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[deliverable/binutils-gdb.git] / opcodes / rl78-dis.c
1 /* Disassembler code for Renesas RL78.
2 Copyright 2011 Free Software Foundation, Inc.
3 Contributed by Red Hat.
4 Written by DJ Delorie.
5
6 This file is part of the GNU opcodes library.
7
8 This library is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
11 any later version.
12
13 It is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
16 License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
21 MA 02110-1301, USA. */
22
23 #include <stdio.h>
24
25 #include "bfd.h"
26 #include "dis-asm.h"
27 #include "opcode/rl78.h"
28
29 #define DEBUG_SEMANTICS 0
30
31 typedef struct
32 {
33 bfd_vma pc;
34 disassemble_info * dis;
35 } RL78_Data;
36
37 static int
38 rl78_get_byte (void * vdata)
39 {
40 bfd_byte buf[1];
41 RL78_Data *rl78_data = (RL78_Data *) vdata;
42
43 rl78_data->dis->read_memory_func (rl78_data->pc,
44 buf,
45 1,
46 rl78_data->dis);
47
48 rl78_data->pc ++;
49 return buf[0];
50 }
51
52 static char const *
53 register_names[] =
54 {
55 "",
56 "x", "a", "c", "b", "e", "d", "l", "h",
57 "ax", "bc", "de", "hl",
58 "sp", "psw", "cs", "es", "pmc", "mem"
59 };
60
61 static char const *
62 condition_names[] =
63 {
64 "t", "f", "c", "nc", "h", "nh", "z", "nz"
65 };
66
67 static int
68 indirect_type (int t)
69 {
70 switch (t)
71 {
72 case RL78_Operand_Indirect:
73 case RL78_Operand_BitIndirect:
74 case RL78_Operand_PostInc:
75 case RL78_Operand_PreDec:
76 return 1;
77 default:
78 return 0;
79 }
80 }
81
82 int
83 print_insn_rl78 (bfd_vma addr, disassemble_info * dis)
84 {
85 int rv;
86 RL78_Data rl78_data;
87 RL78_Opcode_Decoded opcode;
88 const char * s;
89 #if DEBUG_SEMANTICS
90 static char buf[200];
91 #endif
92
93 rl78_data.pc = addr;
94 rl78_data.dis = dis;
95
96 rv = rl78_decode_opcode (addr, &opcode, rl78_get_byte, &rl78_data);
97
98 dis->bytes_per_line = 10;
99
100 #define PR (dis->fprintf_func)
101 #define PS (dis->stream)
102 #define PC(c) PR (PS, "%c", c)
103
104 s = opcode.syntax;
105
106 #if DEBUG_SEMANTICS
107
108 switch (opcode.id)
109 {
110 case RLO_unknown: s = "uknown"; break;
111 case RLO_add: s = "add: %e0%0 += %e1%1"; break;
112 case RLO_addc: s = "addc: %e0%0 += %e1%1 + CY"; break;
113 case RLO_and: s = "and: %e0%0 &= %e1%1"; break;
114 case RLO_branch: s = "branch: pc = %e0%0"; break;
115 case RLO_branch_cond: s = "branch_cond: pc = %e0%0 if %c1 / %e1%1"; break;
116 case RLO_branch_cond_clear: s = "branch_cond_clear: pc = %e0%0 if %c1 / %e1%1, %e1%1 = 0"; break;
117 case RLO_call: s = "call: pc = %e1%0"; break;
118 case RLO_cmp: s = "cmp: %e0%0 - %e1%1"; break;
119 case RLO_mov: s = "mov: %e0%0 = %e1%1"; break;
120 case RLO_or: s = "or: %e0%0 |= %e1%1"; break;
121 case RLO_rol: s = "rol: %e0%0 <<= %e1%1"; break;
122 case RLO_rolc: s = "rol: %e0%0 <<= %e1%1,CY"; break;
123 case RLO_ror: s = "ror: %e0%0 >>= %e1%1"; break;
124 case RLO_rorc: s = "ror: %e0%0 >>= %e1%1,CY"; break;
125 case RLO_sar: s = "sar: %e0%0 >>= %e1%1 signed"; break;
126 case RLO_sel: s = "sel: rb = %1"; break;
127 case RLO_shr: s = "shr: %e0%0 >>= %e1%1 unsigned"; break;
128 case RLO_shl: s = "shl: %e0%0 <<= %e1%1"; break;
129 case RLO_skip: s = "skip: if %c1"; break;
130 case RLO_sub: s = "sub: %e0%0 -= %e1%1"; break;
131 case RLO_subc: s = "subc: %e0%0 -= %e1%1 - CY"; break;
132 case RLO_xch: s = "xch: %e0%0 <-> %e1%1"; break;
133 case RLO_xor: s = "xor: %e0%0 ^= %e1%1"; break;
134 }
135
136 sprintf(buf, "%s%%W%%f\t\033[32m%s\033[0m", s, opcode.syntax);
137 s = buf;
138
139 #endif
140
141 for (; *s; s++)
142 {
143 if (*s != '%')
144 {
145 PC (*s);
146 }
147 else
148 {
149 RL78_Opcode_Operand * oper;
150 int do_hex = 0;
151 int do_addr = 0;
152 int do_es = 0;
153 int do_sfr = 0;
154 int do_cond = 0;
155 int do_bang = 0;
156
157 s ++;
158
159 if (*s == 'x')
160 {
161 do_hex = 1;
162 s++;
163 }
164 if (*s == '!')
165 {
166 do_bang = 1;
167 s++;
168 }
169 if (*s == 'e')
170 {
171 do_es = 1;
172 s++;
173 }
174 if (*s == 'a')
175 {
176 do_addr = 1;
177 s++;
178 }
179 if (*s == 's')
180 {
181 do_sfr = 1;
182 s++;
183 }
184 if (*s == 'c')
185 {
186 do_cond = 1;
187 s++;
188 }
189
190 switch (*s)
191 {
192 case '%':
193 PC ('%');
194 break;
195
196 #if DEBUG_SEMANTICS
197
198 case 'W':
199 if (opcode.size == RL78_Word)
200 PR (PS, " \033[33mW\033[0m");
201 break;
202
203 case 'f':
204 if (opcode.flags)
205 {
206 char *comma = "";
207 PR (PS, " \033[35m");
208
209 if (opcode.flags & RL78_PSW_Z)
210 { PR (PS, "Z"); comma = ","; }
211 if (opcode.flags & RL78_PSW_AC)
212 { PR (PS, "%sAC", comma); comma = ","; }
213 if (opcode.flags & RL78_PSW_CY)
214 { PR (PS, "%sCY", comma); comma = ","; }
215 PR (PS, "\033[0m");
216 }
217 break;
218
219 #endif
220
221 case '0':
222 case '1':
223 oper = opcode.op + *s - '0';
224 if (do_bang)
225 PC ('!');
226
227 if (do_es)
228 {
229 if (oper->use_es && indirect_type (oper->type))
230 PR (PS, "es:");
231 }
232
233 else if (do_cond)
234 {
235 PR (PS, "%s", condition_names[oper->condition]);
236 }
237
238 else
239 switch (oper->type)
240 {
241 case RL78_Operand_Immediate:
242 if (do_addr)
243 dis->print_address_func (oper->addend, dis);
244 else if (do_hex
245 || oper->addend > 999
246 || oper->addend < -999)
247 PR (PS, "%#x", oper->addend);
248 else
249 PR (PS, "%d", oper->addend);
250 break;
251
252 case RL78_Operand_Register:
253 PR (PS, "%s", register_names[oper->reg]);
254 break;
255
256 case RL78_Operand_Bit:
257 PR (PS, "%s.%d", register_names[oper->reg], oper->bit_number);
258 break;
259
260 case RL78_Operand_Indirect:
261 case RL78_Operand_BitIndirect:
262 switch (oper->reg)
263 {
264 case RL78_Reg_None:
265 if (oper->addend == 0xffffa && do_sfr && opcode.size == RL78_Byte)
266 PR (PS, "psw");
267 else if (oper->addend == 0xffff8 && do_sfr && opcode.size == RL78_Word)
268 PR (PS, "sp");
269 else if (oper->addend >= 0xffe20)
270 PR (PS, "%#x", oper->addend);
271 else
272 dis->print_address_func (oper->addend, dis);
273 break;
274
275 case RL78_Reg_B:
276 case RL78_Reg_C:
277 case RL78_Reg_BC:
278 PR (PS, "%d[%s]", oper->addend, register_names[oper->reg]);
279 break;
280
281 default:
282 PR (PS, "[%s", register_names[oper->reg]);
283 if (oper->reg2 != RL78_Reg_None)
284 PR (PS, "+%s", register_names[oper->reg2]);
285 if (oper->addend)
286 PR (PS, "+%d", oper->addend);
287 PC (']');
288 break;
289
290 }
291 if (oper->type == RL78_Operand_BitIndirect)
292 PR (PS, ".%d", oper->bit_number);
293 break;
294
295 #if DEBUG_SEMANTICS
296 /* Shouldn't happen - push and pop don't print
297 [SP] directly. But we *do* use them for
298 semantic debugging. */
299 case RL78_Operand_PostInc:
300 PR (PS, "[%s++]", register_names[oper->reg]);
301 break;
302 case RL78_Operand_PreDec:
303 PR (PS, "[--%s]", register_names[oper->reg]);
304 break;
305 #endif
306
307 default:
308 /* If we ever print this, that means the
309 programmer tried to print an operand with a
310 type we don't expect. Print the line and
311 operand number from rl78-decode.opc for
312 them. */
313 PR (PS, "???%d.%d", opcode.lineno, *s - '0');
314 break;
315 }
316 }
317 }
318 }
319
320 #if DEBUG_SEMANTICS
321
322 PR (PS, "\t\033[34m(line %d)\033[0m", opcode.lineno);
323
324 #endif
325
326 return rv;
327 }
GDB Binutils - Deliverables
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