274 lines
6.9 KiB
C++
274 lines
6.9 KiB
C++
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#include "MD_RobotEyes.h"
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#include "MD_RobotEyes_Data.h"
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// Debugging macros
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#define DEBUG 0
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#if DEBUG
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#define PRINTS(s) { Serial.print(F(s)); }
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#define PRINT(s, v) { Serial.print(F(s)); Serial.print(v); }
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#define PRINTX(s, v) { Serial.print(F(s)); Serial.print(F("0x")); Serial.print(v, HEX); }
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#else
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#define PRINTS(s)
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#define PRINT(s, v)
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#define PRINTX(s, v)
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#endif
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MD_RobotEyes::MD_RobotEyes(void) :
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_nextEmotion(E_NEUTRAL), _animState(S_IDLE),
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_autoBlink(true), _timeBlinkMinimum(5000)
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{
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};
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void MD_RobotEyes::loadEye(uint8_t module, uint8_t ch)
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{
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uint8_t buf[EYE_COL_SIZE];
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uint8_t size;
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size = _M->getChar(ch, EYE_COL_SIZE, buf);
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for (uint8_t i = 0; i < EYE_COL_SIZE; i++)
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{
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_M->setColumn(module, i, buf[i]);
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}
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}
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void MD_RobotEyes::drawEyes(uint8_t L, uint8_t R)
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// Draw the left and right eyes
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{
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MD_MAX72XX::fontType_t *savedFont = _M->getFont();
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_M->control(MD_MAX72XX::UPDATE, MD_MAX72XX::OFF);
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_M->setFont(_RobotEyes_Font);
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_M->clear(_sd, _sd+1); // clear out display modules
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// Load the data and show it
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loadEye(_sd+LEFT_MODULE_OFFSET, L);
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loadEye(_sd+RIGHT_MODULE_OFFSET, R);
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_M->setFont(savedFont);
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_M->control(MD_MAX72XX::UPDATE, MD_MAX72XX::ON);
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}
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#if DEBUG
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void MD_RobotEyes::dumpSequence(const animFrame_t* pBuf, uint8_t numElements)
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// Debugging routine to display an animation table in PROGMEM
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{
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for (uint8_t i = 0; i < numElements; i++)
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{
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animFrame_t f;
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memcpy_P(&f, &pBuf[i], sizeof(animFrame_t));
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PRINT("\n[", i);
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PRINT("]: L:", f.eyeData[LEFT_EYE_INDEX]);
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PRINT(" R:", f.eyeData[RIGHT_EYE_INDEX]);
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PRINT(" T:", f.timeFrame);
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}
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}
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#endif
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uint8_t MD_RobotEyes::loadSequence(emotion_t e)
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// Load the next emotion from the static data.
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// Set global variables to the required values
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{
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// run through the lookup table to find the sequence data
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for (uint8_t i = 0; i < ARRAY_SIZE(lookupTable); i++)
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{
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memcpy_P(&_animEntry, &lookupTable[i], sizeof(animTable_t));
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if (_animEntry.e == e)
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{
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#if DEBUG
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dumpSequence(_animEntry.seq, _animEntry.size);
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#endif
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break;
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}
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}
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// set up the current index depending on direction of animation
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if (_animReverse) _animIndex = _animEntry.size - 1; else _animIndex = 0;
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return(_animEntry.size);
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}
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void MD_RobotEyes::loadFrame(animFrame_t* pBuf)
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// Load the idx'th frame from the frame sequence PROGMEM to normal memory pBuf
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{
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memcpy_P(pBuf, &_animEntry.seq[_animIndex], sizeof(animFrame_t));
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}
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void MD_RobotEyes::showText(bool bInit)
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// Print the text string to the LED matrix modules specified.
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// Message area is padded with blank columns after printing.
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{
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static enum { S_LOAD, S_SHOW, S_SPACE } state;
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static uint8_t curLen, showLen;
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static uint8_t cBuf[EYE_COL_SIZE];
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if (bInit)
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{
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PRINT("\nText: ", _pText);
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_timeLastAnimation = millis();
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_M->clear(_sd, _sd + 1);
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state = S_LOAD;
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}
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// Is it time to scroll the text?
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if (millis() - _timeLastAnimation < FRAME_TIME/2)
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return;
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_M->control(MD_MAX72XX::UPDATE, MD_MAX72XX::OFF);
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// Now scroll the text
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_M->transform(_sd, _sd+1, MD_MAX72XX::TSL); // scroll along by one place
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_timeLastAnimation = millis(); // starting time for next scroll
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// Now work out what's next using finite state machine to control what we do
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switch (state)
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{
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case S_LOAD: // Load the next character from the font table
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// if we reached end of message or empty string, reset the message pointer
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if (*_pText == '\0')
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{
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_pText = nullptr;
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break;
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}
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// otherwise load the character
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showLen = _M->getChar(*_pText++, ARRAY_SIZE(cBuf), cBuf);
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curLen = 0;
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state = S_SHOW;
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// fall through to the next state
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case S_SHOW: // display the next part of the character
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_M->setColumn(_sd, 0, cBuf[curLen++]);
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if (curLen == showLen)
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{
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showLen = (*_pText == '\0' ? 2*EYE_COL_SIZE : 1); // either 1 space or pad to the end of the display if finished
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curLen = 0;
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state = S_SPACE;
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}
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break;
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case S_SPACE: // display inter-character spacing (blank columns)
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_M->setColumn(_sd, 0, 0);
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curLen++;
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if (curLen >= showLen)
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state = S_LOAD;
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break;
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default:
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state = S_LOAD;
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}
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_M->control(MD_MAX72XX::UPDATE, MD_MAX72XX::ON);
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}
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void MD_RobotEyes::begin(MD_MAX72XX *M, uint8_t moduleStart)
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// initialize other stuff after libraries have started
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{
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#if DEBUG
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Serial.begin(57600);
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#endif
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PRINTS("\n[MD_RobotEyes Debug]");
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_M = M;
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_sd = moduleStart;
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setAnimation(E_NEUTRAL, false);
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};
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bool MD_RobotEyes::runAnimation(void)
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// Animate the eyes
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// Return true if there is no animation happening
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{
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static animFrame_t thisFrame;
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switch (_animState)
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{
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case S_IDLE: // no animation running - wait for a new one or blink if time to do so
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if (_pText != nullptr) // there is some text to show
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{
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PRINTS("\nIDLE: showing text");
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showText(true);
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_animState = S_TEXT;
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break;
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}
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// otherwise fall through and try for an animation
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case S_RESTART: // back to start of current animation
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if (_nextEmotion != E_NONE) // check if we have an animation in the queue
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{
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PRINTS("\nRESRT: showing animation");
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_timeLastAnimation = millis();
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// set up the next animation
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loadSequence(_nextEmotion);
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_nextEmotion = E_NONE;
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_animState = S_ANIMATE;
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}
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else if (_autoBlink) // check if we should be blinking
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{
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if (((millis() - _timeLastAnimation) >= _timeBlinkMinimum) && (random(1000) > 700))
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{
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PRINTS("\nRESRT: forcing blink");
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setAnimation(E_BLINK, true);
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_animState = S_RESTART;
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}
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}
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break;
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case S_ANIMATE: // process the next frame for this sequence
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PRINT("\nPROCESS: Frame:", _animIndex);
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loadFrame(&thisFrame);
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drawEyes(thisFrame.eyeData[LEFT_EYE_INDEX], thisFrame.eyeData[RIGHT_EYE_INDEX]);
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if (_animReverse) _animIndex--; else _animIndex++;
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_timeStartPause = millis();
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_animState = S_PAUSE;
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break;
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case S_PAUSE: // pause this frame for the required time
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{
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if ((millis() - _timeStartPause) < thisFrame.timeFrame)
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break;
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// check if this is the end of animation
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if ((!_animReverse && _animIndex >= _animEntry.size) ||
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(_animReverse && _animIndex < 0))
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{
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PRINTS("\nPAUSE: Animation end")
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if (_autoReverse) // set up the same emotion but in reverse
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{
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PRINTS(" & auto reverse");
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_nextEmotion = _animEntry.e;
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_animReverse = true; // set this flag for the restart state
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_autoReverse = false; // clear the flag for this animation sequence
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_animState = S_RESTART;
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}
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else
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_animState = S_IDLE;
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}
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else
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_animState = S_ANIMATE;
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}
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break;
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case S_TEXT: // currently displaying text
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{
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showText();
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if (_pText == nullptr)
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_animState = S_IDLE;
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}
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break;
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default: // something is wrong - reset the FSM
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_animState = S_IDLE;
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break;
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}
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return(_animState == S_IDLE);
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};
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