Enum xmc4800::Interrupt

source · 
#[repr(u16)]
pub enum Interrupt {

Show 102 variants    SCU_0 = 0,
    ERU0_0 = 1,
    ERU0_1 = 2,
    ERU0_2 = 3,
    ERU0_3 = 4,
    ERU1_0 = 5,
    ERU1_1 = 6,
    ERU1_2 = 7,
    ERU1_3 = 8,
    PMU0_0 = 12,
    VADC0_C0_0 = 14,
    VADC0_C0_1 = 15,
    VADC0_C0_2 = 16,
    VADC0_C0_3 = 17,
    VADC0_G0_0 = 18,
    VADC0_G0_1 = 19,
    VADC0_G0_2 = 20,
    VADC0_G0_3 = 21,
    VADC0_G1_0 = 22,
    VADC0_G1_1 = 23,
    VADC0_G1_2 = 24,
    VADC0_G1_3 = 25,
    VADC0_G2_0 = 26,
    VADC0_G2_1 = 27,
    VADC0_G2_2 = 28,
    VADC0_G2_3 = 29,
    VADC0_G3_0 = 30,
    VADC0_G3_1 = 31,
    VADC0_G3_2 = 32,
    VADC0_G3_3 = 33,
    DSD0_M_0 = 34,
    DSD0_M_1 = 35,
    DSD0_M_2 = 36,
    DSD0_M_3 = 37,
    DSD0_A_4 = 38,
    DSD0_A_5 = 39,
    DSD0_A_6 = 40,
    DSD0_A_7 = 41,
    DAC0_0 = 42,
    DAC0_1 = 43,
    CCU40_0 = 44,
    CCU40_1 = 45,
    CCU40_2 = 46,
    CCU40_3 = 47,
    CCU41_0 = 48,
    CCU41_1 = 49,
    CCU41_2 = 50,
    CCU41_3 = 51,
    CCU42_0 = 52,
    CCU42_1 = 53,
    CCU42_2 = 54,
    CCU42_3 = 55,
    CCU43_0 = 56,
    CCU43_1 = 57,
    CCU43_2 = 58,
    CCU43_3 = 59,
    CCU80_0 = 60,
    CCU80_1 = 61,
    CCU80_2 = 62,
    CCU80_3 = 63,
    CCU81_0 = 64,
    CCU81_1 = 65,
    CCU81_2 = 66,
    CCU81_3 = 67,
    POSIF0_0 = 68,
    POSIF0_1 = 69,
    POSIF1_0 = 70,
    POSIF1_1 = 71,
    CAN0_0 = 76,
    CAN0_1 = 77,
    CAN0_2 = 78,
    CAN0_3 = 79,
    CAN0_4 = 80,
    CAN0_5 = 81,
    CAN0_6 = 82,
    CAN0_7 = 83,
    USIC0_0 = 84,
    USIC0_1 = 85,
    USIC0_2 = 86,
    USIC0_3 = 87,
    USIC0_4 = 88,
    USIC0_5 = 89,
    USIC1_0 = 90,
    USIC1_1 = 91,
    USIC1_2 = 92,
    USIC1_3 = 93,
    USIC1_4 = 94,
    USIC1_5 = 95,
    USIC2_0 = 96,
    USIC2_1 = 97,
    USIC2_2 = 98,
    USIC2_3 = 99,
    USIC2_4 = 100,
    USIC2_5 = 101,
    LEDTS0_0 = 102,
    FCE0_0 = 104,
    GPDMA0_0 = 105,
    SDMMC0_0 = 106,
    USB0_0 = 107,
    ETH0_0 = 108,
    ECAT0_0 = 109,
    GPDMA1_0 = 110,

}
Expand description

Enumeration of all the interrupts.

Variants§

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SCU_0 = 0

0 - System Control

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ERU0_0 = 1

1 - External Request Unit 0

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ERU0_1 = 2

2 - External Request Unit 0

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ERU0_2 = 3

3 - External Request Unit 0

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ERU0_3 = 4

4 - External Request Unit 0

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ERU1_0 = 5

5 - External Request Unit 1

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ERU1_1 = 6

6 - External Request Unit 1

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ERU1_2 = 7

7 - External Request Unit 1

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ERU1_3 = 8

8 - External Request Unit 1

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PMU0_0 = 12

12 - Program Management Unit

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VADC0_C0_0 = 14

14 - Analog to Digital Converter Common Block 0

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VADC0_C0_1 = 15

15 - Analog to Digital Converter Common Block 0

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VADC0_C0_2 = 16

16 - Analog to Digital Converter Common Block 0

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VADC0_C0_3 = 17

17 - Analog to Digital Converter Common Block 0

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VADC0_G0_0 = 18

18 - Analog to Digital Converter Group 0

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VADC0_G0_1 = 19

19 - Analog to Digital Converter Group 0

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VADC0_G0_2 = 20

20 - Analog to Digital Converter Group 0

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VADC0_G0_3 = 21

21 - Analog to Digital Converter Group 0

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VADC0_G1_0 = 22

22 - Analog to Digital Converter Group 1

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VADC0_G1_1 = 23

23 - Analog to Digital Converter Group 1

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VADC0_G1_2 = 24

24 - Analog to Digital Converter Group 1

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VADC0_G1_3 = 25

25 - Analog to Digital Converter Group 1

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VADC0_G2_0 = 26

26 - Analog to Digital Converter Group 2

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VADC0_G2_1 = 27

27 - Analog to Digital Converter Group 2

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VADC0_G2_2 = 28

28 - Analog to Digital Converter Group 2

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VADC0_G2_3 = 29

29 - Analog to Digital Converter Group 2

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VADC0_G3_0 = 30

30 - Analog to Digital Converter Group 3

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VADC0_G3_1 = 31

31 - Analog to Digital Converter Group 3

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VADC0_G3_2 = 32

32 - Analog to Digital Converter Group 3

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VADC0_G3_3 = 33

33 - Analog to Digital Converter Group 3

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DSD0_M_0 = 34

34 - Delta Sigma Demodulator Main

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DSD0_M_1 = 35

35 - Delta Sigma Demodulator Main

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DSD0_M_2 = 36

36 - Delta Sigma Demodulator Main

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DSD0_M_3 = 37

37 - Delta Sigma Demodulator Main

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DSD0_A_4 = 38

38 - Delta Sigma Demodulator Auxiliary

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DSD0_A_5 = 39

39 - Delta Sigma Demodulator Auxiliary

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DSD0_A_6 = 40

40 - Delta Sigma Demodulator Auxiliary

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DSD0_A_7 = 41

41 - Delta Sigma Demodulator Auxiliary

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DAC0_0 = 42

42 - Digital to Analog Converter

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DAC0_1 = 43

43 - Digital to Analog Converter

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CCU40_0 = 44

44 - Capture Compare Unit 4 (Module 0)

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CCU40_1 = 45

45 - Capture Compare Unit 4 (Module 0)

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CCU40_2 = 46

46 - Capture Compare Unit 4 (Module 0)

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CCU40_3 = 47

47 - Capture Compare Unit 4 (Module 0)

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CCU41_0 = 48

48 - Capture Compare Unit 4 (Module 1)

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CCU41_1 = 49

49 - Capture Compare Unit 4 (Module 1)

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CCU41_2 = 50

50 - Capture Compare Unit 4 (Module 1)

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CCU41_3 = 51

51 - Capture Compare Unit 4 (Module 1)

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CCU42_0 = 52

52 - Capture Compare Unit 4 (Module 2)

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CCU42_1 = 53

53 - Capture Compare Unit 4 (Module 2)

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CCU42_2 = 54

54 - Capture Compare Unit 4 (Module 2)

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CCU42_3 = 55

55 - Capture Compare Unit 4 (Module 2)

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CCU43_0 = 56

56 - Capture Compare Unit 4 (Module 3)

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CCU43_1 = 57

57 - Capture Compare Unit 4 (Module 3)

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CCU43_2 = 58

58 - Capture Compare Unit 4 (Module 3)

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CCU43_3 = 59

59 - Capture Compare Unit 4 (Module 3)

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CCU80_0 = 60

60 - Capture Compare Unit 8 (Module 0)

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CCU80_1 = 61

61 - Capture Compare Unit 8 (Module 0)

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CCU80_2 = 62

62 - Capture Compare Unit 8 (Module 0)

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CCU80_3 = 63

63 - Capture Compare Unit 8 (Module 0)

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CCU81_0 = 64

64 - Capture Compare Unit 8 (Module 1)

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CCU81_1 = 65

65 - Capture Compare Unit 8 (Module 1)

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CCU81_2 = 66

66 - Capture Compare Unit 8 (Module 1)

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CCU81_3 = 67

67 - Capture Compare Unit 8 (Module 1)

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POSIF0_0 = 68

68 - Position Interface (Module 0)

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POSIF0_1 = 69

69 - Position Interface (Module 0)

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POSIF1_0 = 70

70 - Position Interface (Module 1)

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POSIF1_1 = 71

71 - Position Interface (Module 1)

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CAN0_0 = 76

76 - MultiCAN

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CAN0_1 = 77

77 - MultiCAN

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CAN0_2 = 78

78 - MultiCAN

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CAN0_3 = 79

79 - MultiCAN

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CAN0_4 = 80

80 - MultiCAN

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CAN0_5 = 81

81 - MultiCAN

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CAN0_6 = 82

82 - MultiCAN

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CAN0_7 = 83

83 - MultiCAN

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USIC0_0 = 84

84 - Universal Serial Interface Channel (Module 0)

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USIC0_1 = 85

85 - Universal Serial Interface Channel (Module 0)

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USIC0_2 = 86

86 - Universal Serial Interface Channel (Module 0)

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USIC0_3 = 87

87 - Universal Serial Interface Channel (Module 0)

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USIC0_4 = 88

88 - Universal Serial Interface Channel (Module 0)

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USIC0_5 = 89

89 - Universal Serial Interface Channel (Module 0)

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USIC1_0 = 90

90 - Universal Serial Interface Channel (Module 1)

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USIC1_1 = 91

91 - Universal Serial Interface Channel (Module 1)

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USIC1_2 = 92

92 - Universal Serial Interface Channel (Module 1)

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USIC1_3 = 93

93 - Universal Serial Interface Channel (Module 1)

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USIC1_4 = 94

94 - Universal Serial Interface Channel (Module 1)

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USIC1_5 = 95

95 - Universal Serial Interface Channel (Module 1)

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USIC2_0 = 96

96 - Universal Serial Interface Channel (Module 2)

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USIC2_1 = 97

97 - Universal Serial Interface Channel (Module 2)

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USIC2_2 = 98

98 - Universal Serial Interface Channel (Module 2)

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USIC2_3 = 99

99 - Universal Serial Interface Channel (Module 2)

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USIC2_4 = 100

100 - Universal Serial Interface Channel (Module 2)

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USIC2_5 = 101

101 - Universal Serial Interface Channel (Module 2)

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LEDTS0_0 = 102

102 - LED and Touch Sense Control Unit (Module 0)

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FCE0_0 = 104

104 - Flexible CRC Engine

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GPDMA0_0 = 105

105 - General Purpose DMA Unit 0

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SDMMC0_0 = 106

106 - Multi Media Card Interface

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USB0_0 = 107

107 - Universal Serial Bus (Module 0)

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ETH0_0 = 108

108 - Ethernet (Module 0)

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ECAT0_0 = 109

109 - EtherCAT (Module 0)

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GPDMA1_0 = 110

110 - General Purpose DMA Unit 1

Trait Implementations§

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impl Clone for Interrupt

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fn clone(&self) -> Interrupt

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for Interrupt

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl InterruptNumber for Interrupt

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fn number(self) -> u16

Return the interrupt number associated with this variant. Read more
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impl PartialEq for Interrupt

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fn eq(&self, other: &Interrupt) -> bool

This method tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl Copy for Interrupt

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impl Eq for Interrupt

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impl StructuralPartialEq for Interrupt

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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.