101e04c3fSmrg/* 201e04c3fSmrg * Copyright (c) 2015 Intel Corporation 301e04c3fSmrg * 401e04c3fSmrg * Permission is hereby granted, free of charge, to any person obtaining a 501e04c3fSmrg * copy of this software and associated documentation files (the "Software"), 601e04c3fSmrg * to deal in the Software without restriction, including without limitation 701e04c3fSmrg * the rights to use, copy, modify, merge, publish, distribute, sublicense, 801e04c3fSmrg * and/or sell copies of the Software, and to permit persons to whom the 901e04c3fSmrg * Software is furnished to do so, subject to the following conditions: 1001e04c3fSmrg * 1101e04c3fSmrg * The above copyright notice and this permission notice (including the next 1201e04c3fSmrg * paragraph) shall be included in all copies or substantial portions of the 1301e04c3fSmrg * Software. 1401e04c3fSmrg * 1501e04c3fSmrg * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 1601e04c3fSmrg * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 1701e04c3fSmrg * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 1801e04c3fSmrg * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 1901e04c3fSmrg * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING 2001e04c3fSmrg * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER 2101e04c3fSmrg * DEALINGS IN THE SOFTWARE. 2201e04c3fSmrg */ 2301e04c3fSmrg 2401e04c3fSmrg/** 2501e04c3fSmrg * \file lower_shared_reference.cpp 2601e04c3fSmrg * 2701e04c3fSmrg * IR lower pass to replace dereferences of compute shader shared variables 2801e04c3fSmrg * with intrinsic function calls. 2901e04c3fSmrg * 3001e04c3fSmrg * This relieves drivers of the responsibility of allocating space for the 3101e04c3fSmrg * shared variables in the shared memory region. 3201e04c3fSmrg */ 3301e04c3fSmrg 3401e04c3fSmrg#include "lower_buffer_access.h" 3501e04c3fSmrg#include "ir_builder.h" 3601e04c3fSmrg#include "linker.h" 3701e04c3fSmrg#include "main/macros.h" 3801e04c3fSmrg#include "util/list.h" 3901e04c3fSmrg#include "glsl_parser_extras.h" 4001e04c3fSmrg#include "main/mtypes.h" 4101e04c3fSmrg 4201e04c3fSmrgusing namespace ir_builder; 4301e04c3fSmrg 4401e04c3fSmrgnamespace { 4501e04c3fSmrg 4601e04c3fSmrgstruct var_offset { 4701e04c3fSmrg struct list_head node; 4801e04c3fSmrg const ir_variable *var; 4901e04c3fSmrg unsigned offset; 5001e04c3fSmrg}; 5101e04c3fSmrg 5201e04c3fSmrgclass lower_shared_reference_visitor : 5301e04c3fSmrg public lower_buffer_access::lower_buffer_access { 5401e04c3fSmrgpublic: 5501e04c3fSmrg 5601e04c3fSmrg lower_shared_reference_visitor(struct gl_linked_shader *shader) 577ec681f3Smrg : buffer_access_type(shared_load_access), 587ec681f3Smrg list_ctx(ralloc_context(NULL)), shader(shader), shared_size(0u), 597ec681f3Smrg progress(false) 6001e04c3fSmrg { 6101e04c3fSmrg list_inithead(&var_offsets); 6201e04c3fSmrg } 6301e04c3fSmrg 6401e04c3fSmrg ~lower_shared_reference_visitor() 6501e04c3fSmrg { 6601e04c3fSmrg ralloc_free(list_ctx); 6701e04c3fSmrg } 6801e04c3fSmrg 6901e04c3fSmrg enum { 7001e04c3fSmrg shared_load_access, 7101e04c3fSmrg shared_store_access, 7201e04c3fSmrg shared_atomic_access, 7301e04c3fSmrg } buffer_access_type; 7401e04c3fSmrg 7501e04c3fSmrg void insert_buffer_access(void *mem_ctx, ir_dereference *deref, 7601e04c3fSmrg const glsl_type *type, ir_rvalue *offset, 7701e04c3fSmrg unsigned mask, int channel); 7801e04c3fSmrg 7901e04c3fSmrg void handle_rvalue(ir_rvalue **rvalue); 8001e04c3fSmrg ir_visitor_status visit_enter(ir_assignment *ir); 8101e04c3fSmrg void handle_assignment(ir_assignment *ir); 8201e04c3fSmrg 8301e04c3fSmrg ir_call *lower_shared_atomic_intrinsic(ir_call *ir); 8401e04c3fSmrg ir_call *check_for_shared_atomic_intrinsic(ir_call *ir); 8501e04c3fSmrg ir_visitor_status visit_enter(ir_call *ir); 8601e04c3fSmrg 8701e04c3fSmrg unsigned get_shared_offset(const ir_variable *); 8801e04c3fSmrg 8901e04c3fSmrg ir_call *shared_load(void *mem_ctx, const struct glsl_type *type, 9001e04c3fSmrg ir_rvalue *offset); 9101e04c3fSmrg ir_call *shared_store(void *mem_ctx, ir_rvalue *deref, ir_rvalue *offset, 9201e04c3fSmrg unsigned write_mask); 9301e04c3fSmrg 9401e04c3fSmrg void *list_ctx; 9501e04c3fSmrg struct gl_linked_shader *shader; 9601e04c3fSmrg struct list_head var_offsets; 9701e04c3fSmrg unsigned shared_size; 9801e04c3fSmrg bool progress; 9901e04c3fSmrg}; 10001e04c3fSmrg 10101e04c3fSmrgunsigned 10201e04c3fSmrglower_shared_reference_visitor::get_shared_offset(const ir_variable *var) 10301e04c3fSmrg{ 10401e04c3fSmrg list_for_each_entry(var_offset, var_entry, &var_offsets, node) { 10501e04c3fSmrg if (var_entry->var == var) 10601e04c3fSmrg return var_entry->offset; 10701e04c3fSmrg } 10801e04c3fSmrg 10901e04c3fSmrg struct var_offset *new_entry = rzalloc(list_ctx, struct var_offset); 11001e04c3fSmrg list_add(&new_entry->node, &var_offsets); 11101e04c3fSmrg new_entry->var = var; 11201e04c3fSmrg 11301e04c3fSmrg unsigned var_align = var->type->std430_base_alignment(false); 11401e04c3fSmrg new_entry->offset = glsl_align(shared_size, var_align); 11501e04c3fSmrg 11601e04c3fSmrg unsigned var_size = var->type->std430_size(false); 11701e04c3fSmrg shared_size = new_entry->offset + var_size; 11801e04c3fSmrg 11901e04c3fSmrg return new_entry->offset; 12001e04c3fSmrg} 12101e04c3fSmrg 12201e04c3fSmrgvoid 12301e04c3fSmrglower_shared_reference_visitor::handle_rvalue(ir_rvalue **rvalue) 12401e04c3fSmrg{ 12501e04c3fSmrg if (!*rvalue) 12601e04c3fSmrg return; 12701e04c3fSmrg 12801e04c3fSmrg ir_dereference *deref = (*rvalue)->as_dereference(); 12901e04c3fSmrg if (!deref) 13001e04c3fSmrg return; 13101e04c3fSmrg 13201e04c3fSmrg ir_variable *var = deref->variable_referenced(); 13301e04c3fSmrg if (!var || var->data.mode != ir_var_shader_shared) 13401e04c3fSmrg return; 13501e04c3fSmrg 13601e04c3fSmrg buffer_access_type = shared_load_access; 13701e04c3fSmrg 13801e04c3fSmrg void *mem_ctx = ralloc_parent(shader->ir); 13901e04c3fSmrg 14001e04c3fSmrg ir_rvalue *offset = NULL; 14101e04c3fSmrg unsigned const_offset = get_shared_offset(var); 14201e04c3fSmrg bool row_major; 14301e04c3fSmrg const glsl_type *matrix_type; 14401e04c3fSmrg assert(var->get_interface_type() == NULL); 14501e04c3fSmrg const enum glsl_interface_packing packing = GLSL_INTERFACE_PACKING_STD430; 14601e04c3fSmrg 14701e04c3fSmrg setup_buffer_access(mem_ctx, deref, 14801e04c3fSmrg &offset, &const_offset, 14901e04c3fSmrg &row_major, &matrix_type, NULL, packing); 15001e04c3fSmrg 15101e04c3fSmrg /* Now that we've calculated the offset to the start of the 15201e04c3fSmrg * dereference, walk over the type and emit loads into a temporary. 15301e04c3fSmrg */ 15401e04c3fSmrg const glsl_type *type = (*rvalue)->type; 15501e04c3fSmrg ir_variable *load_var = new(mem_ctx) ir_variable(type, 15601e04c3fSmrg "shared_load_temp", 15701e04c3fSmrg ir_var_temporary); 15801e04c3fSmrg base_ir->insert_before(load_var); 15901e04c3fSmrg 16001e04c3fSmrg ir_variable *load_offset = new(mem_ctx) ir_variable(glsl_type::uint_type, 16101e04c3fSmrg "shared_load_temp_offset", 16201e04c3fSmrg ir_var_temporary); 16301e04c3fSmrg base_ir->insert_before(load_offset); 16401e04c3fSmrg base_ir->insert_before(assign(load_offset, offset)); 16501e04c3fSmrg 16601e04c3fSmrg deref = new(mem_ctx) ir_dereference_variable(load_var); 16701e04c3fSmrg 16801e04c3fSmrg emit_access(mem_ctx, false, deref, load_offset, const_offset, row_major, 16901e04c3fSmrg matrix_type, packing, 0); 17001e04c3fSmrg 17101e04c3fSmrg *rvalue = deref; 17201e04c3fSmrg 17301e04c3fSmrg progress = true; 17401e04c3fSmrg} 17501e04c3fSmrg 17601e04c3fSmrgvoid 17701e04c3fSmrglower_shared_reference_visitor::handle_assignment(ir_assignment *ir) 17801e04c3fSmrg{ 17901e04c3fSmrg if (!ir || !ir->lhs) 18001e04c3fSmrg return; 18101e04c3fSmrg 18201e04c3fSmrg ir_rvalue *rvalue = ir->lhs->as_rvalue(); 18301e04c3fSmrg if (!rvalue) 18401e04c3fSmrg return; 18501e04c3fSmrg 18601e04c3fSmrg ir_dereference *deref = ir->lhs->as_dereference(); 18701e04c3fSmrg if (!deref) 18801e04c3fSmrg return; 18901e04c3fSmrg 19001e04c3fSmrg ir_variable *var = ir->lhs->variable_referenced(); 19101e04c3fSmrg if (!var || var->data.mode != ir_var_shader_shared) 19201e04c3fSmrg return; 19301e04c3fSmrg 19401e04c3fSmrg buffer_access_type = shared_store_access; 19501e04c3fSmrg 19601e04c3fSmrg /* We have a write to a shared variable, so declare a temporary and rewrite 19701e04c3fSmrg * the assignment so that the temporary is the LHS. 19801e04c3fSmrg */ 19901e04c3fSmrg void *mem_ctx = ralloc_parent(shader->ir); 20001e04c3fSmrg 20101e04c3fSmrg const glsl_type *type = rvalue->type; 20201e04c3fSmrg ir_variable *store_var = new(mem_ctx) ir_variable(type, 20301e04c3fSmrg "shared_store_temp", 20401e04c3fSmrg ir_var_temporary); 20501e04c3fSmrg base_ir->insert_before(store_var); 20601e04c3fSmrg ir->lhs = new(mem_ctx) ir_dereference_variable(store_var); 20701e04c3fSmrg 20801e04c3fSmrg ir_rvalue *offset = NULL; 20901e04c3fSmrg unsigned const_offset = get_shared_offset(var); 21001e04c3fSmrg bool row_major; 21101e04c3fSmrg const glsl_type *matrix_type; 21201e04c3fSmrg assert(var->get_interface_type() == NULL); 21301e04c3fSmrg const enum glsl_interface_packing packing = GLSL_INTERFACE_PACKING_STD430; 21401e04c3fSmrg 21501e04c3fSmrg setup_buffer_access(mem_ctx, deref, 21601e04c3fSmrg &offset, &const_offset, 21701e04c3fSmrg &row_major, &matrix_type, NULL, packing); 21801e04c3fSmrg 21901e04c3fSmrg deref = new(mem_ctx) ir_dereference_variable(store_var); 22001e04c3fSmrg 22101e04c3fSmrg ir_variable *store_offset = new(mem_ctx) ir_variable(glsl_type::uint_type, 22201e04c3fSmrg "shared_store_temp_offset", 22301e04c3fSmrg ir_var_temporary); 22401e04c3fSmrg base_ir->insert_before(store_offset); 22501e04c3fSmrg base_ir->insert_before(assign(store_offset, offset)); 22601e04c3fSmrg 22701e04c3fSmrg /* Now we have to write the value assigned to the temporary back to memory */ 22801e04c3fSmrg emit_access(mem_ctx, true, deref, store_offset, const_offset, row_major, 22901e04c3fSmrg matrix_type, packing, ir->write_mask); 23001e04c3fSmrg 23101e04c3fSmrg progress = true; 23201e04c3fSmrg} 23301e04c3fSmrg 23401e04c3fSmrgir_visitor_status 23501e04c3fSmrglower_shared_reference_visitor::visit_enter(ir_assignment *ir) 23601e04c3fSmrg{ 23701e04c3fSmrg handle_assignment(ir); 23801e04c3fSmrg return rvalue_visit(ir); 23901e04c3fSmrg} 24001e04c3fSmrg 24101e04c3fSmrgvoid 24201e04c3fSmrglower_shared_reference_visitor::insert_buffer_access(void *mem_ctx, 24301e04c3fSmrg ir_dereference *deref, 24401e04c3fSmrg const glsl_type *type, 24501e04c3fSmrg ir_rvalue *offset, 24601e04c3fSmrg unsigned mask, 24701e04c3fSmrg int /* channel */) 24801e04c3fSmrg{ 24901e04c3fSmrg if (buffer_access_type == shared_store_access) { 25001e04c3fSmrg ir_call *store = shared_store(mem_ctx, deref, offset, mask); 25101e04c3fSmrg base_ir->insert_after(store); 25201e04c3fSmrg } else { 25301e04c3fSmrg ir_call *load = shared_load(mem_ctx, type, offset); 25401e04c3fSmrg base_ir->insert_before(load); 25501e04c3fSmrg ir_rvalue *value = load->return_deref->as_rvalue()->clone(mem_ctx, NULL); 25601e04c3fSmrg base_ir->insert_before(assign(deref->clone(mem_ctx, NULL), 25701e04c3fSmrg value)); 25801e04c3fSmrg } 25901e04c3fSmrg} 26001e04c3fSmrg 26101e04c3fSmrgstatic bool 26201e04c3fSmrgcompute_shader_enabled(const _mesa_glsl_parse_state *state) 26301e04c3fSmrg{ 26401e04c3fSmrg return state->stage == MESA_SHADER_COMPUTE; 26501e04c3fSmrg} 26601e04c3fSmrg 26701e04c3fSmrgir_call * 26801e04c3fSmrglower_shared_reference_visitor::shared_store(void *mem_ctx, 26901e04c3fSmrg ir_rvalue *deref, 27001e04c3fSmrg ir_rvalue *offset, 27101e04c3fSmrg unsigned write_mask) 27201e04c3fSmrg{ 27301e04c3fSmrg exec_list sig_params; 27401e04c3fSmrg 27501e04c3fSmrg ir_variable *offset_ref = new(mem_ctx) 27601e04c3fSmrg ir_variable(glsl_type::uint_type, "offset" , ir_var_function_in); 27701e04c3fSmrg sig_params.push_tail(offset_ref); 27801e04c3fSmrg 27901e04c3fSmrg ir_variable *val_ref = new(mem_ctx) 28001e04c3fSmrg ir_variable(deref->type, "value" , ir_var_function_in); 28101e04c3fSmrg sig_params.push_tail(val_ref); 28201e04c3fSmrg 28301e04c3fSmrg ir_variable *writemask_ref = new(mem_ctx) 28401e04c3fSmrg ir_variable(glsl_type::uint_type, "write_mask" , ir_var_function_in); 28501e04c3fSmrg sig_params.push_tail(writemask_ref); 28601e04c3fSmrg 28701e04c3fSmrg ir_function_signature *sig = new(mem_ctx) 28801e04c3fSmrg ir_function_signature(glsl_type::void_type, compute_shader_enabled); 28901e04c3fSmrg assert(sig); 29001e04c3fSmrg sig->replace_parameters(&sig_params); 29101e04c3fSmrg sig->intrinsic_id = ir_intrinsic_shared_store; 29201e04c3fSmrg 29301e04c3fSmrg ir_function *f = new(mem_ctx) ir_function("__intrinsic_store_shared"); 29401e04c3fSmrg f->add_signature(sig); 29501e04c3fSmrg 29601e04c3fSmrg exec_list call_params; 29701e04c3fSmrg call_params.push_tail(offset->clone(mem_ctx, NULL)); 29801e04c3fSmrg call_params.push_tail(deref->clone(mem_ctx, NULL)); 29901e04c3fSmrg call_params.push_tail(new(mem_ctx) ir_constant(write_mask)); 30001e04c3fSmrg return new(mem_ctx) ir_call(sig, NULL, &call_params); 30101e04c3fSmrg} 30201e04c3fSmrg 30301e04c3fSmrgir_call * 30401e04c3fSmrglower_shared_reference_visitor::shared_load(void *mem_ctx, 30501e04c3fSmrg const struct glsl_type *type, 30601e04c3fSmrg ir_rvalue *offset) 30701e04c3fSmrg{ 30801e04c3fSmrg exec_list sig_params; 30901e04c3fSmrg 31001e04c3fSmrg ir_variable *offset_ref = new(mem_ctx) 31101e04c3fSmrg ir_variable(glsl_type::uint_type, "offset_ref" , ir_var_function_in); 31201e04c3fSmrg sig_params.push_tail(offset_ref); 31301e04c3fSmrg 31401e04c3fSmrg ir_function_signature *sig = 31501e04c3fSmrg new(mem_ctx) ir_function_signature(type, compute_shader_enabled); 31601e04c3fSmrg assert(sig); 31701e04c3fSmrg sig->replace_parameters(&sig_params); 31801e04c3fSmrg sig->intrinsic_id = ir_intrinsic_shared_load; 31901e04c3fSmrg 32001e04c3fSmrg ir_function *f = new(mem_ctx) ir_function("__intrinsic_load_shared"); 32101e04c3fSmrg f->add_signature(sig); 32201e04c3fSmrg 32301e04c3fSmrg ir_variable *result = new(mem_ctx) 32401e04c3fSmrg ir_variable(type, "shared_load_result", ir_var_temporary); 32501e04c3fSmrg base_ir->insert_before(result); 32601e04c3fSmrg ir_dereference_variable *deref_result = new(mem_ctx) 32701e04c3fSmrg ir_dereference_variable(result); 32801e04c3fSmrg 32901e04c3fSmrg exec_list call_params; 33001e04c3fSmrg call_params.push_tail(offset->clone(mem_ctx, NULL)); 33101e04c3fSmrg 33201e04c3fSmrg return new(mem_ctx) ir_call(sig, deref_result, &call_params); 33301e04c3fSmrg} 33401e04c3fSmrg 33501e04c3fSmrg/* Lowers the intrinsic call to a new internal intrinsic that swaps the access 33601e04c3fSmrg * to the shared variable in the first parameter by an offset. This involves 33701e04c3fSmrg * creating the new internal intrinsic (i.e. the new function signature). 33801e04c3fSmrg */ 33901e04c3fSmrgir_call * 34001e04c3fSmrglower_shared_reference_visitor::lower_shared_atomic_intrinsic(ir_call *ir) 34101e04c3fSmrg{ 34201e04c3fSmrg /* Shared atomics usually have 2 parameters, the shared variable and an 34301e04c3fSmrg * integer argument. The exception is CompSwap, that has an additional 34401e04c3fSmrg * integer parameter. 34501e04c3fSmrg */ 34601e04c3fSmrg int param_count = ir->actual_parameters.length(); 34701e04c3fSmrg assert(param_count == 2 || param_count == 3); 34801e04c3fSmrg 34901e04c3fSmrg /* First argument must be a scalar integer shared variable */ 35001e04c3fSmrg exec_node *param = ir->actual_parameters.get_head(); 35101e04c3fSmrg ir_instruction *inst = (ir_instruction *) param; 35201e04c3fSmrg assert(inst->ir_type == ir_type_dereference_variable || 35301e04c3fSmrg inst->ir_type == ir_type_dereference_array || 35401e04c3fSmrg inst->ir_type == ir_type_dereference_record || 35501e04c3fSmrg inst->ir_type == ir_type_swizzle); 35601e04c3fSmrg 35701e04c3fSmrg ir_rvalue *deref = (ir_rvalue *) inst; 35801e04c3fSmrg assert(deref->type->is_scalar() && 3597ec681f3Smrg (deref->type->is_integer_32_64() || deref->type->is_float())); 36001e04c3fSmrg 36101e04c3fSmrg ir_variable *var = deref->variable_referenced(); 36201e04c3fSmrg assert(var); 36301e04c3fSmrg 36401e04c3fSmrg /* Compute the offset to the start if the dereference 36501e04c3fSmrg */ 36601e04c3fSmrg void *mem_ctx = ralloc_parent(shader->ir); 36701e04c3fSmrg 36801e04c3fSmrg ir_rvalue *offset = NULL; 36901e04c3fSmrg unsigned const_offset = get_shared_offset(var); 37001e04c3fSmrg bool row_major; 37101e04c3fSmrg const glsl_type *matrix_type; 37201e04c3fSmrg assert(var->get_interface_type() == NULL); 37301e04c3fSmrg const enum glsl_interface_packing packing = GLSL_INTERFACE_PACKING_STD430; 37401e04c3fSmrg buffer_access_type = shared_atomic_access; 37501e04c3fSmrg 37601e04c3fSmrg setup_buffer_access(mem_ctx, deref, 37701e04c3fSmrg &offset, &const_offset, 37801e04c3fSmrg &row_major, &matrix_type, NULL, packing); 37901e04c3fSmrg 38001e04c3fSmrg assert(offset); 38101e04c3fSmrg assert(!row_major); 38201e04c3fSmrg assert(matrix_type == NULL); 38301e04c3fSmrg 38401e04c3fSmrg ir_rvalue *deref_offset = 38501e04c3fSmrg add(offset, new(mem_ctx) ir_constant(const_offset)); 38601e04c3fSmrg 38701e04c3fSmrg /* Create the new internal function signature that will take an offset 38801e04c3fSmrg * instead of a shared variable 38901e04c3fSmrg */ 39001e04c3fSmrg exec_list sig_params; 39101e04c3fSmrg ir_variable *sig_param = new(mem_ctx) 39201e04c3fSmrg ir_variable(glsl_type::uint_type, "offset" , ir_var_function_in); 39301e04c3fSmrg sig_params.push_tail(sig_param); 39401e04c3fSmrg 39501e04c3fSmrg const glsl_type *type = deref->type->get_scalar_type(); 39601e04c3fSmrg sig_param = new(mem_ctx) 39701e04c3fSmrg ir_variable(type, "data1", ir_var_function_in); 39801e04c3fSmrg sig_params.push_tail(sig_param); 39901e04c3fSmrg 40001e04c3fSmrg if (param_count == 3) { 40101e04c3fSmrg sig_param = new(mem_ctx) 40201e04c3fSmrg ir_variable(type, "data2", ir_var_function_in); 40301e04c3fSmrg sig_params.push_tail(sig_param); 40401e04c3fSmrg } 40501e04c3fSmrg 40601e04c3fSmrg ir_function_signature *sig = 40701e04c3fSmrg new(mem_ctx) ir_function_signature(deref->type, 40801e04c3fSmrg compute_shader_enabled); 40901e04c3fSmrg assert(sig); 41001e04c3fSmrg sig->replace_parameters(&sig_params); 41101e04c3fSmrg 41201e04c3fSmrg assert(ir->callee->intrinsic_id >= ir_intrinsic_generic_load); 41301e04c3fSmrg assert(ir->callee->intrinsic_id <= ir_intrinsic_generic_atomic_comp_swap); 41401e04c3fSmrg sig->intrinsic_id = MAP_INTRINSIC_TO_TYPE(ir->callee->intrinsic_id, shared); 41501e04c3fSmrg 41601e04c3fSmrg char func_name[64]; 41701e04c3fSmrg sprintf(func_name, "%s_shared", ir->callee_name()); 41801e04c3fSmrg ir_function *f = new(mem_ctx) ir_function(func_name); 41901e04c3fSmrg f->add_signature(sig); 42001e04c3fSmrg 42101e04c3fSmrg /* Now, create the call to the internal intrinsic */ 42201e04c3fSmrg exec_list call_params; 42301e04c3fSmrg call_params.push_tail(deref_offset); 42401e04c3fSmrg param = ir->actual_parameters.get_head()->get_next(); 42501e04c3fSmrg ir_rvalue *param_as_rvalue = ((ir_instruction *) param)->as_rvalue(); 42601e04c3fSmrg call_params.push_tail(param_as_rvalue->clone(mem_ctx, NULL)); 42701e04c3fSmrg if (param_count == 3) { 42801e04c3fSmrg param = param->get_next(); 42901e04c3fSmrg param_as_rvalue = ((ir_instruction *) param)->as_rvalue(); 43001e04c3fSmrg call_params.push_tail(param_as_rvalue->clone(mem_ctx, NULL)); 43101e04c3fSmrg } 43201e04c3fSmrg ir_dereference_variable *return_deref = 43301e04c3fSmrg ir->return_deref->clone(mem_ctx, NULL); 43401e04c3fSmrg return new(mem_ctx) ir_call(sig, return_deref, &call_params); 43501e04c3fSmrg} 43601e04c3fSmrg 43701e04c3fSmrgir_call * 43801e04c3fSmrglower_shared_reference_visitor::check_for_shared_atomic_intrinsic(ir_call *ir) 43901e04c3fSmrg{ 44001e04c3fSmrg exec_list& params = ir->actual_parameters; 44101e04c3fSmrg 44201e04c3fSmrg if (params.length() < 2 || params.length() > 3) 44301e04c3fSmrg return ir; 44401e04c3fSmrg 44501e04c3fSmrg ir_rvalue *rvalue = 44601e04c3fSmrg ((ir_instruction *) params.get_head())->as_rvalue(); 44701e04c3fSmrg if (!rvalue) 44801e04c3fSmrg return ir; 44901e04c3fSmrg 45001e04c3fSmrg ir_variable *var = rvalue->variable_referenced(); 45101e04c3fSmrg if (!var || var->data.mode != ir_var_shader_shared) 45201e04c3fSmrg return ir; 45301e04c3fSmrg 45401e04c3fSmrg const enum ir_intrinsic_id id = ir->callee->intrinsic_id; 45501e04c3fSmrg if (id == ir_intrinsic_generic_atomic_add || 45601e04c3fSmrg id == ir_intrinsic_generic_atomic_min || 45701e04c3fSmrg id == ir_intrinsic_generic_atomic_max || 45801e04c3fSmrg id == ir_intrinsic_generic_atomic_and || 45901e04c3fSmrg id == ir_intrinsic_generic_atomic_or || 46001e04c3fSmrg id == ir_intrinsic_generic_atomic_xor || 46101e04c3fSmrg id == ir_intrinsic_generic_atomic_exchange || 46201e04c3fSmrg id == ir_intrinsic_generic_atomic_comp_swap) { 46301e04c3fSmrg return lower_shared_atomic_intrinsic(ir); 46401e04c3fSmrg } 46501e04c3fSmrg 46601e04c3fSmrg return ir; 46701e04c3fSmrg} 46801e04c3fSmrg 46901e04c3fSmrgir_visitor_status 47001e04c3fSmrglower_shared_reference_visitor::visit_enter(ir_call *ir) 47101e04c3fSmrg{ 47201e04c3fSmrg ir_call *new_ir = check_for_shared_atomic_intrinsic(ir); 47301e04c3fSmrg if (new_ir != ir) { 47401e04c3fSmrg progress = true; 47501e04c3fSmrg base_ir->replace_with(new_ir); 47601e04c3fSmrg return visit_continue_with_parent; 47701e04c3fSmrg } 47801e04c3fSmrg 47901e04c3fSmrg return rvalue_visit(ir); 48001e04c3fSmrg} 48101e04c3fSmrg 48201e04c3fSmrg} /* unnamed namespace */ 48301e04c3fSmrg 48401e04c3fSmrgvoid 48501e04c3fSmrglower_shared_reference(struct gl_context *ctx, 48601e04c3fSmrg struct gl_shader_program *prog, 48701e04c3fSmrg struct gl_linked_shader *shader) 48801e04c3fSmrg{ 48901e04c3fSmrg if (shader->Stage != MESA_SHADER_COMPUTE) 49001e04c3fSmrg return; 49101e04c3fSmrg 49201e04c3fSmrg lower_shared_reference_visitor v(shader); 49301e04c3fSmrg 49401e04c3fSmrg /* Loop over the instructions lowering references, because we take a deref 49501e04c3fSmrg * of an shared variable array using a shared variable dereference as the 49601e04c3fSmrg * index will produce a collection of instructions all of which have cloned 49701e04c3fSmrg * shared variable dereferences for that array index. 49801e04c3fSmrg */ 49901e04c3fSmrg do { 50001e04c3fSmrg v.progress = false; 50101e04c3fSmrg visit_list_elements(&v, shader->ir); 50201e04c3fSmrg } while (v.progress); 50301e04c3fSmrg 50401e04c3fSmrg prog->Comp.SharedSize = v.shared_size; 50501e04c3fSmrg 50601e04c3fSmrg /* Section 19.1 (Compute Shader Variables) of the OpenGL 4.5 (Core Profile) 50701e04c3fSmrg * specification says: 50801e04c3fSmrg * 50901e04c3fSmrg * "There is a limit to the total size of all variables declared as 51001e04c3fSmrg * shared in a single program object. This limit, expressed in units of 51101e04c3fSmrg * basic machine units, may be queried as the value of 51201e04c3fSmrg * MAX_COMPUTE_SHARED_MEMORY_SIZE." 51301e04c3fSmrg */ 51401e04c3fSmrg if (prog->Comp.SharedSize > ctx->Const.MaxComputeSharedMemorySize) { 51501e04c3fSmrg linker_error(prog, "Too much shared memory used (%u/%u)\n", 51601e04c3fSmrg prog->Comp.SharedSize, 51701e04c3fSmrg ctx->Const.MaxComputeSharedMemorySize); 51801e04c3fSmrg } 51901e04c3fSmrg} 520