Tedd OKANO / Mbed 2 deprecated MARY_CAMERA_Hello

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Dependencies:   MARY_CAMERA NokiaLCD mbed

main.cpp

Committer:
okano
Date:
2014-03-10
Revision:
21:a2ac746dd516
Parent:
16:fa1bd83e34b0
Parent:
12:6ddd07d59c55
Child:
22:d5e24ab4afb7

File content as of revision 21:a2ac746dd516:

#include "mbed.h"
#include "MARMEX_OB_oled.h"
#include "MARY_CAMERA.h"

#if defined( TARGET_MBED_LPC1768 ) || defined( TARGET_LPC11U24_401 )

MARMEX_OB_oled  oled1( p5, p7,  p20, p16, p15 ); // mosi, sclk, cs, rst, power_control     -- maple-mini-type-b-slot1
MARY_CAMERA     camera( p5, p6, p7, p22, p26, p28, p27 ); // mosi, miso, sclk, cs, reset, I2C_SDA, I2C_SCL

#endif

#if defined( TARGET_LPC11U35_401 )

MARMEX_OB_oled  oled1( P0_9, P0_10,  P0_16, P0_12, P0_11 ); // mosi, sclk, cs, rst, power_control     -- maple-mini-type-b-slot1
MARY_CAMERA     camera( P0_9, P0_8, P0_10, P0_2, P1_15, P0_5, P0_4 ); // mosi, miso, sclk, cs, reset, I2C_SDA, I2C_SCL

#endif

BusOut          led( LED3, LED4 );

#define X_OFFSET        ((MARY_CAMERA::PIXEL_PER_LINE - MARMEX_OB_oled::WIDTH ) / 2)
#define Y_OFFSET        ((MARY_CAMERA::LINE_PER_FRAME - MARMEX_OB_oled::HEIGHT) / 2)

void line_mirroring( short *buf );
void save_still_image( char *file_name );
void oled_test_screen( void );

int main()
{
    led    = 0x3;

    oled1.cls();
    oled_test_screen();

    short   buf[ MARMEX_OB_oled::WIDTH ];

#if defined( TARGET_MBED_LPC1768 ) || defined( TARGET_LPC11U24_401 )
    save_still_image( "image.bmp" );
#endif

    while ( 1 ) {

        led    = 0x1;
        camera.open_transfer();

        for ( int line = 0; line < MARMEX_OB_oled::HEIGHT; line++  ) {
            camera.transfer_a_line( buf, line + Y_OFFSET, X_OFFSET, MARMEX_OB_oled::WIDTH );
            line_mirroring( buf );
            oled1.blit565( 0, line, MARMEX_OB_oled::WIDTH, 1, buf );
        }

        camera.close_transfer();
        led    = 0x2;
    }
}


void line_mirroring( short *buf )
{
    short   tmp;

    for ( int i = 0; i < (MARMEX_OB_oled::WIDTH / 2); i++ ) {
        tmp         = buf[ i ];
        buf[ i ]    = buf[ (MARMEX_OB_oled::WIDTH - 1) - i ];
        buf[ (MARMEX_OB_oled::WIDTH - 1) - i ]  = tmp;
    }
}


void oled_test_screen( void )
{
    oled1.background( 0x000000 );
    oled1.cls();

    int colorbar_width  = MARMEX_OB_oled::WIDTH / 8;

    for ( int i = 0; i < 8; i++ )
        oled1.fill( colorbar_width * i, 0, colorbar_width, MARMEX_OB_oled::HEIGHT, ((i & 0x4) ? 0xFF0000 : 0x000000) | ((i & 0x2) ? 0x00FF00 : 0x000000) | ((i & 0x1) ? 0x0000FF : 0x000000) );

    oled1.fill(  50,  50,  64,  64, 0xCCCCCC );;

    oled1.locate( 0, 2 );
    oled1.printf( "MaryCemara test" );
    oled1.locate( 0, 4 );
    oled1.printf( "%s", (MARY_CAMERA::NO_ERROR == camera.ready()) ? "Camera is ready" : "No Camera found" );

    for (int i = 0; i < MARMEX_OB_oled::WIDTH; i++ )
        oled1.pixel( i, 80 + sin( (float)i / 5.0 ) * 10, 0x000000 );
}


#include    "bmp_handler.h"

void save_still_image( char *file_name )
{
    short   buf[ MARY_CAMERA::PIXEL_PER_LINE ];

    if ( open_BMP( file_name ) )
        return;

    camera.open_transfer();

    for ( int line = (MARY_CAMERA::LINE_PER_FRAME - 1); 0 <= line; line--  ) {
        camera.transfer_a_line( buf, line, 0, MARY_CAMERA::PIXEL_PER_LINE );
        write_BMP( buf, MARY_CAMERA::PIXEL_PER_LINE );
    }
    camera.close_transfer();

    close_BMP();
}