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source: trunk/IPs/systemC/processor/Morpheo/Behavioural/include/Constants.h @ 116

Last change on this file since 116 was 116, checked in by moulu, 15 years ago
1) added a generic multiplier (systemC isn't working with 8bits) 2) added a partial functionnal unit vhdl.
Property svn:keywords set to `Id`
File size: 65.2 KB

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1	#ifndef morpheo_behavioural_Constants_h
2	#define morpheo_behavioural_Constants_h
3
4	/*
5	WARNING :
6
7	I Use reserved exception :
8
9	0x10 - EXCEPTION_MEMORY_MISS_SPECULATION - Load miss speculation
10	0x11 - EXCEPTION_MEMORY_LOAD_SPECULATIVE - The load is speculative : write in register file, but don't commit
11	0x12 - EXCEPTION_ALU_SPR_ACCESS_INVALID - SPR present in ALU but not compatible privilege
12	0x13 - EXCEPTION_ALU_SPR_ACCESS_MUST_READ - SPR not present in ALU
13	0x14 - EXCEPTION_ALU_SPR_ACCESS_MUST_WRITE - SPR not present in ALU
14
15	I Use reserved SPR :
16	[0][21] - SPR_CID : Context Id
17	[0][22] - SPR_TID : Thread Id
18	[0][23] - SPR_TSR : Thread Status Register (Priority)
19	*/
20
21	#include "Common/include/ToString.h"
22
23	namespace morpheo {
24	namespace behavioural {
25
26	# define SET_FLAG( x,pos) {(x) \|= (1<<(pos));} while (0)
27	# define UNSET_FLAG( x,pos) {(x) &= ~(1<<(pos));} while (0)
28	# define IS_SET_FLAG( x,pos) (((x) & (1<<(pos))) != 0)
29	# define IS_UNSET_FLAG(x,pos) (((x) & (1<<(pos))) == 0)
30	# define CHANGE_FLAG( x,pos,f) \
31	{ \
32	if (f) \
33	{SET_FLAG(x,pos);} \
34	else \
35	{UNSET_FLAG(x,pos);} \
36	} while (0)
37
38	//=========================================================[ Type ]=====
39	typedef enum
40	{
41	TYPE_ALU = 0x0, // 00000 - unit multiple
42	TYPE_SHIFT = 0x1, // 00001 - unit multiple
43	TYPE_MOVE = 0x2, // 00010 - unit multiple
44	TYPE_TEST = 0x3, // 00011 - unit multiple
45	TYPE_MUL = 0x4, // 00100 - unit multiple
46	TYPE_DIV = 0x5, // 00101 - unit multiple, type optionnal
47	TYPE_EXTEND = 0x6, // 00110 - unit multiple, type optionnal
48	TYPE_FIND = 0x7, // 00111 - unit multiple, type optionnal
49	TYPE_SPECIAL = 0x8, // 01000 - unit uniq
50	TYPE_CUSTOM = 0x9, // 01001 - unit uniq , type optionnal
51	TYPE_BRANCH = 0xa, // 01010 - unit multiple
52	TYPE_MEMORY = 0xb // 01011 - unit uniq
53	} type_t;
54
55	//#define NB_TYPE 11
56	# define SIZE_TYPE 5
57	# define MAX_TYPE (1<<SIZE_TYPE)
58
59	// TYPE \| multiple? \| Optionnal? \| Exclusive? \| Comment
60	//--------------+-----------+------------+------------+---------
61	// TYPE_ALU \| X \| \| \|
62	// TYPE_SHIFT \| X \| \| \| ror is optionnal
63	// TYPE_MOVE \| X \| \| \| cmov is optionnal
64	// TYPE_TEST \| X \| \| \|
65	// TYPE_MUL \| X \| \| \|
66	// TYPE_DIV \| X \| X \| \|
67	// TYPE_EXTEND \| X \| X \| \|
68	// TYPE_FIND \| X \| X \| \|
69	// TYPE_SPECIAL \| \| \| \| mac unit is optionnal
70	// TYPE_CUSTOM \| \| X \| \|
71	// TYPE_BRANCH \| X \| \| \|
72	// TYPE_MEMORY \| \| \| X \|
73
74	# define is_type_valid(x) \
75	((x == TYPE_ALU ) or \
76	(x == TYPE_SHIFT ) or \
77	(x == TYPE_MOVE ) or \
78	(x == TYPE_TEST ) or \
79	(x == TYPE_MUL ) or \
80	(x == TYPE_DIV ) or \
81	(x == TYPE_EXTEND ) or \
82	(x == TYPE_FIND ) or \
83	(x == TYPE_SPECIAL) or \
84	(x == TYPE_CUSTOM ) or \
85	(x == TYPE_BRANCH ) or \
86	(x == TYPE_MEMORY ))
87
88	# define is_type_uniq(x) \
89	((x == TYPE_SPECIAL) or \
90	(x == TYPE_CUSTOM ) or \
91	(x == TYPE_MEMORY ))
92
93	# define is_type_optionnal(x) \
94	((x == TYPE_DIV ) or \
95	(x == TYPE_EXTEND ) or \
96	(x == TYPE_FIND ) or \
97	(x == TYPE_CUSTOM ))
98
99	# define is_type_exclusive(x) \
100	((x == TYPE_MEMORY ))
101
102	//====================================================[ Operation ]=====
103
104	//-------------------------------------------------------[ Memory ]-----
105	# define OPERATION_MEMORY_LOAD_8_Z 0x08 // 0_1000
106	# define OPERATION_MEMORY_LOAD_16_Z 0x09 // 0_1001
107	# define OPERATION_MEMORY_LOAD_32_Z 0x0a // 0_1010
108	# define OPERATION_MEMORY_LOAD_64_Z 0x0b // 0_1011
109	# define OPERATION_MEMORY_LOAD_8_S 0x18 // 1_1000
110	# define OPERATION_MEMORY_LOAD_16_S 0x19 // 1_1001
111	# define OPERATION_MEMORY_LOAD_32_S 0x1a // 1_1010
112	# define OPERATION_MEMORY_LOAD_64_S 0x1b // 1_1011
113
114	# define OPERATION_MEMORY_STORE_8 0x0c // 0_1100
115	# define OPERATION_MEMORY_STORE_16 0x0d // 0_1101
116	# define OPERATION_MEMORY_STORE_32 0x0e // 0_1110
117	# define OPERATION_MEMORY_STORE_64 0x0f // 0_1111
118	# define OPERATION_MEMORY_STORE_HEAD_OK 0x1c // 1_1100
119	# define OPERATION_MEMORY_STORE_HEAD_KO 0x1d // 1_1101
120
121	# define OPERATION_MEMORY_LOCK 0x01 // 0_0001
122	# define OPERATION_MEMORY_INVALIDATE 0x02 // 0_0010
123	# define OPERATION_MEMORY_PREFETCH 0x03 // 0_0011
124	# define OPERATION_MEMORY_FLUSH 0x06 // 0_0110
125	# define OPERATION_MEMORY_SYNCHRONIZATION 0x07 // 0_0111
126
127	#define is_operation_memory_load(x) \
128	((x == OPERATION_MEMORY_LOAD_8_Z ) or \
129	(x == OPERATION_MEMORY_LOAD_16_Z) or \
130	(x == OPERATION_MEMORY_LOAD_32_Z) or \
131	(x == OPERATION_MEMORY_LOAD_64_Z) or \
132	(x == OPERATION_MEMORY_LOAD_8_S ) or \
133	(x == OPERATION_MEMORY_LOAD_16_S) or \
134	(x == OPERATION_MEMORY_LOAD_32_S) or \
135	(x == OPERATION_MEMORY_LOAD_64_S) )
136
137	#define is_operation_memory_store(x) \
138	((x == OPERATION_MEMORY_STORE_8 ) or \
139	(x == OPERATION_MEMORY_STORE_16 ) or \
140	(x == OPERATION_MEMORY_STORE_32 ) or \
141	(x == OPERATION_MEMORY_STORE_64 ) or \
142	(x == OPERATION_MEMORY_STORE_HEAD_OK) or \
143	(x == OPERATION_MEMORY_STORE_HEAD_KO))
144
145	#define is_operation_memory_store_head(x) \
146	((x == OPERATION_MEMORY_STORE_HEAD_OK) or \
147	(x == OPERATION_MEMORY_STORE_HEAD_KO))
148
149	#define is_operation_memory_load_signed(x) \
150	((x == OPERATION_MEMORY_LOAD_8_S ) or \
151	(x == OPERATION_MEMORY_LOAD_16_S) or \
152	(x == OPERATION_MEMORY_LOAD_32_S) or \
153	(x == OPERATION_MEMORY_LOAD_64_S) )
154
155	# define MEMORY_ACCESS_8 0x0
156	# define MEMORY_ACCESS_16 0x1
157	# define MEMORY_ACCESS_32 0x2
158	# define MEMORY_ACCESS_64 0x3
159
160	# define MEMORY_SIZE_8 8
161	# define MEMORY_SIZE_16 16
162	# define MEMORY_SIZE_32 32
163	# define MEMORY_SIZE_64 64
164
165	# define MASK_MEMORY_ACCESS_8 0x0
166	# define MASK_MEMORY_ACCESS_16 0x1
167	# define MASK_MEMORY_ACCESS_32 0x3
168	# define MASK_MEMORY_ACCESS_64 0x7
169
170	#define memory_size(x) \
171	(((x==OPERATION_MEMORY_LOAD_16_Z)or \
172	(x==OPERATION_MEMORY_LOAD_16_S)or \
173	(x==OPERATION_MEMORY_STORE_16 ))?MEMORY_SIZE_16: \
174	(((x==OPERATION_MEMORY_LOAD_32_Z)or \
175	(x==OPERATION_MEMORY_LOAD_32_S)or \
176	(x==OPERATION_MEMORY_STORE_32 ))?MEMORY_SIZE_32: \
177	(((x==OPERATION_MEMORY_LOAD_64_Z)or \
178	(x==OPERATION_MEMORY_LOAD_64_S)or \
179	(x==OPERATION_MEMORY_STORE_64 ))?MEMORY_SIZE_64:MEMORY_SIZE_8)))
180
181	#define memory_access(x) \
182	(((x==OPERATION_MEMORY_LOAD_16_Z)or \
183	(x==OPERATION_MEMORY_LOAD_16_S)or \
184	(x==OPERATION_MEMORY_STORE_16 ))?MEMORY_ACCESS_16: \
185	(((x==OPERATION_MEMORY_LOAD_32_Z)or \
186	(x==OPERATION_MEMORY_LOAD_32_S)or \
187	(x==OPERATION_MEMORY_STORE_32 ))?MEMORY_ACCESS_32: \
188	(((x==OPERATION_MEMORY_LOAD_64_Z)or \
189	(x==OPERATION_MEMORY_LOAD_64_S)or \
190	(x==OPERATION_MEMORY_STORE_64 ))?MEMORY_ACCESS_64:MEMORY_ACCESS_8)))
191
192	#define mask_memory_access(x) \
193	(((x==OPERATION_MEMORY_LOAD_16_Z)or \
194	(x==OPERATION_MEMORY_LOAD_16_S)or \
195	(x==OPERATION_MEMORY_STORE_16 ))?MASK_MEMORY_ACCESS_16: \
196	(((x==OPERATION_MEMORY_LOAD_32_Z)or \
197	(x==OPERATION_MEMORY_LOAD_32_S)or \
198	(x==OPERATION_MEMORY_STORE_32 ))?MASK_MEMORY_ACCESS_32: \
199	(((x==OPERATION_MEMORY_LOAD_64_Z)or \
200	(x==OPERATION_MEMORY_LOAD_64_S)or \
201	(x==OPERATION_MEMORY_STORE_64 ))?MASK_MEMORY_ACCESS_64:MASK_MEMORY_ACCESS_8)))
202
203	//---------------------------------------------[ Functionnal Unit ]-----
204
205	// WARNING : Operations are coded in a one-hot implementation that is used in the functional unit's vhdl code.
206	// Do not change that (you can still change the values as long as it respects the one-hot encoding).
207
208	# define OPERATION_ALU_L_ADD 0x1 // 000_0001 l.add , l.addi
209	# define OPERATION_ALU_L_ADDC 0x2 // 000_0010 l.addc , l.addic
210	# define OPERATION_ALU_L_SUB 0x4 // 000_0100 l.sub
211	# define OPERATION_ALU_L_AND 0x8 // 000_1000 l.and , l.andi
212	# define OPERATION_ALU_L_OR 0x10 // 001_0000 l.or , l.ori
213	# define OPERATION_ALU_L_XOR 0x20 // 010_0000 l.xor , l.xori
214
215	// WARNING : Shift and rotate operation codes are hard-coded in the functional unit's vhdl code,
216	// with bit 0 corresponding to the direction (0 for right, and 1 for left),
217	// bit 1 to the type (0 for shift, 1 for rotate) and bit 2 is to be set to 0 for a logic
218	// operation and 1 for an arithmetic operation.
219	// Do not change that (unless you respect the one-hot encoding described above).
220
221	# define OPERATION_SHIFT_L_SLL 0x1 // 000_0001 l.sll , l.slli
222	# define OPERATION_SHIFT_L_SRA 0x4 // 000_0100 l.sra , l.srai
223	# define OPERATION_SHIFT_L_SRL 0x0 // 000_0000 l.srl , l.srli
224	# define OPERATION_SHIFT_L_ROR 0x2 // 000_0010 l.ror , l.rori
225
226	# define OPERATION_MOVE_L_MOVHI 0x1 // 000_0001 l.movhi
227	# define OPERATION_MOVE_L_CMOV 0x2 // 000_0010 l.cmov
228
229	# define OPERATION_TEST_L_SFGES 0x45 // 100_0101 l.sfges , l.sfges
230	# define OPERATION_TEST_L_SFGEU 0x5 // 000_0101 l.sfgeu , l.sfgeu
231	# define OPERATION_TEST_L_SFGTS 0x46 // 100_0110 L.sfgts , l.sfgts
232	# define OPERATION_TEST_L_SFGTU 0x6 // 000_0110 l.sfgtu , l.sfgtu
233	# define OPERATION_TEST_L_SFLES 0x49 // 100_1001 l.sfles , l.sfles
234	# define OPERATION_TEST_L_SFLEU 0x9 // 000_1001 l.sfleu , l.sfleu
235	# define OPERATION_TEST_L_SFLTS 0x4A // 100_1010 l.sflts , l.sflts
236	# define OPERATION_TEST_L_SFLTU 0xA // 000_1010 l.sfltu , l.sfltu
237	# define OPERATION_TEST_L_SFEQ 0x10 // 001_0000 l.sfeq , l.sfeqi
238	# define OPERATION_TEST_L_SFNE 0x20 // 010_0000 l.sfne , l.sfnei
239
240	# define OPERATION_MUL_L_MUL 0x1 // 000_0001 l.mul , l.muli
241	# define OPERATION_MUL_L_MULU 0x2 // 000_0010 l.mulu
242
243	# define OPERATION_DIV_L_DIV 0x1 // 000_0001 l.div
244	# define OPERATION_DIV_L_DIVU 0x2 // 000_0010 l.divu
245
246	# define OPERATION_EXTEND_L_EXTEND_Z 0x1 // 000_0001 l.extbz , l.exthz, l.extwz
247	# define OPERATION_EXTEND_L_EXTEND_S 0x2 // 000_0010 l.extbs , l.exths, l.extws
248
249	# define OPERATION_FIND_L_FF1 0x1 // 000_0001 l.ff1
250	# define OPERATION_FIND_L_FL1 0x2 // 000_0010 l.fl1
251
252	# define OPERATION_SPECIAL_L_NOP 0x7f // 111_1111 l.nop
253	# define OPERATION_SPECIAL_L_MFSPR 0x1 // 000_0001 l.mfspr
254	# define OPERATION_SPECIAL_L_MTSPR 0x2 // 000_0010 l.mtspr
255	# define OPERATION_SPECIAL_L_RFE 0x4 // 000_0100 l.rfe
256	# define OPERATION_SPECIAL_L_MAC 0x11 // 001_0001 l.mac , l.maci
257	# define OPERATION_SPECIAL_L_MACRC 0x12 // 001_0010 l.macrc
258	# define OPERATION_SPECIAL_L_MSB 0x14 // 001_0100 l.msb
259	//#define OPERATION_SPECIAL_L_MSYNC 0x21 // 010_0001 l.msync
260	//#define OPERATION_SPECIAL_L_PSYNC 0x22 // 010_0010 l.psync
261	//#define OPERATION_SPECIAL_L_CSYNC 0x24 // 010_0100 l.csync
262	# define OPERATION_SPECIAL_L_SYS 0x41 // 100_0001 l.sys
263	# define OPERATION_SPECIAL_L_TRAP 0x42 // 100_0010 l.trap
264
265	# define OPERATION_BRANCH_NONE 0x1 // 000_0001 l.j
266	# define OPERATION_BRANCH_L_TEST_NF 0x2 // 000_0010 l.bnf
267	# define OPERATION_BRANCH_L_TEST_F 0x4 // 000_0100 l.bf
268	# define OPERATION_BRANCH_L_JALR 0x8 // 000_1000 l.jal , l.jalr , l.jr
269
270	//-------------------------------------------------------[ Custom ]-----
271
272	# define OPERATION_CUSTOM_L_1 0x40 // 100_0000
273	# define OPERATION_CUSTOM_L_2 0x41 // 100_0001
274	# define OPERATION_CUSTOM_L_3 0x42 // 100_0010
275	# define OPERATION_CUSTOM_L_4 0x43 // 100_0011
276	# define OPERATION_CUSTOM_L_5 0x44 // 100_0100
277	# define OPERATION_CUSTOM_L_6 0x45 // 100_0101
278	# define OPERATION_CUSTOM_L_7 0x46 // 100_0110
279	# define OPERATION_CUSTOM_L_8 0x47 // 100_0111
280	# define OPERATION_CUSTOM_LF_1_D 0x48 // 100_1000
281	# define OPERATION_CUSTOM_LF_1_S 0x49 // 100_1001
282	# define OPERATION_CUSTOM_LV_1 0x4c // 100_1100
283	# define OPERATION_CUSTOM_LV_2 0x4d // 100_1101
284	# define OPERATION_CUSTOM_LV_3 0x4e // 100_1110
285	# define OPERATION_CUSTOM_LV_4 0x4f // 100_1111
286
287	# define SIZE_OPERATION 7
288	# define MAX_OPERATION (1<<SIZE_OPERATION)
289
290	//====================================================[ Exception ]=====
291	// Exception - OpenRISC
292
293	# define SIZE_EXCEPTION 5
294	# define SIZE_EXCEPTION_USE 4
295	# define SIZE_EXCEPTION_MEMORY 5
296	# define SIZE_EXCEPTION_CUSTOM 5
297	# define SIZE_EXCEPTION_ALU 5
298	# define SIZE_EXCEPTION_DECOD 5
299	# define SIZE_EXCEPTION_IFETCH 5
300
301	# define EXCEPTION_NONE 0x00 // none exception
302	# define EXCEPTION_RESET 0x01 // software or hardware reset
303	# define EXCEPTION_BUS_ERROR 0x02 // Access at a invalid physical adress
304	# define EXCEPTION_DATA_PAGE 0x03 // No matching or page violation protection in pages tables
305	# define EXCEPTION_INSTRUCTION_PAGE 0x04 // No matching or page violation protection in pages tables
306	# define EXCEPTION_TICK_TIMER 0x05 // Tick timer interruption
307	# define EXCEPTION_ALIGNMENT 0x06 // Load/Store access is not aligned
308	# define EXCEPTION_ILLEGAL_INSTRUCTION 0x07 // Instruction is illegal (no implemented)
309	# define EXCEPTION_INTERRUPT 0x08 // External interruption
310	# define EXCEPTION_DATA_TLB 0x09 // DTLB miss
311	# define EXCEPTION_INSTRUCTION_TLB 0x0a // ITLB miss
312	# define EXCEPTION_RANGE 0x0b // Overflow or access at a unimplemented register or context
313	# define EXCEPTION_SYSCALL 0x0c // System Call
314	# define EXCEPTION_FLOATING_POINT 0x0d // Caused by a floating instruction
315	# define EXCEPTION_TRAP 0x0e // L.trap or debug unit
316	# define EXCEPTION_RESERVED_0 0x0f // Reserved for a futur usage
317	# define EXCEPTION_RESERVED_1 0x10 // Reserved for a futur usage
318	# define EXCEPTION_RESERVED_2 0x11 // Reserved for a futur usage
319	# define EXCEPTION_RESERVED_3 0x12 // Reserved for a futur usage
320	# define EXCEPTION_RESERVED_4 0x13 // Reserved for a futur usage
321	# define EXCEPTION_RESERVED_5 0x14 // Reserved for a futur usage
322	# define EXCEPTION_RESERVED_6 0x15 // Reserved for implemented specific exceptions
323	# define EXCEPTION_RESERVED_7 0x16 // Reserved for implemented specific exceptions
324	# define EXCEPTION_RESERVED_8 0x17 // Reserved for implemented specific exceptions
325	# define EXCEPTION_RESERVED_9 0x18 // Reserved for implemented specific exceptions
326	# define EXCEPTION_CUSTOM_0 0x19 // Reserved for custom exceptions
327	# define EXCEPTION_CUSTOM_1 0x1a // Reserved for custom exceptions
328	# define EXCEPTION_CUSTOM_2 0x1b // Reserved for custom exceptions
329	# define EXCEPTION_CUSTOM_3 0x1c // Reserved for custom exceptions
330	# define EXCEPTION_CUSTOM_4 0x1d // Reserved for custom exceptions
331	# define EXCEPTION_CUSTOM_5 0x1e // Reserved for custom exceptions
332	# define EXCEPTION_CUSTOM_6 0x1f // Reserved for custom exceptions
333
334	//SR[14].EPH : Exception Prefix High
335	// EPH = 0 Exceptions vectors are located in memory area starting at 0x0
336	// EPH = 1 Exception vectors are located in memory area starting at 0xF0000000
337
338	#define exception_to_address(eph,x) (((eph==0)?0x0:0xF0000000)+(x<<8))
339
340	// Exception Execution
341	# define EXCEPTION_IFETCH_NONE 0x00 // Fetch Unit generate none exception
342	# define EXCEPTION_IFETCH_INSTRUCTION_TLB 0x0a // ITLB miss
343	# define EXCEPTION_IFETCH_INSTRUCTION_PAGE 0x04 // No matching or page violation protection in pages tables
344	# define EXCEPTION_IFETCH_BUS_ERROR 0x02 // Access at a invalid physical address
345
346	# define EXCEPTION_DECOD_NONE 0x00 // none exception
347	# define EXCEPTION_DECOD_ILLEGAL_INSTRUCTION 0x01 // Instruction is illegal (no implemented)
348	# define EXCEPTION_DECOD_SYSCALL 0x02 // System Call
349	//#define EXCEPTION_DECOD_TRAP 0x0e // L.trap or debug unit (note : must read SR !)
350	# define EXCEPTION_DECOD_INSTRUCTION_TLB 0x0a // ITLB miss
351	# define EXCEPTION_DECOD_INSTRUCTION_PAGE 0x04 // No matching or page violation protection in pages tables
352	# define EXCEPTION_DECOD_BUS_ERROR 0x02 // Access at a invalid physical address
353
354	// WARNING : Keep EXCEPTION_ALU_NONE value at 0x00 (kind of hard coded in functional unit's vhdl code).
355	# define EXCEPTION_ALU_NONE 0x00 // Functionnal unit generate none exception
356	# define EXCEPTION_ALU_RANGE 0x0b //
357	# define EXCEPTION_ALU_SPR_ACCESS_INVALID 0x12 // * SPR present in ALU but not compatible privilege
358	# define EXCEPTION_ALU_SPR_ACCESS_MUST_READ 0x13 // * SPR not present in ALU
359	# define EXCEPTION_ALU_SPR_ACCESS_MUST_WRITE 0x14 // * SPR not present in ALU
360
361	# define EXCEPTION_MEMORY_NONE 0x00 // Load/Store generate none exception
362	# define EXCEPTION_MEMORY_ALIGNMENT 0x06 // Load/Store access is not aligned
363	# define EXCEPTION_MEMORY_DATA_TLB 0x09 // DTLB miss
364	# define EXCEPTION_MEMORY_DATA_PAGE 0x03 // No matching or page violation protection in pages tables
365	# define EXCEPTION_MEMORY_BUS_ERROR 0x02 // Access at a invalid physical address
366	# define EXCEPTION_MEMORY_MISS_SPECULATION 0x10 // * Load miss speculation
367	# define EXCEPTION_MEMORY_LOAD_SPECULATIVE 0x11 // * The load is speculative : write in register file, but don't commit
368
369	# define EXCEPTION_CUSTOM_NONE 0x00 // Custom unit generate none exception
370	# define EXCEPTION_CUSTOM_CUST_0 0x19 // Reserved for custom exceptions
371	# define EXCEPTION_CUSTOM_CUST_1 0x1a // Reserved for custom exceptions
372	# define EXCEPTION_CUSTOM_CUST_2 0x1b // Reserved for custom exceptions
373	# define EXCEPTION_CUSTOM_CUST_3 0x1c // Reserved for custom exceptions
374	# define EXCEPTION_CUSTOM_CUST_4 0x1d // Reserved for custom exceptions
375	# define EXCEPTION_CUSTOM_CUST_5 0x1e // Reserved for custom exceptions
376	# define EXCEPTION_CUSTOM_CUST_6 0x1f // Reserved for custom exceptions
377
378	# define EXCEPTION_USE_NONE 0x00 //
379	# define EXCEPTION_USE_ILLEGAL_INSTRUCTION 0x01 // illegal_instruction
380	# define EXCEPTION_USE_RANGE 0x02 // range
381	# define EXCEPTION_USE_MEMORY_WITH_ALIGNMENT 0x03 // TLB miss, page fault, bus error, alignment
382	# define EXCEPTION_USE_MEMORY_WITHOUT_ALIGNMENT 0x04 // TLB miss, page fault, bus error
383	# define EXCEPTION_USE_SYSCALL 0x05 // syscall
384	# define EXCEPTION_USE_TRAP 0x06 // trap
385	# define EXCEPTION_USE_CUSTOM_0 0x07 //
386	# define EXCEPTION_USE_CUSTOM_1 0x08 //
387	# define EXCEPTION_USE_CUSTOM_2 0x09 //
388	# define EXCEPTION_USE_CUSTOM_3 0x0a //
389	# define EXCEPTION_USE_CUSTOM_4 0x0b //
390	# define EXCEPTION_USE_CUSTOM_5 0x0c //
391	# define EXCEPTION_USE_CUSTOM_6 0x0d //
392
393	# define exception_ifetch_to_exception_decod(x) x
394	# define exception_decod_to_exception(x) x
395	# define exception_alu_to_exception(x) x
396	# define exception_memory_to_exception(x) x
397	# define exception_custom_to_exception(x) x
398
399	//=======================================================[ icache ]=====
400
401	//--------------------------------------------------[ icache_type ]-----
402
403	# define SIZE_ICACHE_TYPE 2
404
405	# define ICACHE_TYPE_LOAD 0x0 // 0000
406	# define ICACHE_TYPE_LOCK 0x1 // 0001
407	# define ICACHE_TYPE_INVALIDATE 0x2 // 0010
408	# define ICACHE_TYPE_PREFETCH 0x3 // 0011
409
410	// just take the 2 less significative bits.
411	#define operation_to_icache_type(x) (x&0x3)
412
413	//-------------------------------------------------[ icache_error ]-----
414
415	# define SIZE_ICACHE_ERROR 1
416
417	# define ICACHE_ERROR_NONE 0x0
418	# define ICACHE_ERROR_BUS_ERROR 0x1
419
420	//=======================================================[ dcache ]=====
421
422	//--------------------------------------------------[ dcache_type ]-----
423
424	# define SIZE_DCACHE_TYPE 4
425
426	//#define DCACHE_TYPE_ 0x0 // 0000
427	# define DCACHE_TYPE_LOCK 0x1 // 0001
428	# define DCACHE_TYPE_INVALIDATE 0x2 // 0010
429	# define DCACHE_TYPE_PREFETCH 0x3 // 0011
430	//#define DCACHE_TYPE_ 0x4 // 0100
431	//#define DCACHE_TYPE_ 0x5 // 0101
432	# define DCACHE_TYPE_FLUSH 0x6 // 0110
433	# define DCACHE_TYPE_SYNCHRONIZATION 0x7 // 0111
434	# define DCACHE_TYPE_LOAD_8 0x8 // 1000
435	# define DCACHE_TYPE_LOAD_16 0x9 // 1001
436	# define DCACHE_TYPE_LOAD_32 0xa // 1010
437	# define DCACHE_TYPE_LOAD_64 0xb // 1011
438	# define DCACHE_TYPE_STORE_8 0xc // 1100
439	# define DCACHE_TYPE_STORE_16 0xd // 1101
440	# define DCACHE_TYPE_STORE_32 0xe // 1110
441	# define DCACHE_TYPE_STORE_64 0xf // 1111
442
443	// just take the 4 less significative bits.
444	#define operation_to_dcache_type(x) (x&0xf)
445
446	//-------------------------------------------------[ dcache_error ]-----
447
448	# define SIZE_DCACHE_ERROR 1
449
450	# define DCACHE_ERROR_NONE 0x0
451	# define DCACHE_ERROR_BUS_ERROR 0x1
452
453	//=================================================[ special_data ]=====
454
455	# define SIZE_SPECIAL_DATA 2
456
457	// Position of flag in "rename register SR" (NOT IN "SR")
458	# define FLAG_POSITION_F 0x0 // Conditionnal branch flag
459	# define FLAG_POSITION_CY 0x1 // Carry was produced by last arithmetic operation
460	# define FLAG_POSITION_OV 0x0 // Overflow occured during last arithmetic operation
461
462	# define FLAG_F (1<<FLAG_POSITION_F ) // Conditionnal branch flag
463	# define FLAG_CY (1<<FLAG_POSITION_CY) // Carry was produced by last arithmetic operation
464	# define FLAG_OV (1<<FLAG_POSITION_OV) // Overflow occured during last arithmetic operation
465
466	//==========================================================[ spr ]=====
467
468	enum
469	{
470	GROUP_SYSTEM_AND_CONTROL, // 0
471	GROUP_DMMU, // 1
472	GROUP_IMMU, // 2
473	GROUP_DCACHE, // 3
474	GROUP_ICACHE, // 4
475	GROUP_MAC, // 5
476	GROUP_DEBUG, // 6
477	GROUP_PERFORMANCE_COUNTER, // 7
478	GROUP_POWER_MANAGEMENT, // 8
479	GROUP_PIC, // 9
480	GROUP_TICK_TIMER, // 10
481	GROUP_FLOATING_POINT, // 11
482	GROUP_RESERVED_1, // 12
483	GROUP_RESERVED_2, // 13
484	GROUP_RESERVED_3, // 14
485	GROUP_RESERVED_4, // 15
486	GROUP_RESERVED_5, // 16
487	GROUP_RESERVED_6, // 17
488	GROUP_RESERVED_7, // 18
489	GROUP_RESERVED_8, // 19
490	GROUP_RESERVED_9, // 20
491	GROUP_RESERVED_10, // 21
492	GROUP_RESERVED_11, // 22
493	GROUP_RESERVED_12, // 23
494	GROUP_CUSTOM_1, // 24
495	GROUP_CUSTOM_2, // 25
496	GROUP_CUSTOM_3, // 26
497	GROUP_CUSTOM_4, // 27
498	GROUP_CUSTOM_5, // 28
499	GROUP_CUSTOM_6, // 29
500	GROUP_CUSTOM_7, // 30
501	GROUP_CUSTOM_8, // 31
502	NB_GROUP
503	};
504
505	# define NB_REG_GROUP_SYSTEM_AND_CONTROL 1536
506	# define NB_REG_GROUP_DMMU 1536
507	# define NB_REG_GROUP_IMMU 1536
508	# define NB_REG_GROUP_DCACHE 6
509	# define NB_REG_GROUP_ICACHE 4
510	# define NB_REG_GROUP_MAC 3
511	# define NB_REG_GROUP_DEBUG 22
512	# define NB_REG_GROUP_PERFORMANCE_COUNTER 16
513	# define NB_REG_GROUP_POWER_MANAGEMENT 1
514	# define NB_REG_GROUP_PIC 3
515	# define NB_REG_GROUP_TICK_TIMER 2
516	# define NB_REG_GROUP_FLOATING_POINT 0
517	# define NB_REG_GROUP_RESERVED_1 0
518	# define NB_REG_GROUP_RESERVED_2 0
519	# define NB_REG_GROUP_RESERVED_3 0
520	# define NB_REG_GROUP_RESERVED_4 0
521	# define NB_REG_GROUP_RESERVED_5 0
522	# define NB_REG_GROUP_RESERVED_6 0
523	# define NB_REG_GROUP_RESERVED_7 0
524	# define NB_REG_GROUP_RESERVED_8 0
525	# define NB_REG_GROUP_RESERVED_9 0
526	# define NB_REG_GROUP_RESERVED_10 0
527	# define NB_REG_GROUP_RESERVED_11 0
528	# define NB_REG_GROUP_RESERVED_12 0
529	# define NB_REG_GROUP_CUSTOM_1 0
530	# define NB_REG_GROUP_CUSTOM_2 0
531	# define NB_REG_GROUP_CUSTOM_3 0
532	# define NB_REG_GROUP_CUSTOM_4 0
533	# define NB_REG_GROUP_CUSTOM_5 0
534	# define NB_REG_GROUP_CUSTOM_6 0
535	# define NB_REG_GROUP_CUSTOM_7 0
536	# define NB_REG_GROUP_CUSTOM_8 0
537
538	static const uint32_t NB_REG_GROUP [] =
539	{NB_REG_GROUP_SYSTEM_AND_CONTROL ,
540	NB_REG_GROUP_DMMU ,
541	NB_REG_GROUP_IMMU ,
542	NB_REG_GROUP_DCACHE ,
543	NB_REG_GROUP_ICACHE ,
544	NB_REG_GROUP_MAC ,
545	NB_REG_GROUP_DEBUG ,
546	NB_REG_GROUP_PERFORMANCE_COUNTER ,
547	NB_REG_GROUP_POWER_MANAGEMENT ,
548	NB_REG_GROUP_PIC ,
549	NB_REG_GROUP_TICK_TIMER ,
550	NB_REG_GROUP_FLOATING_POINT ,
551	NB_REG_GROUP_RESERVED_1 ,
552	NB_REG_GROUP_RESERVED_2 ,
553	NB_REG_GROUP_RESERVED_3 ,
554	NB_REG_GROUP_RESERVED_4 ,
555	NB_REG_GROUP_RESERVED_5 ,
556	NB_REG_GROUP_RESERVED_6 ,
557	NB_REG_GROUP_RESERVED_7 ,
558	NB_REG_GROUP_RESERVED_8 ,
559	NB_REG_GROUP_RESERVED_9 ,
560	NB_REG_GROUP_RESERVED_10 ,
561	NB_REG_GROUP_RESERVED_11 ,
562	NB_REG_GROUP_RESERVED_12 ,
563	NB_REG_GROUP_CUSTOM_1 ,
564	NB_REG_GROUP_CUSTOM_2 ,
565	NB_REG_GROUP_CUSTOM_3 ,
566	NB_REG_GROUP_CUSTOM_4 ,
567	NB_REG_GROUP_CUSTOM_5 ,
568	NB_REG_GROUP_CUSTOM_6 ,
569	NB_REG_GROUP_CUSTOM_7 ,
570	NB_REG_GROUP_CUSTOM_8 };
571
572	// GROUP_SYSTEM_AND_CONTROL
573	# define SPR_VR 0 // Version register
574	# define SPR_UPR 1 // Unit Present register
575	# define SPR_CPUCFGR 2 // CPU Configuration register
576	# define SPR_DMMUCFGR 3 // Data MMU Configuration register
577	# define SPR_IMMUCFGR 4 // Instruction MMU Configuration register
578	# define SPR_DCCFGR 5 // Data Cache Configuration register
579	# define SPR_ICCFGR 6 // Instruction Cache Configuration register
580	# define SPR_DCFGR 7 // Debug Configuration register
581	# define SPR_PCCFGR 8 // Performance Counters Configuration register
582	# define SPR_NPC 16 // PC mapped to SPR space (next PC)
583	# define SPR_SR 17 // Supervision register
584	# define SPR_PPC 18 // PC mapped to SPR space (previous PC)
585	# define SPR_FPCSR 20 // FP Control Status register
586	# define SPR_CID 21 // Context Id
587	# define SPR_TID 22 // Thread Id
588	# define SPR_TSR 23 // Thread Priority
589	# define SPR_EPCR 32 // Exception PC register
590	# define SPR_EEAR 48 // Exception EA register
591	# define SPR_ESR 64 // Exception SR register
592	# define SPR_GPR 1024 // GPRs mappted to SPR space
593
594	// GROUP_DCACHE
595	# define SPR_DCCR 0 // DC Control register
596	# define SPR_DCBPR 1 // DC Block Prefetch register
597	# define SPR_DCBFR 2 // DC Block Flush register
598	# define SPR_DCBIR 3 // DC Block Invalidate register
599	# define SPR_DCBWR 4 // DC Block Write-back register
600	# define SPR_DCBLR 5 // DC Block Lock register
601
602	// GROUP_ICACHE
603	# define SPR_ICCR 0 // IC Control register
604	# define SPR_ICBPR 1 // IC Block Prefetch register
605	# define SPR_ICBIR 2 // IC Block Invalidate register
606	# define SPR_ICBLR 3 // IC Block Lock register
607
608	// GROUP_MAC
609	# define SPR_MACLO 1 // MAC Low
610	# define SPR_MACHI 2 // MAC High
611
612	// SR RENAME
613	# define NB_SPR_LOGIC 2
614	# define LOG2_NB_SPR_LOGIC 1
615	// SPR_LOGIC[0] = F
616	// SPR_LOGIC[1] = Carry, Overflow
617	# define SPR_LOGIC_SR_F 0x0 // Status register bit F (size = 1)
618	# define SPR_LOGIC_SR_CY_OV 0x1 // Status register bit overflow and carry (size = 2)
619
620	//----------------------------------------------[ spr_mode_access ]-----
621
622	# define SPR_ACCESS_MODE_NONE 0x0 // 000
623	# define SPR_ACCESS_MODE_READ_ONLY 0x1 // 001
624	# define SPR_ACCESS_MODE_WRITE_ONLY 0x2 // 010
625	# define SPR_ACCESS_MODE_READ_WRITE 0x3 // 011
626	# define SPR_ACCESS_MODE_READ_ONLY_COND 0x5 // 101 special read
627
628	//--------------------------------------------------------[ event ]-----
629	# define SIZE_EVENT_STATE 2
630
631	# define EVENT_STATE_NO_EVENT 0 // no event : current case
632	# define EVENT_STATE_EVENT 1 // Have a event : make necessary to manage the event
633	# define EVENT_STATE_WAITEND 2 // Wait end of manage event (restaure a good context)
634	# define EVENT_STATE_END 3 // CPU can continue
635
636	# define SIZE_EVENT_TYPE 3
637
638	# define EVENT_TYPE_NONE 0 // no event
639	# define EVENT_TYPE_BRANCH_MISS_SPECULATION 1 // miss of speculation (load or branch miss speculation)
640	# define EVENT_TYPE_LOAD_MISS_SPECULATION 2 // miss of speculation (load or branch miss speculation)
641	# define EVENT_TYPE_EXCEPTION 3 // exception or interruption occure
642	//#define EVENT_TYPE_BRANCH_NO_ACCURATE 3 // branch is no accurate (old speculation is a miss)
643	# define EVENT_TYPE_SPR_ACCESS 4 // decod a mtspr or mfspr instruction
644	# define EVENT_TYPE_MSYNC 5 // decod a memory synchronization
645	# define EVENT_TYPE_PSYNC 6 // decod a pipeline synchronization
646	# define EVENT_TYPE_CSYNC 7 // decod a context synchronization
647
648	//-------------------------------------------------[ branch_state ]-----
649	# define SIZE_BRANCH_STATE 2
650
651	# define BRANCH_STATE_NONE 0x0 // 0 0
652	# define BRANCH_STATE_NSPEC_TAKE 0x1 // 0 1 -> incondionnal
653	# define BRANCH_STATE_SPEC_NTAKE 0x2 // 1 0
654	# define BRANCH_STATE_SPEC_TAKE 0x3 // 1 1
655
656	//---------------------------------------------[ branch_condition ]-----
657
658	# define SIZE_BRANCH_CONDITION 4
659	# define MAX_BRANCH_CONDITION (1<<SIZE_BRANCH_CONDITION)
660	typedef enum
661	{
662	BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK = 0x0, // None condition (jump)
663	BRANCH_CONDITION_NONE_WITH_WRITE_STACK = 0x8, // None condition (jump)
664	BRANCH_CONDITION_FLAG_UNSET = 0x2, // Branch if Flag is clear
665	BRANCH_CONDITION_FLAG_SET = 0x3, // Branch if Flag is set
666	BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK = 0x4, // Branch if a register is read
667	BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK = 0xc, // Branch if a register is read
668	BRANCH_CONDITION_READ_STACK = 0xf // Branch with pop in stack pointer
669	} branch_condition_t;
670
671	# define is_branch_condition_valid(x) \
672	(( x == BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK ) or \
673	( x == BRANCH_CONDITION_NONE_WITH_WRITE_STACK ) or \
674	( x == BRANCH_CONDITION_FLAG_UNSET ) or \
675	( x == BRANCH_CONDITION_FLAG_SET ) or \
676	( x == BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK) or \
677	( x == BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK ) or \
678	( x == BRANCH_CONDITION_READ_STACK ))
679
680
681	/*
682	enum
683	{
684	BRANCH_TYPE_SEQUENTIAL,
685	BRANCH_TYPE_JUMP,
686	BRANCH_TYPE_CONDITIONNAL,
687	BRANCH_TYPE_REGISTER,
688	BRANCH_TYPE_CALL,
689	BRANCH_TYPE_RETURN,
690	NB_BRANCH_TYPE
691	};
692
693	# define branch_condition_to_type(x) \
694	(x == BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK )?BRANCH_TYPE_JUMP: \
695	((x == BRANCH_CONDITION_NONE_WITH_WRITE_STACK )?BRANCH_TYPE_CALL: \
696	((x == BRANCH_CONDITION_FLAG_UNSET )?BRANCH_TYPE_CONDITIONNAL: \
697	((x == BRANCH_CONDITION_FLAG_SET )?BRANCH_TYPE_CONDITIONNAL: \
698	((x == BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK)?BRANCH_TYPE_REGISTER: \
699	((x == BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK )?BRANCH_TYPE_CALL: \
700	((x == BRANCH_CONDITION_READ_STACK )?BRANCH_TYPE_RETURN:BRANCH_TYPE_SEQUENTIAL))))));
701	*/
702
703	//--------------------------------------------------[ instruction ]-----
704	# define NB_INSTRUCTION 213 // 92 ORBIS, 30 ORFPX (15 simple, 15 double), 91 ORVDX (38 on byte, 41 on half, 12 independant format)
705
706	enum
707	{
708	// ORBIS
709	INSTRUCTION_L_ADD, //0
710	INSTRUCTION_L_ADDC, //1
711	INSTRUCTION_L_ADDI, //2
712	INSTRUCTION_L_ADDIC, //3
713	INSTRUCTION_L_AND, //4
714	INSTRUCTION_L_ANDI, //5
715	INSTRUCTION_L_BF, //6
716	INSTRUCTION_L_BNF, //7
717	INSTRUCTION_L_CMOV, //8
718	INSTRUCTION_L_CSYNC, //9
719	INSTRUCTION_L_CUST1, //10
720	INSTRUCTION_L_CUST2, //11
721	INSTRUCTION_L_CUST3, //12
722	INSTRUCTION_L_CUST4, //13
723	INSTRUCTION_L_CUST5, //14
724	INSTRUCTION_L_CUST6, //15
725	INSTRUCTION_L_CUST7, //16
726	INSTRUCTION_L_CUST8, //17
727	INSTRUCTION_L_DIV, //18
728	INSTRUCTION_L_DIVU, //19
729	INSTRUCTION_L_EXTBS, //20
730	INSTRUCTION_L_EXTBZ, //21
731	INSTRUCTION_L_EXTHS, //22
732	INSTRUCTION_L_EXTHZ, //23
733	INSTRUCTION_L_EXTWS, //24
734	INSTRUCTION_L_EXTWZ, //25
735	INSTRUCTION_L_FF1, //26
736	INSTRUCTION_L_FL1, //27
737	INSTRUCTION_L_J, //28
738	INSTRUCTION_L_JAL, //29
739	INSTRUCTION_L_JALR, //30
740	INSTRUCTION_L_JR, //31
741	INSTRUCTION_L_LBS, //32
742	INSTRUCTION_L_LBZ, //33
743	INSTRUCTION_L_LD, //34
744	INSTRUCTION_L_LHS, //35
745	INSTRUCTION_L_LHZ, //36
746	INSTRUCTION_L_LWS, //37
747	INSTRUCTION_L_LWZ, //38
748	INSTRUCTION_L_MAC, //39
749	INSTRUCTION_L_MACI, //40
750	INSTRUCTION_L_MACRC, //41
751	INSTRUCTION_L_MFSPR, //42
752	INSTRUCTION_L_MOVHI, //43
753	INSTRUCTION_L_MSB, //44
754	INSTRUCTION_L_MSYNC, //45
755	INSTRUCTION_L_MTSPR, //46
756	INSTRUCTION_L_MUL, //47
757	INSTRUCTION_L_MULI, //48
758	INSTRUCTION_L_MULU, //49
759	INSTRUCTION_L_NOP, //50
760	INSTRUCTION_L_OR, //51
761	INSTRUCTION_L_ORI, //52
762	INSTRUCTION_L_PSYNC, //53
763	INSTRUCTION_L_RFE, //54
764	INSTRUCTION_L_ROR, //55
765	INSTRUCTION_L_RORI, //56
766	INSTRUCTION_L_SB, //57
767	INSTRUCTION_L_SD, //58
768	INSTRUCTION_L_SFEQ, //59
769	INSTRUCTION_L_SFEQI, //60
770	INSTRUCTION_L_SFGES, //61
771	INSTRUCTION_L_SFGESI, //62
772	INSTRUCTION_L_SFGEU, //63
773	INSTRUCTION_L_SFGEUI, //64
774	INSTRUCTION_L_SFGTS, //65
775	INSTRUCTION_L_SFGTSI, //66
776	INSTRUCTION_L_SFGTU, //67
777	INSTRUCTION_L_SFGTUI, //68
778	INSTRUCTION_L_SFLES, //69
779	INSTRUCTION_L_SFLESI, //70
780	INSTRUCTION_L_SFLEU, //71
781	INSTRUCTION_L_SFLEUI, //72
782	INSTRUCTION_L_SFLTS, //73
783	INSTRUCTION_L_SFLTSI, //74
784	INSTRUCTION_L_SFLTU, //75
785	INSTRUCTION_L_SFLTUI, //76
786	INSTRUCTION_L_SFNE, //77
787	INSTRUCTION_L_SFNEI, //78
788	INSTRUCTION_L_SH, //79
789	INSTRUCTION_L_SLL, //80
790	INSTRUCTION_L_SLLI, //81
791	INSTRUCTION_L_SRA, //82
792	INSTRUCTION_L_SRAI, //83
793	INSTRUCTION_L_SRL, //84
794	INSTRUCTION_L_SRLI, //85
795	INSTRUCTION_L_SUB, //86
796	INSTRUCTION_L_SW, //87
797	INSTRUCTION_L_SYS, //88
798	INSTRUCTION_L_TRAP, //89
799	INSTRUCTION_L_XOR, //90
800	INSTRUCTION_L_XORI, //91
801	// ORFPX
802	INSTRUCTION_LF_ADD_D, //92
803	INSTRUCTION_LF_ADD_S, //93
804	INSTRUCTION_LF_CUST1_D, //94
805	INSTRUCTION_LF_CUST1_S, //95
806	INSTRUCTION_LF_DIV_D, //96
807	INSTRUCTION_LF_DIV_S, //97
808	INSTRUCTION_LF_FTOI_D, //98
809	INSTRUCTION_LF_FTOI_S, //99
810	INSTRUCTION_LF_ITOF_D, //100
811	INSTRUCTION_LF_ITOF_S, //101
812	INSTRUCTION_LF_MADD_D, //102
813	INSTRUCTION_LF_MADD_S, //103
814	INSTRUCTION_LF_MUL_D, //104
815	INSTRUCTION_LF_MUL_S, //105
816	INSTRUCTION_LF_REM_D, //106
817	INSTRUCTION_LF_REM_S, //107
818	INSTRUCTION_LF_SFEQ_D, //108
819	INSTRUCTION_LF_SFEQ_S, //109
820	INSTRUCTION_LF_SFGE_D, //110
821	INSTRUCTION_LF_SFGE_S, //111
822	INSTRUCTION_LF_SFGT_D, //112
823	INSTRUCTION_LF_SFGT_S, //113
824	INSTRUCTION_LF_SFLE_D, //114
825	INSTRUCTION_LF_SFLE_S, //115
826	INSTRUCTION_LF_SFLT_D, //116
827	INSTRUCTION_LF_SFLT_S, //117
828	INSTRUCTION_LF_SFNE_D, //118
829	INSTRUCTION_LF_SFNE_S, //119
830	INSTRUCTION_LF_SUB_D, //120
831	INSTRUCTION_LF_SUB_S, //121
832	// ORVDX
833	INSTRUCTION_LV_ADD_B, //122
834	INSTRUCTION_LV_ADD_H, //123
835	INSTRUCTION_LV_ADDS_B, //124
836	INSTRUCTION_LV_ADDS_H, //125
837	INSTRUCTION_LV_ADDU_B, //126
838	INSTRUCTION_LV_ADDU_H, //127
839	INSTRUCTION_LV_ADDUS_B, //128
840	INSTRUCTION_LV_ADDUS_H, //129
841	INSTRUCTION_LV_ALL_EQ_B, //130
842	INSTRUCTION_LV_ALL_EQ_H, //131
843	INSTRUCTION_LV_ALL_GE_B, //132
844	INSTRUCTION_LV_ALL_GE_H, //133
845	INSTRUCTION_LV_ALL_GT_B, //134
846	INSTRUCTION_LV_ALL_GT_H, //135
847	INSTRUCTION_LV_ALL_LE_B, //136
848	INSTRUCTION_LV_ALL_LE_H, //137
849	INSTRUCTION_LV_ALL_LT_B, //138
850	INSTRUCTION_LV_ALL_LT_H, //139
851	INSTRUCTION_LV_ALL_NE_B, //140
852	INSTRUCTION_LV_ALL_NE_H, //141
853	INSTRUCTION_LV_AND, //142
854	INSTRUCTION_LV_ANY_EQ_B, //143
855	INSTRUCTION_LV_ANY_EQ_H, //144
856	INSTRUCTION_LV_ANY_GE_B, //145
857	INSTRUCTION_LV_ANY_GE_H, //146
858	INSTRUCTION_LV_ANY_GT_B, //147
859	INSTRUCTION_LV_ANY_GT_H, //148
860	INSTRUCTION_LV_ANY_LE_B, //149
861	INSTRUCTION_LV_ANY_LE_H, //150
862	INSTRUCTION_LV_ANY_LT_B, //151
863	INSTRUCTION_LV_ANY_LT_H, //152
864	INSTRUCTION_LV_ANY_NE_B, //153
865	INSTRUCTION_LV_ANY_NE_H, //154
866	INSTRUCTION_LV_AVG_B, //155
867	INSTRUCTION_LV_AVG_H, //156
868	INSTRUCTION_LV_CMP_EQ_B, //157
869	INSTRUCTION_LV_CMP_EQ_H, //158
870	INSTRUCTION_LV_CMP_GE_B, //159
871	INSTRUCTION_LV_CMP_GE_H, //160
872	INSTRUCTION_LV_CMP_GT_B, //161
873	INSTRUCTION_LV_CMP_GT_H, //162
874	INSTRUCTION_LV_CMP_LE_B, //163
875	INSTRUCTION_LV_CMP_LE_H, //164
876	INSTRUCTION_LV_CMP_LT_B, //165
877	INSTRUCTION_LV_CMP_LT_H, //166
878	INSTRUCTION_LV_CMP_NE_B, //167
879	INSTRUCTION_LV_CMP_NE_H, //168
880	INSTRUCTION_LV_CUST1, //169
881	INSTRUCTION_LV_CUST2, //170
882	INSTRUCTION_LV_CUST3, //171
883	INSTRUCTION_LV_CUST4, //172
884	INSTRUCTION_LV_MADDS_H, //173
885	INSTRUCTION_LV_MAX_B, //174
886	INSTRUCTION_LV_MAX_H, //175
887	INSTRUCTION_LV_MERGE_B, //176
888	INSTRUCTION_LV_MERGE_H, //177
889	INSTRUCTION_LV_MIN_B, //178
890	INSTRUCTION_LV_MIN_H, //179
891	INSTRUCTION_LV_MSUBS_H, //180
892	INSTRUCTION_LV_MULS_H, //181
893	INSTRUCTION_LV_NAND, //182
894	INSTRUCTION_LV_NOR, //183
895	INSTRUCTION_LV_OR, //184
896	INSTRUCTION_LV_PACK_B, //185
897	INSTRUCTION_LV_PACK_H, //186
898	INSTRUCTION_LV_PACKS_B, //187
899	INSTRUCTION_LV_PACKS_H, //188
900	INSTRUCTION_LV_PACKUS_B, //189
901	INSTRUCTION_LV_PACKUS_H, //290
902	INSTRUCTION_LV_PERM_N, //291
903	INSTRUCTION_LV_RL_B, //292
904	INSTRUCTION_LV_RL_H, //293
905	INSTRUCTION_LV_SLL, //294
906	INSTRUCTION_LV_SLL_B, //295
907	INSTRUCTION_LV_SLL_H, //296
908	INSTRUCTION_LV_SRA_B, //297
909	INSTRUCTION_LV_SRA_H, //298
910	INSTRUCTION_LV_SRL, //299
911	INSTRUCTION_LV_SRL_B, //200
912	INSTRUCTION_LV_SRL_H, //201
913	INSTRUCTION_LV_SUB_B, //202
914	INSTRUCTION_LV_SUB_H, //203
915	INSTRUCTION_LV_SUBS_B, //204
916	INSTRUCTION_LV_SUBS_H, //205
917	INSTRUCTION_LV_SUBU_B, //206
918	INSTRUCTION_LV_SUBU_H, //207
919	INSTRUCTION_LV_SUBUS_B, //208
920	INSTRUCTION_LV_SUBUS_H, //209
921	INSTRUCTION_LV_UNPACK_B, //210
922	INSTRUCTION_LV_UNPACK_H, //211
923	INSTRUCTION_LV_XOR //212
924	};
925
926	//-----------------------------------------------[ Code Operation ]-----
927
928	# define MAX_OPCOD_0 64 // Instructions with immediat
929	# define MAX_OPCOD_1 64 // Instruction ORFPX32/64
930	# define MAX_OPCOD_2 256 // Instruction ORVDX64
931	# define MAX_OPCOD_3 256 // Instructions Register-Register
932	# define MAX_OPCOD_4 32 // Instructions "set flag" with register
933	# define MAX_OPCOD_5 32 // Instructions "set flag" with immediat
934	# define MAX_OPCOD_6 4 // Instruction Shift/Rotate with immediat
935	# define MAX_OPCOD_7 16 // Instructions multiply with HI-LO
936	# define MAX_OPCOD_8 2 // Instructions acces at HI-LO
937	# define MAX_OPCOD_9 8 // Instructions special
938	# define MAX_OPCOD_10 4 // Instructions no operation
939	# define MAX_OPCOD_11 4 // Instruction Shift/Rotate with register
940	# define MAX_OPCOD_12 4 // Instructions extend
941	# define MAX_OPCOD_13 4 // Instructions extend (64b)
942
943	// OPCOD_0 - [31:26] Instructions with immediat
944	# define OPCOD_L_J 0x00 // 000_000
945	# define OPCOD_L_JAL 0x01 // 000_001
946	# define OPCOD_L_BNF 0x03 // 000_011
947	# define OPCOD_L_BF 0x04 // 000_100
948	# define OPCOD_L_RFE 0x09 // 001_001
949	# define OPCOD_L_JR 0x11 // 010_001
950	# define OPCOD_L_JALR 0x12 // 010_010
951	# define OPCOD_L_MACI 0x13 // 010_011
952	# define OPCOD_L_CUST1 0x1c // 011_100
953	# define OPCOD_L_CUST2 0x1d // 011_101
954	# define OPCOD_L_CUST3 0x1e // 011_110
955	# define OPCOD_L_CUST4 0x1f // 011_111
956	# define OPCOD_L_CUST5 0x3c // 111_100
957	# define OPCOD_L_CUST6 0x3d // 111_101
958	# define OPCOD_L_CUST7 0x3e // 111_110
959	# define OPCOD_L_CUST8 0x3f // 111_111
960	# define OPCOD_L_LD 0x20 // 100_000
961	# define OPCOD_L_LWZ 0x21 // 100_001
962	# define OPCOD_L_LWS 0x22 // 100_010
963	# define OPCOD_L_LBZ 0x23 // 100_011
964	# define OPCOD_L_LBS 0x24 // 100_100
965	# define OPCOD_L_LHZ 0x25 // 100_101
966	# define OPCOD_L_LHS 0x26 // 100_110
967	# define OPCOD_L_ADDI 0x27 // 100_111
968	# define OPCOD_L_ADDIC 0x28 // 101_000
969	# define OPCOD_L_ANDI 0x29 // 101_001
970	# define OPCOD_L_ORI 0x2a // 101_010
971	# define OPCOD_L_XORI 0x2b // 101_011
972	# define OPCOD_L_MULI 0x2c // 101_100
973	# define OPCOD_L_MFSPR 0x2d // 101_101
974	# define OPCOD_L_MTSPR 0x30 // 110_000
975	# define OPCOD_L_SD 0x34 // 110_100
976	# define OPCOD_L_SW 0x35 // 110_101
977	# define OPCOD_L_SB 0x36 // 110_110
978	# define OPCOD_L_SH 0x37 // 110_111
979
980	# define OPCOD_1 0x33 // 110_011 // Instruction ORFPX32/64
981	# define OPCOD_2 0x0a // 001_010 // Instruction ORVDX64
982	# define OPCOD_3 0x38 // 111_000 // Instructions Register-Register
983	# define OPCOD_4 0x39 // 111_001 // Instructions "set flag" with register
984	# define OPCOD_5 0x2f // 101_111 // Instructions "set flag" with immediat
985	# define OPCOD_6 0x2e // 101_110 // Instruction Shift/Rotate with immediat
986	# define OPCOD_7 0x31 // 110_001 // Instructions multiply with HI-LO
987	# define OPCOD_8 0x06 // 000_110 // Instructions acces at HI-LO
988	# define OPCOD_9 0x08 // 001_000 // Instructions special
989	# define OPCOD_10 0x05 // 000_101 // Instructions no operation
990
991	// OPCOD_3 instructions - [9:8] [3:0] Instructions Register-Register
992	# define OPCOD_L_ADD 0x00 // 00_0000
993	# define OPCOD_L_ADDC 0x01 // 00_0001
994	# define OPCOD_L_SUB 0x02 // 00_0010
995	# define OPCOD_L_AND 0x03 // 00_0011
996	# define OPCOD_L_OR 0x04 // 00_0100
997	# define OPCOD_L_XOR 0x05 // 00_0101
998	# define OPCOD_L_CMOV 0x0e // 00_1110
999	# define OPCOD_L_FF1 0x0f // 00_1111
1000	# define OPCOD_L_FL1 0x1f // 01_1111
1001	# define OPCOD_L_MUL 0x36 // 11_0110
1002	# define OPCOD_L_DIV 0x39 // 11_1001
1003	# define OPCOD_L_DIVU 0x3a // 11_1010
1004	# define OPCOD_L_MULU 0x3b // 11_1011
1005
1006	# define OPCOD_11 0x8 // 1000 // Instruction Shift/Rotate with register
1007	# define OPCOD_12 0xc // 1100 // Instructions extend
1008	# define OPCOD_13 0xd // 1101 // Instructions extend (64b)
1009
1010	// OPCOD_4 instructions - [25:21] Instructions "set flag" with register
1011	# define OPCOD_L_SFEQ 0x00 // 00000
1012	# define OPCOD_L_SFNE 0x01 // 00001
1013	# define OPCOD_L_SFGTU 0x02 // 00010
1014	# define OPCOD_L_SFGEU 0x03 // 00011
1015	# define OPCOD_L_SFLTU 0x04 // 00100
1016	# define OPCOD_L_SFLEU 0x05 // 00101
1017	# define OPCOD_L_SFGTS 0x0a // 01010
1018	# define OPCOD_L_SFGES 0x0b // 01011
1019	# define OPCOD_L_SFLTS 0x0c // 01100
1020	# define OPCOD_L_SFLES 0x0d // 01101
1021
1022	// OPCOD_5 instructions - [25:21] Instructions "set flag" with immediat
1023	# define OPCOD_L_SFEQI 0x00 // 00000
1024	# define OPCOD_L_SFNEI 0x01 // 00001
1025	# define OPCOD_L_SFGTUI 0x02 // 00010
1026	# define OPCOD_L_SFGEUI 0x03 // 00011
1027	# define OPCOD_L_SFLTUI 0x04 // 00100
1028	# define OPCOD_L_SFLEUI 0x05 // 00101
1029	# define OPCOD_L_SFGTSI 0x0a // 01010
1030	# define OPCOD_L_SFGESI 0x0b // 01011
1031	# define OPCOD_L_SFLTSI 0x0c // 01100
1032	# define OPCOD_L_SFLESI 0x0d // 01101
1033
1034	// OPCOD_6 instructions - [7:6] Instruction Shift/Rotate with immediat
1035	# define OPCOD_L_SLLI 0x0 // 00
1036	# define OPCOD_L_SRLI 0x1 // 01
1037	# define OPCOD_L_SRAI 0x2 // 10
1038	# define OPCOD_L_RORI 0x3 // 11
1039
1040	// OPCOD_7 instructions - [3:0] Instructions multiply with HI-LO
1041	# define OPCOD_L_MAC 0x1 // 0001
1042	# define OPCOD_L_MSB 0x2 // 0010
1043
1044	// OPCOD_8 instructions - [17] Instructions acces at HI-LO
1045	# define OPCOD_L_MOVHI 0x0 // 0
1046	# define OPCOD_L_MACRC 0x1 // 1
1047
1048	// OPCOD_9 instructions - [25:23] Instruction special
1049	# define OPCOD_L_SYS 0x0 // 000
1050	# define OPCOD_L_TRAP 0x2 // 010
1051	# define OPCOD_L_MSYNC 0x4 // 100
1052	# define OPCOD_L_PSYNC 0x5 // 101
1053	# define OPCOD_L_CSYNC 0x6 // 110
1054
1055	// OPCOD_10 instructions - [25:24] Instruction no operation
1056	# define OPCOD_L_NOP 0x1 // 01
1057
1058	// OPCOD_11 instructions - [7:6] Instruction Shift/Rotate with register
1059	# define OPCOD_L_SLL 0x0 // 00
1060	# define OPCOD_L_SRL 0x1 // 01
1061	# define OPCOD_L_SRA 0x2 // 10
1062	# define OPCOD_L_ROR 0x3 // 11
1063
1064	// OPCOD_12 instructions - [9:6] Instructions extend
1065	# define OPCOD_L_EXTHS 0x0 // 0000
1066	# define OPCOD_L_EXTHZ 0x2 // 0010
1067	# define OPCOD_L_EXTBS 0x1 // 0001
1068	# define OPCOD_L_EXTBZ 0x3 // 0011
1069
1070	// OPCOD_13 instructions - [9:6] Instructions extend (64b)
1071	# define OPCOD_L_EXTWS 0x0 // 0000
1072	# define OPCOD_L_EXTWZ 0x1 // 0001
1073
1074	}; // end namespace behavioural
1075
1076	template<> inline std::string toString<morpheo::behavioural::type_t>(const morpheo::behavioural::type_t& x)
1077	{
1078	switch (x)
1079	{
1080	case morpheo::behavioural::TYPE_ALU : return "ALU" ;
1081	case morpheo::behavioural::TYPE_SHIFT : return "SHIFT" ;
1082	case morpheo::behavioural::TYPE_MOVE : return "MOVE" ;
1083	case morpheo::behavioural::TYPE_TEST : return "TEST" ;
1084	case morpheo::behavioural::TYPE_MUL : return "MUL" ;
1085	case morpheo::behavioural::TYPE_DIV : return "DIV" ;
1086	case morpheo::behavioural::TYPE_EXTEND : return "EXTEND" ;
1087	case morpheo::behavioural::TYPE_FIND : return "FIND" ;
1088	case morpheo::behavioural::TYPE_SPECIAL : return "SPECIAL" ;
1089	case morpheo::behavioural::TYPE_CUSTOM : return "CUSTOM" ;
1090	case morpheo::behavioural::TYPE_BRANCH : return "BRANCH" ;
1091	case morpheo::behavioural::TYPE_MEMORY : return "MEMORY" ;
1092	default : return "";
1093	}
1094	};
1095
1096	template<> inline std::string toString<morpheo::behavioural::branch_condition_t>(const morpheo::behavioural::branch_condition_t& x)
1097	{
1098	switch (x)
1099	{
1100	case morpheo::behavioural::BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK : return "none_without_write_stack" ;
1101	case morpheo::behavioural::BRANCH_CONDITION_NONE_WITH_WRITE_STACK : return "none_with_write_stack" ;
1102	case morpheo::behavioural::BRANCH_CONDITION_FLAG_UNSET : return "flag_unset" ;
1103	case morpheo::behavioural::BRANCH_CONDITION_FLAG_SET : return "flag_set" ;
1104	case morpheo::behavioural::BRANCH_CONDITION_READ_REGISTER_WITHOUT_WRITE_STACK : return "read_register_without_write_stack";
1105	case morpheo::behavioural::BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK : return "read_register_with_write_stack" ;
1106	case morpheo::behavioural::BRANCH_CONDITION_READ_STACK : return "read_stack" ;
1107	default : return "";
1108	}
1109	};
1110
1111	// template<> inline std::string toString<morpheo::behavioural::event_state_t>(const morpheo::behavioural::event_state_t& x)
1112	// {
1113	// switch (x)
1114	// {
1115	// case morpheo::behavioural::EVENT_STATE_NO_EVENT : return "EVENT_STATE_NO_EVENT";
1116	// case morpheo::behavioural::EVENT_STATE_EVENT : return "EVENT_STATE_EVENT" ;
1117	// case morpheo::behavioural::EVENT_STATE_WAITEND : return "EVENT_STATE_WAITEND" ;
1118	// case morpheo::behavioural::EVENT_STATE_END : return "EVENT_STATE_END" ;
1119	// default : return "";
1120	// }
1121	// };
1122
1123	// template<> inline std::string toString<morpheo::behavioural::event_type_t>(const morpheo::behavioural::event_type_t& x)
1124	// {
1125	// switch (x)
1126	// {
1127	// case morpheo::behavioural::EVENT_TYPE_NONE : return "EVENT_TYPE_NONE" ;
1128	// case morpheo::behavioural::EVENT_TYPE_MISS_SPECULATION : return "EVENT_TYPE_MISS_SPECULATION" ;
1129	// case morpheo::behavioural::EVENT_TYPE_EXCEPTION : return "EVENT_TYPE_EXCEPTION" ;
1130	// case morpheo::behavioural::EVENT_TYPE_BRANCH_NO_ACCURATE : return "EVENT_TYPE_BRANCH_NO_ACCURATE";
1131	// case morpheo::behavioural::EVENT_TYPE_SPR_ACCESS : return "EVENT_TYPE_SPR_ACCESS" ;
1132	// case morpheo::behavioural::EVENT_TYPE_MSYNC : return "EVENT_TYPE_MSYNC" ;
1133	// case morpheo::behavioural::EVENT_TYPE_PSYNC : return "EVENT_TYPE_PSYNC" ;
1134	// case morpheo::behavioural::EVENT_TYPE_CSYNC : return "EVENT_TYPE_CSYNC" ;
1135	// default : return "";
1136	// }
1137	// };
1138
1139	}; // end namespace morpheo
1140
1141	#endif

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