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https://github.com/wpilibsuite/allwpilib
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534ea134a4
This deals with the majority of the user-facing code in wpilibC++Devices and a substantial portion of it in wpilibC++. wpilibC++Sim and wpilibC++IntegrationTests are untouched except where it is necessary to make them work with the rest of the libraries. There is still a lot to do in the following areas: -The HAL (which we may not want to touch at all). -The I2C, Serial, and SPI interfaces in wpilibC++Devices, which I haven't gotten around to doing yet. -Most wpilibC++Devices classes have void* pointers for interacting with the HAL. -InterruptableSensorBase passes a void *params for the interrupt handler. -I haven't converted all the const char* to std::strings. -There are plenty of other cases of raw pointers still existing. -This doesn't fall directly under raw pointer stuff, but move syntax and rvalue references could be introduced in many places. -I haven't touched vision code. -The Resource classes conflict (one is in the hal, the other in wpilibC++). Someone should figure out a more permanent fix (eg, just renaming them), then doing what I did (making a new namespace for one of them, essentially the same as renaming it). A few other things: -I created a NullDeleter class which is marked as deprecated. What this does is it can be passed as the deleter to a std::shared_ptr so that when you are converting raw pointers to shared_ptrs the shared_ptr doesn't do any deletion if someone else owns the raw pointer. This should only be used in making old raw pointer UIs. -I had to alter the build.gradle so that it did not emit errors when deprecated functions called deprecated functions. Unfortunately, gradle doesn't appear to be actually printing out gcc warnigns for some reason. The best way I have found to fix this is to patch the toolchains (https://bitbucket.org/byteit101/toolchain-builder/pull-request/5/make-gcc-not-throw-warnings-for-nested/diff) so that a deprecated function calling a deprecated function is fine but a non-deprecated function calling a deprecated function will throw a warning (which we then elevate with -Werror). I believe that clang deals with this properly, although I have not tried it myself. Change-Id: Ib8090c66893576fe73654f4e9d268f9d37be06a2
81 lines
2.5 KiB
C++
81 lines
2.5 KiB
C++
/*----------------------------------------------------------------------------*/
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/* Copyright (c) FIRST 2008. All Rights Reserved.
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*/
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/* Open Source Software - may be modified and shared by FRC teams. The code */
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/* must be accompanied by the FIRST BSD license file in $(WIND_BASE)/WPILib. */
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/*----------------------------------------------------------------------------*/
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#include "Jaguar.h"
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//#include "NetworkCommunication/UsageReporting.h"
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#include "LiveWindow/LiveWindow.h"
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/**
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* Constructor for a Jaguar connected via PWM
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* @param channel The PWM channel that the Jaguar is attached to. 0-9 are
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* on-board, 10-19 are on the MXP port
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*/
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Jaguar::Jaguar(uint32_t channel) : SafePWM(channel) {
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/**
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* Input profile defined by Luminary Micro.
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*
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* Full reverse ranges from 0.671325ms to 0.6972211ms
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* Proportional reverse ranges from 0.6972211ms to 1.4482078ms
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* Neutral ranges from 1.4482078ms to 1.5517922ms
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* Proportional forward ranges from 1.5517922ms to 2.3027789ms
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* Full forward ranges from 2.3027789ms to 2.328675ms
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*/
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SetBounds(2.31, 1.55, 1.507, 1.454, .697);
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SetPeriodMultiplier(kPeriodMultiplier_1X);
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SetRaw(m_centerPwm);
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SetZeroLatch();
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HALReport(HALUsageReporting::kResourceType_Jaguar, GetChannel());
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LiveWindow::GetInstance().AddActuator("Jaguar", GetChannel(), this);
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}
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/**
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* Set the PWM value.
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*
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* The PWM value is set using a range of -1.0 to 1.0, appropriately
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* scaling the value for the FPGA.
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*
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* @param speed The speed value between -1.0 and 1.0 to set.
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* @param syncGroup Unused interface.
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*/
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void Jaguar::Set(float speed, uint8_t syncGroup) {
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SetSpeed(m_isInverted ? -speed : speed);
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}
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/**
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* Get the recently set value of the PWM.
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*
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* @return The most recently set value for the PWM between -1.0 and 1.0.
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*/
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float Jaguar::Get() const { return GetSpeed(); }
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/**
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* Common interface for disabling a motor.
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*/
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void Jaguar::Disable() { SetRaw(kPwmDisabled); }
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/**
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* Common interface for inverting direction of a speed controller.
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* @param isInverted The state of inversion, true is inverted.
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*/
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void Jaguar::SetInverted(bool isInverted) { m_isInverted = isInverted; }
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/**
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* Common interface for the inverting direction of a speed controller.
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*
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* @return isInverted The state of inversion, true is inverted.
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*
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*/
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bool Jaguar::GetInverted() const { return m_isInverted; }
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/**
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* Write out the PID value as seen in the PIDOutput base object.
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*
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* @param output Write out the PWM value as was found in the PIDController
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*/
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void Jaguar::PIDWrite(float output) { Set(output); }
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