qmk-dactyl-manuform-a/lib/usbhost/USB_Host_Shield_2.0/PS4Parser.h

408 lines
15 KiB
C++

/* Copyright (C) 2014 Kristian Lauszus, TKJ Electronics. All rights reserved.
This software may be distributed and modified under the terms of the GNU
General Public License version 2 (GPL2) as published by the Free Software
Foundation and appearing in the file GPL2.TXT included in the packaging of
this file. Please note that GPL2 Section 2[b] requires that all works based
on this software must also be made publicly available under the terms of
the GPL2 ("Copyleft").
Contact information
-------------------
Kristian Lauszus, TKJ Electronics
Web : http://www.tkjelectronics.com
e-mail : kristianl@tkjelectronics.com
*/
#ifndef _ps4parser_h_
#define _ps4parser_h_
#include "Usb.h"
#include "controllerEnums.h"
/** Buttons on the controller */
const uint8_t PS4_BUTTONS[] PROGMEM = {
UP, // UP
RIGHT, // RIGHT
DOWN, // DOWN
LEFT, // LEFT
0x0C, // SHARE
0x0D, // OPTIONS
0x0E, // L3
0x0F, // R3
0x0A, // L2
0x0B, // R2
0x08, // L1
0x09, // R1
0x07, // TRIANGLE
0x06, // CIRCLE
0x05, // CROSS
0x04, // SQUARE
0x10, // PS
0x11, // TOUCHPAD
};
union PS4Buttons {
struct {
uint8_t dpad : 4;
uint8_t square : 1;
uint8_t cross : 1;
uint8_t circle : 1;
uint8_t triangle : 1;
uint8_t l1 : 1;
uint8_t r1 : 1;
uint8_t l2 : 1;
uint8_t r2 : 1;
uint8_t share : 1;
uint8_t options : 1;
uint8_t l3 : 1;
uint8_t r3 : 1;
uint8_t ps : 1;
uint8_t touchpad : 1;
uint8_t reportCounter : 6;
} __attribute__((packed));
uint32_t val : 24;
} __attribute__((packed));
struct touchpadXY {
uint8_t dummy; // I can not figure out what this data is for, it seems to change randomly, maybe a timestamp?
struct {
uint8_t counter : 7; // Increments every time a finger is touching the touchpad
uint8_t touching : 1; // The top bit is cleared if the finger is touching the touchpad
uint16_t x : 12;
uint16_t y : 12;
} __attribute__((packed)) finger[2]; // 0 = first finger, 1 = second finger
} __attribute__((packed));
struct PS4Status {
uint8_t battery : 4;
uint8_t usb : 1;
uint8_t audio : 1;
uint8_t mic : 1;
uint8_t unknown : 1; // Extension port?
} __attribute__((packed));
struct PS4Data {
/* Button and joystick values */
uint8_t hatValue[4];
PS4Buttons btn;
uint8_t trigger[2];
/* Gyro and accelerometer values */
uint8_t dummy[3]; // First two looks random, while the third one might be some kind of status - it increments once in a while
int16_t gyroY, gyroZ, gyroX;
int16_t accX, accZ, accY;
uint8_t dummy2[5];
PS4Status status;
uint8_t dummy3[3];
/* The rest is data for the touchpad */
touchpadXY xy[3]; // It looks like it sends out three coordinates each time, this might be because the microcontroller inside the PS4 controller is much faster than the Bluetooth connection.
// The last data is read from the last position in the array while the oldest measurement is from the first position.
// The first position will also keep it's value after the finger is released, while the other two will set them to zero.
// Note that if you read fast enough from the device, then only the first one will contain any data.
// The last three bytes are always: 0x00, 0x80, 0x00
} __attribute__((packed));
struct PS4Output {
uint8_t bigRumble, smallRumble; // Rumble
uint8_t r, g, b; // RGB
uint8_t flashOn, flashOff; // Time to flash bright/dark (255 = 2.5 seconds)
bool reportChanged; // The data is send when data is received from the controller
} __attribute__((packed));
enum DPADEnum {
DPAD_UP = 0x0,
DPAD_UP_RIGHT = 0x1,
DPAD_RIGHT = 0x2,
DPAD_RIGHT_DOWN = 0x3,
DPAD_DOWN = 0x4,
DPAD_DOWN_LEFT = 0x5,
DPAD_LEFT = 0x6,
DPAD_LEFT_UP = 0x7,
DPAD_OFF = 0x8,
};
/** This class parses all the data sent by the PS4 controller */
class PS4Parser {
public:
/** Constructor for the PS4Parser class. */
PS4Parser() {
Reset();
};
/** @name PS4 Controller functions */
/**
* getButtonPress(ButtonEnum b) will return true as long as the button is held down.
*
* While getButtonClick(ButtonEnum b) will only return it once.
*
* So you instance if you need to increase a variable once you would use getButtonClick(ButtonEnum b),
* but if you need to drive a robot forward you would use getButtonPress(ButtonEnum b).
* @param b ::ButtonEnum to read.
* @return getButtonPress(ButtonEnum b) will return a true as long as a button is held down, while getButtonClick(ButtonEnum b) will return true once for each button press.
*/
bool getButtonPress(ButtonEnum b);
bool getButtonClick(ButtonEnum b);
/**@}*/
/** @name PS4 Controller functions */
/**
* Used to get the analog value from button presses.
* @param b The ::ButtonEnum to read.
* The supported buttons are:
* ::UP, ::RIGHT, ::DOWN, ::LEFT, ::L1, ::L2, ::R1, ::R2,
* ::TRIANGLE, ::CIRCLE, ::CROSS, ::SQUARE, and ::T.
* @return Analog value in the range of 0-255.
*/
uint8_t getAnalogButton(ButtonEnum b);
/**
* Used to read the analog joystick.
* @param a ::LeftHatX, ::LeftHatY, ::RightHatX, and ::RightHatY.
* @return Return the analog value in the range of 0-255.
*/
uint8_t getAnalogHat(AnalogHatEnum a);
/**
* Get the x-coordinate of the touchpad. Position 0 is in the top left.
* @param finger 0 = first finger, 1 = second finger. If omitted, then 0 will be used.
* @param xyId The controller sends out three packets with the same structure.
* The third one will contain the last measure, but if you read from the controller then there is only be data in the first one.
* For that reason it will be set to 0 if the argument is omitted.
* @return Returns the x-coordinate of the finger.
*/
uint16_t getX(uint8_t finger = 0, uint8_t xyId = 0) {
return ps4Data.xy[xyId].finger[finger].x;
};
/**
* Get the y-coordinate of the touchpad. Position 0 is in the top left.
* @param finger 0 = first finger, 1 = second finger. If omitted, then 0 will be used.
* @param xyId The controller sends out three packets with the same structure.
* The third one will contain the last measure, but if you read from the controller then there is only be data in the first one.
* For that reason it will be set to 0 if the argument is omitted.
* @return Returns the y-coordinate of the finger.
*/
uint16_t getY(uint8_t finger = 0, uint8_t xyId = 0) {
return ps4Data.xy[xyId].finger[finger].y;
};
/**
* Returns whenever the user is toucing the touchpad.
* @param finger 0 = first finger, 1 = second finger. If omitted, then 0 will be used.
* @param xyId The controller sends out three packets with the same structure.
* The third one will contain the last measure, but if you read from the controller then there is only be data in the first one.
* For that reason it will be set to 0 if the argument is omitted.
* @return Returns true if the specific finger is touching the touchpad.
*/
bool isTouching(uint8_t finger = 0, uint8_t xyId = 0) {
return !(ps4Data.xy[xyId].finger[finger].touching); // The bit is cleared when a finger is touching the touchpad
};
/**
* This counter increments every time a finger touches the touchpad.
* @param finger 0 = first finger, 1 = second finger. If omitted, then 0 will be used.
* @param xyId The controller sends out three packets with the same structure.
* The third one will contain the last measure, but if you read from the controller then there is only be data in the first one.
* For that reason it will be set to 0 if the argument is omitted.
* @return Return the value of the counter, note that it is only a 7-bit value.
*/
uint8_t getTouchCounter(uint8_t finger = 0, uint8_t xyId = 0) {
return ps4Data.xy[xyId].finger[finger].counter;
};
/**
* Get the angle of the controller calculated using the accelerometer.
* @param a Either ::Pitch or ::Roll.
* @return Return the angle in the range of 0-360.
*/
double getAngle(AngleEnum a) {
if (a == Pitch)
return (atan2(ps4Data.accY, ps4Data.accZ) + PI) * RAD_TO_DEG;
else
return (atan2(ps4Data.accX, ps4Data.accZ) + PI) * RAD_TO_DEG;
};
/**
* Used to get the raw values from the 3-axis gyroscope and 3-axis accelerometer inside the PS4 controller.
* @param s The sensor to read.
* @return Returns the raw sensor reading.
*/
int16_t getSensor(SensorEnum s) {
switch(s) {
case gX:
return ps4Data.gyroX;
case gY:
return ps4Data.gyroY;
case gZ:
return ps4Data.gyroZ;
case aX:
return ps4Data.accX;
case aY:
return ps4Data.accY;
case aZ:
return ps4Data.accZ;
default:
return 0;
}
};
/**
* Return the battery level of the PS4 controller.
* @return The battery level in the range 0-15.
*/
uint8_t getBatteryLevel() {
return ps4Data.status.battery;
};
/**
* Use this to check if an USB cable is connected to the PS4 controller.
* @return Returns true if an USB cable is connected.
*/
bool getUsbStatus() {
return ps4Data.status.usb;
};
/**
* Use this to check if an audio jack cable is connected to the PS4 controller.
* @return Returns true if an audio jack cable is connected.
*/
bool getAudioStatus() {
return ps4Data.status.audio;
};
/**
* Use this to check if a microphone is connected to the PS4 controller.
* @return Returns true if a microphone is connected.
*/
bool getMicStatus() {
return ps4Data.status.mic;
};
/** Turn both rumble and the LEDs off. */
void setAllOff() {
setRumbleOff();
setLedOff();
};
/** Set rumble off. */
void setRumbleOff() {
setRumbleOn(0, 0);
};
/**
* Turn on rumble.
* @param mode Either ::RumbleHigh or ::RumbleLow.
*/
void setRumbleOn(RumbleEnum mode) {
if (mode == RumbleLow)
setRumbleOn(0x00, 0xFF);
else
setRumbleOn(0xFF, 0x00);
};
/**
* Turn on rumble.
* @param bigRumble Value for big motor.
* @param smallRumble Value for small motor.
*/
void setRumbleOn(uint8_t bigRumble, uint8_t smallRumble) {
ps4Output.bigRumble = bigRumble;
ps4Output.smallRumble = smallRumble;
ps4Output.reportChanged = true;
};
/** Turn all LEDs off. */
void setLedOff() {
setLed(0, 0, 0);
};
/**
* Use this to set the color using RGB values.
* @param r,g,b RGB value.
*/
void setLed(uint8_t r, uint8_t g, uint8_t b) {
ps4Output.r = r;
ps4Output.g = g;
ps4Output.b = b;
ps4Output.reportChanged = true;
};
/**
* Use this to set the color using the predefined colors in ::ColorsEnum.
* @param color The desired color.
*/
void setLed(ColorsEnum color) {
setLed((uint8_t)(color >> 16), (uint8_t)(color >> 8), (uint8_t)(color));
};
/**
* Set the LEDs flash time.
* @param flashOn Time to flash bright (255 = 2.5 seconds).
* @param flashOff Time to flash dark (255 = 2.5 seconds).
*/
void setLedFlash(uint8_t flashOn, uint8_t flashOff) {
ps4Output.flashOn = flashOn;
ps4Output.flashOff = flashOff;
ps4Output.reportChanged = true;
};
/**@}*/
protected:
/**
* Used to parse data sent from the PS4 controller.
* @param len Length of the data.
* @param buf Pointer to the data buffer.
*/
void Parse(uint8_t len, uint8_t *buf);
/** Used to reset the different buffers to their default values */
void Reset() {
uint8_t i;
for (i = 0; i < sizeof(ps4Data.hatValue); i++)
ps4Data.hatValue[i] = 127; // Center value
ps4Data.btn.val = 0;
oldButtonState.val = 0;
for (i = 0; i < sizeof(ps4Data.trigger); i++)
ps4Data.trigger[i] = 0;
for (i = 0; i < sizeof(ps4Data.xy)/sizeof(ps4Data.xy[0]); i++) {
for (uint8_t j = 0; j < sizeof(ps4Data.xy[0].finger)/sizeof(ps4Data.xy[0].finger[0]); j++)
ps4Data.xy[i].finger[j].touching = 1; // The bit is cleared if the finger is touching the touchpad
}
ps4Data.btn.dpad = DPAD_OFF;
oldButtonState.dpad = DPAD_OFF;
buttonClickState.dpad = 0;
oldDpad = 0;
ps4Output.bigRumble = ps4Output.smallRumble = 0;
ps4Output.r = ps4Output.g = ps4Output.b = 0;
ps4Output.flashOn = ps4Output.flashOff = 0;
ps4Output.reportChanged = false;
};
/**
* Send the output to the PS4 controller. This is implemented in PS4BT.h and PS4USB.h.
* @param output Pointer to PS4Output buffer;
*/
virtual void sendOutputReport(PS4Output *output) = 0;
private:
bool checkDpad(ButtonEnum b); // Used to check PS4 DPAD buttons
PS4Data ps4Data;
PS4Buttons oldButtonState, buttonClickState;
PS4Output ps4Output;
uint8_t oldDpad;
};
#endif