mirror of https://github.com/radex/radmatrix.git
firmware: improvements
parent
b54dcc93c3
commit
69c6ab51aa
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@ -147,53 +147,60 @@ void loop() {
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// start selecting rows
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// start selecting rows
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digitalWrite(ROW_SER, HIGH);
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digitalWrite(ROW_SER, HIGH);
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for (int y = 0; y < ROW_COUNT; y++) {
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for (int yCount = 0; yCount < ROW_COUNT; yCount++) {
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int y = ROW_COUNT - 1 - yCount;
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// brigthness - pushing data takes 40us, so to maximize brightness (at high brightness phases)
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// brigthness - pushing data takes 40us, so to maximize brightness (at high brightness phases)
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// we want to keep the matrix on during update (except during latch). At low brightness phases,
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// we want to keep the matrix on during update (except during latch). At low brightness phases,
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// we want it off to actually be dim
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// we want it off to actually be dim
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bool brightPhase = brightnessPhase >= 2;
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bool brightPhase = brightnessPhase >= 2;
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digitalWrite(ROW_OE, !brightPhase);
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// digitalWrite(ROW_OE, !brightPhase);
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// next row
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// next row
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pulsePin(ROW_SRCLK);
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pulsePin(ROW_SRCLK);
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// only one row
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// only one row
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digitalWrite(ROW_SER, LOW);
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digitalWrite(ROW_SER, LOW);
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// we use 7/8 stages on shift registers + 1 is unused
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// we use 7/8 stages on shift registers + 1 is unused
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if (y % 20 % 7 == 0) {
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int moduleY = yCount % 20;
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if (moduleY == 0) {
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pulsePin(ROW_SRCLK);
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pulsePin(ROW_SRCLK);
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}
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}
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if (y % 20 == 0 && y != 0) {
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if (moduleY == 7 || moduleY == 14 || (moduleY == 0 && yCount != 0)) {
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pulsePin(ROW_SRCLK);
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pulsePin(ROW_SRCLK);
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}
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}
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// clear columns
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// clear columns
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clearShiftReg(COL_SRCLK, COL_SRCLR);
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clearShiftReg(COL_SRCLK, COL_SRCLR);
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// set row with column' data
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// set row data
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for (int x = 0; x < COL_COUNT; x++) {
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for (int x = 0; x < COL_COUNT; x++) {
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// we use 7/8 stages on shift registers + 1 is unused
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if (x % 20 % 7 == 0) {
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pulsePin(COL_SRCLK);
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}
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if (x % 20 == 0 && x != 0) {
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pulsePin(COL_SRCLK);
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}
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// get value
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// get value
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// NOTE: values are loaded right-left
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uint8_t pxValue = framebuffer[y * ROW_COUNT + x];
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uint8_t pxValue = framebuffer[y * ROW_COUNT + x];
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// apply brightness
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// apply brightness
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bool gotLight = (pxValue >> (4 + brightnessPhase)) & 1;
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bool gotLight = (pxValue >> (4 + brightnessPhase)) & 1;
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// set value (note: inverted logic)
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digitalWrite(COL_SER, !gotLight);
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digitalWrite(COL_SER, !gotLight);
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// push value
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// push value
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pulsePin(COL_SRCLK);
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pulsePin(COL_SRCLK);
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// we use 7/8 stages on shift registers + 1 is unused
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int moduleX = x % 20;
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if (moduleX == 0) {
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pulsePin(COL_SRCLK);
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}
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if (moduleX == 6 || moduleX == 13 || moduleX == 19) {
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pulsePin(COL_SRCLK);
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}
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}
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}
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// disable columns before latch
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// disable columns before latch
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outputEnable(ROW_OE, false);
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outputEnable(ROW_OE, false);
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// latch rows and columns
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// latch rows and columns
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pulsePin(ROW_RCLK);
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pulsePin(ROW_RCLK);
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pulsePin(COL_RCLK);
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pulsePin(COL_RCLK);
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// enable columns after latch
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outputEnable(ROW_OE, brightPhase);
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// show for a certain period
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// show for a certain period
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outputEnable(ROW_OE, true);
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outputEnable(ROW_OE, true);
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@ -230,11 +237,7 @@ void loop2() {
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// copy to framebuffer
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// copy to framebuffer
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// TODO: mutex? double buffer? or something...
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// TODO: mutex? double buffer? or something...
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// TODO: learn to use memcpy lmao
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// TODO: learn to use memcpy lmao
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for (int x = COL_COUNT - 1; x >= 0; x--) {
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memcpy(framebuffer, buffer, ROW_COUNT * COL_COUNT);
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for (int y = 0; y < ROW_COUNT; y++) {
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framebuffer[x * ROW_COUNT + y] = buffer[(COL_COUNT - 1 - x) * ROW_COUNT + y];
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}
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}
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free(buffer);
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free(buffer);
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