GO_FORPEED now 'FAST-mode'
- ability to change between fast/full refresh modes in runtime - optimized bitlogic/loops - brigtness control via uint8_t adjusted to matrix width - brightnes-control considers fastmode - clearScreen() always does full buffer refrash Signed-off-by: Emil Muratov <gpm@hotplug.ru>
This commit is contained in:
parent
7d5f445629
commit
0d8fe4aeff
2 changed files with 187 additions and 271 deletions
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@ -112,7 +112,7 @@ bool MatrixPanel_I2S_DMA::allocateDMAmemory()
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matrix_row_framebuffer_malloc[malloc_num] = (rowColorDepthStruct *)heap_caps_malloc( (sizeof(rowColorDepthStruct) * _num_frame_buffers) , MALLOC_CAP_DMA);
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matrix_row_framebuffer_malloc[malloc_num] = (rowColorDepthStruct *)heap_caps_malloc( (sizeof(rowColorDepthStruct) * _num_frame_buffers) , MALLOC_CAP_DMA);
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// If the ESP crashes here, then we must have a horribly fragmented memory space, or trying to allocate a ludicrous resolution.
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// If the ESP crashes here, then we must have a horribly fragmented memory space, or trying to allocate a ludicrous resolution.
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#if SERIAL_DEBUG
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#if SERIAL_DEBUG
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Serial.printf("Malloc'ing %d bytes of memory @ address %d for frame row %d.\r\n", (sizeof(rowColorDepthStruct) * _num_frame_buffers), matrix_row_framebuffer_malloc[malloc_num], malloc_num);
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Serial.printf("Malloc'ing %d bytes of memory @ address %ud for frame row %d.\r\n", (sizeof(rowColorDepthStruct) * _num_frame_buffers), (unsigned int)matrix_row_framebuffer_malloc[malloc_num], malloc_num);
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#endif
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#endif
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if ( matrix_row_framebuffer_malloc[malloc_num] == NULL ) {
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if ( matrix_row_framebuffer_malloc[malloc_num] == NULL ) {
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Serial.printf("ERROR: Couldn't malloc matrix_row_framebuffer %d! Critical fail.\r\n", malloc_num);
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Serial.printf("ERROR: Couldn't malloc matrix_row_framebuffer %d! Critical fail.\r\n", malloc_num);
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@ -438,108 +438,33 @@ void MatrixPanel_I2S_DMA::configureDMA(int r1_pin, int g1_pin, int b1_pin, int
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*
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*
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* Note: If you change the brightness with setBrightness() you MUST then clearScreen() and repaint / flush the entire framebuffer.
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* Note: If you change the brightness with setBrightness() you MUST then clearScreen() and repaint / flush the entire framebuffer.
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*/
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*/
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//#define GO_FOR_SPEED 1
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#ifdef GO_FOR_SPEED
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/* Update a specific co-ordinate in the DMA buffer */
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void MatrixPanel_I2S_DMA::updateMatrixDMABuffer(int16_t x_coord, int16_t y_coord, uint8_t red, uint8_t green, uint8_t blue)
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{
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// Check that the co-ordinates are within range, or it'll break everything big time.
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// Valid co-ordinates are from 0 to (MATRIX_XXXX-1)
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if ( x_coord < 0 || y_coord < 0 || x_coord >= MATRIX_WIDTH || y_coord >= MATRIX_HEIGHT) {
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return;
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}
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// https://ledshield.wordpress.com/2012/11/13/led-brightness-to-your-eye-gamma-correction-no/
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red = lumConvTab[red];
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green = lumConvTab[green];
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blue = lumConvTab[blue];
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bool painting_top_frame = true;
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if ( y_coord >= ROWS_PER_FRAME) // co-ords start at zero, y_coord = 15 = 16 (rows per frame)
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{
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y_coord -= ROWS_PER_FRAME; // Subtract the ROWS_PER_FRAME from the pixel co-ord to get the panel ROW (not really the 'y_coord' anymore)
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painting_top_frame = false;
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}
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// We need to update the correct uint16_t in the rowBitStruct array, that gets sent out in parallel
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// 16 bit parallel mode - Save the calculated value to the bitplane memory in reverse order to account for I2S Tx FIFO mode1 ordering
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int rowBitStruct_x_coord_uint16_t_position = (x_coord % 2) ? (x_coord-1):(x_coord+1);
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// Find the memory address for the malloc for this framebuffer row.
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rowColorDepthStruct *fb_row_malloc_ptr = (rowColorDepthStruct *) matrix_row_framebuffer_malloc[y_coord];
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for(int color_depth_idx=0; color_depth_idx<PIXEL_COLOR_DEPTH_BITS; color_depth_idx++) // color depth - 8 iterations
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{
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uint8_t mask = (1 << color_depth_idx); // PWM bit colour mask (max 8bits per pixel colour)
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// The destination for the pixel bitstream
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//rowBitStruct *p = &matrix_framebuffer_malloc_1[back_buffer_id].rowdata[y_coord].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
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// Get the contents at this address, cast as a rowColorDepthStruct
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//rowBitStruct *p = &fb_row_malloc_ptr[back_buffer_id].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
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uint16_t &v = fb_row_malloc_ptr[back_buffer_id].rowbits[color_depth_idx].data[rowBitStruct_x_coord_uint16_t_position];
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//int v=0; // the output bitstream
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if (painting_top_frame) // Painting to pixel in the top half of the HUB75 panel use the R1, B1 and G1 pins
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{
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// Set the colour of the pixel of interest
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// https://stackoverflow.com/questions/47981/how-do-you-set-clear-and-toggle-a-single-bit
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if (red & mask) { v|=BIT_R1; } else { v &= ~(BIT_R1); }
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if (green & mask) { v|=BIT_G1; } else { v &= ~(BIT_G1); }
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if (blue & mask) { v|=BIT_B1; } else { v &= ~(BIT_B1); }
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}
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else
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{ // Paint to a pixel in the bottom half
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if (red & mask) { v|=BIT_R2; } else { v &= ~(BIT_R2); }
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if (green & mask) { v|=BIT_G2; } else { v &= ~(BIT_G2); }
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if (blue & mask) { v|=BIT_B2; } else { v &= ~(BIT_B2); }
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} // paint
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// 16 bit parallel mode
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//Save the calculated value to the bitplane memory in reverse order to account for I2S Tx FIFO mode1 ordering
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//p->data[rowBitStruct_x_coord_uint16_t_position] = v;
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// NOTE: No need to do this as 'v' is now a reference directly to the frameStruct
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} // color depth loop (8)
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} // updateMatrixDMABuffer (specific co-ords change)
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#else
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/* Update a specific co-ordinate in the DMA buffer */
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/* Update a specific co-ordinate in the DMA buffer */
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/* Original version were we re-create the bitstream from scratch for each x,y co-ordinate / pixel changed. Slightly slower. */
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/* Original version were we re-create the bitstream from scratch for each x,y co-ordinate / pixel changed. Slightly slower. */
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void MatrixPanel_I2S_DMA::updateMatrixDMABuffer(int16_t x_coord, int16_t y_coord, uint8_t red, uint8_t green, uint8_t blue)
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void MatrixPanel_I2S_DMA::updateMatrixDMABuffer(int16_t x_coord, int16_t y_coord, uint8_t red, uint8_t green, uint8_t blue)
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{
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{
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if ( !everything_OK ) {
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if ( !everything_OK ) {
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#if SERIAL_DEBUG
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#if SERIAL_DEBUG
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Serial.println("Cannot updateMatrixDMABuffer as setup failed!");
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Serial.println("Cannot updateMatrixDMABuffer as setup failed!");
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#endif
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#endif
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return;
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return;
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}
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}
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/* LED Brightness Compensation. Because if we do a basic "red & mask" for example,
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/* 1) Check that the co-ordinates are within range, or it'll break everything big time.
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* Valid co-ordinates are from 0 to (MATRIX_XXXX-1)
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*/
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if ( x_coord < 0 || y_coord < 0 || x_coord >= MATRIX_WIDTH || y_coord >= MATRIX_HEIGHT) {
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return;
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}
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/* LED Brightness Compensation. Because if we do a basic "red & mask" for example,
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* we'll NEVER send the dimmest possible colour, due to binary skew.
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* we'll NEVER send the dimmest possible colour, due to binary skew.
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* i.e. It's almost impossible for color_depth_idx of 0 to be sent out to the MATRIX unless the 'value' of a color is exactly '1'
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i.e. It's almost impossible for color_depth_idx of 0 to be sent out to the MATRIX unless the 'value' of a color is exactly '1'
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* https://ledshield.wordpress.com/2012/11/13/led-brightness-to-your-eye-gamma-correction-no/
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*/
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*/
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red = lumConvTab[red];
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red = lumConvTab[red];
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green = lumConvTab[green];
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green = lumConvTab[green];
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blue = lumConvTab[blue];
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blue = lumConvTab[blue];
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/* 1) Check that the co-ordinates are within range, or it'll break everything big time.
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* Valid co-ordinates are from 0 to (MATRIX_XXXX-1)
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*/
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if ( x_coord < 0 || y_coord < 0 || x_coord >= MATRIX_WIDTH || y_coord >= MATRIX_HEIGHT) {
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return;
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}
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/* When using the drawPixel, we are obviously only changing the value of one x,y position,
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/* When using the drawPixel, we are obviously only changing the value of one x,y position,
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* however, the two-scan panels paint TWO lines at the same time
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* however, the two-scan panels paint TWO lines at the same time
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@ -553,58 +478,62 @@ void MatrixPanel_I2S_DMA::updateMatrixDMABuffer(int16_t x_coord, int16_t y_coord
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* data.
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* data.
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*/
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*/
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bool painting_top_frame = true;
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bool painting_top_frame = true;
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if ( y_coord >= ROWS_PER_FRAME) // co-ords start at zero, y_coord = 15 = 16 (rows per frame)
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if ( y_coord >= ROWS_PER_FRAME) // co-ords start at zero, y_coord = 15 => 16 (rows per frame)
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{
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{
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y_coord -= ROWS_PER_FRAME; // Subtract the ROWS_PER_FRAME from the pixel co-ord to get the panel ROW (not really the 'y_coord' anymore)
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y_coord -= ROWS_PER_FRAME; // Subtract the ROWS_PER_FRAME from the pixel co-ord to get the panel ROW (not really the 'y_coord' anymore)
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painting_top_frame = false;
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painting_top_frame = false;
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}
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}
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// We need to update the correct uint16_t in the rowBitStruct array, that gets sent out in parallel
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// Find the memory address for the malloc for this framebuffer row.
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int rowBitStruct_x_coord_uint16_t_position = (x_coord % 2) ? (x_coord-1):(x_coord+1);
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rowColorDepthStruct *fb_row_malloc_ptr = (rowColorDepthStruct *) matrix_row_framebuffer_malloc[y_coord];
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for(int color_depth_idx=0; color_depth_idx<PIXEL_COLOR_DEPTH_BITS; color_depth_idx++) // color depth - 8 iterations
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// We need to update the correct uint16_t in the rowBitStruct array, that gets sent out in parallel
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// 16 bit parallel mode - Save the calculated value to the bitplane memory in reverse order to account for I2S Tx FIFO mode1 ordering
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uint16_t rowBitStruct_x_coord_uint16_t_position = (x_coord % 2) ? (x_coord-1):(x_coord+1);
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for(uint8_t color_depth_idx=0; color_depth_idx<PIXEL_COLOR_DEPTH_BITS; color_depth_idx++) // color depth - 8 iterations
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{
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{
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int mask = (1 << color_depth_idx); // 24 bit color
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uint8_t mask = (1 << color_depth_idx); // 24 bit color
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// The destination for the pixel bitstream
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//rowBitStruct *p = &matrix_framebuffer_malloc_1[back_buffer_id].rowdata[y_coord].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
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// Find the memory address for the malloc for this framebuffer row.
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rowColorDepthStruct *fb_row_malloc_ptr = (rowColorDepthStruct *) matrix_row_framebuffer_malloc[y_coord];
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// Get the contents at this address, cast as a rowColorDepthStruct
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// Get the contents at this address, cast as a rowColorDepthStruct
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rowBitStruct *p = &fb_row_malloc_ptr[back_buffer_id].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
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rowBitStruct *p = &fb_row_malloc_ptr[back_buffer_id].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
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// We need to update the correct uint16_t in the rowBitStruct array, that gets sent out in parallel
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uint16_t &v = p->data[rowBitStruct_x_coord_uint16_t_position]; // persist what we already have
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if (painting_top_frame)
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{ // Need to copy what the RGB status is for the bottom pixels
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v &= BITSMASK_RGB1; // reset R1G1B1 bits
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// Set the color of the pixel of interest
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if (green & mask) { v|=BIT_G1; }
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if (blue & mask) { v|=BIT_B1; }
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if (red & mask) { v|=BIT_R1; }
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// int v = p->data[rowBitStruct_x_coord_uint16_t_position]; // persist what we already have
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} else { // Do it the other way around
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int v=0; // the output bitstream
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v &= BITSMASK_RGB2; // reset R2G2B2 bits
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// Color to set
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if (red & mask) { v|=BIT_R2; }
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if (green & mask) { v|=BIT_G2; }
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if (blue & mask) { v|=BIT_B2; }
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} // paint
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// if there is no latch to hold address, output ADDX lines directly to GPIO and latch data at end of cycle
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if (fastmode)
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int gpioRowAddress = y_coord;
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continue;
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// normally output current rows ADDX, special case for LSB, output previous row's ADDX (as previous row is being displayed for one latch cycle)
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// update address/control bits
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if(color_depth_idx == 0)
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v &= BITSMASK_CTRL; // reset ABCDE,EO,LAT address bits
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gpioRowAddress = y_coord-1;
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uint16_t _y = color_depth_idx ? y_coord : y_coord -1;
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v|=_y<<8; // shift row coord to match ABCDE bits from 8 to 12 and set bitvector
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if (gpioRowAddress & 0x01) v|=BIT_A; // 1
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if (gpioRowAddress & 0x02) v|=BIT_B; // 2
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if (gpioRowAddress & 0x04) v|=BIT_C; // 4
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if (gpioRowAddress & 0x08) v|=BIT_D; // 8
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if (gpioRowAddress & 0x10) v|=BIT_E; // 16
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// need to disable OE after latch to hide row transition
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if((x_coord) == 0 ) v|=BIT_OE;
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// drive latch while shifting out last bit of RGB data
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// drive latch while shifting out last bit of RGB data
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if((x_coord) == PIXELS_PER_ROW-1) v|=BIT_LAT;
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if((x_coord) == PIXELS_PER_ROW-1) v|=BIT_LAT;
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// need to turn off OE one clock before latch, otherwise can get ghosting
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// need to disable OE after latch to hide row transition
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if((x_coord)==PIXELS_PER_ROW-2) v|=BIT_OE;
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// OR one clock before latch, otherwise can get ghosting
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if((x_coord) == 0 || (x_coord)==PIXELS_PER_ROW-2){ v|=BIT_OE; continue;}
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// turn off OE after brightness value is reached when displaying MSBs
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if((color_depth_idx > lsbMsbTransitionBit || !color_depth_idx) && ((x_coord) >= brightness))
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// MSBs always output normal brightness
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{v|=BIT_OE; continue;}// For Brightness
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// LSB (!color_depth_idx) outputs normal brightness as MSB from previous row is being displayed
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if((color_depth_idx > lsbMsbTransitionBit || !color_depth_idx) && ((x_coord) >= brightness)) v|=BIT_OE; // For Brightness
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// special case for the bits *after* LSB through (lsbMsbTransitionBit) - OE is output after data is shifted, so need to set OE to fractional brightness
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// special case for the bits *after* LSB through (lsbMsbTransitionBit) - OE is output after data is shifted, so need to set OE to fractional brightness
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if(color_depth_idx && color_depth_idx <= lsbMsbTransitionBit) {
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if(color_depth_idx && color_depth_idx <= lsbMsbTransitionBit) {
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int lsbBrightness = brightness >> (lsbMsbTransitionBit - color_depth_idx + 1);
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int lsbBrightness = brightness >> (lsbMsbTransitionBit - color_depth_idx + 1);
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if((x_coord) >= lsbBrightness) v|=BIT_OE; // For Brightness
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if((x_coord) >= lsbBrightness) v|=BIT_OE; // For Brightness
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}
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}
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/*
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/*
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// Development / testing code only.
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// Development / testing code only.
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Serial.printf("r value of %d, color depth: %d, mask: %d\r\n", red, color_depth_idx, mask);
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Serial.printf("r value of %d, color depth: %d, mask: %d\r\n", red, color_depth_idx, mask);
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Serial.printf("val2pwm r value: %d\r\n", val2PWM(red));
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Serial.printf("val2pwm r value: %d\r\n", val2PWM(red));
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if (val2PWM(red) & mask) { Serial.println("Success - PWM"); v|=BIT_R2; }
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if (val2PWM(red) & mask) { Serial.println("Success - PWM"); v|=BIT_R2; }
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*/
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*/
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if (painting_top_frame)
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{ // Need to copy what the RGB status is for the bottom pixels
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// Set the color of the pixel of interest
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if (green & mask) { v|=BIT_G1; }
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if (blue & mask) { v|=BIT_B1; }
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if (red & mask) { v|=BIT_R1; }
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// Persist what was painted to the other half of the frame equiv. pixel
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if (p->data[rowBitStruct_x_coord_uint16_t_position] & BIT_R2)
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v|=BIT_R2;
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if (p->data[rowBitStruct_x_coord_uint16_t_position] & BIT_G2)
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v|=BIT_G2;
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if (p->data[rowBitStruct_x_coord_uint16_t_position] & BIT_B2)
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v|=BIT_B2;
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}
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else
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{ // Do it the other way around
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// Color to set
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if (red & mask) { v|=BIT_R2; }
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if (green & mask) { v|=BIT_G2; }
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if (blue & mask) { v|=BIT_B2; }
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// Copy / persist
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if (p->data[rowBitStruct_x_coord_uint16_t_position] & BIT_R1)
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v|=BIT_R1;
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if (p->data[rowBitStruct_x_coord_uint16_t_position] & BIT_G1)
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v|=BIT_G1;
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|
||||||
if (p->data[rowBitStruct_x_coord_uint16_t_position] & BIT_B1)
|
|
||||||
v|=BIT_B1;
|
|
||||||
|
|
||||||
} // paint
|
|
||||||
|
|
||||||
// 16 bit parallel mode
|
|
||||||
//Save the calculated value to the bitplane memory in reverse order to account for I2S Tx FIFO mode1 ordering
|
|
||||||
/*
|
|
||||||
if(x_coord%2){
|
|
||||||
p->data[(x_coord)-1] = v;
|
|
||||||
} else {
|
|
||||||
p->data[(x_coord)+1] = v;
|
|
||||||
} // end reordering
|
|
||||||
*/
|
|
||||||
|
|
||||||
// 16 bit parallel mode
|
|
||||||
p->data[rowBitStruct_x_coord_uint16_t_position] = v;
|
|
||||||
|
|
||||||
|
|
||||||
} // color depth loop (8)
|
} // color depth loop (8)
|
||||||
|
|
||||||
|
|
||||||
} // updateMatrixDMABuffer (specific co-ords change)
|
} // updateMatrixDMABuffer (specific co-ords change)
|
||||||
#endif
|
|
||||||
|
|
||||||
|
|
||||||
/* Update the entire buffer with a single specific colour - quicker */
|
/* Update the entire buffer with a single specific colour - quicker */
|
||||||
|
@ -692,66 +566,62 @@ void MatrixPanel_I2S_DMA::updateMatrixDMABuffer(uint8_t red, uint8_t green, uint
|
||||||
blue = val2PWM(blue);
|
blue = val2PWM(blue);
|
||||||
*/
|
*/
|
||||||
red = lumConvTab[red];
|
red = lumConvTab[red];
|
||||||
green = lumConvTab[green];
|
green = lumConvTab[green];
|
||||||
blue = lumConvTab[blue];
|
blue = lumConvTab[blue];
|
||||||
|
|
||||||
for (unsigned int matrix_frame_parallel_row = 0; matrix_frame_parallel_row < ROWS_PER_FRAME; matrix_frame_parallel_row++) // half height - 16 iterations
|
for(uint8_t color_depth_idx=0; color_depth_idx<PIXEL_COLOR_DEPTH_BITS; color_depth_idx++) // color depth - 8 iterations
|
||||||
{
|
{
|
||||||
for(int color_depth_idx=0; color_depth_idx<PIXEL_COLOR_DEPTH_BITS; color_depth_idx++) // color depth - 8 iterations
|
// let's precalculate RGB1 and RGB2 bits than flood it over the entire DMA buffer
|
||||||
|
uint16_t RGBbitfield = 0;
|
||||||
|
uint8_t mask = (1 << color_depth_idx); // 24 bit color
|
||||||
|
|
||||||
|
RGBbitfield |= (bool)(blue & mask);
|
||||||
|
RGBbitfield <<= 1;
|
||||||
|
RGBbitfield |= (bool)(green & mask);
|
||||||
|
RGBbitfield <<= 1;
|
||||||
|
RGBbitfield |= (bool)(red & mask);
|
||||||
|
RGBbitfield |= RGBbitfield << 3; // now we should have 6 bits of RGB suitable for DMA buffer
|
||||||
|
//Serial.printf("Fill with: 0x%#06x\n", RGBbitfield);
|
||||||
|
|
||||||
|
// iterate rows
|
||||||
|
for (uint16_t matrix_frame_parallel_row = 0; matrix_frame_parallel_row < ROWS_PER_FRAME; matrix_frame_parallel_row++) // half height - 16 iterations
|
||||||
{
|
{
|
||||||
uint16_t mask = (1 << color_depth_idx); // 24 bit color
|
rowColorDepthStruct *fb_row_malloc_ptr = (rowColorDepthStruct *) matrix_row_framebuffer_malloc[matrix_frame_parallel_row];
|
||||||
|
//Serial.printf("Accessing fb address: %d\r\n", fb_row_malloc_ptr);
|
||||||
|
|
||||||
// The destination for the pixel bitstream
|
// The destination for the pixel bitstream
|
||||||
//rowBitStruct *p = &matrix_framebuffer_malloc_1[back_buffer_id].rowdata[matrix_frame_parallel_row].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
|
rowBitStruct *p = &fb_row_malloc_ptr[back_buffer_id].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
|
||||||
rowColorDepthStruct *fb_row_malloc_ptr = (rowColorDepthStruct *) matrix_row_framebuffer_malloc[matrix_frame_parallel_row];
|
|
||||||
//Serial.printf("Accessing fb address: %d\r\n", fb_row_malloc_ptr);
|
|
||||||
|
|
||||||
rowBitStruct *p = &fb_row_malloc_ptr[back_buffer_id].rowbits[color_depth_idx]; //matrixUpdateFrames location to write to uint16_t's
|
// iterate pixels in a row
|
||||||
|
if (fastmode){
|
||||||
|
for(uint16_t x_coord=0; x_coord < MATRIX_WIDTH; x_coord++){
|
||||||
|
uint16_t &v = p->data[(x_coord % 2) ? (x_coord-1):(x_coord+1)]; // take reference to bit vector
|
||||||
|
v &= BITSMASK_RGB12; // reset color bits
|
||||||
|
v |= RGBbitfield; // set new color bits
|
||||||
|
}
|
||||||
|
} else {
|
||||||
|
// Set ABCDE address bits vector
|
||||||
|
uint16_t _y = color_depth_idx ? matrix_frame_parallel_row : matrix_frame_parallel_row -1;
|
||||||
|
_y <<=8; // shift row y-coord to match ABCDE bits in vector from 8 to 12
|
||||||
|
|
||||||
for(int x_coord=0; x_coord < MATRIX_WIDTH; x_coord++) // row pixel width 64 iterations
|
for(uint16_t x_coord=0; x_coord < MATRIX_WIDTH; x_coord++){
|
||||||
{
|
uint16_t &v = p->data[(x_coord % 2) ? (x_coord-1):(x_coord+1)]; // persist what we already have
|
||||||
|
v = RGBbitfield; // set colot bits and reset all others
|
||||||
int v=0; // the output bitstream
|
v|=_y; // set ABCDE address bits for current row
|
||||||
|
|
||||||
// if there is no latch to hold address, output ADDX lines directly to GPIO and latch data at end of cycle
|
|
||||||
int gpioRowAddress = matrix_frame_parallel_row;
|
|
||||||
|
|
||||||
// normally output current rows ADDX, special case for LSB, output previous row's ADDX (as previous row is being displayed for one latch cycle)
|
|
||||||
if(color_depth_idx == 0)
|
|
||||||
gpioRowAddress = matrix_frame_parallel_row-1;
|
|
||||||
|
|
||||||
if (gpioRowAddress & 0x01) v|=BIT_A; // 1
|
|
||||||
if (gpioRowAddress & 0x02) v|=BIT_B; // 2
|
|
||||||
if (gpioRowAddress & 0x04) v|=BIT_C; // 4
|
|
||||||
if (gpioRowAddress & 0x08) v|=BIT_D; // 8
|
|
||||||
if (gpioRowAddress & 0x10) v|=BIT_E; // 16
|
|
||||||
|
|
||||||
|
|
||||||
/* ORIG
|
|
||||||
// need to disable OE after latch to hide row transition
|
|
||||||
if((x_coord) == 0) v|=BIT_OE;
|
|
||||||
|
|
||||||
// drive latch while shifting out last bit of RGB data
|
|
||||||
if((x_coord) == PIXELS_PER_LATCH-1) v|=BIT_LAT;
|
|
||||||
|
|
||||||
// need to turn off OE one clock before latch, otherwise can get ghosting
|
|
||||||
if((x_coord)==PIXELS_PER_LATCH-1) v|=BIT_OE;
|
|
||||||
*/
|
|
||||||
|
|
||||||
// need to disable OE after latch to hide row transition
|
|
||||||
if((x_coord) == 0 ) v|=BIT_OE;
|
|
||||||
|
|
||||||
// drive latch while shifting out last bit of RGB data
|
// drive latch while shifting out last bit of RGB data
|
||||||
if((x_coord) == PIXELS_PER_ROW-1) v|=BIT_LAT;
|
if((x_coord) == PIXELS_PER_ROW-1) v|=BIT_LAT;
|
||||||
|
|
||||||
// need to turn off OE one clock before latch, otherwise can get ghosting
|
// need to disable OE after latch to hide row transition
|
||||||
if((x_coord)==PIXELS_PER_ROW-2) v|=BIT_OE;
|
// OR one clock before latch, otherwise can get ghosting
|
||||||
|
if(!x_coord || (x_coord)==PIXELS_PER_ROW-2){
|
||||||
|
v|=BIT_OE; continue;
|
||||||
|
}
|
||||||
|
|
||||||
|
// BRT OE
|
||||||
// turn off OE after brightness value is reached when displaying MSBs
|
if((color_depth_idx > lsbMsbTransitionBit || !color_depth_idx) && ((x_coord) >= brightness)){
|
||||||
// MSBs always output normal brightness
|
v|=BIT_OE; continue; // For Brightness control
|
||||||
// LSB (!color_depth_idx) outputs normal brightness as MSB from previous row is being displayed
|
}
|
||||||
if((color_depth_idx > lsbMsbTransitionBit || !color_depth_idx) && ((x_coord) >= brightness)) v|=BIT_OE; // For Brightness
|
|
||||||
|
|
||||||
// special case for the bits *after* LSB through (lsbMsbTransitionBit) - OE is output after data is shifted, so need to set OE to fractional brightness
|
// special case for the bits *after* LSB through (lsbMsbTransitionBit) - OE is output after data is shifted, so need to set OE to fractional brightness
|
||||||
if(color_depth_idx && color_depth_idx <= lsbMsbTransitionBit) {
|
if(color_depth_idx && color_depth_idx <= lsbMsbTransitionBit) {
|
||||||
|
@ -759,24 +629,10 @@ void MatrixPanel_I2S_DMA::updateMatrixDMABuffer(uint8_t red, uint8_t green, uint
|
||||||
int lsbBrightness = brightness >> (lsbMsbTransitionBit - color_depth_idx + 1);
|
int lsbBrightness = brightness >> (lsbMsbTransitionBit - color_depth_idx + 1);
|
||||||
if((x_coord) >= lsbBrightness) v|=BIT_OE; // For Brightness
|
if((x_coord) >= lsbBrightness) v|=BIT_OE; // For Brightness
|
||||||
}
|
}
|
||||||
|
} // end of x-iterator
|
||||||
// Top and bottom matrix MATRIX_ROWS_IN_PARALLEL half colours
|
} // end x_coord iteration
|
||||||
if (green & mask) { v|=BIT_G1; v|=BIT_G2; }
|
} // end row iteration
|
||||||
if (blue & mask) { v|=BIT_B1; v|=BIT_B2; }
|
} // colour depth loop (8)
|
||||||
if (red & mask) { v|=BIT_R1; v|=BIT_R2; }
|
|
||||||
|
|
||||||
// 16 bit parallel mode
|
|
||||||
//Save the calculated value to the bitplane memory in reverse order to account for I2S Tx FIFO mode1 ordering
|
|
||||||
if(x_coord%2) {
|
|
||||||
p->data[(x_coord)-1] = v;
|
|
||||||
} else {
|
|
||||||
p->data[(x_coord)+1] = v;
|
|
||||||
} // end reordering
|
|
||||||
|
|
||||||
} // end x_coord iteration
|
|
||||||
} // colour depth loop (8)
|
|
||||||
} // end row iteration
|
|
||||||
|
|
||||||
} // updateMatrixDMABuffer (full frame paint)
|
} // updateMatrixDMABuffer (full frame paint)
|
||||||
|
|
||||||
/**
|
/**
|
||||||
|
@ -791,7 +647,7 @@ void MatrixPanel_I2S_DMA::shiftDriver(const shift_driver _drv, const int dma_r1_
|
||||||
#if SERIAL_DEBUG
|
#if SERIAL_DEBUG
|
||||||
Serial.println( F("MatrixPanel_I2S_DMA - initializing FM6124 driver..."));
|
Serial.println( F("MatrixPanel_I2S_DMA - initializing FM6124 driver..."));
|
||||||
#endif
|
#endif
|
||||||
bool REG1[16] = {0,0,0,0,0, 1,1,1,1,1,1, 0,0,0,0,0}; // this sets global matrix brighness power
|
bool REG1[16] = {0,0,0,0,0, 1,1,1,1,1,1, 0,0,0,0,0}; // this sets global matrix brightness power
|
||||||
bool REG2[16] = {0,0,0,0,0, 0,0,0,0,1,0, 0,0,0,0,0}; // a single bit enables the matrix output
|
bool REG2[16] = {0,0,0,0,0, 0,0,0,0,1,0, 0,0,0,0,0}; // a single bit enables the matrix output
|
||||||
|
|
||||||
for (uint8_t _pin:{dma_r1_pin, dma_r2_pin, dma_g1_pin, dma_g2_pin, dma_b1_pin, dma_b2_pin, dma_clk_pin, dma_lat_pin, dma_oe_pin})
|
for (uint8_t _pin:{dma_r1_pin, dma_r2_pin, dma_g1_pin, dma_g2_pin, dma_b1_pin, dma_b2_pin, dma_clk_pin, dma_lat_pin, dma_oe_pin})
|
||||||
|
@ -807,7 +663,7 @@ void MatrixPanel_I2S_DMA::shiftDriver(const shift_driver _drv, const int dma_r1_
|
||||||
for (uint8_t _pin:{dma_r1_pin, dma_r2_pin, dma_g1_pin, dma_g2_pin, dma_b1_pin, dma_b2_pin})
|
for (uint8_t _pin:{dma_r1_pin, dma_r2_pin, dma_g1_pin, dma_g2_pin, dma_b1_pin, dma_b2_pin})
|
||||||
digitalWrite(_pin, REG1[l%16]); // we have 16 bits shifters and write the same value all over the matrix array
|
digitalWrite(_pin, REG1[l%16]); // we have 16 bits shifters and write the same value all over the matrix array
|
||||||
|
|
||||||
if (l > MATRIX_WIDTH - 12){ // pull the latch 12 clocks before the end of matrix so that REG1 starts counting to save the value
|
if (l > MATRIX_WIDTH - 12){ // pull the latch 11 clocks before the end of matrix so that REG1 starts counting to save the value
|
||||||
digitalWrite(dma_lat_pin, HIGH);
|
digitalWrite(dma_lat_pin, HIGH);
|
||||||
}
|
}
|
||||||
digitalWrite(dma_clk_pin, HIGH); // 1-clock pulse
|
digitalWrite(dma_clk_pin, HIGH); // 1-clock pulse
|
||||||
|
@ -823,7 +679,7 @@ void MatrixPanel_I2S_DMA::shiftDriver(const shift_driver _drv, const int dma_r1_
|
||||||
for (uint8_t _pin:{dma_r1_pin, dma_r2_pin, dma_g1_pin, dma_g2_pin, dma_b1_pin, dma_b2_pin})
|
for (uint8_t _pin:{dma_r1_pin, dma_r2_pin, dma_g1_pin, dma_g2_pin, dma_b1_pin, dma_b2_pin})
|
||||||
digitalWrite(_pin, REG2[l%16]); // we have 16 bits shifters and we write the same value all over the matrix array
|
digitalWrite(_pin, REG2[l%16]); // we have 16 bits shifters and we write the same value all over the matrix array
|
||||||
|
|
||||||
if (l > MATRIX_WIDTH - 13){ // pull the latch 13 clocks before the end of matrix so that reg2 stars counting to save the value
|
if (l > MATRIX_WIDTH - 13){ // pull the latch 12 clocks before the end of matrix so that reg2 stars counting to save the value
|
||||||
digitalWrite(dma_lat_pin, HIGH);
|
digitalWrite(dma_lat_pin, HIGH);
|
||||||
}
|
}
|
||||||
digitalWrite(dma_clk_pin, HIGH); // 1-clock pulse
|
digitalWrite(dma_clk_pin, HIGH); // 1-clock pulse
|
||||||
|
@ -840,3 +696,16 @@ void MatrixPanel_I2S_DMA::shiftDriver(const shift_driver _drv, const int dma_r1_
|
||||||
break;
|
break;
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* clear screen to black and reset service bits
|
||||||
|
*/
|
||||||
|
void MatrixPanel_I2S_DMA::clearScreen(){
|
||||||
|
if (fastmode) {
|
||||||
|
fastmode = false; // we always clear screen in 'slow' mode to update all bits in DMA buffer
|
||||||
|
updateMatrixDMABuffer(0, 0, 0);
|
||||||
|
fastmode = true; // restore fastmode
|
||||||
|
} else {
|
||||||
|
updateMatrixDMABuffer(0, 0, 0);
|
||||||
|
}
|
||||||
|
}
|
|
@ -104,6 +104,11 @@
|
||||||
#define BIT_D (1<<11)
|
#define BIT_D (1<<11)
|
||||||
#define BIT_E (1<<12)
|
#define BIT_E (1<<12)
|
||||||
|
|
||||||
|
#define BITSMASK_RGB1 (0xfff8) // inverted bitmask for R1G1B1 bit in pixel vector
|
||||||
|
#define BITSMASK_RGB2 (0xffc7) // inverted bitmask for R2G2B2 bit in pixel vector
|
||||||
|
#define BITSMASK_RGB12 (0xffc0) // inverted bitmask for R1G1B1R2G2B2 bit in pixel vector
|
||||||
|
#define BITSMASK_CTRL (0xe03f) // inverted bitmask for control bits ABCDE,LAT,OE in pixel vector
|
||||||
|
|
||||||
// RGB Panel Constants / Calculated Values
|
// RGB Panel Constants / Calculated Values
|
||||||
#define COLOR_CHANNELS_PER_PIXEL 3
|
#define COLOR_CHANNELS_PER_PIXEL 3
|
||||||
#define PIXELS_PER_ROW ((MATRIX_WIDTH * MATRIX_HEIGHT) / MATRIX_HEIGHT) // = 64
|
#define PIXELS_PER_ROW ((MATRIX_WIDTH * MATRIX_HEIGHT) / MATRIX_HEIGHT) // = 64
|
||||||
|
@ -114,8 +119,10 @@
|
||||||
/* Keep this as is. Do not change. */
|
/* Keep this as is. Do not change. */
|
||||||
#define ESP32_I2S_DMA_MODE I2S_PARALLEL_BITS_16 // Pump 16 bits out in parallel
|
#define ESP32_I2S_DMA_MODE I2S_PARALLEL_BITS_16 // Pump 16 bits out in parallel
|
||||||
#define ESP32_I2S_DMA_STORAGE_TYPE uint16_t // one uint16_t at a time.
|
#define ESP32_I2S_DMA_STORAGE_TYPE uint16_t // one uint16_t at a time.
|
||||||
//#define ESP32_I2S_CLOCK_SPEED (20000000UL) // @ 20Mhz
|
#ifndef ESP32_I2S_CLOCK_SPEED
|
||||||
#define ESP32_I2S_CLOCK_SPEED (10000000UL) // @ 10Mhz
|
#define ESP32_I2S_CLOCK_SPEED (10000000UL) // @ 10Mhz
|
||||||
|
//#define ESP32_I2S_CLOCK_SPEED (20000000UL) // @ 20Mhz
|
||||||
|
#endif
|
||||||
#define CLKS_DURING_LATCH 0 // Not used.
|
#define CLKS_DURING_LATCH 0 // Not used.
|
||||||
/***************************************************************************************/
|
/***************************************************************************************/
|
||||||
|
|
||||||
|
@ -250,8 +257,8 @@ class MatrixPanel_I2S_DMA : public Adafruit_GFX {
|
||||||
// Draw pixels
|
// Draw pixels
|
||||||
virtual void drawPixel(int16_t x, int16_t y, uint16_t color); // overwrite adafruit implementation
|
virtual void drawPixel(int16_t x, int16_t y, uint16_t color); // overwrite adafruit implementation
|
||||||
virtual void fillScreen(uint16_t color); // overwrite adafruit implementation
|
virtual void fillScreen(uint16_t color); // overwrite adafruit implementation
|
||||||
void clearScreen() { fillScreen(0); }
|
void clearScreen();
|
||||||
void fillScreenRGB888(uint8_t r, uint8_t g, uint8_t b);
|
void fillScreenRGB888(uint8_t r, uint8_t g, uint8_t b);
|
||||||
void drawPixelRGB565(int16_t x, int16_t y, uint16_t color);
|
void drawPixelRGB565(int16_t x, int16_t y, uint16_t color);
|
||||||
void drawPixelRGB888(int16_t x, int16_t y, uint8_t r, uint8_t g, uint8_t b);
|
void drawPixelRGB888(int16_t x, int16_t y, uint8_t r, uint8_t g, uint8_t b);
|
||||||
void drawPixelRGB24(int16_t x, int16_t y, RGB24 color);
|
void drawPixelRGB24(int16_t x, int16_t y, RGB24 color);
|
||||||
|
@ -296,11 +303,22 @@ class MatrixPanel_I2S_DMA : public Adafruit_GFX {
|
||||||
while(!i2s_parallel_is_previous_buffer_free()) {}
|
while(!i2s_parallel_is_previous_buffer_free()) {}
|
||||||
}
|
}
|
||||||
|
|
||||||
|
inline void setPanelBrightness(int &b)
|
||||||
inline void setPanelBrightness(int b)
|
|
||||||
{
|
{
|
||||||
// Change to set the brightness of the display, range of 1 to matrixWidth (i.e. 1 - 64)
|
// Change to set the brightness of the display, range of 1 to matrixWidth (i.e. 1 - 64)
|
||||||
brightness = b;
|
brightness = b;
|
||||||
|
if (fastmode) // in 'fast' mode we should always reset DMA buffer to update OE bits that controls brightness
|
||||||
|
clearScreen(); // and YES, it WILL flicker. you've been warned :)
|
||||||
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* this is just a wrapper to control brightness
|
||||||
|
* with an 8-bit value (0-255), very popular in FastLED-based sketches :)
|
||||||
|
* @param uint8_t b - 8-bit brightness value
|
||||||
|
*/
|
||||||
|
void setBrightness8(const uint8_t b)
|
||||||
|
{
|
||||||
|
setPanelBrightness(b * MATRIX_WIDTH / 256);
|
||||||
}
|
}
|
||||||
|
|
||||||
inline void setMinRefreshRate(int rr)
|
inline void setMinRefreshRate(int rr)
|
||||||
|
@ -308,6 +326,23 @@ class MatrixPanel_I2S_DMA : public Adafruit_GFX {
|
||||||
min_refresh_rate = rr;
|
min_refresh_rate = rr;
|
||||||
}
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* Controls fast-update mode, when only RGB bits are upated in DMA buffer
|
||||||
|
* @param mode bool - set/clear fastmode. Will take effect on newly updated pixels only
|
||||||
|
* @return fastmode status
|
||||||
|
*/
|
||||||
|
bool setFastMode(const bool mode){
|
||||||
|
fastmode = mode;
|
||||||
|
return fastmode;
|
||||||
|
};
|
||||||
|
|
||||||
|
/**
|
||||||
|
* Controls fast-update mode, when only RGB bits are upated in DMA buffer
|
||||||
|
* @param void - returns current fastmode status
|
||||||
|
*/
|
||||||
|
bool setFastMode(){return fastmode;};
|
||||||
|
|
||||||
|
|
||||||
int calculated_refresh_rate = 0;
|
int calculated_refresh_rate = 0;
|
||||||
|
|
||||||
// ------- PRIVATE -------
|
// ------- PRIVATE -------
|
||||||
|
@ -332,6 +367,18 @@ class MatrixPanel_I2S_DMA : public Adafruit_GFX {
|
||||||
int min_refresh_rate = 99; // Probably best to leave as is unless you want to experiment. Framerate has an impact on brightness and also power draw - voltage ripple.
|
int min_refresh_rate = 99; // Probably best to leave as is unless you want to experiment. Framerate has an impact on brightness and also power draw - voltage ripple.
|
||||||
int lsbMsbTransitionBit = 0; // For possible color depth calculations
|
int lsbMsbTransitionBit = 0; // For possible color depth calculations
|
||||||
|
|
||||||
|
/**
|
||||||
|
* this var controls how DMA buffers are updated
|
||||||
|
* if set to false (default) - full recalculation performed, including address line bits, OE, LAT
|
||||||
|
* if set to true, only RGB1, RGB2 bits are updated.
|
||||||
|
* Could be toggled any time, see Notes regarding #define GO_FOR_SPEED 1 above
|
||||||
|
*/
|
||||||
|
#ifdef GO_FOR_SPEED
|
||||||
|
bool fastmode = true;
|
||||||
|
#else
|
||||||
|
bool fastmode = false;
|
||||||
|
#endif
|
||||||
|
|
||||||
/* Calculate the memory available for DMA use, do some other stuff, and allocate accordingly */
|
/* Calculate the memory available for DMA use, do some other stuff, and allocate accordingly */
|
||||||
bool allocateDMAmemory();
|
bool allocateDMAmemory();
|
||||||
|
|
||||||
|
|
Loading…
Reference in a new issue