Wemos8266RelaysLedDisplay/lib/MD_Parola/examples/Parola_Test/Parola_Test.ino

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// Program to exercise the MD_Parola library
//
// Demonstrates most of the functions of the Parola library.
// All animations can be run and tested under user control.
//
// Speed for the display is controlled by a pot on SPEED_IN analog input.
// Digital switches used for control of Justification, Effect progression,
// Pause between animations, LED intensity, Display flip, and invert mode.
// UI switches are normally HIGH.
//
// UISwitch library can be found at https://github.com/MajicDesigns/MD_UISwitch
// MD_MAX72XX library can be found at https://github.com/MajicDesigns/MD_MAX72XX
//
#include <MD_Parola.h>
#include <MD_MAX72xx.h>
#include <SPI.h>
#include <MD_UISwitch.h>
// Define the number of devices we have in the chain and the hardware interface
// NOTE: These pin numbers will probably not work with your hardware and may
// need to be adapted
#define HARDWARE_TYPE MD_MAX72XX::PAROLA_HW
#define MAX_DEVICES 11
#define CLK_PIN 13
#define DATA_PIN 11
#define CS_PIN 10
// HARDWARE SPI
MD_Parola P = MD_Parola(HARDWARE_TYPE, CS_PIN, MAX_DEVICES);
// SOFTWARE SPI
//MD_Parola P = MD_Parola(HARDWARE_TYPE, DATA_PIN, CLK_PIN, CS_PIN, MAX_DEVICES);
// Turn on debug statements to the serial output
#define DEBUG_ENABLE 1
#if DEBUG_ENABLE
#define DEBUG(s, x) { Serial.print(F(s)); Serial.print(x); }
#define DEBUGS(x) Serial.print(F(x))
#define DEBUGX(x) Serial.println(x, HEX)
#else
#define DEBUG(s, x)
#define DEBUGS(x)
#define DEBUGX(x)
#endif
// User interface pin and switch definitions
const uint8_t SPEED_IN = A5; // control the speed with an external pot
const uint8_t PAUSE_SET = 4; // toggle pause time
const uint8_t FLIP_SET = 5; // toggle flip status
const uint8_t JUSTIFY_SET = 6; // change the justification
const uint8_t INTENSITY_SET = 7; // change the intensity of the display
const uint8_t EFFECT_SET = 8; // change the effect
const uint8_t INVERSE_SET = 9; // set/reset the display to inverse
uint8_t uiPins[] = { PAUSE_SET, FLIP_SET, JUSTIFY_SET, INTENSITY_SET, EFFECT_SET, INVERSE_SET };
const uint16_t PAUSE_TIME = 1000; // in milliseconds
const uint8_t SPEED_DEADBAND = 5; // in analog units
// Sprite Definition
const uint8_t F_ROCKET = 2;
const uint8_t W_ROCKET = 11;
static const uint8_t PROGMEM rocket[F_ROCKET * W_ROCKET] = // rocket
{
0x18, 0x24, 0x42, 0x81, 0x99, 0x18, 0x99, 0x18, 0xa5, 0x5a, 0x81,
0x18, 0x24, 0x42, 0x81, 0x18, 0x99, 0x18, 0x99, 0x24, 0x42, 0x99,
};
// Global variables
uint8_t curString = 0;
const char *msg[] =
{
"Parola for",
"Arduino",
"LED Matrix",
"Display"
};
#define NEXT_STRING ((curString + 1) % ARRAY_SIZE(msg))
MD_UISwitch_Digital uiSwitches(uiPins, ARRAY_SIZE(uiPins));
void doUI(void)
{
// set the speed if it has changed - Analog read
{
int16_t speed = map(analogRead(SPEED_IN), 0, 1023, 0, 100);
if ((speed >= ((int16_t)P.getSpeed() + SPEED_DEADBAND)) ||
(speed <= ((int16_t)P.getSpeed() - SPEED_DEADBAND)))
{
P.setSpeed(speed);
DEBUG("\nChanged speed to ", P.getSpeed());
}
}
// now process the switch digital inputs
if (uiSwitches.read() == MD_UISwitch::KEY_PRESS) // a switch was pressed!
{
switch (uiSwitches.getKey())
{
case JUSTIFY_SET: // TEXT ALIGNMENT - nothing on initialise
{
static uint8_t curMode = 1;
textPosition_t align = P.getTextAlignment();
textPosition_t textAlign[] =
{
PA_CENTER,
PA_LEFT,
PA_RIGHT
};
DEBUG("\nChanging alignment to ", curMode);
P.setTextAlignment(textAlign[curMode]);
P.displayReset();
curMode = (curMode + 1) % ARRAY_SIZE(textAlign);
}
break;
case EFFECT_SET: // EFFECT CHANGE
{
static uint8_t curFX = 1;
textEffect_t effect[] =
{
PA_PRINT, PA_SCROLL_UP, PA_SCROLL_DOWN, PA_SCROLL_LEFT, PA_SCROLL_RIGHT,
#if ENA_MISC
PA_SLICE, PA_FADE, PA_MESH, PA_BLINDS, PA_DISSOLVE, PA_RANDOM,
#endif
#if ENA_SPRITE
PA_SPRITE,
#endif
#if ENA_WIPE
PA_WIPE, PA_WIPE_CURSOR,
#endif
#if ENA_OPNCLS
PA_OPENING, PA_OPENING_CURSOR, PA_CLOSING, PA_CLOSING_CURSOR,
#endif
#if ENA_SCR_DIA
PA_SCROLL_UP_LEFT, PA_SCROLL_UP_RIGHT, PA_SCROLL_DOWN_LEFT, PA_SCROLL_DOWN_RIGHT,
#endif
#if ENA_SCAN
PA_SCAN_HORIZ, PA_SCAN_HORIZX, PA_SCAN_VERT, PA_SCAN_VERTX,
#endif
#if ENA_GROW
PA_GROW_UP, PA_GROW_DOWN,
#endif
};
DEBUG("\nChanging effect to ", curFX);
P.setTextEffect(effect[curFX], effect[curFX]);
P.displayClear();
P.displayReset();
curFX = (curFX + 1) % ARRAY_SIZE(effect);
}
break;
case PAUSE_SET: // PAUSE DELAY
{
DEBUGS("\nChanging pause");
if ((P.getPause() <= P.getSpeed()))
P.setPause(PAUSE_TIME);
else
P.setPause(0);
}
break;
case INTENSITY_SET: // INTENSITY
{
static uint8_t intensity = MAX_INTENSITY/2;
if (intensity == 0)
{
P.displayShutdown(true);
DEBUG("\nDisplay shutdown ", intensity);
}
else
{
P.setIntensity(intensity);
P.displayShutdown(false);
DEBUG("\nChanged intensity to ", intensity);
}
intensity = (intensity + 1) % (MAX_INTENSITY + 1);
}
break;
case INVERSE_SET: // INVERSE
{
P.setInvert(!P.getInvert());
}
break;
case FLIP_SET: // FLIP
{
P.setZoneEffect(0, !P.getZoneEffect(0, PA_FLIP_LR), PA_FLIP_LR);
P.setZoneEffect(0, !P.getZoneEffect(0, PA_FLIP_UD), PA_FLIP_UD);
}
break;
}
}
}
void setup(void)
{
#if DEBUG_ENABLE
Serial.begin(57600);
DEBUGS("[Parola Test]");
#endif
// user interface switches
uiSwitches.begin();
// Parola object
P.begin();
P.setSpriteData(rocket, W_ROCKET, F_ROCKET, rocket, W_ROCKET, F_ROCKET);
P.displayText(msg[curString], PA_CENTER, P.getSpeed(), PAUSE_TIME, PA_PRINT, PA_PRINT);
curString = NEXT_STRING;
}
void loop(void)
{
doUI();
if (P.displayAnimate())
{
P.setTextBuffer(msg[curString]);
P.displayReset();
curString = NEXT_STRING;
}
}