CQ Publishing
A "Hello" program for MARMEX_VB library. This application may work 40pin type mbed platforms ;) This application expects to have the MARMEX_VB module on a "MAPLE mini type-B (MARM03-BASE)" baseboard (slot2) with a MARMEX_OB module (on slot1)
Dependencies: MARMEX_VB NokiaLCD mbed
Sample code for MARMEX-VB (MARY-VB) camera module.
This is a very simple program just copies the data from camera to OELD.
MARMEX_OB_oled.h
- Committer:
- nxpfan
- Date:
- 2014-06-09
- Revision:
- 0:139f0c46d0fd
- Child:
- 1:715bb00d7008
File content as of revision 0:139f0c46d0fd:
/** MARMEX_OB OLED screen drawing library
*
* @class MARMEX_OB_oled
* @author tedd
* @version 0.52
* @date 06-Jun-2014
*
* Released under the MIT License: http://mbed.org/license/mit
*
* MARMEX_OB_oled OLED screen drawing library for mbed
* This code has been written based on sample code and advises
* from Ochiai-san (Marutsu-Elec). Thank you!
*
* SPI mode:
* 9bit or 8bit SPI mode can be selected by disabling/enabling "#define MARMEX_OB_SPI_8BIT_MODE".
* See source code in this (MARMEX_OB_oled.h) file.
*/
#ifndef MBED_MARMEX_OB_OLED
#define MBED_MARMEX_OB_OLED
#include "mbed.h"
#include "NokiaLCD.h"
/** @def MARMEX_OB_SPI_8BIT_MODE
*
* MARMEX_OB_oled_oled OLED screen SPI access length setting
* Enabling "MARMEX_OB_SPI_8BIT_MODE" makes 9bit SPI access by 8bit * 2 times.
* This may be useful if other 8bit access SPI device on same SPI bus.
*
* If disabled (just coment out the "#define MARMEX_OB_SPI_8BIT_MODE"), SPI access willbe done by 9 bit format.
*/
//#define MARMEX_OB_SPI_8BIT_MODE
/** MARMEX_OB_oled OLED screen drawing class
*
* This is a driver code for MARMEX_OB_oled board OLED screen.
* This class inherits NokiaLCD class of mbed.org.
* To use this class, import the NokiaLCD class from here..
* http://mbed.org/users/simon/libraries/NokiaLCD/
*
* Example:
* @code
* #include "mbed.h"
* #include "MARMEX_OB_oled.h"
*
* // oled1 is for MARMEX_OB_oled board on MAPLE slot 1
* // oled2 is for MARMEX_OB_oled board on MAPLE slot 2
*
* //MARMEX_OB_oled oled1( p5, p7, p8, p30, p11 ); // mosi, sclk, cs, rst, power_control
* MARMEX_OB_oled oled2( p5, p7, p26, p21, p17 ); // mosi, sclk, cs, rst, power_control
*
* int main() {
* oled2.background( 0x000000 );
* oled2.cls();
*
* for ( int i = 0; i < 8; i++ )
* oled2.fill( (MARMEX_OB_oled::WIDTH / 8) * i, 0, (MARMEX_OB_oled::WIDTH / 8), 128, ((i & 0x4) ? 0xFF0000 : 0x000000) | ((i & 0x2) ? 0x00FF00 : 0x000000) |((i & 0x1) ? 0x0000FF : 0x000000) );
*
* oled2.fill( 50, 50, 64, 64, 0xCCCCCC );
*
* oled2.locate( 0, 3 );
* oled2.printf( "Hello World!" );
* oled2.locate( 0, 4 );
* oled2.printf( "SPI = %s", MERMEX_OB_SPI_MODE_STR );
*
* for (int i = 0; i < MARMEX_OB_oled::WIDTH; i++ ) {
* oled2.pixel( i, 80 + sin( (float)i / 5.0 ) * 10, 0x000000 );
* }
* }
* @endcode
*/
class MARMEX_OB_oled : public NokiaLCD
{
public:
/** General parameters for MARMEX_OB_oled */
enum {
ROWS = 15, /**< # of rows (lines) for displaying characters */
COLS = 16, /**< # of columns (width) for displaying characters */
WIDTH = 128, /**< screen width [pixels] */
HEIGHT = 128, /**< screen height [pixels] */
SPI_FREQUENCY = 12000000 /**< SPI (sclk) SPI_FREQUENCY */
};
/** Constants for power() function */
enum {
OFF = 0, /**< : to turning-OFF */
ON /**< : to turning-ON */
};
/** Create a MARMEX_OB_oled object connected to specified SPI and DigitalOut pins
*
* @param mosi SPI-MOSI pin (for MAPLE board, use p5)
* @param sclk SPI-SCLK pin (for MAPLE board, use p8)
* @param cs chip select signal (for MAPLE board, use p8(slot1), p26(slot2))
* @param rst reset signal (for MAPLE board, use p30(slot1), p21(slot2))
* @param power_pin backlight power control signal (for MAPLE board, use p11(slot1), p17(slot2))
*
* Example of MARMEX_OB_oled on MAPLE board:
* @code
* #include "mbed.h"
* #include "MARMEX_OB_oled.h"
*
* MARMEX_OB_oled oled_on_maple_slot1( p5, p7, p8, p30, p11 ); // mosi, sclk, cs, rst, power_control
* MARMEX_OB_oled oled_on_maple_slot2( p5, p7, p26, p21, p17 ); // mosi, sclk, cs, rst, power_control
* ...
* ..
* @endcode
*/
MARMEX_OB_oled( PinName mosi, PinName sclk, PinName cs, PinName rst, PinName power_pin ) : NokiaLCD( mosi, sclk, cs, rst, NokiaLCD::LCD6100 ), _power_pin( power_pin ) {
power( ON );
reset();
}
#if DOXYGEN_ONLY
/** Write a character to the LCD
*
* @param c The character to write to the display
*/
int putc( int c );
/** Write a formated string to the LCD
*
* @param format A printf-style format string, followed by the
* variables to use in formating the string.
*
* !!! 16th character in the string will be disappeared
* !!! This problem is due to difference of screen size NokiaLCD library and its internal mechanism...
*/
int printf( const char* format, ... );
/** Set the foreground colour
*
* @param c 24-bit colour
*/
void foreground(int c);
/** Set the background colour
*
* @param c 24-bit colour
*/
void background(int c);
#endif
/** reset MARMEX_OB_oled
*
* Executes hardware reset and initialize.
* See MARMEX_OB_oled manual for the initialization sequence and values
* For gamma correction table, using math function to make the code simple
*/
void reset( void ) {
#define GAMMA_LUT_SIZE 63
unsigned char gamma_LUT[ GAMMA_LUT_SIZE ];
for ( int i = 0; i < GAMMA_LUT_SIZE; i++ )
gamma_LUT[ i ] = (unsigned char)(powf( ((float)i / 62.0), (1.0 / 0.58) ) * 178.0 + 2.0);
// setup the SPI interface and bring display out of reset
_cs = 1;
_rst = 0;
#ifdef MARMEX_OB_SPI_8BIT_MODE
_spi.format( 8 );
#else
_spi.format( 9 );
#endif
_spi.frequency( SPI_FREQUENCY );
wait_ms( 1 );
_rst = 1;
wait_ms( 1 );
_cs = 0;
command( SET_DISPLAY_MODE_ALL_OFF );
command( SET_COMMAND_LOCK );
data( 0x12 );
command( SET_COMMAND_LOCK );
data( 0xb1 );
command( SET_SLEEP_MODE_ON );
command( FRONT_CLOCK_DRIVER_OSC_FREQ );
data( 0xF1 );
command( SET_MUX_RATIO );
data( 0x7F );
command( SET_DISPAY_OFFSET );
data( 0x00 );
command( SET_DISPAY_START_LINE );
data( 0x00 );
command( SET_REMAP_COLOR_DEPTH );
data( 0x74 );
command( SET_GPIO );
data( 0x00);
command( FUNCTION_SELECTION );
data( 0x01 );
command( SET_SEGMENT_LOW_VOLTAGE );
data( 0xA0 );
data( 0xB5 );
data( 0x55 );
command( SET_CONTRAST_CURRENT_FOR_COLOR_ABC );
data( 0xC8 );
data( 0x80 );
data( 0xC8 );
command( MASTER_CONTRAST_CURRENT_CONTROL );
data( 0x0F );
command( LOOKUP_TABLE_FOR_GRAYSCALE_PULSE_WIDTH );
for ( int i = 0; i < GAMMA_LUT_SIZE; i++ )
data( gamma_LUT[ i ] );
command( SET_RESET_PRECHARGE_PERIOD );
data( 0x32 );
command( ENHANCE_DRIVING_SCHEME_CAPABILITY );
data( 0x04 );
data( 0x00 );
data( 0x00 );
command( SET_PRECHARGE_VOLTAGE );
data( 0x17 );
command( SET_SECOND_PRECHARGE_VOLTAGE );
data( 0x01 );
command( SET_VCOMH_VOLTAGE );
data( 0x05 );
command( SET_DISPLAY_MODE_RESET );
#if 0
command( SET_COLUMN_ADDRESS );
data( 0x00 );
data( 0x7F );
command( SET_ROW_ADDRESS );
data( 0x00 );
data( 0x7F);
command( WRITE_RAM_COMMAND );
for ( int i = 0; i < WIDTH * HEIGHT; i++ )
data( 0x00 );
#endif
_cs = 1;
cls();
wait_ms( 200 );
command( SET_SLEEP_MODE_OFF );
}
/** Clear the screen and locate to 0,0 */
void cls( void ) {
fill( 0, 0, WIDTH , HEIGHT, _background );
_row = 0;
_column = 0;
}
/** Set a pixel on te screen
*
* @param x horizontal position from left
* @param y vertical position from top
* @param colour 24-bit colour in format 0x00RRGGBB
*/
virtual void pixel( int x, int y, int colour ) {
_cs = 0;
_window( x, y, 1, 1 );
_putp( colour );
_cs = 1;
}
/** Fill an area of the screen
*
* @param x horizontal position from left
* @param y vertical position from top
* @param width width in pixels
* @param height height in pixels
* @param colour 24-bit colour in format 0x00RRGGBB
*/
void fill( int x, int y, int width, int height, int colour ) {
_cs = 0;
_window( x, y, width, height );
for (int i = 0; i < width * height; i++ ) {
_putp( colour );
}
_window( 0, 0, WIDTH, HEIGHT );
_cs = 1;
}
void blit( int x, int y, int width, int height, const int* colour ) {
_cs = 0;
_window( x, y, width, height );
for (int i = 0; i < width * height; i++ ) {
_putp( colour[i] );
}
_window( 0, 0, WIDTH, HEIGHT );
_cs = 1;
}
void blit565( int x, int y, int width, int height, short* colour ) {
_cs = 0;
_window( x, y, width, height );
#define OPTIMIZE_BY_GPIO_REGISTER_ACCESS
#if defined( TARGET_MBED_LPC1768 ) && defined (OPTIMIZE_BY_GPIO_REGISTER_ACCESS )
LPC_GPIO1->FIOMASK = ~0x80000000;
for (int i = 0; i < width * height; i += 8 ) {
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | (*colour >> 8) );
LPC_GPIO1->FIOSET = 0x80000000;
LPC_GPIO1->FIOCLR = 0x80000000;
_spi.write( 0x100 | *colour++ );
LPC_GPIO1->FIOSET = 0x80000000;
}
#else
for (int i = 0; i < width * height; i++ ) {
_putp565( colour[i] );
}
#endif
_window( 0, 0, WIDTH, HEIGHT );
_cs = 1;
}
void bitblit( int x, int y, int width, int height, const char* bitstream ) {
_cs = 0;
_window( x, y, width, height );
for (int i = 0; i < height * width; i++ ) {
int byte = i / 8;
int bit = i % 8;
int colour = ((bitstream[ byte ] << bit) & 0x80) ? _foreground : _background;
_putp( colour );
}
_window( 0, 0, _width, _height );
_cs = 1;
}
/** Screen width
*
* @return screen width [pixel]
*/
int width() {
return WIDTH;
}
/** Screen height
*
* @return screen height [pixel]
*/
int height() {
return HEIGHT;
}
/** Columns
*
* @return screen columns
*/
int columns() {
return COLS;
}
/** Rows
*
* @return screen rows
*/
int rows() {
return ROWS;
}
/** Power switch for OLED backlight
*
* @param sw argument can be MARMEX_OB_oled::ON or MARMEX_OB_oled::OFF
*/
void power( unsigned char sw ) {
_power_pin = sw;
}
private:
/** Command list for the OLED controller */
enum {
SET_DISPLAY_MODE_ALL_OFF = 0xA4,
SET_COMMAND_LOCK = 0xFD,
SET_SLEEP_MODE_ON = 0xAE,
FRONT_CLOCK_DRIVER_OSC_FREQ = 0xB3,
SET_MUX_RATIO = 0xCA,
SET_DISPAY_OFFSET = 0xA2,
SET_DISPAY_START_LINE = 0xA1,
SET_REMAP_COLOR_DEPTH = 0xA0,
SET_GPIO = 0xB5,
FUNCTION_SELECTION = 0xAB,
SET_SEGMENT_LOW_VOLTAGE = 0xB4,
SET_CONTRAST_CURRENT_FOR_COLOR_ABC = 0xC1,
MASTER_CONTRAST_CURRENT_CONTROL = 0xC7,
LOOKUP_TABLE_FOR_GRAYSCALE_PULSE_WIDTH = 0xB8,
SET_RESET_PRECHARGE_PERIOD = 0xB1,
ENHANCE_DRIVING_SCHEME_CAPABILITY = 0xB2,
SET_PRECHARGE_VOLTAGE = 0xBB,
SET_SECOND_PRECHARGE_VOLTAGE = 0xB6,
SET_VCOMH_VOLTAGE = 0xBE,
SET_DISPLAY_MODE_RESET = 0xA6,
SET_COLUMN_ADDRESS = 0x15,
SET_ROW_ADDRESS = 0x75,
WRITE_RAM_COMMAND = 0x5C,
SET_SLEEP_MODE_OFF = 0xAF
};
#ifdef MARMEX_OB_SPI_8BIT_MODE
void command( int value ) {
int tmp = value & 0x00ff;
_cs = 0;
_spi.write( tmp >> 1 );
_spi.write( tmp << 7 );
_cs = 1;
}
void data( int value ) {
int tmp = value & 0x00ff;
tmp |= 0x0100;
_cs = 0;
_spi.write( tmp >> 1 );
_spi.write( tmp << 7 );
_cs = 1;
}
#else
void command( int value ) {
_cs = 0;
_spi.write( value & 0xFF );
_cs = 1;
}
void data(int value) {
_cs = 0;
_spi.write( value | 0x100 );
_cs = 1;
}
#endif
virtual void _window( int x, int y, int width, int height ) {
int x1 = x + 0;
int y1 = y + 0;
int x2 = x1 + width - 1;
int y2 = y1 + height - 1;
command( SET_COLUMN_ADDRESS );
data( x1 );
data( x2 );
command( SET_ROW_ADDRESS );
data( y1 );
data( y2 );
command( WRITE_RAM_COMMAND );
}
void window( int x, int y, int width, int height ) {
_cs = 0;
_window( x, y, width, height );
_cs = 1;
}
virtual void _putp( int colour ) {
int cnv = 0;
cnv = (colour >> 8) & 0xf800;
cnv |= (colour >> 5) & 0x07e0;
cnv |= (colour >> 3) & 0x001f;
data( cnv >> 8);
data( cnv );
}
virtual void _putp565( short colour ) {
data( colour >> 8);
data( colour );
}
DigitalOut _power_pin;
}
;
#ifdef MARMEX_OB_SPI_8BIT_MODE
#define MERMEX_OB_SPI_MODE_STR "8bit mode"
#else
#define MERMEX_OB_SPI_MODE_STR "9bit mode"
#endif
#endif // MBED_MARMEX_OB_OLED
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Repository details
| Type: | Program |
|---|---|
| Mbed OS support: | Mbed 2 deprecated |
| Created: | 09 Jun 2014 |
| Imports: | 99 |
| Forks: | 0 |
| Commits: | 3 |
| Dependents: | 0 |
| Dependencies: | 3 |
| Followers: | 21 |
The code in this repository is Apache licensed.
Components
MARMEX-VB (MARY-VB) Camera module