/* * IR - Lightweight JIT Compilation Framework * (debug dumps) * Copyright (C) 2022 Zend by Perforce. * Authors: Dmitry Stogov */ #include "ir.h" #include "ir_private.h" void ir_dump(const ir_ctx *ctx, FILE *f) { ir_ref i, j, n, ref, *p; ir_insn *insn; uint32_t flags; for (i = 1 - ctx->consts_count, insn = ctx->ir_base + i; i < IR_UNUSED; i++, insn++) { fprintf(f, "%05d %s %s(", i, ir_op_name[insn->op], ir_type_name[insn->type]); ir_print_const(ctx, insn, f, true); fprintf(f, ")\n"); } for (i = IR_UNUSED + 1, insn = ctx->ir_base + i; i < ctx->insns_count; i++, insn++) { flags = ir_op_flags[insn->op]; fprintf(f, "%05d %s", i, ir_op_name[insn->op]); if ((flags & IR_OP_FLAG_DATA) || ((flags & IR_OP_FLAG_MEM) && insn->type != IR_VOID)) { fprintf(f, " %s", ir_type_name[insn->type]); } n = ir_operands_count(ctx, insn); for (j = 1, p = insn->ops + 1; j <= 3; j++, p++) { ref = *p; if (ref) { fprintf(f, " %05d", ref); } } if (n > 3) { n -= 3; do { i++; insn++; fprintf(f, "\n%05d", i); for (j = 0; j < 4; j++, p++) { ref = *p; if (ref) { fprintf(f, " %05d", ref); } } n -= 4; } while (n > 0); } fprintf(f, "\n"); } } void ir_dump_dot(const ir_ctx *ctx, const char *name, FILE *f) { int DATA_WEIGHT = 0; int CONTROL_WEIGHT = 5; int REF_WEIGHT = 4; ir_ref i, j, n, ref, *p; ir_insn *insn; uint32_t flags; fprintf(f, "digraph %s {\n", name); fprintf(f, "\trankdir=TB;\n"); for (i = 1 - ctx->consts_count, insn = ctx->ir_base + i; i < IR_UNUSED; i++, insn++) { fprintf(f, "\tc%d [label=\"C%d: CONST %s(", -i, -i, ir_type_name[insn->type]); /* FIXME(tony): We still cannot handle strings with escaped double quote inside */ ir_print_const(ctx, insn, f, false); fprintf(f, ")\",style=filled,fillcolor=yellow];\n"); } for (i = IR_UNUSED + 1, insn = ctx->ir_base + i; i < ctx->insns_count;) { flags = ir_op_flags[insn->op]; if (flags & IR_OP_FLAG_CONTROL) { if (insn->op == IR_START) { fprintf(f, "\t{rank=min; n%d [label=\"%d: %s\",shape=box,style=\"rounded,filled\",fillcolor=red];}\n", i, i, ir_op_name[insn->op]); } else if (insn->op == IR_ENTRY) { fprintf(f, "\t{n%d [label=\"%d: %s\",shape=box,style=\"rounded,filled\",fillcolor=red];}\n", i, i, ir_op_name[insn->op]); } else if (flags & IR_OP_FLAG_TERMINATOR) { fprintf(f, "\t{rank=max; n%d [label=\"%d: %s\",shape=box,style=\"rounded,filled\",fillcolor=red];}\n", i, i, ir_op_name[insn->op]); } else if (flags & IR_OP_FLAG_MEM) { fprintf(f, "\tn%d [label=\"%d: %s\",shape=box,style=filled,fillcolor=pink];\n", i, i, ir_op_name[insn->op]); } else { fprintf(f, "\tn%d [label=\"%d: %s\",shape=box,style=filled,fillcolor=lightcoral];\n", i, i, ir_op_name[insn->op]); } } else if (flags & IR_OP_FLAG_DATA) { if (IR_OPND_KIND(flags, 1) == IR_OPND_DATA) { /* not a leaf */ fprintf(f, "\tn%d [label=\"%d: %s\"", i, i, ir_op_name[insn->op]); fprintf(f, ",shape=diamond,style=filled,fillcolor=deepskyblue];\n"); } else { if (insn->op == IR_PARAM) { fprintf(f, "\tn%d [label=\"%d: %s %s \\\"%s\\\"\",style=filled,fillcolor=lightblue];\n", i, i, ir_op_name[insn->op], ir_type_name[insn->type], ir_get_str(ctx, insn->op2)); } else if (insn->op == IR_VAR) { fprintf(f, "\tn%d [label=\"%d: %s %s \\\"%s\\\"\"];\n", i, i, ir_op_name[insn->op], ir_type_name[insn->type], ir_get_str(ctx, insn->op2)); } else { fprintf(f, "\tn%d [label=\"%d: %s %s\",style=filled,fillcolor=deepskyblue];\n", i, i, ir_op_name[insn->op], ir_type_name[insn->type]); } } } n = ir_operands_count(ctx, insn); for (j = 1, p = insn->ops + 1; j <= n; j++, p++) { ref = *p; if (ref) { switch (IR_OPND_KIND(flags, j)) { case IR_OPND_DATA: if (IR_IS_CONST_REF(ref)) { fprintf(f, "\tc%d -> n%d [color=blue,weight=%d];\n", -ref, i, DATA_WEIGHT); } else if (insn->op == IR_PHI && ctx->ir_base[insn->op1].op == IR_LOOP_BEGIN && ctx->ir_base[ir_insn_op(&ctx->ir_base[insn->op1], j - 1)].op == IR_LOOP_END) { fprintf(f, "\tn%d -> n%d [color=blue,dir=back];\n", i, ref); } else { fprintf(f, "\tn%d -> n%d [color=blue,weight=%d];\n", ref, i, DATA_WEIGHT); } break; case IR_OPND_CONTROL: if (insn->op == IR_LOOP_BEGIN && ctx->ir_base[ref].op == IR_LOOP_END) { fprintf(f, "\tn%d -> n%d [style=bold,color=red,dir=back];\n", i, ref); } else if (insn->op == IR_ENTRY) { fprintf(f, "\tn%d -> n%d [style=bold,color=red,style=dashed,weight=%d];\n", ref, i, CONTROL_WEIGHT); } else { fprintf(f, "\tn%d -> n%d [style=bold,color=red,weight=%d];\n", ref, i, CONTROL_WEIGHT); } break; case IR_OPND_CONTROL_DEP: case IR_OPND_CONTROL_REF: fprintf(f, "\tn%d -> n%d [style=dashed,dir=back,weight=%d];\n", ref, i, REF_WEIGHT); break; } } } n = ir_insn_inputs_to_len(n); i += n; insn += n; } fprintf(f, "}\n"); } void ir_dump_use_lists(const ir_ctx *ctx, FILE *f) { ir_ref i, j, n, *p; ir_use_list *list; if (ctx->use_lists) { fprintf(f, "{ # Use Lists\n"); for (i = 1, list = &ctx->use_lists[1]; i < ctx->insns_count; i++, list++) { n = list->count; if (n > 0) { p = &ctx->use_edges[list->refs]; fprintf(f, "%05d(%d): [%05d", i, n, *p); p++; for (j = 1; j < n; j++, p++) { fprintf(f, ", %05d", *p); } fprintf(f, "]\n"); } } fprintf(f, "}\n"); } } static void ir_dump_dessa_moves(const ir_ctx *ctx, int b, ir_block *bb, FILE *f) { uint32_t succ; ir_block *succ_bb; ir_use_list *use_list; ir_ref k, i, *p, use_ref, input; ir_insn *use_insn; IR_ASSERT(bb->successors_count == 1); succ = ctx->cfg_edges[bb->successors]; succ_bb = &ctx->cfg_blocks[succ]; IR_ASSERT(succ_bb->predecessors_count > 1); use_list = &ctx->use_lists[succ_bb->start]; k = ir_phi_input_number(ctx, succ_bb, b); for (i = 0, p = &ctx->use_edges[use_list->refs]; i < use_list->count; i++, p++) { use_ref = *p; use_insn = &ctx->ir_base[use_ref]; if (use_insn->op == IR_PHI) { input = ir_insn_op(use_insn, k); if (IR_IS_CONST_REF(input)) { fprintf(f, "\t# DESSA MOV c_%d", -input); } else if (ctx->vregs[input] != ctx->vregs[use_ref]) { fprintf(f, "\t# DESSA MOV d_%d {R%d}", input, ctx->vregs[input]); } else { continue; } if (ctx->regs) { int8_t *regs = ctx->regs[use_ref]; int8_t reg = regs[k]; if (reg != IR_REG_NONE) { fprintf(f, " {%%%s%s}", ir_reg_name(IR_REG_NUM(reg), ctx->ir_base[input].type), (reg & (IR_REG_SPILL_LOAD|IR_REG_SPILL_SPECIAL)) ? ":load" : ""); } } fprintf(f, " -> d_%d {R%d}", use_ref, ctx->vregs[use_ref]); if (ctx->regs) { int8_t reg = ctx->regs[use_ref][0]; if (reg != IR_REG_NONE) { fprintf(f, " {%%%s%s}", ir_reg_name(IR_REG_NUM(reg), ctx->ir_base[use_ref].type), (reg & (IR_REG_SPILL_STORE|IR_REG_SPILL_SPECIAL)) ? ":store" : ""); } } fprintf(f, "\n"); } } } static void ir_dump_cfg_block(ir_ctx *ctx, FILE *f, uint32_t b, ir_block *bb) { fprintf(f, "BB%d:\n", b); fprintf(f, "\tstart=%d\n", bb->start); fprintf(f, "\tend=%d\n", bb->end); if (bb->successors_count) { uint32_t i; fprintf(f, "\tsuccessors(%d) [BB%d", bb->successors_count, ctx->cfg_edges[bb->successors]); for (i = 1; i < bb->successors_count; i++) { fprintf(f, ", BB%d", ctx->cfg_edges[bb->successors + i]); } fprintf(f, "]\n"); } if (bb->predecessors_count) { uint32_t i; fprintf(f, "\tpredecessors(%d) [BB%d", bb->predecessors_count, ctx->cfg_edges[bb->predecessors]); for (i = 1; i < bb->predecessors_count; i++) { fprintf(f, ", BB%d", ctx->cfg_edges[bb->predecessors + i]); } fprintf(f, "]\n"); } if (bb->dom_parent > 0) { fprintf(f, "\tdom_parent=BB%d\n", bb->dom_parent); } fprintf(f, "\tdom_depth=%d\n", bb->dom_depth); if (bb->dom_child > 0) { int child = bb->dom_child; fprintf(f, "\tdom_children [BB%d", child); child = ctx->cfg_blocks[child].dom_next_child; while (child > 0) { fprintf(f, ", BB%d", child); child = ctx->cfg_blocks[child].dom_next_child; } fprintf(f, "]\n"); } if (bb->flags & IR_BB_ENTRY) { fprintf(f, "\tENTRY\n"); } if (bb->flags & IR_BB_UNREACHABLE) { fprintf(f, "\tUNREACHABLE\n"); } if (bb->flags & IR_BB_LOOP_HEADER) { if (bb->flags & IR_BB_LOOP_WITH_ENTRY) { fprintf(f, "\tLOOP_HEADER, LOOP_WITH_ENTRY\n"); } else { fprintf(f, "\tLOOP_HEADER\n"); } } if (bb->flags & IR_BB_IRREDUCIBLE_LOOP) { fprintf(stderr, "\tIRREDUCIBLE_LOOP\n"); } if (bb->loop_header > 0) { fprintf(f, "\tloop_header=BB%d\n", bb->loop_header); } if (bb->loop_depth != 0) { fprintf(f, "\tloop_depth=%d\n", bb->loop_depth); } if (bb->flags & IR_BB_OSR_ENTRY_LOADS) { ir_list *list = (ir_list*)ctx->osr_entry_loads; uint32_t pos = 0, i, count; IR_ASSERT(list); while (1) { i = ir_list_at(list, pos); if (b == i) { break; } IR_ASSERT(i != 0); /* end marker */ pos++; count = ir_list_at(list, pos); pos += count + 1; } pos++; count = ir_list_at(list, pos); pos++; for (i = 0; i < count; i++, pos++) { ir_ref ref = ir_list_at(list, pos); fprintf(f, "\tOSR_ENTRY_LOAD=d_%d\n", ref); } } if (bb->flags & IR_BB_DESSA_MOVES) { ir_dump_dessa_moves(ctx, b, bb, f); } } void ir_dump_cfg(ir_ctx *ctx, FILE *f) { if (ctx->cfg_blocks) { uint32_t b, i, bb_count = ctx->cfg_blocks_count; ir_block *bb = ctx->cfg_blocks + 1; fprintf(f, "{ # CFG\n"); if (ctx->cfg_schedule) { for (i = 1; i <= bb_count; i++) { b = ctx->cfg_schedule[i]; bb = &ctx->cfg_blocks[b]; ir_dump_cfg_block(ctx, f, b, bb); } } else { for (b = 1; b <= bb_count; b++, bb++) { ir_dump_cfg_block(ctx, f, b, bb); } } fprintf(f, "}\n"); } } void ir_dump_cfg_map(const ir_ctx *ctx, FILE *f) { ir_ref i; uint32_t *_blocks = ctx->cfg_map; if (_blocks) { fprintf(f, "{ # CFG map (insn -> bb)\n"); for (i = IR_UNUSED + 1; i < ctx->insns_count; i++) { fprintf(f, "%d -> %d\n", i, _blocks[i]); } fprintf(f, "}\n"); } } void ir_dump_live_ranges(const ir_ctx *ctx, FILE *f) { ir_ref i, j, n; if (!ctx->live_intervals) { return; } fprintf(f, "{ # LIVE-RANGES (vregs_count=%d)\n", ctx->vregs_count); for (i = 0; i <= ctx->vregs_count; i++) { ir_live_interval *ival = ctx->live_intervals[i]; if (ival) { ir_live_range *p; ir_use_pos *use_pos; if (i == 0) { fprintf(f, "TMP"); } else { for (j = 1; j < ctx->insns_count; j++) { if (ctx->vregs[j] == (uint32_t)i) { break; } } fprintf(f, "R%d (d_%d", i, j); for (j++; j < ctx->insns_count; j++) { if (ctx->vregs[j] == (uint32_t)i) { fprintf(f, ", d_%d", j); } } fprintf(f, ")"); if (ival->stack_spill_pos != -1) { if (ival->flags & IR_LIVE_INTERVAL_SPILL_SPECIAL) { IR_ASSERT(ctx->spill_base >= 0); fprintf(f, " [SPILL=0x%x(%%%s)]", ival->stack_spill_pos, ir_reg_name(ctx->spill_base, IR_ADDR)); } else { fprintf(f, " [SPILL=0x%x]", ival->stack_spill_pos); } } } if (ival->next) { fprintf(f, "\n\t"); } else if (ival->reg != IR_REG_NONE) { fprintf(f, " "); } do { if (ival->reg != IR_REG_NONE) { fprintf(f, "[%%%s]", ir_reg_name(ival->reg, ival->type)); } p = &ival->range; fprintf(f, ": [%d.%d-%d.%d)", IR_LIVE_POS_TO_REF(p->start), IR_LIVE_POS_TO_SUB_REF(p->start), IR_LIVE_POS_TO_REF(p->end), IR_LIVE_POS_TO_SUB_REF(p->end)); if (i == 0) { /* This is a TMP register */ if (ival->tmp_ref == IR_LIVE_POS_TO_REF(p->start)) { fprintf(f, "/%d", ival->tmp_op_num); } else { fprintf(f, "/%d.%d", ival->tmp_ref, ival->tmp_op_num); } } else { p = p->next; while (p) { fprintf(f, ", [%d.%d-%d.%d)", IR_LIVE_POS_TO_REF(p->start), IR_LIVE_POS_TO_SUB_REF(p->start), IR_LIVE_POS_TO_REF(p->end), IR_LIVE_POS_TO_SUB_REF(p->end)); p = p->next; } } use_pos = ival->use_pos; while (use_pos) { if (use_pos->flags & IR_PHI_USE) { IR_ASSERT(use_pos->op_num > 0); fprintf(f, ", PHI_USE(%d.%d, phi=d_%d/%d)", IR_LIVE_POS_TO_REF(use_pos->pos), IR_LIVE_POS_TO_SUB_REF(use_pos->pos), -use_pos->hint_ref, use_pos->op_num); } else if (use_pos->flags & IR_FUSED_USE) { fprintf(f, ", USE(%d.%d/%d.%d", IR_LIVE_POS_TO_REF(use_pos->pos), IR_LIVE_POS_TO_SUB_REF(use_pos->pos), -use_pos->hint_ref, use_pos->op_num); if (use_pos->hint >= 0) { fprintf(f, ", hint=%%%s", ir_reg_name(use_pos->hint, ival->type)); } fprintf(f, ")"); if (use_pos->flags & IR_USE_MUST_BE_IN_REG) { fprintf(f, "!"); } } else { if (!use_pos->op_num) { fprintf(f, ", DEF(%d.%d", IR_LIVE_POS_TO_REF(use_pos->pos), IR_LIVE_POS_TO_SUB_REF(use_pos->pos)); } else { fprintf(f, ", USE(%d.%d/%d", IR_LIVE_POS_TO_REF(use_pos->pos), IR_LIVE_POS_TO_SUB_REF(use_pos->pos), use_pos->op_num); } if (use_pos->hint >= 0) { fprintf(f, ", hint=%%%s", ir_reg_name(use_pos->hint, ival->type)); } if (use_pos->hint_ref) { fprintf(f, ", hint=R%d", ctx->vregs[use_pos->hint_ref]); } fprintf(f, ")"); if (use_pos->flags & IR_USE_MUST_BE_IN_REG) { fprintf(f, "!"); } } use_pos = use_pos->next; } if (ival->next) { fprintf(f, "\n\t"); } ival = ival->next; } while (ival); fprintf(f, "\n"); } } #if 1 n = ctx->vregs_count + ir_regs_number() + 2; for (i = ctx->vregs_count + 1; i <= n; i++) { ir_live_interval *ival = ctx->live_intervals[i]; if (ival) { ir_live_range *p = &ival->range; fprintf(f, "[%%%s] : [%d.%d-%d.%d)", ir_reg_name(ival->reg, ival->type), IR_LIVE_POS_TO_REF(p->start), IR_LIVE_POS_TO_SUB_REF(p->start), IR_LIVE_POS_TO_REF(p->end), IR_LIVE_POS_TO_SUB_REF(p->end)); p = p->next; while (p) { fprintf(f, ", [%d.%d-%d.%d)", IR_LIVE_POS_TO_REF(p->start), IR_LIVE_POS_TO_SUB_REF(p->start), IR_LIVE_POS_TO_REF(p->end), IR_LIVE_POS_TO_SUB_REF(p->end)); p = p->next; } fprintf(f, "\n"); } } #endif fprintf(f, "}\n"); } void ir_dump_codegen(const ir_ctx *ctx, FILE *f) { ir_ref i, j, n, ref, *p; ir_insn *insn; uint32_t flags, _b, b; ir_block *bb; bool first; fprintf(f, "{\n"); for (i = IR_UNUSED + 1, insn = ctx->ir_base - i; i < ctx->consts_count; i++, insn--) { fprintf(f, "\t%s c_%d = ", ir_type_cname[insn->type], i); if (insn->op == IR_FUNC) { fprintf(f, "func %s", ir_get_str(ctx, insn->val.name)); ir_print_proto(ctx, insn->proto, f); } else if (insn->op == IR_SYM) { fprintf(f, "sym(%s)", ir_get_str(ctx, insn->val.name)); } else if (insn->op == IR_FUNC_ADDR) { fprintf(f, "func *"); ir_print_const(ctx, insn, f, true); ir_print_proto(ctx, insn->proto, f); } else { ir_print_const(ctx, insn, f, true); } fprintf(f, ";\n"); } for (_b = 1; _b <= ctx->cfg_blocks_count; _b++) { if (ctx->cfg_schedule) { b = ctx->cfg_schedule[_b]; } else { b = _b; } bb = &ctx->cfg_blocks[b]; if ((bb->flags & (IR_BB_START|IR_BB_ENTRY|IR_BB_EMPTY)) == IR_BB_EMPTY) { continue; } fprintf(f, "#BB%d: end=l_%d", b, bb->end); if (bb->flags & IR_BB_UNREACHABLE) { fprintf(f, ", U"); } if (bb->dom_parent > 0) { fprintf(f, ", idom=BB%d(%d)", bb->dom_parent, bb->dom_depth); } if (bb->loop_depth != 0) { if (bb->flags & IR_BB_LOOP_HEADER) { if (bb->loop_header > 0) { fprintf(f, ", loop=HDR,BB%d(%d)", bb->loop_header, bb->loop_depth); } else { IR_ASSERT(bb->loop_depth == 1); fprintf(f, ", loop=HDR(%d)", bb->loop_depth); } } else { IR_ASSERT(bb->loop_header > 0); fprintf(f, ", loop=BB%d(%d)", bb->loop_header, bb->loop_depth); } } if (bb->predecessors_count) { uint32_t i; fprintf(f, ", pred(%d)=[BB%d", bb->predecessors_count, ctx->cfg_edges[bb->predecessors]); for (i = 1; i < bb->predecessors_count; i++) { fprintf(f, ", BB%d", ctx->cfg_edges[bb->predecessors + i]); } fprintf(f, "]"); } if (bb->successors_count) { uint32_t i; fprintf(f, ", succ(%d)=[BB%d", bb->successors_count, ctx->cfg_edges[bb->successors]); for (i = 1; i < bb->successors_count; i++) { fprintf(f, ", BB%d", ctx->cfg_edges[bb->successors + i]); } fprintf(f, "]"); } fprintf(f, "\n"); for (i = bb->start, insn = ctx->ir_base + i; i <= bb->end;) { flags = ir_op_flags[insn->op]; if (flags & IR_OP_FLAG_CONTROL) { if (!(flags & IR_OP_FLAG_MEM) || insn->type == IR_VOID) { fprintf(f, "\tl_%d = ", i); } else { fprintf(f, "\t%s d_%d", ir_type_cname[insn->type], i); if (ctx->vregs && ctx->vregs[i]) { fprintf(f, " {R%d}", ctx->vregs[i]); } if (ctx->regs) { int8_t reg = ctx->regs[i][0]; if (reg != IR_REG_NONE) { fprintf(f, " {%%%s%s}", ir_reg_name(IR_REG_NUM(reg), insn->type), (reg & (IR_REG_SPILL_STORE|IR_REG_SPILL_SPECIAL)) ? ":store" : ""); } } fprintf(f, ", l_%d = ", i); } } else { fprintf(f, "\t"); if (flags & IR_OP_FLAG_DATA) { fprintf(f, "%s d_%d", ir_type_cname[insn->type], i); if (ctx->vregs && ctx->vregs[i]) { fprintf(f, " {R%d}", ctx->vregs[i]); } if (ctx->regs) { int8_t reg = ctx->regs[i][0]; if (reg != IR_REG_NONE) { fprintf(f, " {%%%s%s}", ir_reg_name(IR_REG_NUM(reg), insn->type), (reg & (IR_REG_SPILL_STORE|IR_REG_SPILL_SPECIAL)) ? ":store" : ""); } } fprintf(f, " = "); } } fprintf(f, "%s", ir_op_name[insn->op]); n = ir_operands_count(ctx, insn); if ((insn->op == IR_MERGE || insn->op == IR_LOOP_BEGIN) && n != 2) { fprintf(f, "/%d", n); } else if ((insn->op == IR_CALL || insn->op == IR_TAILCALL) && n != 2) { fprintf(f, "/%d", n - 2); } else if (insn->op == IR_PHI && n != 3) { fprintf(f, "/%d", n - 1); } else if (insn->op == IR_SNAPSHOT) { fprintf(f, "/%d", n - 1); } first = 1; for (j = 1, p = insn->ops + 1; j <= n; j++, p++) { uint32_t opnd_kind = IR_OPND_KIND(flags, j); ref = *p; if (ref) { switch (opnd_kind) { case IR_OPND_DATA: if (IR_IS_CONST_REF(ref)) { fprintf(f, "%sc_%d", first ? "(" : ", ", -ref); } else { fprintf(f, "%sd_%d", first ? "(" : ", ", ref); } if (ctx->vregs && ref > 0 && ctx->vregs[ref]) { fprintf(f, " {R%d}", ctx->vregs[ref]); } if (ctx->regs) { int8_t *regs = ctx->regs[i]; int8_t reg = regs[j]; if (reg != IR_REG_NONE) { fprintf(f, " {%%%s%s}", ir_reg_name(IR_REG_NUM(reg), ctx->ir_base[ref].type), (reg & (IR_REG_SPILL_LOAD|IR_REG_SPILL_SPECIAL)) ? ":load" : ""); } } first = 0; break; case IR_OPND_CONTROL: case IR_OPND_CONTROL_DEP: case IR_OPND_CONTROL_REF: fprintf(f, "%sl_%d", first ? "(" : ", ", ref); first = 0; break; case IR_OPND_STR: fprintf(f, "%s\"%s\"", first ? "(" : ", ", ir_get_str(ctx, ref)); first = 0; break; case IR_OPND_PROTO: fprintf(f, "%sfunc ", first ? "(" : ", "); ir_print_proto(ctx, ref, f); break; case IR_OPND_PROB: if (ref == 0) { break; } IR_FALLTHROUGH; case IR_OPND_NUM: fprintf(f, "%s%d", first ? "(" : ", ", ref); first = 0; break; } } else if (opnd_kind == IR_OPND_NUM) { fprintf(f, "%s%d", first ? "(" : ", ", ref); first = 0; } else if (j != n && (IR_IS_REF_OPND_KIND(opnd_kind) || (opnd_kind == IR_OPND_UNUSED && p[n-j]))) { fprintf(f, "%snull", first ? "(" : ", "); first = 0; } } if (first) { fprintf(f, ";"); } else { fprintf(f, ");"); } if (((flags & IR_OP_FLAG_DATA) || ((flags & IR_OP_FLAG_MEM) && insn->type != IR_VOID)) && ctx->binding) { ir_ref var = ir_binding_find(ctx, i); if (var) { IR_ASSERT(var < 0); fprintf(f, " # BIND(0x%x);", -var); } } if (ctx->rules) { uint32_t rule = ctx->rules[i]; uint32_t id = rule & IR_RULE_MASK; if (id < IR_LAST_OP) { fprintf(f, " # RULE(%s", ir_op_name[id]); } else { IR_ASSERT(id > IR_LAST_OP /*&& id < IR_LAST_RULE*/); fprintf(f, " # RULE(%s", ir_rule_name[id - IR_LAST_OP]); } if (rule & IR_FUSED) { fprintf(f, ":FUSED"); } if (rule & IR_SKIPPED) { fprintf(f, ":SKIPPED"); } if (rule & IR_SIMPLE) { fprintf(f, ":SIMPLE"); } fprintf(f, ")"); } fprintf(f, "\n"); n = ir_insn_inputs_to_len(n); i += n; insn += n; } if (bb->flags & IR_BB_DESSA_MOVES) { ir_dump_dessa_moves(ctx, b, bb, f); } insn = &ctx->ir_base[bb->end]; if (insn->op == IR_END || insn->op == IR_LOOP_END) { uint32_t succ; if (bb->successors_count == 1) { succ = ctx->cfg_edges[bb->successors]; } else { /* END may have a fake control edge to ENTRY */ IR_ASSERT(bb->successors_count == 2); succ = ctx->cfg_edges[bb->successors]; if (ctx->ir_base[ctx->cfg_blocks[succ].start].op == IR_ENTRY) { succ = ctx->cfg_edges[bb->successors + 1]; #ifdef IR_DEBUG } else { uint32_t fake_succ = ctx->cfg_edges[bb->successors + 1]; IR_ASSERT(ctx->ir_base[ctx->cfg_blocks[fake_succ].start].op == IR_ENTRY); #endif } } succ = ir_skip_empty_target_blocks(ctx, succ); if (ctx->cfg_schedule) { if (_b == ctx->cfg_blocks_count || succ != ctx->cfg_schedule[_b + 1]) { fprintf(f, "\t# GOTO BB%d\n", succ); } } else { if (succ != b + 1) { fprintf(f, "\t# GOTO BB%d\n", succ); } } } else if (insn->op == IR_IF) { uint32_t true_block, false_block; ir_get_true_false_blocks(ctx, b, &true_block, &false_block); fprintf(f, "\t# IF_TRUE BB%d, IF_FALSE BB%d\n", true_block, false_block); } else if (insn->op == IR_SWITCH) { fprintf(f, "\t# SWITCH ...\n"); } } fprintf(f, "}\n"); }