/* * Copyright (C) 1995-2011 University of Karlsruhe. All right reserved. * * This file is part of libFirm. * * This file may be distributed and/or modified under the terms of the * GNU General Public License version 2 as published by the Free Software * Foundation and appearing in the file LICENSE.GPL included in the * packaging of this file. * * Licensees holding valid libFirm Professional Edition licenses may use * this file in accordance with the libFirm Commercial License. * Agreement provided with the Software. * * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE. */ /** * @file * @brief Handling of ia32 specific firm opcodes. * @author Christian Wuerdig * * This file implements the creation of the architecture specific firm opcodes * and the corresponding node constructors for the ia32 assembler irg. */ #include "config.h" #include #include #include "irargs_t.h" #include "irprog_t.h" #include "irgraph_t.h" #include "irnode_t.h" #include "irmode_t.h" #include "ircons_t.h" #include "iropt_t.h" #include "irop.h" #include "irverify_t.h" #include "irprintf.h" #include "iredges.h" #include "error.h" #include "raw_bitset.h" #include "xmalloc.h" #include "bearch.h" #include "beinfo.h" #include "bearch_ia32_t.h" #include "ia32_common_transform.h" #include "ia32_nodes_attr.h" #include "ia32_new_nodes.h" #include "gen_ia32_regalloc_if.h" struct obstack opcodes_obst; /** * Dumper interface for dumping ia32 nodes in vcg. * @param n the node to dump * @param F the output file * @param reason indicates which kind of information should be dumped * @return 0 on success or != 0 on failure */ static void ia32_dump_node(FILE *F, const ir_node *n, dump_reason_t reason) { ir_mode *mode = NULL; switch (reason) { case dump_node_opcode_txt: fprintf(F, "%s", get_irn_opname(n)); if (is_ia32_Immediate(n) || is_ia32_Const(n)) { const ia32_immediate_attr_t *attr = get_ia32_immediate_attr_const(n); fputc(' ', F); if (attr->symconst) { if (attr->sc_sign) { fputc('-', F); } fputs(get_entity_name(attr->symconst), F); } if (attr->offset != 0 || attr->symconst == NULL) { if (attr->offset > 0 && attr->symconst != NULL) { fputc('+', F); } fprintf(F, "%ld", attr->offset); if (attr->no_pic_adjust) { fputs("(no_pic_adjust)", F); } } } else { const ia32_attr_t *attr = get_ia32_attr_const(n); if (attr->am_sc != NULL || attr->am_offs != 0) fputs(" [", F); if (attr->am_sc != NULL) { if (attr->data.am_sc_sign) { fputc('-', F); } fputs(get_entity_name(attr->am_sc), F); if (attr->data.am_sc_no_pic_adjust) { fputs("(no_pic_adjust)", F); } } if (attr->am_offs != 0) { if (attr->am_offs > 0 && attr->am_sc != NULL) { fputc('+', F); } fprintf(F, "%d", attr->am_offs); } if (attr->am_sc != NULL || attr->am_offs != 0) fputc(']', F); } break; case dump_node_mode_txt: mode = get_ia32_ls_mode(n); if (mode != NULL) fprintf(F, "[%s]", get_mode_name(mode)); break; case dump_node_nodeattr_txt: if (! is_ia32_Lea(n)) { switch (get_ia32_op_type(n)) { case ia32_Normal: break; case ia32_AddrModeS: fprintf(F, "[AM S] "); break; case ia32_AddrModeD: fprintf(F, "[AM D] "); break; } } break; case dump_node_info_txt: arch_dump_reqs_and_registers(F, n); /* dump op type */ fprintf(F, "op = "); switch (get_ia32_op_type(n)) { case ia32_Normal: fprintf(F, "Normal"); break; case ia32_AddrModeD: fprintf(F, "AM Dest (Load+Store)"); break; case ia32_AddrModeS: fprintf(F, "AM Source (Load)"); break; default: fprintf(F, "unknown (%d)", (int)get_ia32_op_type(n)); break; } fprintf(F, "\n"); /* dump supported am */ fprintf(F, "AM support = "); switch (get_ia32_am_support(n)) { case ia32_am_none: fputs("none\n", F); break; case ia32_am_unary: fputs("source (unary)\n", F); break; case ia32_am_binary: fputs("source (binary)\n", F); break; default: fprintf(F, "unknown (%d)\n", (int)get_ia32_am_support(n)); break; } /* dump AM offset */ if (get_ia32_am_offs_int(n) != 0) { fprintf(F, "AM offset = %d\n", get_ia32_am_offs_int(n)); } /* dump AM symconst */ if (get_ia32_am_sc(n) != NULL) { ir_entity *ent = get_ia32_am_sc(n); ident *id = get_entity_ld_ident(ent); fprintf(F, "AM symconst = %s\n", get_id_str(id)); } /* dump AM scale */ fprintf(F, "AM scale = %u\n", get_ia32_am_scale(n)); /* dump pn code */ if (is_ia32_CMovcc(n) || is_ia32_Setcc(n) || is_ia32_Jcc(n)) { const ia32_attr_t *attr = get_ia32_attr_const(n); fprintf(F, "condition_code = 0x%X\n", (unsigned)get_ia32_condcode(n)); fprintf(F, "ins_permuted = %u\n", (unsigned)attr->data.ins_permuted); } else if (is_ia32_CopyB(n) || is_ia32_CopyB_i(n)) { fprintf(F, "size = %u\n", get_ia32_copyb_size(n)); } fprintf(F, "use_frame = %d\n", is_ia32_use_frame(n)); fprintf(F, "commutative = %d\n", is_ia32_commutative(n)); fprintf(F, "need stackent = %d\n", is_ia32_need_stackent(n)); fprintf(F, "is reload = %d\n", is_ia32_is_reload(n)); fprintf(F, "latency = %u\n", get_ia32_latency(n)); /* dump frame entity */ fprintf(F, "frame entity = "); if (get_ia32_frame_ent(n)) { ir_fprintf(F, "%+F", get_ia32_frame_ent(n)); } else { fprintf(F, "n/a"); } fprintf(F, "\n"); /* dump modes */ fprintf(F, "ls_mode = "); if (get_ia32_ls_mode(n)) { ir_fprintf(F, "%+F", get_ia32_ls_mode(n)); } else { fprintf(F, "n/a"); } fprintf(F, "\n"); #ifndef NDEBUG /* dump original ir node name */ char const *orig = get_ia32_attr_const(n)->orig_node; fprintf(F, "orig node = %s\n", orig ? orig : "n/a"); #endif /* NDEBUG */ break; } } ia32_attr_t *get_ia32_attr(ir_node *node) { assert(is_ia32_irn(node) && "need ia32 node to get ia32 attributes"); return (ia32_attr_t *)get_irn_generic_attr(node); } const ia32_attr_t *get_ia32_attr_const(const ir_node *node) { assert(is_ia32_irn(node) && "need ia32 node to get ia32 attributes"); return (const ia32_attr_t*) get_irn_generic_attr_const(node); } ia32_x87_attr_t *get_ia32_x87_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_x87_attr_t *x87_attr = CAST_IA32_ATTR(ia32_x87_attr_t, attr); return x87_attr; } const ia32_x87_attr_t *get_ia32_x87_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_x87_attr_t *x87_attr = CONST_CAST_IA32_ATTR(ia32_x87_attr_t, attr); return x87_attr; } const ia32_asm_attr_t *get_ia32_asm_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_asm_attr_t *asm_attr = CONST_CAST_IA32_ATTR(ia32_asm_attr_t, attr); return asm_attr; } ia32_immediate_attr_t *get_ia32_immediate_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_immediate_attr_t *imm_attr = CAST_IA32_ATTR(ia32_immediate_attr_t, attr); return imm_attr; } const ia32_immediate_attr_t *get_ia32_immediate_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_immediate_attr_t *imm_attr = CONST_CAST_IA32_ATTR(ia32_immediate_attr_t, attr); return imm_attr; } ia32_condcode_attr_t *get_ia32_condcode_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_condcode_attr_t *cc_attr = CAST_IA32_ATTR(ia32_condcode_attr_t, attr); return cc_attr; } const ia32_condcode_attr_t *get_ia32_condcode_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_condcode_attr_t *cc_attr = CONST_CAST_IA32_ATTR(ia32_condcode_attr_t, attr); return cc_attr; } ia32_switch_attr_t *get_ia32_switch_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_switch_attr_t *switch_attr = CAST_IA32_ATTR(ia32_switch_attr_t, attr); return switch_attr; } const ia32_switch_attr_t *get_ia32_switch_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_switch_attr_t *switch_attr = CONST_CAST_IA32_ATTR(ia32_switch_attr_t, attr); return switch_attr; } ia32_call_attr_t *get_ia32_call_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_call_attr_t *call_attr = CAST_IA32_ATTR(ia32_call_attr_t, attr); return call_attr; } const ia32_call_attr_t *get_ia32_call_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_call_attr_t *call_attr = CONST_CAST_IA32_ATTR(ia32_call_attr_t, attr); return call_attr; } ia32_copyb_attr_t *get_ia32_copyb_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_copyb_attr_t *copyb_attr = CAST_IA32_ATTR(ia32_copyb_attr_t, attr); return copyb_attr; } const ia32_copyb_attr_t *get_ia32_copyb_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_copyb_attr_t *copyb_attr = CONST_CAST_IA32_ATTR(ia32_copyb_attr_t, attr); return copyb_attr; } ia32_climbframe_attr_t *get_ia32_climbframe_attr(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ia32_climbframe_attr_t *climbframe_attr = CAST_IA32_ATTR(ia32_climbframe_attr_t, attr); return climbframe_attr; } const ia32_climbframe_attr_t *get_ia32_climbframe_attr_const(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); const ia32_climbframe_attr_t *climbframe_attr = CONST_CAST_IA32_ATTR(ia32_climbframe_attr_t, attr); return climbframe_attr; } /** * Gets the type of an ia32 node. */ ia32_op_type_t get_ia32_op_type(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return (ia32_op_type_t)attr->data.tp; } /** * Sets the type of an ia32 node. */ void set_ia32_op_type(ir_node *node, ia32_op_type_t tp) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.tp = tp; } ia32_am_type_t get_ia32_am_support(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return (ia32_am_type_t)attr->data.am_arity; } /** * Sets the supported address mode of an ia32 node */ void set_ia32_am_support(ir_node *node, ia32_am_type_t arity) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.am_arity = arity; } /** * Gets the address mode offset as int. */ int get_ia32_am_offs_int(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->am_offs; } /** * Sets the address mode offset from an int. */ void set_ia32_am_offs_int(ir_node *node, int offset) { ia32_attr_t *attr = get_ia32_attr(node); attr->am_offs = offset; } void add_ia32_am_offs_int(ir_node *node, int offset) { ia32_attr_t *attr = get_ia32_attr(node); attr->am_offs += offset; } /** * Returns the symconst entity associated to address mode. */ ir_entity *get_ia32_am_sc(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->am_sc; } /** * Sets the symconst entity associated to address mode. */ void set_ia32_am_sc(ir_node *node, ir_entity *entity) { ia32_attr_t *attr = get_ia32_attr(node); attr->am_sc = entity; } /** * Sets the sign bit for address mode symconst. */ void set_ia32_am_sc_sign(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.am_sc_sign = 1; } /** * Clears the sign bit for address mode symconst. */ void clear_ia32_am_sc_sign(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.am_sc_sign = 0; } /** * Returns the sign bit for address mode symconst. */ int is_ia32_am_sc_sign(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.am_sc_sign; } void set_ia32_am_tls_segment(ir_node *node, bool value) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.am_tls_segment = value; } bool get_ia32_am_tls_segment(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.am_tls_segment; } /** * Gets the addr mode const. */ unsigned get_ia32_am_scale(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.am_scale; } /** * Sets the index register scale for address mode. */ void set_ia32_am_scale(ir_node *node, unsigned scale) { ia32_attr_t *attr = get_ia32_attr(node); assert(scale <= 3 && "AM scale out of range [0 ... 3]"); attr->data.am_scale = scale; } void ia32_copy_am_attrs(ir_node *to, const ir_node *from) { set_ia32_ls_mode(to, get_ia32_ls_mode(from)); set_ia32_am_scale(to, get_ia32_am_scale(from)); set_ia32_am_sc(to, get_ia32_am_sc(from)); if (is_ia32_am_sc_sign(from)) set_ia32_am_sc_sign(to); add_ia32_am_offs_int(to, get_ia32_am_offs_int(from)); set_ia32_frame_ent(to, get_ia32_frame_ent(from)); if (is_ia32_use_frame(from)) set_ia32_use_frame(to); } /** * Sets the uses_frame flag. */ void set_ia32_use_frame(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.use_frame = 1; } /** * Clears the uses_frame flag. */ void clear_ia32_use_frame(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.use_frame = 0; } /** * Gets the uses_frame flag. */ int is_ia32_use_frame(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.use_frame; } /** * Sets node to commutative. */ void set_ia32_commutative(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.is_commutative = 1; } /** * Sets node to non-commutative. */ void clear_ia32_commutative(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.is_commutative = 0; } /** * Checks if node is commutative. */ int is_ia32_commutative(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.is_commutative; } void set_ia32_need_stackent(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.need_stackent = 1; } void clear_ia32_need_stackent(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.need_stackent = 0; } int is_ia32_need_stackent(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.need_stackent; } void set_ia32_is_reload(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.is_reload = 1; } int is_ia32_is_reload(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.is_reload; } void set_ia32_is_spill(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.is_spill = 1; } int is_ia32_is_spill(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.is_spill; } void set_ia32_is_remat(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.is_remat = 1; } int is_ia32_is_remat(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.is_remat; } /** * Gets the mode of the stored/loaded value (only set for Store/Load) */ ir_mode *get_ia32_ls_mode(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->ls_mode; } /** * Sets the mode of the stored/loaded value (only set for Store/Load) */ void set_ia32_ls_mode(ir_node *node, ir_mode *mode) { ia32_attr_t *attr = get_ia32_attr(node); attr->ls_mode = mode; } /** * Gets the frame entity assigned to this node. */ ir_entity *get_ia32_frame_ent(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->frame_ent; } /** * Sets the frame entity for this node. */ void set_ia32_frame_ent(ir_node *node, ir_entity *ent) { ia32_attr_t *attr = get_ia32_attr(node); attr->frame_ent = ent; if (ent != NULL) set_ia32_use_frame(node); else clear_ia32_use_frame(node); } /** * Gets the instruction latency. */ unsigned get_ia32_latency(const ir_node *node) { const ir_op *op = get_irn_op(node); const ia32_op_attr_t *op_attr = (ia32_op_attr_t*) get_op_attr(op); return op_attr->latency; } const ir_switch_table *get_ia32_switch_table(const ir_node *node) { const ia32_switch_attr_t *attr = get_ia32_switch_attr_const(node); return attr->table; } ia32_condition_code_t get_ia32_condcode(const ir_node *node) { const ia32_condcode_attr_t *attr = get_ia32_condcode_attr_const(node); return attr->condition_code; } /** * Sets the condition code of a node */ void set_ia32_condcode(ir_node *node, ia32_condition_code_t code) { ia32_condcode_attr_t *attr = get_ia32_condcode_attr(node); attr->condition_code = code; } /** * Returns the condition code of a node. */ unsigned get_ia32_copyb_size(const ir_node *node) { const ia32_copyb_attr_t *attr = get_ia32_copyb_attr_const(node); return attr->size; } /** * Get the exception label attribute. */ unsigned get_ia32_exc_label(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); return attr->data.has_except_label; } /** * Set the exception label attribute. */ void set_ia32_exc_label(ir_node *node, unsigned flag) { ia32_attr_t *attr = get_ia32_attr(node); attr->data.has_except_label = flag; } /** * Return the exception label id. */ ir_label_t get_ia32_exc_label_id(const ir_node *node) { const ia32_attr_t *attr = get_ia32_attr_const(node); assert(attr->data.has_except_label); return attr->exc_label; } /** * Assign the exception label id. */ void set_ia32_exc_label_id(ir_node *node, ir_label_t id) { ia32_attr_t *attr = get_ia32_attr(node); assert(attr->data.has_except_label); attr->exc_label = id; } #ifndef NDEBUG static const char *ia32_get_old_node_name(const ir_node *irn) { ir_graph *irg = get_irn_irg(irn); struct obstack *obst = be_get_be_obst(irg); lc_eoprintf(firm_get_arg_env(), obst, "%+F", irn); obstack_1grow(obst, 0); return (const char*)obstack_finish(obst); } /** * Sets the name of the original ir node. */ void set_ia32_orig_node(ir_node *node, const ir_node *old) { const char *name = ia32_get_old_node_name(old); ia32_attr_t *attr = get_ia32_attr(node); attr->orig_node = name; } #endif /* NDEBUG */ void ia32_swap_left_right(ir_node *node) { ia32_attr_t *attr = get_ia32_attr(node); ir_node *left = get_irn_n(node, n_ia32_binary_left); ir_node *right = get_irn_n(node, n_ia32_binary_right); assert(is_ia32_commutative(node)); attr->data.ins_permuted = !attr->data.ins_permuted; set_irn_n(node, n_ia32_binary_left, right); set_irn_n(node, n_ia32_binary_right, left); } /** * Initializes the nodes attributes. */ static void init_ia32_attributes(ir_node *node, arch_irn_flags_t flags, const arch_register_req_t **in_reqs, int n_res) { ir_graph *irg = get_irn_irg(node); struct obstack *obst = get_irg_obstack(irg); ia32_attr_t *attr = get_ia32_attr(node); backend_info_t *info; arch_set_irn_flags(node, flags); arch_set_irn_register_reqs_in(node, in_reqs); #ifndef NDEBUG attr->attr_type |= IA32_ATTR_ia32_attr_t; #endif info = be_get_info(node); info->out_infos = NEW_ARR_DZ(reg_out_info_t, obst, n_res); } static void init_ia32_x87_attributes(ir_node *res) { #ifndef NDEBUG ia32_attr_t *attr = get_ia32_attr(res); attr->attr_type |= IA32_ATTR_ia32_x87_attr_t; #endif ir_graph *const irg = get_irn_irg(res); ia32_request_x87_sim(irg); } static void init_ia32_asm_attributes(ir_node *res) { #ifndef NDEBUG ia32_attr_t *attr = get_ia32_attr(res); attr->attr_type |= IA32_ATTR_ia32_asm_attr_t; #endif ir_graph *const irg = get_irn_irg(res); ia32_request_x87_sim(irg); /* asm might have fp operands. */ } static void init_ia32_immediate_attributes(ir_node *res, ir_entity *symconst, int symconst_sign, int no_pic_adjust, long offset) { ia32_immediate_attr_t *attr = (ia32_immediate_attr_t*)get_irn_generic_attr(res); #ifndef NDEBUG attr->attr.attr_type |= IA32_ATTR_ia32_immediate_attr_t; #endif attr->symconst = symconst; attr->sc_sign = symconst_sign; attr->no_pic_adjust = no_pic_adjust; attr->offset = offset; } static void init_ia32_call_attributes(ir_node* res, unsigned pop, ir_type* call_tp) { ia32_call_attr_t *attr = (ia32_call_attr_t*)get_irn_generic_attr(res); #ifndef NDEBUG attr->attr.attr_type |= IA32_ATTR_ia32_call_attr_t; #endif attr->pop = pop; attr->call_tp = call_tp; } static void init_ia32_copyb_attributes(ir_node *res, unsigned size) { ia32_copyb_attr_t *attr = (ia32_copyb_attr_t*)get_irn_generic_attr(res); #ifndef NDEBUG attr->attr.attr_type |= IA32_ATTR_ia32_copyb_attr_t; #endif attr->size = size; } static void init_ia32_condcode_attributes(ir_node *res, ia32_condition_code_t cc) { ia32_condcode_attr_t *attr = (ia32_condcode_attr_t*)get_irn_generic_attr(res); #ifndef NDEBUG attr->attr.attr_type |= IA32_ATTR_ia32_condcode_attr_t; #endif attr->condition_code = cc; } static void init_ia32_climbframe_attributes(ir_node *res, unsigned count) { ia32_climbframe_attr_t *attr = (ia32_climbframe_attr_t*)get_irn_generic_attr(res); #ifndef NDEBUG attr->attr.attr_type |= IA32_ATTR_ia32_climbframe_attr_t; #endif attr->count = count; } static void init_ia32_switch_attributes(ir_node *node, const ir_switch_table *table) { ia32_switch_attr_t *attr = (ia32_switch_attr_t*) get_irn_generic_attr(node); #ifndef NDEBUG attr->attr.attr_type |= IA32_ATTR_ia32_switch_attr_t; #endif attr->table = table; be_foreach_out(node, o) { arch_set_irn_register_req_out(node, o, arch_no_register_req); } } /* default compare operation to compare attributes */ static int ia32_compare_attr(const ia32_attr_t *a, const ia32_attr_t *b) { if (a->data.tp != b->data.tp) return 1; if (a->data.am_scale != b->data.am_scale || a->data.am_sc_sign != b->data.am_sc_sign || a->am_offs != b->am_offs || a->am_sc != b->am_sc || a->data.am_sc_no_pic_adjust != b->data.am_sc_no_pic_adjust || a->ls_mode != b->ls_mode) return 1; /* nodes with not yet assigned entities shouldn't be CSEd (important for * unsigned int -> double conversions */ if (a->data.use_frame && a->frame_ent == NULL) return 1; if (b->data.use_frame && b->frame_ent == NULL) return 1; if (a->data.use_frame != b->data.use_frame || a->frame_ent != b->frame_ent) return 1; if (a->data.has_except_label != b->data.has_except_label) return 1; if (a->data.ins_permuted != b->data.ins_permuted) return 1; return 0; } /** Compare nodes attributes for all "normal" nodes. */ static int ia32_compare_nodes_attr(const ir_node *a, const ir_node *b) { const ia32_attr_t* attr_a = get_ia32_attr_const(a); const ia32_attr_t* attr_b = get_ia32_attr_const(b); return ia32_compare_attr(attr_a, attr_b); } /** Compare node attributes for nodes with condition code. */ static int ia32_compare_condcode_attr(const ir_node *a, const ir_node *b) { const ia32_condcode_attr_t *attr_a; const ia32_condcode_attr_t *attr_b; if (ia32_compare_nodes_attr(a, b)) return 1; attr_a = get_ia32_condcode_attr_const(a); attr_b = get_ia32_condcode_attr_const(b); if (attr_a->condition_code != attr_b->condition_code) return 1; return 0; } /** Compare node attributes for call nodes. */ static int ia32_compare_call_attr(const ir_node *a, const ir_node *b) { const ia32_call_attr_t *attr_a; const ia32_call_attr_t *attr_b; if (ia32_compare_nodes_attr(a, b)) return 1; attr_a = get_ia32_call_attr_const(a); attr_b = get_ia32_call_attr_const(b); if (attr_a->pop != attr_b->pop) return 1; if (attr_a->call_tp != attr_b->call_tp) return 1; return 0; } /** Compare node attributes for CopyB nodes. */ static int ia32_compare_copyb_attr(const ir_node *a, const ir_node *b) { const ia32_copyb_attr_t *attr_a; const ia32_copyb_attr_t *attr_b; if (ia32_compare_nodes_attr(a, b)) return 1; attr_a = get_ia32_copyb_attr_const(a); attr_b = get_ia32_copyb_attr_const(b); if (attr_a->size != attr_b->size) return 1; return 0; } /** Compare ASM node attributes. */ static int ia32_compare_asm_attr(const ir_node *a, const ir_node *b) { const ia32_asm_attr_t *attr_a; const ia32_asm_attr_t *attr_b; if (ia32_compare_nodes_attr(a, b)) return 1; attr_a = get_ia32_asm_attr_const(a); attr_b = get_ia32_asm_attr_const(b); if (attr_a->asm_text != attr_b->asm_text) return 1; return 0; } /** * Hash function for Immediates */ static unsigned ia32_hash_Immediate(const ir_node *irn) { const ia32_immediate_attr_t *a = get_ia32_immediate_attr_const(irn); return hash_ptr(a->symconst) + (a->sc_sign << 16) + a->offset; } /** Compare node attributes for Immediates. */ static int ia32_compare_immediate_attr(const ir_node *a, const ir_node *b) { const ia32_immediate_attr_t *attr_a = get_ia32_immediate_attr_const(a); const ia32_immediate_attr_t *attr_b = get_ia32_immediate_attr_const(b); if (attr_a->symconst != attr_b->symconst || attr_a->sc_sign != attr_b->sc_sign || attr_a->no_pic_adjust != attr_b->no_pic_adjust || attr_a->offset != attr_b->offset) { return 1; } return 0; } /** Compare node attributes for x87 nodes. */ static int ia32_compare_x87_attr(const ir_node *a, const ir_node *b) { return ia32_compare_nodes_attr(a, b); } /** Compare node attributes for ClimbFrame nodes. */ static int ia32_compare_climbframe_attr(const ir_node *a, const ir_node *b) { const ia32_climbframe_attr_t *attr_a; const ia32_climbframe_attr_t *attr_b; if (ia32_compare_nodes_attr(a, b)) return 1; attr_a = get_ia32_climbframe_attr_const(a); attr_b = get_ia32_climbframe_attr_const(b); if (attr_a->count != attr_b->count) return 1; return 0; } /* copies the ia32 attributes */ static void ia32_copy_attr(ir_graph *irg, const ir_node *old_node, ir_node *new_node) { struct obstack *obst = get_irg_obstack(irg); const ia32_attr_t *attr_old = get_ia32_attr_const(old_node); ia32_attr_t *attr_new = get_ia32_attr(new_node); backend_info_t *old_info = be_get_info(old_node); backend_info_t *new_info = be_get_info(new_node); /* copy the attributes */ memcpy(attr_new, attr_old, get_op_attr_size(get_irn_op(old_node))); /* copy out flags */ new_info->out_infos = DUP_ARR_D(reg_out_info_t, obst, old_info->out_infos); new_info->in_reqs = old_info->in_reqs; new_info->flags = old_info->flags; } static void ia32_init_op(ir_op *op, unsigned latency) { ia32_op_attr_t *attr = OALLOCZ(&opcodes_obst, ia32_op_attr_t); attr->latency = latency; set_op_attr(op, attr); } /* Include the generated constructor functions */ #include "gen_ia32_new_nodes.c.inl"