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diff --git a/thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/csense/nrf_csense_macros.h b/thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/csense/nrf_csense_macros.h new file mode 100644 index 0000000..0e8a297 --- /dev/null +++ b/thirdparty/nRF5_SDK_15.0.0_a53641a/components/libraries/csense/nrf_csense_macros.h @@ -0,0 +1,359 @@ +/** + * Copyright (c) 2016 - 2018, Nordic Semiconductor ASA + * + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, this + * list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form, except as embedded into a Nordic + * Semiconductor ASA integrated circuit in a product or a software update for + * such product, must reproduce the above copyright notice, this list of + * conditions and the following disclaimer in the documentation and/or other + * materials provided with the distribution. + * + * 3. Neither the name of Nordic Semiconductor ASA nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * 4. This software, with or without modification, must only be used with a + * Nordic Semiconductor ASA integrated circuit. + * + * 5. Any software provided in binary form under this license must not be reverse + * engineered, decompiled, modified and/or disassembled. + * + * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS + * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES + * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS BE + * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE + * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) + * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT + * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + */ +#ifndef NRF_CSENSE_MACROS_H__ +#define NRF_CSENSE_MACROS_H__ + +/** @file + * + * @defgroup nrf_csense_macros Capacitive sensor macros + * @{ + * @ingroup nrf_csense + * + * @brief A set of macros to facilitate creation of a new capacitive sensor instance. + */ + +#define NRF_CSENSE_INTERNAL_BUTTON_DEF(name, p1) \ + 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 \ + }; + +#define NRF_CSENSE_INTERNAL_SLIDER_2_DEF(name, steps_no, p1, p2) \ + 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 \ + }; + +#define NRF_CSENSE_INTERNAL_SLIDER_3_DEF(name, steps_no, p1, p2, p3) \ + 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 \ + }; + +#define NRF_CSENSE_INTERNAL_SLIDER_4_DEF(name, steps_no, p1, p2, p3, p4) \ + 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 \ + }; + +#define NRF_CSENSE_INTERNAL_SLIDER_5_DEF(name, steps_no, p1, p2, p3, p4, p5) \ + 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 \ + }; + +#define NRF_CSENSE_INTERNAL_WHEEL_3_DEF(name, steps_no, p1, p2, p3) \ + 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 \ + }; + + +#define NRF_CSENSE_INTERNAL_WHEEL_4_DEF(name, steps_no, p1, p2, p3, p4) \ + 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 \ + }; + +#define NRF_CSENSE_INTERNAL_WHEEL_5_DEF(name, steps_no, p1, p2, p3, p4, p5)\ + 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 \ + }; + +/** @} */ + +#endif // NRF_CSENSE_MACROS_H__ |