2017-07-11 23:01:48 -03:00
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/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "AP_WheelEncoder.h"
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#include "WheelEncoder_Quadrature.h"
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extern const AP_HAL::HAL& hal;
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// table of user settable parameters
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const AP_Param::GroupInfo AP_WheelEncoder::var_info[] = {
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// @Param: _TYPE
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// @DisplayName: WheelEncoder type
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// @Description: What type of WheelEncoder is connected
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// @Values: 0:None,1:Quadrature
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// @User: Standard
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AP_GROUPINFO_FLAGS("_TYPE", 0, AP_WheelEncoder, _type[0], 0, AP_PARAM_FLAG_ENABLE),
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// @Param: _CPR
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// @DisplayName: WheelEncoder counts per revolution
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// @Description: WheelEncoder counts per full revolution of the wheel
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// @Increment: 1
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// @User: Standard
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AP_GROUPINFO("_CPR", 1, AP_WheelEncoder, _counts_per_revolution[0], WHEELENCODER_CPR_DEFAULT),
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// @Param: _RADIUS
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// @DisplayName: Wheel radius in meters
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// @Description: Wheel radius in meters
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// @Increment: 0.001
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// @User: Standard
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AP_GROUPINFO("_RADIUS", 2, AP_WheelEncoder, _wheel_radius[0], WHEELENCODER_RADIUS_DEFAULT),
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// @Param: _POS_X
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// @DisplayName: Wheel's X position offset
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// @Description: X position of the center of the wheel in body frame. Positive X is forward of the origin.
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// @Units: m
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// @Increment: 0.01
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// @User: Advanced
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// @Param: _POS_Y
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// @DisplayName: Wheel's Y position offset
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// @Description: Y position of the center of the wheel in body frame. Positive Y is to the right of the origin.
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// @Units: m
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// @Increment: 0.01
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// @User: Advanced
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// @Param: _POS_Z
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// @DisplayName: Wheel's Z position offset
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// @Description: Z position of the center of the wheel in body frame. Positive Z is down from the origin.
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// @Units: m
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// @Increment: 0.01
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// @User: Advanced
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AP_GROUPINFO("_POS", 3, AP_WheelEncoder, _pos_offset[0], 0.0f),
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// @Param: _PINA
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// @DisplayName: Input Pin A
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// @Description: Input Pin A
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// @Values: -1:Disabled,50:PixhawkAUX1,51:PixhawkAUX2,52:PixhawkAUX3,53:PixhawkAUX4,54:PixhawkAUX5,55:PixhawkAUX6
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// @User: Standard
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AP_GROUPINFO("_PINA", 4, AP_WheelEncoder, _pina[0], 55),
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// @Param: _PINB
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// @DisplayName: Input Pin B
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// @Description: Input Pin B
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// @Values: -1:Disabled,50:PixhawkAUX1,51:PixhawkAUX2,52:PixhawkAUX3,53:PixhawkAUX4,54:PixhawkAUX5,55:PixhawkAUX6
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// @User: Standard
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AP_GROUPINFO("_PINB", 5, AP_WheelEncoder, _pinb[0], 54),
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#if WHEELENCODER_MAX_INSTANCES > 1
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// @Param: 2_TYPE
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// @DisplayName: Second WheelEncoder type
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// @Description: What type of WheelEncoder sensor is connected
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// @Values: 0:None,1:Quadrature
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// @User: Standard
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AP_GROUPINFO("2_TYPE", 6, AP_WheelEncoder, _type[1], 0),
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// @Param: 2_CPR
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// @DisplayName: WheelEncoder 2 counts per revolution
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// @Description: WheelEncoder 2 counts per full revolution of the wheel
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// @Increment: 1
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// @User: Standard
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AP_GROUPINFO("2_CPR", 7, AP_WheelEncoder, _counts_per_revolution[1], WHEELENCODER_CPR_DEFAULT),
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// @Param: 2_RADIUS
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// @DisplayName: Wheel2's radius in meters
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// @Description: Wheel2's radius in meters
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// @Increment: 0.001
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// @User: Standard
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AP_GROUPINFO("2_RADIUS", 8, AP_WheelEncoder, _wheel_radius[1], WHEELENCODER_RADIUS_DEFAULT),
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// @Param: 2_POS_X
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// @DisplayName: Wheel2's X position offset
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// @Description: X position of the center of the second wheel in body frame. Positive X is forward of the origin.
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// @Units: m
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// @Increment: 0.01
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// @User: Advanced
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// @Param: 2_POS_Y
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// @DisplayName: Wheel2's Y position offset
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// @Description: Y position of the center of the second wheel in body frame. Positive Y is to the right of the origin.
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// @Units: m
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// @Increment: 0.01
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// @User: Advanced
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// @Param: 2_POS_Z
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// @DisplayName: Wheel2's Z position offset
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// @Description: Z position of the center of the second wheel in body frame. Positive Z is down from the origin.
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// @Units: m
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// @Increment: 0.01
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// @User: Advanced
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AP_GROUPINFO("2_POS", 9, AP_WheelEncoder, _pos_offset[1], 0.0f),
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// @Param: 2_PINA
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// @DisplayName: Second Encoder Input Pin A
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// @Description: Second Encoder Input Pin A
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// @Values: -1:Disabled,50:PixhawkAUX1,51:PixhawkAUX2,52:PixhawkAUX3,53:PixhawkAUX4,54:PixhawkAUX5,55:PixhawkAUX6
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// @User: Standard
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AP_GROUPINFO("2_PINA", 10, AP_WheelEncoder, _pina[1], 53),
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// @Param: 2_PINB
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// @DisplayName: Second Encoder Input Pin B
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// @Description: Second Encoder Input Pin B
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// @Values: -1:Disabled,50:PixhawkAUX1,51:PixhawkAUX2,52:PixhawkAUX3,53:PixhawkAUX4,54:PixhawkAUX5,55:PixhawkAUX6
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// @User: Standard
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AP_GROUPINFO("2_PINB", 11, AP_WheelEncoder, _pinb[1], 52),
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#endif
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AP_GROUPEND
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};
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AP_WheelEncoder::AP_WheelEncoder(void) :
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num_instances(0)
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{
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AP_Param::setup_object_defaults(this, var_info);
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// init state and drivers
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memset(state, 0, sizeof(state));
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memset(drivers, 0, sizeof(drivers));
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}
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// initialise the AP_WheelEncoder class.
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void AP_WheelEncoder::init(void)
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{
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if (num_instances != 0) {
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// init called a 2nd time?
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return;
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}
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for (uint8_t i=0; i<WHEELENCODER_MAX_INSTANCES; i++) {
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#if CONFIG_HAL_BOARD == HAL_BOARD_PX4 || CONFIG_HAL_BOARD == HAL_BOARD_VRBRAIN
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uint8_t type = _type[num_instances];
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uint8_t instance = num_instances;
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if (type == WheelEncoder_TYPE_QUADRATURE) {
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state[instance].instance = instance;
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drivers[instance] = new AP_WheelEncoder_Quadrature(*this, instance, state[instance]);
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}
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#endif
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if (drivers[i] != nullptr) {
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// we loaded a driver for this instance, so it must be
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// present (although it may not be healthy)
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num_instances = i+1;
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}
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}
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}
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// update WheelEncoder state for all instances. This should be called by main loop
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void AP_WheelEncoder::update(void)
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{
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for (uint8_t i=0; i<num_instances; i++) {
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if (drivers[i] != nullptr && _type[i] != WheelEncoder_TYPE_NONE) {
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drivers[i]->update();
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}
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}
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}
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// check if an instance is healthy
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bool AP_WheelEncoder::healthy(uint8_t instance) const
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{
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if (instance >= num_instances) {
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return false;
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}
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return true;
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}
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// check if an instance is activated
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bool AP_WheelEncoder::enabled(uint8_t instance) const
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{
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if (instance >= num_instances) {
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return false;
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}
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// if no sensor type is selected, the sensor is not activated.
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if (_type[instance] == WheelEncoder_TYPE_NONE) {
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return false;
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}
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return true;
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}
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// get the counts per revolution of the encoder
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uint16_t AP_WheelEncoder::get_counts_per_revolution(uint8_t instance) const
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{
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// for invalid instances return zero vector
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return 0;
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}
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return (uint16_t)_counts_per_revolution[instance];
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}
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// get the wheel radius in meters
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float AP_WheelEncoder::get_wheel_radius(uint8_t instance) const
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{
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// for invalid instances return zero vector
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return 0.0f;
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}
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return _wheel_radius[instance];
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}
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// get the total distance travelled in meters
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Vector3f AP_WheelEncoder::get_position(uint8_t instance) const
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{
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// for invalid instances return zero vector
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return Vector3f();
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}
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return _pos_offset[instance];
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}
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// get total delta angle (in radians) measured by the wheel encoder
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float AP_WheelEncoder::get_delta_angle(uint8_t instance) const
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{
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// for invalid instances return zero
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return 0.0f;
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}
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// protect against divide by zero
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if (_counts_per_revolution[instance] == 0) {
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return 0.0f;
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}
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return M_2PI * state[instance].distance_count / _counts_per_revolution[instance];
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}
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// get the total distance traveled in meters
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float AP_WheelEncoder::get_distance(uint8_t instance) const
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{
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// for invalid instances return zero
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return get_delta_angle(instance) * _wheel_radius[instance];
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}
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// get the total number of sensor reading from the encoder
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uint32_t AP_WheelEncoder::get_total_count(uint8_t instance) const
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{
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// for invalid instances return zero
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return 0;
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}
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return state[instance].total_count;
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}
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// get the total distance traveled in meters
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uint32_t AP_WheelEncoder::get_error_count(uint8_t instance) const
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{
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// for invalid instances return zero
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return 0;
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}
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return state[instance].error_count;
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}
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// get the signal quality for a sensor
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float AP_WheelEncoder::get_signal_quality(uint8_t instance) const
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{
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// protect against divide by zero
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if (state[instance].total_count == 0) {
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return 0.0f;
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}
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return constrain_float((1.0f - ((float)state[instance].error_count / (float)state[instance].total_count)) * 100.0f, 0.0f, 100.0f);
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}
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// get the system time (in milliseconds) of the last update
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uint32_t AP_WheelEncoder::get_last_reading_ms(uint8_t instance) const
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{
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// for invalid instances return zero
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if (instance >= WHEELENCODER_MAX_INSTANCES) {
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return 0;
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}
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return state[instance].last_reading_ms;
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}
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