Marlin_Firmware/Marlin/src/lcd/tft/tft_queue.cpp

/**
 * Marlin 3D Printer Firmware
 * Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
 *
 * Based on Sprinter and grbl.
 * Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <https://www.gnu.org/licenses/>.
 *
 */

#include "../../inc/MarlinConfig.h"

#if HAS_GRAPHICAL_TFT

#include "tft_queue.h"
#include "tft.h"
#include "tft_image.h"

uint8_t TFT_Queue::queue[];
uint8_t *TFT_Queue::end_of_queue = queue;
uint8_t *TFT_Queue::current_task = nullptr;
uint8_t *TFT_Queue::last_task = nullptr;
uint8_t *TFT_Queue::last_parameter = nullptr;

void TFT_Queue::reset() {
  tft.abort();

  end_of_queue = queue;
  current_task = nullptr;
  last_task = nullptr;
  last_parameter = nullptr;
}

void TFT_Queue::async() {
  if (!current_task) return;
  queueTask_t *task = (queueTask_t *)current_task;

  // Check IO busy status
  if (tft.is_busy()) return;

  if (task->state == TASK_STATE_COMPLETED) {
    task = (queueTask_t *)task->nextTask;
    current_task = (uint8_t *)task;
  }

  finish_sketch();

  switch (task->type) {
    case TASK_END_OF_QUEUE: reset();      break;
    case TASK_FILL:         fill(task);   break;
    case TASK_CANVAS:       canvas(task); break;
  }
}

void TFT_Queue::finish_sketch() {
  if (!last_task) return;
  queueTask_t *task = (queueTask_t *)last_task;

  if (task->state == TASK_STATE_SKETCH) {
    *end_of_queue = TASK_END_OF_QUEUE;
    task->nextTask = end_of_queue;
    task->state = TASK_STATE_READY;

    if (!current_task) current_task = (uint8_t *)task;
  }
}

void TFT_Queue::fill(queueTask_t *task) {
  uint16_t count;
  parametersFill_t *task_parameters = (parametersFill_t *)(((uint8_t *)task) + sizeof(queueTask_t));

  if (task->state == TASK_STATE_READY) {
    tft.set_window(task_parameters->x, task_parameters->y, task_parameters->x + task_parameters->width - 1, task_parameters->y + task_parameters->height - 1);
    task->state = TASK_STATE_IN_PROGRESS;
  }

  if (task_parameters->count > 65535) {
    count = 65535;
    task_parameters->count -= 65535;
  }
  else {
    count = task_parameters->count;
    task_parameters->count = 0;
    task->state = TASK_STATE_COMPLETED;
  }

  tft.write_multiple(task_parameters->color, count);
}

void TFT_Queue::canvas(queueTask_t *task) {
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)(((uint8_t *)task) + sizeof(queueTask_t));

  uint16_t i;
  uint8_t *item = ((uint8_t *)task_parameters) + sizeof(parametersCanvas_t);

  if (task->state == TASK_STATE_READY) {
    task->state = TASK_STATE_IN_PROGRESS;
    Canvas.New(task_parameters->x, task_parameters->y, task_parameters->width, task_parameters->height);
  }
  Canvas.Continue();

  for (i = 0; i < task_parameters->count; i++) {
    switch (*item) {
      case CANVAS_SET_BACKGROUND:
        Canvas.SetBackground(((parametersCanvasBackground_t *)item)->color);
        break;
      case CANVAS_ADD_TEXT:
        Canvas.AddText(((parametersCanvasText_t *)item)->x, ((parametersCanvasText_t *)item)->y, ((parametersCanvasText_t *)item)->color, item + sizeof(parametersCanvasText_t), ((parametersCanvasText_t *)item)->maxWidth);
        break;

      case CANVAS_ADD_IMAGE:
        MarlinImage image;
        uint16_t *colors;

        image = ((parametersCanvasImage_t *)item)->image;
        colors = (uint16_t *)(item + sizeof(parametersCanvasImage_t));
        Canvas.AddImage(((parametersCanvasImage_t *)item)->x, ((parametersCanvasImage_t *)item)->y, image, colors);
        break;

      case CANVAS_ADD_BAR:
        Canvas.AddBar(((parametersCanvasBar_t *)item)->x, ((parametersCanvasBar_t *)item)->y, ((parametersCanvasBar_t *)item)->width, ((parametersCanvasBar_t *)item)->height, ((parametersCanvasBar_t *)item)->color);
        break;
      case CANVAS_ADD_RECTANGLE:
        Canvas.AddRectangle(((parametersCanvasRectangle_t *)item)->x, ((parametersCanvasRectangle_t *)item)->y, ((parametersCanvasRectangle_t *)item)->width, ((parametersCanvasRectangle_t *)item)->height, ((parametersCanvasRectangle_t *)item)->color);
        break;
    }
    item = ((parametersCanvasBackground_t *)item)->nextParameter;
  }

  if (Canvas.ToScreen()) task->state = TASK_STATE_COMPLETED;
}


void TFT_Queue::fill(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {
  finish_sketch();

  queueTask_t *task = (queueTask_t *)end_of_queue;
  last_task = (uint8_t *)task;

  end_of_queue += sizeof(queueTask_t);
  parametersFill_t *task_parameters = (parametersFill_t *)end_of_queue;
  end_of_queue += sizeof(parametersFill_t);

  last_parameter = end_of_queue;
  task_parameters->x = x;
  task_parameters->y = y;
  task_parameters->width = width;
  task_parameters->height = height;
  task_parameters->color = color;
  task_parameters->count = width * height;

  *end_of_queue = TASK_END_OF_QUEUE;
  task->nextTask = end_of_queue;
  task->state = TASK_STATE_READY;
  task->type = TASK_FILL;

  if (!current_task) current_task = (uint8_t *)task;
}

void TFT_Queue::canvas(uint16_t x, uint16_t y, uint16_t width, uint16_t height) {
  finish_sketch();

  queueTask_t *task = (queueTask_t *)end_of_queue;
  last_task = (uint8_t *) task;

  task->state = TASK_STATE_SKETCH;
  task->type = TASK_CANVAS;
  task->nextTask = nullptr;

  end_of_queue += sizeof(queueTask_t);
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)end_of_queue;
  end_of_queue += sizeof(parametersCanvas_t);

  last_parameter = end_of_queue;
  task_parameters->x = x;
  task_parameters->y = y;
  task_parameters->width = width;
  task_parameters->height = height;
  task_parameters->count = 0;

  if (!current_task) current_task = (uint8_t *)task;
}

void TFT_Queue::set_background(uint16_t color) {
  handle_queue_overflow(sizeof(parametersCanvasBackground_t));
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)(((uint8_t *)last_task) + sizeof(queueTask_t));
  parametersCanvasBackground_t *parameters = (parametersCanvasBackground_t *)end_of_queue;
  last_parameter = end_of_queue;

  parameters->type = CANVAS_SET_BACKGROUND;
  parameters->color = color;

  end_of_queue += sizeof(parametersCanvasBackground_t);
  task_parameters->count++;
  parameters->nextParameter = end_of_queue;
}

#define QUEUE_SAFETY_FREE_SPACE 100

void TFT_Queue::handle_queue_overflow(uint16_t sizeNeeded) {
  if (uintptr_t(end_of_queue) + sizeNeeded + (QUEUE_SAFETY_FREE_SPACE) - uintptr_t(queue) >= TFT_QUEUE_SIZE) {
    end_of_queue = queue;
    ((parametersCanvasText_t *)last_parameter)->nextParameter = end_of_queue;
  }
}

void TFT_Queue::add_text(uint16_t x, uint16_t y, uint16_t color, uint8_t *string, uint16_t maxWidth) {
  handle_queue_overflow(sizeof(parametersCanvasText_t) + maxWidth);
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)(((uint8_t *)last_task) + sizeof(queueTask_t));
  parametersCanvasText_t *parameters = (parametersCanvasText_t *)end_of_queue;
  last_parameter = end_of_queue;

  uint8_t *pointer = string;

  parameters->type = CANVAS_ADD_TEXT;
  parameters->x = x;
  parameters->y = y;
  parameters->color = color;
  parameters->stringLength = 0;
  parameters->maxWidth = maxWidth;

  end_of_queue += sizeof(parametersCanvasText_t);

  /* TODO: Deal with maxWidth */
  while ((*(end_of_queue++) = *pointer++) != 0x00);

  parameters->nextParameter = end_of_queue;
  parameters->stringLength = pointer - string;
  task_parameters->count++;
}

void TFT_Queue::add_image(int16_t x, int16_t y, MarlinImage image, uint16_t *colors) {
  handle_queue_overflow(sizeof(parametersCanvasImage_t));
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)(((uint8_t *)last_task) + sizeof(queueTask_t));
  parametersCanvasImage_t *parameters = (parametersCanvasImage_t *)end_of_queue;
  last_parameter = end_of_queue;

  parameters->type = CANVAS_ADD_IMAGE;
  parameters->x = x;
  parameters->y = y;
  parameters->image = image;

  end_of_queue += sizeof(parametersCanvasImage_t);
  task_parameters->count++;
  parameters->nextParameter = end_of_queue;

  colorMode_t color_mode = Images[image].colorMode;

  if (color_mode == HIGHCOLOR) return;

  uint16_t *color = (uint16_t *)end_of_queue;
  uint8_t number_of_color = 0;

  switch (color_mode) {
    case GREYSCALE1:  number_of_color =  1; break;
    case GREYSCALE2:  number_of_color =  3; break;
    case GREYSCALE4:  number_of_color = 15; break;
    default:
      break;
  }

  while (number_of_color--) {
    *color++ = *colors++;
  }

  end_of_queue = (uint8_t *)color;
  parameters->nextParameter = end_of_queue;
}

uint16_t gradient(uint16_t colorA, uint16_t colorB, uint16_t factor) {
  uint16_t red, green, blue;

  red   = (  RED(colorA) * factor +   RED(colorB) * (256 - factor)) >> 8;
  green = (GREEN(colorA) * factor + GREEN(colorB) * (256 - factor)) >> 8;
  blue  = ( BLUE(colorA) * factor +  BLUE(colorB) * (256 - factor)) >> 8;

  return RGB(red, green, blue);
}

void TFT_Queue::add_image(int16_t x, int16_t y, MarlinImage image, uint16_t color_main, uint16_t color_background, uint16_t color_shadow) {
  uint16_t colors[16];
  colorMode_t color_mode = Images[image].colorMode;
  uint16_t i;

  switch (color_mode) {
    case GREYSCALE1:
      colors[1] = color_main;
      break;
    case GREYSCALE2:
      for (i = 1; i < 4; i++)
        colors[i] = gradient(color_main, color_background, (i << 8) / 3);
      break;
    case GREYSCALE4:
      for (i = 1; i < 8; i++)
        colors[i] = gradient(color_background, color_shadow, i << 5);
      for (i = 8; i < 16; i++)
        colors[i] = gradient(color_main, color_background, ((i - 8) << 8) / 7);
      break;
    default:
      break;
  }

  add_image(x, y, image, colors + 1);
}

void TFT_Queue::add_bar(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {
  handle_queue_overflow(sizeof(parametersCanvasBar_t));
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)(((uint8_t *)last_task) + sizeof(queueTask_t));
  parametersCanvasBar_t *parameters = (parametersCanvasBar_t *)end_of_queue;
  last_parameter = end_of_queue;

  parameters->type = CANVAS_ADD_BAR;
  parameters->x = x;
  parameters->y = y;
  parameters->width = width;
  parameters->height = height;
  parameters->color = color;

  end_of_queue += sizeof(parametersCanvasBar_t);
  task_parameters->count++;
  parameters->nextParameter = end_of_queue;
}

void TFT_Queue::add_rectangle(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {
  handle_queue_overflow(sizeof(parametersCanvasRectangle_t));
  parametersCanvas_t *task_parameters = (parametersCanvas_t *)(((uint8_t *)last_task) + sizeof(queueTask_t));
  parametersCanvasRectangle_t *parameters = (parametersCanvasRectangle_t *)end_of_queue;
  last_parameter = end_of_queue;

  parameters->type = CANVAS_ADD_RECTANGLE;
  parameters->x = x;
  parameters->y = y;
  parameters->width = width;
  parameters->height = height;
  parameters->color = color;

  end_of_queue += sizeof(parametersCanvasRectangle_t);
  task_parameters->count++;
  parameters->nextParameter = end_of_queue;
}

#endif // HAS_GRAPHICAL_TFT
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`/**`
			`* Marlin 3D Printer Firmware`
			`* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]`
			`*`
			`* Based on Sprinter and grbl.`
			`* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm`
			`*`
			`* This program is free software: you can redistribute it and/or modify`
			`* it under the terms of the GNU General Public License as published by`
			`* the Free Software Foundation, either version 3 of the License, or`
			`* (at your option) any later version.`
			`*`
			`* This program is distributed in the hope that it will be useful,`
			`* but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`* GNU General Public License for more details.`
			`*`
			`* You should have received a copy of the GNU General Public License`
			`* along with this program. If not, see <https://www.gnu.org/licenses/>.`
			`*`
			`*/`

			`#include "../../inc/MarlinConfig.h"`

			`#if HAS_GRAPHICAL_TFT`

			`#include "tft_queue.h"`
			`#include "tft.h"`
			`#include "tft_image.h"`

			`uint8_t TFT_Queue::queue[];`
			`uint8_t *TFT_Queue::end_of_queue = queue;`
Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`uint8_t *TFT_Queue::current_task = nullptr;`
			`uint8_t *TFT_Queue::last_task = nullptr;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`uint8_t *TFT_Queue::last_parameter = nullptr;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`void TFT_Queue::reset() {`
			`tft.abort();`

			`end_of_queue = queue;`
Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`current_task = nullptr;`
			`last_task = nullptr;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = nullptr;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`void TFT_Queue::async() {`
Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`if (!current_task) return;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`queueTask_t task = (queueTask_t )current_task;`

			`// Check IO busy status`
			`if (tft.is_busy()) return;`

			`if (task->state == TASK_STATE_COMPLETED) {`
			`task = (queueTask_t *)task->nextTask;`
			`current_task = (uint8_t *)task;`
			`}`

			`finish_sketch();`

			`switch (task->type) {`
			`case TASK_END_OF_QUEUE: reset(); break;`
			`case TASK_FILL: fill(task); break;`
			`case TASK_CANVAS: canvas(task); break;`
			`}`
			`}`

			`void TFT_Queue::finish_sketch() {`
Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`if (!last_task) return;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`queueTask_t task = (queueTask_t )last_task;`

			`if (task->state == TASK_STATE_SKETCH) {`
			`*end_of_queue = TASK_END_OF_QUEUE;`
			`task->nextTask = end_of_queue;`
			`task->state = TASK_STATE_READY;`

Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`if (!current_task) current_task = (uint8_t *)task;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`
			`}`

			`void TFT_Queue::fill(queueTask_t *task) {`
			`uint16_t count;`
			`parametersFill_t task_parameters = (parametersFill_t )(((uint8_t *)task) + sizeof(queueTask_t));`

			`if (task->state == TASK_STATE_READY) {`
			`tft.set_window(task_parameters->x, task_parameters->y, task_parameters->x + task_parameters->width - 1, task_parameters->y + task_parameters->height - 1);`
			`task->state = TASK_STATE_IN_PROGRESS;`
			`}`

			`if (task_parameters->count > 65535) {`
			`count = 65535;`
			`task_parameters->count -= 65535;`
			`}`
			`else {`
			`count = task_parameters->count;`
			`task_parameters->count = 0;`
			`task->state = TASK_STATE_COMPLETED;`
			`}`

			`tft.write_multiple(task_parameters->color, count);`
			`}`

			`void TFT_Queue::canvas(queueTask_t *task) {`
			`parametersCanvas_t task_parameters = (parametersCanvas_t )(((uint8_t *)task) + sizeof(queueTask_t));`

			`uint16_t i;`
			`uint8_t item = ((uint8_t )task_parameters) + sizeof(parametersCanvas_t);`

			`if (task->state == TASK_STATE_READY) {`
			`task->state = TASK_STATE_IN_PROGRESS;`
			`Canvas.New(task_parameters->x, task_parameters->y, task_parameters->width, task_parameters->height);`
			`}`
			`Canvas.Continue();`

			`for (i = 0; i < task_parameters->count; i++) {`
			`switch (*item) {`
			`case CANVAS_SET_BACKGROUND:`
			`Canvas.SetBackground(((parametersCanvasBackground_t *)item)->color);`
			`break;`
			`case CANVAS_ADD_TEXT:`
			`Canvas.AddText(((parametersCanvasText_t )item)->x, ((parametersCanvasText_t )item)->y, ((parametersCanvasText_t )item)->color, item + sizeof(parametersCanvasText_t), ((parametersCanvasText_t )item)->maxWidth);`
			`break;`

			`case CANVAS_ADD_IMAGE:`
			`MarlinImage image;`
			`uint16_t *colors;`

			`image = ((parametersCanvasImage_t *)item)->image;`
			`colors = (uint16_t *)(item + sizeof(parametersCanvasImage_t));`
			`Canvas.AddImage(((parametersCanvasImage_t )item)->x, ((parametersCanvasImage_t )item)->y, image, colors);`
			`break;`

			`case CANVAS_ADD_BAR:`
			`Canvas.AddBar(((parametersCanvasBar_t )item)->x, ((parametersCanvasBar_t )item)->y, ((parametersCanvasBar_t )item)->width, ((parametersCanvasBar_t )item)->height, ((parametersCanvasBar_t *)item)->color);`
			`break;`
			`case CANVAS_ADD_RECTANGLE:`
			`Canvas.AddRectangle(((parametersCanvasRectangle_t )item)->x, ((parametersCanvasRectangle_t )item)->y, ((parametersCanvasRectangle_t )item)->width, ((parametersCanvasRectangle_t )item)->height, ((parametersCanvasRectangle_t *)item)->color);`
			`break;`
			`}`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`item = ((parametersCanvasBackground_t *)item)->nextParameter;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`if (Canvas.ToScreen()) task->state = TASK_STATE_COMPLETED;`
			`}`


			`void TFT_Queue::fill(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {`
			`finish_sketch();`

			`queueTask_t task = (queueTask_t )end_of_queue;`
			`last_task = (uint8_t *)task;`

			`end_of_queue += sizeof(queueTask_t);`
			`parametersFill_t task_parameters = (parametersFill_t )end_of_queue;`
			`end_of_queue += sizeof(parametersFill_t);`

Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`task_parameters->x = x;`
			`task_parameters->y = y;`
			`task_parameters->width = width;`
			`task_parameters->height = height;`
			`task_parameters->color = color;`
			`task_parameters->count = width * height;`

			`*end_of_queue = TASK_END_OF_QUEUE;`
			`task->nextTask = end_of_queue;`
			`task->state = TASK_STATE_READY;`
			`task->type = TASK_FILL;`

Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`if (!current_task) current_task = (uint8_t *)task;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`void TFT_Queue::canvas(uint16_t x, uint16_t y, uint16_t width, uint16_t height) {`
			`finish_sketch();`

			`queueTask_t task = (queueTask_t )end_of_queue;`
			`last_task = (uint8_t *) task;`

			`task->state = TASK_STATE_SKETCH;`
			`task->type = TASK_CANVAS;`
Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`task->nextTask = nullptr;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`end_of_queue += sizeof(queueTask_t);`
			`parametersCanvas_t task_parameters = (parametersCanvas_t )end_of_queue;`
			`end_of_queue += sizeof(parametersCanvas_t);`

Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`task_parameters->x = x;`
			`task_parameters->y = y;`
			`task_parameters->width = width;`
			`task_parameters->height = height;`
			`task_parameters->count = 0;`

Clean up comments, USB flash, NULLs 2020-10-24 17:13:10 -05:00			`if (!current_task) current_task = (uint8_t *)task;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`void TFT_Queue::set_background(uint16_t color) {`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`handle_queue_overflow(sizeof(parametersCanvasBackground_t));`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`parametersCanvas_t task_parameters = (parametersCanvas_t )(((uint8_t *)last_task) + sizeof(queueTask_t));`
			`parametersCanvasBackground_t parameters = (parametersCanvasBackground_t )end_of_queue;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`parameters->type = CANVAS_SET_BACKGROUND;`
			`parameters->color = color;`

			`end_of_queue += sizeof(parametersCanvasBackground_t);`
			`task_parameters->count++;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`parameters->nextParameter = end_of_queue;`
			`}`

			`#define QUEUE_SAFETY_FREE_SPACE 100`

			`void TFT_Queue::handle_queue_overflow(uint16_t sizeNeeded) {`
Reduce RAM usage for TFT Color UI on SGen-L (#20179) 2020-11-17 14:32:30 -06:00			`if (uintptr_t(end_of_queue) + sizeNeeded + (QUEUE_SAFETY_FREE_SPACE) - uintptr_t(queue) >= TFT_QUEUE_SIZE) {`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`end_of_queue = queue;`
			`((parametersCanvasText_t *)last_parameter)->nextParameter = end_of_queue;`
			`}`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`void TFT_Queue::add_text(uint16_t x, uint16_t y, uint16_t color, uint8_t *string, uint16_t maxWidth) {`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`handle_queue_overflow(sizeof(parametersCanvasText_t) + maxWidth);`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`parametersCanvas_t task_parameters = (parametersCanvas_t )(((uint8_t *)last_task) + sizeof(queueTask_t));`
			`parametersCanvasText_t parameters = (parametersCanvasText_t )end_of_queue;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`uint8_t *pointer = string;`

			`parameters->type = CANVAS_ADD_TEXT;`
			`parameters->x = x;`
			`parameters->y = y;`
			`parameters->color = color;`
			`parameters->stringLength = 0;`
			`parameters->maxWidth = maxWidth;`

			`end_of_queue += sizeof(parametersCanvasText_t);`

			`/* TODO: Deal with maxWidth */`
			`while (((end_of_queue++) = pointer++) != 0x00);`

Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`parameters->nextParameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`parameters->stringLength = pointer - string;`
			`task_parameters->count++;`
			`}`

			`void TFT_Queue::add_image(int16_t x, int16_t y, MarlinImage image, uint16_t *colors) {`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`handle_queue_overflow(sizeof(parametersCanvasImage_t));`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`parametersCanvas_t task_parameters = (parametersCanvas_t )(((uint8_t *)last_task) + sizeof(queueTask_t));`
			`parametersCanvasImage_t parameters = (parametersCanvasImage_t )end_of_queue;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`parameters->type = CANVAS_ADD_IMAGE;`
			`parameters->x = x;`
			`parameters->y = y;`
			`parameters->image = image;`

			`end_of_queue += sizeof(parametersCanvasImage_t);`
			`task_parameters->count++;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`parameters->nextParameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`colorMode_t color_mode = Images[image].colorMode;`

			`if (color_mode == HIGHCOLOR) return;`

			`uint16_t color = (uint16_t )end_of_queue;`
			`uint8_t number_of_color = 0;`

			`switch (color_mode) {`
			`case GREYSCALE1: number_of_color = 1; break;`
			`case GREYSCALE2: number_of_color = 3; break;`
			`case GREYSCALE4: number_of_color = 15; break;`
			`default:`
			`break;`
			`}`

			`while (number_of_color--) {`
			`color++ = colors++;`
			`}`

			`end_of_queue = (uint8_t *)color;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`parameters->nextParameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`uint16_t gradient(uint16_t colorA, uint16_t colorB, uint16_t factor) {`
			`uint16_t red, green, blue;`

			`red = ( RED(colorA) * factor + RED(colorB) * (256 - factor)) >> 8;`
			`green = (GREEN(colorA) * factor + GREEN(colorB) * (256 - factor)) >> 8;`
			`blue = ( BLUE(colorA) * factor + BLUE(colorB) * (256 - factor)) >> 8;`

			`return RGB(red, green, blue);`
			`}`

			`void TFT_Queue::add_image(int16_t x, int16_t y, MarlinImage image, uint16_t color_main, uint16_t color_background, uint16_t color_shadow) {`
			`uint16_t colors[16];`
			`colorMode_t color_mode = Images[image].colorMode;`
			`uint16_t i;`

			`switch (color_mode) {`
			`case GREYSCALE1:`
			`colors[1] = color_main;`
			`break;`
			`case GREYSCALE2:`
			`for (i = 1; i < 4; i++)`
			`colors[i] = gradient(color_main, color_background, (i << 8) / 3);`
			`break;`
			`case GREYSCALE4:`
			`for (i = 1; i < 8; i++)`
			`colors[i] = gradient(color_background, color_shadow, i << 5);`
			`for (i = 8; i < 16; i++)`
			`colors[i] = gradient(color_main, color_background, ((i - 8) << 8) / 7);`
			`break;`
			`default:`
			`break;`
			`}`

			`add_image(x, y, image, colors + 1);`
			`}`

			`void TFT_Queue::add_bar(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`handle_queue_overflow(sizeof(parametersCanvasBar_t));`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`parametersCanvas_t task_parameters = (parametersCanvas_t )(((uint8_t *)last_task) + sizeof(queueTask_t));`
			`parametersCanvasBar_t parameters = (parametersCanvasBar_t )end_of_queue;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`parameters->type = CANVAS_ADD_BAR;`
			`parameters->x = x;`
			`parameters->y = y;`
			`parameters->width = width;`
			`parameters->height = height;`
			`parameters->color = color;`

			`end_of_queue += sizeof(parametersCanvasBar_t);`
			`task_parameters->count++;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`parameters->nextParameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`void TFT_Queue::add_rectangle(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`handle_queue_overflow(sizeof(parametersCanvasRectangle_t));`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`parametersCanvas_t task_parameters = (parametersCanvas_t )(((uint8_t *)last_task) + sizeof(queueTask_t));`
			`parametersCanvasRectangle_t parameters = (parametersCanvasRectangle_t )end_of_queue;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`last_parameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00
			`parameters->type = CANVAS_ADD_RECTANGLE;`
			`parameters->x = x;`
			`parameters->y = y;`
			`parameters->width = width;`
			`parameters->height = height;`
			`parameters->color = color;`

			`end_of_queue += sizeof(parametersCanvasRectangle_t);`
			`task_parameters->count++;`
Color UI circular task queue (#19918) 2020-10-27 21:54:30 -05:00			`parameters->nextParameter = end_of_queue;`
Support for TFT & Touch Screens (#18130) 2020-07-30 01:43:19 -05:00			`}`

			`#endif // HAS_GRAPHICAL_TFT`