Jonne Valola
PokittoLib is the library needed for programming the Pokitto DIY game console (www.pokitto.com)
Dependents: YATTT sd_map_test cPong SnowDemo ... more
PokittoLib
Library for programming Pokitto hardware
How to Use
- Import this library to online compiler (see button "import" on the right hand side
- DO NOT import mbed-src anymore, a better version is now included inside PokittoLib
- Change My_settings.h according to your project
- Start coding!
Diff: POKITTO_HW/HWLCD.cpp
- Revision:
- 51:113b1d84c34f
- Parent:
- 48:30b068b0d9e8
- Child:
- 60:8b6a110feeea
--- a/POKITTO_HW/HWLCD.cpp Wed Jun 27 13:14:54 2018 +0000
+++ b/POKITTO_HW/HWLCD.cpp Sun Jul 01 06:32:10 2018 +0000
@@ -37,10 +37,8 @@
#include "HWLCD.h" //HWLCD.h" #include "HWLCD.h"
#include "Pokitto_settings.h"
-#ifndef DISABLEAVRMIN
-#define max(a,b) ((a)>(b)?(a):(b))
-#define min(a,b) ((a)<(b)?(a):(b))
-#endif // DISABLEAVRMIN
+#define avrmax(a,b) ((a)>(b)?(a):(b))
+#define avrmin(a,b) ((a)<(b)?(a):(b))
#ifdef DISABLEAVRMIN
#include <algorithm>
@@ -59,6 +57,7 @@
pwmout_t backlightpwm;
#endif
+volatile uint32_t *LCD = reinterpret_cast< volatile uint32_t * >(0xA0002188);
/**************************************************************************/
/*!
@@ -749,8 +748,8 @@
continue;
// Detect the dirty rect x-span by combining the previous and current sprite position.
- int16_t sprDirtyXMin = min(sprx, sprOldX);
- int16_t sprDirtyXMax = max(sprx, sprOldX);
+ int16_t sprDirtyXMin = avrmin(sprx, sprOldX);
+ int16_t sprDirtyXMax = avrmax(sprx, sprOldX);
if (isCurrentSpriteOutOfScreen)
sprDirtyXMax = sprOldX;
if (isOldSpriteOutOfScreen)
@@ -763,15 +762,15 @@
// *** COMBINE DIRTY RECTS FOR THIS SCANLINE GROUP ***
// Dirty rect
- int sprDirtyYMin = min(spry, sprOldY);
- sprDirtyYMin = max((int)sprDirtyYMin, 0);
- int sprDirtyYMax = max(spry, sprOldY);
+ int sprDirtyYMin = avrmin(spry, sprOldY);
+ sprDirtyYMin = avrmax((int)sprDirtyYMin, 0);
+ int sprDirtyYMax = avrmax(spry, sprOldY);
if (isCurrentSpriteOutOfScreen)
sprDirtyYMax = sprOldY;
if (isOldSpriteOutOfScreen)
sprDirtyYMax = spry;
int sprDirtyYMaxEnd = sprDirtyYMax + sprh - 1;
- sprDirtyYMaxEnd = min(sprDirtyYMaxEnd, LCDHEIGHT - 1); // Should use LCDHEIGHT instead of screenH? Same with other screen* ?
+ sprDirtyYMaxEnd = avrmin(sprDirtyYMaxEnd, LCDHEIGHT - 1); // Should use LCDHEIGHT instead of screenH? Same with other screen* ?
// Get the scanline min and max y values for drawing
if (sprDirtyYMin < scanlineMinY)
@@ -948,91 +947,160 @@
#endif
}
-void Pokitto::lcdRefreshMode2(uint8_t * scrbuf, uint16_t* paletteptr) {
-uint16_t x,y;
-uint16_t scanline[2][88]; // read two nibbles = pixels at a time
-uint8_t *d;
+
+#define MODE2_INNER_LOOP_B \
+ " ldm %[scanline]!, {%[c]}" "\n" \
+ " str %[c], [%[LCD], 0]" "\n" \
+ " str %[t], [%[LCD], 124]" "\n" \
+ " movs %[c], 252" "\n" \
+ " str %[t], [%[LCD], %[c]]" "\n" \
+ " str %[t], [%[LCD], 124]" "\n" \
+ " subs %[x], 1" "\n" \
+ " str %[t], [%[LCD], %[c]]" "\n" \
+
+
+void Pokitto::lcdRefreshMode2(uint8_t * scrbuf, uint16_t* paletteptr ) {
+ uint32_t x,y,byte,c,t=1<<12;
+ uint32_t scanline[110];
+
+ write_command(0x03); write_data(0x1038);
+ write_command(0x20); // Horizontal DRAM Address
+ write_data(0); // 0
+ write_command(0x21); // Vertical DRAM Address
+ write_data(1);
+ write_command(0x22); // write data to DRAM
+ CLR_CS_SET_CD_RD_WR;
+ SET_MASK_P2;
+
+#ifndef __ARMCC_VERSION
+ asm volatile(
+ ".syntax unified" "\n"
+
+ "mov r10, %[scanline]" "\n"
+ "mov r11, %[t]" "\n"
+
+ "mode2OuterLoop:" "\n"
+
+ "movs %[x], 110" "\n"
+ "mode2InnerLoopA:"
+
+
+ " ldrb %[byte], [%[scrbuf],0]" "\n"
+ " lsrs %[c], %[byte], 4" "\n"
+
+ " movs %[t], 15" "\n"
+ " ands %[byte], %[t]" "\n"
+
+ " lsls %[c], 1" "\n"
+ " ldrh %[t], [%[paletteptr], %[c]]" "\n"
+ " lsls %[t], %[t], 3" "\n"
+ " str %[t], [%[LCD], 0]" "\n"
+ " mov %[c], r11" "\n"
+ " str %[c], [%[LCD], 124]" "\n"
+ " stm %[scanline]!, {%[t]}" "\n"
+ " movs %[t], 252" "\n"
+ " str %[c], [%[LCD], %[t]]" "\n"
+ " str %[c], [%[LCD], 124]" "\n"
+ " lsls %[byte], %[byte], 1" "\n"
+ " str %[c], [%[LCD], %[t]]" "\n"
-write_command(0x20); // Horizontal DRAM Address
-write_data(0); // 0
-write_command(0x21); // Vertical DRAM Address
-write_data(0);
-write_command(0x22); // write data to DRAM
-CLR_CS_SET_CD_RD_WR;
+ " ldrh %[t], [%[paletteptr], %[byte]]" "\n"
+ " lsls %[t], %[t], 3" "\n"
+ " str %[t], [%[LCD], 0]" "\n"
+ " mov %[c], r11" "\n"
+ " str %[c], [%[LCD], 124]" "\n"
+ " stm %[scanline]!, {%[t]}" "\n"
+ " movs %[t], 252" "\n"
+ " str %[c], [%[LCD], %[t]]" "\n"
+ " str %[c], [%[LCD], 124]" "\n"
+ " adds %[scrbuf], %[scrbuf], 1" "\n"
+ " str %[c], [%[LCD], %[t]]" "\n"
+
+ " subs %[x], 2" "\n"
+ " bne mode2InnerLoopA" "\n"
-for(x=0;x<110;x+=2)
+ "mov %[scanline], r10" "\n"
+ "movs %[x], 110" "\n"
+ "mov %[t], r11" "\n"
+ "mode2InnerLoopB:"
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ MODE2_INNER_LOOP_B
+ " bne mode2InnerLoopB" "\n"
+
+ "mov %[scanline], r10" "\n"
+ "movs %[t], 1" "\n"
+ "movs %[c], 88" "\n"
+ "add %[y], %[t]" "\n" // y++... derpy, but it's the outer loop
+ "cmp %[y], %[c]" "\n"
+ "bne mode2OuterLoop" "\n" // if y != 88, loop
+
+ : // outputs
+ [c]"+l" (c),
+ [t]"+l" (t),
+ [x]"+l" (x),
+ [y]"+h" (y), // +:Read-Write l:lower (0-7) register
+ [scrbuf]"+l" (scrbuf)
+
+ : // inputs
+ [LCD]"l" (0xA0002188),
+ [scanline]"l" (scanline),
+ [paletteptr]"l" (paletteptr),
+ [byte]"l" (byte)
+ : // clobbers
+ "cc", "r10", "r11"
+ );
+
+
+#else
+uint8_t* d = scrbuf;// point to beginning of line in data
+
+ #ifdef PROJ_SHOW_FPS_COUNTER
+ setDRAMptr(0, 8);
+ wait_us(200); // Add wait to compensate skipping of 8 lines. Makes FPS counter to show the correct value.
+ for(y=4;y<88;y++)
+ #else
+ for(y=0;y<88;y++)
+ #endif
{
- d = scrbuf+(x>>1);// point to beginning of line in data
- /** find colours in one scanline **/
+
+
uint8_t s=0;
- for(y=0;y<88;y++)
+ for(x=0;x<110;x+=2)
{
- uint8_t t = *d >> 4; // higher nibble
- uint8_t t2 = *d & 0xF; // lower nibble
- /** higher nibble = left pixel in pixel pair **/
- scanline[0][s] = paletteptr[t];
- scanline[1][s++] = paletteptr[t2];
- /** testing only **/
- //scanline[0][s] = 0xFFFF*(s&1);
- //scanline[1][s] = 0xFFFF*(!(s&1));
- //s++;
- /** until here **/
- d+=110/2; // jump to read byte directly below in screenbuffer
- }
- s=0;
- /** draw scanlines **/
- /** leftmost scanline twice**/
-
- #ifdef PROJ_SHOW_FPS_COUNTER
- if (x<4) continue;
- setDRAMptr(x<<1, 0);
- #endif
-
- for (s=0;s<88;) {
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
+ uint8_t t = *d++;
+ uint32_t color;
+ color = uint32_t(paletteptr[t>>4])<<3;
+ scanline[s]=*LCD=color;TGL_WR_OP(s++);TGL_WR;
+ color = uint32_t(paletteptr[t&0xF])<<3;
+ scanline[s]=*LCD=color;TGL_WR_OP(s++);TGL_WR;
}
- for (s=0;s<88;) {
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- }
- /** rightmost scanline twice**/
- //setDRAMptr(xptr++,yoffset);
- for (s=0;s<88;) {
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
+ s=0;
+ for (s=0;s<110;) {
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
+ *LCD = (scanline[s]);TGL_WR_OP(s++);TGL_WR;
}
- for (s=0;s<88;) {
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- }
}
+#endif
+
+ CLR_MASK_P2;
}
void Pokitto::lcdRefreshMode3(uint8_t * scrbuf, uint16_t* paletteptr) {
@@ -1646,75 +1714,141 @@
#endif
}
+#define MODE13_INNER_LOOP_A \
+ " ldrb %[t], [%[scrbuf],0]" "\n" \
+ " add %[t], %[t], %[offset]" "\n" \
+ " uxtb %[c], %[t] " "\n" \
+ " lsls %[c], 1" "\n" \
+ " ldrh %[t], [%[paletteptr], %[c]]" "\n" \
+ " lsls %[t], %[t], 3" "\n" \
+ " str %[t], [%[LCD], 0]" "\n" \
+ " mov %[c], r11" "\n" \
+ " str %[c], [%[LCD], 124]" "\n" \
+ " stm %[scanline]!, {%[t]}" "\n" \
+ " movs %[t], 252" "\n" \
+ " str %[c], [%[LCD], %[t]]" "\n" \
+ " str %[c], [%[LCD], 124]" "\n" \
+ " adds %[scrbuf], %[scrbuf], 1" "\n" \
+ " str %[c], [%[LCD], %[t]]" "\n"
+
+#define MODE13_INNER_LOOP_B \
+ " ldm %[scanline]!, {%[c]}" "\n" \
+ " str %[c], [%[LCD], 0]" "\n" \
+ " str %[t], [%[LCD], 124]" "\n" \
+ " movs %[c], 252" "\n" \
+ " str %[t], [%[LCD], %[c]]" "\n" \
+ " str %[t], [%[LCD], 124]" "\n" \
+ " subs %[x], 1" "\n" \
+ " str %[t], [%[LCD], %[c]]" "\n" \
-void Pokitto::lcdRefreshMode13(uint8_t * scrbuf, uint16_t* paletteptr, uint8_t offset){
-uint16_t x,y;
-uint16_t scanline[2][110]; // read two nibbles = pixels at a time
-uint8_t *d;
-
-write_command(0x20); write_data(0);
-write_command(0x21); write_data(0);
-write_command(0x22);
-CLR_CS_SET_CD_RD_WR;
+
+ void Pokitto::lcdRefreshMode13(uint8_t * scrbuf, uint16_t* paletteptr, uint8_t offset){
+ uint32_t scanline[110]; // read two nibbles = pixels at a time
+
+ write_command_16(0x03); write_data_16(0x1038);
+ write_command(0x20); write_data(0);
+ write_command(0x21); write_data(1);
+ write_command(0x22);
+ CLR_CS_SET_CD_RD_WR;
+ SET_MASK_P2;
+
+ uint32_t x, y=0, c, t;
+
+#ifndef __ARMCC_VERSION
+ asm volatile(
+ ".syntax unified" "\n"
+
+ "mov r10, %[scanline]" "\n"
+
+ "movs %[t], 1" "\n"
+ "lsls %[t], %[t], 12" "\n"
+ "mov r11, %[t]" "\n"
+
+ "mode13OuterLoop:" "\n"
+
+ "movs %[x], 110" "\n"
+ "mode13InnerLoopA:"
+ MODE13_INNER_LOOP_A
+ MODE13_INNER_LOOP_A
+ " subs %[x], 2" "\n"
+ " bne mode13InnerLoopA" "\n"
-for(x=0;x<110;x+=2)
- {
- d = scrbuf+x;// point to beginning of line in data
- uint8_t s=0;
- for(y=0;y<88;y++)
- {
- uint8_t t = *d;
- uint8_t t1 = *(d+1);
- scanline[0][s] = paletteptr[(t+offset)&255];
- scanline[1][s++] = paletteptr[(t1+offset)&255];
- d+=110; // jump to read byte directly below in screenbuffer
- }
- s=0;
- for (s=0;s<88;) {
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- }
- for (s=0;s<88;) {
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[0][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- }
- for (s=0;s<88;) {
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- }
- for (s=0;s<88;) {
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- setup_data_16(scanline[1][s++]);CLR_WR;SET_WR;CLR_WR;SET_WR;
- }
- }
+ "mov %[scanline], r10" "\n"
+ "movs %[x], 110" "\n"
+ "mov %[t], r11" "\n"
+ "mode13InnerLoopB:"
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ MODE13_INNER_LOOP_B
+ " bne mode13InnerLoopB" "\n"
+
+ "mov %[scanline], r10" "\n"
+ "movs %[t], 1" "\n"
+ "movs %[c], 88" "\n"
+ "add %[y], %[t]" "\n" // y++... derpy, but it's the outer loop
+ "cmp %[y], %[c]" "\n"
+ "bne mode13OuterLoop" "\n" // if y != 88, loop
+
+ : // outputs
+ [c]"+l" (c),
+ [t]"+l" (t),
+ [x]"+l" (x),
+ [y]"+h" (y), // +:Read-Write l:lower (0-7) register
+ [scrbuf]"+l" (scrbuf)
+
+ : // inputs
+ [LCD]"l" (0xA0002188),
+ [scanline]"l" (scanline),
+ [paletteptr]"l" (paletteptr),
+ [offset]"l" (offset)
+ : // clobbers
+ "cc", "r10", "r11"
+ );
-}
-
-
+#else
+ uint8_t* d = scrbuf;// point to beginning of line in data
+ for(y=0;y<88;y++){
+
+ uint32_t* s = scanline;
+
+ for(x=0;x<110;x+=10){
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ *LCD = *s = paletteptr[(*d + offset)&255]<<3; TGL_WR_OP(s++);TGL_WR_OP(d++);
+ }
+
+ s = scanline;
+ uint32_t c = *s;
+ for(x=0;x<110;x+=10){
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ *LCD = c; TGL_WR_OP(s++);TGL_WR_OP(c=*s);
+ }
+
+ }
+#endif
+ }
void Pokitto::lcdRefreshMode14(uint8_t * scrbuf, uint16_t* paletteptr) {
uint16_t x,y,data,xptr;