TraceMark_Program_60fps - This program is Trace and Mark detection Program …

Micon Car Rally » Code » TraceMark_Program_60fps

Micon Car Rally / Mbed 2 deprecated TraceMark_Program_60fps

This program is Trace and Mark detection Program by Image Processing(NTSC 60fps).

main.cpp@1:4a94c87a7d04, 2017-01-10 (annotated)

Committer:: TetsuyaKonno
Date:: Tue Jan 10 04:59:48 2017 +0000
Revision:: 1:4a94c87a7d04
Parent:: 0:158dbfb66e62

We changed the contents of the "intTimer" function. but there is no design changes of the function.

Who changed what in which revision?

User	Revision	Line number	New contents of line
TetsuyaKonno	0:158dbfb66e62	1	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	2	//Supported MCU: RZ/A1H
TetsuyaKonno	0:158dbfb66e62	3	//File Contents: Trace Program by Image Processing
TetsuyaKonno	0:158dbfb66e62	4	// (GR-PEACH version on the Micon Car)
TetsuyaKonno	1:4a94c87a7d04	5	//Version number: Ver.1.01
TetsuyaKonno	1:4a94c87a7d04	6	//Date: 2017.01.10
TetsuyaKonno	0:158dbfb66e62	7	//Copyright: Renesas Electronics Corporation
TetsuyaKonno	0:158dbfb66e62	8	// Hitachi Document Solutions Co., Ltd.
TetsuyaKonno	0:158dbfb66e62	9	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	10
TetsuyaKonno	0:158dbfb66e62	11	//This program supports the following boards:
TetsuyaKonno	0:158dbfb66e62	12	//* GR-PEACH(E version)
TetsuyaKonno	0:158dbfb66e62	13	//* Motor drive board Ver.5
TetsuyaKonno	0:158dbfb66e62	14	//* Camera module (SC-310)
TetsuyaKonno	0:158dbfb66e62	15
TetsuyaKonno	0:158dbfb66e62	16	//Include
TetsuyaKonno	0:158dbfb66e62	17	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	18	#include "mbed.h"
TetsuyaKonno	0:158dbfb66e62	19	#include "math.h"
TetsuyaKonno	0:158dbfb66e62	20	#include "iodefine.h"
TetsuyaKonno	0:158dbfb66e62	21	#include "DisplayBace.h"
TetsuyaKonno	0:158dbfb66e62	22
TetsuyaKonno	0:158dbfb66e62	23	//Define
TetsuyaKonno	0:158dbfb66e62	24	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	25	//Motor PWM cycle
TetsuyaKonno	0:158dbfb66e62	26	#define MOTOR_PWM_CYCLE 33332 /* Motor PWM period */
TetsuyaKonno	0:158dbfb66e62	27	/* 1ms P0φ/1 = 0.03us */
TetsuyaKonno	0:158dbfb66e62	28	//Motor speed
TetsuyaKonno	0:158dbfb66e62	29	#define MAX_SPEED 40 /* motor() set: 0 to 100 */
TetsuyaKonno	0:158dbfb66e62	30
TetsuyaKonno	0:158dbfb66e62	31	//Servo PWM cycle
TetsuyaKonno	0:158dbfb66e62	32	#define SERVO_PWM_CYCLE 33332 /* SERVO PWM period */
TetsuyaKonno	0:158dbfb66e62	33	/* 16ms P0φ/16 = 0.48us */
TetsuyaKonno	0:158dbfb66e62	34	#define SERVO_CENTER 3124 /* 1.5ms / 0.48us - 1 = 3124*/
TetsuyaKonno	0:158dbfb66e62	35	#define HANDLE_STEP 18 /* 1 degree value */
TetsuyaKonno	0:158dbfb66e62	36
TetsuyaKonno	0:158dbfb66e62	37	//LED Color on GR-PEACH
TetsuyaKonno	0:158dbfb66e62	38	#define LED_OFF 0x00
TetsuyaKonno	0:158dbfb66e62	39	#define LED_RED 0x01
TetsuyaKonno	0:158dbfb66e62	40	#define LED_GREEN 0x02
TetsuyaKonno	0:158dbfb66e62	41	#define LED_YELLOW 0x03
TetsuyaKonno	0:158dbfb66e62	42	#define LED_BLUE 0x04
TetsuyaKonno	0:158dbfb66e62	43	#define LED_PURPLE 0x05
TetsuyaKonno	0:158dbfb66e62	44	#define LED_SKYBLUE 0x06
TetsuyaKonno	0:158dbfb66e62	45	#define LED_WHITE 0x07
TetsuyaKonno	0:158dbfb66e62	46
TetsuyaKonno	0:158dbfb66e62	47	//Status
TetsuyaKonno	0:158dbfb66e62	48	#define ERROR 0x00
TetsuyaKonno	0:158dbfb66e62	49	#define STOP 0x01
TetsuyaKonno	0:158dbfb66e62	50	#define RUN 0x02
TetsuyaKonno	0:158dbfb66e62	51	#define DEBUG 0x03
TetsuyaKonno	0:158dbfb66e62	52	#define MOTOR_START 0x04
TetsuyaKonno	0:158dbfb66e62	53	#define MOTOR_STOP 0x05
TetsuyaKonno	0:158dbfb66e62	54	#define MARK_T 0x06
TetsuyaKonno	0:158dbfb66e62	55
TetsuyaKonno	0:158dbfb66e62	56	//Define(NTSC-Video)
TetsuyaKonno	0:158dbfb66e62	57	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	58	#define VIDEO_INPUT_CH (DisplayBase::VIDEO_INPUT_CHANNEL_0)
TetsuyaKonno	0:158dbfb66e62	59	#define VIDEO_INT_TYPE (DisplayBase::INT_TYPE_S0_VFIELD)
TetsuyaKonno	0:158dbfb66e62	60	#define DATA_SIZE_PER_PIC (2u)
TetsuyaKonno	0:158dbfb66e62	61
TetsuyaKonno	0:158dbfb66e62	62	/*! Frame buffer stride: Frame buffer stride should be set to a multiple of 32 or 128
TetsuyaKonno	0:158dbfb66e62	63	in accordance with the frame buffer burst transfer mode. */
TetsuyaKonno	0:158dbfb66e62	64	#define PIXEL_HW (320u) /* QVGA */
TetsuyaKonno	0:158dbfb66e62	65	#define PIXEL_VW (240u) /* QVGA */
TetsuyaKonno	0:158dbfb66e62	66	#define VIDEO_BUFFER_STRIDE (((PIXEL_HW * DATA_SIZE_PER_PIC) + 31u) & ~31u)
TetsuyaKonno	0:158dbfb66e62	67	#define VIDEO_BUFFER_HEIGHT (PIXEL_VW)
TetsuyaKonno	0:158dbfb66e62	68
TetsuyaKonno	0:158dbfb66e62	69	//Constructor
TetsuyaKonno	0:158dbfb66e62	70	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	71	Ticker interrput;
TetsuyaKonno	0:158dbfb66e62	72	Serial pc(USBTX, USBRX);
TetsuyaKonno	0:158dbfb66e62	73	DigitalOut LED_R(P6_13); /* LED1 on the GR-PEACH board */
TetsuyaKonno	0:158dbfb66e62	74	DigitalOut LED_G(P6_14); /* LED2 on the GR-PEACH board */
TetsuyaKonno	0:158dbfb66e62	75	DigitalOut LED_B(P6_15); /* LED3 on the GR-PEACH board */
TetsuyaKonno	0:158dbfb66e62	76	DigitalOut USER_LED(P6_12); /* USER_LED on the GR-PEACH board */
TetsuyaKonno	0:158dbfb66e62	77	DigitalIn user_botton(P6_0); /* SW1 on the GR-PEACH board */
TetsuyaKonno	0:158dbfb66e62	78
TetsuyaKonno	0:158dbfb66e62	79	DigitalOut Left_motor_signal(P4_6); /* Used by motor fanction */
TetsuyaKonno	0:158dbfb66e62	80	DigitalOut Right_motor_signal(P4_7); /* Used by motor fanction */
TetsuyaKonno	0:158dbfb66e62	81	DigitalIn push_sw(P2_13); /* SW1 on the Motor Drive board */
TetsuyaKonno	0:158dbfb66e62	82	DigitalOut LED_3(P2_14); /* LED3 on the Motor Drive board */
TetsuyaKonno	0:158dbfb66e62	83	DigitalOut LED_2(P2_15); /* LED2 on the Motor Drive board */
TetsuyaKonno	0:158dbfb66e62	84
TetsuyaKonno	0:158dbfb66e62	85	//Prototype(NTSC-video)
TetsuyaKonno	0:158dbfb66e62	86	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	87	static void IntCallbackFunc_Vfield(DisplayBase::int_type_t int_type);
TetsuyaKonno	0:158dbfb66e62	88	static void WaitVfield(const int32_t wait_count);
TetsuyaKonno	0:158dbfb66e62	89	static void IntCallbackFunc_Vsync(DisplayBase::int_type_t int_type);
TetsuyaKonno	0:158dbfb66e62	90	static void WaitVsync(const int32_t wait_count);
TetsuyaKonno	0:158dbfb66e62	91
TetsuyaKonno	0:158dbfb66e62	92	//Prototype
TetsuyaKonno	0:158dbfb66e62	93	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	94	//Peripheral functions
TetsuyaKonno	0:158dbfb66e62	95	void init_MTU2_PWM_Motor( void ); /* Initialize PWM functions */
TetsuyaKonno	0:158dbfb66e62	96	void init_MTU2_PWM_Servo( void ); /* Initialize PWM functions */
TetsuyaKonno	0:158dbfb66e62	97	void intTimer( void ); /* Interrupt fanction */
TetsuyaKonno	0:158dbfb66e62	98
TetsuyaKonno	0:158dbfb66e62	99	//GR-peach board
TetsuyaKonno	0:158dbfb66e62	100	void led_rgb(int led);
TetsuyaKonno	0:158dbfb66e62	101	void led_m_user( int led );
TetsuyaKonno	0:158dbfb66e62	102	unsigned int user_button_get( void );
TetsuyaKonno	0:158dbfb66e62	103	void led_m_set( int set );
TetsuyaKonno	0:158dbfb66e62	104	void led_m_process( void ); /* Function for only interrupt */
TetsuyaKonno	0:158dbfb66e62	105
TetsuyaKonno	0:158dbfb66e62	106	//Motor drive board
TetsuyaKonno	0:158dbfb66e62	107	void led_out(int led);
TetsuyaKonno	0:158dbfb66e62	108	unsigned int pushsw_get( void );
TetsuyaKonno	0:158dbfb66e62	109	void motor( int accele_l, int accele_r );
TetsuyaKonno	0:158dbfb66e62	110	void handle( int angle );
TetsuyaKonno	0:158dbfb66e62	111	int diff( int pwm );
TetsuyaKonno	0:158dbfb66e62	112
TetsuyaKonno	0:158dbfb66e62	113	//Prototype(Image process)
TetsuyaKonno	0:158dbfb66e62	114	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	115	void Image_Extraction( unsigned char buff_addr, unsigned char Data_Y, int frame );
TetsuyaKonno	0:158dbfb66e62	116	void Image_Reduction( unsigned char Data_Y, int Data_W , unsigned char Comp_Y, int Comp_M );
TetsuyaKonno	0:158dbfb66e62	117	void Binarization_process( unsigned char Comp_Y, unsigned char Binary, long items, int threshold );
TetsuyaKonno	0:158dbfb66e62	118
TetsuyaKonno	0:158dbfb66e62	119	//Prototype(Digital sensor process)
TetsuyaKonno	0:158dbfb66e62	120	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	121	int CenterLine_Corrective( unsigned char *Binary );
TetsuyaKonno	0:158dbfb66e62	122	void digital_sensor_process( unsigned char Binary ); / Function for only interrupt */
TetsuyaKonno	0:158dbfb66e62	123	unsigned char digital_sensor( void );
TetsuyaKonno	0:158dbfb66e62	124
TetsuyaKonno	0:158dbfb66e62	125	//Prototype(Mark detection process)
TetsuyaKonno	0:158dbfb66e62	126	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	127	void Image_part_Extraction( unsigned char Binary, int Width, int Xpix, int Ypix, unsigned char Data_B, int x_size, int y_size );
TetsuyaKonno	0:158dbfb66e62	128	double Standard_Deviation( unsigned char data, double Devi, int items );
TetsuyaKonno	0:158dbfb66e62	129	double Covariance( double Devi_A, double Devi_B, int items );
TetsuyaKonno	0:158dbfb66e62	130	int Judgement_ImageMatching( double covari, double SDevi_A, double SDevi_B );
TetsuyaKonno	0:158dbfb66e62	131	void MarkDetect_process_T( void );
TetsuyaKonno	0:158dbfb66e62	132	int MarkCheck_Triangle( int percentage );
TetsuyaKonno	0:158dbfb66e62	133
TetsuyaKonno	0:158dbfb66e62	134	//Prototype(Display Debug)
TetsuyaKonno	0:158dbfb66e62	135	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	136	void ImageData_Serial_Out( unsigned char *Data_Y, int Width );
TetsuyaKonno	0:158dbfb66e62	137	void ImageData_Serial_Out2( unsigned char *Data_Y, int Width );
TetsuyaKonno	0:158dbfb66e62	138
TetsuyaKonno	0:158dbfb66e62	139	//Globle variable (NTSC-video)
TetsuyaKonno	0:158dbfb66e62	140	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	141	static uint8_t FrameBuffer_Video_A[VIDEO_BUFFER_STRIDE * VIDEO_BUFFER_HEIGHT]__attribute((section("NC_BSS"),aligned(16))); //16 bytes aligned!;
TetsuyaKonno	0:158dbfb66e62	142	uint8_t * write_buff_addr = FrameBuffer_Video_A;
TetsuyaKonno	0:158dbfb66e62	143	static volatile int32_t vsync_count;
TetsuyaKonno	0:158dbfb66e62	144	static volatile int32_t vfield_count;
TetsuyaKonno	0:158dbfb66e62	145	static volatile int32_t vfield_count2 = 1;
TetsuyaKonno	0:158dbfb66e62	146	static volatile int32_t vfield_count2_buff;
TetsuyaKonno	0:158dbfb66e62	147
TetsuyaKonno	0:158dbfb66e62	148	//Globle variable for Image process
TetsuyaKonno	0:158dbfb66e62	149	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	150	unsigned char ImageData_A[160*120];
TetsuyaKonno	0:158dbfb66e62	151	unsigned char ImageComp_A[20*15];
TetsuyaKonno	0:158dbfb66e62	152	unsigned char ImageBinary[20*15];
TetsuyaKonno	0:158dbfb66e62	153
TetsuyaKonno	0:158dbfb66e62	154	//Globle variable for Digital sensor process
TetsuyaKonno	0:158dbfb66e62	155	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	156	volatile int Sensor_X[8][6];
TetsuyaKonno	0:158dbfb66e62	157	volatile unsigned char sensor_value;
TetsuyaKonno	0:158dbfb66e62	158
TetsuyaKonno	0:158dbfb66e62	159	//Globle variable for Mark detection process
TetsuyaKonno	0:158dbfb66e62	160	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	161	double TempDevi_Triangle[15];
TetsuyaKonno	0:158dbfb66e62	162	unsigned char TempBinary_Triangle[15] = {0,1,1,1,0,
TetsuyaKonno	0:158dbfb66e62	163	0,0,1,0,0,
TetsuyaKonno	0:158dbfb66e62	164	0,0,0,0,0};
TetsuyaKonno	0:158dbfb66e62	165
TetsuyaKonno	0:158dbfb66e62	166	double NowDevi[15];
TetsuyaKonno	0:158dbfb66e62	167	unsigned char NowImageBinary[15];
TetsuyaKonno	0:158dbfb66e62	168
TetsuyaKonno	0:158dbfb66e62	169	volatile double retDevi_Triangle;
TetsuyaKonno	0:158dbfb66e62	170
TetsuyaKonno	0:158dbfb66e62	171	volatile double retDevi;
TetsuyaKonno	0:158dbfb66e62	172	volatile double retCovari;
TetsuyaKonno	0:158dbfb66e62	173	volatile int retJudgeIM;
TetsuyaKonno	0:158dbfb66e62	174	volatile int retJudgeIM_Max[1];
TetsuyaKonno	0:158dbfb66e62	175
TetsuyaKonno	0:158dbfb66e62	176	int Xt, Yt;
TetsuyaKonno	0:158dbfb66e62	177
TetsuyaKonno	0:158dbfb66e62	178	//Globle variable for led fanction
TetsuyaKonno	0:158dbfb66e62	179	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	180	volatile int led_set; /* Status */
TetsuyaKonno	0:158dbfb66e62	181
TetsuyaKonno	0:158dbfb66e62	182	// LED, OnTime, OffTime,
TetsuyaKonno	0:158dbfb66e62	183	volatile int led_data[10][3]= {LED_RED, 50, 50, /* ERROR */
TetsuyaKonno	0:158dbfb66e62	184	LED_RED, 500, 0, /* STOP */
TetsuyaKonno	0:158dbfb66e62	185	LED_GREEN, 500, 500, /* RUN */
TetsuyaKonno	0:158dbfb66e62	186	LED_BLUE, 50, 50, /* DEBUG */
TetsuyaKonno	0:158dbfb66e62	187	LED_GREEN, 1, 0, /* MOTOR_START */
TetsuyaKonno	0:158dbfb66e62	188	LED_RED, 1, 0, /* MOTOR_STOP */
TetsuyaKonno	0:158dbfb66e62	189	LED_WHITE, 500, 500}; /* MARK_T */
TetsuyaKonno	0:158dbfb66e62	190
TetsuyaKonno	0:158dbfb66e62	191	//Globle variable for Trace program
TetsuyaKonno	0:158dbfb66e62	192	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	193	volatile unsigned long cnt0; /* Used by timer function */
TetsuyaKonno	0:158dbfb66e62	194	volatile unsigned long cnt1; /* Used within main */
TetsuyaKonno	0:158dbfb66e62	195	volatile int pattern; /* Pattern numbers */
TetsuyaKonno	0:158dbfb66e62	196	volatile int handle_buff;
TetsuyaKonno	0:158dbfb66e62	197
TetsuyaKonno	0:158dbfb66e62	198	const int revolution_difference[] = {
TetsuyaKonno	0:158dbfb66e62	199	100, 98, 97, 95, 93,
TetsuyaKonno	0:158dbfb66e62	200	92, 90, 88, 87, 85,
TetsuyaKonno	0:158dbfb66e62	201	84, 82, 81, 79, 78,
TetsuyaKonno	0:158dbfb66e62	202	76, 75, 73, 72, 71,
TetsuyaKonno	0:158dbfb66e62	203	69, 68, 66, 65, 64,
TetsuyaKonno	0:158dbfb66e62	204	62, 61, 59, 58, 57,
TetsuyaKonno	0:158dbfb66e62	205	55, 54, 52, 51, 50,
TetsuyaKonno	0:158dbfb66e62	206	48, 47, 45, 44, 42,
TetsuyaKonno	0:158dbfb66e62	207	41, 39, 38, 36, 35,
TetsuyaKonno	0:158dbfb66e62	208	33 };
TetsuyaKonno	0:158dbfb66e62	209
TetsuyaKonno	0:158dbfb66e62	210	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	211	// Main function
TetsuyaKonno	0:158dbfb66e62	212	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	213	int main( void )
TetsuyaKonno	0:158dbfb66e62	214	{
TetsuyaKonno	0:158dbfb66e62	215	/* NTSC-Video */
TetsuyaKonno	0:158dbfb66e62	216	DisplayBase::graphics_error_t error;
TetsuyaKonno	0:158dbfb66e62	217
TetsuyaKonno	0:158dbfb66e62	218	/* Create DisplayBase object */
TetsuyaKonno	0:158dbfb66e62	219	DisplayBase Display;
TetsuyaKonno	0:158dbfb66e62	220
TetsuyaKonno	0:158dbfb66e62	221	/* Graphics initialization process */
TetsuyaKonno	0:158dbfb66e62	222	error = Display.Graphics_init(NULL);
TetsuyaKonno	0:158dbfb66e62	223	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	224	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	225	while (1);
TetsuyaKonno	0:158dbfb66e62	226	}
TetsuyaKonno	0:158dbfb66e62	227
TetsuyaKonno	0:158dbfb66e62	228	error = Display.Graphics_Video_init( DisplayBase::INPUT_SEL_VDEC, NULL);
TetsuyaKonno	0:158dbfb66e62	229	if( error != DisplayBase::GRAPHICS_OK ) {
TetsuyaKonno	0:158dbfb66e62	230	while(1);
TetsuyaKonno	0:158dbfb66e62	231	}
TetsuyaKonno	0:158dbfb66e62	232
TetsuyaKonno	0:158dbfb66e62	233	/* Interrupt callback function setting (Vsync signal input to scaler 0) */
TetsuyaKonno	0:158dbfb66e62	234	error = Display.Graphics_Irq_Handler_Set(DisplayBase::INT_TYPE_S0_VI_VSYNC, 0, IntCallbackFunc_Vsync);
TetsuyaKonno	0:158dbfb66e62	235	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	236	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	237	while (1);
TetsuyaKonno	0:158dbfb66e62	238	}
TetsuyaKonno	0:158dbfb66e62	239
TetsuyaKonno	0:158dbfb66e62	240	/* Video capture setting (progressive form fixed) */
TetsuyaKonno	0:158dbfb66e62	241	error = Display.Video_Write_Setting(
TetsuyaKonno	0:158dbfb66e62	242	VIDEO_INPUT_CH,
TetsuyaKonno	0:158dbfb66e62	243	DisplayBase::COL_SYS_NTSC_358,
TetsuyaKonno	0:158dbfb66e62	244	write_buff_addr,
TetsuyaKonno	0:158dbfb66e62	245	VIDEO_BUFFER_STRIDE,
TetsuyaKonno	0:158dbfb66e62	246	DisplayBase::VIDEO_FORMAT_YCBCR422,
TetsuyaKonno	0:158dbfb66e62	247	DisplayBase::WR_RD_WRSWA_32_16BIT,
TetsuyaKonno	0:158dbfb66e62	248	PIXEL_VW,
TetsuyaKonno	0:158dbfb66e62	249	PIXEL_HW
TetsuyaKonno	0:158dbfb66e62	250	);
TetsuyaKonno	0:158dbfb66e62	251	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	252	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	253	while (1);
TetsuyaKonno	0:158dbfb66e62	254	}
TetsuyaKonno	0:158dbfb66e62	255
TetsuyaKonno	0:158dbfb66e62	256	/* Interrupt callback function setting (Field end signal for recording function in scaler 0) */
TetsuyaKonno	0:158dbfb66e62	257	error = Display.Graphics_Irq_Handler_Set(VIDEO_INT_TYPE, 0, IntCallbackFunc_Vfield);
TetsuyaKonno	0:158dbfb66e62	258	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	259	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	260	while (1);
TetsuyaKonno	0:158dbfb66e62	261	}
TetsuyaKonno	0:158dbfb66e62	262
TetsuyaKonno	0:158dbfb66e62	263	/* Video write process start */
TetsuyaKonno	0:158dbfb66e62	264	error = Display.Video_Start (VIDEO_INPUT_CH);
TetsuyaKonno	0:158dbfb66e62	265	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	266	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	267	while (1);
TetsuyaKonno	0:158dbfb66e62	268	}
TetsuyaKonno	0:158dbfb66e62	269
TetsuyaKonno	0:158dbfb66e62	270	/* Video write process stop */
TetsuyaKonno	0:158dbfb66e62	271	error = Display.Video_Stop (VIDEO_INPUT_CH);
TetsuyaKonno	0:158dbfb66e62	272	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	273	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	274	while (1);
TetsuyaKonno	0:158dbfb66e62	275	}
TetsuyaKonno	0:158dbfb66e62	276
TetsuyaKonno	0:158dbfb66e62	277	/* Video write process start */
TetsuyaKonno	0:158dbfb66e62	278	error = Display.Video_Start (VIDEO_INPUT_CH);
TetsuyaKonno	0:158dbfb66e62	279	if (error != DisplayBase::GRAPHICS_OK) {
TetsuyaKonno	0:158dbfb66e62	280	printf("Line %d, error %d\n", __LINE__, error);
TetsuyaKonno	0:158dbfb66e62	281	while (1);
TetsuyaKonno	0:158dbfb66e62	282	}
TetsuyaKonno	0:158dbfb66e62	283
TetsuyaKonno	0:158dbfb66e62	284	/* Wait vsync to update resister */
TetsuyaKonno	0:158dbfb66e62	285	WaitVsync(1);
TetsuyaKonno	0:158dbfb66e62	286
TetsuyaKonno	0:158dbfb66e62	287	/* Wait 2 Vfield(Top or bottom field) */
TetsuyaKonno	0:158dbfb66e62	288	WaitVfield(2);
TetsuyaKonno	0:158dbfb66e62	289
TetsuyaKonno	0:158dbfb66e62	290	/* Initialize MCU functions */
TetsuyaKonno	0:158dbfb66e62	291	init_MTU2_PWM_Motor();
TetsuyaKonno	0:158dbfb66e62	292	init_MTU2_PWM_Servo();
TetsuyaKonno	0:158dbfb66e62	293	interrput.attach(&intTimer, 0.001);
TetsuyaKonno	0:158dbfb66e62	294	pc.baud(230400);
TetsuyaKonno	0:158dbfb66e62	295
TetsuyaKonno	0:158dbfb66e62	296	/* Initialize Micon Car state */
TetsuyaKonno	0:158dbfb66e62	297	led_out( 0x0 );
TetsuyaKonno	0:158dbfb66e62	298	handle( 0 );
TetsuyaKonno	0:158dbfb66e62	299	motor( 0, 0 );
TetsuyaKonno	0:158dbfb66e62	300
TetsuyaKonno	0:158dbfb66e62	301	/* wait to stabilize NTSC signal (about 170ms) */
TetsuyaKonno	0:158dbfb66e62	302	wait(0.2);
TetsuyaKonno	0:158dbfb66e62	303
TetsuyaKonno	0:158dbfb66e62	304	/* Initialize Digital sensor */
TetsuyaKonno	0:158dbfb66e62	305	CenterLine_Corrective( ImageBinary );
TetsuyaKonno	0:158dbfb66e62	306
TetsuyaKonno	0:158dbfb66e62	307	/* Initialize Mark detection */
TetsuyaKonno	0:158dbfb66e62	308	retDevi_Triangle = Standard_Deviation( TempBinary_Triangle, TempDevi_Triangle, 15 );
TetsuyaKonno	0:158dbfb66e62	309
TetsuyaKonno	0:158dbfb66e62	310	if( user_button_get() ) {
TetsuyaKonno	0:158dbfb66e62	311	wait(0.1);
TetsuyaKonno	0:158dbfb66e62	312	led_m_set( DEBUG );
TetsuyaKonno	0:158dbfb66e62	313	while( user_button_get() );
TetsuyaKonno	0:158dbfb66e62	314	wait(0.5);
TetsuyaKonno	0:158dbfb66e62	315	pc.printf( "Please push the SW ( on the Motor drive board )\n\r" );
TetsuyaKonno	0:158dbfb66e62	316	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	317	while( !user_button_get() );
TetsuyaKonno	0:158dbfb66e62	318	while( 1 ){
TetsuyaKonno	0:158dbfb66e62	319	ImageData_Serial_Out2( ImageBinary, 20 );
TetsuyaKonno	0:158dbfb66e62	320	}
TetsuyaKonno	0:158dbfb66e62	321	}
TetsuyaKonno	0:158dbfb66e62	322
TetsuyaKonno	0:158dbfb66e62	323	led_m_set( RUN );
TetsuyaKonno	0:158dbfb66e62	324
TetsuyaKonno	0:158dbfb66e62	325	while( 1 ) {
TetsuyaKonno	0:158dbfb66e62	326
TetsuyaKonno	0:158dbfb66e62	327	switch( pattern ) {
TetsuyaKonno	0:158dbfb66e62	328	/*****************************************************************
TetsuyaKonno	0:158dbfb66e62	329	About patern
TetsuyaKonno	0:158dbfb66e62	330	0:wait for switch input
TetsuyaKonno	0:158dbfb66e62	331	1:check if start bar is open
TetsuyaKonno	0:158dbfb66e62	332	11:normal trace
TetsuyaKonno	0:158dbfb66e62	333	12:Left side
TetsuyaKonno	0:158dbfb66e62	334	13:right side
TetsuyaKonno	0:158dbfb66e62	335	*****************************************************************/
TetsuyaKonno	0:158dbfb66e62	336	case 0:
TetsuyaKonno	0:158dbfb66e62	337	/* wait for switch input */
TetsuyaKonno	0:158dbfb66e62	338	if( pushsw_get() ) {
TetsuyaKonno	0:158dbfb66e62	339	led_out( 0x0 );
TetsuyaKonno	0:158dbfb66e62	340	led_m_set( RUN );
TetsuyaKonno	0:158dbfb66e62	341	pattern = 11;
TetsuyaKonno	0:158dbfb66e62	342	cnt1 = 0;
TetsuyaKonno	0:158dbfb66e62	343	break;
TetsuyaKonno	0:158dbfb66e62	344	}
TetsuyaKonno	0:158dbfb66e62	345	if( cnt1 < 100 ) {
TetsuyaKonno	0:158dbfb66e62	346	led_out( 0x1 );
TetsuyaKonno	0:158dbfb66e62	347	} else if( cnt1 < 200 ) {
TetsuyaKonno	0:158dbfb66e62	348	led_out( 0x2 );
TetsuyaKonno	0:158dbfb66e62	349	} else {
TetsuyaKonno	0:158dbfb66e62	350	cnt1 = 0;
TetsuyaKonno	0:158dbfb66e62	351	}
TetsuyaKonno	0:158dbfb66e62	352	break;
TetsuyaKonno	0:158dbfb66e62	353
TetsuyaKonno	0:158dbfb66e62	354	case 11:
TetsuyaKonno	0:158dbfb66e62	355	/* normal trace */
TetsuyaKonno	0:158dbfb66e62	356	if( MarkCheck_Triangle( 90 ) ) {
TetsuyaKonno	0:158dbfb66e62	357	led_m_set( MARK_T );
TetsuyaKonno	0:158dbfb66e62	358	pattern = 91;
TetsuyaKonno	0:158dbfb66e62	359	break;
TetsuyaKonno	0:158dbfb66e62	360	}
TetsuyaKonno	0:158dbfb66e62	361	switch( (digital_sensor()&0x0f) ) {
TetsuyaKonno	0:158dbfb66e62	362	case 0x00:
TetsuyaKonno	0:158dbfb66e62	363	handle( 0 );
TetsuyaKonno	0:158dbfb66e62	364	motor( 100, 100 );
TetsuyaKonno	0:158dbfb66e62	365	break;
TetsuyaKonno	0:158dbfb66e62	366	case 0x02:
TetsuyaKonno	0:158dbfb66e62	367	handle( 3 );
TetsuyaKonno	0:158dbfb66e62	368	motor( 100, diff(100) );
TetsuyaKonno	0:158dbfb66e62	369	break;
TetsuyaKonno	0:158dbfb66e62	370	case 0x03:
TetsuyaKonno	0:158dbfb66e62	371	handle( 12 );
TetsuyaKonno	0:158dbfb66e62	372	motor( 100, diff(100) );
TetsuyaKonno	0:158dbfb66e62	373	break;
TetsuyaKonno	0:158dbfb66e62	374	case 0x01:
TetsuyaKonno	0:158dbfb66e62	375	handle( 20 );
TetsuyaKonno	0:158dbfb66e62	376	motor( 100, diff(100) );
TetsuyaKonno	0:158dbfb66e62	377	pattern = 12;
TetsuyaKonno	0:158dbfb66e62	378	break;
TetsuyaKonno	0:158dbfb66e62	379	case 0x04:
TetsuyaKonno	0:158dbfb66e62	380	handle( -3 );
TetsuyaKonno	0:158dbfb66e62	381	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	382	break;
TetsuyaKonno	0:158dbfb66e62	383	case 0x0c:
TetsuyaKonno	0:158dbfb66e62	384	handle( -12 );
TetsuyaKonno	0:158dbfb66e62	385	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	386	break;
TetsuyaKonno	0:158dbfb66e62	387	case 0x08:
TetsuyaKonno	0:158dbfb66e62	388	handle( -20 );
TetsuyaKonno	0:158dbfb66e62	389	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	390	pattern = 13;
TetsuyaKonno	0:158dbfb66e62	391	break;
TetsuyaKonno	0:158dbfb66e62	392	default:
TetsuyaKonno	0:158dbfb66e62	393	break;
TetsuyaKonno	0:158dbfb66e62	394	}
TetsuyaKonno	0:158dbfb66e62	395	break;
TetsuyaKonno	0:158dbfb66e62	396
TetsuyaKonno	0:158dbfb66e62	397	case 12:
TetsuyaKonno	0:158dbfb66e62	398	/* Left side */
TetsuyaKonno	0:158dbfb66e62	399	if( (digital_sensor()&0x02) == 0x02 ) {
TetsuyaKonno	0:158dbfb66e62	400	pattern = 11;
TetsuyaKonno	0:158dbfb66e62	401	break;
TetsuyaKonno	0:158dbfb66e62	402	}
TetsuyaKonno	0:158dbfb66e62	403	switch( (digital_sensor()&0x0f) ) {
TetsuyaKonno	0:158dbfb66e62	404	case 0x01:
TetsuyaKonno	0:158dbfb66e62	405	handle( 20 );
TetsuyaKonno	0:158dbfb66e62	406	motor( 100, diff(100) );
TetsuyaKonno	0:158dbfb66e62	407	break;
TetsuyaKonno	0:158dbfb66e62	408	case 0x00:
TetsuyaKonno	0:158dbfb66e62	409	case 0x08:
TetsuyaKonno	0:158dbfb66e62	410	case 0x0c:
TetsuyaKonno	0:158dbfb66e62	411	handle( 22 );
TetsuyaKonno	0:158dbfb66e62	412	motor( 100, diff(100) );
TetsuyaKonno	0:158dbfb66e62	413	break;
TetsuyaKonno	0:158dbfb66e62	414	default:
TetsuyaKonno	0:158dbfb66e62	415	break;
TetsuyaKonno	0:158dbfb66e62	416	}
TetsuyaKonno	0:158dbfb66e62	417	break;
TetsuyaKonno	0:158dbfb66e62	418
TetsuyaKonno	0:158dbfb66e62	419	case 13:
TetsuyaKonno	0:158dbfb66e62	420	/* right side */
TetsuyaKonno	0:158dbfb66e62	421	if( (digital_sensor()&0x04) == 0x04 ) {
TetsuyaKonno	0:158dbfb66e62	422	pattern = 11;
TetsuyaKonno	0:158dbfb66e62	423	}
TetsuyaKonno	0:158dbfb66e62	424	switch( (digital_sensor()&0x0f) ) {
TetsuyaKonno	0:158dbfb66e62	425	case 0x08:
TetsuyaKonno	0:158dbfb66e62	426	handle( -20 );
TetsuyaKonno	0:158dbfb66e62	427	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	428	break;
TetsuyaKonno	0:158dbfb66e62	429	case 0x00:
TetsuyaKonno	0:158dbfb66e62	430	case 0x01:
TetsuyaKonno	0:158dbfb66e62	431	case 0x03:
TetsuyaKonno	0:158dbfb66e62	432	handle( -22 );
TetsuyaKonno	0:158dbfb66e62	433	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	434	break;
TetsuyaKonno	0:158dbfb66e62	435	default:
TetsuyaKonno	0:158dbfb66e62	436	break;
TetsuyaKonno	0:158dbfb66e62	437	}
TetsuyaKonno	0:158dbfb66e62	438	break;
TetsuyaKonno	0:158dbfb66e62	439
TetsuyaKonno	0:158dbfb66e62	440	case 91:
TetsuyaKonno	0:158dbfb66e62	441	/* Stop */
TetsuyaKonno	0:158dbfb66e62	442	handle( 0 );
TetsuyaKonno	0:158dbfb66e62	443	motor( 0, 0 );
TetsuyaKonno	0:158dbfb66e62	444	break;
TetsuyaKonno	0:158dbfb66e62	445
TetsuyaKonno	0:158dbfb66e62	446	default:
TetsuyaKonno	0:158dbfb66e62	447	break;
TetsuyaKonno	0:158dbfb66e62	448	}
TetsuyaKonno	0:158dbfb66e62	449	}
TetsuyaKonno	0:158dbfb66e62	450	}
TetsuyaKonno	0:158dbfb66e62	451
TetsuyaKonno	0:158dbfb66e62	452	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	453	// Initialize functions
TetsuyaKonno	0:158dbfb66e62	454	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	455	//Initialize MTU2 PWM functions
TetsuyaKonno	0:158dbfb66e62	456	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	457	//MTU2_3, MTU2_4
TetsuyaKonno	0:158dbfb66e62	458	//Reset-Synchronized PWM mode
TetsuyaKonno	0:158dbfb66e62	459	//TIOC4A(P4_4) :Left-motor
TetsuyaKonno	0:158dbfb66e62	460	//TIOC4B(P4_5) :Right-motor
TetsuyaKonno	0:158dbfb66e62	461	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	462	void init_MTU2_PWM_Motor( void )
TetsuyaKonno	0:158dbfb66e62	463	{
TetsuyaKonno	0:158dbfb66e62	464	/* Port setting for S/W I/O Contorol */
TetsuyaKonno	0:158dbfb66e62	465	/* alternative mode */
TetsuyaKonno	0:158dbfb66e62	466
TetsuyaKonno	0:158dbfb66e62	467	/* MTU2_4 (P4_4)(P4_5) */
TetsuyaKonno	0:158dbfb66e62	468	GPIOPBDC4 = 0x0000; /* Bidirection mode disabled*/
TetsuyaKonno	0:158dbfb66e62	469	GPIOPFCAE4 &= 0xffcf; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	470	GPIOPFCE4 \|= 0x0030; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	471	GPIOPFC4 &= 0xffcf; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	472	/* 2nd altemative function/output */
TetsuyaKonno	0:158dbfb66e62	473	GPIOP4 &= 0xffcf; /* */
TetsuyaKonno	0:158dbfb66e62	474	GPIOPM4 &= 0xffcf; /* p4_4,P4_5:output */
TetsuyaKonno	0:158dbfb66e62	475	GPIOPMC4 \|= 0x0030; /* P4_4,P4_5:double */
TetsuyaKonno	0:158dbfb66e62	476
TetsuyaKonno	0:158dbfb66e62	477	/* Mosule stop 33(MTU2) canceling */
TetsuyaKonno	0:158dbfb66e62	478	CPGSTBCR3 &= 0xf7;
TetsuyaKonno	0:158dbfb66e62	479
TetsuyaKonno	0:158dbfb66e62	480	/* MTU2_3 and MTU2_4 (Motor PWM) */
TetsuyaKonno	0:158dbfb66e62	481	MTU2TCR_3 = 0x20; /* TCNT Clear(TGRA), P0φ/1 */
TetsuyaKonno	0:158dbfb66e62	482	MTU2TOCR1 = 0x04; /* */
TetsuyaKonno	0:158dbfb66e62	483	MTU2TOCR2 = 0x40; /* N L>H P H>L */
TetsuyaKonno	0:158dbfb66e62	484	MTU2TMDR_3 = 0x38; /* Buff:ON Reset-Synchronized PWM mode */
TetsuyaKonno	0:158dbfb66e62	485	MTU2TMDR_4 = 0x30; /* Buff:ON */
TetsuyaKonno	0:158dbfb66e62	486	MTU2TOER = 0xc6; /* TIOC3B,4A,4B enabled output */
TetsuyaKonno	0:158dbfb66e62	487	MTU2TCNT_3 = MTU2TCNT_4 = 0; /* TCNT3,TCNT4 Set 0 */
TetsuyaKonno	0:158dbfb66e62	488	MTU2TGRA_3 = MTU2TGRC_3 = MOTOR_PWM_CYCLE;
TetsuyaKonno	0:158dbfb66e62	489	/* PWM-Cycle(1ms) */
TetsuyaKonno	0:158dbfb66e62	490	MTU2TGRA_4 = MTU2TGRC_4 = 0; /* Left-motor(P4_4) */
TetsuyaKonno	0:158dbfb66e62	491	MTU2TGRB_4 = MTU2TGRD_4 = 0; /* Right-motor(P4_5) */
TetsuyaKonno	0:158dbfb66e62	492	MTU2TSTR \|= 0x40; /* TCNT_4 Start */
TetsuyaKonno	0:158dbfb66e62	493	}
TetsuyaKonno	0:158dbfb66e62	494
TetsuyaKonno	0:158dbfb66e62	495	//Initialize MTU2 PWM functions
TetsuyaKonno	0:158dbfb66e62	496	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	497	//MTU2_0
TetsuyaKonno	0:158dbfb66e62	498	//PWM mode 1
TetsuyaKonno	0:158dbfb66e62	499	//TIOC0A(P4_0) :Servo-motor
TetsuyaKonno	0:158dbfb66e62	500	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	501	void init_MTU2_PWM_Servo( void )
TetsuyaKonno	0:158dbfb66e62	502	{
TetsuyaKonno	0:158dbfb66e62	503	/* Port setting for S/W I/O Contorol */
TetsuyaKonno	0:158dbfb66e62	504	/* alternative mode */
TetsuyaKonno	0:158dbfb66e62	505
TetsuyaKonno	0:158dbfb66e62	506	/* MTU2_0 (P4_0) */
TetsuyaKonno	0:158dbfb66e62	507	GPIOPBDC4 = 0x0000; /* Bidirection mode disabled*/
TetsuyaKonno	0:158dbfb66e62	508	GPIOPFCAE4 &= 0xfffe; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	509	GPIOPFCE4 &= 0xfffe; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	510	GPIOPFC4 \|= 0x0001; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	511	/* 2nd alternative function/output */
TetsuyaKonno	0:158dbfb66e62	512	GPIOP4 &= 0xfffe; /* */
TetsuyaKonno	0:158dbfb66e62	513	GPIOPM4 &= 0xfffe; /* p4_0:output */
TetsuyaKonno	0:158dbfb66e62	514	GPIOPMC4 \|= 0x0001; /* P4_0:double */
TetsuyaKonno	0:158dbfb66e62	515
TetsuyaKonno	0:158dbfb66e62	516	/* Mosule stop 33(MTU2) canceling */
TetsuyaKonno	0:158dbfb66e62	517	CPGSTBCR3 &= 0xf7;
TetsuyaKonno	0:158dbfb66e62	518
TetsuyaKonno	0:158dbfb66e62	519	/* MTU2_0 (Motor PWM) */
TetsuyaKonno	0:158dbfb66e62	520	MTU2TCR_0 = 0x22; /* TCNT Clear(TGRA), P0φ/16 */
TetsuyaKonno	0:158dbfb66e62	521	MTU2TIORH_0 = 0x52; /* TGRA L>H, TGRB H>L */
TetsuyaKonno	0:158dbfb66e62	522	MTU2TMDR_0 = 0x32; /* TGRC and TGRD = Buff-mode*/
TetsuyaKonno	0:158dbfb66e62	523	/* PWM-mode1 */
TetsuyaKonno	0:158dbfb66e62	524	MTU2TCNT_0 = 0; /* TCNT0 Set 0 */
TetsuyaKonno	0:158dbfb66e62	525	MTU2TGRA_0 = MTU2TGRC_0 = SERVO_PWM_CYCLE;
TetsuyaKonno	0:158dbfb66e62	526	/* PWM-Cycle(16ms) */
TetsuyaKonno	0:158dbfb66e62	527	MTU2TGRB_0 = MTU2TGRD_0 = 0; /* Servo-motor(P4_0) */
TetsuyaKonno	0:158dbfb66e62	528	MTU2TSTR \|= 0x01; /* TCNT_0 Start */
TetsuyaKonno	0:158dbfb66e62	529	}
TetsuyaKonno	0:158dbfb66e62	530
TetsuyaKonno	0:158dbfb66e62	531	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	532	// @brief Interrupt callback function
TetsuyaKonno	0:158dbfb66e62	533	// @param[in] int_type : VDC5 interrupt type
TetsuyaKonno	0:158dbfb66e62	534	// @retval None
TetsuyaKonno	0:158dbfb66e62	535	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	536	static void IntCallbackFunc_Vfield(DisplayBase::int_type_t int_type)
TetsuyaKonno	0:158dbfb66e62	537	{
TetsuyaKonno	0:158dbfb66e62	538	if (vfield_count > 0) {
TetsuyaKonno	0:158dbfb66e62	539	vfield_count--;
TetsuyaKonno	0:158dbfb66e62	540	}
TetsuyaKonno	0:158dbfb66e62	541	/* top or bottom (Change) */
TetsuyaKonno	0:158dbfb66e62	542	if ( vfield_count2 == 0 ) vfield_count2 = 1;
TetsuyaKonno	0:158dbfb66e62	543	else if ( vfield_count2 == 1 ) vfield_count2 = 0;
TetsuyaKonno	0:158dbfb66e62	544	}
TetsuyaKonno	0:158dbfb66e62	545
TetsuyaKonno	0:158dbfb66e62	546	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	547	// @brief Wait for the specified number of times Vsync occurs
TetsuyaKonno	0:158dbfb66e62	548	// @param[in] wait_count : Wait count
TetsuyaKonno	0:158dbfb66e62	549	// @retval None
TetsuyaKonno	0:158dbfb66e62	550	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	551	static void WaitVfield(const int32_t wait_count)
TetsuyaKonno	0:158dbfb66e62	552	{
TetsuyaKonno	0:158dbfb66e62	553	vfield_count = wait_count;
TetsuyaKonno	0:158dbfb66e62	554	while (vfield_count > 0) {
TetsuyaKonno	0:158dbfb66e62	555	/* Do nothing */
TetsuyaKonno	0:158dbfb66e62	556	}
TetsuyaKonno	0:158dbfb66e62	557	}
TetsuyaKonno	0:158dbfb66e62	558
TetsuyaKonno	0:158dbfb66e62	559	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	560	// @brief Interrupt callback function for Vsync interruption
TetsuyaKonno	0:158dbfb66e62	561	// @param[in] int_type : VDC5 interrupt type
TetsuyaKonno	0:158dbfb66e62	562	// @retval None
TetsuyaKonno	0:158dbfb66e62	563	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	564	static void IntCallbackFunc_Vsync(DisplayBase::int_type_t int_type)
TetsuyaKonno	0:158dbfb66e62	565	{
TetsuyaKonno	0:158dbfb66e62	566	if (vsync_count > 0) {
TetsuyaKonno	0:158dbfb66e62	567	vsync_count--;
TetsuyaKonno	0:158dbfb66e62	568	}
TetsuyaKonno	0:158dbfb66e62	569	}
TetsuyaKonno	0:158dbfb66e62	570
TetsuyaKonno	0:158dbfb66e62	571	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	572	// @brief Wait for the specified number of times Vsync occurs
TetsuyaKonno	0:158dbfb66e62	573	// @param[in] wait_count : Wait count
TetsuyaKonno	0:158dbfb66e62	574	// @retval None
TetsuyaKonno	0:158dbfb66e62	575	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	576	static void WaitVsync(const int32_t wait_count)
TetsuyaKonno	0:158dbfb66e62	577	{
TetsuyaKonno	0:158dbfb66e62	578	vsync_count = wait_count;
TetsuyaKonno	0:158dbfb66e62	579	while (vsync_count > 0) {
TetsuyaKonno	0:158dbfb66e62	580	/* Do nothing */
TetsuyaKonno	0:158dbfb66e62	581	}
TetsuyaKonno	0:158dbfb66e62	582	}
TetsuyaKonno	0:158dbfb66e62	583
TetsuyaKonno	0:158dbfb66e62	584	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	585	// Interrupt function( intTimer )
TetsuyaKonno	0:158dbfb66e62	586	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	587	void intTimer( void )
TetsuyaKonno	0:158dbfb66e62	588	{
TetsuyaKonno	0:158dbfb66e62	589	static int counter = 0;
TetsuyaKonno	0:158dbfb66e62	590
TetsuyaKonno	0:158dbfb66e62	591	cnt0++;
TetsuyaKonno	0:158dbfb66e62	592	cnt1++;
TetsuyaKonno	0:158dbfb66e62	593
TetsuyaKonno	0:158dbfb66e62	594	/* field check */
TetsuyaKonno	1:4a94c87a7d04	595	if( vfield_count2 != vfield_count2_buff ) {
TetsuyaKonno	0:158dbfb66e62	596	vfield_count2_buff = vfield_count2;
TetsuyaKonno	1:4a94c87a7d04	597	counter = 0;
TetsuyaKonno	0:158dbfb66e62	598	}
TetsuyaKonno	1:4a94c87a7d04	599	/* Top field / bottom field */
TetsuyaKonno	1:4a94c87a7d04	600	led_m_user( vfield_count2 );
TetsuyaKonno	1:4a94c87a7d04	601	switch( counter++ ) {
TetsuyaKonno	1:4a94c87a7d04	602	case 0:
TetsuyaKonno	1:4a94c87a7d04	603	Image_Extraction( write_buff_addr, ImageData_A, vfield_count2 );
TetsuyaKonno	1:4a94c87a7d04	604	break;
TetsuyaKonno	1:4a94c87a7d04	605	case 1:
TetsuyaKonno	1:4a94c87a7d04	606	Image_Extraction( write_buff_addr, ImageData_A, vfield_count2 );
TetsuyaKonno	1:4a94c87a7d04	607	break;
TetsuyaKonno	1:4a94c87a7d04	608	case 2:
TetsuyaKonno	1:4a94c87a7d04	609	Image_Reduction( ImageData_A, 160, ImageComp_A, 8 );
TetsuyaKonno	1:4a94c87a7d04	610	break;
TetsuyaKonno	1:4a94c87a7d04	611	case 3:
TetsuyaKonno	1:4a94c87a7d04	612	Image_Reduction( ImageData_A, 160, ImageComp_A, 8 );
TetsuyaKonno	1:4a94c87a7d04	613	break;
TetsuyaKonno	1:4a94c87a7d04	614	case 4:
TetsuyaKonno	1:4a94c87a7d04	615	Binarization_process( ImageComp_A, ImageBinary, 20*15, 128 );
TetsuyaKonno	1:4a94c87a7d04	616	break;
TetsuyaKonno	1:4a94c87a7d04	617	case 5:
TetsuyaKonno	1:4a94c87a7d04	618	/* Trace by image processing */
TetsuyaKonno	1:4a94c87a7d04	619	digital_sensor_process( ImageBinary );
TetsuyaKonno	1:4a94c87a7d04	620	break;
TetsuyaKonno	1:4a94c87a7d04	621	case 6:
TetsuyaKonno	1:4a94c87a7d04	622	//MarkCheck_Triangle
TetsuyaKonno	1:4a94c87a7d04	623	MarkDetect_process_T();
TetsuyaKonno	1:4a94c87a7d04	624	break;
TetsuyaKonno	1:4a94c87a7d04	625	default:
TetsuyaKonno	1:4a94c87a7d04	626	break;
TetsuyaKonno	0:158dbfb66e62	627	}
TetsuyaKonno	0:158dbfb66e62	628
TetsuyaKonno	0:158dbfb66e62	629	/* LED processing */
TetsuyaKonno	0:158dbfb66e62	630	led_m_process();
TetsuyaKonno	0:158dbfb66e62	631	}
TetsuyaKonno	0:158dbfb66e62	632
TetsuyaKonno	0:158dbfb66e62	633	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	634	// functions ( on GR-PEACH board )
TetsuyaKonno	0:158dbfb66e62	635	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	636	//led_rgb Function
TetsuyaKonno	0:158dbfb66e62	637	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	638	void led_rgb(int led)
TetsuyaKonno	0:158dbfb66e62	639	{
TetsuyaKonno	0:158dbfb66e62	640	LED_R = led & 0x1;
TetsuyaKonno	0:158dbfb66e62	641	LED_G = (led >> 1 ) & 0x1;
TetsuyaKonno	0:158dbfb66e62	642	LED_B = (led >> 2 ) & 0x1;
TetsuyaKonno	0:158dbfb66e62	643	}
TetsuyaKonno	0:158dbfb66e62	644
TetsuyaKonno	0:158dbfb66e62	645	//user_button_get Function
TetsuyaKonno	0:158dbfb66e62	646	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	647	unsigned int user_button_get( void )
TetsuyaKonno	0:158dbfb66e62	648	{
TetsuyaKonno	0:158dbfb66e62	649	return (~user_botton) & 0x1; /* Read ports with switches */
TetsuyaKonno	0:158dbfb66e62	650	}
TetsuyaKonno	0:158dbfb66e62	651
TetsuyaKonno	0:158dbfb66e62	652	//led_m_user Function
TetsuyaKonno	0:158dbfb66e62	653	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	654	void led_m_user( int led )
TetsuyaKonno	0:158dbfb66e62	655	{
TetsuyaKonno	0:158dbfb66e62	656	USER_LED = led & 0x01;
TetsuyaKonno	0:158dbfb66e62	657	}
TetsuyaKonno	0:158dbfb66e62	658
TetsuyaKonno	0:158dbfb66e62	659	//Lled_m_set Function
TetsuyaKonno	0:158dbfb66e62	660	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	661	void led_m_set( int set )
TetsuyaKonno	0:158dbfb66e62	662	{
TetsuyaKonno	0:158dbfb66e62	663	led_set = set;
TetsuyaKonno	0:158dbfb66e62	664	}
TetsuyaKonno	0:158dbfb66e62	665
TetsuyaKonno	0:158dbfb66e62	666	//led_m_process Function for only interrupt
TetsuyaKonno	0:158dbfb66e62	667	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	668	void led_m_process( void )
TetsuyaKonno	0:158dbfb66e62	669	{
TetsuyaKonno	0:158dbfb66e62	670	static unsigned long led_timer;
TetsuyaKonno	0:158dbfb66e62	671
TetsuyaKonno	0:158dbfb66e62	672	led_timer++;
TetsuyaKonno	0:158dbfb66e62	673
TetsuyaKonno	0:158dbfb66e62	674	/* Display */
TetsuyaKonno	0:158dbfb66e62	675	if( led_timer < led_data[led_set][1] ) led_rgb( led_data[led_set][0] );
TetsuyaKonno	0:158dbfb66e62	676	else if( led_timer < ( led_data[led_set][1] + led_data[led_set][2] ) ) led_rgb( LED_OFF );
TetsuyaKonno	0:158dbfb66e62	677	else led_timer = 0;
TetsuyaKonno	0:158dbfb66e62	678	}
TetsuyaKonno	0:158dbfb66e62	679
TetsuyaKonno	0:158dbfb66e62	680	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	681	// functions ( on Motor drive board )
TetsuyaKonno	0:158dbfb66e62	682	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	683	//led_out Function
TetsuyaKonno	0:158dbfb66e62	684	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	685	void led_out(int led)
TetsuyaKonno	0:158dbfb66e62	686	{
TetsuyaKonno	0:158dbfb66e62	687	led = ~led;
TetsuyaKonno	0:158dbfb66e62	688	LED_3 = led & 0x1;
TetsuyaKonno	0:158dbfb66e62	689	LED_2 = ( led >> 1 ) & 0x1;
TetsuyaKonno	0:158dbfb66e62	690	}
TetsuyaKonno	0:158dbfb66e62	691
TetsuyaKonno	0:158dbfb66e62	692	//pushsw_get Function
TetsuyaKonno	0:158dbfb66e62	693	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	694	unsigned int pushsw_get( void )
TetsuyaKonno	0:158dbfb66e62	695	{
TetsuyaKonno	0:158dbfb66e62	696	return (~push_sw) & 0x1; /* Read ports with switches */
TetsuyaKonno	0:158dbfb66e62	697	}
TetsuyaKonno	0:158dbfb66e62	698
TetsuyaKonno	0:158dbfb66e62	699	//motor speed control(PWM)
TetsuyaKonno	0:158dbfb66e62	700	//Arguments: motor:-100 to 100
TetsuyaKonno	0:158dbfb66e62	701	//Here, 0 is stop, 100 is forward, -100 is reverse
TetsuyaKonno	0:158dbfb66e62	702	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	703	void motor( int accele_l, int accele_r )
TetsuyaKonno	0:158dbfb66e62	704	{
TetsuyaKonno	0:158dbfb66e62	705	accele_l = ( accele_l * MAX_SPEED ) / 100;
TetsuyaKonno	0:158dbfb66e62	706	accele_r = ( accele_r * MAX_SPEED ) / 100;
TetsuyaKonno	0:158dbfb66e62	707
TetsuyaKonno	0:158dbfb66e62	708	/* Left Motor Control */
TetsuyaKonno	0:158dbfb66e62	709	if( accele_l >= 0 ) {
TetsuyaKonno	0:158dbfb66e62	710	/* forward */
TetsuyaKonno	0:158dbfb66e62	711	Left_motor_signal = 0;
TetsuyaKonno	0:158dbfb66e62	712	MTU2TGRC_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * accele_l / 100;
TetsuyaKonno	0:158dbfb66e62	713	} else {
TetsuyaKonno	0:158dbfb66e62	714	/* reverse */
TetsuyaKonno	0:158dbfb66e62	715	Left_motor_signal = 1;
TetsuyaKonno	0:158dbfb66e62	716	MTU2TGRC_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * ( -accele_l ) / 100;
TetsuyaKonno	0:158dbfb66e62	717	}
TetsuyaKonno	0:158dbfb66e62	718
TetsuyaKonno	0:158dbfb66e62	719	/* Right Motor Control */
TetsuyaKonno	0:158dbfb66e62	720	if( accele_r >= 0 ) {
TetsuyaKonno	0:158dbfb66e62	721	/* forward */
TetsuyaKonno	0:158dbfb66e62	722	Right_motor_signal = 0;
TetsuyaKonno	0:158dbfb66e62	723	MTU2TGRD_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * accele_r / 100;
TetsuyaKonno	0:158dbfb66e62	724	} else {
TetsuyaKonno	0:158dbfb66e62	725	/* reverse */
TetsuyaKonno	0:158dbfb66e62	726	Right_motor_signal = 1;
TetsuyaKonno	0:158dbfb66e62	727	MTU2TGRD_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * ( -accele_r ) / 100;
TetsuyaKonno	0:158dbfb66e62	728	}
TetsuyaKonno	0:158dbfb66e62	729	}
TetsuyaKonno	0:158dbfb66e62	730
TetsuyaKonno	0:158dbfb66e62	731	//handle Function
TetsuyaKonno	0:158dbfb66e62	732	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	733	void handle( int angle )
TetsuyaKonno	0:158dbfb66e62	734	{
TetsuyaKonno	0:158dbfb66e62	735	handle_buff = angle;
TetsuyaKonno	0:158dbfb66e62	736	/* When the servo move from left to right in reverse, replace "-" with "+" */
TetsuyaKonno	0:158dbfb66e62	737	MTU2TGRD_0 = SERVO_CENTER - angle * HANDLE_STEP;
TetsuyaKonno	0:158dbfb66e62	738	}
TetsuyaKonno	0:158dbfb66e62	739
TetsuyaKonno	0:158dbfb66e62	740	//diff Function
TetsuyaKonno	0:158dbfb66e62	741	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	742	int diff( int pwm )
TetsuyaKonno	0:158dbfb66e62	743	{
TetsuyaKonno	0:158dbfb66e62	744	int i, ret;
TetsuyaKonno	0:158dbfb66e62	745
TetsuyaKonno	0:158dbfb66e62	746	i = handle_buff;
TetsuyaKonno	0:158dbfb66e62	747	if( i < 0 ) i = -i;
TetsuyaKonno	0:158dbfb66e62	748	if( i > 45 ) i = 45;
TetsuyaKonno	0:158dbfb66e62	749	ret = revolution_difference[i] * pwm / 100;
TetsuyaKonno	0:158dbfb66e62	750
TetsuyaKonno	0:158dbfb66e62	751	return ret;
TetsuyaKonno	0:158dbfb66e62	752	}
TetsuyaKonno	0:158dbfb66e62	753
TetsuyaKonno	0:158dbfb66e62	754	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	755	// Image process functions
TetsuyaKonno	0:158dbfb66e62	756	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	757	//Image Data YCbCr -> Y(320240pix) -> Y(160120)
TetsuyaKonno	0:158dbfb66e62	758	//frame 0 : Top field
TetsuyaKonno	0:158dbfb66e62	759	//frame 1 : Bottom field
TetsuyaKonno	0:158dbfb66e62	760	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	761	void Image_Extraction( unsigned char buff_addr, unsigned char Data_Y, int frame )
TetsuyaKonno	0:158dbfb66e62	762	{
TetsuyaKonno	0:158dbfb66e62	763	static int Xp, Yp, inc, Data_Y_buff;
TetsuyaKonno	0:158dbfb66e62	764	static int counter = 0;
TetsuyaKonno	0:158dbfb66e62	765
TetsuyaKonno	0:158dbfb66e62	766	// Distributed processing
TetsuyaKonno	0:158dbfb66e62	767	switch( counter++ ) {
TetsuyaKonno	0:158dbfb66e62	768	case 0:
TetsuyaKonno	0:158dbfb66e62	769	for( Yp = frame, inc = 0; Yp < 120; Yp+=2 ){
TetsuyaKonno	0:158dbfb66e62	770	for( Xp = 0; Xp < 640; Xp+=4, inc++ ){
TetsuyaKonno	0:158dbfb66e62	771	Data_Y_buff = (int)buff_addr[(Xp+0)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	772	Data_Y_buff += (int)buff_addr[(Xp+2)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	773	Data_Y[inc] = Data_Y_buff >> 1;
TetsuyaKonno	0:158dbfb66e62	774	}
TetsuyaKonno	0:158dbfb66e62	775	}
TetsuyaKonno	0:158dbfb66e62	776	break;
TetsuyaKonno	0:158dbfb66e62	777	case 1:
TetsuyaKonno	0:158dbfb66e62	778	for( /* None */ ; Yp < 240; Yp+=2 ){
TetsuyaKonno	0:158dbfb66e62	779	for( Xp = 0; Xp < 640; Xp+=4, inc++ ){
TetsuyaKonno	0:158dbfb66e62	780	Data_Y_buff = (int)buff_addr[(Xp+0)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	781	Data_Y_buff += (int)buff_addr[(Xp+2)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	782	Data_Y[inc] = Data_Y_buff >> 1;
TetsuyaKonno	0:158dbfb66e62	783	}
TetsuyaKonno	0:158dbfb66e62	784	}
TetsuyaKonno	0:158dbfb66e62	785	counter = 0;
TetsuyaKonno	0:158dbfb66e62	786	break;
TetsuyaKonno	0:158dbfb66e62	787	default:
TetsuyaKonno	0:158dbfb66e62	788	break;
TetsuyaKonno	0:158dbfb66e62	789	}
TetsuyaKonno	0:158dbfb66e62	790	}
TetsuyaKonno	0:158dbfb66e62	791
TetsuyaKonno	0:158dbfb66e62	792	//Image_Reduction Function ( Averaging processing )
TetsuyaKonno	0:158dbfb66e62	793	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	794	void Image_Reduction( unsigned char Data_Y, int Data_W , unsigned char Comp_Y, int Comp_M )
TetsuyaKonno	0:158dbfb66e62	795	{
TetsuyaKonno	0:158dbfb66e62	796	int Data_H, Pixel_T, Pixel_D;
TetsuyaKonno	0:158dbfb66e62	797	int x, y;
TetsuyaKonno	0:158dbfb66e62	798	static int Xp, Yp, inc;
TetsuyaKonno	0:158dbfb66e62	799	static int counter = 0;
TetsuyaKonno	0:158dbfb66e62	800
TetsuyaKonno	0:158dbfb66e62	801	Data_H = (Data_W / (double)4) * 3;
TetsuyaKonno	0:158dbfb66e62	802	Pixel_D = Comp_M * Comp_M;
TetsuyaKonno	0:158dbfb66e62	803
TetsuyaKonno	0:158dbfb66e62	804	switch( counter++ ) {
TetsuyaKonno	0:158dbfb66e62	805	case 0:
TetsuyaKonno	0:158dbfb66e62	806	for( Yp = 0, inc = 0; Yp < ( Data_H / 2); Yp+=Comp_M ){
TetsuyaKonno	0:158dbfb66e62	807	for( Xp = 0; Xp < Data_W; Xp+=Comp_M, inc++ ){
TetsuyaKonno	0:158dbfb66e62	808	Pixel_T = 0;
TetsuyaKonno	0:158dbfb66e62	809	for( y = 0; y < Comp_M; y++ ){
TetsuyaKonno	0:158dbfb66e62	810	for( x = 0; x < Comp_M; x++ ){
TetsuyaKonno	0:158dbfb66e62	811	Pixel_T += Data_Y[( Xp + x ) + (( Yp + y ) * Data_W )];
TetsuyaKonno	0:158dbfb66e62	812	}
TetsuyaKonno	0:158dbfb66e62	813	}
TetsuyaKonno	0:158dbfb66e62	814	Comp_Y[inc] = Pixel_T / Pixel_D;
TetsuyaKonno	0:158dbfb66e62	815	}
TetsuyaKonno	0:158dbfb66e62	816	}
TetsuyaKonno	0:158dbfb66e62	817	break;
TetsuyaKonno	0:158dbfb66e62	818	case 1:
TetsuyaKonno	0:158dbfb66e62	819	for( /* None */ ; Yp < Data_H ; Yp+=Comp_M ){
TetsuyaKonno	0:158dbfb66e62	820	for( Xp = 0; Xp < Data_W; Xp+=Comp_M, inc++ ){
TetsuyaKonno	0:158dbfb66e62	821	Pixel_T = 0;
TetsuyaKonno	0:158dbfb66e62	822	for( y = 0; y < Comp_M; y++ ){
TetsuyaKonno	0:158dbfb66e62	823	for( x = 0; x < Comp_M; x++ ){
TetsuyaKonno	0:158dbfb66e62	824	Pixel_T += Data_Y[( Xp + x ) + (( Yp + y ) * Data_W )];
TetsuyaKonno	0:158dbfb66e62	825	}
TetsuyaKonno	0:158dbfb66e62	826	}
TetsuyaKonno	0:158dbfb66e62	827	Comp_Y[inc] = Pixel_T / Pixel_D;
TetsuyaKonno	0:158dbfb66e62	828	}
TetsuyaKonno	0:158dbfb66e62	829	}
TetsuyaKonno	0:158dbfb66e62	830	counter = 0;
TetsuyaKonno	0:158dbfb66e62	831	break;
TetsuyaKonno	0:158dbfb66e62	832	default:
TetsuyaKonno	0:158dbfb66e62	833	break;
TetsuyaKonno	0:158dbfb66e62	834	}
TetsuyaKonno	0:158dbfb66e62	835	}
TetsuyaKonno	0:158dbfb66e62	836
TetsuyaKonno	0:158dbfb66e62	837	// Binarization_process Function
TetsuyaKonno	0:158dbfb66e62	838	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	839	void Binarization_process( unsigned char Comp_Y, unsigned char Binary, long items, int threshold )
TetsuyaKonno	0:158dbfb66e62	840	{
TetsuyaKonno	0:158dbfb66e62	841	int i;
TetsuyaKonno	0:158dbfb66e62	842
TetsuyaKonno	0:158dbfb66e62	843	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	844	if( Comp_Y[i] >= threshold ) Binary[i] = 1;
TetsuyaKonno	0:158dbfb66e62	845	else Binary[i] = 0;
TetsuyaKonno	0:158dbfb66e62	846	}
TetsuyaKonno	0:158dbfb66e62	847	}
TetsuyaKonno	0:158dbfb66e62	848
TetsuyaKonno	0:158dbfb66e62	849	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	850	// digital sensor functions
TetsuyaKonno	0:158dbfb66e62	851	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	852	//CenterLine_Corrective Function ( image size 20*15pix )
TetsuyaKonno	0:158dbfb66e62	853	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	854	int CenterLine_Corrective( unsigned char *Binary )
TetsuyaKonno	0:158dbfb66e62	855	{
TetsuyaKonno	0:158dbfb66e62	856	#define L 0
TetsuyaKonno	0:158dbfb66e62	857	#define R 1
TetsuyaKonno	0:158dbfb66e62	858
TetsuyaKonno	0:158dbfb66e62	859	int iRet, offset_X, offset_Y;
TetsuyaKonno	0:158dbfb66e62	860	int Xpix, X;
TetsuyaKonno	0:158dbfb66e62	861	int Ypix;
TetsuyaKonno	0:158dbfb66e62	862	int Pixel_diff[2];
TetsuyaKonno	0:158dbfb66e62	863	int Error_cnt;
TetsuyaKonno	0:158dbfb66e62	864	int value;
TetsuyaKonno	0:158dbfb66e62	865
TetsuyaKonno	0:158dbfb66e62	866	/* Center of image */
TetsuyaKonno	0:158dbfb66e62	867	offset_X = 6;
TetsuyaKonno	0:158dbfb66e62	868	offset_Y = 12;
TetsuyaKonno	0:158dbfb66e62	869
TetsuyaKonno	0:158dbfb66e62	870	/* corrective of center line */
TetsuyaKonno	0:158dbfb66e62	871	for( Ypix = 0, Error_cnt = 0; Ypix < (offset_Y - 4); Ypix++ ) {
TetsuyaKonno	0:158dbfb66e62	872	for( value = 0; value < 2; value++ ) {
TetsuyaKonno	0:158dbfb66e62	873	for( Xpix = offset_X; Xpix < (offset_X + 8); Xpix++ ) {
TetsuyaKonno	0:158dbfb66e62	874	/* Lift side */
TetsuyaKonno	0:158dbfb66e62	875	Pixel_diff[L] = 0;
TetsuyaKonno	0:158dbfb66e62	876	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + Xpix ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	877	for( X = Xpix; X > (Xpix - 4); X-- ) {
TetsuyaKonno	0:158dbfb66e62	878	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + X ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	879	Pixel_diff[L]++;
TetsuyaKonno	0:158dbfb66e62	880	} else {
TetsuyaKonno	0:158dbfb66e62	881	break;
TetsuyaKonno	0:158dbfb66e62	882	}
TetsuyaKonno	0:158dbfb66e62	883	}
TetsuyaKonno	0:158dbfb66e62	884	} else {
TetsuyaKonno	0:158dbfb66e62	885	Pixel_diff[L] = -1;
TetsuyaKonno	0:158dbfb66e62	886	}
TetsuyaKonno	0:158dbfb66e62	887	/* Right side */
TetsuyaKonno	0:158dbfb66e62	888	Pixel_diff[R] = 0;
TetsuyaKonno	0:158dbfb66e62	889	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + (Xpix + 1) ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	890	for( X = (Xpix + 1); X < ((Xpix + 1) + 4); X++ ) {
TetsuyaKonno	0:158dbfb66e62	891	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + X ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	892	Pixel_diff[R]++;
TetsuyaKonno	0:158dbfb66e62	893	} else {
TetsuyaKonno	0:158dbfb66e62	894	break;
TetsuyaKonno	0:158dbfb66e62	895	}
TetsuyaKonno	0:158dbfb66e62	896	}
TetsuyaKonno	0:158dbfb66e62	897	} else {
TetsuyaKonno	0:158dbfb66e62	898	Pixel_diff[R] = 1;
TetsuyaKonno	0:158dbfb66e62	899	}
TetsuyaKonno	0:158dbfb66e62	900	/* check */
TetsuyaKonno	0:158dbfb66e62	901	iRet = Pixel_diff[L] - Pixel_diff[R];
TetsuyaKonno	0:158dbfb66e62	902	if( value >= iRet && iRet >= -value ) {
TetsuyaKonno	0:158dbfb66e62	903	break;
TetsuyaKonno	0:158dbfb66e62	904	}
TetsuyaKonno	0:158dbfb66e62	905	}
TetsuyaKonno	0:158dbfb66e62	906	if( value >= iRet && iRet >= -value ) {
TetsuyaKonno	0:158dbfb66e62	907	/* X coordinate */
TetsuyaKonno	0:158dbfb66e62	908	Sensor_X[Ypix][2] = Xpix;
TetsuyaKonno	0:158dbfb66e62	909	Sensor_X[Ypix][3] = Xpix + 1;
TetsuyaKonno	0:158dbfb66e62	910	break;
TetsuyaKonno	0:158dbfb66e62	911	} else {
TetsuyaKonno	0:158dbfb66e62	912	Sensor_X[Ypix][2] = Sensor_X[Ypix][3] = -1;
TetsuyaKonno	0:158dbfb66e62	913	Error_cnt++;
TetsuyaKonno	0:158dbfb66e62	914	}
TetsuyaKonno	0:158dbfb66e62	915	}
TetsuyaKonno	0:158dbfb66e62	916	/* Left side sensor */
TetsuyaKonno	0:158dbfb66e62	917	Sensor_X[Ypix][1] = Sensor_X[Ypix][2] - ( Pixel_diff[L] );
TetsuyaKonno	0:158dbfb66e62	918	Sensor_X[Ypix][0] = Sensor_X[Ypix][1] - ( Pixel_diff[L] + 1 );//( Sensor_X[Ypix][2] - Sensor_X[Ypix][1] );
TetsuyaKonno	0:158dbfb66e62	919	/* Right side sensor */
TetsuyaKonno	0:158dbfb66e62	920	Sensor_X[Ypix][4] = Sensor_X[Ypix][3] + ( Pixel_diff[R] );
TetsuyaKonno	0:158dbfb66e62	921	Sensor_X[Ypix][5] = Sensor_X[Ypix][4] + ( Pixel_diff[R] + 1 );//( Sensor_X[Ypix][4] - Sensor_X[Ypix][3] );
TetsuyaKonno	0:158dbfb66e62	922	}
TetsuyaKonno	0:158dbfb66e62	923	return Error_cnt;
TetsuyaKonno	0:158dbfb66e62	924	}
TetsuyaKonno	0:158dbfb66e62	925
TetsuyaKonno	0:158dbfb66e62	926	//digital_sensor_process Function
TetsuyaKonno	0:158dbfb66e62	927	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	928	void digital_sensor_process( unsigned char *Binary )
TetsuyaKonno	0:158dbfb66e62	929	{
TetsuyaKonno	0:158dbfb66e62	930	int Ypix;
TetsuyaKonno	0:158dbfb66e62	931	int offset_Y;
TetsuyaKonno	0:158dbfb66e62	932	unsigned char sensor, data;
TetsuyaKonno	0:158dbfb66e62	933
TetsuyaKonno	0:158dbfb66e62	934	offset_Y = 12;
TetsuyaKonno	0:158dbfb66e62	935	sensor = 0;
TetsuyaKonno	0:158dbfb66e62	936
TetsuyaKonno	0:158dbfb66e62	937	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][2] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	938	data \|= Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][3] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	939	sensor \|= (data << 4) & 0x10;
TetsuyaKonno	0:158dbfb66e62	940	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][0] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	941	sensor \|= (data << 3) & 0x08;
TetsuyaKonno	0:158dbfb66e62	942	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][1] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	943	sensor \|= (data << 2) & 0x04;
TetsuyaKonno	0:158dbfb66e62	944	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][4] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	945	sensor \|= (data << 1) & 0x02;
TetsuyaKonno	0:158dbfb66e62	946	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][5] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	947	sensor \|= (data << 0) & 0x01;
TetsuyaKonno	0:158dbfb66e62	948	sensor &= 0x1f;
TetsuyaKonno	0:158dbfb66e62	949	sensor_value = sensor;
TetsuyaKonno	0:158dbfb66e62	950	}
TetsuyaKonno	0:158dbfb66e62	951
TetsuyaKonno	0:158dbfb66e62	952	//digital_sensor Function
TetsuyaKonno	0:158dbfb66e62	953	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	954	unsigned char digital_sensor( void )
TetsuyaKonno	0:158dbfb66e62	955	{
TetsuyaKonno	0:158dbfb66e62	956	return sensor_value;
TetsuyaKonno	0:158dbfb66e62	957	}
TetsuyaKonno	0:158dbfb66e62	958
TetsuyaKonno	0:158dbfb66e62	959	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	960	// Mark detect functions
TetsuyaKonno	0:158dbfb66e62	961	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	962	// Extract_Image
TetsuyaKonno	0:158dbfb66e62	963	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	964	void Image_part_Extraction( unsigned char Binary, int Width, int Xpix, int Ypix, unsigned char Data_B, int x_size, int y_size )
TetsuyaKonno	0:158dbfb66e62	965	{
TetsuyaKonno	0:158dbfb66e62	966	int x, y;
TetsuyaKonno	0:158dbfb66e62	967	for( y = 0; y < y_size; y++ ) {
TetsuyaKonno	0:158dbfb66e62	968	for( x = 0; x < x_size; x++ ) {
TetsuyaKonno	0:158dbfb66e62	969	Data_B[ x + ( y * x_size ) ] = Binary[ (Xpix + x) + ( (Ypix + y) * Width ) ];
TetsuyaKonno	0:158dbfb66e62	970	}
TetsuyaKonno	0:158dbfb66e62	971	}
TetsuyaKonno	0:158dbfb66e62	972	}
TetsuyaKonno	0:158dbfb66e62	973
TetsuyaKonno	0:158dbfb66e62	974	// Standard deviation
TetsuyaKonno	0:158dbfb66e62	975	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	976	double Standard_Deviation( unsigned char data, double Devi, int items )
TetsuyaKonno	0:158dbfb66e62	977	{
TetsuyaKonno	0:158dbfb66e62	978	int i;
TetsuyaKonno	0:158dbfb66e62	979	double iRet_A, iRet_C, iRet_D;
TetsuyaKonno	0:158dbfb66e62	980
TetsuyaKonno	0:158dbfb66e62	981	/* A 合計値　平均化 */
TetsuyaKonno	0:158dbfb66e62	982	iRet_A = 0;
TetsuyaKonno	0:158dbfb66e62	983	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	984	iRet_A += data[i];
TetsuyaKonno	0:158dbfb66e62	985	}
TetsuyaKonno	0:158dbfb66e62	986	iRet_A /= items;
TetsuyaKonno	0:158dbfb66e62	987
TetsuyaKonno	0:158dbfb66e62	988	/* B 偏差値 */
TetsuyaKonno	0:158dbfb66e62	989	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	990	Devi[i] = data[i] - iRet_A;
TetsuyaKonno	0:158dbfb66e62	991	}
TetsuyaKonno	0:158dbfb66e62	992
TetsuyaKonno	0:158dbfb66e62	993	/* C 分散 */
TetsuyaKonno	0:158dbfb66e62	994	iRet_C = 0;
TetsuyaKonno	0:158dbfb66e62	995	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	996	iRet_C += ( Devi[i] * Devi[i] );
TetsuyaKonno	0:158dbfb66e62	997	}
TetsuyaKonno	0:158dbfb66e62	998	iRet_C /= items;
TetsuyaKonno	0:158dbfb66e62	999
TetsuyaKonno	0:158dbfb66e62	1000	/* D 標準偏差 */
TetsuyaKonno	0:158dbfb66e62	1001	iRet_D = sqrt( iRet_C );
TetsuyaKonno	0:158dbfb66e62	1002
TetsuyaKonno	0:158dbfb66e62	1003	return iRet_D;
TetsuyaKonno	0:158dbfb66e62	1004	}
TetsuyaKonno	0:158dbfb66e62	1005
TetsuyaKonno	0:158dbfb66e62	1006	// Covariance
TetsuyaKonno	0:158dbfb66e62	1007	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1008	double Covariance( double Devi_A, double Devi_B, int items )
TetsuyaKonno	0:158dbfb66e62	1009	{
TetsuyaKonno	0:158dbfb66e62	1010	int i;
TetsuyaKonno	0:158dbfb66e62	1011	double iRet, iRet_buff;
TetsuyaKonno	0:158dbfb66e62	1012
TetsuyaKonno	0:158dbfb66e62	1013	iRet = 0;
TetsuyaKonno	0:158dbfb66e62	1014	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	1015	iRet_buff = Devi_A[i] * Devi_B[i];
TetsuyaKonno	0:158dbfb66e62	1016	iRet += iRet_buff;
TetsuyaKonno	0:158dbfb66e62	1017	}
TetsuyaKonno	0:158dbfb66e62	1018	iRet /= items;
TetsuyaKonno	0:158dbfb66e62	1019
TetsuyaKonno	0:158dbfb66e62	1020	return iRet;
TetsuyaKonno	0:158dbfb66e62	1021	}
TetsuyaKonno	0:158dbfb66e62	1022
TetsuyaKonno	0:158dbfb66e62	1023	// Judgement_ImageMatching
TetsuyaKonno	0:158dbfb66e62	1024	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1025	int Judgement_ImageMatching( double covari, double SDevi_A, double SDevi_B )
TetsuyaKonno	0:158dbfb66e62	1026	{
TetsuyaKonno	0:158dbfb66e62	1027	int iRet;
TetsuyaKonno	0:158dbfb66e62	1028
TetsuyaKonno	0:158dbfb66e62	1029	iRet = ( covari * 100 ) / ( SDevi_A * SDevi_B );
TetsuyaKonno	0:158dbfb66e62	1030
TetsuyaKonno	0:158dbfb66e62	1031	return iRet;
TetsuyaKonno	0:158dbfb66e62	1032	}
TetsuyaKonno	0:158dbfb66e62	1033
TetsuyaKonno	0:158dbfb66e62	1034	// MarkDetect_process_T
TetsuyaKonno	0:158dbfb66e62	1035	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1036	void MarkDetect_process_T( void )
TetsuyaKonno	0:158dbfb66e62	1037	{
TetsuyaKonno	0:158dbfb66e62	1038	int x, y;
TetsuyaKonno	0:158dbfb66e62	1039
TetsuyaKonno	0:158dbfb66e62	1040	retJudgeIM_Max[0] = 0;
TetsuyaKonno	0:158dbfb66e62	1041	for( y = 0; y <= 12; y++ ) {
TetsuyaKonno	0:158dbfb66e62	1042	for( x = 0; x <= 15; x++ ) {
TetsuyaKonno	0:158dbfb66e62	1043	Image_part_Extraction( ImageBinary, 20, x, y, NowImageBinary, 5, 3 );
TetsuyaKonno	0:158dbfb66e62	1044	retDevi = Standard_Deviation( NowImageBinary, NowDevi, 15 );
TetsuyaKonno	0:158dbfb66e62	1045	retCovari = Covariance( TempDevi_Triangle, NowDevi, 15 );
TetsuyaKonno	0:158dbfb66e62	1046	retJudgeIM = 0;
TetsuyaKonno	0:158dbfb66e62	1047	retJudgeIM = Judgement_ImageMatching( retCovari, retDevi_Triangle, retDevi );
TetsuyaKonno	0:158dbfb66e62	1048	if( 100 >= retJudgeIM && retJudgeIM > retJudgeIM_Max[0] ) {
TetsuyaKonno	0:158dbfb66e62	1049	Xt = x;
TetsuyaKonno	0:158dbfb66e62	1050	Yt = y;
TetsuyaKonno	0:158dbfb66e62	1051	retJudgeIM_Max[0] = retJudgeIM;
TetsuyaKonno	0:158dbfb66e62	1052	}
TetsuyaKonno	0:158dbfb66e62	1053	}
TetsuyaKonno	0:158dbfb66e62	1054	}
TetsuyaKonno	0:158dbfb66e62	1055	}
TetsuyaKonno	0:158dbfb66e62	1056
TetsuyaKonno	0:158dbfb66e62	1057	// MarkCheck Triangle detection
TetsuyaKonno	0:158dbfb66e62	1058	// Return values: 0: no triangle mark, 1: Triangle mark
TetsuyaKonno	0:158dbfb66e62	1059	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1060	int MarkCheck_Triangle( int percentage )
TetsuyaKonno	0:158dbfb66e62	1061	{
TetsuyaKonno	0:158dbfb66e62	1062	int ret;
TetsuyaKonno	0:158dbfb66e62	1063
TetsuyaKonno	0:158dbfb66e62	1064	ret = 0;
TetsuyaKonno	0:158dbfb66e62	1065	if( retJudgeIM_Max[0] >= percentage ) {
TetsuyaKonno	0:158dbfb66e62	1066	ret = 1;
TetsuyaKonno	0:158dbfb66e62	1067	}
TetsuyaKonno	0:158dbfb66e62	1068
TetsuyaKonno	0:158dbfb66e62	1069	return ret;
TetsuyaKonno	0:158dbfb66e62	1070	}
TetsuyaKonno	0:158dbfb66e62	1071
TetsuyaKonno	0:158dbfb66e62	1072	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	1073	// Debug functions
TetsuyaKonno	0:158dbfb66e62	1074	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	1075	//Image Data Output( for the Excel )
TetsuyaKonno	0:158dbfb66e62	1076	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1077	void ImageData_Serial_Out( unsigned char *Data_Y, int Width )
TetsuyaKonno	0:158dbfb66e62	1078	{
TetsuyaKonno	0:158dbfb66e62	1079	int Xp, Yp, inc, Height;
TetsuyaKonno	0:158dbfb66e62	1080
TetsuyaKonno	0:158dbfb66e62	1081	Height = (Width / (double)4) * 3;
TetsuyaKonno	0:158dbfb66e62	1082	for( Yp = 0, inc = 0; Yp < Height; Yp++ ) {
TetsuyaKonno	0:158dbfb66e62	1083	for( Xp = 0; Xp < Width; Xp++, inc++ ) {
TetsuyaKonno	0:158dbfb66e62	1084	pc.printf( "%d,", Data_Y[ inc ] );
TetsuyaKonno	0:158dbfb66e62	1085	}
TetsuyaKonno	0:158dbfb66e62	1086	pc.printf("\n\r");
TetsuyaKonno	0:158dbfb66e62	1087	}
TetsuyaKonno	0:158dbfb66e62	1088	}
TetsuyaKonno	0:158dbfb66e62	1089
TetsuyaKonno	0:158dbfb66e62	1090	//Image Data Output2( for TeraTerm )
TetsuyaKonno	0:158dbfb66e62	1091	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1092	void ImageData_Serial_Out2( unsigned char *Data_Y, int Width )
TetsuyaKonno	0:158dbfb66e62	1093	{
TetsuyaKonno	0:158dbfb66e62	1094	int Xp, Yp, Height;
TetsuyaKonno	0:158dbfb66e62	1095
TetsuyaKonno	0:158dbfb66e62	1096	Height = (Width / (double)4) * 3;
TetsuyaKonno	0:158dbfb66e62	1097	for( Yp = 0; Yp < Height; Yp++ ) {
TetsuyaKonno	0:158dbfb66e62	1098	for( Xp = 0; Xp < Width; Xp++ ) {
TetsuyaKonno	0:158dbfb66e62	1099	pc.printf( "%d ", Data_Y[Xp + (Yp * Width)] );
TetsuyaKonno	0:158dbfb66e62	1100	}
TetsuyaKonno	0:158dbfb66e62	1101	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	1102	}
TetsuyaKonno	0:158dbfb66e62	1103
TetsuyaKonno	0:158dbfb66e62	1104	//Add display
TetsuyaKonno	0:158dbfb66e62	1105	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	1106	pc.printf( "sensor_inp = 0x%02x\n\r", digital_sensor() );
TetsuyaKonno	0:158dbfb66e62	1107	pc.printf( "T = %3d%% %01d X=%2d Y=%2d\n\r", retJudgeIM_Max[0], MarkCheck_Triangle( 90 ), Xt, Yt );
TetsuyaKonno	0:158dbfb66e62	1108	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	1109	Height += 4;
TetsuyaKonno	0:158dbfb66e62	1110
TetsuyaKonno	0:158dbfb66e62	1111	pc.printf( "\033[%dA" , Height );
TetsuyaKonno	0:158dbfb66e62	1112	}
TetsuyaKonno	0:158dbfb66e62	1113
TetsuyaKonno	0:158dbfb66e62	1114	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1115	// End of file
TetsuyaKonno	0:158dbfb66e62	1116	//------------------------------------------------------------------//

Repository toolbox

Export to desktop IDE

Build repository

Repository details

Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	22 Sep 2016
Imports:	137
Forks:	2
Commits:	2
Dependents:	0
Dependencies:	2
Followers:	27

The code in this repository is Apache licensed.

main.cpp@1:4a94c87a7d04, 2017-01-10 (annotated)

Who changed what in which revision?

Repository toolbox

Repository details

Important Information for this Arm website

Access Warning