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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [SuperH_SH7216_Renesas/] [RTOSDemo/] [intprg.c] - Blame information for rev 825

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Line No. Rev Author Line
1 585 jeremybenn 
/***********************************************************************/
2 
/*                                                                     */
3 
/*  FILE        :intprg.c                                              */
4 
/*  DATE        :Sun, Dec 27, 2009                                     */
5 
/*  DESCRIPTION :Interrupt Program                                     */
6 
/*  CPU TYPE    :Other                                                 */
7 
/*                                                                     */
8 
/*  This file is generated by Renesas Project Generator (Ver.4.16).    */
9 
/*                                                                     */
10 
/***********************************************************************/
11 
 
12 
 
13 
 
14 
#include <machine.h>
15 
#include "vect.h"
16 
#pragma section IntPRG
17 
 
18 
// 4 Illegal code
19 
void INT_Illegal_code(void){for( ;; ); /* sleep(); */}
20 
 
21 
// 5 Reserved
22 
 
23 
// 6 Illegal slot
24 
void INT_Illegal_slot(void){for( ;; ); /* sleep(); */}
25 
// 7 Reserved
26 
 
27 
// 8 Reserved
28 
 
29 
// 9 CPU Address error
30 
void INT_CPU_Address(void){for( ;; ); /* sleep(); */}
31 
// 10 DMAC Address error
32 
void INT_DMAC_Address(void){for( ;; ); /* sleep(); */}
33 
// 11 NMI
34 
void INT_NMI(void){for( ;; ); /* sleep(); */}
35 
// 12 User breakpoint trap
36 
void INT_User_Break(void){for( ;; ); /* sleep(); */}
37 
// 13 Reserved
38 
 
39 
// 14 H-UDI
40 
void INT_HUDI(void){for( ;; ); /* sleep(); */}
41 
// 15 Register bank over
42 
void INT_Bank_Overflow(void){for( ;; ); /* sleep(); */}
43 
// 16 Register bank under
44 
void INT_Bank_Underflow(void){for( ;; ); /* sleep(); */}
45 
// 17 ZERO DIV
46 
void INT_Divide_by_Zero(void){for( ;; ); /* sleep(); */}
47 
// 18 OVER DIV
48 
void INT_Divide_Overflow(void){for( ;; ); /* sleep(); */}
49 
// 19 Reserved
50 
 
51 
// 20 Reserved
52 
 
53 
// 21 Reserved
54 
 
55 
// 22 Reserved
56 
 
57 
// 23 Reserved
58 
 
59 
// 24 Reserved
60 
 
61 
// 25 Reserved
62 
 
63 
// 26 Reserved
64 
 
65 
// 27 Reserved
66 
 
67 
// 28 Reserved
68 
 
69 
// 29 Reserved
70 
 
71 
// 30 Reserved
72 
 
73 
// 31 Reserved
74 
 
75 
// 32 TRAPA (User Vecter)
76 
void INT_TRAPA32(void){ for( ;; ); /* sleep(); */ }
77 
// 33 TRAPA (User Vecter)
78 
void INT_TRAPA33(void){for( ;; ); /* sleep(); */}
79 
// 34 TRAPA (User Vecter)
80 
void INT_TRAPA34(void){for( ;; ); /* sleep(); */}
81 
// 35 TRAPA (User Vecter)
82 
void INT_TRAPA35(void){for( ;; ); /* sleep(); */}
83 
// 36 TRAPA (User Vecter)
84 
void INT_TRAPA36(void){for( ;; ); /* sleep(); */}
85 
// 37 TRAPA (User Vecter)
86 
void INT_TRAPA37(void){for( ;; ); /* sleep(); */}
87 
// 38 TRAPA (User Vecter)
88 
void INT_TRAPA38(void){for( ;; ); /* sleep(); */}
89 
// 39 TRAPA (User Vecter)
90 
void INT_TRAPA39(void){for( ;; ); /* sleep(); */}
91 
// 40 TRAPA (User Vecter)
92 
void INT_TRAPA40(void){for( ;; ); /* sleep(); */}
93 
// 41 TRAPA (User Vecter)
94 
void INT_TRAPA41(void){for( ;; ); /* sleep(); */}
95 
// 42 TRAPA (User Vecter)
96 
void INT_TRAPA42(void){for( ;; ); /* sleep(); */}
97 
// 43 TRAPA (User Vecter)
98 
void INT_TRAPA43(void){for( ;; ); /* sleep(); */}
99 
// 44 TRAPA (User Vecter)
100 
void INT_TRAPA44(void){for( ;; ); /* sleep(); */}
101 
// 45 TRAPA (User Vecter)
102 
void INT_TRAPA45(void){for( ;; ); /* sleep(); */}
103 
// 46 TRAPA (User Vecter)
104 
void INT_TRAPA46(void){for( ;; ); /* sleep(); */}
105 
// 47 TRAPA (User Vecter)
106 
void INT_TRAPA47(void){for( ;; ); /* sleep(); */}
107 
// 48 TRAPA (User Vecter)
108 
void INT_TRAPA48(void){for( ;; ); /* sleep(); */}
109 
// 49 TRAPA (User Vecter)
110 
void INT_TRAPA49(void){for( ;; ); /* sleep(); */}
111 
// 50 TRAPA (User Vecter)
112 
void INT_TRAPA50(void){for( ;; ); /* sleep(); */}
113 
// 51 TRAPA (User Vecter)
114 
void INT_TRAPA51(void){for( ;; ); /* sleep(); */}
115 
// 52 TRAPA (User Vecter)
116 
void INT_TRAPA52(void){for( ;; ); /* sleep(); */}
117 
// 53 TRAPA (User Vecter)
118 
void INT_TRAPA53(void){for( ;; ); /* sleep(); */}
119 
// 54 TRAPA (User Vecter)
120 
void INT_TRAPA54(void){for( ;; ); /* sleep(); */}
121 
// 55 TRAPA (User Vecter)
122 
void INT_TRAPA55(void){for( ;; ); /* sleep(); */}
123 
// 56 TRAPA (User Vecter)
124 
void INT_TRAPA56(void){for( ;; ); /* sleep(); */}
125 
// 57 TRAPA (User Vecter)
126 
void INT_TRAPA57(void){for( ;; ); /* sleep(); */}
127 
// 58 TRAPA (User Vecter)
128 
void INT_TRAPA58(void){for( ;; ); /* sleep(); */}
129 
// 59 TRAPA (User Vecter)
130 
void INT_TRAPA59(void){for( ;; ); /* sleep(); */}
131 
// 60 TRAPA (User Vecter)
132 
void INT_TRAPA60(void){for( ;; ); /* sleep(); */}
133 
// 61 TRAPA (User Vecter)
134 
void INT_TRAPA61(void){for( ;; ); /* sleep(); */}
135 
// 62 TRAPA (User Vecter)
136 
void INT_TRAPA62(void){for( ;; ); /* sleep(); */}
137 
// 63 TRAPA (User Vecter)
138 
void INT_TRAPA63(void){for( ;; ); /* sleep(); */}
139 
// 64 Interrupt IRQ0
140 
void INT_IRQ0(void){for( ;; ); /* sleep(); */}
141 
// 65 Interrupt IRQ1
142 
void INT_IRQ1(void){for( ;; ); /* sleep(); */}
143 
// 66 Interrupt IRQ2
144 
void INT_IRQ2(void){for( ;; ); /* sleep(); */}
145 
// 67 Interrupt IRQ3
146 
void INT_IRQ3(void){for( ;; ); /* sleep(); */}
147 
// 68 Interrupt IRQ4
148 
void INT_IRQ4(void){for( ;; ); /* sleep(); */}
149 
// 69 Interrupt IRQ5
150 
void INT_IRQ5(void){for( ;; ); /* sleep(); */}
151 
// 70 Interrupt IRQ6
152 
void INT_IRQ6(void){for( ;; ); /* sleep(); */}
153 
// 71 Interrupt IRQ7
154 
void INT_IRQ7(void){for( ;; ); /* sleep(); */}
155 
// 72 Reserved
156 
 
157 
// 73 Reserved
158 
 
159 
// 74 Reserved
160 
 
161 
// 75 Reserved
162 
 
163 
// 76 Reserved
164 
 
165 
// 77 Reserved
166 
 
167 
// 78 Reserved
168 
 
169 
// 79 Reserved
170 
 
171 
// 80 Interrupt PINT0
172 
void INT_PINT0(void){for( ;; ); /* sleep(); */}
173 
// 81 Interrupt PINT1
174 
void INT_PINT1(void){for( ;; ); /* sleep(); */}
175 
// 82 Interrupt PINT2
176 
void INT_PINT2(void){for( ;; ); /* sleep(); */}
177 
// 83 Interrupt PINT3
178 
void INT_PINT3(void){for( ;; ); /* sleep(); */}
179 
// 84 Interrupt PINT4
180 
void INT_PINT4(void){for( ;; ); /* sleep(); */}
181 
// 85 Interrupt PINT5
182 
void INT_PINT5(void){for( ;; ); /* sleep(); */}
183 
// 86 Interrupt PINT6
184 
void INT_PINT6(void){for( ;; ); /* sleep(); */}
185 
// 87 Interrupt PINT7
186 
void INT_PINT7(void){for( ;; ); /* sleep(); */}
187 
// 88 Reserved
188 
 
189 
// 89 Reserved
190 
 
191 
// 90 Reserved
192 
 
193 
// 91 ROM FIFE
194 
void INT_ROM_FIFE(void){for( ;; ); /* sleep(); */}
195 
// 92 A/D ADI0
196 
void INT_AD_ADI0(void){for( ;; ); /* sleep(); */}
197 
// 93 Reserved
198 
 
199 
// 94 Reserved
200 
 
201 
// 95 Reserved
202 
 
203 
// 96 A/D ADI1
204 
void INT_AD_ADI1(void){for( ;; ); /* sleep(); */}
205 
// 97 Reserved
206 
 
207 
// 98 Reserved
208 
 
209 
// 99 Reserved
210 
 
211 
// 100 Reserved
212 
 
213 
// 101 Reserved
214 
 
215 
// 102 Reserved
216 
 
217 
// 103 Reserved
218 
 
219 
// 104 RCANET0 ERS_0
220 
void INT_RCANET0_ERS_0(void){for( ;; ); /* sleep(); */}
221 
// 105 RCANET0 OVR_0
222 
void INT_RCANET0_OVR_0(void){for( ;; ); /* sleep(); */}
223 
// 106 RCANET0 RM01_0
224 
void INT_RCANET0_RM01_0(void){for( ;; ); /* sleep(); */}
225 
// 107 RCANET0 SLE_0
226 
void INT_RCANET0_SLE_0(void){for( ;; ); /* sleep(); */}
227 
// 108 DMAC0 DEI0
228 
void INT_DMAC0_DEI0(void){for( ;; ); /* sleep(); */}
229 
// 109 DMAC0 HEI0
230 
void INT_DMAC0_HEI0(void){for( ;; ); /* sleep(); */}
231 
// 110 Reserved
232 
 
233 
// 111 Reserved
234 
 
235 
// 112 DMAC1 DEI1
236 
void INT_DMAC1_DEI1(void){for( ;; ); /* sleep(); */}
237 
// 113 DMAC1 HEI1
238 
void INT_DMAC1_HEI1(void){for( ;; ); /* sleep(); */}
239 
// 114 Reserved
240 
 
241 
// 115 Reserved
242 
 
243 
// 116 DMAC2 DEI2
244 
void INT_DMAC2_DEI2(void){for( ;; ); /* sleep(); */}
245 
// 117 DMAC2 HEI2
246 
void INT_DMAC2_HEI2(void){for( ;; ); /* sleep(); */}
247 
// 118 Reserved
248 
 
249 
// 119 Reserved
250 
 
251 
// 120 DMAC3 DEI3
252 
void INT_DMAC3_DEI3(void){for( ;; ); /* sleep(); */}
253 
// 121 DMAC3 HEI3
254 
void INT_DMAC3_HEI3(void){for( ;; ); /* sleep(); */}
255 
// 122 Reserved
256 
 
257 
// 123 Reserved
258 
 
259 
// 124 DMAC4 DEI4
260 
void INT_DMAC4_DEI4(void){for( ;; ); /* sleep(); */}
261 
// 125 DMAC4 HEI4
262 
void INT_DMAC4_HEI4(void){for( ;; ); /* sleep(); */}
263 
// 126 Reserved
264 
 
265 
// 127 Reserved
266 
 
267 
// 128 DMAC5 DEI5
268 
void INT_DMAC5_DEI5(void){for( ;; ); /* sleep(); */}
269 
// 129 DMAC5 HEI5
270 
void INT_DMAC5_HEI5(void){for( ;; ); /* sleep(); */}
271 
// 130 Reserved
272 
 
273 
// 131 Reserved
274 
 
275 
// 132 DMAC6 DEI6
276 
void INT_DMAC6_DEI6(void){for( ;; ); /* sleep(); */}
277 
// 133 DMAC6 HEI6
278 
void INT_DMAC6_HEI6(void){for( ;; ); /* sleep(); */}
279 
// 134 Reserved
280 
 
281 
// 135 Reserved
282 
 
283 
// 136 DMAC7 DEI7
284 
void INT_DMAC7_DEI7(void){for( ;; ); /* sleep(); */}
285 
// 137 DMAC7 HEI7
286 
void INT_DMAC7_HEI7(void){for( ;; ); /* sleep(); */}
287 
// 138 Reserved
288 
 
289 
// 139 Reserved
290 
 
291 
// 140 CMT CMI0
292 
//void INT_CMT_CMI0(void){for( ;; ); /* sleep(); */}
293 
// 141 Reserved
294 
 
295 
// 142 Reserved
296 
 
297 
// 143 Reserved
298 
 
299 
// 144 CMT CMI1
300 
void INT_CMT_CMI1(void){for( ;; ); /* sleep(); */}
301 
// 145 Reserved
302 
 
303 
// 146 Reserved
304 
 
305 
// 147 Reserved
306 
 
307 
// 148 BSC CMTI
308 
void INT_BSC_CMTI(void){for( ;; ); /* sleep(); */}
309 
// 149 Reserved
310 
 
311 
// 150 USB EP4FULL
312 
void INT_USB_EP4FULL(void){for( ;; ); /* sleep(); */}
313 
// 151 USB EP5EMPTY
314 
void INT_USB_EP5EMPTY(void){for( ;; ); /* sleep(); */}
315 
// 152 WDT ITI
316 
void INT_WDT_ITI(void){for( ;; ); /* sleep(); */}
317 
// 153 E-DMAC EINT0
318 
void INT_EDMAC_EINT0(void){for( ;; ); /* sleep(); */}
319 
// 154 USB EP1FULL
320 
void INT_USB_EP1FULL(void){for( ;; ); /* sleep(); */}
321 
// 155 USB EP2EMPTY
322 
void INT_USB_EP2EMPTY(void){for( ;; ); /* sleep(); */}
323 
// 156 MTU2 MTU0 TGI0A
324 
void INT_MTU2_MTU0_TGI0A(void){for( ;; ); /* sleep(); */}
325 
// 157 MTU2 MTU0 TGI0B
326 
void INT_MTU2_MTU0_TGI0B(void){for( ;; ); /* sleep(); */}
327 
// 158 MTU2 MTU0 TGI0C
328 
void INT_MTU2_MTU0_TGI0C(void){for( ;; ); /* sleep(); */}
329 
// 159 MTU2 MTU0 TGI0D
330 
void INT_MTU2_MTU0_TGI0D(void){for( ;; ); /* sleep(); */}
331 
// 160 MTU2 MTU0 TGI0V
332 
void INT_MTU2_MTU0_TGI0V(void){for( ;; ); /* sleep(); */}
333 
// 161 MTU2 MTU0 TGI0E
334 
void INT_MTU2_MTU0_TGI0E(void){for( ;; ); /* sleep(); */}
335 
// 162 MTU2 MTU0 TGI0F
336 
void INT_MTU2_MTU0_TGI0F(void){for( ;; ); /* sleep(); */}
337 
// 163 Reserved
338 
 
339 
// 164 MTU2 MTU1 TGI1A
340 
void INT_MTU2_MTU1_TGI1A(void){for( ;; ); /* sleep(); */}
341 
// 165 MTU2 MTU1 TGI1B
342 
void INT_MTU2_MTU1_TGI1B(void){for( ;; ); /* sleep(); */}
343 
// 166 Reserved
344 
 
345 
// 167 Reserved
346 
 
347 
// 168 MTU2 MTU1 TGI1V
348 
void INT_MTU2_MTU1_TGI1V(void){for( ;; ); /* sleep(); */}
349 
// 169 MTU2 MTU1 TGI1U
350 
void INT_MTU2_MTU1_TGI1U(void){for( ;; ); /* sleep(); */}
351 
// 170 Reserved
352 
 
353 
// 171 Reserved
354 
 
355 
// 172 MTU2 MTU2 TGI2A
356 
void INT_MTU2_MTU2_TGI2A(void){for( ;; ); /* sleep(); */}
357 
// 173 MTU2 MTU2 TGI2B
358 
void INT_MTU2_MTU2_TGI2B(void){for( ;; ); /* sleep(); */}
359 
// 174 Reserved
360 
 
361 
// 175 Reserved
362 
 
363 
// 176 MTU2 MTU2 TGI2V
364 
void INT_MTU2_MTU2_TGI2V(void){for( ;; ); /* sleep(); */}
365 
// 177 MTU2 MTU2 TGI2U
366 
void INT_MTU2_MTU2_TGI2U(void){for( ;; ); /* sleep(); */}
367 
// 178 Reserved
368 
 
369 
// 179 Reserved
370 
 
371 
// 180 MTU2 MTU3 TGI3A
372 
void INT_MTU2_MTU3_TGI3A(void){for( ;; ); /* sleep(); */}
373 
// 181 MTU2 MTU3 TGI3B
374 
void INT_MTU2_MTU3_TGI3B(void){for( ;; ); /* sleep(); */}
375 
// 182 MTU2 MTU3 TGI3C
376 
void INT_MTU2_MTU3_TGI3C(void){for( ;; ); /* sleep(); */}
377 
// 183 MTU2 MTU3 TGI3D
378 
void INT_MTU2_MTU3_TGI3D(void){for( ;; ); /* sleep(); */}
379 
// 184 MTU2 MTU3 TGI3V
380 
void INT_MTU2_MTU3_TGI3V(void){for( ;; ); /* sleep(); */}
381 
// 185 Reserved
382 
 
383 
// 186 Reserved
384 
 
385 
// 187 Reserved
386 
 
387 
// 188 MTU2 MTU4 TGI4A
388 
void INT_MTU2_MTU4_TGI4A(void){for( ;; ); /* sleep(); */}
389 
// 189 MTU2 MTU4 TGI4B
390 
void INT_MTU2_MTU4_TGI4B(void){for( ;; ); /* sleep(); */}
391 
// 190 MTU2 MTU4 TGI4C
392 
void INT_MTU2_MTU4_TGI4C(void){for( ;; ); /* sleep(); */}
393 
// 191 MTU2 MTU4 TGI4D
394 
void INT_MTU2_MTU4_TGI4D(void){for( ;; ); /* sleep(); */}
395 
// 192 MTU2 MTU4 TGI4V
396 
void INT_MTU2_MTU4_TGI4V(void){for( ;; ); /* sleep(); */}
397 
// 193 Reserved
398 
 
399 
// 194 Reserved
400 
 
401 
// 195 Reserved
402 
 
403 
// 196 MTU2 MTU5 TGI5U
404 
void INT_MTU2_MTU5_TGI5U(void){for( ;; ); /* sleep(); */}
405 
// 197 MTU2 MTU5 TGI5V
406 
void INT_MTU2_MTU5_TGI5V(void){for( ;; ); /* sleep(); */}
407 
// 198 MTU2 MTU5 TGI5W
408 
void INT_MTU2_MTU5_TGI5W(void){for( ;; ); /* sleep(); */}
409 
// 199 Reserved
410 
 
411 
// 200 POE2 OEI1
412 
void INT_POE2_OEI1(void){for( ;; ); /* sleep(); */}
413 
// 201 POE2 OEI2
414 
void INT_POE2_OEI2(void){for( ;; ); /* sleep(); */}
415 
// 202 Reserved
416 
 
417 
// 203 Reserved
418 
 
419 
// 204 MTU2S MTU3S TGI3A
420 
void INT_MTU2S_MTU3S_TGI3A(void){for( ;; ); /* sleep(); */}
421 
// 205 MTU2S MTU3S TGI3B
422 
void INT_MTU2S_MTU3S_TGI3B(void){for( ;; ); /* sleep(); */}
423 
// 206 MTU2S MTU3S TGI3C
424 
void INT_MTU2S_MTU3S_TGI3C(void){for( ;; ); /* sleep(); */}
425 
// 207 MTU2S MTU3S TGI3D
426 
void INT_MTU2S_MTU3S_TGI3D(void){for( ;; ); /* sleep(); */}
427 
// 208 MTU2S MTU3S TGI3V
428 
void INT_MTU2S_MTU3S_TGI3V(void){for( ;; ); /* sleep(); */}
429 
// 209 Reserved
430 
 
431 
// 210 Reserved
432 
 
433 
// 211 Reserved
434 
 
435 
// 212 MTU2S MTU4S TGI4A
436 
void INT_MTU2S_MTU4S_TGI4A(void){for( ;; ); /* sleep(); */}
437 
// 213 MTU2S MTU4S TGI4B
438 
void INT_MTU2S_MTU4S_TGI4B(void){for( ;; ); /* sleep(); */}
439 
// 214 MTU2S MTU4S TGI4C
440 
void INT_MTU2S_MTU4S_TGI4C(void){for( ;; ); /* sleep(); */}
441 
// 215 MTU2S MTU4S TGI4D
442 
void INT_MTU2S_MTU4S_TGI4D(void){for( ;; ); /* sleep(); */}
443 
// 216 MTU2S MTU4S TGI4V
444 
void INT_MTU2S_MTU4S_TGI4V(void){for( ;; ); /* sleep(); */}
445 
// 217 Reserved
446 
 
447 
// 218 Reserved
448 
 
449 
// 219 Reserved
450 
 
451 
// 220 MTU2S MTU5S TGI5U
452 
void INT_MTU2S_MTU5S_TGI5U(void){for( ;; ); /* sleep(); */}
453 
// 221 MTU2S MTU5S TGI5V
454 
void INT_MTU2S_MTU5S_TGI5V(void){for( ;; ); /* sleep(); */}
455 
// 222 MTU2S MTU5S TGI5W
456 
void INT_MTU2S_MTU5S_TGI5W(void){for( ;; ); /* sleep(); */}
457 
// 223 Reserved
458 
 
459 
// 224 POE2 OEI3
460 
void INT_POE2_OEI3(void){for( ;; ); /* sleep(); */}
461 
// 225 Reserved
462 
 
463 
// 226 USB USI0
464 
void INT_USB_USI0(void){for( ;; ); /* sleep(); */}
465 
// 227 USB USI1
466 
void INT_USB_USI1(void){for( ;; ); /* sleep(); */}
467 
// 228 IIC3 STPI
468 
void INT_IIC3_STPI(void){for( ;; ); /* sleep(); */}
469 
// 229 IIC3 NAKI
470 
void INT_IIC3_NAKI(void){for( ;; ); /* sleep(); */}
471 
// 230 IIC3 RXI
472 
void INT_IIC3_RXI(void){for( ;; ); /* sleep(); */}
473 
// 231 IIC3 TXI
474 
void INT_IIC3_TXI(void){for( ;; ); /* sleep(); */}
475 
// 232 IIC3 TEI
476 
void INT_IIC3_TEI(void){for( ;; ); /* sleep(); */}
477 
// 233 RSPI SPERI
478 
void INT_RSPI_SPERI(void){for( ;; ); /* sleep(); */}
479 
// 234 RSPI SPRXI
480 
void INT_RSPI_SPRXI(void){for( ;; ); /* sleep(); */}
481 
// 235 RSPI SPTXI
482 
void INT_RSPI_SPTXI(void){for( ;; ); /* sleep(); */}
483 
// 236 SCI SCI4 ERI4
484 
void INT_SCI_SCI4_ERI4(void){for( ;; ); /* sleep(); */}
485 
// 237 SCI SCI4 RXI4
486 
void INT_SCI_SCI4_RXI4(void){for( ;; ); /* sleep(); */}
487 
// 238 SCI SCI4 TXI4
488 
void INT_SCI_SCI4_TXI4(void){for( ;; ); /* sleep(); */}
489 
// 239 SCI SCI4 TEI4
490 
void INT_SCI_SCI4_TEI4(void){for( ;; ); /* sleep(); */}
491 
// 240 SCI SCI0 ERI0
492 
void INT_SCI_SCI0_ERI0(void){for( ;; ); /* sleep(); */}
493 
// 241 SCI SCI0 RXI0
494 
void INT_SCI_SCI0_RXI0(void){for( ;; ); /* sleep(); */}
495 
// 242 SCI SCI0 TXI0
496 
void INT_SCI_SCI0_TXI0(void){for( ;; ); /* sleep(); */}
497 
// 243 SCI SCI0 TEI0
498 
void INT_SCI_SCI0_TEI0(void){for( ;; ); /* sleep(); */}
499 
// 244 SCI SCI1 ERI1
500 
void INT_SCI_SCI1_ERI1(void){for( ;; ); /* sleep(); */}
501 
// 245 SCI SCI1 RXI1
502 
void INT_SCI_SCI1_RXI1(void){for( ;; ); /* sleep(); */}
503 
// 246 SCI SCI1 TXI1
504 
void INT_SCI_SCI1_TXI1(void){for( ;; ); /* sleep(); */}
505 
// 247 SCI SCI1 TEI1
506 
void INT_SCI_SCI1_TEI1(void){for( ;; ); /* sleep(); */}
507 
// 248 SCI SCI2 ERI2
508 
void INT_SCI_SCI2_ERI2(void){for( ;; ); /* sleep(); */}
509 
// 249 SCI SCI2 RXI2
510 
void INT_SCI_SCI2_RXI2(void){for( ;; ); /* sleep(); */}
511 
// 250 SCI SCI2 TXI2
512 
void INT_SCI_SCI2_TXI2(void){for( ;; ); /* sleep(); */}
513 
// 251 SCI SCI2 TEI2
514 
void INT_SCI_SCI2_TEI2(void){for( ;; ); /* sleep(); */}
515 
// 252 SCIF SCIF3 BRI3
516 
void INT_SCIF_SCIF3_BRI3(void){for( ;; ); /* sleep(); */}
517 
// 253 SCIF SCIF3 ERI3
518 
void INT_SCIF_SCIF3_ERI3(void){for( ;; ); /* sleep(); */}
519 
// 254 SCIF SCIF3 RXI3
520 
void INT_SCIF_SCIF3_RXI3(void){for( ;; ); /* sleep(); */}
521 
// 255 SCIF SCIF3 TXI3
522 
void INT_SCIF_SCIF3_TXI3(void){for( ;; ); /* sleep(); */}
523 
// Dummy
524 
void Dummy(void){ for( ;; ); sleep(); }
525 
 
526 
/* End of File */

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