2 * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
4 * This file is part of libFirm.
6 * This file may be distributed and/or modified under the terms of the
7 * GNU General Public License version 2 as published by the Free Software
8 * Foundation and appearing in the file LICENSE.GPL included in the
9 * packaging of this file.
11 * Licensees holding valid libFirm Professional Edition licenses may use
12 * this file in accordance with the libFirm Commercial License.
13 * Agreement provided with the Software.
15 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
16 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
22 * @brief Type definitions for ia32 node attributes.
23 * @author Christian Wuerdig
25 #ifndef FIRM_BE_IA32_IA32_NODES_ATTR_H
26 #define FIRM_BE_IA32_IA32_NODES_ATTR_H
28 #include "firm_types.h"
32 /** ia32 condition codes (the numbers correspond to the real encoding order) */
33 typedef enum ia32_condition_code_t {
34 ia32_cc_negated = 0x01, /**< negates condition */
36 ia32_cc_overflow = 0x00, /**< OF=1 */
37 ia32_cc_below = 0x02, /**< CF=1 */
38 ia32_cc_equal = 0x04, /**< ZF=1 */
39 ia32_cc_below_equal = 0x06, /**< ZF=1 or CF=1 */
40 ia32_cc_sign = 0x08, /**< SF=1 */
41 ia32_cc_parity = 0x0A, /**< PF=1 */
42 ia32_cc_less = 0x0C, /**< SF!=OF */
43 ia32_cc_less_equal = 0x0E, /**< ZF=1 or SF!=OF */
44 ia32_cc_not_overflow = ia32_cc_negated|ia32_cc_overflow, /**< OF=0 */
45 ia32_cc_above_equal = ia32_cc_negated|ia32_cc_below, /**< CF=0 */
46 ia32_cc_not_equal = ia32_cc_negated|ia32_cc_equal, /**< ZF=0 */
47 ia32_cc_above = ia32_cc_negated|ia32_cc_below_equal, /**< ZF=0 and CF=0 */
48 ia32_cc_not_sign = ia32_cc_negated|ia32_cc_sign, /**< SF=0 */
49 ia32_cc_not_parity = ia32_cc_negated|ia32_cc_parity, /**< PF=0 */
50 ia32_cc_greater_equal = ia32_cc_negated|ia32_cc_less, /**< SF=OF */
51 ia32_cc_greater = ia32_cc_negated|ia32_cc_less_equal, /**< ZF=0 and SF=OF */
53 /* the following codes are (unfortunately) NOT real hardware codes but
54 * simplify our backend as you need these combinations for some
55 * floatingpoint compares (the emitter will split them into multiple
57 ia32_cc_float_parity_cases = 0x20,
58 /* we need even more cases as inversing the cc is different for float
59 * comparisons (though for the following we need no special
60 * parity+x combinations) */
61 ia32_cc_additional_float_cases = 0x10,
63 /* make sure that the lower 4 bit correspond to the real encoding
64 * (of the comparison not involving the parity special) */
65 ia32_cc_float_equal = 0x34, /**< PF=0 and ZF=1 */
66 ia32_cc_float_below = 0x32, /**< PF=0 and CF=1 */
67 ia32_cc_float_below_equal = 0x36, /**< PF=0 and (ZF=1 or CF=1) */
68 ia32_cc_float_not_equal = ia32_cc_negated|ia32_cc_float_equal, /**< PF=1 or ZF=0 */
69 ia32_cc_float_unordered_above_equal
70 = ia32_cc_negated|ia32_cc_float_below, /**< PF=1 or CF=0 */
71 ia32_cc_float_unordered_above
72 = ia32_cc_negated|ia32_cc_float_below_equal, /**< PF=1 or (ZF=0 and CF=0) */
74 ia32_cc_float_unordered_below_equal = 0x16, /**< ZF=1 or CF=1 */
75 ia32_cc_float_unordered_below = 0x12, /**< CF=1 */
77 ia32_cc_negated|ia32_cc_float_unordered_below_equal, /**< ZF=0 and CF=0 */
78 ia32_cc_float_above_equal
79 = ia32_cc_negated|ia32_cc_float_unordered_below, /**< CF=0 */
80 } ia32_condition_code_t;
81 ENUM_BITSET(ia32_condition_code_t)
83 static inline ia32_condition_code_t ia32_negate_condition_code(
84 ia32_condition_code_t code)
86 return code ^ ia32_cc_negated;
89 static inline ia32_condition_code_t ia32_invert_condition_code(
90 ia32_condition_code_t code)
92 /* doesn't appear to have any systematic, so use a table */
94 case ia32_cc_below: return ia32_cc_above;
95 case ia32_cc_below_equal: return ia32_cc_above_equal;
96 case ia32_cc_above: return ia32_cc_below;
97 case ia32_cc_above_equal: return ia32_cc_below_equal;
98 case ia32_cc_less: return ia32_cc_greater;
99 case ia32_cc_less_equal: return ia32_cc_greater_equal;
100 case ia32_cc_greater: return ia32_cc_less;
101 case ia32_cc_greater_equal: return ia32_cc_less_equal;
102 case ia32_cc_float_below: return ia32_cc_float_above;
103 case ia32_cc_float_below_equal: return ia32_cc_float_above_equal;
104 case ia32_cc_float_above: return ia32_cc_float_below;
105 case ia32_cc_float_above_equal: return ia32_cc_float_below_equal;
106 case ia32_cc_float_unordered_below: return ia32_cc_float_unordered_above;
107 case ia32_cc_float_unordered_below_equal: return ia32_cc_float_unordered_above_equal;
108 case ia32_cc_float_unordered_above: return ia32_cc_float_unordered_below;
109 case ia32_cc_float_unordered_above_equal: return ia32_cc_float_unordered_below_equal;
110 default: return code;
127 match_commutative = 1 << 0, /**< inputs are commutative */
128 match_am_and_immediates = 1 << 1, /**< node supports AM and immediate at
130 match_am = 1 << 2, /**< node supports (32bit) source AM */
131 match_8bit_am = 1 << 3, /**< node supports 8bit source AM */
132 match_16bit_am = 1 << 4, /**< node supports 16bit source AM */
133 match_immediate = 1 << 5, /**< node supports immediates */
134 /** for 8/16 bit modes, mode_neutral operations can be emulated by their
135 * 32bit equivalents, they just don't care about the upper bits (they can be
136 * arbitrary before the insn and are unknown after the instruction). */
137 match_mode_neutral = 1 << 6,
138 /** for 8/16 bit modes, zero_ext operations can be emulated by their
139 * 32bit equivalents, however the upper bits must be zero extended. */
140 match_zero_ext = 1 << 7,
141 /** for 8/16 bit modes, upconv operations can be emulated by their
142 * 32bit equivalents, however the upper bits have to sign/zero extended
143 * based on the operations mode. */
144 match_upconv = 1 << 8,
145 match_try_am = 1 << 9, /**< only try to produce AM node, don't
146 do anything if AM isn't possible */
147 match_two_users = 1 << 10,/**< the instruction uses a load two times ... */
149 ENUM_BITSET(match_flags_t)
151 typedef struct ia32_op_attr_t ia32_op_attr_t;
152 struct ia32_op_attr_t {
153 //match_flags_t flags;
159 IA32_ATTR_INVALID = 0,
160 IA32_ATTR_ia32_attr_t = 1 << 0,
161 IA32_ATTR_ia32_x87_attr_t = 1 << 1,
162 IA32_ATTR_ia32_asm_attr_t = 1 << 2,
163 IA32_ATTR_ia32_immediate_attr_t = 1 << 3,
164 IA32_ATTR_ia32_condcode_attr_t = 1 << 4,
165 IA32_ATTR_ia32_copyb_attr_t = 1 << 5,
166 IA32_ATTR_ia32_call_attr_t = 1 << 6,
167 IA32_ATTR_ia32_climbframe_attr_t = 1 << 7,
168 IA32_ATTR_ia32_switch_attr_t = 1 << 8,
173 * The generic ia32 attributes. Every node has them.
175 typedef struct ia32_attr_t ia32_attr_t;
177 except_attr exc; /**< the exception attribute. MUST be the first one. */
178 struct ia32_attr_data_bitfield {
179 unsigned tp:3; /**< ia32 node type. */
180 unsigned am_arity:2; /**< Indicates the address mode type supported by this node. */
181 unsigned am_scale:2; /**< The address mode scale for index register. */
182 unsigned am_sc_sign:1; /**< The sign bit of the address mode symconst. */
184 unsigned am_sc_no_pic_adjust : 1;/**< AM symconst can be relative to EIP */
185 unsigned am_tls_segment:1; /**< addresses are relative to TLS */
186 unsigned use_frame:1; /**< Indicates whether the operation uses the frame pointer or not. */
187 unsigned has_except_label:1; /**< Set if this node needs a label because of possible exception. */
189 unsigned is_commutative:1; /**< Indicates whether op is commutative or not. */
191 unsigned need_stackent:1; /**< Set to 1 if node need space on stack. */
192 unsigned need_64bit_stackent:1; /**< needs a 64bit stack entity (see double->unsigned int conv) */
193 unsigned need_32bit_stackent:1; /**< needs a 32bit stack entity */
194 unsigned ins_permuted : 1; /**< inputs of node have been permuted
195 (for commutative nodes) */
196 unsigned is_reload : 1; /**< node performs a reload */
197 unsigned is_spill : 1;
198 unsigned is_remat : 1;
201 int am_offs; /**< offsets for AddrMode */
202 ir_entity *am_sc; /**< SymConst for AddrMode */
204 ir_mode *ls_mode; /**< Load/Store mode: This is the mode of the
205 value that is manipulated by this node. */
207 ir_entity *frame_ent; /**< the frame entity attached to this node */
209 ir_label_t exc_label; /**< the exception label iff this instruction can throw an exception */
212 const char *orig_node; /**< holds the name of the original ir node */
213 unsigned attr_type; /**< bitfield indicating the attribute type */
218 * The attributes for a Call node.
220 typedef struct ia32_call_attr_t ia32_call_attr_t;
221 struct ia32_call_attr_t {
222 ia32_attr_t attr; /**< generic attribute */
223 unsigned pop; /**< number of bytes that get popped by the callee */
224 ir_type *call_tp; /**< The call type, copied from the original Call node. */
228 * The attributes for nodes with condition code.
230 typedef struct ia32_condcode_attr_t ia32_condcode_attr_t;
231 struct ia32_condcode_attr_t {
232 ia32_attr_t attr; /**< generic attribute */
233 ia32_condition_code_t condition_code; /**< condition code*/
237 * The attributes for Switches
239 typedef struct ia32_switch_attr_t ia32_switch_attr_t;
240 struct ia32_switch_attr_t {
241 ia32_attr_t attr; /**< generic attribute */
242 const ir_switch_table *table;
243 ir_entity *jump_table;
247 * The attributes for CopyB code.
249 typedef struct ia32_copyb_attr_t ia32_copyb_attr_t;
250 struct ia32_copyb_attr_t {
251 ia32_attr_t attr; /**< generic attribute */
252 unsigned size; /**< size of copied block */
256 * The attributes for immediates.
258 typedef struct ia32_immediate_attr_t ia32_immediate_attr_t;
259 struct ia32_immediate_attr_t {
260 ia32_attr_t attr; /**< generic attribute */
261 ir_entity *symconst; /**< An entity if any. */
262 long offset; /**< An offset if any. */
263 unsigned sc_sign : 1; /**< The sign bit of the symconst. */
264 unsigned no_pic_adjust : 1; /**< constant can be relative to EIP */
268 * The attributes for x87 nodes.
270 typedef struct ia32_x87_attr_t ia32_x87_attr_t;
271 struct ia32_x87_attr_t {
272 ia32_attr_t attr; /**< the generic attribute */
273 arch_register_t const *reg; /**< The explicit register operand. */
274 bool res_in_reg; /**< True if the result is in the explicit register operand, %st0 otherwise. */
275 bool pop; /**< Emit a pop suffix. */
278 typedef struct ia32_asm_reg_t ia32_asm_reg_t;
279 struct ia32_asm_reg_t {
280 unsigned use_input : 1; /* use input or output pos */
283 unsigned dummy_fill : 13;
284 unsigned inout_pos : 16; /* in/out pos where the
285 register is assigned */
290 * The attributes for ASM nodes.
292 typedef struct ia32_asm_attr_t ia32_asm_attr_t;
293 struct ia32_asm_attr_t {
294 ia32_x87_attr_t x87_attr;
296 const ia32_asm_reg_t *register_map;
300 * The attributes for the ClimbFrame node.
302 typedef struct ia32_climbframe_attr_t ia32_climbframe_attr_t;
303 struct ia32_climbframe_attr_t {
304 ia32_attr_t attr; /**< generic attribute */
305 unsigned count; /**< number of frames to climb up */
308 /* the following union is necessary to indicate to the compiler that we might want to cast
309 * the structs (we use them to simulate OO-inheritance) */
310 union allow_casts_attr_t_ {
312 ia32_call_attr_t call_attr;
313 ia32_condcode_attr_t cc_attr;
314 ia32_copyb_attr_t cpy_attr;
315 ia32_x87_attr_t x87_attr;
316 ia32_asm_attr_t asm_attr;
317 ia32_immediate_attr_t immediate_attr;
318 ia32_climbframe_attr_t climbframe_attr;
319 ia32_switch_attr_t switch_attr;
323 #define CAST_IA32_ATTR(type,ptr) (assert( ((const ia32_attr_t*)(ptr))->attr_type & IA32_ATTR_ ## type ), (type*) (ptr))
324 #define CONST_CAST_IA32_ATTR(type,ptr) (assert( ((const ia32_attr_t*)(ptr))->attr_type & IA32_ATTR_ ## type ), (const type*) (ptr))
326 #define CAST_IA32_ATTR(type,ptr) ((type*) (ptr))
327 #define CONST_CAST_IA32_ATTR(type,ptr) ((const type*) (ptr))