Use assembly for AVR ISR vectors
Co-Authored-By: ejtagle <ejtagle@hotmail.com>
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206014a957
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@ -162,24 +162,148 @@ extern "C" {
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* (otherwise, characters will be lost due to UART overflow).
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* (otherwise, characters will be lost due to UART overflow).
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* Then: Stepper, Endstops, Temperature, and -finally- all others.
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* Then: Stepper, Endstops, Temperature, and -finally- all others.
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*/
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*/
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#define HAL_timer_isr_prologue_0 do{ DISABLE_TEMPERATURE_INTERRUPT(); sei(); }while(0)
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#define HAL_timer_isr_prologue(TIMER_NUM)
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#define HAL_timer_isr_epilogue_0 do{ cli(); ENABLE_TEMPERATURE_INTERRUPT(); }while(0)
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#define HAL_timer_isr_epilogue(TIMER_NUM)
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#define HAL_timer_isr_prologue_1 \
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/* 18 cycles maximum latency */
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const bool temp_isr_was_enabled = TEMPERATURE_ISR_ENABLED(); \
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#define HAL_STEP_TIMER_ISR \
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do{ \
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extern "C" void TIMER1_COMPA_vect (void) __attribute__ ((signal, naked, used, externally_visible)); \
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DISABLE_TEMPERATURE_INTERRUPT(); \
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extern "C" void TIMER1_COMPA_vect_bottom (void) asm ("TIMER1_COMPA_vect_bottom") __attribute__ ((used, externally_visible, noinline)); \
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DISABLE_STEPPER_DRIVER_INTERRUPT(); \
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void TIMER1_COMPA_vect (void) { \
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sei(); \
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__asm__ __volatile__ ( \
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}while(0)
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A("push r16") /* 2 Save R16 */ \
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A("in r16, __SREG__") /* 1 Get SREG */ \
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A("push r16") /* 2 Save SREG into stack */ \
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A("lds r16, %[timsk0]") /* 2 Load into R0 the Temperature timer Interrupt mask register */ \
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A("push r16") /* 2 Save TIMSK0 into the stack */ \
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A("andi r16,~%[msk0]") /* 1 Disable the temperature ISR */ \
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A("sts %[timsk0], r16") /* 2 And set the new value */ \
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A("lds r16, %[timsk1]") /* 2 Load into R0 the stepper timer Interrupt mask register [TIMSK1] */ \
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A("andi r16,~%[msk1]") /* 1 Disable the stepper ISR */ \
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A("sts %[timsk1], r16") /* 2 And set the new value */ \
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A("sei") /* 1 Enable global interrupts - stepper and temperature ISRs are disabled, so no risk of reentry or being preempted by the temperature ISR */ \
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A("push r16") /* 2 Save TIMSK1 into stack */ \
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A("in r16, 0x3B") /* 1 Get RAMPZ register */ \
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A("push r16") /* 2 Save RAMPZ into stack */ \
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A("in r16, 0x3C") /* 1 Get EIND register */ \
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A("push r0") /* C runtime can modify all the following registers without restoring them */ \
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A("push r1") \
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A("push r18") \
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A("push r19") \
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A("push r20") \
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A("push r21") \
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A("push r22") \
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A("push r23") \
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A("push r24") \
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A("push r25") \
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A("push r26") \
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A("push r27") \
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A("push r30") \
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A("push r31") \
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A("clr r1") /* C runtime expects this register to be 0 */ \
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A("call TIMER1_COMPA_vect_bottom") /* Call the bottom handler - No inlining allowed, otherwise registers used are not saved */ \
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A("pop r31") \
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A("pop r30") \
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A("pop r27") \
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A("pop r26") \
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A("pop r25") \
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A("pop r24") \
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A("pop r23") \
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A("pop r22") \
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A("pop r21") \
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A("pop r20") \
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A("pop r19") \
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A("pop r18") \
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A("pop r1") \
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A("pop r0") \
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A("out 0x3C, r16") /* 1 Restore EIND register */ \
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A("pop r16") /* 2 Get the original RAMPZ register value */ \
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A("out 0x3B, r16") /* 1 Restore RAMPZ register to its original value */ \
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A("pop r16") /* 2 Get the original TIMSK1 value but with stepper ISR disabled */ \
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A("ori r16,%[msk1]") /* 1 Reenable the stepper ISR */ \
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A("cli") /* 1 Disable global interrupts - Reenabling Stepper ISR can reenter amd temperature can reenter, and we want that, if it happens, after this ISR has ended */ \
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A("sts %[timsk1], r16") /* 2 And restore the old value - This reenables the stepper ISR */ \
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A("pop r16") /* 2 Get the temperature timer Interrupt mask register [TIMSK0] */ \
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A("sts %[timsk0], r16") /* 2 And restore the old value - This reenables the temperature ISR */ \
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A("pop r16") /* 2 Get the old SREG value */ \
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A("out __SREG__, r16") /* 1 And restore the SREG value */ \
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A("pop r16") /* 2 Restore R16 value */ \
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A("reti") /* 4 Return from interrupt */ \
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: \
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: [timsk0] "i" ((uint16_t)&TIMSK0), \
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[timsk1] "i" ((uint16_t)&TIMSK1), \
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[msk0] "M" ((uint8_t)(1<<OCIE0B)),\
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[msk1] "M" ((uint8_t)(1<<OCIE1A)) \
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: \
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); \
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} \
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void TIMER1_COMPA_vect_bottom(void)
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#define HAL_timer_isr_epilogue_1 do{ cli(); ENABLE_STEPPER_DRIVER_INTERRUPT(); if (temp_isr_was_enabled) ENABLE_TEMPERATURE_INTERRUPT(); }while(0)
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/* 14 cycles maximum latency */
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#define HAL_TEMP_TIMER_ISR \
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#define HAL_timer_isr_prologue(TIMER_NUM) _CAT(HAL_timer_isr_prologue_, TIMER_NUM)
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extern "C" void TIMER0_COMPB_vect (void) __attribute__ ((signal, naked, used, externally_visible)); \
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#define HAL_timer_isr_epilogue(TIMER_NUM) _CAT(HAL_timer_isr_epilogue_, TIMER_NUM)
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extern "C" void TIMER0_COMPB_vect_bottom(void) asm ("TIMER0_COMPB_vect_bottom") __attribute__ ((used, externally_visible, noinline)); \
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void TIMER0_COMPB_vect (void) { \
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#define HAL_STEP_TIMER_ISR ISR(TIMER1_COMPA_vect)
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__asm__ __volatile__ ( \
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#define HAL_TEMP_TIMER_ISR ISR(TIMER0_COMPB_vect)
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A("push r16") /* 2 Save R16 */ \
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A("in r16, __SREG__") /* 1 Get SREG */ \
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A("push r16") /* 2 Save SREG into stack */ \
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A("lds r16, %[timsk0]") /* 2 Load into R0 the Temperature timer Interrupt mask register */ \
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A("andi r16,~%[msk0]") /* 1 Disable the temperature ISR */ \
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A("sts %[timsk0], r16") /* 2 And set the new value */ \
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A("sei") /* 1 Enable global interrupts - It is safe, as the temperature ISR is disabled, so we cannot reenter it */ \
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A("push r16") /* 2 Save TIMSK0 into stack */ \
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A("in r16, 0x3B") /* 1 Get RAMPZ register */ \
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A("push r16") /* 2 Save RAMPZ into stack */ \
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A("in r16, 0x3C") /* 1 Get EIND register */ \
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A("push r0") /* C runtime can modify all the following registers without restoring them */ \
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A("push r1") \
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A("push r18") \
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A("push r19") \
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A("push r20") \
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A("push r21") \
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A("push r22") \
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A("push r23") \
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A("push r24") \
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A("push r25") \
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A("push r26") \
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A("push r27") \
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A("push r30") \
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A("push r31") \
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A("clr r1") /* C runtime expects this register to be 0 */ \
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A("call TIMER0_COMPB_vect_bottom") /* Call the bottom handler - No inlining allowed, otherwise registers used are not saved */ \
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A("pop r31") \
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A("pop r30") \
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A("pop r27") \
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A("pop r26") \
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A("pop r25") \
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A("pop r24") \
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A("pop r23") \
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A("pop r22") \
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A("pop r21") \
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A("pop r20") \
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A("pop r19") \
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A("pop r18") \
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A("pop r1") \
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A("pop r0") \
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A("out 0x3C, r16") /* 1 Restore EIND register */ \
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A("pop r16") /* 2 Get the original RAMPZ register value */ \
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A("out 0x3B, r16") /* 1 Restore RAMPZ register to its original value */ \
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A("pop r16") /* 2 Get the original TIMSK0 value but with temperature ISR disabled */ \
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A("ori r16,%[msk0]") /* 1 Enable temperature ISR */ \
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A("cli") /* 1 Disable global interrupts - We must do this, as we will reenable the temperature ISR, and we don´t want to reenter this handler until the current one is done */ \
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A("sts %[timsk0], r16") /* 2 And restore the old value */ \
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A("pop r16") /* 2 Get the old SREG */ \
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A("out __SREG__, r16") /* 1 And restore the SREG value */ \
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A("pop r16") /* 2 Restore R16 */ \
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A("reti") /* 4 Return from interrupt */ \
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: \
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: [timsk0] "i"((uint16_t)&TIMSK0), \
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[msk0] "M" ((uint8_t)(1<<OCIE0B)) \
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: \
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); \
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} \
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void TIMER0_COMPB_vect_bottom(void)
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// ADC
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// ADC
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#ifdef DIDR2
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#ifdef DIDR2
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