371 lines
12 KiB
Plaintext
371 lines
12 KiB
Plaintext
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Programm.elf: file format elf32-avr
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Sections:
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Idx Name Size VMA LMA File off Algn
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0 .data 00000000 00800200 000001de 00000252 2**0
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CONTENTS, ALLOC, LOAD, DATA
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1 .text 000001de 00000000 00000000 00000074 2**1
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CONTENTS, ALLOC, LOAD, READONLY, CODE
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2 .stab 000006e4 00000000 00000000 00000254 2**2
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CONTENTS, READONLY, DEBUGGING
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3 .stabstr 00000082 00000000 00000000 00000938 2**0
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CONTENTS, READONLY, DEBUGGING
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4 .comment 0000002f 00000000 00000000 000009ba 2**0
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CONTENTS, READONLY
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5 .debug_aranges 00000028 00000000 00000000 000009e9 2**0
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CONTENTS, READONLY, DEBUGGING
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6 .debug_info 00000ee2 00000000 00000000 00000a11 2**0
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CONTENTS, READONLY, DEBUGGING
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7 .debug_abbrev 000002e1 00000000 00000000 000018f3 2**0
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CONTENTS, READONLY, DEBUGGING
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8 .debug_line 000002cd 00000000 00000000 00001bd4 2**0
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CONTENTS, READONLY, DEBUGGING
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9 .debug_frame 00000034 00000000 00000000 00001ea4 2**2
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CONTENTS, READONLY, DEBUGGING
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10 .debug_str 00000693 00000000 00000000 00001ed8 2**0
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CONTENTS, READONLY, DEBUGGING
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11 .debug_loc 000000f0 00000000 00000000 0000256b 2**0
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CONTENTS, READONLY, DEBUGGING
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12 .debug_ranges 00000060 00000000 00000000 0000265b 2**0
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CONTENTS, READONLY, DEBUGGING
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Disassembly of section .text:
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00000000 <__vectors>:
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0: 0c 94 75 00 jmp 0xea ; 0xea <__ctors_end>
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4: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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8: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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10: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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14: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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18: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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1c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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20: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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24: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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28: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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2c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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30: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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34: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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38: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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3c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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40: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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44: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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48: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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4c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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50: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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54: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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58: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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5c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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60: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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64: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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68: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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6c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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70: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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74: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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78: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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7c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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80: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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84: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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88: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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8c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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90: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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94: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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98: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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9c: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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a0: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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a4: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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a8: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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ac: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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b0: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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b4: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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b8: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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bc: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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c0: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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c4: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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c8: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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cc: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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d0: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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d4: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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d8: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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dc: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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e0: 0c 94 99 00 jmp 0x132 ; 0x132 <__bad_interrupt>
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000000e4 <__trampolines_start>:
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e4: 0c 94 d6 00 jmp 0x1ac ; 0x1ac <_GLOBAL__sub_I_rot>
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000000e8 <__ctors_start>:
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e8: d6 00 .word 0x00d6 ; ????
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000000ea <__ctors_end>:
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ea: 11 24 eor r1, r1
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ec: 1f be out 0x3f, r1 ; 63
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ee: cf ef ldi r28, 0xFF ; 255
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f0: d1 e2 ldi r29, 0x21 ; 33
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f2: de bf out 0x3e, r29 ; 62
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f4: cd bf out 0x3d, r28 ; 61
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f6: 00 e0 ldi r16, 0x00 ; 0
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f8: 0c bf out 0x3c, r16 ; 60
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000000fa <__do_clear_bss>:
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fa: 22 e0 ldi r18, 0x02 ; 2
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fc: a0 e0 ldi r26, 0x00 ; 0
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fe: b2 e0 ldi r27, 0x02 ; 2
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100: 01 c0 rjmp .+2 ; 0x104 <.do_clear_bss_start>
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00000102 <.do_clear_bss_loop>:
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102: 1d 92 st X+, r1
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00000104 <.do_clear_bss_start>:
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104: a0 30 cpi r26, 0x00 ; 0
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106: b2 07 cpc r27, r18
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108: e1 f7 brne .-8 ; 0x102 <.do_clear_bss_loop>
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0000010a <__do_global_ctors>:
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10a: 10 e0 ldi r17, 0x00 ; 0
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10c: ca ee ldi r28, 0xEA ; 234
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10e: d0 e0 ldi r29, 0x00 ; 0
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110: 00 e0 ldi r16, 0x00 ; 0
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112: 06 c0 rjmp .+12 ; 0x120 <__do_global_ctors+0x16>
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114: 22 97 sbiw r28, 0x02 ; 2
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116: 01 09 sbc r16, r1
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118: fe 01 movw r30, r28
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11a: 0b bf out 0x3b, r16 ; 59
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11c: 0e 94 e9 00 call 0x1d2 ; 0x1d2 <__tablejump_elpm__>
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120: c8 3e cpi r28, 0xE8 ; 232
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122: d1 07 cpc r29, r17
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124: 80 e0 ldi r24, 0x00 ; 0
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126: 08 07 cpc r16, r24
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128: a9 f7 brne .-22 ; 0x114 <__do_global_ctors+0xa>
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12a: 0e 94 9b 00 call 0x136 ; 0x136 <main>
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12e: 0c 94 ed 00 jmp 0x1da ; 0x1da <_exit>
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00000132 <__bad_interrupt>:
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132: 0c 94 00 00 jmp 0 ; 0x0 <__vectors>
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00000136 <main>:
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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136: e2 e0 ldi r30, 0x02 ; 2
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138: f1 e0 ldi r31, 0x01 ; 1
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namespace avrlib {
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struct portb
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{
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static uint8_t port() { return PORTB; }
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static void port(uint8_t v) { PORTB = v; }
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13a: 28 9a sbi 0x05, 0 ; 5
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#else
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//round up by default
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__ticks_dc = (uint32_t)(ceil(fabs(__tmp)));
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#endif
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__builtin_avr_delay_cycles(__ticks_dc);
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13c: 2f ef ldi r18, 0xFF ; 255
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13e: 83 e2 ldi r24, 0x23 ; 35
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140: 94 ef ldi r25, 0xF4 ; 244
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142: 21 50 subi r18, 0x01 ; 1
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144: 80 40 sbci r24, 0x00 ; 0
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146: 90 40 sbci r25, 0x00 ; 0
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148: e1 f7 brne .-8 ; 0x142 <main+0xc>
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14a: 00 c0 rjmp .+0 ; 0x14c <main+0x16>
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14c: 00 00 nop
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14e: 28 98 cbi 0x05, 0 ; 5
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150: 80 81 ld r24, Z
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struct pin
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{
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static void set(bool value = true)
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{
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if (value)
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Port::port(Port::port() | (1<<Pin));
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152: 80 64 ori r24, 0x40 ; 64
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static void port(uint8_t v) { PORTH = v; }
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154: 80 83 st Z, r24
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156: 2f ef ldi r18, 0xFF ; 255
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158: 83 ed ldi r24, 0xD3 ; 211
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15a: 90 e3 ldi r25, 0x30 ; 48
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15c: 21 50 subi r18, 0x01 ; 1
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15e: 80 40 sbci r24, 0x00 ; 0
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160: 90 40 sbci r25, 0x00 ; 0
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162: e1 f7 brne .-8 ; 0x15c <main+0x26>
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164: 00 c0 rjmp .+0 ; 0x166 <main+0x30>
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166: 00 00 nop
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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168: 80 81 ld r24, Z
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else
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Port::port(Port::port() & ~(1<<Pin));
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16a: 8f 7b andi r24, 0xBF ; 191
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static void port(uint8_t v) { PORTH = v; }
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16c: 80 83 st Z, r24
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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16e: 80 81 ld r24, Z
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struct pin
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{
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static void set(bool value = true)
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{
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if (value)
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Port::port(Port::port() | (1<<Pin));
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170: 80 62 ori r24, 0x20 ; 32
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static void port(uint8_t v) { PORTH = v; }
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172: 80 83 st Z, r24
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174: 2f ef ldi r18, 0xFF ; 255
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176: 83 e2 ldi r24, 0x23 ; 35
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178: 94 ef ldi r25, 0xF4 ; 244
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17a: 21 50 subi r18, 0x01 ; 1
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17c: 80 40 sbci r24, 0x00 ; 0
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17e: 90 40 sbci r25, 0x00 ; 0
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180: e1 f7 brne .-8 ; 0x17a <main+0x44>
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182: 00 c0 rjmp .+0 ; 0x184 <main+0x4e>
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184: 00 00 nop
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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186: 80 81 ld r24, Z
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188: 80 64 ori r24, 0x40 ; 64
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static void port(uint8_t v) { PORTH = v; }
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18a: 80 83 st Z, r24
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18c: 2f ef ldi r18, 0xFF ; 255
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18e: 83 ed ldi r24, 0xD3 ; 211
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190: 90 e3 ldi r25, 0x30 ; 48
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192: 21 50 subi r18, 0x01 ; 1
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194: 80 40 sbci r24, 0x00 ; 0
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196: 90 40 sbci r25, 0x00 ; 0
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198: e1 f7 brne .-8 ; 0x192 <main+0x5c>
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19a: 00 c0 rjmp .+0 ; 0x19c <main+0x66>
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19c: 00 00 nop
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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19e: 80 81 ld r24, Z
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else
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Port::port(Port::port() & ~(1<<Pin));
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1a0: 8f 7b andi r24, 0xBF ; 191
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static void port(uint8_t v) { PORTH = v; }
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1a2: 80 83 st Z, r24
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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1a4: 80 81 ld r24, Z
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1a6: 8f 7d andi r24, 0xDF ; 223
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static void port(uint8_t v) { PORTH = v; }
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1a8: 80 83 st Z, r24
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1aa: c7 cf rjmp .-114 ; 0x13a <main+0x4>
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000001ac <_GLOBAL__sub_I_rot>:
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static uint8_t pin() { return PINH; }
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static void pin(uint8_t v) { PINH = v; }
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static uint8_t dir() { return DDRH; }
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1ac: a1 e0 ldi r26, 0x01 ; 1
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1ae: b1 e0 ldi r27, 0x01 ; 1
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1b0: 8c 91 ld r24, X
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static bool value() { return (Port::pin() & (1<<Pin)) != 0; }
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static void output(bool value)
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{
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if (value)
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Port::dir(Port::dir() | (1<<Pin));
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1b2: 80 62 ori r24, 0x20 ; 32
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static void dir(uint8_t v) { DDRH = v; }
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1b4: 8c 93 st X, r24
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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1b6: e2 e0 ldi r30, 0x02 ; 2
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1b8: f1 e0 ldi r31, 0x01 ; 1
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1ba: 80 81 ld r24, Z
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static void set(bool value = true)
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{
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if (value)
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Port::port(Port::port() | (1<<Pin));
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else
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Port::port(Port::port() & ~(1<<Pin));
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1bc: 8f 7d andi r24, 0xDF ; 223
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static void port(uint8_t v) { PORTH = v; }
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1be: 80 83 st Z, r24
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static uint8_t pin() { return PINB; }
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static void pin(uint8_t v) { PINB = v; }
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static uint8_t dir() { return DDRB; }
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static void dir(uint8_t v) { DDRB = v; }
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1c0: 20 9a sbi 0x04, 0 ; 4
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namespace avrlib {
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struct portb
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{
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static uint8_t port() { return PORTB; }
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static void port(uint8_t v) { PORTB = v; }
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1c2: 28 98 cbi 0x05, 0 ; 5
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static uint8_t pin() { return PINH; }
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static void pin(uint8_t v) { PINH = v; }
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static uint8_t dir() { return DDRH; }
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1c4: 8c 91 ld r24, X
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static bool value() { return (Port::pin() & (1<<Pin)) != 0; }
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static void output(bool value)
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{
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if (value)
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Port::dir(Port::dir() | (1<<Pin));
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1c6: 80 64 ori r24, 0x40 ; 64
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static void dir(uint8_t v) { DDRH = v; }
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1c8: 8c 93 st X, r24
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namespace avrlib {
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struct porth
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{
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static uint8_t port() { return PORTH; }
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1ca: 80 81 ld r24, Z
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static void set(bool value = true)
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{
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if (value)
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Port::port(Port::port() | (1<<Pin));
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else
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Port::port(Port::port() & ~(1<<Pin));
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1cc: 8f 7b andi r24, 0xBF ; 191
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static void port(uint8_t v) { PORTH = v; }
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1ce: 80 83 st Z, r24
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1d0: 08 95 ret
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000001d2 <__tablejump_elpm__>:
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1d2: 07 90 elpm r0, Z+
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1d4: f6 91 elpm r31, Z
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1d6: e0 2d mov r30, r0
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1d8: 19 94 eijmp
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000001da <_exit>:
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1da: f8 94 cli
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000001dc <__stop_program>:
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1dc: ff cf rjmp .-2 ; 0x1dc <__stop_program>
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