diff options
author | Eric Anholt <[email protected]> | 2010-08-09 17:03:46 -0700 |
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committer | Eric Anholt <[email protected]> | 2010-08-09 19:21:18 -0700 |
commit | 8bebbeb7c5b26ec9166a4644a2c051238d18509b (patch) | |
tree | f2f663f93e10674b2e39f3c1a44a0e8a57060b1b /src/glsl/ir_constant_propagation.cpp | |
parent | 81996ae8618759cf7fdd033042a96f3014659f6c (diff) |
glsl2: Add constant propagation.
Whereas constant folding evaluates constant expressions at rvalue
nodes, constant propagation tracks constant components of vectors
across execution to replace (possibly swizzled) variable dereferences
with constant values, triggering possible constant folding or reduced
variable liveness.
Diffstat (limited to 'src/glsl/ir_constant_propagation.cpp')
-rw-r--r-- | src/glsl/ir_constant_propagation.cpp | 481 |
1 files changed, 481 insertions, 0 deletions
diff --git a/src/glsl/ir_constant_propagation.cpp b/src/glsl/ir_constant_propagation.cpp new file mode 100644 index 00000000000..adae0aa1171 --- /dev/null +++ b/src/glsl/ir_constant_propagation.cpp @@ -0,0 +1,481 @@ +/* + * Constantright © 2010 Intel Corporation + * + * Permission is hereby granted, free of charge, to any person obtaining a + * constant of this software and associated documentation files (the "Software"), + * to deal in the Software without restriction, including without limitation + * the rights to use, constant, modify, merge, publish, distribute, sublicense, + * and/or sell copies of the Software, and to permit persons to whom the + * Software is furnished to do so, subject to the following conditions: + * + * The above constantright notice and this permission notice (including the next + * paragraph) shall be included in all copies or substantial portions of the + * Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL + * THE AUTHORS OR CONSTANTRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING + * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER + * DEALINGS IN THE SOFTWARE. + */ + +/** + * \file ir_constant_propagation.cpp + * + * Tracks assignments of constants to channels of variables, and + * usage of those constant channels with direct usage of the constants. + * + * This can lead to constant folding and algebraic optimizations in + * those later expressions, while causing no increase in instruction + * count (due to constants being generally free to load from a + * constant push buffer or as instruction immediate values) and + * possibly reducing register pressure. + */ + +#include "ir.h" +#include "ir_visitor.h" +#include "ir_basic_block.h" +#include "ir_optimization.h" +#include "glsl_types.h" + +class acp_entry : public exec_node +{ +public: + acp_entry(ir_variable *var, unsigned write_mask, ir_constant *constant) + { + assert(var); + assert(constant); + this->var = var; + this->write_mask = write_mask; + this->constant = constant; + } + + ir_variable *var; + ir_constant *constant; + unsigned write_mask; +}; + + +class kill_entry : public exec_node +{ +public: + kill_entry(ir_variable *var, unsigned write_mask) + { + assert(var); + this->var = var; + this->write_mask = write_mask; + } + + ir_variable *var; + unsigned write_mask; +}; + +class ir_constant_propagation_visitor : public ir_hierarchical_visitor { +public: + ir_constant_propagation_visitor() + { + progress = false; + mem_ctx = talloc_new(0); + this->acp = new(mem_ctx) exec_list; + this->kills = new(mem_ctx) exec_list; + } + ~ir_constant_propagation_visitor() + { + talloc_free(mem_ctx); + } + + virtual ir_visitor_status visit_enter(class ir_loop *); + virtual ir_visitor_status visit_enter(class ir_function_signature *); + virtual ir_visitor_status visit_enter(class ir_function *); + virtual ir_visitor_status visit_enter(class ir_assignment *); + virtual ir_visitor_status visit_leave(class ir_assignment *); + virtual ir_visitor_status visit_enter(class ir_expression *); + virtual ir_visitor_status visit_enter(class ir_call *); + virtual ir_visitor_status visit_enter(class ir_if *); + virtual ir_visitor_status visit_enter(class ir_dereference_array *); + virtual ir_visitor_status visit_enter(class ir_texture *); + + void add_constant(ir_assignment *ir); + void kill(ir_variable *ir, unsigned write_mask); + void handle_if_block(exec_list *instructions); + void handle_rvalue(ir_rvalue **rvalue); + + /** List of acp_entry: The available constants to propagate */ + exec_list *acp; + + /** + * List of kill_entry: The masks of variables whose values were + * killed in this block. + */ + exec_list *kills; + + bool progress; + + bool killed_all; + + void *mem_ctx; +}; + + +void +ir_constant_propagation_visitor::handle_rvalue(ir_rvalue **rvalue) +{ + if (!*rvalue) + return; + + const glsl_type *type = (*rvalue)->type; + if (!type->is_scalar() && !type->is_vector()) + return; + + ir_swizzle *swiz = NULL; + ir_dereference_variable *deref = (*rvalue)->as_dereference_variable(); + if (!deref) { + swiz = (*rvalue)->as_swizzle(); + if (!swiz) + return; + + deref = swiz->val->as_dereference_variable(); + if (!deref) + return; + } + + ir_constant_data data; + memset(&data, 0, sizeof(data)); + + for (unsigned int i = 0; i < type->components(); i++) { + int channel; + acp_entry *found = NULL; + + if (swiz) { + switch (i) { + case 0: channel = swiz->mask.x; break; + case 1: channel = swiz->mask.y; break; + case 2: channel = swiz->mask.z; break; + case 3: channel = swiz->mask.w; break; + default: assert(!"shouldn't be reached"); channel = 0; break; + } + } else { + channel = i; + } + + foreach_iter(exec_list_iterator, iter, *this->acp) { + acp_entry *entry = (acp_entry *)iter.get(); + if (entry->var == deref->var && entry->write_mask & (1 << channel)) { + found = entry; + break; + } + } + + if (!found) + return; + + switch (type->base_type) { + case GLSL_TYPE_FLOAT: + data.f[i] = found->constant->value.f[channel]; + break; + case GLSL_TYPE_INT: + data.i[i] = found->constant->value.i[channel]; + break; + case GLSL_TYPE_UINT: + data.u[i] = found->constant->value.u[channel]; + break; + case GLSL_TYPE_BOOL: + data.b[i] = found->constant->value.b[channel]; + break; + default: + assert(!"not reached"); + break; + } + } + + *rvalue = new(talloc_parent(deref)) ir_constant(type, &data); + this->progress = true; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_function_signature *ir) +{ + /* Treat entry into a function signature as a completely separate + * block. Any instructions at global scope will be shuffled into + * main() at link time, so they're irrelevant to us. + */ + exec_list *orig_acp = this->acp; + exec_list *orig_kills = this->kills; + bool orig_killed_all = this->killed_all; + + this->acp = new(mem_ctx) exec_list; + this->kills = new(mem_ctx) exec_list; + this->killed_all = false; + + visit_list_elements(this, &ir->body); + + this->kills = orig_kills; + this->acp = orig_acp; + this->killed_all = orig_killed_all; + + return visit_continue_with_parent; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_assignment *ir) +{ + handle_rvalue(&ir->condition); + handle_rvalue(&ir->rhs); + + return visit_continue; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_leave(ir_assignment *ir) +{ + kill(ir->lhs->variable_referenced(), ir->write_mask); + + add_constant(ir); + + return visit_continue; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_expression *ir) +{ + for (unsigned int i = 0; i < ir->get_num_operands(); i++) { + handle_rvalue(&ir->operands[i]); + } + + return visit_continue; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_function *ir) +{ + (void) ir; + return visit_continue; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_call *ir) +{ + /* Do constant propagation on call parameters, but skip any out params */ + exec_list_iterator sig_param_iter = ir->get_callee()->parameters.iterator(); + foreach_iter(exec_list_iterator, iter, ir->actual_parameters) { + ir_variable *sig_param = (ir_variable *)sig_param_iter.get(); + ir_rvalue *param = (ir_rvalue *)iter.get(); + if (sig_param->mode != ir_var_out && sig_param->mode != ir_var_inout) { + ir_rvalue *new_param = param; + handle_rvalue(&new_param); + if (new_param != param) + param->replace_with(new_param); + else + param->accept(this); + } + sig_param_iter.next(); + } + + /* Since we're unlinked, we don't (necssarily) know the side effects of + * this call. So kill all copies. + */ + acp->make_empty(); + this->killed_all = true; + + return visit_continue_with_parent; +} + +void +ir_constant_propagation_visitor::handle_if_block(exec_list *instructions) +{ + exec_list *orig_acp = this->acp; + exec_list *orig_kills = this->kills; + bool orig_killed_all = this->killed_all; + + this->acp = new(mem_ctx) exec_list; + this->kills = new(mem_ctx) exec_list; + this->killed_all = false; + + /* Populate the initial acp with a constant of the original */ + foreach_iter(exec_list_iterator, iter, *orig_acp) { + acp_entry *a = (acp_entry *)iter.get(); + this->acp->push_tail(new(this->mem_ctx) acp_entry(a->var, a->write_mask, + a->constant)); + } + + visit_list_elements(this, instructions); + + if (this->killed_all) { + orig_acp->make_empty(); + } + + exec_list *new_kills = this->kills; + this->kills = orig_kills; + this->acp = orig_acp; + this->killed_all = this->killed_all || orig_killed_all; + + foreach_iter(exec_list_iterator, iter, *new_kills) { + kill_entry *k = (kill_entry *)iter.get(); + kill(k->var, k->write_mask); + } +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_if *ir) +{ + ir->condition->accept(this); + handle_rvalue(&ir->condition); + + handle_if_block(&ir->then_instructions); + handle_if_block(&ir->else_instructions); + + /* handle_if_block() already descended into the children. */ + return visit_continue_with_parent; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_dereference_array *ir) +{ + handle_rvalue(&ir->array_index); + return visit_continue; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_texture *ir) +{ + handle_rvalue(&ir->coordinate); + handle_rvalue(&ir->projector); + handle_rvalue(&ir->shadow_comparitor); + + switch (ir->op) { + case ir_tex: + break; + case ir_txb: + handle_rvalue(&ir->lod_info.bias); + break; + case ir_txf: + case ir_txl: + handle_rvalue(&ir->lod_info.lod); + break; + case ir_txd: + handle_rvalue(&ir->lod_info.grad.dPdx); + handle_rvalue(&ir->lod_info.grad.dPdy); + break; + } + + return visit_continue; +} + +ir_visitor_status +ir_constant_propagation_visitor::visit_enter(ir_loop *ir) +{ + exec_list *orig_acp = this->acp; + exec_list *orig_kills = this->kills; + bool orig_killed_all = this->killed_all; + + /* FINISHME: For now, the initial acp for loops is totally empty. + * We could go through once, then go through again with the acp + * cloned minus the killed entries after the first run through. + */ + this->acp = new(mem_ctx) exec_list; + this->kills = new(mem_ctx) exec_list; + this->killed_all = false; + + visit_list_elements(this, &ir->body_instructions); + + if (this->killed_all) { + orig_acp->make_empty(); + } + + exec_list *new_kills = this->kills; + this->kills = orig_kills; + this->acp = orig_acp; + this->killed_all = this->killed_all || orig_killed_all; + + foreach_iter(exec_list_iterator, iter, *new_kills) { + kill_entry *k = (kill_entry *)iter.get(); + kill(k->var, k->write_mask); + } + + /* already descended into the children. */ + return visit_continue_with_parent; +} + +void +ir_constant_propagation_visitor::kill(ir_variable *var, unsigned write_mask) +{ + assert(var != NULL); + + /* We don't track non-vectors. */ + if (!var->type->is_vector() && !var->type->is_scalar()) + return; + + /* Remove any entries currently in the ACP for this kill. */ + foreach_iter(exec_list_iterator, iter, *this->acp) { + acp_entry *entry = (acp_entry *)iter.get(); + + if (entry->var == var) { + entry->write_mask &= ~write_mask; + if (entry->write_mask == 0) + entry->remove(); + } + } + + /* Add this writemask of the variable to the list of killed + * variables in this block. + */ + foreach_iter(exec_list_iterator, iter, *this->kills) { + kill_entry *entry = (kill_entry *)iter.get(); + + if (entry->var == var) { + entry->write_mask |= write_mask; + return; + } + } + /* Not already in the list. Make new entry. */ + this->kills->push_tail(new(this->mem_ctx) kill_entry(var, write_mask)); +} + +/** + * Adds an entry to the available constant list if it's a plain assignment + * of a variable to a variable. + */ +void +ir_constant_propagation_visitor::add_constant(ir_assignment *ir) +{ + acp_entry *entry; + + if (ir->condition) { + ir_constant *condition = ir->condition->as_constant(); + if (!condition || !condition->value.b[0]) + return; + } + + if (!ir->write_mask) + return; + + ir_dereference_variable *deref = ir->lhs->as_dereference_variable(); + ir_constant *constant = ir->rhs->as_constant(); + + if (!deref || !constant) + return; + + /* Only do constant propagation on vectors. Constant matrices, + * arrays, or structures would require more work elsewhere. + */ + if (!deref->var->type->is_vector() && !deref->var->type->is_scalar()) + return; + + entry = new(this->mem_ctx) acp_entry(deref->var, ir->write_mask, constant); + this->acp->push_tail(entry); +} + +/** + * Does a constant propagation pass on the code present in the instruction stream. + */ +bool +do_constant_propagation(exec_list *instructions) +{ + ir_constant_propagation_visitor v; + + visit_list_elements(&v, instructions); + + return v.progress; +} |