read_dep(state, state->last_r[mux], n); } @@ -278,7 +300,7 @@ process_cond_deps(struct schedule_state *state, struct schedule_node *n, case QPU_COND_ALWAYS: break; default: - add_dep(state, state->last_sf, n); + add_read_dep(state, state->last_sf, n); break; } } @@ -339,7 +361,7 @@ calculate_deps(struct schedule_state *state, struct schedule_node *n) break; case QPU_SIG_COLOR_LOAD: - add_dep(state, state->last_tlb, n); + add_read_dep(state, state->last_tlb, n); break; case QPU_SIG_PROG_END: @@ -557,10 +579,15 @@ dump_state(struct simple_node *schedule_list) fprintf(stderr, "\n"); for (int i = 0; i < n->child_count; i++) { - struct schedule_node *child = n->children[i]; + struct schedule_node *child = n->children[i].node; + if (!child) + continue; + fprintf(stderr, " - "); vc4_qpu_disasm(&child->inst->inst, 1); - fprintf(stderr, " (%d parents)\n", child->parent_count); + fprintf(stderr, " (%d parents, %c)\n", + child->parent_count, + n->children[i].write_after_read ? 'w' : 'r'); } } } @@ -573,27 +600,37 @@ compute_delay(struct schedule_node *n) n->delay = 1; } else { for (int i = 0; i < n->child_count; i++) { - if (!n->children[i]->delay) - compute_delay(n->children[i]); - n->delay = MAX2(n->delay, n->children[i]->delay + 1); + if (!n->children[i].node->delay) + compute_delay(n->children[i].node); + n->delay = MAX2(n->delay, + n->children[i].node->delay + 1); } } } static void mark_instruction_scheduled(struct simple_node *schedule_list, - struct schedule_node *node) + struct schedule_node *node, + bool war_only) { if (!node) return; for (int i = node->child_count - 1; i >= 0; i--) { struct schedule_node *child = - node->children[i]; + node->children[i].node; + + if (!child) + continue; + + if (war_only && !node->children[i].write_after_read) + continue; child->parent_count--; if (child->parent_count == 0) insert_at_head(schedule_list, &child->link); + + node->children[i].node = NULL; } } @@ -647,6 +684,7 @@ schedule_instructions(struct vc4_compile *c, struct simple_node *schedule_list) */ if (chosen) { remove_from_list(&chosen->link); + mark_instruction_scheduled(schedule_list, chosen, true); merge = choose_instruction_to_schedule(&scoreboard, schedule_list, @@ -680,8 +718,8 @@ schedule_instructions(struct vc4_compile *c, struct simple_node *schedule_list) * be scheduled. Update the children's unblocked time for this * DAG edge as we do so. */ - mark_instruction_scheduled(schedule_list, chosen); - mark_instruction_scheduled(schedule_list, merge); + mark_instruction_scheduled(schedule_list, chosen, false); + mark_instruction_scheduled(schedule_list, merge, false); scoreboard.tick++; }