Merge commit '2fdab582be7a2327fbf34184b3c0c8da7efae1d7'

firmware/lcd/display.c

@@ -9,9 +9,118 @@
 #include "basic/config.h"
 #include "usb/usbmsc.h"
 
+enum display_type {
+	DISPLAY_TYPE_N1200 = 0,
+	DISPLAY_TYPE_N1600 = 1,
+};
 
-#define DISPLAY_N1200 0
-#define DISPLAY_N1600 1
+enum command_type {
+	COMMAND_TYPE_CMD = 0,
+	COMMAND_TYPE_DATA = 1,
+};
+
+struct display_macro  {
+	enum command_type type:1;
+	unsigned int data:8;
+	unsigned int delay_after:7;
+} __attribute__((packed));
+
+/* Small Nokia 1200 LCD docs:
+ *           clear/ set
+ *  on       0xae / 0xaf
+ *  invert   0xa6 / 0xa7
+ *  mirror-x 0xA0 / 0xA1
+ *  mirror-y 0xc7 / 0xc8
+ *
+ *  0x20+x contrast (0=black - 0x2e)
+ *  0x40+x offset in rows from top (-0x7f)
+ *  0x80+x contrast? (0=black -0x9f?)
+ *  0xd0+x black lines from top? (-0xdf?)
+ *
+ */
+/* Decoded:
+ * E2: Internal reset
+ * AF: Display on/off: DON = 1
+ * A1: undefined?
+ * A4: all on/normal: DAL = 0
+ * 2F: charge pump on/off: PC = 1
+ * B0: set y address: Y[0-3] = 0
+ * 10: set x address (upper bits): X[6-4] = 0
+ */
+static const struct display_macro INIT_N1200[] = {
+		{COMMAND_TYPE_CMD, 0xE2, 5},
+		{COMMAND_TYPE_CMD, 0xAF},
+		{COMMAND_TYPE_CMD, 0xA1},
+		{COMMAND_TYPE_CMD, 0x2F},
+		{COMMAND_TYPE_CMD, 0xB0},
+		{COMMAND_TYPE_CMD, 0x10},
+};
+
+static const struct display_macro PREPARE_N1200[] = {
+		{COMMAND_TYPE_CMD, 0xB0},
+		{COMMAND_TYPE_CMD, 0x10},
+		{COMMAND_TYPE_CMD, 0x00},
+};
+
+/* Decoded:
+ * CMD 29: DISPON
+ * CMD BA: Data order (1)
+ * CMD 11: sleep out
+ * CMD 13: normal display mode on
+ * CMD 37: set scroll entry point
+ *   DAT 00:  scroll entry point
+ * CMD 3A: interface pixel format
+ *   DAT 05: 16 bit/pixel
+ * CMD 2A: column address set
+ *   DAT 0    : xs
+ *   DAT 98-1 : xe
+ * CMD 2B: page address set
+ *   DAT 0    : ys
+ *   DAT 70-1 : ye
+ */
+static const struct display_macro INIT_N1600[] = {
+		{COMMAND_TYPE_CMD, 0x01, 10},
+		{COMMAND_TYPE_CMD, 0x29},
+		{COMMAND_TYPE_CMD, 0xBA},
+		{COMMAND_TYPE_CMD, 0x11},
+		{COMMAND_TYPE_CMD, 0x13},
+		{COMMAND_TYPE_CMD, 0x37},
+		{COMMAND_TYPE_DATA, 0x00},
+		{COMMAND_TYPE_CMD, 0x3A},
+		{COMMAND_TYPE_DATA, 0x05},
+		{COMMAND_TYPE_CMD, 0x2A},
+		{COMMAND_TYPE_DATA, 0x00},
+		{COMMAND_TYPE_DATA, 98-1},
+		{COMMAND_TYPE_CMD, 0x2B},
+		{COMMAND_TYPE_DATA, 0},
+		{COMMAND_TYPE_DATA, 70-1},
+};
+
+static const struct display_macro PREPARE_N1600[] = {
+		{COMMAND_TYPE_CMD, 0x2C},
+};
+
+
+struct display_descriptor {
+	/* Macro to execute in order to initialize the display from scratch */
+	const struct display_macro * init_macro;
+	int init_macro_length;
+
+	/* Macro to execute to prepare the display for sending raw contents */
+	const struct display_macro * prepare_macro;
+	int prepare_macro_length;
+};
+
+const struct display_descriptor DISPLAY_DESCRIPTORS[] = {
+		[DISPLAY_TYPE_N1200] = {
+				INIT_N1200, sizeof(INIT_N1200)/sizeof(INIT_N1200[0]),
+				PREPARE_N1200, sizeof(PREPARE_N1200)/sizeof(PREPARE_N1200[0])
+		},
+		[DISPLAY_TYPE_N1600] = {
+				INIT_N1600, sizeof(INIT_N1600)/sizeof(INIT_N1600[0]),
+				PREPARE_N1600, sizeof(PREPARE_N1600)/sizeof(PREPARE_N1600[0])
+		},
+};
 
 /**************************************************************************/
 /* Utility routines to manage nokia display */
@@ -20,10 +129,9 @@
 uint8_t lcdBuffer[RESX*RESY_B];
 uint32_t intstatus; // Caches USB interrupt state
                     // (need to disable MSC while displaying)
-uint8_t displayType;
+enum display_type displayType;
+const struct display_descriptor *displayDescriptor;
 
-#define TYPE_CMD    0
-#define TYPE_DATA   1
 
 static void lcd_select() {
 #if CFG_USBMSC
@@ -125,6 +233,13 @@ uint8_t lcdRead(uint8_t data)
     return ret;
 }
 
+static void lcdExecuteMacro(const struct display_macro *macro, int macro_length)
+{
+    for(int i=0; i<macro_length; i++) {
+    	lcdWrite(macro[i].type, macro[i].data);
+    	delayms(macro[i].delay_after);
+    }
+}
 
 void lcdInit(void) {
     int id;
@@ -146,53 +261,14 @@ void lcdInit(void) {
     id=lcdRead(220); // ID3
     
     if(id==14)
-        displayType=DISPLAY_N1600;
+        displayType=DISPLAY_TYPE_N1600;
     else /* ID3 == 48 */
-        displayType=DISPLAY_N1200;
+        displayType=DISPLAY_TYPE_N1200;
     
-/* Small Nokia 1200 LCD docs:
- *           clear/ set
- *  on       0xae / 0xaf
- *  invert   0xa6 / 0xa7
- *  mirror-x 0xA0 / 0xA1
- *  mirror-y 0xc7 / 0xc8
- *
- *  0x20+x contrast (0=black - 0x2e)
- *  0x40+x offset in rows from top (-0x7f)
- *  0x80+x contrast? (0=black -0x9f?)
- *  0xd0+x black lines from top? (-0xdf?)
- *
- */
+    displayDescriptor = DISPLAY_DESCRIPTORS + displayType;
+
     lcd_select();
-
-    if(displayType==DISPLAY_N1200){
-        static uint8_t initseq[]= { 0xE2,0xAF, // Display ON
-                             0xA1, // Mirror-X
-                             0xA4, 0x2F, 0xB0, 0x10};
-        int i = 0;
-        while(i<sizeof(initseq)){
-            lcdWrite(TYPE_CMD,initseq[i++]);
-            delayms(5); // actually only needed after the first
-        }
-    }else{ /* displayType==DISPLAY_N1600 */
-        static uint8_t initseq_d[] = {  
-                               0x36,
-                               0x29, 0xBA, 0x07,
-                               0x15, 0x25, 0x3f,
-                               0x11, 0x13, 0x37,
-                               0x00, 0x3A, 0x05,
-                               0x2A, 0, 98-1,
-                               0x2B, 0, 70-1};
-        uint32_t initseq_c = ~ 0x12BA7; // command/data bitstring
-        int i = 0;
-        lcdWrite(TYPE_CMD,0x01); //sw reset
-        delayms(10);
-
-        while(i<sizeof(initseq_d)){
-            lcdWrite(initseq_c&1, initseq_d[i++]);
-            initseq_c = initseq_c >> 1;
-        }
-    }
+    lcdExecuteMacro(displayDescriptor->init_macro, displayDescriptor->init_macro_length);
     lcd_deselect();
 }
 
@@ -230,8 +306,8 @@ bool lcdGetPixel(char x, char y){
 
 // Color display hepler functions
 static void _helper_pixel16(uint16_t color){
-    lcdWrite(TYPE_DATA,color>>8);
-    lcdWrite(TYPE_DATA,color&0xFF);
+    lcdWrite(COMMAND_TYPE_DATA,color>>8);
+    lcdWrite(COMMAND_TYPE_DATA,color&0xFF);
 }
 
 static void _helper_hline(uint16_t color){
@@ -239,18 +315,20 @@ static void _helper_hline(uint16_t color){
         _helper_pixel16(color);
 }
 
-#define THECOLOR_R 0x0
-#define THECOLOR_G 0x60
-#define THECOLOR_B 0x0
+#define COLORPACK_RGB565(r,g,b) (((r&0xF8) << 8) | ((g&0xFC)<<3) | ((b&0xF8) >> 3))
+
+static const uint16_t COLOR_FG =    COLORPACK_RGB565(0x00, 0x60, 0x00);
+static const uint16_t COLOR_BG =    COLORPACK_RGB565(0xff, 0xff, 0xff);
+static const uint16_t COLOR_FRAME = COLORPACK_RGB565(0x00, 0x00, 0x80);
+
 
 void lcdDisplay(void) {
     char byte;
     lcd_select();
 
-    if(displayType==DISPLAY_N1200){
-      lcdWrite(TYPE_CMD,0xB0);
-      lcdWrite(TYPE_CMD,0x10);
-      lcdWrite(TYPE_CMD,0x00);
+	lcdExecuteMacro(displayDescriptor->prepare_macro, displayDescriptor->prepare_macro_length);
+
+    if(displayType==DISPLAY_TYPE_N1200){
       uint16_t i,page;
       for(page=0; page<RESY_B;page++) {
           for(i=0; i<RESX; i++) {
@@ -262,29 +340,19 @@ void lcdDisplay(void) {
               if (GLOBAL(lcdinvert))
                   byte=~byte;
       
-              lcdWrite(TYPE_DATA,byte);
+              lcdWrite(COMMAND_TYPE_DATA,byte);
           }
       }
-    } else { /* displayType==DISPLAY_N1600 */
-      unsigned char r=THECOLOR_R,g=THECOLOR_G,b=THECOLOR_B;
-      unsigned char br=0xFF, bg=0xFF, bb=0xFF;
-      unsigned char frame_r=0x00, frame_g=0x00, frame_b=0x80;
-      uint16_t color,framecolor,backcolor;
+    } else { /* displayType==DISPLAY_TYPE_N1600 */
       uint16_t x,y;
       bool px;
-      uint16_t actualcolor;
-      color = ((r&0xF8) << 8) | ((g&0xFC)<<3) | ((b&0xF8) >> 3);
-      framecolor= ((frame_r&0xF8) << 8) | ((frame_g&0xFC)<<3) | ((frame_b&0xF8) >> 3);
-      backcolor= ((br&0xF8) << 8) | ((bg&0xFC)<<3) | ((bb&0xF8) >> 3);
  
-      lcdWrite(TYPE_CMD,0x2C);
-  
       //top line of the frame...
-      _helper_hline(framecolor);
+      _helper_hline(COLOR_FRAME);
   
       for(y=RESY;y>0;y--){
           //left line of the frame
-          _helper_pixel16(framecolor);
+          _helper_pixel16(COLOR_FRAME);
   
           for(x=RESX;x>0;x--){
               if(GLOBAL(lcdmirror))
@@ -292,17 +360,19 @@ void lcdDisplay(void) {
               else
                   px=lcdGetPixel(x-1,y-1);
                   
-              if((!px)^(!GLOBAL(lcdinvert))) actualcolor=color;
-              else actualcolor=backcolor; /* white */
+              if((!px)^(!GLOBAL(lcdinvert))) {
+            	  _helper_pixel16(COLOR_FG); /* foreground */
+              } else {
+            	  _helper_pixel16(COLOR_BG); /* background */
+              }
   
-              _helper_pixel16(actualcolor);
           }
           //right line of the frame
-          _helper_pixel16(framecolor);
+          _helper_pixel16(COLOR_FRAME);
       }
       
       //bottom line of the frame
-      _helper_hline(framecolor);
+      _helper_hline(COLOR_FRAME);
       }
     lcd_deselect();
 }
@@ -315,13 +385,13 @@ inline void lcdInvert(void) {
 
 void lcdSetContrast(int c) {
     lcd_select();
-    if(displayType==DISPLAY_N1200){
+    if(displayType==DISPLAY_TYPE_N1200){
         if(c<0x1F)
-            lcdWrite(TYPE_CMD,0x80+c);
-    }else{ /* displayType==DISPLAY_N1600 */
+            lcdWrite(COMMAND_TYPE_CMD,0x80+c);
+    }else{ /* displayType==DISPLAY_TYPE_N1600 */
         if(c<0x40) {
-            lcdWrite(TYPE_CMD,0x25);
-            lcdWrite(TYPE_DATA,4*c);
+            lcdWrite(COMMAND_TYPE_CMD,0x25);
+            lcdWrite(COMMAND_TYPE_DATA,4*c);
         };
     }
     lcd_deselect();
@@ -331,7 +401,7 @@ void lcdSetInvert(int c) {
     lcd_select();
      /* it doesn't harm N1600, save space */
 //  if(displayType==DISPLAY_N1200)
-        lcdWrite(TYPE_CMD,(c&1)+0xa6);
+        lcdWrite(COMMAND_TYPE_CMD,(c&1)+0xa6);
     lcd_deselect();
 };