/* * Copyright (C) 2014 Rob Clark * * 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 AUTHORS OR COPYRIGHT 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. * * Authors: * Rob Clark */ #include #include #include "util/log.h" #include "ir3.h" #define PTRID(x) ((unsigned long)(x)) /* ansi escape sequences: */ #define RESET "\x1b[0m" #define RED "\x1b[0;31m" #define GREEN "\x1b[0;32m" #define BLUE "\x1b[0;34m" #define MAGENTA "\x1b[0;35m" /* syntax coloring, mostly to make it easier to see different sorts of * srcs (immediate, constant, ssa, array, ...) */ #define SYN_REG(x) RED x RESET #define SYN_IMMED(x) GREEN x RESET #define SYN_CONST(x) GREEN x RESET #define SYN_SSA(x) BLUE x RESET #define SYN_ARRAY(x) MAGENTA x RESET static const char * type_name(type_t type) { static const char *type_names[] = { /* clang-format off */ [TYPE_F16] = "f16", [TYPE_F32] = "f32", [TYPE_U16] = "u16", [TYPE_U32] = "u32", [TYPE_S16] = "s16", [TYPE_S32] = "s32", [TYPE_U8] = "u8", [TYPE_S8] = "s8", /* clang-format on */ }; return type_names[type]; } static void print_instr_name(struct log_stream *stream, struct ir3_instruction *instr, bool flags) { if (!instr) return; #ifdef DEBUG mesa_log_stream_printf(stream, "%04u:", instr->serialno); #endif mesa_log_stream_printf(stream, "%04u:", instr->ip); if (instr->flags & IR3_INSTR_UNUSED) { mesa_log_stream_printf(stream, "XXX: "); } else { mesa_log_stream_printf(stream, "%03u: ", instr->use_count); } if (flags) { mesa_log_stream_printf(stream, "\t"); if (instr->flags & IR3_INSTR_SY) mesa_log_stream_printf(stream, "(sy)"); if (instr->flags & IR3_INSTR_SS) mesa_log_stream_printf(stream, "(ss)"); if (instr->flags & IR3_INSTR_JP) mesa_log_stream_printf(stream, "(jp)"); if (instr->repeat) mesa_log_stream_printf(stream, "(rpt%d)", instr->repeat); if (instr->nop) mesa_log_stream_printf(stream, "(nop%d)", instr->nop); if (instr->flags & IR3_INSTR_UL) mesa_log_stream_printf(stream, "(ul)"); } else { mesa_log_stream_printf(stream, " "); } if (is_meta(instr)) { switch (instr->opc) { case OPC_META_INPUT: mesa_log_stream_printf(stream, "_meta:in"); break; case OPC_META_SPLIT: mesa_log_stream_printf(stream, "_meta:split"); break; case OPC_META_COLLECT: mesa_log_stream_printf(stream, "_meta:collect"); break; case OPC_META_TEX_PREFETCH: mesa_log_stream_printf(stream, "_meta:tex_prefetch"); break; case OPC_META_PARALLEL_COPY: mesa_log_stream_printf(stream, "_meta:parallel_copy"); break; case OPC_META_PHI: mesa_log_stream_printf(stream, "_meta:phi"); break; /* shouldn't hit here.. just for debugging: */ default: mesa_log_stream_printf(stream, "_meta:%d", instr->opc); break; } } else if (opc_cat(instr->opc) == 1) { if (instr->opc == OPC_MOV) { if (instr->cat1.src_type == instr->cat1.dst_type) mesa_log_stream_printf(stream, "mov"); else mesa_log_stream_printf(stream, "cov"); } else { mesa_log_stream_printf(stream, "%s", disasm_a3xx_instr_name(instr->opc)); } if (instr->opc != OPC_MOVMSK) { mesa_log_stream_printf(stream, ".%s%s", type_name(instr->cat1.src_type), type_name(instr->cat1.dst_type)); } } else if (instr->opc == OPC_B) { const char *name[8] = { /* clang-format off */ [BRANCH_PLAIN] = "br", [BRANCH_OR] = "brao", [BRANCH_AND] = "braa", [BRANCH_CONST] = "brac", [BRANCH_ANY] = "bany", [BRANCH_ALL] = "ball", [BRANCH_X] = "brax", /* clang-format on */ }; mesa_log_stream_printf(stream, "%s", name[instr->cat0.brtype]); } else { mesa_log_stream_printf(stream, "%s", disasm_a3xx_instr_name(instr->opc)); if (instr->flags & IR3_INSTR_3D) mesa_log_stream_printf(stream, ".3d"); if (instr->flags & IR3_INSTR_A) mesa_log_stream_printf(stream, ".a"); if (instr->flags & IR3_INSTR_O) mesa_log_stream_printf(stream, ".o"); if (instr->flags & IR3_INSTR_P) mesa_log_stream_printf(stream, ".p"); if (instr->flags & IR3_INSTR_S) mesa_log_stream_printf(stream, ".s"); if (instr->flags & IR3_INSTR_A1EN) mesa_log_stream_printf(stream, ".a1en"); if (instr->opc == OPC_LDC) mesa_log_stream_printf(stream, ".offset%d", instr->cat6.d); if (instr->flags & IR3_INSTR_B) { mesa_log_stream_printf( stream, ".base%d", is_tex(instr) ? instr->cat5.tex_base : instr->cat6.base); } if (instr->flags & IR3_INSTR_S2EN) mesa_log_stream_printf(stream, ".s2en"); static const char *cond[0x7] = { "lt", "le", "gt", "ge", "eq", "ne", }; switch (instr->opc) { case OPC_CMPS_F: case OPC_CMPS_U: case OPC_CMPS_S: case OPC_CMPV_F: case OPC_CMPV_U: case OPC_CMPV_S: mesa_log_stream_printf(stream, ".%s", cond[instr->cat2.condition & 0x7]); break; default: break; } } } static void print_ssa_def_name(struct log_stream *stream, struct ir3_register *reg) { mesa_log_stream_printf(stream, SYN_SSA("ssa_%u"), reg->instr->serialno); if (reg->name != 0) mesa_log_stream_printf(stream, ":%u", reg->name); } static void print_ssa_name(struct log_stream *stream, struct ir3_register *reg, bool dst) { if (!dst) { if (!reg->def) mesa_log_stream_printf(stream, SYN_SSA("undef")); else print_ssa_def_name(stream, reg->def); } else { print_ssa_def_name(stream, reg); } if (reg->num != INVALID_REG && !(reg->flags & IR3_REG_ARRAY)) mesa_log_stream_printf(stream, "(" SYN_REG("r%u.%c") ")", reg_num(reg), "xyzw"[reg_comp(reg)]); } static void print_reg_name(struct log_stream *stream, struct ir3_instruction *instr, struct ir3_register *reg, bool dest) { if ((reg->flags & (IR3_REG_FABS | IR3_REG_SABS)) && (reg->flags & (IR3_REG_FNEG | IR3_REG_SNEG | IR3_REG_BNOT))) mesa_log_stream_printf(stream, "(absneg)"); else if (reg->flags & (IR3_REG_FNEG | IR3_REG_SNEG | IR3_REG_BNOT)) mesa_log_stream_printf(stream, "(neg)"); else if (reg->flags & (IR3_REG_FABS | IR3_REG_SABS)) mesa_log_stream_printf(stream, "(abs)"); if (reg->flags & IR3_REG_FIRST_KILL) mesa_log_stream_printf(stream, "(kill)"); if (reg->flags & IR3_REG_UNUSED) mesa_log_stream_printf(stream, "(unused)"); if (reg->flags & IR3_REG_R) mesa_log_stream_printf(stream, "(r)"); /* Right now all instructions that use tied registers only have one * destination register, so we can just print (tied) as if it's a flag, * although it's more convenient for RA if it's a pointer. */ if (reg->tied) mesa_log_stream_printf(stream, "(tied)"); if (reg->flags & IR3_REG_SHARED) mesa_log_stream_printf(stream, "s"); if (reg->flags & IR3_REG_HALF) mesa_log_stream_printf(stream, "h"); if (reg->flags & IR3_REG_IMMED) { mesa_log_stream_printf(stream, SYN_IMMED("imm[%f,%d,0x%x]"), reg->fim_val, reg->iim_val, reg->iim_val); } else if (reg->flags & IR3_REG_ARRAY) { if (reg->flags & IR3_REG_SSA) { print_ssa_name(stream, reg, dest); mesa_log_stream_printf(stream, ":"); } mesa_log_stream_printf(stream, SYN_ARRAY("arr[id=%u, offset=%d, size=%u]"), reg->array.id, reg->array.offset, reg->size); if (reg->array.base != INVALID_REG) mesa_log_stream_printf(stream, "(" SYN_REG("r%u.%c") ")", reg->array.base >> 2, "xyzw"[reg->array.base & 0x3]); } else if (reg->flags & IR3_REG_SSA) { print_ssa_name(stream, reg, dest); } else if (reg->flags & IR3_REG_RELATIV) { if (reg->flags & IR3_REG_CONST) mesa_log_stream_printf(stream, SYN_CONST("c"), reg->array.offset); else mesa_log_stream_printf(stream, SYN_REG("r") " (%u)", reg->array.offset, reg->size); } else { if (reg->flags & IR3_REG_CONST) mesa_log_stream_printf(stream, SYN_CONST("c%u.%c"), reg_num(reg), "xyzw"[reg_comp(reg)]); else mesa_log_stream_printf(stream, SYN_REG("r%u.%c"), reg_num(reg), "xyzw"[reg_comp(reg)]); } if (reg->wrmask > 0x1) mesa_log_stream_printf(stream, " (wrmask=0x%x)", reg->wrmask); } static void tab(struct log_stream *stream, int lvl) { for (int i = 0; i < lvl; i++) mesa_log_stream_printf(stream, "\t"); } static void print_instr(struct log_stream *stream, struct ir3_instruction *instr, int lvl) { tab(stream, lvl); print_instr_name(stream, instr, true); if (is_tex(instr)) { mesa_log_stream_printf(stream, " (%s)(", type_name(instr->cat5.type)); for (unsigned i = 0; i < 4; i++) if (instr->dsts[0]->wrmask & (1 << i)) mesa_log_stream_printf(stream, "%c", "xyzw"[i]); mesa_log_stream_printf(stream, ")"); } else if ((instr->srcs_count > 0 || instr->dsts_count > 0) && (instr->opc != OPC_B)) { /* NOTE the b(ranch) instruction has a suffix, which is * handled below */ mesa_log_stream_printf(stream, " "); } if (!is_flow(instr) || instr->opc == OPC_END || instr->opc == OPC_CHMASK) { bool first = true; foreach_dst (reg, instr) { if (reg->wrmask == 0) continue; if (!first) mesa_log_stream_printf(stream, ", "); print_reg_name(stream, instr, reg, true); first = false; } foreach_src (reg, instr) { if (!first) mesa_log_stream_printf(stream, ", "); print_reg_name(stream, instr, reg, false); first = false; } } if (is_tex(instr) && !(instr->flags & IR3_INSTR_S2EN)) { if (!!(instr->flags & IR3_INSTR_B)) { if (!!(instr->flags & IR3_INSTR_A1EN)) { mesa_log_stream_printf(stream, ", s#%d", instr->cat5.samp); } else { mesa_log_stream_printf(stream, ", s#%d, t#%d", instr->cat5.samp & 0xf, instr->cat5.samp >> 4); } } else { mesa_log_stream_printf(stream, ", s#%d, t#%d", instr->cat5.samp, instr->cat5.tex); } } if (instr->opc == OPC_META_SPLIT) { mesa_log_stream_printf(stream, ", off=%d", instr->split.off); } else if (instr->opc == OPC_META_TEX_PREFETCH) { mesa_log_stream_printf(stream, ", tex=%d, samp=%d, input_offset=%d", instr->prefetch.tex, instr->prefetch.samp, instr->prefetch.input_offset); } if (is_flow(instr) && instr->cat0.target) { /* the predicate register src is implied: */ if (instr->opc == OPC_B) { static const struct { int nsrc; bool idx; } brinfo[7] = { /* clang-format off */ [BRANCH_PLAIN] = {1, false}, [BRANCH_OR] = {2, false}, [BRANCH_AND] = {2, false}, [BRANCH_CONST] = {0, true}, [BRANCH_ANY] = {1, false}, [BRANCH_ALL] = {1, false}, [BRANCH_X] = {0, false}, /* clang-format on */ }; if (brinfo[instr->cat0.brtype].idx) { mesa_log_stream_printf(stream, ".%u", instr->cat0.idx); } if (brinfo[instr->cat0.brtype].nsrc >= 1) { mesa_log_stream_printf(stream, " %sp0.%c (", instr->cat0.inv1 ? "!" : "", "xyzw"[instr->cat0.comp1 & 0x3]); print_reg_name(stream, instr, instr->srcs[0], false); mesa_log_stream_printf(stream, "), "); } if (brinfo[instr->cat0.brtype].nsrc >= 2) { mesa_log_stream_printf(stream, " %sp0.%c (", instr->cat0.inv2 ? "!" : "", "xyzw"[instr->cat0.comp2 & 0x3]); print_reg_name(stream, instr, instr->srcs[1], false); mesa_log_stream_printf(stream, "), "); } } mesa_log_stream_printf(stream, " target=block%u", block_id(instr->cat0.target)); } if (instr->deps_count) { mesa_log_stream_printf(stream, ", false-deps:"); unsigned n = 0; for (unsigned i = 0; i < instr->deps_count; i++) { if (!instr->deps[i]) continue; if (n++ > 0) mesa_log_stream_printf(stream, ", "); mesa_log_stream_printf(stream, SYN_SSA("ssa_%u"), instr->deps[i]->serialno); } } mesa_log_stream_printf(stream, "\n"); } void ir3_print_instr_stream(struct log_stream *stream, struct ir3_instruction *instr) { print_instr(stream, instr, 0); } void ir3_print_instr(struct ir3_instruction *instr) { struct log_stream *stream = mesa_log_streami(); print_instr(stream, instr, 0); mesa_log_stream_destroy(stream); } static void print_block(struct ir3_block *block, int lvl) { struct log_stream *stream = mesa_log_streami(); tab(stream, lvl); mesa_log_stream_printf(stream, "block%u {\n", block_id(block)); if (block->predecessors_count > 0) { tab(stream, lvl + 1); mesa_log_stream_printf(stream, "pred: "); for (unsigned i = 0; i < block->predecessors_count; i++) { struct ir3_block *pred = block->predecessors[i]; if (i != 0) mesa_log_stream_printf(stream, ", "); mesa_log_stream_printf(stream, "block%u", block_id(pred)); } mesa_log_stream_printf(stream, "\n"); } if (block->physical_predecessors_count > 0) { tab(stream, lvl + 1); mesa_log_stream_printf(stream, "physical pred: "); for (unsigned i = 0; i < block->physical_predecessors_count; i++) { struct ir3_block *pred = block->physical_predecessors[i]; if (i != 0) mesa_log_stream_printf(stream, ", "); mesa_log_stream_printf(stream, "block%u", block_id(pred)); } mesa_log_stream_printf(stream, "\n"); } foreach_instr (instr, &block->instr_list) { print_instr(stream, instr, lvl + 1); } tab(stream, lvl + 1); mesa_log_stream_printf(stream, "/* keeps:\n"); for (unsigned i = 0; i < block->keeps_count; i++) { print_instr(stream, block->keeps[i], lvl + 2); } tab(stream, lvl + 1); mesa_log_stream_printf(stream, " */\n"); if (block->successors[1]) { /* leading into if/else: */ tab(stream, lvl + 1); mesa_log_stream_printf(stream, "/* succs: if "); switch (block->brtype) { case IR3_BRANCH_COND: break; case IR3_BRANCH_ANY: mesa_log_stream_printf(stream, "any "); break; case IR3_BRANCH_ALL: mesa_log_stream_printf(stream, "all "); break; case IR3_BRANCH_GETONE: mesa_log_stream_printf(stream, "getone "); break; } if (block->condition) mesa_log_stream_printf(stream, SYN_SSA("ssa_%u") " ", block->condition->serialno); mesa_log_stream_printf(stream, "block%u; else block%u; */\n", block_id(block->successors[0]), block_id(block->successors[1])); } else if (block->successors[0]) { tab(stream, lvl + 1); mesa_log_stream_printf(stream, "/* succs: block%u; */\n", block_id(block->successors[0])); } if (block->physical_successors[0]) { tab(stream, lvl + 1); mesa_log_stream_printf(stream, "/* physical succs: block%u", block_id(block->physical_successors[0])); if (block->physical_successors[1]) { mesa_log_stream_printf(stream, ", block%u", block_id(block->physical_successors[1])); } mesa_log_stream_printf(stream, " */\n"); } tab(stream, lvl); mesa_log_stream_printf(stream, "}\n"); } void ir3_print(struct ir3 *ir) { foreach_block (block, &ir->block_list) print_block(block, 0); }