aiie/teensy/teensy-display.cpp

#include <ctype.h> // isgraph
#include <DMAChannel.h>

#include "teensy-display.h"

#include "bios-font.h"
#include "appleui.h"
#include <SPI.h>

#define _clock 75000000

#define PIN_RST 8
#define PIN_DC 9
#define PIN_CS 10
#define PIN_MOSI 11
#define PIN_MISO 12
#define PIN_SCK 13

// Inside the 320x240 display, the Apple display is 280x192.
// (That's half the "correct" width, b/c of double-hi-res.)
#define apple_display_w 280
#define apple_display_h 192

// Inset inside the apple2 "frame" where we draw the display
// remember these are "starts at pixel number" values, where 0 is the first.
#define HOFFSET 18
#define VOFFSET 13

#include "globals.h"
#include "applevm.h"

volatile DMAMEM uint16_t dmaBuffer[240][320]; // 240 rows, 320 columns

#define RGBto565(r,g,b) ((((r) & 0xF8) << 8) | (((g) & 0xFC) << 3) | ((b) >> 3))

ILI9341_t3 tft = ILI9341_t3(PIN_CS, PIN_DC, PIN_RST, PIN_MOSI, PIN_SCK, PIN_MISO);

DMAChannel dmatx;
DMASetting dmaSetting;

// RGB map of each of the lowres colors
const uint16_t loresPixelColors[16] = { 0x0000, // 0 black
					 0xC006, // 1 magenta
					 0x0010, // 2 dark blue
					 0xA1B5, // 3 purple
					 0x0480, // 4 dark green
					 0x6B4D, // 5 dark grey
					 0x1B9F, // 6 med blue
					 0x0DFD, // 7 light blue
					 0x92A5, // 8 brown
					 0xF8C5, // 9 orange
					 0x9555, // 10 light gray
					 0xFCF2, // 11 pink
					 0x07E0, // 12 green
					 0xFFE0, // 13 yellow
					 0x87F0, // 14 aqua
					 0xFFFF  // 15 white
};

const uint16_t loresPixelColorsGreen[16] = { 0x0000, 
					      0x0140, 
					      0x0040, 
					      0x0280, 
					      0x0300, 
					      0x0340, 
					      0x0300, 
					      0x0480, 
					      0x02C0, 
					      0x0240, 
					      0x0500, 
					      0x0540, 
					      0x0580, 
					      0x0700, 
					      0x0680, 
					      0x07C0 
};

const uint16_t loresPixelColorsWhite[16] = { 0x0000, 
					     0x2945, 
					     0x0841, 
					     0x528A, 
					     0x630C, 
					     0x6B4D, 
					     0x630C, 
					     0x9492, 
					     0x5ACB, 
					     0x4A49, 
					     0xA514, 
					     0xAD55, 
					     0xB596, 
					     0xE71C, 
					     0xD69A, 
					     0xFFDF
};

TeensyDisplay::TeensyDisplay()
{
  memset(dmaBuffer, 0x80, sizeof(dmaBuffer));

  tft.begin();
  tft.setRotation(3);
  tft.setClock(_clock);

  // Set up automatic DMA transfers. cf.
  // https://forum.pjrc.com/threads/25778-Could-there-be-something-like-an-ISR-template-function/page4
#if 0
  dmaSetting.TCD->CSR = 0;
  dmaSetting.TCD->SADDR = dmaBuffer;
  dmaSetting.TCD->SOFF = 2; // 2 bytes per pixel
  dmaSetting.TCD->ATTR_SRC = 1;
  dmaSetting.TCD->NBYTES = 2;
  dmaSetting.TCD->SLAST = -320*240*2;
  dmaSetting.TCD->BITER = 320*240;
  dmaSetting.TCD->CITER = 320*240;

  dmaSetting.TCD->DADDR = &LPSPI4_TDR; // FIXME is this correct?
  dmaSetting.TCD->DOFF = 0;
  dmaSetting.TCD->ATTR_DST = 1;
  dmaSetting.TCD->DLASTSGA = 0;
  
  // Make it loop on itself
  dmaSetting.replaceSettingsOnCompletion(dmaSetting);
  
  dmatx.begin(false);
  dmatx.triggerAtHardwareEvent(DMAMUX_SOURCE_LPSPI4_TX); // FIXME what's the right source ID
  dmatx = &dmaSetting;
#endif
  
  // LCD initialization complete

  tft.fillScreen(ILI9341_BLACK);

  driveIndicator[0] = driveIndicator[1] = false;
  driveIndicatorDirty = true;
}

TeensyDisplay::~TeensyDisplay()
{
}

void TeensyDisplay::redraw()
{
  g_ui->drawStaticUIElement(UIeOverlay);

  if (g_vm) {
    g_ui->drawOnOffUIElement(UIeDisk1_state, ((AppleVM *)g_vm)->DiskName(0)[0] == '\0');
    g_ui->drawOnOffUIElement(UIeDisk2_state, ((AppleVM *)g_vm)->DiskName(1)[0] == '\0');
  }
}

void TeensyDisplay::clrScr()
{
  memset(dmaBuffer, 0x00, sizeof(dmaBuffer));
}

void TeensyDisplay::drawUIPixel(uint16_t x, uint16_t y, uint16_t color)
{
  // These pixels are just cached in the buffer; they're not drawn directly.
  dmaBuffer[y][x] = color;
}

void TeensyDisplay::drawPixel(uint16_t x, uint16_t y, uint16_t color)
{
  tft.drawPixel(x,y,color);
}

void TeensyDisplay::drawPixel(uint16_t x, uint16_t y, uint8_t r, uint8_t g, uint8_t b)
{
  uint16_t color16 = ((r & 0xF8) << 8) | ((g & 0xFC) << 3) | ((b & 0xF8) >> 3);

  drawPixel(x,y,color16);
}

void TeensyDisplay::flush()
{
  blit({0,0,191,279});
}

void TeensyDisplay::blit()
{
  // The goal here is for blitting to happen automatically in DMA transfers.

  // Since that isn't the case yet, here's a manual blit of the whole
  // screen (b/c the rect is kinda meaningless in the final "draw
  // everything always" DMA mode)
  tft.writeRect(0,0,320,240,(const uint16_t *)dmaBuffer);
  
  // draw overlay, if any, occasionally
  {
    static uint32_t nextMessageTime = 0;
    if (millis() >= nextMessageTime) {
      if (overlayMessage[0]) {
	drawString(M_SELECTDISABLED, 1, 240 - 16 - 12, overlayMessage);
      }
      nextMessageTime = millis() + 1000;
    }
  }
}

void TeensyDisplay::blit(AiieRect r)
{
  // It's probably faster to just blit the whole thing, rather than a piece,
  // because of how it streams data easily when the buffer aligns properly.
  tft.writeRect(0,0,320,240,(const uint16_t *)dmaBuffer);
  
  // ... but if we wanted to blit just part, we'd have to create a new
  // subset of teh dmaBuffer that has the right row length to match
  // the rect width we're blitting, and then do something like this:
  //
  //  tft.writeRect(r.left+HOFFSET,,r.top+VOFFSET,r.right-r.left+HOFFSET,r.bottom-r.top+VOFFSET,(const uint16_t *)some_subset_of_dmaBuffer);
}

void TeensyDisplay::drawCharacter(uint8_t mode, uint16_t x, uint8_t y, char c)
{
  int8_t xsize = 8,
    ysize = 0x0C,
    offset = 0x20;
  uint16_t temp;

  c -= offset;// font starts with a space

  uint16_t offPixel, onPixel;
  switch (mode) {
  case M_NORMAL:
    onPixel = 0xFFFF;
    offPixel = 0x0010;
    break;
  case M_SELECTED:
    onPixel = 0x0000;
    offPixel = 0xFFFF;
    break;
  case M_DISABLED:
  default:
    onPixel = 0x7BEF;
    offPixel = 0x0000;
    break;
  case M_SELECTDISABLED:
    onPixel = 0x7BEF;
    offPixel = 0xFFE0;
    break;
  }

  temp=(c*ysize);

  for (int8_t y_off = 0; y_off <= ysize; y_off++) {
    uint8_t ch = pgm_read_byte(&BiosFont[temp]);
    for (int8_t x_off = 0; x_off <= xsize; x_off++) {
      if (ch & (1 << (7-x_off))) {
	dmaBuffer[y+y_off][x+x_off] = onPixel;
      } else {
	dmaBuffer[y+y_off][x+x_off] = offPixel;
      }
    }
    temp++;
  }
}

void TeensyDisplay::drawString(uint8_t mode, uint16_t x, uint8_t y, const char *str)
{
  int8_t xsize = 8; // width of a char in this font

  for (int8_t i=0; i<strlen(str); i++) {
    drawCharacter(mode, x, y, str[i]);
    x += xsize; // fixme: any inter-char spacing?
  }
}

void TeensyDisplay::drawImageOfSizeAt(const uint8_t *img, 
				      uint16_t sizex, uint8_t sizey, 
				      uint16_t wherex, uint8_t wherey)
{
  uint8_t r, g, b;

  for (uint8_t y=0; y<sizey; y++) {
    for (uint16_t x=0; x<sizex; x++) {
      r = pgm_read_byte(&img[(y*sizex + x)*3 + 0]);
      g = pgm_read_byte(&img[(y*sizex + x)*3 + 1]);
      b = pgm_read_byte(&img[(y*sizex + x)*3 + 2]);
      dmaBuffer[y+wherey][x+wherex] = RGBto565(r,g,b);
    }
  }
}

// "DoubleWide" means "please double the X because I'm in low-res
// width mode". But we only have half the horizontal width required on
// the Teensy, so it's divided in half.
void TeensyDisplay::cacheDoubleWidePixel(uint16_t x, uint16_t y, uint8_t color)
{
  uint16_t color16;
  color16 = loresPixelColors[(( color & 0x0F )     )];
  dmaBuffer[y+VOFFSET][x+HOFFSET] = color16;
}

// This exists for 4bpp optimization. We could totally call
// cacheDoubleWidePixel twice, but the (x&1) pfutzing is messy if
// we're just storing both halves anyway...
void TeensyDisplay::cache2DoubleWidePixels(uint16_t x, uint16_t y, 
					   uint8_t colorA, uint8_t colorB)
{
  // FIXME: Convert 4-bit colors to 16-bit colors?
  dmaBuffer[y+VOFFSET][x+  HOFFSET] = loresPixelColors[colorB&0xF];
  dmaBuffer[y+VOFFSET][x+1+HOFFSET] = loresPixelColors[colorA&0xF];
}

// This is the full 560-pixel-wide version -- and we only have 280
// pixels in our buffer b/c the display is only 320 pixels wide
// itself. So we'll divide x by 2. On odd-numbered X pixels, we also
// alpha-blend -- "black" means "clear"
void TeensyDisplay::cachePixel(uint16_t x, uint16_t y, uint8_t color)
{
  if (/*x&*/1) {
    // divide x by 2, then this is mostly cacheDoubleWidePixel. Except
    // we also have to do the alpha blend so we can see both pixels.
    
    uint16_t *p = &dmaBuffer[y+VOFFSET][(x>>1)+HOFFSET];
    uint16_t destColor = loresPixelColors[color];
    
    //    if (color == 0)
    //      destColor = *p; // retain the even-numbered pixel's contents ("alpha blend")
    // Otherwise the odd-numbered pixel's contents "win" as "last drawn"
    // FIXME: do better blending of these two pixels.
    
    dmaBuffer[y+VOFFSET][(x>>1)+HOFFSET] = destColor;
  } else {
    cacheDoubleWidePixel(x, y, color);
  }
}