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@@ -399,25 +399,34 @@ void EInkDisplay::copyGrayscaleBuffers(const uint8_t* lsbBuffer, const uint8_t*
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#ifdef EINK_DISPLAY_SINGLE_BUFFER_MODE
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/**
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* In single buffer mode, this should be called with the previously written BW buffer
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* to reconstruct the RED buffer for proper differential fast refreshes following a
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* grayscale display.
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* to restore proper BW state after a grayscale display.
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*
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* The approach: Don't call grayscaleRevert() at all. Instead, just sync the RAMs with
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* BW data and clear the grayscale mode flag. The physical pixels will stay in their
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* current grayscale states, but subsequent refreshes will naturally transition them
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* as the new BW content is displayed.
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*/
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void EInkDisplay::cleanupGrayscaleBuffers(const uint8_t* bwBuffer) {
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// Clear grayscale mode - we don't want grayscaleRevert to be called later
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// because the RAMs won't have valid grayscale data anymore
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inGrayscaleMode = false;
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// Sync both RAMs with BW content for proper fast refresh behavior
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setRamArea(0, 0, DISPLAY_WIDTH, DISPLAY_HEIGHT);
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writeRamBuffer(CMD_WRITE_RAM_BW, bwBuffer, BUFFER_SIZE);
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writeRamBuffer(CMD_WRITE_RAM_RED, bwBuffer, BUFFER_SIZE);
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}
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#endif
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void EInkDisplay::displayBuffer(RefreshMode mode) {
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if (!isScreenOn) {
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void EInkDisplay::displayBuffer(RefreshMode mode, const bool turnOffScreen) {
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if (!isScreenOn && !turnOffScreen) {
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// Force half refresh if screen is off
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mode = HALF_REFRESH;
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}
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// If currently in grayscale mode, revert first to black/white
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if (inGrayscaleMode) {
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inGrayscaleMode = false;
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grayscaleRevert();
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grayscaleRevert(); // grayscaleRevert() sets inGrayscaleMode = false internally
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}
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// Set up full screen RAM area
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@@ -442,7 +451,7 @@ void EInkDisplay::displayBuffer(RefreshMode mode) {
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#endif
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// Refresh the display
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refreshDisplay(mode);
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refreshDisplay(mode, turnOffScreen);
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#ifdef EINK_DISPLAY_SINGLE_BUFFER_MODE
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// In single buffer mode always sync RED RAM after refresh to prepare for next fast refresh
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@@ -455,7 +464,7 @@ void EInkDisplay::displayBuffer(RefreshMode mode) {
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// EXPERIMENTAL: Windowed update support
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// Displays only a rectangular region of the frame buffer, preserving the rest of the screen.
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// Requirements: x and w must be byte-aligned (multiples of 8 pixels)
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void EInkDisplay::displayWindow(uint16_t x, uint16_t y, uint16_t w, uint16_t h) {
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void EInkDisplay::displayWindow(uint16_t x, uint16_t y, uint16_t w, uint16_t h, const bool turnOffScreen) {
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Serial.printf("[%lu] Displaying window at (%d,%d) size (%dx%d)\n", millis(), x, y, w, h);
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// Validate bounds
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@@ -477,8 +486,7 @@ void EInkDisplay::displayWindow(uint16_t x, uint16_t y, uint16_t w, uint16_t h)
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// displayWindow is not supported while the rest of the screen has grayscale content, revert it
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if (inGrayscaleMode) {
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inGrayscaleMode = false;
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grayscaleRevert();
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grayscaleRevert(); // grayscaleRevert() sets inGrayscaleMode = false internally
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}
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// Calculate window buffer size
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@@ -517,7 +525,7 @@ void EInkDisplay::displayWindow(uint16_t x, uint16_t y, uint16_t w, uint16_t h)
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#endif
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// Perform fast refresh
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refreshDisplay(FAST_REFRESH);
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refreshDisplay(FAST_REFRESH, turnOffScreen);
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#ifdef EINK_DISPLAY_SINGLE_BUFFER_MODE
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// Post-refresh: Sync RED RAM with current window (for next fast refresh)
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