/* * Copyright 2011 Tom Stellard * * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, 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 copyright 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 COPYRIGHT OWNER(S) AND/OR ITS SUPPLIERS 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. * */ #include "radeon_variable.h" #include "memory_pool.h" #include "radeon_compiler_util.h" #include "radeon_dataflow.h" #include "radeon_list.h" #include "radeon_opcodes.h" #include "radeon_program.h" /** * Rewrite the index and writemask for the destination register of var * and its friends to new_index and new_writemask. This function also takes * care of rewriting the swizzles for the sources of var. */ void rc_variable_change_dst( struct rc_variable * var, unsigned int new_index, unsigned int new_writemask) { struct rc_variable * var_ptr; struct rc_list * readers; unsigned int old_mask = rc_variable_writemask_sum(var); unsigned int conversion_swizzle = rc_make_conversion_swizzle(old_mask, new_writemask); for (var_ptr = var; var_ptr; var_ptr = var_ptr->Friend) { if (var_ptr->Inst->Type == RC_INSTRUCTION_NORMAL) { rc_normal_rewrite_writemask(var_ptr->Inst, conversion_swizzle); var_ptr->Inst->U.I.DstReg.Index = new_index; } else { struct rc_pair_sub_instruction * sub; if (var_ptr->Dst.WriteMask == RC_MASK_W) { assert(new_writemask & RC_MASK_W); sub = &var_ptr->Inst->U.P.Alpha; } else { sub = &var_ptr->Inst->U.P.RGB; rc_pair_rewrite_writemask(sub, conversion_swizzle); } sub->DestIndex = new_index; } } readers = rc_variable_readers_union(var); for ( ; readers; readers = readers->Next) { struct rc_reader * reader = readers->Item; if (reader->Inst->Type == RC_INSTRUCTION_NORMAL) { reader->U.I.Src->Index = new_index; reader->U.I.Src->Swizzle = rc_rewrite_swizzle( reader->U.I.Src->Swizzle, conversion_swizzle); } else { struct rc_pair_instruction * pair_inst = &reader->Inst->U.P; unsigned int src_type = rc_source_type_swz( reader->U.P.Arg->Swizzle); int src_index = reader->U.P.Arg->Source; if (src_index == RC_PAIR_PRESUB_SRC) { src_index = rc_pair_get_src_index( pair_inst, reader->U.P.Src); } /* Try to delete the old src, it is OK if this fails, * because rc_pair_alloc_source might be able to * find a source the ca be reused. */ if (rc_pair_remove_src(reader->Inst, src_type, src_index, old_mask)) { /* Reuse the source index of the source that * was just deleted and set its register * index. We can't use rc_pair_alloc_source * for this becuase it might return a source * index that is already being used. */ if (src_type & RC_SOURCE_RGB) { pair_inst->RGB.Src[src_index] .Used = 1; pair_inst->RGB.Src[src_index] .Index = new_index; pair_inst->RGB.Src[src_index] .File = RC_FILE_TEMPORARY; } if (src_type & RC_SOURCE_ALPHA) { pair_inst->Alpha.Src[src_index] .Used = 1; pair_inst->Alpha.Src[src_index] .Index = new_index; pair_inst->Alpha.Src[src_index] .File = RC_FILE_TEMPORARY; } } else { src_index = rc_pair_alloc_source( &reader->Inst->U.P, src_type & RC_SOURCE_RGB, src_type & RC_SOURCE_ALPHA, RC_FILE_TEMPORARY, new_index); if (src_index < 0) { rc_error(var->C, "Rewrite of inst %u failed " "Can't allocate source for " "Inst %u src_type=%x " "new_index=%u new_mask=%u\n", var->Inst->IP, reader->Inst->IP, src_type, new_index, new_writemask); continue; } } reader->U.P.Arg->Swizzle = rc_rewrite_swizzle( reader->U.P.Arg->Swizzle, conversion_swizzle); if (reader->U.P.Arg->Source != RC_PAIR_PRESUB_SRC) { reader->U.P.Arg->Source = src_index; } } } } /** * Compute the live intervals for var and its friends. */ void rc_variable_compute_live_intervals(struct rc_variable * var) { while(var) { unsigned int i; unsigned int start = var->Inst->IP; for (i = 0; i < var->ReaderCount; i++) { unsigned int chan; unsigned int chan_start = start; unsigned int chan_end = var->Readers[i].Inst->IP; unsigned int mask = var->Readers[i].WriteMask; struct rc_instruction * inst; /* Extend the live interval of T0 to the start of the * loop for sequences like: * BGNLOOP * read T0 * ... * write T0 * ENDLOOP */ if (var->Readers[i].Inst->IP < start) { struct rc_instruction * bgnloop = rc_match_endloop(var->Readers[i].Inst); chan_start = bgnloop->IP; } /* Extend the live interval of T0 to the start of the * loop in case there is a BRK instruction in the loop * (we don't actually check for a BRK instruction we * assume there is one somewhere in the loop, which * there usually is) for sequences like: * BGNLOOP * ... * conditional BRK * ... * write T0 * ENDLOOP * read T0 *************************************************** * Extend the live interval of T0 to the end of the * loop for sequences like: * write T0 * BGNLOOP * ... * read T0 * ENDLOOP */ for (inst = var->Inst; inst != var->Readers[i].Inst; inst = inst->Next) { rc_opcode op = rc_get_flow_control_inst(inst); if (op == RC_OPCODE_ENDLOOP) { struct rc_instruction * bgnloop = rc_match_endloop(inst); if (bgnloop->IP < chan_start) { chan_start = bgnloop->IP; } } else if (op == RC_OPCODE_BGNLOOP) { struct rc_instruction * endloop = rc_match_bgnloop(inst); if (endloop->IP > chan_end) { chan_end = endloop->IP; } } } for (chan = 0; chan < 4; chan++) { if ((mask >> chan) & 0x1) { if (!var->Live[chan].Used || chan_start < var->Live[chan].Start) { var->Live[chan].Start = chan_start; } if (!var->Live[chan].Used || chan_end > var->Live[chan].End) { var->Live[chan].End = chan_end; } var->Live[chan].Used = 1; } } } var = var->Friend; } } /** * @return 1 if a and b share a reader * @return 0 if they do not */ static unsigned int readers_intersect( struct rc_variable * a, struct rc_variable * b) { unsigned int a_index, b_index; for (a_index = 0; a_index < a->ReaderCount; a_index++) { struct rc_reader reader_a = a->Readers[a_index]; for (b_index = 0; b_index < b->ReaderCount; b_index++) { struct rc_reader reader_b = b->Readers[b_index]; if (reader_a.Inst->Type == RC_INSTRUCTION_NORMAL && reader_b.Inst->Type == RC_INSTRUCTION_NORMAL && reader_a.U.I.Src == reader_b.U.I.Src) { return 1; } if (reader_a.Inst->Type == RC_INSTRUCTION_PAIR && reader_b.Inst->Type == RC_INSTRUCTION_PAIR && reader_a.U.P.Src == reader_b.U.P.Src) { return 1; } } } return 0; } void rc_variable_add_friend( struct rc_variable * var, struct rc_variable * friend) { assert(var->Dst.Index == friend->Dst.Index); while(var->Friend) { var = var->Friend; } var->Friend = friend; } struct rc_variable * rc_variable( struct radeon_compiler * c, unsigned int DstFile, unsigned int DstIndex, unsigned int DstWriteMask, struct rc_reader_data * reader_data) { struct rc_variable * new = memory_pool_malloc(&c->Pool, sizeof(struct rc_variable)); memset(new, 0, sizeof(struct rc_variable)); new->C = c; new->Dst.File = DstFile; new->Dst.Index = DstIndex; new->Dst.WriteMask = DstWriteMask; if (reader_data) { new->Inst = reader_data->Writer; new->ReaderCount = reader_data->ReaderCount; new->Readers = reader_data->Readers; } return new; } static void get_variable_helper( struct rc_list ** variable_list, struct rc_variable * variable) { struct rc_list * list_ptr; for (list_ptr = *variable_list; list_ptr; list_ptr = list_ptr->Next) { if (readers_intersect(variable, list_ptr->Item)) { rc_variable_add_friend(list_ptr->Item, variable); return; } } rc_list_add(variable_list, rc_list(&variable->C->Pool, variable)); } static void get_variable_pair_helper( struct rc_list ** variable_list, struct radeon_compiler * c, struct rc_instruction * inst, struct rc_pair_sub_instruction * sub_inst) { struct rc_reader_data reader_data; struct rc_variable * new_var; rc_register_file file; unsigned int writemask; if (sub_inst->Opcode == RC_OPCODE_NOP) { return; } memset(&reader_data, 0, sizeof(struct rc_reader_data)); rc_get_readers_sub(c, inst, sub_inst, &reader_data, NULL, NULL, NULL); if (reader_data.ReaderCount == 0) { return; } if (sub_inst->WriteMask) { file = RC_FILE_TEMPORARY; writemask = sub_inst->WriteMask; } else if (sub_inst->OutputWriteMask) { file = RC_FILE_OUTPUT; writemask = sub_inst->OutputWriteMask; } else { writemask = 0; file = RC_FILE_NONE; } new_var = rc_variable(c, file, sub_inst->DestIndex, writemask, &reader_data); get_variable_helper(variable_list, new_var); } /** * Generate a list of variables used by the shader program. Each instruction * that writes to a register is considered a variable. The struct rc_variable * data structure includes a list of readers and is essentially a * definition-use chain. Any two variables that share a reader are considered * "friends" and they are linked together via the Friend attribute. */ struct rc_list * rc_get_variables(struct radeon_compiler * c) { struct rc_instruction * inst; struct rc_list * variable_list = NULL; for (inst = c->Program.Instructions.Next; inst != &c->Program.Instructions; inst = inst->Next) { struct rc_reader_data reader_data; struct rc_variable * new_var; memset(&reader_data, 0, sizeof(reader_data)); if (inst->Type == RC_INSTRUCTION_NORMAL) { rc_get_readers(c, inst, &reader_data, NULL, NULL, NULL); if (reader_data.ReaderCount == 0) { continue; } new_var = rc_variable(c, inst->U.I.DstReg.File, inst->U.I.DstReg.Index, inst->U.I.DstReg.WriteMask, &reader_data); get_variable_helper(&variable_list, new_var); } else { get_variable_pair_helper(&variable_list, c, inst, &inst->U.P.RGB); get_variable_pair_helper(&variable_list, c, inst, &inst->U.P.Alpha); } } return variable_list; } /** * @return The bitwise or of the writemasks of a variable and all of its * friends. */ unsigned int rc_variable_writemask_sum(struct rc_variable * var) { unsigned int writemask = 0; while(var) { writemask |= var->Dst.WriteMask; var = var->Friend; } return writemask; } /* * @return A list of readers for a variable and its friends. Readers * that read from two different variable friends are only included once in * this list. */ struct rc_list * rc_variable_readers_union(struct rc_variable * var) { struct rc_list * list = NULL; while (var) { unsigned int i; for (i = 0; i < var->ReaderCount; i++) { struct rc_list * temp; struct rc_reader * a = &var->Readers[i]; unsigned int match = 0; for (temp = list; temp; temp = temp->Next) { struct rc_reader * b = temp->Item; if (a->Inst->Type != b->Inst->Type) { continue; } if (a->Inst->Type == RC_INSTRUCTION_NORMAL) { if (a->U.I.Src == b->U.I.Src) { match = 1; break; } } if (a->Inst->Type == RC_INSTRUCTION_PAIR) { if (a->U.P.Arg == b->U.P.Arg && a->U.P.Src == b->U.P.Src) { match = 1; break; } } } if (match) { continue; } rc_list_add(&list, rc_list(&var->C->Pool, a)); } var = var->Friend; } return list; } static unsigned int reader_equals_src( struct rc_reader reader, unsigned int src_type, void * src) { if (reader.Inst->Type != src_type) { return 0; } if (src_type == RC_INSTRUCTION_NORMAL) { return reader.U.I.Src == src; } else { return reader.U.P.Src == src; } } static unsigned int variable_writes_src( struct rc_variable * var, unsigned int src_type, void * src) { unsigned int i; for (i = 0; i < var->ReaderCount; i++) { if (reader_equals_src(var->Readers[i], src_type, src)) { return 1; } } return 0; } struct rc_list * rc_variable_list_get_writers( struct rc_list * var_list, unsigned int src_type, void * src) { struct rc_list * list_ptr; struct rc_list * writer_list = NULL; for (list_ptr = var_list; list_ptr; list_ptr = list_ptr->Next) { struct rc_variable * var = list_ptr->Item; if (variable_writes_src(var, src_type, src)) { struct rc_variable * friend; rc_list_add(&writer_list, rc_list(&var->C->Pool, var)); for (friend = var->Friend; friend; friend = friend->Friend) { if (variable_writes_src(friend, src_type, src)) { rc_list_add(&writer_list, rc_list(&var->C->Pool, friend)); } } /* Once we have indentifed the variable and its * friends that write this source, we can stop * stop searching, because we know know of the * other variables in the list will write this source. * If they did they would be friends of var. */ break; } } return writer_list; } void rc_variable_print(struct rc_variable * var) { unsigned int i; while (var) { fprintf(stderr, "%u: TEMP[%u].%u: ", var->Inst->IP, var->Dst.Index, var->Dst.WriteMask); for (i = 0; i < 4; i++) { fprintf(stderr, "chan %u: start=%u end=%u ", i, var->Live[i].Start, var->Live[i].End); } fprintf(stderr, "%u readers\n", var->ReaderCount); if (var->Friend) { fprintf(stderr, "Friend: \n\t"); } var = var->Friend; } }