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power.h
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1 /* Copyright (c) 2006, 2007, 2008 Eric B. Weddington
2  Copyright (c) 2011 Frédéric Nadeau
3  All rights reserved.
4 
5  Redistribution and use in source and binary forms, with or without
6  modification, are permitted provided that the following conditions are met:
7 
8  * Redistributions of source code must retain the above copyright
9  notice, this list of conditions and the following disclaimer.
10  * Redistributions in binary form must reproduce the above copyright
11  notice, this list of conditions and the following disclaimer in
12  the documentation and/or other materials provided with the
13  distribution.
14  * Neither the name of the copyright holders nor the names of
15  contributors may be used to endorse or promote products derived
16  from this software without specific prior written permission.
17 
18  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
19  AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
20  IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
21  ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
22  LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
23  CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
24  SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
25  INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
26  CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
27  ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
28  POSSIBILITY OF SUCH DAMAGE. */
29 
30 /* $Id: power_8h_source.html,v 1.1.1.7 2022/01/29 09:22:01 joerg_wunsch Exp $ */
31 
32 #ifndef _AVR_POWER_H_
33 #define _AVR_POWER_H_ 1
34 
35 #include <avr/io.h>
36 #include <stdint.h>
37 
38 
39 /** \file */
40 /** \defgroup avr_power <avr/power.h>: Power Reduction Management
41 
42 \code #include <avr/power.h>\endcode
43 
44 Many AVRs contain a Power Reduction Register (PRR) or Registers (PRRx) that
45 allow you to reduce power consumption by disabling or enabling various on-board
46 peripherals as needed. Some devices have the XTAL Divide Control Register
47 (XDIV) which offer similar functionality as System Clock Prescale
48 Register (CLKPR).
49 
50 There are many macros in this header file that provide an easy interface
51 to enable or disable on-board peripherals to reduce power. See the table below.
52 
53 \note Not all AVR devices have a Power Reduction Register (for example
54 the ATmega8). On those devices without a Power Reduction Register, the
55 power reduction macros are not available..
56 
57 \note Not all AVR devices contain the same peripherals (for example, the LCD
58 interface), or they will be named differently (for example, USART and
59 USART0). Please consult your device's datasheet, or the header file, to
60 find out which macros are applicable to your device.
61 
62 \note For device using the XTAL Divide Control Register (XDIV), when prescaler
63 is used, Timer/Counter0 can only be used in asynchronous mode. Keep in mind
64 that Timer/Counter0 source shall be less than ¼th of peripheral clock.
65 Therefore, when using a typical 32.768 kHz crystal, one shall not scale
66 the clock below 131.072 kHz.
67 
68 */
69 
70 
71 /** \addtogroup avr_power
72 
73 \anchor avr_powermacros
74 <small>
75 <center>
76 <table border="3">
77  <tr>
78  <td width="10%"><strong>Power Macro</strong></td>
79  <td width="15%"><strong>Description</strong></td>
80  </tr>
81 
82  <tr>
83  <td>power_aca_disable()</td>
84  <td>Disable the Analog Comparator on PortA.</td>
85  </tr>
86 
87  <tr>
88  <td>power_aca_enable()</td>
89  <td>Enable the Analog Comparator on PortA.</td>
90  </tr>
91 
92  <tr>
93  <td>power_adc_enable()</td>
94  <td>Enable the Analog to Digital Converter module.</td>
95  </tr>
96 
97  <tr>
98  <td>power_adc_disable()</td>
99  <td>Disable the Analog to Digital Converter module.</td>
100  </tr>
101 
102  <tr>
103  <td>power_adca_disable()</td>
104  <td>Disable the Analog to Digital Converter module on PortA</td>
105  </tr>
106 
107  <tr>
108  <td>power_adca_enable()</td>
109  <td>Enable the Analog to Digital Converter module on PortA</td>
110  </tr>
111 
112  <tr>
113  <td>power_evsys_disable()</td>
114  <td>Disable the EVSYS module</td>
115  </tr>
116 
117  <tr>
118  <td>power_evsys_enable()</td>
119  <td>Enable the EVSYS module</td>
120  </tr>
121 
122  <tr>
123  <td>power_hiresc_disable()</td>
124  <td>Disable the HIRES module on PortC</td>
125  </tr>
126 
127  <tr>
128  <td>power_hiresc_enable()</td>
129  <td>Enable the HIRES module on PortC</td>
130  </tr>
131 
132  <tr>
133  <td>power_lcd_enable()</td>
134  <td>Enable the LCD module.</td>
135  </tr>
136 
137  <tr>
138  <td>power_lcd_disable().</td>
139  <td>Disable the LCD module.</td>
140  </tr>
141 
142  <tr>
143  <td>power_pga_enable()</td>
144  <td>Enable the Programmable Gain Amplifier module.</td>
145  </tr>
146 
147  <tr>
148  <td>power_pga_disable()</td>
149  <td>Disable the Programmable Gain Amplifier module.</td>
150  </tr>
151 
152  <tr>
153  <td>power_pscr_enable()</td>
154  <td>Enable the Reduced Power Stage Controller module.</td>
155  </tr>
156 
157  <tr>
158  <td>power_pscr_disable()</td>
159  <td>Disable the Reduced Power Stage Controller module.</td>
160  </tr>
161 
162  <tr>
163  <td>power_psc0_enable()</td>
164  <td>Enable the Power Stage Controller 0 module.</td>
165  </tr>
166 
167  <tr>
168  <td>power_psc0_disable()</td>
169  <td>Disable the Power Stage Controller 0 module.</td>
170  </tr>
171 
172  <tr>
173  <td>power_psc1_enable()</td>
174  <td>Enable the Power Stage Controller 1 module.</td>
175  </tr>
176 
177  <tr>
178  <td>power_psc1_disable()</td>
179  <td>Disable the Power Stage Controller 1 module.</td>
180  </tr>
181 
182  <tr>
183  <td>power_psc2_enable()</td>
184  <td>Enable the Power Stage Controller 2 module.</td>
185  </tr>
186 
187  <tr>
188  <td>power_psc2_disable()</td>
189  <td>Disable the Power Stage Controller 2 module.</td>
190  </tr>
191 
192  <tr>
193  <td>power_ram0_enable()</td>
194  <td>Enable the SRAM block 0 .</td>
195  </tr>
196 
197  <tr>
198  <td>power_ram0_disable()</td>
199  <td>Disable the SRAM block 0. </td>
200  </tr>
201 
202  <tr>
203  <td>power_ram1_enable()</td>
204  <td>Enable the SRAM block 1 .</td>
205  </tr>
206 
207  <tr>
208  <td>power_ram1_disable()</td>
209  <td>Disable the SRAM block 1. </td>
210  </tr>
211 
212  <tr>
213  <td>power_ram2_enable()</td>
214  <td>Enable the SRAM block 2 .</td>
215  </tr>
216 
217  <tr>
218  <td>power_ram2_disable()</td>
219  <td>Disable the SRAM block 2. </td>
220  </tr>
221 
222  <tr>
223  <td>power_ram3_enable()</td>
224  <td>Enable the SRAM block 3 .</td>
225  </tr>
226 
227  <tr>
228  <td>power_ram3_disable()</td>
229  <td>Disable the SRAM block 3. </td>
230  </tr>
231 
232  <tr>
233  <td>power_rtc_disable()</td>
234  <td>Disable the RTC module</td>
235  </tr>
236 
237  <tr>
238  <td>power_rtc_enable()</td>
239  <td>Enable the RTC module</td>
240  </tr>
241 
242  <tr>
243  <td>power_spi_enable()</td>
244  <td>Enable the Serial Peripheral Interface module.</td>
245  </tr>
246 
247  <tr>
248  <td>power_spi_disable()</td>
249  <td>Disable the Serial Peripheral Interface module.</td>
250  </tr>
251 
252  <tr>
253  <td>power_spic_disable()</td>
254  <td>Disable the SPI module on PortC</td>
255  </tr>
256 
257  <tr>
258  <td>power_spic_enable()</td>
259  <td>Enable the SPI module on PortC</td>
260  </tr>
261 
262  <tr>
263  <td>power_spid_disable()</td>
264  <td>Disable the SPI module on PortD</td>
265  </tr>
266 
267  <tr>
268  <td>power_spid_enable()</td>
269  <td>Enable the SPI module on PortD</td>
270  </tr>
271 
272  <tr>
273  <td>power_tc0c_disable()</td>
274  <td>Disable the TC0 module on PortC</td>
275  </tr>
276 
277  <tr>
278  <td>power_tc0c_enable()</td>
279  <td>Enable the TC0 module on PortC</td>
280  </tr>
281 
282  <tr>
283  <td>power_tc0d_disable()</td>
284  <td>Disable the TC0 module on PortD</td>
285  </tr>
286 
287  <tr>
288  <td>power_tc0d_enable()</td>
289  <td>Enable the TC0 module on PortD</td>
290  </tr>
291 
292  <tr>
293  <td>power_tc0e_disable()</td>
294  <td>Disable the TC0 module on PortE</td>
295  </tr>
296 
297  <tr>
298  <td>power_tc0e_enable()</td>
299  <td>Enable the TC0 module on PortE</td>
300  </tr>
301 
302  <tr>
303  <td>power_tc0f_disable()</td>
304  <td>Disable the TC0 module on PortF</td>
305  </tr>
306 
307  <tr>
308  <td>power_tc0f_enable()</td>
309  <td>Enable the TC0 module on PortF</td>
310  </tr>
311 
312  <tr>
313  <td>power_tc1c_disable()</td>
314  <td>Disable the TC1 module on PortC</td>
315  </tr>
316 
317  <tr>
318  <td>power_tc1c_enable()</td>
319  <td>Enable the TC1 module on PortC</td>
320  </tr>
321 
322  <tr>
323  <td>power_twic_disable()</td>
324  <td>Disable the Two Wire Interface module on PortC</td>
325  </tr>
326 
327  <tr>
328  <td>power_twic_enable()</td>
329  <td>Enable the Two Wire Interface module on PortC</td>
330  </tr>
331 
332  <tr>
333  <td>power_twie_disable()</td>
334  <td>Disable the Two Wire Interface module on PortE</td>
335  </tr>
336 
337  <tr>
338  <td>power_twie_enable()</td>
339  <td>Enable the Two Wire Interface module on PortE</td>
340  </tr>
341 
342  <tr>
343  <td>power_timer0_enable()</td>
344  <td>Enable the Timer 0 module.</td>
345  </tr>
346 
347  <tr>
348  <td>power_timer0_disable()</td>
349  <td>Disable the Timer 0 module.</td>
350  </tr>
351 
352  <tr>
353  <td>power_timer1_enable()</td>
354  <td>Enable the Timer 1 module.</td>
355  </tr>
356 
357  <tr>
358  <td>power_timer1_disable()</td>
359  <td>Disable the Timer 1 module.</td>
360  </tr>
361 
362  <tr>
363  <td>power_timer2_enable()</td>
364  <td>Enable the Timer 2 module.</td>
365  </tr>
366 
367  <tr>
368  <td>power_timer2_disable()</td>
369  <td>Disable the Timer 2 module.</td>
370  </tr>
371 
372  <tr>
373  <td>power_timer3_enable()</td>
374  <td>Enable the Timer 3 module.</td>
375  </tr>
376 
377  <tr>
378  <td>power_timer3_disable()</td>
379  <td>Disable the Timer 3 module.</td>
380  </tr>
381 
382  <tr>
383  <td>power_timer4_enable()</td>
384  <td>Enable the Timer 4 module.</td>
385  </tr>
386 
387  <tr>
388  <td>power_timer4_disable()</td>
389  <td>Disable the Timer 4 module.</td>
390  </tr>
391 
392  <tr>
393  <td>power_timer5_enable()</td>
394  <td>Enable the Timer 5 module.</td>
395  </tr>
396 
397  <tr>
398  <td>power_timer5_disable()</td>
399  <td>Disable the Timer 5 module.</td>
400  </tr>
401 
402  <tr>
403  <td>power_twi_enable()</td>
404  <td>Enable the Two Wire Interface module.</td>
405  </tr>
406 
407  <tr>
408  <td>power_twi_disable()</td>
409  <td>Disable the Two Wire Interface module.</td>
410  </tr>
411 
412  <tr>
413  <td>power_usart_enable()</td>
414  <td>Enable the USART module.</td>
415  </tr>
416 
417  <tr>
418  <td>power_usart_disable()</td>
419  <td>Disable the USART module.</td>
420  </tr>
421 
422  <tr>
423  <td>power_usart0_enable()</td>
424  <td>Enable the USART 0 module.</td>
425  </tr>
426 
427  <tr>
428  <td>power_usart0_disable()</td>
429  <td>Disable the USART 0 module.</td>
430  </tr>
431 
432  <tr>
433  <td>power_usart1_enable()</td>
434  <td>Enable the USART 1 module.</td>
435  </tr>
436 
437  <tr>
438  <td>power_usart1_disable()</td>
439  <td>Disable the USART 1 module.</td>
440  </tr>
441 
442  <tr>
443  <td>power_usart2_enable()</td>
444  <td>Enable the USART 2 module.</td>
445  </tr>
446 
447  <tr>
448  <td>power_usart2_disable()</td>
449  <td>Disable the USART 2 module.</td>
450  </tr>
451 
452  <tr>
453  <td>power_usart3_enable()</td>
454  <td>Enable the USART 3 module.</td>
455  </tr>
456 
457  <tr>
458  <td>power_usart3_disable()</td>
459  <td>Disable the USART 3 module.</td>
460  </tr>
461 
462  <tr>
463  <td>power_usartc0_disable()</td>
464  <td> Disable the USART0 module on PortC</td>
465  </tr>
466 
467  <tr>
468  <td>power_usartc0_enable()</td>
469  <td> Enable the USART0 module on PortC</td>
470  </tr>
471 
472  <tr>
473  <td>power_usartd0_disable()</td>
474  <td> Disable the USART0 module on PortD</td>
475  </tr>
476 
477  <tr>
478  <td>power_usartd0_enable()</td>
479  <td> Enable the USART0 module on PortD</td>
480  </tr>
481 
482  <tr>
483  <td>power_usarte0_disable()</td>
484  <td> Disable the USART0 module on PortE</td>
485  </tr>
486 
487  <tr>
488  <td>power_usarte0_enable()</td>
489  <td> Enable the USART0 module on PortE</td>
490  </tr>
491 
492  <tr>
493  <td>power_usartf0_disable()</td>
494  <td> Disable the USART0 module on PortF</td>
495  </tr>
496 
497  <tr>
498  <td>power_usartf0_enable()</td>
499  <td> Enable the USART0 module on PortF</td>
500  </tr>
501 
502  <tr>
503  <td>power_usb_enable()</td>
504  <td>Enable the USB module.</td>
505  </tr>
506 
507  <tr>
508  <td>power_usb_disable()</td>
509  <td>Disable the USB module.</td>
510  </tr>
511 
512  <tr>
513  <td>power_usi_enable()</td>
514  <td>Enable the Universal Serial Interface module.</td>
515  </tr>
516 
517  <tr>
518  <td>power_usi_disable()</td>
519  <td>Disable the Universal Serial Interface module.</td>
520  </tr>
521 
522  <tr>
523  <td>power_vadc_enable()</td>
524  <td>Enable the Voltage ADC module.</td>
525  </tr>
526 
527  <tr>
528  <td>power_vadc_disable()</td>
529  <td>Disable the Voltage ADC module.</td>
530  </tr>
531 
532  <tr>
533  <td>power_all_enable()</td>
534  <td>Enable all modules.</td>
535  </tr>
536 
537  <tr>
538  <td>power_all_disable()</td>
539  <td>Disable all modules.</td>
540  </tr>
541 </table>
542 </center>
543 </small>
544 
545 @} */
546 
547 #if defined(__AVR_HAVE_PRR_PRADC)
548 #define power_adc_enable() (PRR &= (uint8_t)~(1 << PRADC))
549 #define power_adc_disable() (PRR |= (uint8_t)(1 << PRADC))
550 #endif
551 
552 #if defined(__AVR_HAVE_PRR_PRCAN)
553 #define power_can_enable() (PRR &= (uint8_t)~(1 << PRCAN))
554 #define power_can_disable() (PRR |= (uint8_t)(1 << PRCAN))
555 #endif
556 
557 #if defined(__AVR_HAVE_PRR_PRLCD)
558 #define power_lcd_enable() (PRR &= (uint8_t)~(1 << PRLCD))
559 #define power_lcd_disable() (PRR |= (uint8_t)(1 << PRLCD))
560 #endif
561 
562 #if defined(__AVR_HAVE_PRR_PRLIN)
563 #define power_lin_enable() (PRR &= (uint8_t)~(1 << PRLIN))
564 #define power_lin_disable() (PRR |= (uint8_t)(1 << PRLIN))
565 #endif
566 
567 #if defined(__AVR_HAVE_PRR_PRPSC)
568 #define power_psc_enable() (PRR &= (uint8_t)~(1 << PRPSC))
569 #define power_psc_disable() (PRR |= (uint8_t)(1 << PRPSC))
570 #endif
571 
572 #if defined(__AVR_HAVE_PRR_PRPSC0)
573 #define power_psc0_enable() (PRR &= (uint8_t)~(1 << PRPSC0))
574 #define power_psc0_disable() (PRR |= (uint8_t)(1 << PRPSC0))
575 #endif
576 
577 #if defined(__AVR_HAVE_PRR_PRPSC1)
578 #define power_psc1_enable() (PRR &= (uint8_t)~(1 << PRPSC1))
579 #define power_psc1_disable() (PRR |= (uint8_t)(1 << PRPSC1))
580 #endif
581 
582 #if defined(__AVR_HAVE_PRR_PRPSC2)
583 #define power_psc2_enable() (PRR &= (uint8_t)~(1 << PRPSC2))
584 #define power_psc2_disable() (PRR |= (uint8_t)(1 << PRPSC2))
585 #endif
586 
587 #if defined(__AVR_HAVE_PRR_PRPSCR)
588 #define power_pscr_enable() (PRR &= (uint8_t)~(1 << PRPSCR))
589 #define power_pscr_disable() (PRR |= (uint8_t)(1 << PRPSCR))
590 #endif
591 
592 #if defined(__AVR_HAVE_PRR_PRSPI)
593 #define power_spi_enable() (PRR &= (uint8_t)~(1 << PRSPI))
594 #define power_spi_disable() (PRR |= (uint8_t)(1 << PRSPI))
595 #endif
596 
597 #if defined(__AVR_HAVE_PRR_PRTIM0)
598 #define power_timer0_enable() (PRR &= (uint8_t)~(1 << PRTIM0))
599 #define power_timer0_disable() (PRR |= (uint8_t)(1 << PRTIM0))
600 #endif
601 
602 #if defined(__AVR_HAVE_PRR_PRTIM1)
603 #define power_timer1_enable() (PRR &= (uint8_t)~(1 << PRTIM1))
604 #define power_timer1_disable() (PRR |= (uint8_t)(1 << PRTIM1))
605 #endif
606 
607 #if defined(__AVR_HAVE_PRR_PRTIM2)
608 #define power_timer2_enable() (PRR &= (uint8_t)~(1 << PRTIM2))
609 #define power_timer2_disable() (PRR |= (uint8_t)(1 << PRTIM2))
610 #endif
611 
612 #if defined(__AVR_HAVE_PRR_PRTWI)
613 #define power_twi_enable() (PRR &= (uint8_t)~(1 << PRTWI))
614 #define power_twi_disable() (PRR |= (uint8_t)(1 << PRTWI))
615 #endif
616 
617 #if defined(__AVR_HAVE_PRR_PRUSART)
618 #define power_usart_enable() (PRR &= (uint8_t)~(1 << PRUSART))
619 #define power_usart_disable() (PRR |= (uint8_t)(1 << PRUSART))
620 #endif
621 
622 #if defined(__AVR_HAVE_PRR_PRUSART0)
623 #define power_usart0_enable() (PRR &= (uint8_t)~(1 << PRUSART0))
624 #define power_usart0_disable() (PRR |= (uint8_t)(1 << PRUSART0))
625 #endif
626 
627 #if defined(__AVR_HAVE_PRR_PRUSART1)
628 #define power_usart1_enable() (PRR &= (uint8_t)~(1 << PRUSART1))
629 #define power_usart1_disable() (PRR |= (uint8_t)(1 << PRUSART1))
630 #endif
631 
632 #if defined(__AVR_HAVE_PRR_PRUSI)
633 #define power_usi_enable() (PRR &= (uint8_t)~(1 << PRUSI))
634 #define power_usi_disable() (PRR |= (uint8_t)(1 << PRUSI))
635 #endif
636 
637 #if defined(__AVR_HAVE_PRR0_PRADC)
638 #define power_adc_enable() (PRR0 &= (uint8_t)~(1 << PRADC))
639 #define power_adc_disable() (PRR0 |= (uint8_t)(1 << PRADC))
640 #endif
641 
642 #if defined(__AVR_HAVE_PRR0_PRC0)
643 #define power_clock_output_enable() (PRR0 &= (uint8_t)~(1 << PRCO))
644 #define power_clock_output_disable() (PRR0 |= (uint8_t)(1 << PRCO))
645 #endif
646 
647 #if defined(__AVR_HAVE_PRR0_PRCRC)
648 #define power_crc_enable() (PRR0 &= (uint8_t)~(1 << PRCRC))
649 #define power_crc_disable() (PRR0 |= (uint8_t)(1 << PRCRC))
650 #endif
651 
652 #if defined(__AVR_HAVE_PRR0_PRCU)
653 #define power_crypto_enable() (PRR0 &= (uint8_t)~(1 << PRCU))
654 #define power_crypto_disable() (PRR0 |= (uint8_t)(1 << PRCU))
655 #endif
656 
657 #if defined(__AVR_HAVE_PRR0_PRDS)
658 #define power_irdriver_enable() (PRR0 &= (uint8_t)~(1 << PRDS))
659 #define power_irdriver_disable() (PRR0 |= (uint8_t)(1 << PRDS))
660 #endif
661 
662 #if defined(__AVR_HAVE_PRR0_PRLFR)
663 #define power_lfreceiver_enable() (PRR0 &= (uint8_t)~(1 << PRLFR))
664 #define power_lfreceiver_disable() (PRR0 |= (uint8_t)(1 << PRLFR))
665 #endif
666 
667 #if defined(__AVR_HAVE_PRR0_PRLFRS)
668 #define power_lfrs_enable() (PRR0 &= (uint8_t)~(1 << PRLFRS))
669 #define power_lfrs_disable() (PRR0 |= (uint8_t)(1 << PRLFRS))
670 #endif
671 
672 #if defined(__AVR_HAVE_PRR0_PRLIN)
673 #define power_lin_enable() (PRR0 &= (uint8_t)~(1 << PRLIN))
674 #define power_lin_disable() (PRR0 |= (uint8_t)(1 << PRLIN))
675 #endif
676 
677 #if defined(__AVR_HAVE_PRR0_PRPGA)
678 #define power_pga_enable() (PRR0 &= (uint8_t)~(1 << PRPGA))
679 #define power_pga_disable() (PRR0 |= (uint8_t)(1 << PRPGA))
680 #endif
681 
682 #if defined(__AVR_HAVE_PRR0_PRRXDC)
683 #define power_receive_dsp_control_enable() (PRR0 &= (uint8_t)~(1 << PRRXDC))
684 #define power_receive_dsp_control_disable() (PRR0 |= (uint8_t)(1 << PRRXDC))
685 #endif
686 
687 #if defined(__AVR_HAVE_PRR0_PRSPI)
688 #define power_spi_enable() (PRR0 &= (uint8_t)~(1 << PRSPI))
689 #define power_spi_disable() (PRR0 |= (uint8_t)(1 << PRSPI))
690 #endif
691 
692 #if defined(__AVR_HAVE_PRR0_PRT0)
693 #define power_timer0_enable() (PRR0 &= (uint8_t)~(1 << PRT0))
694 #define power_timer0_disable() (PRR0 |= (uint8_t)(1 << PRT0))
695 #endif
696 
697 #if defined(__AVR_HAVE_PRR0_PRTIM0)
698 #define power_timer0_enable() (PRR0 &= (uint8_t)~(1 << PRTIM0))
699 #define power_timer0_disable() (PRR0 |= (uint8_t)(1 << PRTIM0))
700 #endif
701 
702 #if defined(__AVR_HAVE_PRR0_PRT1)
703 #define power_timer1_enable() (PRR0 &= (uint8_t)~(1 << PRT1))
704 #define power_timer1_disable() (PRR0 |= (uint8_t)(1 << PRT1))
705 #endif
706 
707 #if defined(__AVR_HAVE_PRR0_PRTIM1)
708 #define power_timer1_enable() (PRR0 &= (uint8_t)~(1 << PRTIM1))
709 #define power_timer1_disable() (PRR0 |= (uint8_t)(1 << PRTIM1))
710 #endif
711 
712 #if defined(__AVR_HAVE_PRR0_PRT2)
713 #define power_timer2_enable() (PRR0 &= (uint8_t)~(1 << PRT2))
714 #define power_timer2_disable() (PRR0 |= (uint8_t)(1 << PRT2))
715 #endif
716 
717 #if defined(__AVR_HAVE_PRR0_PRTIM2)
718 #define power_timer2_enable() (PRR0 &= (uint8_t)~(1 << PRTIM2))
719 #define power_timer2_disable() (PRR0 |= (uint8_t)(1 << PRTIM2))
720 #endif
721 
722 #if defined(__AVR_HAVE_PRR0_PRT3)
723 #define power_timer3_enable() (PRR0 &= (uint8_t)~(1 << PRT3))
724 #define power_timer3_disable() (PRR0 |= (uint8_t)(1 << PRT3))
725 #endif
726 
727 #if defined(__AVR_HAVE_PRR0_PRTM)
728 #define power_timermodulator_enable() (PRR0 &= (uint8_t)~(1 << PRTM))
729 #define power_timermodulator_disable() (PRR0 |= (uint8_t)(1 << PRTM))
730 #endif
731 
732 #if defined(__AVR_HAVE_PRR0_PRTWI)
733 #define power_twi_enable() (PRR0 &= (uint8_t)~(1 << PRTWI))
734 #define power_twi_disable() (PRR0 |= (uint8_t)(1 << PRTWI))
735 #endif
736 
737 #if defined(__AVR_HAVE_PRR0_PRTWI1)
738 #define power_twi1_enable() (PRR0 &= (uint8_t)~(1 << PRTWI1))
739 #define power_twi1_disable() (PRR0 |= (uint8_t)(1 << PRTWI1))
740 #endif
741 
742 #if defined(__AVR_HAVE_PRR0_PRTXDC)
743 #define power_transmit_dsp_control_enable() (PRR0 &= (uint8_t)~(1 << PRTXDC))
744 #define power_transmit_dsp_control_disable() (PRR0 |= (uint8_t)(1 << PRTXDC))
745 #endif
746 
747 #if defined(__AVR_HAVE_PRR0_PRUSART0)
748 #define power_usart0_enable() (PRR0 &= (uint8_t)~(1 << PRUSART0))
749 #define power_usart0_disable() (PRR0 |= (uint8_t)(1 << PRUSART0))
750 #endif
751 
752 #if defined(__AVR_HAVE_PRR0_PRUSART1)
753 #define power_usart1_enable() (PRR0 &= (uint8_t)~(1 << PRUSART1))
754 #define power_usart1_disable() (PRR0 |= (uint8_t)(1 << PRUSART1))
755 #endif
756 
757 #if defined(__AVR_HAVE_PRR0_PRVADC)
758 #define power_vadc_enable() (PRR0 &= (uint8_t)~(1 << PRVADC))
759 #define power_vadc_disable() (PRR0 |= (uint8_t)(1 << PRVADC))
760 #endif
761 
762 #if defined(__AVR_HAVE_PRR0_PRVM)
763 #define power_voltage_monitor_enable() (PRR0 &= (uint8_t)~(1 << PRVM))
764 #define power_voltage_monitor_disable() (PRR0 |= (uint8_t)(1 << PRVM))
765 #endif
766 
767 #if defined(__AVR_HAVE_PRR0_PRVRM)
768 #define power_vrm_enable() (PRR0 &= (uint8_t)~(1 << PRVRM))
769 #define power_vrm_disable() (PRR0 |= (uint8_t)(1 << PRVRM))
770 #endif
771 
772 #if defined(__AVR_HAVE_PRR1_PRAES)
773 #define power_aes_enable() (PRR1 &= (uint8_t)~(1 << PRAES))
774 #define power_aes_disable() (PRR1 |= (uint8_t)(1 << PRAES))
775 #endif
776 
777 #if defined(__AVR_HAVE_PRR1_PRCI)
778 #define power_cinterface_enable() (PRR1 &= (uint8_t)~(1 << PRCI))
779 #define power_cinterface_disable() (PRR1 |= (uint8_t)(1 << PRCI))
780 #endif
781 
782 #if defined(__AVR_HAVE_PRR1_PRHSSPI)
783 #define power_hsspi_enable() (PRR1 &= (uint8_t)~(1 << PRHSSPI))
784 #define power_hsspi_disable() (PRR1 |= (uint8_t)(1 << PRHSSPI))
785 #endif
786 
787 #if defined(__AVR_HAVE_PRR1_PRKB)
788 #define power_kb_enable() (PRR1 &= (uint8_t)~(1 << PRKB))
789 #define power_kb_disable() (PRR1 |= (uint8_t)(1 << PRKB))
790 #endif
791 
792 #if defined(__AVR_HAVE_PRR1_PRLFPH)
793 #define power_lfph_enable() (PRR1 &= (uint8_t)~(1 << PRLFPH))
794 #define power_lfph_disable() (PRR1 |= (uint8_t)(1 << PRLFPH))
795 #endif
796 
797 #if defined(__AVR_HAVE_PRR1_PRLFR)
798 #define power_lfreceiver_enable() (PRR1 &= (uint8_t)~(1 << PRLFR))
799 #define power_lfreceiver_disable() (PRR1 |= (uint8_t)(1 << PRLFR))
800 #endif
801 
802 #if defined(__AVR_HAVE_PRR1_PRLFTP)
803 #define power_lftp_enable() (PRR1 &= (uint8_t)~(1 << PRLFTP))
804 #define power_lftp_disable() (PRR1 |= (uint8_t)(1 << PRLFTP))
805 #endif
806 
807 #if defined(__AVR_HAVE_PRR1_PRSCI)
808 #define power_sci_enable() (PRR1 &= (uint8_t)~(1 << PRSCI))
809 #define power_sci_disable() (PRR1 |= (uint8_t)(1 << PRSCI))
810 #endif
811 
812 #if defined(__AVR_HAVE_PRR1_PRSPI)
813 #define power_spi_enable() (PRR1 &= (uint8_t)~(1 << PRSPI))
814 #define power_spi_disable() (PRR1 |= (uint8_t)(1 << PRSPI))
815 #endif
816 
817 #if defined(__AVR_HAVE_PRR1_PRT1)
818 #define power_timer1_enable() (PRR1 &= (uint8_t)~(1 << PRT1))
819 #define power_timer1_disable() (PRR1 |= (uint8_t)(1 << PRT1))
820 #endif
821 
822 #if defined(__AVR_HAVE_PRR1_PRT2)
823 #define power_timer2_enable() (PRR1 &= (uint8_t)~(1 << PRT2))
824 #define power_timer2_disable() (PRR1 |= (uint8_t)(1 << PRT2))
825 #endif
826 
827 #if defined(__AVR_HAVE_PRR1_PRT3)
828 #define power_timer3_enable() (PRR1 &= (uint8_t)~(1 << PRT3))
829 #define power_timer3_disable() (PRR1 |= (uint8_t)(1 << PRT3))
830 #endif
831 
832 #if defined(__AVR_HAVE_PRR1_PRT4)
833 #define power_timer4_enable() (PRR1 &= (uint8_t)~(1 << PRT4))
834 #define power_timer4_disable() (PRR1 |= (uint8_t)(1 << PRT4))
835 #endif
836 
837 #if defined(__AVR_HAVE_PRR1_PRT5)
838 #define power_timer5_enable() (PRR1 &= (uint8_t)~(1 << PRT5))
839 #define power_timer5_disable() (PRR1 |= (uint8_t)(1 << PRT5))
840 #endif
841 
842 #if defined(__AVR_HAVE_PRR1_PRTIM3)
843 #define power_timer3_enable() (PRR1 &= (uint8_t)~(1 << PRTIM3))
844 #define power_timer3_disable() (PRR1 |= (uint8_t)(1 << PRTIM3))
845 #endif
846 
847 #if defined(__AVR_HAVE_PRR1_PRTIM4)
848 #define power_timer4_enable() (PRR1 &= (uint8_t)~(1 << PRTIM4))
849 #define power_timer4_disable() (PRR1 |= (uint8_t)(1 << PRTIM4))
850 #endif
851 
852 #if defined(__AVR_HAVE_PRR1_PRTIM5)
853 #define power_timer5_enable() (PRR1 &= (uint8_t)~(1 << PRTIM5))
854 #define power_timer5_disable() (PRR1 |= (uint8_t)(1 << PRTIM5))
855 #endif
856 
857 #if defined(__AVR_HAVE_PRR1_PRTRX24)
858 #define power_transceiver_enable() (PRR1 &= (uint8_t)~(1 << PRTRX24))
859 #define power_transceiver_disable() (PRR1 |= (uint8_t)(1 << PRTRX24))
860 #endif
861 
862 #if defined(__AVR_HAVE_PRR1_PRUSART1)
863 #define power_usart1_enable() (PRR1 &= (uint8_t)~(1 << PRUSART1))
864 #define power_usart1_disable() (PRR1 |= (uint8_t)(1 << PRUSART1))
865 #endif
866 
867 #if defined(__AVR_HAVE_PRR1_PRUSART2)
868 #define power_usart2_enable() (PRR1 &= (uint8_t)~(1 << PRUSART2))
869 #define power_usart2_disable() (PRR1 |= (uint8_t)(1 << PRUSART2))
870 #endif
871 
872 #if defined(__AVR_HAVE_PRR1_PRUSART3)
873 #define power_usart3_enable() (PRR1 &= (uint8_t)~(1 << PRUSART3))
874 #define power_usart3_disable() (PRR1 |= (uint8_t)(1 << PRUSART3))
875 #endif
876 
877 #if defined(__AVR_HAVE_PRR1_PRUSB)
878 #define power_usb_enable() (PRR1 &= (uint8_t)~(1 << PRUSB))
879 #define power_usb_disable() (PRR1 |= (uint8_t)(1 << PRUSB))
880 #endif
881 
882 #if defined(__AVR_HAVE_PRR1_PRUSBH)
883 #define power_usbh_enable() (PRR1 &= (uint8_t)~(1 << PRUSBH))
884 #define power_usbh_disable() (PRR1 |= (uint8_t)(1 << PRUSBH))
885 #endif
886 
887 #if defined(__AVR_HAVE_PRR2_PRDF)
888 #define power_data_fifo_enable() (PRR2 &= (uint8_t)~(1 << PRDF))
889 #define power_data_fifo_disable() (PRR2 |= (uint8_t)(1 << PRDF))
890 #endif
891 
892 #if defined(__AVR_HAVE_PRR2_PRIDS)
893 #define power_id_scan_enable() (PRR2 &= (uint8_t)~(1 << PRIDS))
894 #define power_id_scan_disable() (PRR2 |= (uint8_t)(1 << PRIDS))
895 #endif
896 
897 #if defined(__AVR_HAVE_PRR2_PRRAM0)
898 #define power_ram0_enable() (PRR2 &= (uint8_t)~(1 << PRRAM0))
899 #define power_ram0_disable() (PRR2 |= (uint8_t)(1 << PRRAM0))
900 #endif
901 
902 #if defined(__AVR_HAVE_PRR2_PRRAM1)
903 #define power_ram1_enable() (PRR2 &= (uint8_t)~(1 << PRRAM1))
904 #define power_ram1_disable() (PRR2 |= (uint8_t)(1 << PRRAM1))
905 #endif
906 
907 #if defined(__AVR_HAVE_PRR2_PRRAM2)
908 #define power_ram2_enable() (PRR2 &= (uint8_t)~(1 << PRRAM2))
909 #define power_ram2_disable() (PRR2 |= (uint8_t)(1 << PRRAM2))
910 #endif
911 
912 #if defined(__AVR_HAVE_PRR2_PRRAM3)
913 #define power_ram3_enable() (PRR2 &= (uint8_t)~(1 << PRRAM3))
914 #define power_ram3_disable() (PRR2 |= (uint8_t)(1 << PRRAM3))
915 #endif
916 
917 #if defined(__AVR_HAVE_PRR2_PRRS)
918 #define power_rssi_buffer_enable() (PRR2 &= (uint8_t)~(1 << PRRS))
919 #define power_rssi_buffer_disable() (PRR2 |= (uint8_t)(1 << PRRS))
920 #endif
921 
922 #if defined(__AVR_HAVE_PRR2_PRSF)
923 #define power_preamble_rssi_fifo_enable() (PRR2 &= (uint8_t)~(1 << PRSF))
924 #define power_preamble_rssi_fifo_disable() (PRR2 |= (uint8_t)(1 << PRSF))
925 #endif
926 
927 #if defined(__AVR_HAVE_PRR2_PRSPI2)
928 #define power_spi2_enable() (PRR2 &= (uint8_t)~(1 << PRSPI2))
929 #define power_spi2_disable() (PRR2 |= (uint8_t)(1 << PRSPI2))
930 #endif
931 
932 #if defined(__AVR_HAVE_PRR2_PRSSM)
933 #define power_sequencer_state_machine_enable() (PRR2 &= (uint8_t)~(1 << PRSSM))
934 #define power_sequencer_state_machine_disable() (PRR2 |= (uint8_t)(1 << PRSSM))
935 #endif
936 
937 #if defined(__AVR_HAVE_PRR2_PRTM)
938 #define power_tx_modulator_enable() (PRR2 &= (uint8_t)~(1 << PRTM))
939 #define power_tx_modulator_disable() (PRR2 |= (uint8_t)(1 << PRTM))
940 #endif
941 
942 #if defined(__AVR_HAVE_PRR2_PRTWI2)
943 #define power_twi2_enable() (PRR2 &= (uint8_t)~(1 << PRTWI2))
944 #define power_twi2_disable() (PRR2 |= (uint8_t)(1 << PRTWI2))
945 #endif
946 
947 #if defined(__AVR_HAVE_PRR2_PRXA)
948 #define power_rx_buffer_A_enable() (PRR2 &= (uint8_t)~(1 << PRXA))
949 #define power_rx_buffer_A_disable() (PRR2 |= (uint8_t)(1 << PRXA))
950 #endif
951 
952 #if defined(__AVR_HAVE_PRR2_PRXB)
953 #define power_rx_buffer_B_enable() (PRR2 &= (uint8_t)~(1 << PRXB))
954 #define power_rx_buffer_B_disable() (PRR2 |= (uint8_t)(1 << PRXB))
955 #endif
956 
957 #if defined(__AVR_HAVE_PRGEN_AES)
958 #define power_aes_enable() (PR_PRGEN &= (uint8_t)~(PR_AES_bm))
959 #define power_aes_disable() (PR_PRGEN |= (uint8_t)PR_AES_bm)
960 #endif
961 
962 #if defined(__AVR_HAVE_PRGEN_DMA)
963 #define power_dma_enable() (PR_PRGEN &= (uint8_t)~(PR_DMA_bm))
964 #define power_dma_disable() (PR_PRGEN |= (uint8_t)PR_DMA_bm)
965 #endif
966 
967 #if defined(__AVR_HAVE_PRGEN_EBI)
968 #define power_ebi_enable() (PR_PRGEN &= (uint8_t)~(PR_EBI_bm))
969 #define power_ebi_disable() (PR_PRGEN |= (uint8_t)PR_EBI_bm)
970 #endif
971 
972 #if defined(__AVR_HAVE_PRGEN_EDMA)
973 #define power_edma_enable() (PR_PRGEN &= (uint8_t)~(PR_EDMA_bm))
974 #define power_edma_disable() (PR_PRGEN |= (uint8_t)PR_EDMA_bm)
975 #endif
976 
977 #if defined(__AVR_HAVE_PRGEN_EVSYS)
978 #define power_evsys_enable() (PR_PRGEN &= (uint8_t)~(PR_EVSYS_bm))
979 #define power_evsys_disable() (PR_PRGEN |= (uint8_t)PR_EVSYS_bm)
980 #endif
981 
982 #if defined(__AVR_HAVE_PRGEN_LCD)
983 #define power_lcd_enable() (PR_PRGEN &= (uint8_t)~(PR_LCD_bm))
984 #define power_lcd_disable() (PR_PRGEN |= (uint8_t)PR_LCD_bm)
985 #endif
986 
987 #if defined(__AVR_HAVE_PRGEN_RTC)
988 #define power_rtc_enable() (PR_PRGEN &= (uint8_t)~(PR_RTC_bm))
989 #define power_rtc_disable() (PR_PRGEN |= (uint8_t)PR_RTC_bm)
990 #endif
991 
992 #if defined(__AVR_HAVE_PRGEN_USB)
993 #define power_usb_enable() (PR_PRGEN &= (uint8_t)~(PR_USB_bm))
994 #define power_usb_disable() (PR_PRGEN &= (uint8_t)(PR_USB_bm))
995 #endif
996 
997 #if defined(__AVR_HAVE_PRGEN_XCL)
998 #define power_xcl_enable() (PR_PRGEN &= (uint8_t)~(PR_XCL_bm))
999 #define power_xcl_disable() (PR_PRGEN |= (uint8_t)PR_XCL_bm)
1000 #endif
1001 
1002 #if defined(__AVR_HAVE_PRPA_AC)
1003 #define power_aca_enable() (PR_PRPA &= (uint8_t)~(PR_AC_bm))
1004 #define power_aca_disable() (PR_PRPA |= (uint8_t)PR_AC_bm)
1005 #endif
1006 
1007 #if defined(__AVR_HAVE_PRPA_ADC)
1008 #define power_adca_enable() (PR_PRPA &= (uint8_t)~(PR_ADC_bm))
1009 #define power_adca_disable() (PR_PRPA |= (uint8_t)PR_ADC_bm)
1010 #endif
1011 
1012 #if defined(__AVR_HAVE_PRPA_DAC)
1013 #define power_daca_enable() (PR_PRPA &= (uint8_t)~(PR_DAC_bm))
1014 #define power_daca_disable() (PR_PRPA |= (uint8_t)PR_DAC_bm)
1015 #endif
1016 
1017 #if defined(__AVR_HAVE_PRPB_AC)
1018 #define power_acb_enable() (PR_PRPB &= (uint8_t)~(PR_AC_bm))
1019 #define power_acb_disable() (PR_PRPB |= (uint8_t)PR_AC_bm)
1020 #endif
1021 
1022 #if defined(__AVR_HAVE_PRPB_ADC)
1023 #define power_adcb_enable() (PR_PRPB &= (uint8_t)~(PR_ADC_bm))
1024 #define power_adcb_disable() (PR_PRPB |= (uint8_t)PR_ADC_bm)
1025 #endif
1026 
1027 #if defined(__AVR_HAVE_PRPB_DAC)
1028 #define power_dacb_enable() (PR_PRPB &= (uint8_t)~(PR_DAC_bm))
1029 #define power_dacb_disable() (PR_PRPB |= (uint8_t)PR_DAC_bm)
1030 #endif
1031 
1032 #if defined(__AVR_HAVE_PRPC_HIRES)
1033 #define power_hiresc_enable() (PR_PRPC &= (uint8_t)~(PR_HIRES_bm))
1034 #define power_hiresc_disable() (PR_PRPC |= (uint8_t)PR_HIRES_bm)
1035 #endif
1036 
1037 #if defined(__AVR_HAVE_PRPC_SPI)
1038 #define power_spic_enable() (PR_PRPC &= (uint8_t)~(PR_SPI_bm))
1039 #define power_spic_disable() (PR_PRPC |= (uint8_t)PR_SPI_bm)
1040 #endif
1041 
1042 #if defined(__AVR_HAVE_PRPC_TC0)
1043 #define power_tc0c_enable() (PR_PRPC &= (uint8_t)~(PR_TC0_bm))
1044 #define power_tc0c_disable() (PR_PRPC |= (uint8_t)PR_TC0_bm)
1045 #endif
1046 
1047 #if defined(__AVR_HAVE_PRPC_TC1)
1048 #define power_tc1c_enable() (PR_PRPC &= (uint8_t)~(PR_TC1_bm))
1049 #define power_tc1c_disable() (PR_PRPC |= (uint8_t)PR_TC1_bm)
1050 #endif
1051 
1052 #if defined(__AVR_HAVE_PRPC_TC4)
1053 #define power_tc4c_enable() (PR_PRPC &= (uint8_t)~(PR_TC4_bm))
1054 #define power_tc4c_disable() (PR_PRPC |= (uint8_t)PR_TC4_bm)
1055 #endif
1056 
1057 #if defined(__AVR_HAVE_PRPC_TC5)
1058 #define power_tc5c_enable() (PR_PRPC &= (uint8_t)~(PR_TC5_bm))
1059 #define power_tc5c_disable() (PR_PRPC |= (uint8_t)PR_TC5_bm)
1060 #endif
1061 
1062 #if defined(__AVR_HAVE_PRPC_TWI)
1063 #define power_twic_enable() (PR_PRPC &= (uint8_t)~(PR_TWI_bm))
1064 #define power_twic_disable() (PR_PRPC |= (uint8_t)PR_TWI_bm)
1065 #endif
1066 
1067 #if defined(__AVR_HAVE_PRPC_USART0)
1068 #define power_usartc0_enable() (PR_PRPC &= (uint8_t)~(PR_USART0_bm))
1069 #define power_usartc0_disable() (PR_PRPC |= (uint8_t)PR_USART0_bm)
1070 #endif
1071 
1072 #if defined(__AVR_HAVE_PRPC_USART1)
1073 #define power_usartc1_enable() (PR_PRPC &= (uint8_t)~(PR_USART1_bm))
1074 #define power_usartc1_disable() (PR_PRPC |= (uint8_t)PR_USART1_bm)
1075 #endif
1076 
1077 #if defined(__AVR_HAVE_PRPD_HIRES)
1078 #define power_hiresd_enable() (PR_PRPD &= (uint8_t)~(PR_HIRES_bm))
1079 #define power_hiresd_disable() (PR_PRPD |= (uint8_t)PR_HIRES_bm)
1080 #endif
1081 
1082 #if defined(__AVR_HAVE_PRPD_SPI)
1083 #define power_spid_enable() (PR_PRPD &= (uint8_t)~(PR_SPI_bm))
1084 #define power_spid_disable() (PR_PRPD |= (uint8_t)PR_SPI_bm)
1085 #endif
1086 
1087 #if defined(__AVR_HAVE_PRPD_TC0)
1088 #define power_tc0d_enable() (PR_PRPD &= (uint8_t)~(PR_TC0_bm))
1089 #define power_tc0d_disable() (PR_PRPD |= (uint8_t)PR_TC0_bm)
1090 #endif
1091 
1092 #if defined(__AVR_HAVE_PRPD_TC1)
1093 #define power_tc1d_enable() (PR_PRPD &= (uint8_t)~(PR_TC1_bm))
1094 #define power_tc1d_disable() (PR_PRPD |= (uint8_t)PR_TC1_bm)
1095 #endif
1096 
1097 #if defined(__AVR_HAVE_PRPD_TC5)
1098 #define power_tc5d_enable() (PR_PRPD &= (uint8_t)~(PR_TC5_bm))
1099 #define power_tc5d_disable() (PR_PRPD |= (uint8_t)PR_TC5_bm)
1100 #endif
1101 
1102 #if defined(__AVR_HAVE_PRPD_TWI)
1103 #define power_twid_enable() (PR_PRPD &= (uint8_t)~(PR_TWI_bm))
1104 #define power_twid_disable() (PR_PRPD |= (uint8_t)PR_TWI_bm)
1105 #endif
1106 
1107 #if defined(__AVR_HAVE_PRPD_USART0)
1108 #define power_usartd0_enable() (PR_PRPD &= (uint8_t)~(PR_USART0_bm))
1109 #define power_usartd0_disable() (PR_PRPD |= (uint8_t)PR_USART0_bm)
1110 #endif
1111 
1112 #if defined(__AVR_HAVE_PRPD_USART1)
1113 #define power_usartd1_enable() (PR_PRPD &= (uint8_t)~(PR_USART1_bm))
1114 #define power_usartd1_disable() (PR_PRPD |= (uint8_t)PR_USART1_bm)
1115 #endif
1116 
1117 #if defined(__AVR_HAVE_PRPE_HIRES)
1118 #define power_hirese_enable() (PR_PRPE &= (uint8_t)~(PR_HIRES_bm))
1119 #define power_hirese_disable() (PR_PRPE |= (uint8_t)PR_HIRES_bm)
1120 #endif
1121 
1122 #if defined(__AVR_HAVE_PRPE_SPI)
1123 #define power_spie_enable() (PR_PRPE &= (uint8_t)~(PR_SPI_bm))
1124 #define power_spie_disable() (PR_PRPE |= (uint8_t)PR_SPI_bm)
1125 #endif
1126 
1127 #if defined(__AVR_HAVE_PRPE_TC0)
1128 #define power_tc0e_enable() (PR_PRPE &= (uint8_t)~(PR_TC0_bm))
1129 #define power_tc0e_disable() (PR_PRPE |= (uint8_t)PR_TC0_bm)
1130 #endif
1131 
1132 #if defined(__AVR_HAVE_PRPE_TC1)
1133 #define power_tc1e_enable() (PR_PRPE &= (uint8_t)~(PR_TC1_bm))
1134 #define power_tc1e_disable() (PR_PRPE |= (uint8_t)PR_TC1_bm)
1135 #endif
1136 
1137 #if defined(__AVR_HAVE_PRPE_TWI)
1138 #define power_twie_enable() (PR_PRPE &= (uint8_t)~(PR_TWI_bm))
1139 #define power_twie_disable() (PR_PRPE |= (uint8_t)PR_TWI_bm)
1140 #endif
1141 
1142 #if defined(__AVR_HAVE_PRPE_USART0)
1143 #define power_usarte0_enable() (PR_PRPE &= (uint8_t)~(PR_USART0_bm))
1144 #define power_usarte0_disable() (PR_PRPE |= (uint8_t)PR_USART0_bm)
1145 #endif
1146 
1147 #if defined(__AVR_HAVE_PRPE_USART1)
1148 #define power_usarte1_enable() (PR_PRPE &= (uint8_t)~(PR_USART1_bm))
1149 #define power_usarte1_disable() (PR_PRPE |= (uint8_t)PR_USART1_bm)
1150 #endif
1151 
1152 #if defined(__AVR_HAVE_PRPF_HIRES)
1153 #define power_hiresf_enable() (PR_PRPF &= (uint8_t)~(PR_HIRES_bm))
1154 #define power_hiresf_disable() (PR_PRPF |= (uint8_t)PR_HIRES_bm)
1155 #endif
1156 
1157 #if defined(__AVR_HAVE_PRPF_SPI)
1158 #define power_spif_enable() (PR_PRPF &= (uint8_t)~(PR_SPI_bm))
1159 #define power_spif_disable() (PR_PRPF |= (uint8_t)PR_SPI_bm)
1160 #endif
1161 
1162 #if defined(__AVR_HAVE_PRPF_TC0)
1163 #define power_tc0f_enable() (PR_PRPF &= (uint8_t)~(PR_TC0_bm))
1164 #define power_tc0f_disable() (PR_PRPF |= (uint8_t)PR_TC0_bm)
1165 #endif
1166 
1167 #if defined(__AVR_HAVE_PRPF_TC1)
1168 #define power_tc1f_enable() (PR_PRPF &= (uint8_t)~(PR_TC1_bm))
1169 #define power_tc1f_disable() (PR_PRPF |= (uint8_t)PR_TC1_bm)
1170 #endif
1171 
1172 #if defined(__AVR_HAVE_PRPF_TWI)
1173 #define power_twif_enable() (PR_PRPF &= (uint8_t)~(PR_TWI_bm))
1174 #define power_twif_disable() (PR_PRPF |= (uint8_t)PR_TWI_bm)
1175 #endif
1176 
1177 #if defined(__AVR_HAVE_PRPF_USART0)
1178 #define power_usartf0_enable() (PR_PRPF &= (uint8_t)~(PR_USART0_bm))
1179 #define power_usartf0_disable() (PR_PRPF |= (uint8_t)PR_USART0_bm)
1180 #endif
1181 
1182 #if defined(__AVR_HAVE_PRPF_USART1)
1183 #define power_usartf1_enable() (PR_PRPF &= (uint8_t)~(PR_USART1_bm))
1184 #define power_usartf1_disable() (PR_PRPF |= (uint8_t)PR_USART1_bm)
1185 #endif
1186 
1187 static __inline void
1188 __attribute__ ((__always_inline__))
1189 __power_all_enable()
1190 {
1191 #ifdef __AVR_HAVE_PRR
1192  PRR &= (uint8_t)~(__AVR_HAVE_PRR);
1193 #endif
1194 
1195 #ifdef __AVR_HAVE_PRR0
1196  PRR0 &= (uint8_t)~(__AVR_HAVE_PRR0);
1197 #endif
1198 
1199 #ifdef __AVR_HAVE_PRR1
1200  PRR1 &= (uint8_t)~(__AVR_HAVE_PRR1);
1201 #endif
1202 
1203 #ifdef __AVR_HAVE_PRR2
1204  PRR2 &= (uint8_t)~(__AVR_HAVE_PRR2);
1205 #endif
1206 
1207 #ifdef __AVR_HAVE_PRGEN
1208  PR_PRGEN &= (uint8_t)~(__AVR_HAVE_PRGEN);
1209 #endif
1210 
1211 #ifdef __AVR_HAVE_PRPA
1212  PR_PRPA &= (uint8_t)~(__AVR_HAVE_PRPA);
1213 #endif
1214 
1215 #ifdef __AVR_HAVE_PRPB
1216  PR_PRPB &= (uint8_t)~(__AVR_HAVE_PRPB);
1217 #endif
1218 
1219 #ifdef __AVR_HAVE_PRPC
1220  PR_PRPC &= (uint8_t)~(__AVR_HAVE_PRPC);
1221 #endif
1222 
1223 #ifdef __AVR_HAVE_PRPD
1224  PR_PRPD &= (uint8_t)~(__AVR_HAVE_PRPD);
1225 #endif
1226 
1227 #ifdef __AVR_HAVE_PRPE
1228  PR_PRPE &= (uint8_t)~(__AVR_HAVE_PRPE);
1229 #endif
1230 
1231 #ifdef __AVR_HAVE_PRPF
1232  PR_PRPF &= (uint8_t)~(__AVR_HAVE_PRPF);
1233 #endif
1234 }
1235 
1236 static __inline void
1237 __attribute__ ((__always_inline__))
1238 __power_all_disable()
1239 {
1240 #ifdef __AVR_HAVE_PRR
1241  PRR |= (uint8_t)(__AVR_HAVE_PRR);
1242 #endif
1243 
1244 #ifdef __AVR_HAVE_PRR0
1245  PRR0 |= (uint8_t)(__AVR_HAVE_PRR0);
1246 #endif
1247 
1248 #ifdef __AVR_HAVE_PRR1
1249  PRR1 |= (uint8_t)(__AVR_HAVE_PRR1);
1250 #endif
1251 
1252 #ifdef __AVR_HAVE_PRR2
1253  PRR2 |= (uint8_t)(__AVR_HAVE_PRR2);
1254 #endif
1255 
1256 #ifdef __AVR_HAVE_PRGEN
1257  PR_PRGEN |= (uint8_t)(__AVR_HAVE_PRGEN);
1258 #endif
1259 
1260 #ifdef __AVR_HAVE_PRPA
1261  PR_PRPA |= (uint8_t)(__AVR_HAVE_PRPA);
1262 #endif
1263 
1264 #ifdef __AVR_HAVE_PRPB
1265  PR_PRPB |= (uint8_t)(__AVR_HAVE_PRPB);
1266 #endif
1267 
1268 #ifdef __AVR_HAVE_PRPC
1269  PR_PRPC |= (uint8_t)(__AVR_HAVE_PRPC);
1270 #endif
1271 
1272 #ifdef __AVR_HAVE_PRPD
1273  PR_PRPD |= (uint8_t)(__AVR_HAVE_PRPD);
1274 #endif
1275 
1276 #ifdef __AVR_HAVE_PRPE
1277  PR_PRPE |= (uint8_t)(__AVR_HAVE_PRPE);
1278 #endif
1279 
1280 #ifdef __AVR_HAVE_PRPF
1281  PR_PRPF |= (uint8_t)(__AVR_HAVE_PRPF);
1282 #endif
1283 }
1284 
1285 #ifndef __DOXYGEN__
1286 #ifndef power_all_enable
1287 #define power_all_enable() __power_all_enable()
1288 #endif
1289 
1290 #ifndef power_all_disable
1291 #define power_all_disable() __power_all_disable()
1292 #endif
1293 #endif /* !__DOXYGEN__ */
1294 
1295 
1296 #if defined(__AVR_AT90CAN32__) \
1297 || defined(__AVR_AT90CAN64__) \
1298 || defined(__AVR_AT90CAN128__) \
1299 || defined(__AVR_AT90PWM1__) \
1300 || defined(__AVR_AT90PWM2__) \
1301 || defined(__AVR_AT90PWM2B__) \
1302 || defined(__AVR_AT90PWM3__) \
1303 || defined(__AVR_AT90PWM3B__) \
1304 || defined(__AVR_AT90PWM81__) \
1305 || defined(__AVR_AT90PWM161__) \
1306 || defined(__AVR_AT90PWM216__) \
1307 || defined(__AVR_AT90PWM316__) \
1308 || defined(__AVR_AT90SCR100__) \
1309 || defined(__AVR_AT90USB646__) \
1310 || defined(__AVR_AT90USB647__) \
1311 || defined(__AVR_AT90USB82__) \
1312 || defined(__AVR_AT90USB1286__) \
1313 || defined(__AVR_AT90USB1287__) \
1314 || defined(__AVR_AT90USB162__) \
1315 || defined(__AVR_ATA5505__) \
1316 || defined(__AVR_ATA5272__) \
1317 || defined(__AVR_ATmega1280__) \
1318 || defined(__AVR_ATmega1281__) \
1319 || defined(__AVR_ATmega1284__) \
1320 || defined(__AVR_ATmega128RFA1__) \
1321 || defined(__AVR_ATmega1284RFR2__) \
1322 || defined(__AVR_ATmega128RFR2__) \
1323 || defined(__AVR_ATmega1284P__) \
1324 || defined(__AVR_ATmega162__) \
1325 || defined(__AVR_ATmega164A__) \
1326 || defined(__AVR_ATmega164P__) \
1327 || defined(__AVR_ATmega164PA__) \
1328 || defined(__AVR_ATmega165__) \
1329 || defined(__AVR_ATmega165A__) \
1330 || defined(__AVR_ATmega165P__) \
1331 || defined(__AVR_ATmega165PA__) \
1332 || defined(__AVR_ATmega168__) \
1333 || defined(__AVR_ATmega168P__) \
1334 || defined(__AVR_ATmega168PA__) \
1335 || defined(__AVR_ATmega169__) \
1336 || defined(__AVR_ATmega169A__) \
1337 || defined(__AVR_ATmega169P__) \
1338 || defined(__AVR_ATmega169PA__) \
1339 || defined(__AVR_ATmega16U4__) \
1340 || defined(__AVR_ATmega2560__) \
1341 || defined(__AVR_ATmega2561__) \
1342 || defined(__AVR_ATmega2564RFR2__) \
1343 || defined(__AVR_ATmega256RFR2__) \
1344 || defined(__AVR_ATmega324A__) \
1345 || defined(__AVR_ATmega324P__) \
1346 || defined(__AVR_ATmega325__) \
1347 || defined(__AVR_ATmega325A__) \
1348 || defined(__AVR_ATmega325PA__) \
1349 || defined(__AVR_ATmega3250__) \
1350 || defined(__AVR_ATmega3250A__) \
1351 || defined(__AVR_ATmega3250PA__) \
1352 || defined(__AVR_ATmega328__) \
1353 || defined(__AVR_ATmega328P__) \
1354 || defined(__AVR_ATmega329__) \
1355 || defined(__AVR_ATmega329A__) \
1356 || defined(__AVR_ATmega329P__) \
1357 || defined(__AVR_ATmega329PA__) \
1358 || defined(__AVR_ATmega3290__) \
1359 || defined(__AVR_ATmega3290A__) \
1360 || defined(__AVR_ATmega3290PA__) \
1361 || defined(__AVR_ATmega32C1__) \
1362 || defined(__AVR_ATmega32M1__) \
1363 || defined(__AVR_ATmega32U2__) \
1364 || defined(__AVR_ATmega32U4__) \
1365 || defined(__AVR_ATmega32U6__) \
1366 || defined(__AVR_ATmega48__) \
1367 || defined(__AVR_ATmega48A__) \
1368 || defined(__AVR_ATmega48PA__) \
1369 || defined(__AVR_ATmega48P__) \
1370 || defined(__AVR_ATmega640__) \
1371 || defined(__AVR_ATmega649P__) \
1372 || defined(__AVR_ATmega644__) \
1373 || defined(__AVR_ATmega644A__) \
1374 || defined(__AVR_ATmega644P__) \
1375 || defined(__AVR_ATmega644PA__) \
1376 || defined(__AVR_ATmega645__) \
1377 || defined(__AVR_ATmega645A__) \
1378 || defined(__AVR_ATmega645P__) \
1379 || defined(__AVR_ATmega6450__) \
1380 || defined(__AVR_ATmega6450A__) \
1381 || defined(__AVR_ATmega6450P__) \
1382 || defined(__AVR_ATmega649__) \
1383 || defined(__AVR_ATmega649A__) \
1384 || defined(__AVR_ATmega6490__) \
1385 || defined(__AVR_ATmega6490A__) \
1386 || defined(__AVR_ATmega6490P__) \
1387 || defined(__AVR_ATmega644RFR2__) \
1388 || defined(__AVR_ATmega64RFR2__) \
1389 || defined(__AVR_ATmega88__) \
1390 || defined(__AVR_ATmega88P__) \
1391 || defined(__AVR_ATmega8U2__) \
1392 || defined(__AVR_ATmega16U2__) \
1393 || defined(__AVR_ATmega32U2__) \
1394 || defined(__AVR_ATtiny48__) \
1395 || defined(__AVR_ATtiny167__) \
1396 || defined(__DOXYGEN__)
1397 
1398 
1399 /** \addtogroup avr_power
1400 
1401 Some of the newer AVRs contain a System Clock Prescale Register (CLKPR) that
1402 allows you to decrease the system clock frequency and the power consumption
1403 when the need for processing power is low.
1404 On some earlier AVRs (ATmega103, ATmega64, ATmega128), similar
1405 functionality can be achieved through the XTAL Divide Control Register.
1406 Below are two macros and an enumerated type that can be used to
1407 interface to the Clock Prescale Register or
1408 XTAL Divide Control Register.
1409 
1410 \note Not all AVR devices have a clock prescaler. On those devices
1411 without a Clock Prescale Register or XTAL Divide Control Register, these
1412 macros are not available.
1413 */
1414 
1415 
1416 /** \addtogroup avr_power
1417 \code
1418 typedef enum
1419 {
1420  clock_div_1 = 0,
1421  clock_div_2 = 1,
1422  clock_div_4 = 2,
1423  clock_div_8 = 3,
1424  clock_div_16 = 4,
1425  clock_div_32 = 5,
1426  clock_div_64 = 6,
1427  clock_div_128 = 7,
1428  clock_div_256 = 8,
1429  clock_div_1_rc = 15, // ATmega128RFA1 only
1430 } clock_div_t;
1431 \endcode
1432 Clock prescaler setting enumerations for device using
1433 System Clock Prescale Register.
1434 
1435 \code
1436 typedef enum
1437 {
1438  clock_div_1 = 1,
1439  clock_div_2 = 2,
1440  clock_div_4 = 4,
1441  clock_div_8 = 8,
1442  clock_div_16 = 16,
1443  clock_div_32 = 32,
1444  clock_div_64 = 64,
1445  clock_div_128 = 128
1446 } clock_div_t;
1447 \endcode
1448 Clock prescaler setting enumerations for device using
1449 XTAL Divide Control Register.
1450 
1451 */
1452 #ifndef __DOXYGEN__
1453 typedef enum
1454 {
1455  clock_div_1 = 0,
1456  clock_div_2 = 1,
1457  clock_div_4 = 2,
1458  clock_div_8 = 3,
1459  clock_div_16 = 4,
1460  clock_div_32 = 5,
1461  clock_div_64 = 6,
1462  clock_div_128 = 7,
1463  clock_div_256 = 8
1464 #if defined(__AVR_ATmega128RFA1__) \
1465 || defined(__AVR_ATmega2564RFR2__) \
1466 || defined(__AVR_ATmega1284RFR2__) \
1467 || defined(__AVR_ATmega644RFR2__) \
1468 || defined(__AVR_ATmega256RFR2__) \
1469 || defined(__AVR_ATmega128RFR2__) \
1470 || defined(__AVR_ATmega64RFR2__)
1471  , clock_div_1_rc = 15
1472 #endif
1473 } clock_div_t;
1474 
1475 static __inline__ void clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1476 #endif /* !__DOXYGEN__ */
1477 
1478 /**
1479  \ingroup avr_power
1480  \fn clock_prescale_set(clock_div_t x)
1481 
1482 Set the clock prescaler register select bits, selecting a system clock
1483 division setting. This function is inlined, even if compiler
1484 optimizations are disabled.
1485 
1486 The type of \c x is \c clock_div_t.
1487 
1488 \note For device with XTAL Divide Control Register (XDIV), \c x can actually range
1489 from 1 to 129. Thus, one does not need to use \c clock_div_t type as argument.
1490 */
1491 void clock_prescale_set(clock_div_t __x)
1492 {
1493  uint8_t __tmp = _BV(CLKPCE);
1494  __asm__ __volatile__ (
1495  "in __tmp_reg__,__SREG__" "\n\t"
1496  "cli" "\n\t"
1497  "sts %1, %0" "\n\t"
1498  "sts %1, %2" "\n\t"
1499  "out __SREG__, __tmp_reg__"
1500  : /* no outputs */
1501  : "d" (__tmp),
1502  "M" (_SFR_MEM_ADDR(CLKPR)),
1503  "d" (__x)
1504  : "r0");
1505 }
1506 
1507 /** \addtogroup avr_power
1508 \def clock_prescale_get()
1509 Gets and returns the clock prescaler register setting. The return type is \c clock_div_t.
1510 
1511 \note For device with XTAL Divide Control Register (XDIV), return can actually
1512 range from 1 to 129. Care should be taken has the return value could differ from the
1513 typedef enum clock_div_t. This should only happen if clock_prescale_set was previously
1514 called with a value other than those defined by \c clock_div_t.
1515 */
1516 #define clock_prescale_get() (clock_div_t)(CLKPR & (uint8_t)((1<<CLKPS0)|(1<<CLKPS1)|(1<<CLKPS2)|(1<<CLKPS3)))
1517 
1518 #elif defined(__AVR_ATmega16HVB__) \
1519 || defined(__AVR_ATmega16HVBREVB__) \
1520 || defined(__AVR_ATmega32HVB__) \
1521 || defined(__AVR_ATmega32HVBREVB__)
1522 
1523 typedef enum
1524 {
1525  clock_div_1 = 0,
1526  clock_div_2 = 1,
1527  clock_div_4 = 2,
1528  clock_div_8 = 3
1529 } clock_div_t;
1530 
1531 static __inline__ void clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1532 
1533 void clock_prescale_set(clock_div_t __x)
1534 {
1535  uint8_t __tmp = _BV(CLKPCE);
1536  __asm__ __volatile__ (
1537  "in __tmp_reg__,__SREG__" "\n\t"
1538  "cli" "\n\t"
1539  "sts %1, %0" "\n\t"
1540  "sts %1, %2" "\n\t"
1541  "out __SREG__, __tmp_reg__"
1542  : /* no outputs */
1543  : "d" (__tmp),
1544  "M" (_SFR_MEM_ADDR(CLKPR)),
1545  "d" (__x)
1546  : "r0");
1547 }
1548 
1549 #define clock_prescale_get() (clock_div_t)(CLKPR & (uint8_t)((1<<CLKPS0)|(1<<CLKPS1)))
1550 
1551 #elif defined(__AVR_ATA5790__) \
1552 || defined (__AVR_ATA5795__)
1553 
1554 typedef enum
1555 {
1556  clock_div_1 = 0,
1557  clock_div_2 = 1,
1558  clock_div_4 = 2,
1559  clock_div_8 = 3,
1560  clock_div_16 = 4,
1561  clock_div_32 = 5,
1562  clock_div_64 = 6,
1563  clock_div_128 = 7,
1564 } clock_div_t;
1565 
1566 static __inline__ void system_clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1567 
1568 void system_clock_prescale_set(clock_div_t __x)
1569 {
1570  uint8_t __tmp = _BV(CLKPCE);
1571  __asm__ __volatile__ (
1572  "in __tmp_reg__,__SREG__" "\n\t"
1573  "cli" "\n\t"
1574  "out %1, %0" "\n\t"
1575  "out %1, %2" "\n\t"
1576  "out __SREG__, __tmp_reg__"
1577  : /* no outputs */
1578  : "d" (__tmp),
1579  "I" (_SFR_IO_ADDR(CLKPR)),
1580  "d" (__x)
1581  : "r0");
1582 }
1583 
1584 #define system_clock_prescale_get() (clock_div_t)(CLKPR & (uint8_t)((1<<CLKPS0)|(1<<CLKPS1)|(1<<CLKPS2)))
1585 
1586 typedef enum
1587 {
1588  timer_clock_div_reset = 0,
1589  timer_clock_div_1 = 1,
1590  timer_clock_div_2 = 2,
1591  timer_clock_div_4 = 3,
1592  timer_clock_div_8 = 4,
1593  timer_clock_div_16 = 5,
1594  timer_clock_div_32 = 6,
1595  timer_clock_div_64 = 7
1596 } timer_clock_div_t;
1597 
1598 static __inline__ void timer_clock_prescale_set(timer_clock_div_t) __attribute__((__always_inline__));
1599 
1600 void timer_clock_prescale_set(timer_clock_div_t __x)
1601 {
1602  uint8_t __t;
1603  __asm__ __volatile__ (
1604  "in __tmp_reg__,__SREG__" "\n\t"
1605  "cli" "\n\t"
1606  "in %[temp],%[clkpr]" "\n\t"
1607  "out %[clkpr],%[enable]" "\n\t"
1608  "andi %[temp],%[not_CLTPS]" "\n\t"
1609  "or %[temp], %[set_value]" "\n\t"
1610  "out %[clkpr],%[temp]" "\n\t"
1611  "sei" "\n\t"
1612  "out __SREG__,__tmp_reg__" "\n\t"
1613  : /* no outputs */
1614  : [temp] "r" (__t),
1615  [clkpr] "I" (_SFR_IO_ADDR(CLKPR)),
1616  [enable] "r" (_BV(CLKPCE)),
1617  [not_CLTPS] "M" (0xFF & (~ ((1 << CLTPS2) | (1 << CLTPS1) | (1 << CLTPS0)))),
1618  [set_value] "r" ((__x & 7) << 3)
1619  : "r0");
1620 }
1621 
1622 #define timer_clock_prescale_get() (timer_clock_div_t)(CLKPR & (uint8_t)((1<<CLTPS0)|(1<<CLTPS1)|(1<<CLTPS2)))
1623 
1624 #elif defined(__AVR_ATA6285__) \
1625 || defined(__AVR_ATA6286__)
1626 
1627 typedef enum
1628 {
1629  clock_div_1 = 0,
1630  clock_div_2 = 1,
1631  clock_div_4 = 2,
1632  clock_div_8 = 3,
1633  clock_div_16 = 4,
1634  clock_div_32 = 5,
1635  clock_div_64 = 6,
1636  clock_div_128 = 7
1637 } clock_div_t;
1638 
1639 static __inline__ void system_clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1640 
1641 void system_clock_prescale_set(clock_div_t __x)
1642 {
1643  uint8_t __t;
1644  __asm__ __volatile__ (
1645  "in __tmp_reg__,__SREG__" "\n\t"
1646  "cli" "\n\t"
1647  "in %[temp],%[clpr]" "\n\t"
1648  "out %[clpr],%[enable]" "\n\t"
1649  "andi %[temp],%[not_CLKPS]" "\n\t"
1650  "or %[temp], %[set_value]" "\n\t"
1651  "out %[clpr],%[temp]" "\n\t"
1652  "sei" "\n\t"
1653  "out __SREG__,__tmp_reg__" "\n\t"
1654  : /* no outputs */
1655  : [temp] "r" (__t),
1656  [clpr] "I" (_SFR_IO_ADDR(CLKPR)),
1657  [enable] "r" _BV(CLPCE),
1658  [not_CLKPS] "M" (0xFF & (~ ((1 << CLKPS2) | (1 << CLKPS1) | (1 << CLKPS0)))),
1659  [set_value] "r" (__x & 7)
1660  : "r0");
1661 }
1662 
1663 #define system_clock_prescale_get() (clock_div_t)(CLKPR & (uint8_t)((1<<CLKPS0)|(1<<CLKPS1)|(1<<CLKPS2)))
1664 
1665 typedef enum
1666 {
1667  timer_clock_div_reset = 0,
1668  timer_clock_div_1 = 1,
1669  timer_clock_div_2 = 2,
1670  timer_clock_div_4 = 3,
1671  timer_clock_div_8 = 4,
1672  timer_clock_div_16 = 5,
1673  timer_clock_div_32 = 6,
1674  timer_clock_div_64 = 7
1675 } timer_clock_div_t;
1676 
1677 static __inline__ void timer_clock_prescale_set(timer_clock_div_t) __attribute__((__always_inline__));
1678 
1679 void timer_clock_prescale_set(timer_clock_div_t __x)
1680 {
1681  uint8_t __t;
1682  __asm__ __volatile__ (
1683  "in __tmp_reg__,__SREG__" "\n\t"
1684  "cli" "\n\t"
1685  "in %[temp],%[clpr]" "\n\t"
1686  "out %[clpr],%[enable]" "\n\t"
1687  "andi %[temp],%[not_CLTPS]" "\n\t"
1688  "or %[temp], %[set_value]" "\n\t"
1689  "out %[clpr],%[temp]" "\n\t"
1690  "sei" "\n\t"
1691  "out __SREG__,__tmp_reg__" "\n\t"
1692  : /* no outputs */
1693  : [temp] "r" (__t),
1694  [clpr] "I" (_SFR_IO_ADDR(CLKPR)),
1695  [enable] "r" (_BV(CLPCE)),
1696  [not_CLTPS] "M" (0xFF & (~ ((1 << CLTPS2) | (1 << CLTPS1) | (1 << CLTPS0)))),
1697  [set_value] "r" ((__x & 7) << 3)
1698  : "r0");
1699 }
1700 
1701 #define timer_clock_prescale_get() (timer_clock_div_t)(CLKPR & (uint8_t)((1<<CLTPS0)|(1<<CLTPS1)|(1<<CLTPS2)))
1702 
1703 #elif defined(__AVR_ATtiny24__) \
1704 || defined(__AVR_ATtiny24A__) \
1705 || defined(__AVR_ATtiny44__) \
1706 || defined(__AVR_ATtiny44A__) \
1707 || defined(__AVR_ATtiny84__) \
1708 || defined(__AVR_ATtiny84A__) \
1709 || defined(__AVR_ATtiny25__) \
1710 || defined(__AVR_ATtiny45__) \
1711 || defined(__AVR_ATtiny85__) \
1712 || defined(__AVR_ATtiny261A__) \
1713 || defined(__AVR_ATtiny261__) \
1714 || defined(__AVR_ATtiny461__) \
1715 || defined(__AVR_ATtiny461A__) \
1716 || defined(__AVR_ATtiny861__) \
1717 || defined(__AVR_ATtiny861A__) \
1718 || defined(__AVR_ATtiny2313__) \
1719 || defined(__AVR_ATtiny2313A__) \
1720 || defined(__AVR_ATtiny4313__) \
1721 || defined(__AVR_ATtiny13__) \
1722 || defined(__AVR_ATtiny13A__) \
1723 || defined(__AVR_ATtiny43U__) \
1724 
1725 typedef enum
1726 {
1727  clock_div_1 = 0,
1728  clock_div_2 = 1,
1729  clock_div_4 = 2,
1730  clock_div_8 = 3,
1731  clock_div_16 = 4,
1732  clock_div_32 = 5,
1733  clock_div_64 = 6,
1734  clock_div_128 = 7,
1735  clock_div_256 = 8
1736 } clock_div_t;
1737 
1738 static __inline__ void clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1739 
1740 void clock_prescale_set(clock_div_t __x)
1741 {
1742  uint8_t __tmp = _BV(CLKPCE);
1743  __asm__ __volatile__ (
1744  "in __tmp_reg__,__SREG__" "\n\t"
1745  "cli" "\n\t"
1746  "out %1, %0" "\n\t"
1747  "out %1, %2" "\n\t"
1748  "out __SREG__, __tmp_reg__"
1749  : /* no outputs */
1750  : "d" (__tmp),
1751  "I" (_SFR_IO_ADDR(CLKPR)),
1752  "d" (__x)
1753  : "r0");
1754 }
1755 
1756 
1757 #define clock_prescale_get() (clock_div_t)(CLKPR & (uint8_t)((1<<CLKPS0)|(1<<CLKPS1)|(1<<CLKPS2)|(1<<CLKPS3)))
1758 
1759 #elif defined(__AVR_ATmega64__) \
1760 || defined(__AVR_ATmega103__) \
1761 || defined(__AVR_ATmega128__)
1762 
1763 //Enum is declared for code compatibility
1764 typedef enum
1765 {
1766  clock_div_1 = 1,
1767  clock_div_2 = 2,
1768  clock_div_4 = 4,
1769  clock_div_8 = 8,
1770  clock_div_16 = 16,
1771  clock_div_32 = 32,
1772  clock_div_64 = 64,
1773  clock_div_128 = 128
1774 } clock_div_t;
1775 
1776 static __inline__ void clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1777 
1778 void clock_prescale_set(clock_div_t __x)
1779 {
1780  if((__x <= 0) || (__x > 129))
1781  {
1782  return;//Invalid value.
1783  }
1784  else
1785  {
1786  uint8_t __tmp = 0;
1787  //Algo explained:
1788  //1 - Clear XDIV in order for it to accept a new value (actually only
1789  // XDIVEN need to be cleared, but clearing XDIV is faster than
1790  // read-modify-write since we will rewrite XDIV later anyway)
1791  //2 - wait 8 clock cycle for stability, see datasheet erreta
1792  //3 - Exist if requested prescaller is 1
1793  //4 - Calculate XDIV6..0 value = 129 - __x
1794  //5 - Set XDIVEN bit in calculated value
1795  //6 - write XDIV with calculated value
1796  //7 - wait 8 clock cycle for stability, see datasheet erreta
1797  __asm__ __volatile__ (
1798  "in __tmp_reg__,__SREG__" "\n\t"
1799  "cli" "\n\t"
1800  "out %1, __zero_reg__" "\n\t"
1801  "nop" "\n\t"
1802  "nop" "\n\t"
1803  "nop" "\n\t"
1804  "nop" "\n\t"
1805  "nop" "\n\t"
1806  "nop" "\n\t"
1807  "nop" "\n\t"
1808  "nop" "\n\t"
1809  "cpi %0, 0x01" "\n\t"
1810  "breq L_%=" "\n\t"
1811  "ldi %2, 0x81" "\n\t" //129
1812  "sub %2, %0" "\n\t"
1813  "ori %2, 0x80" "\n\t" //128
1814  "out %1, %2" "\n\t"
1815  "nop" "\n\t"
1816  "nop" "\n\t"
1817  "nop" "\n\t"
1818  "nop" "\n\t"
1819  "nop" "\n\t"
1820  "nop" "\n\t"
1821  "nop" "\n\t"
1822  "nop" "\n\t"
1823  "L_%=: " "out __SREG__, __tmp_reg__"
1824  : /* no outputs */
1825  :"d" (__x),
1826  "I" (_SFR_IO_ADDR(XDIV)),
1827  "d" (__tmp)
1828  : "r0");
1829  }
1830 }
1831 
1832 static __inline__ clock_div_t clock_prescale_get(void) __attribute__((__always_inline__));
1833 
1834 clock_div_t clock_prescale_get(void)
1835 {
1836  if(bit_is_clear(XDIV, XDIVEN))
1837  {
1838  return 1;
1839  }
1840  else
1841  {
1842  return (clock_div_t)(129 - (XDIV & 0x7F));
1843  }
1844 }
1845 
1846 #elif defined(__AVR_ATtiny4__) \
1847 || defined(__AVR_ATtiny5__) \
1848 || defined(__AVR_ATtiny9__) \
1849 || defined(__AVR_ATtiny10__) \
1850 || defined(__AVR_ATtiny20__) \
1851 || defined(__AVR_ATtiny40__) \
1852 
1853 typedef enum
1854 {
1855  clock_div_1 = 0,
1856  clock_div_2 = 1,
1857  clock_div_4 = 2,
1858  clock_div_8 = 3,
1859  clock_div_16 = 4,
1860  clock_div_32 = 5,
1861  clock_div_64 = 6,
1862  clock_div_128 = 7,
1863  clock_div_256 = 8
1864 } clock_div_t;
1865 
1866 static __inline__ void clock_prescale_set(clock_div_t) __attribute__((__always_inline__));
1867 
1868 void clock_prescale_set(clock_div_t __x)
1869 {
1870  uint8_t __tmp = 0xD8;
1871  __asm__ __volatile__ (
1872  "in __tmp_reg__,__SREG__" "\n\t"
1873  "cli" "\n\t"
1874  "out %1, %0" "\n\t"
1875  "out %2, %3" "\n\t"
1876  "out __SREG__, __tmp_reg__"
1877  : /* no outputs */
1878  : "d" (__tmp),
1879  "I" (_SFR_IO_ADDR(CCP)),
1880  "I" (_SFR_IO_ADDR(CLKPSR)),
1881  "d" (__x)
1882  : "r16");
1883 }
1884 
1885 #define clock_prescale_get() (clock_div_t)(CLKPSR & (uint8_t)((1<<CLKPS0)|(1<<CLKPS1)|(1<<CLKPS2)|(1<<CLKPS3)))
1886 
1887 #endif
1888 
1889 #endif /* _AVR_POWER_H_ */
#define clock_prescale_get()
Definition: power.h:1516
static __inline void __attribute__((__always_inline__)) __power_all_enable()
Definition: power.h:1188
#define bit_is_clear(sfr, bit)
Definition: sfr_defs.h:245
unsigned char uint8_t
Definition: stdint.h:83
void clock_prescale_set(clock_div_t __x)
Definition: power.h:1491
#define _BV(bit)
Definition: sfr_defs.h:208