/* * This file is part of libFirm. * Copyright (C) 2012 University of Karlsruhe. */ /** * @file * @brief Backend node support for generic backend nodes. * @author Sebastian Hack * * Backend node support for generic backend nodes. */ #include #include "array.h" #include "be_t.h" #include "bearch.h" #include "bedump.h" #include "beirg.h" #include "belive.h" #include "benode.h" #include "besched.h" #include "bitfiddle.h" #include "debug.h" #include "fourcc.h" #include "irbackedge_t.h" #include "ircons_t.h" #include "irgopt.h" #include "irgwalk.h" #include "irmode_t.h" #include "irnode_t.h" #include "irop_t.h" #include "iropt_t.h" #include "irprintf.h" #include "irverify_t.h" #include "obst.h" #include "panic.h" #include "pmap.h" #include "raw_bitset.h" #include "set.h" #include "util.h" /** The be_IncSP attribute type. */ typedef struct { be_node_attr_t base; int offset; /**< The offset by which the stack shall be expanded/shrinked. */ unsigned align; /**< alignment after the IncSP (0=no alignment) */ } be_incsp_attr_t; typedef struct { be_node_attr_t base; ir_entity **in_entities; ir_entity **out_entities; int offset; } be_memperm_attr_t; ir_op *op_be_AnyVal; ir_op *op_be_Asm; ir_op *op_be_Copy; ir_op *op_be_CopyKeep; ir_op *op_be_IncSP; ir_op *op_be_Keep; ir_op *op_be_MemPerm; ir_op *op_be_Perm; #define be_op_tag FOURCC('B', 'E', '\0', '\0') static int be_asm_attr_equal(ir_node const *const a, ir_node const *const b) { be_asm_attr_t const *const attr_a = get_be_asm_attr_const(a); be_asm_attr_t const *const attr_b = get_be_asm_attr_const(b); return attr_a->text == attr_b->text && attr_a->operands == attr_b->operands; } /** * Compare the attributes of two be_IncSP nodes. */ static int be_incsp_attrs_equal(const ir_node *a, const ir_node *b) { const be_incsp_attr_t *attr_a = (const be_incsp_attr_t*)get_irn_generic_attr_const(a); const be_incsp_attr_t *attr_b = (const be_incsp_attr_t*)get_irn_generic_attr_const(b); return attr_a->offset == attr_b->offset && attrs_equal_be_node(a, b); } static arch_register_req_t *allocate_reg_req(ir_graph *const irg) { struct obstack *obst = be_get_be_obst(irg); arch_register_req_t *req = OALLOCZ(obst, arch_register_req_t); return req; } static void be_node_set_register_req_in(ir_node *const node, int const pos, arch_register_req_t const *const req) { backend_info_t *info = be_get_info(node); assert(pos < get_irn_arity(node)); info->in_reqs[pos] = req; } /** * Initializes the generic attribute of all be nodes and return it. */ static void init_node_attr(ir_node *const node, unsigned const n_outputs, arch_irn_flags_t const flags) { ir_graph *irg = get_irn_irg(node); struct obstack *obst = be_get_be_obst(irg); backend_info_t *info = be_get_info(node); unsigned const arity = get_irn_arity(node); arch_register_req_t const **const in_reqs = is_irn_dynamic(node) ? NEW_ARR_F(arch_register_req_t const*, arity) : arity != 0 ? OALLOCN(obst, arch_register_req_t const*, arity) : NULL; for (unsigned i = 0; i < arity; ++i) { in_reqs[i] = arch_no_register_req; } info->in_reqs = in_reqs; info->out_infos = NEW_ARR_DZ(reg_out_info_t, obst, n_outputs); for (unsigned i = 0; i < n_outputs; ++i) { info->out_infos[i].req = arch_no_register_req; } info->flags = flags; } ir_node *be_new_Perm(arch_register_class_t const *const cls, ir_node *const block, int const n, ir_node *const *const in) { ir_graph *irg = get_irn_irg(block); ir_node *irn = new_ir_node(NULL, irg, block, op_be_Perm, mode_T, n, in); init_node_attr(irn, n, arch_irn_flags_none); be_node_attr_t *attr = (be_node_attr_t*)get_irn_generic_attr(irn); attr->exc.pin_state = op_pin_state_pinned; for (int i = 0; i < n; ++i) { const ir_node *input = in[i]; const arch_register_req_t *req = arch_get_irn_register_req(input); if (req->width == 1) { be_node_set_register_req_in(irn, i, cls->class_req); arch_set_irn_register_req_out(irn, i, cls->class_req); } else { arch_register_req_t *const new_req = allocate_reg_req(irg); new_req->cls = cls; new_req->type = (req->type & arch_register_req_type_aligned); new_req->width = req->width; be_node_set_register_req_in(irn, i, new_req); arch_set_irn_register_req_out(irn, i, new_req); } } return irn; } ir_node *be_new_MemPerm(ir_node *const block, int n, ir_node *const *const in) { ir_graph *const irg = get_irn_irg(block); ir_node *const irn = new_ir_node(NULL, irg, block, op_be_MemPerm, mode_T, n, in); init_node_attr(irn, n, arch_irn_flags_none); be_memperm_attr_t *attr = (be_memperm_attr_t*)get_irn_generic_attr(irn); attr->in_entities = OALLOCNZ(get_irg_obstack(irg), ir_entity*, n); attr->out_entities = OALLOCNZ(get_irg_obstack(irg), ir_entity*, n); attr->offset = 0; return irn; } ir_node *be_new_Copy(ir_node *bl, ir_node *op) { ir_graph *irg = get_irn_irg(bl); ir_node *in[] = { op }; ir_node *res = new_ir_node(NULL, irg, bl, op_be_Copy, get_irn_mode(op), ARRAY_SIZE(in), in); init_node_attr(res, 1, arch_irn_flags_none); be_node_attr_t *attr = (be_node_attr_t*) get_irn_generic_attr(res); attr->exc.pin_state = op_pin_state_floats; const arch_register_req_t *in_req = arch_get_irn_register_req(op); const arch_register_class_t *cls = in_req->cls; be_node_set_register_req_in(res, 0, cls->class_req); arch_set_irn_register_req_out(res, 0, cls->class_req); arch_register_req_t *const req = allocate_reg_req(irg); req->cls = cls; req->type = arch_register_req_type_should_be_same | (in_req->type & arch_register_req_type_aligned); req->other_same = 1U << 0; req->width = in_req->width; arch_set_irn_register_req_out(res, 0, req); return res; } ir_node *be_get_Copy_op(const ir_node *cpy) { return get_irn_n(cpy, n_be_Copy_op); } ir_node *be_new_Keep(ir_node *const block, int const n, ir_node *const *const in) { ir_graph *irg = get_irn_irg(block); ir_node *res = new_ir_node(NULL, irg, block, op_be_Keep, mode_ANY, n, in); init_node_attr(res, 1, arch_irn_flag_schedule_first); be_node_attr_t *attr = (be_node_attr_t*) get_irn_generic_attr(res); attr->exc.pin_state = op_pin_state_pinned; for (int i = 0; i < n; ++i) { arch_register_req_t const *req = arch_get_irn_register_req(in[i]); req = req->cls != NULL ? req->cls->class_req : arch_no_register_req; be_node_set_register_req_in(res, i, req); } keep_alive(res); return res; } ir_node *be_new_Keep_one(ir_node *const kept) { ir_node *const in[] = { kept }; ir_node *const block = get_nodes_block(kept); return be_new_Keep(block, ARRAY_SIZE(in), in); } ir_node *be_new_IncSP(const arch_register_t *sp, ir_node *bl, ir_node *old_sp, int offset, unsigned align) { ir_graph *irg = get_irn_irg(bl); ir_node *in[] = { old_sp }; ir_node *irn = new_ir_node(NULL, irg, bl, op_be_IncSP, sp->cls->mode, ARRAY_SIZE(in), in); init_node_attr(irn, 1, arch_irn_flags_none); be_incsp_attr_t *a = (be_incsp_attr_t*)get_irn_generic_attr(irn); a->offset = offset; a->align = align; a->base.exc.pin_state = op_pin_state_pinned; /* Set output constraint to stack register. */ be_node_set_register_req_in(irn, 0, sp->cls->class_req); arch_copy_irn_out_info(irn, 0, old_sp); assert(arch_register_req_is(arch_get_irn_register_req(irn), produces_sp)); return irn; } ir_node *be_new_CopyKeep(ir_node *const bl, ir_node *const src, int const n, ir_node *const *const in_keep) { ir_mode *mode = get_irn_mode(src); ir_graph *irg = get_irn_irg(bl); int arity = n+1; ir_node **in = ALLOCAN(ir_node*, arity); in[0] = src; MEMCPY(&in[1], in_keep, n); ir_node *irn = new_ir_node(NULL, irg, bl, op_be_CopyKeep, mode, arity, in); init_node_attr(irn, 1, arch_irn_flag_schedule_first); be_node_attr_t *attr = (be_node_attr_t*)get_irn_generic_attr(irn); attr->exc.pin_state = op_pin_state_floats; const arch_register_req_t *req = arch_get_irn_register_req(src); const arch_register_class_t *cls = req->cls; be_node_set_register_req_in(irn, 0, cls->class_req); arch_set_irn_register_req_out(irn, 0, cls->class_req); for (int i = 0; i < n; ++i) { ir_node *pred = in_keep[i]; const arch_register_req_t *req = arch_get_irn_register_req(pred); req = req->cls != NULL ? req->cls->class_req : arch_no_register_req; be_node_set_register_req_in(irn, i+1, req); } return irn; } ir_node *be_get_CopyKeep_op(const ir_node *cpy) { return get_irn_n(cpy, n_be_CopyKeep_op); } void be_set_MemPerm_in_entity(const ir_node *irn, unsigned n, ir_entity *ent) { assert(n < be_get_MemPerm_entity_arity(irn)); const be_memperm_attr_t *attr = (const be_memperm_attr_t*)get_irn_generic_attr_const(irn); attr->in_entities[n] = ent; } ir_entity* be_get_MemPerm_in_entity(const ir_node* irn, unsigned n) { assert(n < be_get_MemPerm_entity_arity(irn)); const be_memperm_attr_t *attr = (const be_memperm_attr_t*)get_irn_generic_attr_const(irn); return attr->in_entities[n]; } void be_set_MemPerm_out_entity(const ir_node *irn, unsigned n, ir_entity *ent) { assert(n < be_get_MemPerm_entity_arity(irn)); const be_memperm_attr_t *attr = (const be_memperm_attr_t*)get_irn_generic_attr_const(irn); attr->out_entities[n] = ent; } ir_entity* be_get_MemPerm_out_entity(const ir_node* irn, unsigned n) { assert(n < be_get_MemPerm_entity_arity(irn)); const be_memperm_attr_t *attr = (const be_memperm_attr_t*)get_irn_generic_attr_const(irn); return attr->out_entities[n]; } void be_set_MemPerm_offset(ir_node *irn, int offset) { assert(be_is_MemPerm(irn)); be_memperm_attr_t *attr = (be_memperm_attr_t*)get_irn_generic_attr(irn); attr->offset = offset; } int be_get_MemPerm_offset(const ir_node *irn) { assert(be_is_MemPerm(irn)); const be_memperm_attr_t *attr = (const be_memperm_attr_t*)get_irn_generic_attr_const(irn); return attr->offset; } unsigned be_get_MemPerm_entity_arity(const ir_node *irn) { assert(be_is_MemPerm(irn)); return get_irn_arity(irn); } ir_node *be_new_AnyVal(ir_node *block, const arch_register_class_t *cls) { ir_graph *irg = get_irn_irg(block); ir_mode *mode = cls->mode; ir_node *res = new_ir_node(NULL, irg, block, op_be_AnyVal, mode, 0, NULL); init_node_attr(res, 1, arch_irn_flags_none); arch_set_irn_register_req_out(res, 0, cls->class_req); be_node_attr_t *attr = (be_node_attr_t*)get_irn_generic_attr(res); attr->exc.pin_state = op_pin_state_floats; return res; } const arch_register_req_t *be_create_reg_req(struct obstack *obst, const arch_register_t *reg, arch_register_req_type_t additional_types) { arch_register_class_t const *cls = reg->cls; unsigned *limited = rbitset_obstack_alloc(obst, cls->n_regs); rbitset_set(limited, reg->index); arch_register_req_t *req = OALLOC(obst, arch_register_req_t); req->type = arch_register_req_type_limited | additional_types; req->cls = cls; req->limited = limited; req->width = 1; return req; } ir_node *be_get_IncSP_pred(ir_node *irn) { assert(be_is_IncSP(irn)); return get_irn_n(irn, 0); } void be_set_IncSP_pred(ir_node *incsp, ir_node *pred) { assert(be_is_IncSP(incsp)); set_irn_n(incsp, 0, pred); } void be_set_IncSP_offset(ir_node *irn, int offset) { assert(be_is_IncSP(irn)); be_incsp_attr_t *a = (be_incsp_attr_t*)get_irn_generic_attr(irn); a->offset = offset; } int be_get_IncSP_offset(const ir_node *irn) { assert(be_is_IncSP(irn)); const be_incsp_attr_t *a = (const be_incsp_attr_t*)get_irn_generic_attr_const(irn); return a->offset; } unsigned be_get_IncSP_align(const ir_node *irn) { assert(be_is_IncSP(irn)); const be_incsp_attr_t *a = (const be_incsp_attr_t*)get_irn_generic_attr_const(irn); return a->align; } static unsigned get_start_reg_index(ir_graph *irg, const arch_register_t *reg) { /* do a naive linear search... */ ir_node *start = get_irg_start(irg); be_foreach_out(start, i) { arch_register_req_t const *const out_req = arch_get_irn_register_req_out(start, i); if (!arch_register_req_is(out_req, limited)) continue; if (out_req->cls != reg->cls) continue; if (!rbitset_is_set(out_req->limited, reg->index)) continue; return i; } panic("tried querying undefined register '%s' at Start", reg->name); } ir_node *be_get_initial_reg_value(ir_graph *irg, const arch_register_t *reg) { unsigned const i = get_start_reg_index(irg, reg); ir_node *const start = get_irg_start(irg); ir_node *const proj = get_Proj_for_pn(start, i); return proj ? proj : new_r_Proj(start, reg->cls->mode, i); } ir_node *be_new_Phi(ir_node *block, int n_ins, ir_node **ins, ir_mode *mode, const arch_register_req_t *req) { ir_graph *irg = get_irn_irg(block); ir_node *phi = new_ir_node(NULL, irg, block, op_Phi, mode, n_ins, ins); phi->attr.phi.u.backedge = new_backedge_arr(get_irg_obstack(irg), n_ins); struct obstack *obst = be_get_be_obst(irg); backend_info_t *info = be_get_info(phi); info->out_infos = NEW_ARR_DZ(reg_out_info_t, obst, 1); info->in_reqs = OALLOCN(obst, const arch_register_req_t*, n_ins); info->out_infos[0].req = req; for (int i = 0; i < n_ins; ++i) { info->in_reqs[i] = req; } verify_new_node(irg, phi); phi = optimize_node(phi); return phi; } ir_node *be_new_Phi0(ir_node *const block, ir_mode *const mode, arch_register_req_t const *const req) { ir_graph *const irg = get_irn_irg(block); ir_node *const phi = new_ir_node(NULL, irg, block, op_Phi, mode, 0, NULL); struct obstack *const obst = be_get_be_obst(irg); backend_info_t *const info = be_get_info(phi); info->out_infos = NEW_ARR_DZ(reg_out_info_t, obst, 1); info->out_infos[0].req = req; return phi; } ir_node *be_complete_Phi(ir_node *const phi, unsigned const n_ins, ir_node **const ins) { assert(is_Phi(phi) && get_Phi_n_preds(phi) == 0); ir_graph *const irg = get_irn_irg(phi); phi->attr.phi.u.backedge = new_backedge_arr(get_irg_obstack(irg), n_ins); set_irn_in(phi, n_ins, ins); struct obstack *const obst = be_get_be_obst(irg); arch_register_req_t const **const in_reqs = OALLOCN(obst, arch_register_req_t const*, n_ins); arch_register_req_t const *const req = arch_get_irn_register_req(phi); for (unsigned i = 0; i < n_ins; ++i) { in_reqs[i] = req; } backend_info_t *const info = be_get_info(phi); info->in_reqs = in_reqs; verify_new_node(irg, phi); return optimize_node(phi); } void be_set_phi_reg_req(ir_node *node, const arch_register_req_t *req) { assert(mode_is_data(get_irn_mode(node))); backend_info_t *info = be_get_info(node); info->out_infos[0].req = req; for (int i = 0, arity = get_irn_arity(node); i < arity; ++i) { info->in_reqs[i] = req; } } void be_dump_phi_reg_reqs(FILE *F, const ir_node *node, dump_reason_t reason) { switch (reason) { case dump_node_opcode_txt: fputs(get_irn_opname(node), F); break; case dump_node_mode_txt: fprintf(F, "%s", get_mode_name(get_irn_mode(node))); break; case dump_node_nodeattr_txt: break; case dump_node_info_txt: { ir_graph *irg = get_irn_irg(node); if (irg_is_constrained(irg, IR_GRAPH_CONSTRAINT_BACKEND)) { be_dump_reqs_and_registers(F, node); } break; } } } ir_node *be_new_Asm(dbg_info *const dbgi, ir_node *const block, int const n_ins, ir_node **const ins, int const n_outs, ident *const text, void *const operands) { ir_graph *const irg = get_irn_irg(block); ir_node *const asmn = new_ir_node(dbgi, irg, block, op_be_Asm, mode_T, n_ins, ins); be_info_init_irn(asmn, arch_irn_flags_none, NULL, n_outs); be_asm_attr_t *const attr = (be_asm_attr_t*)get_irn_generic_attr(asmn); attr->text = text; attr->operands = operands; return asmn; } /** * ir_op-Operation: dump a be node to file */ static void dump_node(FILE *f, const ir_node *irn, dump_reason_t reason) { assert(is_be_node(irn)); switch (reason) { case dump_node_opcode_txt: fputs(get_irn_opname(irn), f); break; case dump_node_mode_txt: if (be_is_Copy(irn) || be_is_CopyKeep(irn)) fprintf(f, "%s", get_mode_name(get_irn_mode(irn))); break; case dump_node_nodeattr_txt: if (be_is_IncSP(irn)) { const be_incsp_attr_t *attr = (const be_incsp_attr_t*)get_irn_generic_attr_const(irn); fprintf(f, " [%d] ", attr->offset); } break; case dump_node_info_txt: be_dump_reqs_and_registers(f, irn); if (be_is_IncSP(irn)) { const be_incsp_attr_t *a = (const be_incsp_attr_t*)get_irn_generic_attr_const(irn); fprintf(f, "align: %u\n", a->align); fprintf(f, "offset: %d\n", a->offset); } else if (be_is_MemPerm(irn)) { for (unsigned i = 0; i < be_get_MemPerm_entity_arity(irn); ++i) { ir_entity *in = be_get_MemPerm_in_entity(irn, i); ir_entity *out = be_get_MemPerm_out_entity(irn, i); if (in != NULL) fprintf(f, "\nin[%u]: %s\n", i, get_entity_name(in)); if (out != NULL) fprintf(f, "\nout[%u]: %s\n", i, get_entity_name(out)); } } break; } } /** * ir_op-Operation: * Copies the backend specific attributes from old node to new node. */ static void copy_attr(ir_graph *irg, const ir_node *old_node, ir_node *new_node) { assert(is_be_node(old_node)); assert(is_be_node(new_node)); const void *old_attr = get_irn_generic_attr_const(old_node); void *new_attr = get_irn_generic_attr(new_node); struct obstack *obst = be_get_be_obst(irg); backend_info_t *old_info = be_get_info(old_node); backend_info_t *new_info = be_get_info(new_node); memcpy(new_attr, old_attr, get_op_attr_size(get_irn_op(old_node))); new_info->flags = old_info->flags; new_info->out_infos = old_info->out_infos ? DUP_ARR_D(reg_out_info_t, obst, old_info->out_infos) : NULL; /* input infos */ if (old_info->in_reqs != NULL) { unsigned n_ins = get_irn_arity(old_node); /* need dynamic in infos? */ if (is_irn_dynamic(old_node)) { new_info->in_reqs = NEW_ARR_F(const arch_register_req_t*, n_ins); } else { new_info->in_reqs = OALLOCN(obst,const arch_register_req_t*, n_ins); } MEMCPY(new_info->in_reqs, old_info->in_reqs, n_ins); } else { new_info->in_reqs = NULL; } } bool is_be_node(const ir_node *irn) { return get_op_tag(get_irn_op(irn)) == be_op_tag; } arch_irn_ops_t const be_null_ops = { .get_op_estimated_cost = NULL, .perform_memory_operand = NULL, }; static ir_op *new_be_op(unsigned code, const char *name, op_pin_state p, irop_flags flags, op_arity opar, size_t attr_size) { ir_op *res = new_ir_op(code, name, p, flags, opar, 0, attr_size); set_op_dump(res, dump_node); set_op_copy_attr(res, copy_attr); res->ops.be_ops = &be_null_ops; set_op_tag(res, be_op_tag); return res; } void be_init_op(void) { assert(op_be_Perm == NULL); /* Acquire all needed opcodes. */ unsigned const o = get_next_ir_opcodes(beo_last + 1); op_be_AnyVal = new_be_op(o+beo_AnyVal, "be_AnyVal", op_pin_state_exc_pinned, irop_flag_constlike|irop_flag_cse_neutral, oparity_any, sizeof(be_node_attr_t)); op_be_Asm = new_be_op(o+beo_Asm, "be_Asm", op_pin_state_exc_pinned, irop_flag_none, oparity_any, sizeof(be_asm_attr_t)); op_be_Copy = new_be_op(o+beo_Copy, "be_Copy", op_pin_state_exc_pinned, irop_flag_none, oparity_any, sizeof(be_node_attr_t)); op_be_CopyKeep = new_be_op(o+beo_CopyKeep, "be_CopyKeep", op_pin_state_exc_pinned, irop_flag_keep, oparity_variable, sizeof(be_node_attr_t)); op_be_IncSP = new_be_op(o+beo_IncSP, "be_IncSP", op_pin_state_exc_pinned, irop_flag_none, oparity_any, sizeof(be_incsp_attr_t)); op_be_Keep = new_be_op(o+beo_Keep, "be_Keep", op_pin_state_exc_pinned, irop_flag_keep, oparity_variable, sizeof(be_node_attr_t)); op_be_MemPerm = new_be_op(o+beo_MemPerm, "be_MemPerm", op_pin_state_exc_pinned, irop_flag_none, oparity_variable, sizeof(be_memperm_attr_t)); op_be_Perm = new_be_op(o+beo_Perm, "be_Perm", op_pin_state_exc_pinned, irop_flag_none, oparity_variable, sizeof(be_node_attr_t)); set_op_attrs_equal(op_be_Asm, be_asm_attr_equal); set_op_attrs_equal(op_be_AnyVal, attrs_equal_be_node); set_op_attrs_equal(op_be_Copy, attrs_equal_be_node); set_op_attrs_equal(op_be_CopyKeep, attrs_equal_be_node); set_op_attrs_equal(op_be_IncSP, be_incsp_attrs_equal); set_op_attrs_equal(op_be_Keep, attrs_equal_be_node); set_op_attrs_equal(op_be_MemPerm, attrs_equal_be_node); set_op_attrs_equal(op_be_Perm, attrs_equal_be_node); /* attach out dummy_ops to middle end nodes */ for (unsigned opc = iro_first; opc <= iro_last; ++opc) { ir_op *op = ir_get_opcode(opc); assert(op->ops.be_ops == NULL); op->ops.be_ops = &be_null_ops; } } void be_finish_op(void) { free_ir_op(op_be_AnyVal); op_be_AnyVal = NULL; free_ir_op(op_be_Copy); op_be_Copy = NULL; free_ir_op(op_be_CopyKeep); op_be_CopyKeep = NULL; free_ir_op(op_be_IncSP); op_be_IncSP = NULL; free_ir_op(op_be_Keep); op_be_Keep = NULL; free_ir_op(op_be_MemPerm); op_be_MemPerm = NULL; free_ir_op(op_be_Perm); op_be_Perm = NULL; }