Include
stdbool.h |
sys/attribs.h |
xc.h |
Configuration
AO_IR_INT0_*
#define AO_IR_INT0_ATTRIBUTE __ISR(_EXTERNAL_0_VECTOR, IPL4SRS)
The interrupt handler attribute.
#define AO_IR_INT0_PRIO (4)
#define AO_IR_INT0_SUBPRIO (0)
The interrupt priority and subpriority.
AO_IR_INT1_*
#define AO_IR_INT1_ATTRIBUTE __ISR(_EXTERNAL_1_VECTOR, IPL4SRS)
The interrupt handler attribute.
#define AO_IR_INT1_PRIO (4)
#define AO_IR_INT1_SUBPRIO (0)
The interrupt priority and subpriority.
AO_IR_INT2_*
#define AO_IR_INT2_ATTRIBUTE __ISR(_EXTERNAL_2_VECTOR, IPL4SRS)
The interrupt handler attribute.
#define AO_IR_INT2_PRIO (4)
#define AO_IR_INT2_SUBPRIO (0)
The interrupt priority and subpriority.
AO_IR_INT3_*
#define AO_IR_INT3_ATTRIBUTE __ISR(_EXTERNAL_3_VECTOR, IPL4SRS)
The interrupt handler attribute.
#define AO_IR_INT3_PRIO (4)
#define AO_IR_INT3_SUBPRIO (0)
The interrupt priority and subpriority.
AO_IR_INT4_*
#define AO_IR_INT4_ATTRIBUTE __ISR(_EXTERNAL_4_VECTOR, IPL4SRS)
The interrupt handler attribute.
#define AO_IR_INT4_PRIO (4)
#define AO_IR_INT4_SUBPRIO (0)
The interrupt priority and subpriority.
Functions
ao_ir_int0_*
#define ao_ir_int0_enable() { IEC0SET = _IEC0_INT0IE_MASK; }
#define ao_ir_int0_disable() { IEC0CLR = _IEC0_INT0IE_MASK; }
Enables or disables the interrupt.
#define ao_ir_int0_request() { IFS0SET = _IFS0_INT0IF_MASK; }
#define ao_ir_int0_reply() { IFS0CLR = _IFS0_INT0IF_MASK; }
Requests the interrupt or replies thereto.
#define ao_ir_int0_falling() { INTCONCLR = _INTCON_INT0EP_MASK; }
#define ao_ir_int0_rising() { INTCONSET = _INTCON_INT0EP_MASK; }
Sets up the interrupt to detect falling or rising edges, respectively.
#define ao_ir_int0_is_enabled() \
( \
(IEC0 & _IEC0_INT0IE_MASK) \
? true \
: false \
)
Checks whether the interrupt is enabled.
#define ao_ir_int0_is_pending() \
( \
(IFS0 & _IFS0_INT0IF_MASK) \
? true \
: false \
)
Checks whether the interrupt is pending.
#define ao_ir_int0_is_falling() ((INTCON & _INTCON_INT0EP_MASK) ? false : true )
#define ao_ir_int0_is_rising() ((INTCON & _INTCON_INT0EP_MASK) ? true : false)
Checks whether the interrupt detects falling or rising edges, respectively.
ao_ir_int1_*
#define ao_ir_int1_enable() { IEC0SET = _IEC0_INT1IE_MASK; }
#define ao_ir_int1_disable() { IEC0CLR = _IEC0_INT1IE_MASK; }
Enables or disables the interrupt.
#define ao_ir_int1_request() { IFS0SET = _IFS0_INT1IF_MASK; }
#define ao_ir_int1_reply() { IFS0CLR = _IFS0_INT1IF_MASK; }
Requests the interrupt or replies thereto.
#define ao_ir_int1_falling() { INTCONCLR = _INTCON_INT1EP_MASK; }
#define ao_ir_int1_rising() { INTCONSET = _INTCON_INT1EP_MASK; }
Sets up the interrupt to detect falling or rising edges, respectively.
#define ao_ir_int1_is_enabled() \
( \
(IEC0 & _IEC0_INT1IE_MASK) \
? true \
: false \
)
Checks whether the interrupt is enabled.
#define ao_ir_int1_is_pending() \
( \
(IFS0 & _IFS0_INT1IF_MASK) \
? true \
: false \
)
Checks whether the interrupt is pending.
#define ao_ir_int1_is_falling() ((INTCON & _INTCON_INT1EP_MASK) ? false : true )
#define ao_ir_int1_is_rising() ((INTCON & _INTCON_INT1EP_MASK) ? true : false)
Checks whether the interrupt detects falling or rising edges, respectively.
ao_ir_int2_*
#define ao_ir_int2_enable() { IEC0SET = _IEC0_INT2IE_MASK; }
#define ao_ir_int2_disable() { IEC0CLR = _IEC0_INT2IE_MASK; }
Enables or disables the interrupt.
#define ao_ir_int2_request() { IFS0SET = _IFS0_INT2IF_MASK; }
#define ao_ir_int2_reply() { IFS0CLR = _IFS0_INT2IF_MASK; }
Requests the interrupt or replies thereto.
#define ao_ir_int2_falling() { INTCONCLR = _INTCON_INT2EP_MASK; }
#define ao_ir_int2_rising() { INTCONSET = _INTCON_INT2EP_MASK; }
Sets up the interrupt to detect falling or rising edges, respectively.
#define ao_ir_int2_is_enabled() \
( \
(IEC0 & _IEC0_INT2IE_MASK) \
? true \
: false \
)
Checks whether the interrupt is enabled.
#define ao_ir_int2_is_pending() \
( \
(IFS0 & _IFS0_INT2IF_MASK) \
? true \
: false \
)
Checks whether the interrupt is pending.
#define ao_ir_int2_is_falling() ((INTCON & _INTCON_INT2EP_MASK) ? false : true )
#define ao_ir_int2_is_rising() ((INTCON & _INTCON_INT2EP_MASK) ? true : false)
Checks whether the interrupt detects falling or rising edges, respectively.
ao_ir_int3_*
#define ao_ir_int3_enable() { IEC0SET = _IEC0_INT3IE_MASK; }
#define ao_ir_int3_disable() { IEC0CLR = _IEC0_INT3IE_MASK; }
Enables or disables the interrupt.
#define ao_ir_int3_request() { IFS0SET = _IFS0_INT3IF_MASK; }
#define ao_ir_int3_reply() { IFS0CLR = _IFS0_INT3IF_MASK; }
Requests the interrupt or replies thereto.
#define ao_ir_int3_falling() { INTCONCLR = _INTCON_INT3EP_MASK; }
#define ao_ir_int3_rising() { INTCONSET = _INTCON_INT3EP_MASK; }
Sets up the interrupt to detect falling or rising edges, respectively.
#define ao_ir_int3_is_enabled() \
( \
(IEC0 & _IEC0_INT3IE_MASK) \
? true \
: false \
)
Checks whether the interrupt is enabled.
#define ao_ir_int3_is_pending() \
( \
(IFS0 & _IFS0_INT3IF_MASK) \
? true \
: false \
)
Checks whether the interrupt is pending.
#define ao_ir_int3_is_falling() ((INTCON & _INTCON_INT3EP_MASK) ? false : true )
#define ao_ir_int3_is_rising() ((INTCON & _INTCON_INT3EP_MASK) ? true : false)
Checks whether the interrupt detects falling or rising edges, respectively.
ao_ir_int4_*
#define ao_ir_int4_enable() { IEC0SET = _IEC0_INT4IE_MASK; }
#define ao_ir_int4_disable() { IEC0CLR = _IEC0_INT4IE_MASK; }
Enables or disables the interrupt.
#define ao_ir_int4_request() { IFS0SET = _IFS0_INT4IF_MASK; }
#define ao_ir_int4_reply() { IFS0CLR = _IFS0_INT4IF_MASK; }
Requests the interrupt or replies thereto.
#define ao_ir_int4_falling() { INTCONCLR = _INTCON_INT4EP_MASK; }
#define ao_ir_int4_rising() { INTCONSET = _INTCON_INT4EP_MASK; }
Sets up the interrupt to detect falling or rising edges, respectively.
#define ao_ir_int4_is_enabled() \
( \
(IEC0 & _IEC0_INT4IE_MASK) \
? true \
: false \
)
Checks whether the interrupt is enabled.
#define ao_ir_int4_is_pending() \
( \
(IFS0 & _IFS0_INT4IF_MASK) \
? true \
: false \
)
Checks whether the interrupt is pending.
#define ao_ir_int4_is_falling() ((INTCON & _INTCON_INT4EP_MASK) ? false : true )
#define ao_ir_int4_is_rising() ((INTCON & _INTCON_INT4EP_MASK) ? true : false)
Checks whether the interrupt detects falling or rising edges, respectively.