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- static nrf_csense_pad_t CONCAT_2(name, _pad) = \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }; \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax); \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = &CONCAT_2(name, _pad), \
- .min_max = &CONCAT_2(name, _minmax), \
- .steps = 1, \
- .number_of_pads = 1, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[2] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- } \
- }; \
- \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[2]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 2, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[3] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[2], \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p3, \
- .pad_index = 2, \
- .analog_input_number = GET_ARG_1 p3 \
- } \
- }; \
- \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[3]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 3, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[4] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[2], \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[3], \
- .threshold = GET_ARG_2 p3, \
- .pad_index = 2, \
- .analog_input_number = GET_ARG_1 p3 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p4, \
- .pad_index = 3, \
- .analog_input_number = GET_ARG_1 p4 \
- } \
- }; \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[4]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 4, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[5] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[2], \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[3], \
- .threshold = GET_ARG_2 p3, \
- .pad_index = 2, \
- .analog_input_number = GET_ARG_1 p3 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[4], \
- .threshold = GET_ARG_2 p4, \
- .pad_index = 3, \
- .analog_input_number = GET_ARG_1 p4 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p5, \
- .pad_index = 4, \
- .analog_input_number = GET_ARG_1 p5 \
- } \
- }; \
- \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[5]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 5, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[4] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[2], \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[3], \
- .threshold = GET_ARG_2 p3, \
- .pad_index = 2, \
- .analog_input_number = GET_ARG_1 p3 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 3, \
- .analog_input_number = GET_ARG_1 p1 \
- } \
- }; \
- \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[4]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 4, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[5] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[2], \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[3], \
- .threshold = GET_ARG_2 p3, \
- .pad_index = 2, \
- .analog_input_number = GET_ARG_1 p3 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[4], \
- .threshold = GET_ARG_2 p4, \
- .pad_index = 3, \
- .analog_input_number = GET_ARG_1 p4 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 4, \
- .analog_input_number = GET_ARG_1 p1 \
- } \
- }; \
- \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[5]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 5, \
- .is_active = false, \
- .is_touched = false \
- };
- static nrf_csense_pad_t CONCAT_2(name, _pad)[6] = \
- { \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[1], \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 0, \
- .analog_input_number = GET_ARG_1 p1 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[2], \
- .threshold = GET_ARG_2 p2, \
- .pad_index = 1, \
- .analog_input_number = GET_ARG_1 p2 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[3], \
- .threshold = GET_ARG_2 p3, \
- .pad_index = 2, \
- .analog_input_number = GET_ARG_1 p3 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[4], \
- .threshold = GET_ARG_2 p4, \
- .pad_index = 3, \
- .analog_input_number = GET_ARG_1 p4 \
- }, \
- { \
- .p_next_pad = &CONCAT_2(name, _pad)[5], \
- .threshold = GET_ARG_2 p5, \
- .pad_index = 4, \
- .analog_input_number = GET_ARG_1 p5 \
- }, \
- { \
- .p_next_pad = NULL, \
- .threshold = GET_ARG_2 p1, \
- .pad_index = 5, \
- .analog_input_number = GET_ARG_1 p1 \
- } \
- }; \
- \
- static nrf_csense_min_max_t CONCAT_2(name, _minmax)[6]; \
- static nrf_csense_instance_t name = \
- { \
- .p_nrf_csense_pad = CONCAT_2(name, _pad), \
- .min_max = CONCAT_2(name, _minmax), \
- .steps = steps_no, \
- .number_of_pads = 6, \
- .is_active = false, \
- .is_touched = false \
- };
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