source: trunk/libs/newlib/src/include/opcode/cr16.h @ 606

Last change on this file since 606 was 444, checked in by satin@…, 6 years ago

add newlib,libalmos-mkh, restructure shared_syscalls.h and mini-libc

File size: 11.8 KB
Line 
1/* cr16.h -- Header file for CR16 opcode and register tables.
2   Copyright 2007, 2008, 2010, 2013 Free Software Foundation, Inc.
3   Contributed by M R Swami Reddy
4
5   This file is part of GAS, GDB and the GNU binutils.
6
7   GAS, GDB, and GNU binutils is free software; you can redistribute it
8   and/or modify it under the terms of the GNU General Public License as
9   published by the Free Software Foundation; either version 3, or (at your
10   option) any later version.
11
12   GAS, GDB, and GNU binutils are distributed in the hope that they will be
13   useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
14   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15   GNU General Public License for more details.
16
17   You should have received a copy of the GNU General Public License
18   along with this program; if not, write to the Free Software Foundation,
19   Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA.  */
20
21#ifndef _CR16_H_
22#define _CR16_H_
23
24/* CR16 core Registers :
25   The enums are used as indices to CR16 registers table (cr16_regtab).
26   Therefore, order MUST be preserved.  */
27
28typedef enum
29{
30  /* 16-bit general purpose registers.  */
31  r0, r1, r2, r3, 
32  r4, r5, r6, r7, 
33  r8, r9, r10, r11, 
34  r12_L = 12, r13_L = 13, ra = 14, sp_L = 15,
35
36  /* 32-bit general purpose registers.  */
37  r12 = 12, r13 = 13, r14 = 14, r15 = 15, 
38  era = 14, sp = 15, RA,
39
40  /* Not a register.  */
41  nullregister,
42  MAX_REG
43}
44reg;
45
46/* CR16 processor registers and special registers :
47   The enums are used as indices to CR16 processor registers table
48   (cr16_pregtab). Therefore, order MUST be preserved.  */
49
50typedef enum
51{
52  /* processor registers.  */
53  dbs = MAX_REG, 
54  dsr, dcrl, dcrh, 
55  car0l, car0h, car1l, car1h, 
56  cfg, psr, intbasel, intbaseh, 
57  ispl, isph, uspl, usph,
58  dcr =  dcrl, 
59  car0 = car0l, 
60  car1 = car1l, 
61  intbase = intbasel, 
62  isp =  ispl, 
63  usp =  uspl,
64  /* Not a processor register.  */
65  nullpregister = usph + 1,
66  MAX_PREG
67}
68preg;
69
70/* CR16 Register types. */
71
72typedef enum
73{
74  CR16_R_REGTYPE,    /* r<N>      */
75  CR16_RP_REGTYPE,   /* reg pair  */
76  CR16_P_REGTYPE     /* Processor register  */
77}
78reg_type;
79
80/* CR16 argument types :
81   The argument types correspond to instructions operands
82
83   Argument types :
84   r - register
85   rp - register pair
86   c - constant
87   i - immediate
88   idxr - index with register
89   idxrp - index with register pair
90   rbase - register base
91   rpbase - register pair base
92   pr - processor register.  */
93
94typedef enum
95{
96  arg_r,
97  arg_c,
98  arg_cr,
99  arg_crp,
100  arg_ic,
101  arg_icr,
102  arg_idxr,
103  arg_idxrp,
104  arg_rbase,
105  arg_rpbase,
106  arg_rp,
107  arg_pr,
108  arg_prp,
109  arg_cc,
110  arg_ra,
111  /* Not an argument.  */
112  nullargs
113}
114argtype;
115
116/* CR16 operand types:The operand types correspond to instructions operands.  */
117
118typedef enum
119{
120  dummy,
121  /* N-bit signed immediate.  */
122  imm3, imm4, imm5, imm6, imm16, imm20, imm32,
123  /* N-bit unsigned immediate.  */
124  uimm3, uimm3_1, uimm4, uimm4_1, uimm5, uimm16, uimm20, uimm32,
125  /* N-bit signed displacement.  */
126  disps5, disps17, disps25,
127  /* N-bit unsigned displacement.  */
128  dispe9,
129  /* N-bit absolute address.  */
130  abs20, abs24,
131  /* Register relative.  */
132  rra, rbase, rbase_disps20, rbase_dispe20,
133  /* Register pair relative.  */
134  rpbase_disps0, rpbase_dispe4, rpbase_disps4, rpbase_disps16,
135  rpbase_disps20, rpbase_dispe20,
136  /* Register index.  */
137  rindex7_abs20, rindex8_abs20,
138  /* Register pair index.  */
139  rpindex_disps0, rpindex_disps14, rpindex_disps20,
140  /* register.  */
141  regr, 
142  /* register pair.  */
143  regp, 
144  /* processor register.  */
145  pregr, 
146  /* processor register 32 bit.  */
147  pregrp, 
148  /* condition code - 4 bit.  */
149  cc, 
150  /* Not an operand.  */
151  nulloperand,
152  /* Maximum supported operand.  */
153  MAX_OPRD
154}
155operand_type;
156
157/* CR16 instruction types.  */
158
159#define NO_TYPE_INS       0
160#define ARITH_INS         1
161#define LD_STOR_INS       2
162#define BRANCH_INS        3
163#define ARITH_BYTE_INS    4
164#define SHIFT_INS         5
165#define BRANCH_NEQ_INS    6
166#define LD_STOR_INS_INC   7
167#define STOR_IMM_INS      8
168#define CSTBIT_INS        9
169
170/* Maximum value supported for instruction types.  */
171#define CR16_INS_MAX        (1 << 4)
172/* Mask to record an instruction type.  */
173#define CR16_INS_MASK       (CR16_INS_MAX - 1)
174/* Return instruction type, given instruction's attributes.  */
175#define CR16_INS_TYPE(attr) ((attr) & CR16_INS_MASK)
176
177/* Indicates whether this instruction has a register list as parameter.  */
178#define REG_LIST        CR16_INS_MAX
179
180/* The operands in binary and assembly are placed in reverse order.
181   load - (REVERSE_MATCH)/store - (! REVERSE_MATCH).  */
182#define REVERSE_MATCH  (1 << 5)
183
184/* Printing formats, where the instruction prefix isn't consecutive.  */
185#define FMT_1          (1 << 9)    /* 0xF0F00000 */
186#define FMT_2          (1 << 10)   /* 0xFFF0FF00 */
187#define FMT_3          (1 << 11)   /* 0xFFF00F00 */
188#define FMT_4          (1 << 12)   /* 0xFFF0F000 */
189#define FMT_5          (1 << 13)   /* 0xFFF0FFF0 */
190#define FMT_CR16       (FMT_1 | FMT_2 | FMT_3 | FMT_4 | FMT_5)
191
192/* Indicates whether this instruction can be relaxed.  */
193#define RELAXABLE      (1 << 14)
194
195/* Indicates that instruction uses user registers (and not
196   general-purpose registers) as operands.  */
197#define USER_REG       (1 << 15)
198
199
200/* Instruction shouldn't allow 'sp' usage.  */
201#define NO_SP          (1 << 17)
202
203/* Instruction shouldn't allow to push a register which is used as a rptr.  */
204#define NO_RPTR        (1 << 18)
205
206/* Maximum operands per instruction.  */
207#define MAX_OPERANDS     5
208/* Maximum register name length. */
209#define MAX_REGNAME_LEN  10
210/* Maximum instruction length. */
211#define MAX_INST_LEN     256
212
213
214/* Values defined for the flags field of a struct operand_entry.  */
215
216/* Operand must be an unsigned number.  */
217#define OP_UNSIGNED   (1 << 0)
218/* Operand must be a signed number.  */
219#define OP_SIGNED     (1 << 1)
220/* Operand must be a negative number.  */
221#define OP_NEG        (1 << 2)
222/* A special load/stor 4-bit unsigned displacement operand.  */
223#define OP_DEC        (1 << 3)
224/* Operand must be an even number.  */
225#define OP_EVEN       (1 << 4)
226/* Operand is shifted right.  */
227#define OP_SHIFT      (1 << 5)
228/* Operand is shifted right and decremented.  */
229#define OP_SHIFT_DEC  (1 << 6)
230/* Operand has reserved escape sequences.  */
231#define OP_ESC        (1 << 7)
232/* Operand must be a ABS20 number.  */
233#define OP_ABS20      (1 << 8)
234/* Operand must be a ABS24 number.  */
235#define OP_ABS24      (1 << 9)
236/* Operand has reserved escape sequences type 1.  */
237#define OP_ESC1       (1 << 10)
238
239/* Single operand description.  */
240
241typedef struct
242{
243  /* Operand type.  */
244  operand_type op_type;
245  /* Operand location within the opcode.  */
246  unsigned int shift;
247}
248operand_desc;
249
250/* Instruction data structure used in instruction table.  */
251
252typedef struct
253{
254  /* Name.  */
255  const char *mnemonic;
256  /* Size (in words).  */
257  unsigned int size;
258  /* Constant prefix (matched by the disassembler).  */
259  unsigned long match;  /* ie opcode */
260  /* Match size (in bits).  */
261  /* MASK: if( (i & match_bits) == match ) then match */
262  int match_bits;
263  /* Attributes.  */
264  unsigned int flags;
265  /* Operands (always last, so unreferenced operands are initialized).  */
266  operand_desc operands[MAX_OPERANDS];
267}
268inst;
269
270/* Data structure for a single instruction's arguments (Operands).  */
271
272typedef struct
273{
274  /* Register or base register.  */
275  reg r;
276  /* Register pair register.  */
277  reg rp;
278  /* Index register.  */
279  reg i_r;
280  /* Processor register.  */
281  preg pr;
282  /* Processor register. 32 bit  */
283  preg prp;
284  /* Constant/immediate/absolute value.  */
285  long constant;
286  /* CC code.  */
287  unsigned int cc;
288  /* Scaled index mode.  */
289  unsigned int scale;
290  /* Argument type.  */
291  argtype type;
292  /* Size of the argument (in bits) required to represent.  */
293  int size;
294  /* The type of the expression.  */
295  unsigned char X_op;
296}
297argument;
298
299/* Internal structure to hold the various entities
300   corresponding to the current assembling instruction.  */
301
302typedef struct
303{
304  /* Number of arguments.  */
305  int nargs;
306  /* The argument data structure for storing args (operands).  */
307  argument arg[MAX_OPERANDS];
308/* The following fields are required only by CR16-assembler.  */
309#ifdef TC_CR16
310  /* Expression used for setting the fixups (if any).  */
311  expressionS exp;
312  bfd_reloc_code_real_type rtype;
313#endif /* TC_CR16 */
314  /* Instruction size (in bytes).  */
315  int size;
316}
317ins;
318
319/* Structure to hold information about predefined operands.  */
320
321typedef struct
322{
323  /* Size (in bits).  */
324  unsigned int bit_size;
325  /* Argument type.  */
326  argtype arg_type;
327  /* One bit syntax flags.  */
328  int flags;
329}
330operand_entry;
331
332/* Structure to hold trap handler information.  */
333
334typedef struct
335{
336  /* Trap name.  */
337  char *name;
338  /* Index in dispatch table.  */
339  unsigned int entry;
340}
341trap_entry;
342
343/* Structure to hold information about predefined registers.  */
344
345typedef struct
346{
347  /* Name (string representation).  */
348  char *name;
349  /* Value (enum representation).  */
350  union
351  {
352    /* Register.  */
353    reg reg_val;
354    /* processor register.  */
355    preg preg_val;
356  } value;
357  /* Register image.  */
358  int image;
359  /* Register type.  */
360  reg_type type;
361}
362reg_entry;
363
364/* CR16 opcode table.  */
365extern const inst cr16_instruction[];
366extern const unsigned int cr16_num_opcodes;
367#define NUMOPCODES cr16_num_opcodes
368
369/* CR16 operands table.  */
370extern const operand_entry cr16_optab[];
371extern const unsigned int cr16_num_optab;
372
373/* CR16 registers table.  */
374extern const reg_entry cr16_regtab[];
375extern const unsigned int cr16_num_regs;
376#define NUMREGS cr16_num_regs
377
378/* CR16 register pair table.  */
379extern const reg_entry cr16_regptab[];
380extern const unsigned int cr16_num_regps;
381#define NUMREGPS cr16_num_regps
382
383/* CR16 processor registers table.  */
384extern const reg_entry cr16_pregtab[];
385extern const unsigned int cr16_num_pregs;
386#define NUMPREGS cr16_num_pregs
387
388/* CR16 processor registers - 32 bit table.  */
389extern const reg_entry cr16_pregptab[];
390extern const unsigned int cr16_num_pregps;
391#define NUMPREGPS cr16_num_pregps
392
393/* CR16 trap/interrupt table.  */
394extern const trap_entry cr16_traps[];
395extern const unsigned int cr16_num_traps;
396#define NUMTRAPS cr16_num_traps
397
398/* CR16 CC - codes bit table.  */
399extern const char * cr16_b_cond_tab[];
400extern const unsigned int cr16_num_cc;
401#define NUMCC cr16_num_cc;
402
403
404/* Table of instructions with no operands.  */
405extern const char * cr16_no_op_insn[];
406
407/* Current instruction we're assembling.  */
408extern const inst *instruction;
409
410/* A macro for representing the instruction "constant" opcode, that is,
411   the FIXED part of the instruction. The "constant" opcode is represented
412   as a 32-bit unsigned long, where OPC is expanded (by a left SHIFT)
413   over that range.  */
414#define BIN(OPC,SHIFT)        (OPC << SHIFT)
415
416/* Is the current instruction type is TYPE ?  */
417#define IS_INSN_TYPE(TYPE)              \
418  (CR16_INS_TYPE (instruction->flags) == TYPE)
419
420/* Is the current instruction mnemonic is MNEMONIC ?  */
421#define IS_INSN_MNEMONIC(MNEMONIC)    \
422  (strcmp (instruction->mnemonic, MNEMONIC) == 0)
423
424/* Does the current instruction has register list ?  */
425#define INST_HAS_REG_LIST              \
426  (instruction->flags & REG_LIST)
427
428
429/* Utility macros for string comparison.  */
430#define streq(a, b)           (strcmp (a, b) == 0)
431#define strneq(a, b, c)       (strncmp (a, b, c) == 0)
432
433/* Long long type handling.  */
434/* Replace all appearances of 'long long int' with LONGLONG.  */
435typedef long long int LONGLONG;
436typedef unsigned long long ULONGLONG;
437
438/* Data types for opcode handling.  */
439typedef unsigned long dwordU;
440typedef unsigned short wordU;
441
442/* Globals to store opcode data and build the instruction.  */
443extern wordU cr16_words[3];
444extern ULONGLONG cr16_allWords;
445extern ins cr16_currInsn;
446
447/* Prototypes for function in cr16-dis.c.  */
448extern void cr16_make_instruction (void);
449extern int  cr16_match_opcode (void);
450
451#endif /* _CR16_H_ */
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