diff options
author | Jason Ekstrand <[email protected]> | 2016-12-13 21:00:34 -0800 |
---|---|---|
committer | Jason Ekstrand <[email protected]> | 2016-12-29 16:02:44 -0800 |
commit | a4d1eb443ecd2c34ce67f07a6a7078bf8a4f359c (patch) | |
tree | 5acab9146cc7864fee28279db50d7cca739aff5a /src/compiler/nir | |
parent | 67a70889f61a374bc535286d12117780e9fbc0c3 (diff) |
nir: Rewrite lower_regs_to_ssa to use the phi builder
This keeps some of Connor's original code. However, while I was at it,
I updated this very old pass to a bit more modern NIR.
Diffstat (limited to 'src/compiler/nir')
-rw-r--r-- | src/compiler/nir/nir_lower_regs_to_ssa.c | 595 |
1 files changed, 174 insertions, 421 deletions
diff --git a/src/compiler/nir/nir_lower_regs_to_ssa.c b/src/compiler/nir/nir_lower_regs_to_ssa.c index ca073260112..095bae66927 100644 --- a/src/compiler/nir/nir_lower_regs_to_ssa.c +++ b/src/compiler/nir/nir_lower_regs_to_ssa.c @@ -26,513 +26,266 @@ */ #include "nir.h" -#include <stdlib.h> +#include "nir_builder.h" +#include "nir_phi_builder.h" +#include "nir_vla.h" -/* - * Implements the classic to-SSA algorithm described by Cytron et. al. in - * "Efficiently Computing Static Single Assignment Form and the Control - * Dependence Graph." - */ +struct regs_to_ssa_state { + nir_shader *shader; -/* inserts a phi node of the form reg = phi(reg, reg, reg, ...) */ + struct nir_phi_builder_value **values; +}; -static void -insert_trivial_phi(nir_register *reg, nir_block *block, void *mem_ctx) -{ - nir_phi_instr *instr = nir_phi_instr_create(mem_ctx); - - instr->dest.reg.reg = reg; - struct set_entry *entry; - set_foreach(block->predecessors, entry) { - nir_block *pred = (nir_block *) entry->key; - - nir_phi_src *src = ralloc(instr, nir_phi_src); - src->pred = pred; - src->src.is_ssa = false; - src->src.reg.base_offset = 0; - src->src.reg.indirect = NULL; - src->src.reg.reg = reg; - exec_list_push_tail(&instr->srcs, &src->node); - } - - nir_instr_insert_before_block(block, &instr->instr); -} - -static void -insert_phi_nodes(nir_function_impl *impl) +static bool +rewrite_src(nir_src *src, void *_state) { - void *mem_ctx = ralloc_parent(impl); - - unsigned *work = calloc(impl->num_blocks, sizeof(unsigned)); - unsigned *has_already = calloc(impl->num_blocks, sizeof(unsigned)); - - /* - * Since the work flags already prevent us from inserting a node that has - * ever been inserted into W, we don't need to use a set to represent W. - * Also, since no block can ever be inserted into W more than once, we know - * that the maximum size of W is the number of basic blocks in the - * function. So all we need to handle W is an array and a pointer to the - * next element to be inserted and the next element to be removed. - */ - nir_block **W = malloc(impl->num_blocks * sizeof(nir_block *)); - unsigned w_start, w_end; - - unsigned iter_count = 0; + struct regs_to_ssa_state *state = _state; - nir_index_blocks(impl); - - foreach_list_typed(nir_register, reg, node, &impl->registers) { - if (reg->num_array_elems != 0) - continue; - - w_start = w_end = 0; - iter_count++; - - nir_foreach_def(dest, reg) { - nir_instr *def = dest->reg.parent_instr; - if (work[def->block->index] < iter_count) - W[w_end++] = def->block; - work[def->block->index] = iter_count; - } + if (src->is_ssa) + return true; - while (w_start != w_end) { - nir_block *cur = W[w_start++]; - struct set_entry *entry; - set_foreach(cur->dom_frontier, entry) { - nir_block *next = (nir_block *) entry->key; - - /* - * If there's more than one return statement, then the end block - * can be a join point for some definitions. However, there are - * no instructions in the end block, so nothing would use those - * phi nodes. Of course, we couldn't place those phi nodes - * anyways due to the restriction of having no instructions in the - * end block... - */ - if (next == impl->end_block) - continue; + nir_instr *instr = src->parent_instr; + nir_register *reg = src->reg.reg; + struct nir_phi_builder_value *value = state->values[reg->index]; + if (!value) + return true; - if (has_already[next->index] < iter_count) { - insert_trivial_phi(reg, next, mem_ctx); - has_already[next->index] = iter_count; - if (work[next->index] < iter_count) { - work[next->index] = iter_count; - W[w_end++] = next; - } - } - } - } + nir_block *block; + if (instr->type == nir_instr_type_phi) { + nir_phi_src *phi_src = exec_node_data(nir_phi_src, src, src); + block = phi_src->pred; + } else { + block = instr->block; } - free(work); - free(has_already); - free(W); -} - -typedef struct { - nir_ssa_def **stack; - int index; - unsigned num_defs; /** < used to add indices to debug names */ -#ifndef NDEBUG - unsigned stack_size; -#endif -} reg_state; - -typedef struct { - reg_state *states; - void *mem_ctx; - nir_instr *parent_instr; - nir_if *parent_if; - nir_function_impl *impl; - - /* map from SSA value -> original register */ - struct hash_table *ssa_map; -} rewrite_state; - -static nir_ssa_def *get_ssa_src(nir_register *reg, rewrite_state *state) -{ - unsigned index = reg->index; - - if (state->states[index].index == -1) { - /* - * We're using an undefined register, create a new undefined SSA value - * to preserve the information that this source is undefined - */ - nir_ssa_undef_instr *instr = - nir_ssa_undef_instr_create(state->mem_ctx, reg->num_components, - reg->bit_size); - - /* - * We could just insert the undefined instruction before the instruction - * we're rewriting, but we could be rewriting a phi source in which case - * we can't do that, so do the next easiest thing - insert it at the - * beginning of the program. In the end, it doesn't really matter where - * the undefined instructions are because they're going to be ignored - * in the backend. - */ - nir_instr_insert_before_cf_list(&state->impl->body, &instr->instr); - return &instr->def; - } + nir_ssa_def *def = nir_phi_builder_value_get_block_def(value, block); + nir_instr_rewrite_src(instr, src, nir_src_for_ssa(def)); - return state->states[index].stack[state->states[index].index]; + return true; } -static bool -rewrite_use(nir_src *src, void *_state) +static void +rewrite_if_condition(nir_if *nif, struct regs_to_ssa_state *state) { - rewrite_state *state = (rewrite_state *) _state; - - if (src->is_ssa) - return true; - - unsigned index = src->reg.reg->index; - - if (state->states[index].stack == NULL) - return true; + if (nif->condition.is_ssa) + return; - nir_ssa_def *def = get_ssa_src(src->reg.reg, state); - if (state->parent_instr) - nir_instr_rewrite_src(state->parent_instr, src, nir_src_for_ssa(def)); - else - nir_if_rewrite_condition(state->parent_if, nir_src_for_ssa(def)); + nir_block *block = nir_cf_node_as_block(nir_cf_node_prev(&nif->cf_node)); + nir_register *reg = nif->condition.reg.reg; + struct nir_phi_builder_value *value = state->values[reg->index]; + if (!value) + return; - return true; + nir_ssa_def *def = nir_phi_builder_value_get_block_def(value, block); + nir_if_rewrite_condition(nif, nir_src_for_ssa(def)); } static bool -rewrite_def_forwards(nir_dest *dest, void *_state) +rewrite_dest(nir_dest *dest, void *_state) { - rewrite_state *state = (rewrite_state *) _state; + struct regs_to_ssa_state *state = _state; if (dest->is_ssa) return true; + nir_instr *instr = dest->reg.parent_instr; nir_register *reg = dest->reg.reg; - unsigned index = reg->index; - - if (state->states[index].stack == NULL) + struct nir_phi_builder_value *value = state->values[reg->index]; + if (!value) return true; - char *name = NULL; - if (dest->reg.reg->name) - name = ralloc_asprintf(state->mem_ctx, "%s_%u", dest->reg.reg->name, - state->states[index].num_defs); - list_del(&dest->reg.def_link); - nir_ssa_dest_init(state->parent_instr, dest, reg->num_components, - reg->bit_size, name); - ralloc_free(name); - - /* push our SSA destination on the stack */ - state->states[index].index++; - assert(state->states[index].index < state->states[index].stack_size); - state->states[index].stack[state->states[index].index] = &dest->ssa; - state->states[index].num_defs++; + nir_ssa_dest_init(instr, dest, reg->num_components, + reg->bit_size, reg->name); - _mesa_hash_table_insert(state->ssa_map, &dest->ssa, reg); + nir_phi_builder_value_set_block_def(value, instr->block, &dest->ssa); return true; } static void -rewrite_alu_instr_forward(nir_alu_instr *instr, rewrite_state *state) +rewrite_alu_instr(nir_alu_instr *alu, struct regs_to_ssa_state *state) { - state->parent_instr = &instr->instr; - - nir_foreach_src(&instr->instr, rewrite_use, state); + nir_foreach_src(&alu->instr, rewrite_src, state); - if (instr->dest.dest.is_ssa) + if (alu->dest.dest.is_ssa) return; - nir_register *reg = instr->dest.dest.reg.reg; - unsigned index = reg->index; + nir_register *reg = alu->dest.dest.reg.reg; + struct nir_phi_builder_value *value = state->values[reg->index]; + if (!value) + return; - if (state->states[index].stack == NULL) + unsigned write_mask = alu->dest.write_mask; + if (write_mask == (1 << reg->num_components) - 1) { + /* This is the simple case where the instruction writes all the + * components. We can handle that the same as any other destination. + */ + rewrite_dest(&alu->dest.dest, state); return; + } - unsigned write_mask = instr->dest.write_mask; - if (write_mask != (1 << instr->dest.dest.reg.reg->num_components) - 1) { - /* - * Calculate the number of components the final instruction, which for - * per-component things is the number of output components of the - * instruction and non-per-component things is the number of enabled - * channels in the write mask. + /* Calculate the number of components the final instruction, which for + * per-component things is the number of output components of the + * instruction and non-per-component things is the number of enabled + * channels in the write mask. + */ + unsigned num_components; + unsigned vec_swizzle[4] = { 0, 1, 2, 3 }; + if (nir_op_infos[alu->op].output_size == 0) { + /* Figure out the swizzle we need on the vecN operation and compute + * the number of components in the SSA def at the same time. */ - unsigned num_components; - if (nir_op_infos[instr->op].output_size == 0) { - unsigned temp = (write_mask & 0x5) + ((write_mask >> 1) & 0x5); - num_components = (temp & 0x3) + ((temp >> 2) & 0x3); - } else { - num_components = nir_op_infos[instr->op].output_size; + num_components = 0; + for (unsigned index = 0; index < 4; index++) { + if (write_mask & (1 << index)) + vec_swizzle[index] = num_components++; } - char *name = NULL; - if (instr->dest.dest.reg.reg->name) - name = ralloc_asprintf(state->mem_ctx, "%s_%u", - reg->name, state->states[index].num_defs); - - instr->dest.write_mask = (1 << num_components) - 1; - list_del(&instr->dest.dest.reg.def_link); - nir_ssa_dest_init(&instr->instr, &instr->dest.dest, num_components, - reg->bit_size, name); - ralloc_free(name); + /* When we change the output writemask, we need to change + * the swizzles for per-component inputs too + */ + for (unsigned i = 0; i < nir_op_infos[alu->op].num_inputs; i++) { + if (nir_op_infos[alu->op].input_sizes[i] != 0) + continue; - if (nir_op_infos[instr->op].output_size == 0) { /* - * When we change the output writemask, we need to change the - * swizzles for per-component inputs too + * We keep two indices: + * 1. The index of the original (non-SSA) component + * 2. The index of the post-SSA, compacted, component + * + * We need to map the swizzle component at index 1 to the swizzle + * component at index 2. Since index 1 is always larger than + * index 2, we can do it in a single loop. */ - for (unsigned i = 0; i < nir_op_infos[instr->op].num_inputs; i++) { - if (nir_op_infos[instr->op].input_sizes[i] != 0) - continue; - - unsigned new_swizzle[4] = {0, 0, 0, 0}; - - /* - * We keep two indices: - * 1. The index of the original (non-SSA) component - * 2. The index of the post-SSA, compacted, component - * - * We need to map the swizzle component at index 1 to the swizzle - * component at index 2. - */ - - unsigned ssa_index = 0; - for (unsigned index = 0; index < 4; index++) { - if (!((write_mask >> index) & 1)) - continue; - - new_swizzle[ssa_index] = instr->src[i].swizzle[index]; - ssa_index++; - } - - for (unsigned j = 0; j < 4; j++) - instr->src[i].swizzle[j] = new_swizzle[j]; - } - } - nir_op op; - switch (reg->num_components) { - case 2: op = nir_op_vec2; break; - case 3: op = nir_op_vec3; break; - case 4: op = nir_op_vec4; break; - default: unreachable("not reached"); - } - - nir_alu_instr *vec = nir_alu_instr_create(state->mem_ctx, op); - - vec->dest.dest.reg.reg = reg; - vec->dest.write_mask = (1 << reg->num_components) - 1; - - nir_ssa_def *old_src = get_ssa_src(reg, state); - nir_ssa_def *new_src = &instr->dest.dest.ssa; + unsigned ssa_index = 0; + for (unsigned index = 0; index < 4; index++) { + if (!((write_mask >> index) & 1)) + continue; - unsigned ssa_index = 0; - for (unsigned i = 0; i < reg->num_components; i++) { - vec->src[i].src.is_ssa = true; - if ((write_mask >> i) & 1) { - vec->src[i].src.ssa = new_src; - if (nir_op_infos[instr->op].output_size == 0) - vec->src[i].swizzle[0] = ssa_index; - else - vec->src[i].swizzle[0] = i; - ssa_index++; - } else { - vec->src[i].src.ssa = old_src; - vec->src[i].swizzle[0] = i; + alu->src[i].swizzle[ssa_index++] = alu->src[i].swizzle[index]; } + assert(ssa_index == num_components); } - - nir_instr_insert_after(&instr->instr, &vec->instr); - - state->parent_instr = &vec->instr; - rewrite_def_forwards(&vec->dest.dest, state); } else { - rewrite_def_forwards(&instr->dest.dest, state); + num_components = nir_op_infos[alu->op].output_size; } -} - -static void -rewrite_phi_instr(nir_phi_instr *instr, rewrite_state *state) -{ - state->parent_instr = &instr->instr; - rewrite_def_forwards(&instr->dest, state); -} - -static void -rewrite_instr_forward(nir_instr *instr, rewrite_state *state) -{ - if (instr->type == nir_instr_type_alu) { - rewrite_alu_instr_forward(nir_instr_as_alu(instr), state); - return; - } - - if (instr->type == nir_instr_type_phi) { - rewrite_phi_instr(nir_instr_as_phi(instr), state); - return; + assert(num_components <= 4); + + alu->dest.write_mask = (1 << num_components) - 1; + list_del(&alu->dest.dest.reg.def_link); + nir_ssa_dest_init(&alu->instr, &alu->dest.dest, num_components, + reg->bit_size, reg->name); + + nir_op vecN_op; + switch (reg->num_components) { + case 2: vecN_op = nir_op_vec2; break; + case 3: vecN_op = nir_op_vec3; break; + case 4: vecN_op = nir_op_vec4; break; + default: unreachable("not reached"); } - state->parent_instr = instr; - - nir_foreach_src(instr, rewrite_use, state); - nir_foreach_dest(instr, rewrite_def_forwards, state); -} - -static void -rewrite_phi_sources(nir_block *block, nir_block *pred, rewrite_state *state) -{ - nir_foreach_instr(instr, block) { - if (instr->type != nir_instr_type_phi) - break; - - nir_phi_instr *phi_instr = nir_instr_as_phi(instr); + nir_alu_instr *vec = nir_alu_instr_create(state->shader, vecN_op); - state->parent_instr = instr; + nir_ssa_def *old_src = + nir_phi_builder_value_get_block_def(value, alu->instr.block); + nir_ssa_def *new_src = &alu->dest.dest.ssa; - nir_foreach_phi_src(src, phi_instr) { - if (src->pred == pred) { - rewrite_use(&src->src, state); - break; - } + for (unsigned i = 0; i < reg->num_components; i++) { + if (write_mask & (1 << i)) { + vec->src[i].src = nir_src_for_ssa(new_src); + vec->src[i].swizzle[0] = vec_swizzle[i]; + } else { + vec->src[i].src = nir_src_for_ssa(old_src); + vec->src[i].swizzle[0] = i; } } + + nir_ssa_dest_init(&vec->instr, &vec->dest.dest, reg->num_components, + reg->bit_size, reg->name); + nir_instr_insert(nir_after_instr(&alu->instr), &vec->instr); + + nir_phi_builder_value_set_block_def(value, alu->instr.block, + &vec->dest.dest.ssa); } -static bool -rewrite_def_backwards(nir_dest *dest, void *_state) +void +nir_lower_regs_to_ssa_impl(nir_function_impl *impl) { - rewrite_state *state = (rewrite_state *) _state; + if (exec_list_is_empty(&impl->registers)) + return; - if (!dest->is_ssa) - return true; + nir_metadata_require(impl, nir_metadata_block_index | + nir_metadata_dominance); + nir_index_local_regs(impl); - struct hash_entry *entry = - _mesa_hash_table_search(state->ssa_map, &dest->ssa); + struct regs_to_ssa_state state; + state.shader = impl->function->shader; + state.values = malloc(impl->reg_alloc * sizeof(*state.values)); - if (!entry) - return true; + struct nir_phi_builder *phi_build = nir_phi_builder_create(impl); - nir_register *reg = (nir_register *) entry->data; - unsigned index = reg->index; + const unsigned block_set_words = BITSET_WORDS(impl->num_blocks); + NIR_VLA(BITSET_WORD, defs, block_set_words); - state->states[index].index--; - assert(state->states[index].index >= -1); + nir_foreach_register(reg, &impl->registers) { + if (reg->num_array_elems != 0 || reg->is_packed) { + /* This pass only really works on "plain" registers. If it's a + * packed or array register, just set the value to NULL so that the + * rewrite portion of the pass will know to ignore it. + */ + state.values[reg->index] = NULL; + continue; + } - return true; -} + memset(defs, 0, block_set_words * sizeof(*defs)); -static void -rewrite_instr_backwards(nir_instr *instr, rewrite_state *state) -{ - nir_foreach_dest(instr, rewrite_def_backwards, state); -} + nir_foreach_def(dest, reg) + BITSET_SET(defs, dest->reg.parent_instr->block->index); -static void -rewrite_block(nir_block *block, rewrite_state *state) -{ - /* This will skip over any instructions after the current one, which is - * what we want because those instructions (vector gather, conditional - * select) will already be in SSA form. - */ - nir_foreach_instr_safe(instr, block) { - rewrite_instr_forward(instr, state); - } - - if (block != state->impl->end_block && - !nir_cf_node_is_last(&block->cf_node) && - nir_cf_node_next(&block->cf_node)->type == nir_cf_node_if) { - nir_if *if_stmt = nir_cf_node_as_if(nir_cf_node_next(&block->cf_node)); - state->parent_instr = NULL; - state->parent_if = if_stmt; - rewrite_use(&if_stmt->condition, state); + state.values[reg->index] = + nir_phi_builder_add_value(phi_build, reg->num_components, + reg->bit_size, defs); } - if (block->successors[0]) - rewrite_phi_sources(block->successors[0], block, state); - if (block->successors[1]) - rewrite_phi_sources(block->successors[1], block, state); - - for (unsigned i = 0; i < block->num_dom_children; i++) - rewrite_block(block->dom_children[i], state); + nir_foreach_block(block, impl) { + nir_foreach_instr(instr, block) { + if (instr->type == nir_instr_type_alu) { + rewrite_alu_instr(nir_instr_as_alu(instr), &state); + } else { + nir_foreach_src(instr, rewrite_src, &state); + nir_foreach_dest(instr, rewrite_dest, &state); + } + } - nir_foreach_instr_reverse(instr, block) { - rewrite_instr_backwards(instr, state); + nir_if *following_if = nir_block_get_following_if(block); + if (following_if) + rewrite_if_condition(following_if, &state); } -} -static void -remove_unused_regs(nir_function_impl *impl, rewrite_state *state) -{ - foreach_list_typed_safe(nir_register, reg, node, &impl->registers) { - if (state->states[reg->index].stack != NULL) - exec_node_remove(®->node); - } -} + nir_phi_builder_finish(phi_build); -static void -init_rewrite_state(nir_function_impl *impl, rewrite_state *state) -{ - state->impl = impl; - state->mem_ctx = ralloc_parent(impl); - state->ssa_map = _mesa_hash_table_create(NULL, _mesa_hash_pointer, - _mesa_key_pointer_equal); - state->states = rzalloc_array(NULL, reg_state, impl->reg_alloc); - - foreach_list_typed(nir_register, reg, node, &impl->registers) { - assert(reg->index < impl->reg_alloc); - if (reg->num_array_elems > 0) { - state->states[reg->index].stack = NULL; - } else { - /* - * Calculate a conservative estimate of the stack size based on the - * number of definitions there are. Note that this function *must* be - * called after phi nodes are inserted so we can count phi node - * definitions too. - */ - unsigned stack_size = list_length(®->defs); - - state->states[reg->index].stack = ralloc_array(state->states, - nir_ssa_def *, - stack_size); -#ifndef NDEBUG - state->states[reg->index].stack_size = stack_size; -#endif - state->states[reg->index].index = -1; - state->states[reg->index].num_defs = 0; + nir_foreach_register_safe(reg, &impl->registers) { + if (state.values[reg->index]) { + assert(list_empty(®->uses)); + assert(list_empty(®->if_uses)); + assert(list_empty(®->defs)); + exec_node_remove(®->node); } } -} -static void -destroy_rewrite_state(rewrite_state *state) -{ - _mesa_hash_table_destroy(state->ssa_map, NULL); - ralloc_free(state->states); -} - -void -nir_lower_regs_to_ssa_impl(nir_function_impl *impl) -{ - nir_metadata_require(impl, nir_metadata_dominance); - - insert_phi_nodes(impl); - - rewrite_state state; - init_rewrite_state(impl, &state); - - rewrite_block(nir_start_block(impl), &state); - - remove_unused_regs(impl, &state); + free(state.values); nir_metadata_preserve(impl, nir_metadata_block_index | nir_metadata_dominance); - - destroy_rewrite_state(&state); } void nir_lower_regs_to_ssa(nir_shader *shader) { + assert(exec_list_is_empty(&shader->registers)); + nir_foreach_function(function, shader) { if (function->impl) nir_lower_regs_to_ssa_impl(function->impl); |