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osaboh / Mbed 2 deprecated TraceMark_Program_60fps

Forked from upstream.

Fork of TraceMark_Program_60fps by Micon Car Rally

main.cpp@2:dd32c5987b14, 2017-01-14 (annotated)

Committer:: osaboh
Date:: Sat Jan 14 07:17:19 2017 +0000
Revision:: 2:dd32c5987b14
Parent:: 1:4a94c87a7d04

Fix: bug; ; 1. add 'break' to switch of right side; 2. add comment for attention.

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;
osaboh	2:dd32c5987b14	423	break;
TetsuyaKonno	0:158dbfb66e62	424	}
TetsuyaKonno	0:158dbfb66e62	425	switch( (digital_sensor()&0x0f) ) {
TetsuyaKonno	0:158dbfb66e62	426	case 0x08:
TetsuyaKonno	0:158dbfb66e62	427	handle( -20 );
TetsuyaKonno	0:158dbfb66e62	428	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	429	break;
TetsuyaKonno	0:158dbfb66e62	430	case 0x00:
TetsuyaKonno	0:158dbfb66e62	431	case 0x01:
TetsuyaKonno	0:158dbfb66e62	432	case 0x03:
TetsuyaKonno	0:158dbfb66e62	433	handle( -22 );
TetsuyaKonno	0:158dbfb66e62	434	motor( diff(100), 100 );
TetsuyaKonno	0:158dbfb66e62	435	break;
TetsuyaKonno	0:158dbfb66e62	436	default:
TetsuyaKonno	0:158dbfb66e62	437	break;
TetsuyaKonno	0:158dbfb66e62	438	}
TetsuyaKonno	0:158dbfb66e62	439	break;
TetsuyaKonno	0:158dbfb66e62	440
TetsuyaKonno	0:158dbfb66e62	441	case 91:
TetsuyaKonno	0:158dbfb66e62	442	/* Stop */
TetsuyaKonno	0:158dbfb66e62	443	handle( 0 );
TetsuyaKonno	0:158dbfb66e62	444	motor( 0, 0 );
TetsuyaKonno	0:158dbfb66e62	445	break;
TetsuyaKonno	0:158dbfb66e62	446
TetsuyaKonno	0:158dbfb66e62	447	default:
TetsuyaKonno	0:158dbfb66e62	448	break;
TetsuyaKonno	0:158dbfb66e62	449	}
TetsuyaKonno	0:158dbfb66e62	450	}
TetsuyaKonno	0:158dbfb66e62	451	}
TetsuyaKonno	0:158dbfb66e62	452
TetsuyaKonno	0:158dbfb66e62	453	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	454	// Initialize functions
TetsuyaKonno	0:158dbfb66e62	455	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	456	//Initialize MTU2 PWM functions
TetsuyaKonno	0:158dbfb66e62	457	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	458	//MTU2_3, MTU2_4
TetsuyaKonno	0:158dbfb66e62	459	//Reset-Synchronized PWM mode
TetsuyaKonno	0:158dbfb66e62	460	//TIOC4A(P4_4) :Left-motor
TetsuyaKonno	0:158dbfb66e62	461	//TIOC4B(P4_5) :Right-motor
TetsuyaKonno	0:158dbfb66e62	462	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	463	void init_MTU2_PWM_Motor( void )
TetsuyaKonno	0:158dbfb66e62	464	{
TetsuyaKonno	0:158dbfb66e62	465	/* Port setting for S/W I/O Contorol */
TetsuyaKonno	0:158dbfb66e62	466	/* alternative mode */
TetsuyaKonno	0:158dbfb66e62	467
TetsuyaKonno	0:158dbfb66e62	468	/* MTU2_4 (P4_4)(P4_5) */
TetsuyaKonno	0:158dbfb66e62	469	GPIOPBDC4 = 0x0000; /* Bidirection mode disabled*/
TetsuyaKonno	0:158dbfb66e62	470	GPIOPFCAE4 &= 0xffcf; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	471	GPIOPFCE4 \|= 0x0030; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	472	GPIOPFC4 &= 0xffcf; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	473	/* 2nd altemative function/output */
TetsuyaKonno	0:158dbfb66e62	474	GPIOP4 &= 0xffcf; /* */
TetsuyaKonno	0:158dbfb66e62	475	GPIOPM4 &= 0xffcf; /* p4_4,P4_5:output */
TetsuyaKonno	0:158dbfb66e62	476	GPIOPMC4 \|= 0x0030; /* P4_4,P4_5:double */
TetsuyaKonno	0:158dbfb66e62	477
TetsuyaKonno	0:158dbfb66e62	478	/* Mosule stop 33(MTU2) canceling */
TetsuyaKonno	0:158dbfb66e62	479	CPGSTBCR3 &= 0xf7;
TetsuyaKonno	0:158dbfb66e62	480
TetsuyaKonno	0:158dbfb66e62	481	/* MTU2_3 and MTU2_4 (Motor PWM) */
TetsuyaKonno	0:158dbfb66e62	482	MTU2TCR_3 = 0x20; /* TCNT Clear(TGRA), P0φ/1 */
TetsuyaKonno	0:158dbfb66e62	483	MTU2TOCR1 = 0x04; /* */
TetsuyaKonno	0:158dbfb66e62	484	MTU2TOCR2 = 0x40; /* N L>H P H>L */
TetsuyaKonno	0:158dbfb66e62	485	MTU2TMDR_3 = 0x38; /* Buff:ON Reset-Synchronized PWM mode */
TetsuyaKonno	0:158dbfb66e62	486	MTU2TMDR_4 = 0x30; /* Buff:ON */
TetsuyaKonno	0:158dbfb66e62	487	MTU2TOER = 0xc6; /* TIOC3B,4A,4B enabled output */
TetsuyaKonno	0:158dbfb66e62	488	MTU2TCNT_3 = MTU2TCNT_4 = 0; /* TCNT3,TCNT4 Set 0 */
TetsuyaKonno	0:158dbfb66e62	489	MTU2TGRA_3 = MTU2TGRC_3 = MOTOR_PWM_CYCLE;
TetsuyaKonno	0:158dbfb66e62	490	/* PWM-Cycle(1ms) */
TetsuyaKonno	0:158dbfb66e62	491	MTU2TGRA_4 = MTU2TGRC_4 = 0; /* Left-motor(P4_4) */
TetsuyaKonno	0:158dbfb66e62	492	MTU2TGRB_4 = MTU2TGRD_4 = 0; /* Right-motor(P4_5) */
TetsuyaKonno	0:158dbfb66e62	493	MTU2TSTR \|= 0x40; /* TCNT_4 Start */
TetsuyaKonno	0:158dbfb66e62	494	}
TetsuyaKonno	0:158dbfb66e62	495
TetsuyaKonno	0:158dbfb66e62	496	//Initialize MTU2 PWM functions
TetsuyaKonno	0:158dbfb66e62	497	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	498	//MTU2_0
TetsuyaKonno	0:158dbfb66e62	499	//PWM mode 1
TetsuyaKonno	0:158dbfb66e62	500	//TIOC0A(P4_0) :Servo-motor
TetsuyaKonno	0:158dbfb66e62	501	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	502	void init_MTU2_PWM_Servo( void )
TetsuyaKonno	0:158dbfb66e62	503	{
TetsuyaKonno	0:158dbfb66e62	504	/* Port setting for S/W I/O Contorol */
TetsuyaKonno	0:158dbfb66e62	505	/* alternative mode */
TetsuyaKonno	0:158dbfb66e62	506
TetsuyaKonno	0:158dbfb66e62	507	/* MTU2_0 (P4_0) */
TetsuyaKonno	0:158dbfb66e62	508	GPIOPBDC4 = 0x0000; /* Bidirection mode disabled*/
TetsuyaKonno	0:158dbfb66e62	509	GPIOPFCAE4 &= 0xfffe; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	510	GPIOPFCE4 &= 0xfffe; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	511	GPIOPFC4 \|= 0x0001; /* The alternative function of a pin */
TetsuyaKonno	0:158dbfb66e62	512	/* 2nd alternative function/output */
TetsuyaKonno	0:158dbfb66e62	513	GPIOP4 &= 0xfffe; /* */
TetsuyaKonno	0:158dbfb66e62	514	GPIOPM4 &= 0xfffe; /* p4_0:output */
TetsuyaKonno	0:158dbfb66e62	515	GPIOPMC4 \|= 0x0001; /* P4_0:double */
TetsuyaKonno	0:158dbfb66e62	516
TetsuyaKonno	0:158dbfb66e62	517	/* Mosule stop 33(MTU2) canceling */
TetsuyaKonno	0:158dbfb66e62	518	CPGSTBCR3 &= 0xf7;
TetsuyaKonno	0:158dbfb66e62	519
TetsuyaKonno	0:158dbfb66e62	520	/* MTU2_0 (Motor PWM) */
TetsuyaKonno	0:158dbfb66e62	521	MTU2TCR_0 = 0x22; /* TCNT Clear(TGRA), P0φ/16 */
TetsuyaKonno	0:158dbfb66e62	522	MTU2TIORH_0 = 0x52; /* TGRA L>H, TGRB H>L */
TetsuyaKonno	0:158dbfb66e62	523	MTU2TMDR_0 = 0x32; /* TGRC and TGRD = Buff-mode*/
TetsuyaKonno	0:158dbfb66e62	524	/* PWM-mode1 */
TetsuyaKonno	0:158dbfb66e62	525	MTU2TCNT_0 = 0; /* TCNT0 Set 0 */
TetsuyaKonno	0:158dbfb66e62	526	MTU2TGRA_0 = MTU2TGRC_0 = SERVO_PWM_CYCLE;
TetsuyaKonno	0:158dbfb66e62	527	/* PWM-Cycle(16ms) */
TetsuyaKonno	0:158dbfb66e62	528	MTU2TGRB_0 = MTU2TGRD_0 = 0; /* Servo-motor(P4_0) */
TetsuyaKonno	0:158dbfb66e62	529	MTU2TSTR \|= 0x01; /* TCNT_0 Start */
TetsuyaKonno	0:158dbfb66e62	530	}
TetsuyaKonno	0:158dbfb66e62	531
TetsuyaKonno	0:158dbfb66e62	532	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	533	// @brief Interrupt callback function
TetsuyaKonno	0:158dbfb66e62	534	// @param[in] int_type : VDC5 interrupt type
TetsuyaKonno	0:158dbfb66e62	535	// @retval None
TetsuyaKonno	0:158dbfb66e62	536	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	537	static void IntCallbackFunc_Vfield(DisplayBase::int_type_t int_type)
TetsuyaKonno	0:158dbfb66e62	538	{
TetsuyaKonno	0:158dbfb66e62	539	if (vfield_count > 0) {
TetsuyaKonno	0:158dbfb66e62	540	vfield_count--;
TetsuyaKonno	0:158dbfb66e62	541	}
TetsuyaKonno	0:158dbfb66e62	542	/* top or bottom (Change) */
TetsuyaKonno	0:158dbfb66e62	543	if ( vfield_count2 == 0 ) vfield_count2 = 1;
TetsuyaKonno	0:158dbfb66e62	544	else if ( vfield_count2 == 1 ) vfield_count2 = 0;
TetsuyaKonno	0:158dbfb66e62	545	}
TetsuyaKonno	0:158dbfb66e62	546
TetsuyaKonno	0:158dbfb66e62	547	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	548	// @brief Wait for the specified number of times Vsync occurs
TetsuyaKonno	0:158dbfb66e62	549	// @param[in] wait_count : Wait count
TetsuyaKonno	0:158dbfb66e62	550	// @retval None
TetsuyaKonno	0:158dbfb66e62	551	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	552	static void WaitVfield(const int32_t wait_count)
TetsuyaKonno	0:158dbfb66e62	553	{
TetsuyaKonno	0:158dbfb66e62	554	vfield_count = wait_count;
TetsuyaKonno	0:158dbfb66e62	555	while (vfield_count > 0) {
TetsuyaKonno	0:158dbfb66e62	556	/* Do nothing */
TetsuyaKonno	0:158dbfb66e62	557	}
TetsuyaKonno	0:158dbfb66e62	558	}
TetsuyaKonno	0:158dbfb66e62	559
TetsuyaKonno	0:158dbfb66e62	560	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	561	// @brief Interrupt callback function for Vsync interruption
TetsuyaKonno	0:158dbfb66e62	562	// @param[in] int_type : VDC5 interrupt type
TetsuyaKonno	0:158dbfb66e62	563	// @retval None
TetsuyaKonno	0:158dbfb66e62	564	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	565	static void IntCallbackFunc_Vsync(DisplayBase::int_type_t int_type)
TetsuyaKonno	0:158dbfb66e62	566	{
TetsuyaKonno	0:158dbfb66e62	567	if (vsync_count > 0) {
TetsuyaKonno	0:158dbfb66e62	568	vsync_count--;
TetsuyaKonno	0:158dbfb66e62	569	}
TetsuyaKonno	0:158dbfb66e62	570	}
TetsuyaKonno	0:158dbfb66e62	571
TetsuyaKonno	0:158dbfb66e62	572	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	573	// @brief Wait for the specified number of times Vsync occurs
TetsuyaKonno	0:158dbfb66e62	574	// @param[in] wait_count : Wait count
TetsuyaKonno	0:158dbfb66e62	575	// @retval None
TetsuyaKonno	0:158dbfb66e62	576	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	577	static void WaitVsync(const int32_t wait_count)
TetsuyaKonno	0:158dbfb66e62	578	{
TetsuyaKonno	0:158dbfb66e62	579	vsync_count = wait_count;
TetsuyaKonno	0:158dbfb66e62	580	while (vsync_count > 0) {
TetsuyaKonno	0:158dbfb66e62	581	/* Do nothing */
TetsuyaKonno	0:158dbfb66e62	582	}
TetsuyaKonno	0:158dbfb66e62	583	}
TetsuyaKonno	0:158dbfb66e62	584
TetsuyaKonno	0:158dbfb66e62	585	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	586	// Interrupt function( intTimer )
TetsuyaKonno	0:158dbfb66e62	587	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	588	void intTimer( void )
TetsuyaKonno	0:158dbfb66e62	589	{
TetsuyaKonno	0:158dbfb66e62	590	static int counter = 0;
TetsuyaKonno	0:158dbfb66e62	591
TetsuyaKonno	0:158dbfb66e62	592	cnt0++;
TetsuyaKonno	0:158dbfb66e62	593	cnt1++;
TetsuyaKonno	0:158dbfb66e62	594
TetsuyaKonno	0:158dbfb66e62	595	/* field check */
TetsuyaKonno	1:4a94c87a7d04	596	if( vfield_count2 != vfield_count2_buff ) {
TetsuyaKonno	0:158dbfb66e62	597	vfield_count2_buff = vfield_count2;
TetsuyaKonno	1:4a94c87a7d04	598	counter = 0;
TetsuyaKonno	0:158dbfb66e62	599	}
TetsuyaKonno	1:4a94c87a7d04	600	/* Top field / bottom field */
TetsuyaKonno	1:4a94c87a7d04	601	led_m_user( vfield_count2 );
TetsuyaKonno	1:4a94c87a7d04	602	switch( counter++ ) {
TetsuyaKonno	1:4a94c87a7d04	603	case 0:
TetsuyaKonno	1:4a94c87a7d04	604	Image_Extraction( write_buff_addr, ImageData_A, vfield_count2 );
TetsuyaKonno	1:4a94c87a7d04	605	break;
TetsuyaKonno	1:4a94c87a7d04	606	case 1:
TetsuyaKonno	1:4a94c87a7d04	607	Image_Extraction( write_buff_addr, ImageData_A, vfield_count2 );
TetsuyaKonno	1:4a94c87a7d04	608	break;
TetsuyaKonno	1:4a94c87a7d04	609	case 2:
TetsuyaKonno	1:4a94c87a7d04	610	Image_Reduction( ImageData_A, 160, ImageComp_A, 8 );
TetsuyaKonno	1:4a94c87a7d04	611	break;
TetsuyaKonno	1:4a94c87a7d04	612	case 3:
TetsuyaKonno	1:4a94c87a7d04	613	Image_Reduction( ImageData_A, 160, ImageComp_A, 8 );
TetsuyaKonno	1:4a94c87a7d04	614	break;
TetsuyaKonno	1:4a94c87a7d04	615	case 4:
TetsuyaKonno	1:4a94c87a7d04	616	Binarization_process( ImageComp_A, ImageBinary, 20*15, 128 );
TetsuyaKonno	1:4a94c87a7d04	617	break;
TetsuyaKonno	1:4a94c87a7d04	618	case 5:
TetsuyaKonno	1:4a94c87a7d04	619	/* Trace by image processing */
TetsuyaKonno	1:4a94c87a7d04	620	digital_sensor_process( ImageBinary );
TetsuyaKonno	1:4a94c87a7d04	621	break;
TetsuyaKonno	1:4a94c87a7d04	622	case 6:
TetsuyaKonno	1:4a94c87a7d04	623	//MarkCheck_Triangle
TetsuyaKonno	1:4a94c87a7d04	624	MarkDetect_process_T();
TetsuyaKonno	1:4a94c87a7d04	625	break;
TetsuyaKonno	1:4a94c87a7d04	626	default:
TetsuyaKonno	1:4a94c87a7d04	627	break;
TetsuyaKonno	0:158dbfb66e62	628	}
TetsuyaKonno	0:158dbfb66e62	629
TetsuyaKonno	0:158dbfb66e62	630	/* LED processing */
TetsuyaKonno	0:158dbfb66e62	631	led_m_process();
TetsuyaKonno	0:158dbfb66e62	632	}
TetsuyaKonno	0:158dbfb66e62	633
TetsuyaKonno	0:158dbfb66e62	634	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	635	// functions ( on GR-PEACH board )
TetsuyaKonno	0:158dbfb66e62	636	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	637	//led_rgb Function
TetsuyaKonno	0:158dbfb66e62	638	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	639	void led_rgb(int led)
TetsuyaKonno	0:158dbfb66e62	640	{
TetsuyaKonno	0:158dbfb66e62	641	LED_R = led & 0x1;
TetsuyaKonno	0:158dbfb66e62	642	LED_G = (led >> 1 ) & 0x1;
TetsuyaKonno	0:158dbfb66e62	643	LED_B = (led >> 2 ) & 0x1;
TetsuyaKonno	0:158dbfb66e62	644	}
TetsuyaKonno	0:158dbfb66e62	645
TetsuyaKonno	0:158dbfb66e62	646	//user_button_get Function
TetsuyaKonno	0:158dbfb66e62	647	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	648	unsigned int user_button_get( void )
TetsuyaKonno	0:158dbfb66e62	649	{
TetsuyaKonno	0:158dbfb66e62	650	return (~user_botton) & 0x1; /* Read ports with switches */
TetsuyaKonno	0:158dbfb66e62	651	}
TetsuyaKonno	0:158dbfb66e62	652
TetsuyaKonno	0:158dbfb66e62	653	//led_m_user Function
TetsuyaKonno	0:158dbfb66e62	654	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	655	void led_m_user( int led )
TetsuyaKonno	0:158dbfb66e62	656	{
TetsuyaKonno	0:158dbfb66e62	657	USER_LED = led & 0x01;
TetsuyaKonno	0:158dbfb66e62	658	}
TetsuyaKonno	0:158dbfb66e62	659
TetsuyaKonno	0:158dbfb66e62	660	//Lled_m_set Function
TetsuyaKonno	0:158dbfb66e62	661	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	662	void led_m_set( int set )
TetsuyaKonno	0:158dbfb66e62	663	{
TetsuyaKonno	0:158dbfb66e62	664	led_set = set;
TetsuyaKonno	0:158dbfb66e62	665	}
TetsuyaKonno	0:158dbfb66e62	666
TetsuyaKonno	0:158dbfb66e62	667	//led_m_process Function for only interrupt
TetsuyaKonno	0:158dbfb66e62	668	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	669	void led_m_process( void )
TetsuyaKonno	0:158dbfb66e62	670	{
TetsuyaKonno	0:158dbfb66e62	671	static unsigned long led_timer;
TetsuyaKonno	0:158dbfb66e62	672
TetsuyaKonno	0:158dbfb66e62	673	led_timer++;
TetsuyaKonno	0:158dbfb66e62	674
TetsuyaKonno	0:158dbfb66e62	675	/* Display */
TetsuyaKonno	0:158dbfb66e62	676	if( led_timer < led_data[led_set][1] ) led_rgb( led_data[led_set][0] );
TetsuyaKonno	0:158dbfb66e62	677	else if( led_timer < ( led_data[led_set][1] + led_data[led_set][2] ) ) led_rgb( LED_OFF );
TetsuyaKonno	0:158dbfb66e62	678	else led_timer = 0;
TetsuyaKonno	0:158dbfb66e62	679	}
TetsuyaKonno	0:158dbfb66e62	680
TetsuyaKonno	0:158dbfb66e62	681	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	682	// functions ( on Motor drive board )
TetsuyaKonno	0:158dbfb66e62	683	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	684	//led_out Function
TetsuyaKonno	0:158dbfb66e62	685	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	686	void led_out(int led)
TetsuyaKonno	0:158dbfb66e62	687	{
TetsuyaKonno	0:158dbfb66e62	688	led = ~led;
TetsuyaKonno	0:158dbfb66e62	689	LED_3 = led & 0x1;
TetsuyaKonno	0:158dbfb66e62	690	LED_2 = ( led >> 1 ) & 0x1;
TetsuyaKonno	0:158dbfb66e62	691	}
TetsuyaKonno	0:158dbfb66e62	692
TetsuyaKonno	0:158dbfb66e62	693	//pushsw_get Function
TetsuyaKonno	0:158dbfb66e62	694	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	695	unsigned int pushsw_get( void )
TetsuyaKonno	0:158dbfb66e62	696	{
TetsuyaKonno	0:158dbfb66e62	697	return (~push_sw) & 0x1; /* Read ports with switches */
TetsuyaKonno	0:158dbfb66e62	698	}
TetsuyaKonno	0:158dbfb66e62	699
TetsuyaKonno	0:158dbfb66e62	700	//motor speed control(PWM)
TetsuyaKonno	0:158dbfb66e62	701	//Arguments: motor:-100 to 100
TetsuyaKonno	0:158dbfb66e62	702	//Here, 0 is stop, 100 is forward, -100 is reverse
TetsuyaKonno	0:158dbfb66e62	703	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	704	void motor( int accele_l, int accele_r )
TetsuyaKonno	0:158dbfb66e62	705	{
TetsuyaKonno	0:158dbfb66e62	706	accele_l = ( accele_l * MAX_SPEED ) / 100;
TetsuyaKonno	0:158dbfb66e62	707	accele_r = ( accele_r * MAX_SPEED ) / 100;
TetsuyaKonno	0:158dbfb66e62	708
TetsuyaKonno	0:158dbfb66e62	709	/* Left Motor Control */
TetsuyaKonno	0:158dbfb66e62	710	if( accele_l >= 0 ) {
TetsuyaKonno	0:158dbfb66e62	711	/* forward */
TetsuyaKonno	0:158dbfb66e62	712	Left_motor_signal = 0;
TetsuyaKonno	0:158dbfb66e62	713	MTU2TGRC_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * accele_l / 100;
TetsuyaKonno	0:158dbfb66e62	714	} else {
TetsuyaKonno	0:158dbfb66e62	715	/* reverse */
TetsuyaKonno	0:158dbfb66e62	716	Left_motor_signal = 1;
TetsuyaKonno	0:158dbfb66e62	717	MTU2TGRC_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * ( -accele_l ) / 100;
TetsuyaKonno	0:158dbfb66e62	718	}
TetsuyaKonno	0:158dbfb66e62	719
TetsuyaKonno	0:158dbfb66e62	720	/* Right Motor Control */
TetsuyaKonno	0:158dbfb66e62	721	if( accele_r >= 0 ) {
TetsuyaKonno	0:158dbfb66e62	722	/* forward */
TetsuyaKonno	0:158dbfb66e62	723	Right_motor_signal = 0;
TetsuyaKonno	0:158dbfb66e62	724	MTU2TGRD_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * accele_r / 100;
TetsuyaKonno	0:158dbfb66e62	725	} else {
TetsuyaKonno	0:158dbfb66e62	726	/* reverse */
TetsuyaKonno	0:158dbfb66e62	727	Right_motor_signal = 1;
TetsuyaKonno	0:158dbfb66e62	728	MTU2TGRD_4 = (long)( MOTOR_PWM_CYCLE - 1 ) * ( -accele_r ) / 100;
TetsuyaKonno	0:158dbfb66e62	729	}
TetsuyaKonno	0:158dbfb66e62	730	}
TetsuyaKonno	0:158dbfb66e62	731
TetsuyaKonno	0:158dbfb66e62	732	//handle Function
TetsuyaKonno	0:158dbfb66e62	733	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	734	void handle( int angle )
TetsuyaKonno	0:158dbfb66e62	735	{
TetsuyaKonno	0:158dbfb66e62	736	handle_buff = angle;
TetsuyaKonno	0:158dbfb66e62	737	/* When the servo move from left to right in reverse, replace "-" with "+" */
TetsuyaKonno	0:158dbfb66e62	738	MTU2TGRD_0 = SERVO_CENTER - angle * HANDLE_STEP;
TetsuyaKonno	0:158dbfb66e62	739	}
TetsuyaKonno	0:158dbfb66e62	740
TetsuyaKonno	0:158dbfb66e62	741	//diff Function
TetsuyaKonno	0:158dbfb66e62	742	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	743	int diff( int pwm )
TetsuyaKonno	0:158dbfb66e62	744	{
TetsuyaKonno	0:158dbfb66e62	745	int i, ret;
TetsuyaKonno	0:158dbfb66e62	746
TetsuyaKonno	0:158dbfb66e62	747	i = handle_buff;
TetsuyaKonno	0:158dbfb66e62	748	if( i < 0 ) i = -i;
TetsuyaKonno	0:158dbfb66e62	749	if( i > 45 ) i = 45;
TetsuyaKonno	0:158dbfb66e62	750	ret = revolution_difference[i] * pwm / 100;
TetsuyaKonno	0:158dbfb66e62	751
TetsuyaKonno	0:158dbfb66e62	752	return ret;
TetsuyaKonno	0:158dbfb66e62	753	}
TetsuyaKonno	0:158dbfb66e62	754
TetsuyaKonno	0:158dbfb66e62	755	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	756	// Image process functions
TetsuyaKonno	0:158dbfb66e62	757	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	758	//Image Data YCbCr -> Y(320240pix) -> Y(160120)
TetsuyaKonno	0:158dbfb66e62	759	//frame 0 : Top field
TetsuyaKonno	0:158dbfb66e62	760	//frame 1 : Bottom field
TetsuyaKonno	0:158dbfb66e62	761	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	762	void Image_Extraction( unsigned char buff_addr, unsigned char Data_Y, int frame )
TetsuyaKonno	0:158dbfb66e62	763	{
TetsuyaKonno	0:158dbfb66e62	764	static int Xp, Yp, inc, Data_Y_buff;
TetsuyaKonno	0:158dbfb66e62	765	static int counter = 0;
TetsuyaKonno	0:158dbfb66e62	766
TetsuyaKonno	0:158dbfb66e62	767	// Distributed processing
TetsuyaKonno	0:158dbfb66e62	768	switch( counter++ ) {
TetsuyaKonno	0:158dbfb66e62	769	case 0:
TetsuyaKonno	0:158dbfb66e62	770	for( Yp = frame, inc = 0; Yp < 120; Yp+=2 ){
TetsuyaKonno	0:158dbfb66e62	771	for( Xp = 0; Xp < 640; Xp+=4, inc++ ){
TetsuyaKonno	0:158dbfb66e62	772	Data_Y_buff = (int)buff_addr[(Xp+0)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	773	Data_Y_buff += (int)buff_addr[(Xp+2)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	774	Data_Y[inc] = Data_Y_buff >> 1;
TetsuyaKonno	0:158dbfb66e62	775	}
TetsuyaKonno	0:158dbfb66e62	776	}
TetsuyaKonno	0:158dbfb66e62	777	break;
TetsuyaKonno	0:158dbfb66e62	778	case 1:
TetsuyaKonno	0:158dbfb66e62	779	for( /* None */ ; Yp < 240; Yp+=2 ){
TetsuyaKonno	0:158dbfb66e62	780	for( Xp = 0; Xp < 640; Xp+=4, inc++ ){
TetsuyaKonno	0:158dbfb66e62	781	Data_Y_buff = (int)buff_addr[(Xp+0)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	782	Data_Y_buff += (int)buff_addr[(Xp+2)+(640*Yp)];
TetsuyaKonno	0:158dbfb66e62	783	Data_Y[inc] = Data_Y_buff >> 1;
TetsuyaKonno	0:158dbfb66e62	784	}
TetsuyaKonno	0:158dbfb66e62	785	}
TetsuyaKonno	0:158dbfb66e62	786	counter = 0;
TetsuyaKonno	0:158dbfb66e62	787	break;
TetsuyaKonno	0:158dbfb66e62	788	default:
TetsuyaKonno	0:158dbfb66e62	789	break;
TetsuyaKonno	0:158dbfb66e62	790	}
TetsuyaKonno	0:158dbfb66e62	791	}
TetsuyaKonno	0:158dbfb66e62	792
TetsuyaKonno	0:158dbfb66e62	793	//Image_Reduction Function ( Averaging processing )
TetsuyaKonno	0:158dbfb66e62	794	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	795	void Image_Reduction( unsigned char Data_Y, int Data_W , unsigned char Comp_Y, int Comp_M )
TetsuyaKonno	0:158dbfb66e62	796	{
TetsuyaKonno	0:158dbfb66e62	797	int Data_H, Pixel_T, Pixel_D;
TetsuyaKonno	0:158dbfb66e62	798	int x, y;
TetsuyaKonno	0:158dbfb66e62	799	static int Xp, Yp, inc;
TetsuyaKonno	0:158dbfb66e62	800	static int counter = 0;
TetsuyaKonno	0:158dbfb66e62	801
TetsuyaKonno	0:158dbfb66e62	802	Data_H = (Data_W / (double)4) * 3;
TetsuyaKonno	0:158dbfb66e62	803	Pixel_D = Comp_M * Comp_M;
TetsuyaKonno	0:158dbfb66e62	804
TetsuyaKonno	0:158dbfb66e62	805	switch( counter++ ) {
TetsuyaKonno	0:158dbfb66e62	806	case 0:
TetsuyaKonno	0:158dbfb66e62	807	for( Yp = 0, inc = 0; Yp < ( Data_H / 2); Yp+=Comp_M ){
TetsuyaKonno	0:158dbfb66e62	808	for( Xp = 0; Xp < Data_W; Xp+=Comp_M, inc++ ){
TetsuyaKonno	0:158dbfb66e62	809	Pixel_T = 0;
TetsuyaKonno	0:158dbfb66e62	810	for( y = 0; y < Comp_M; y++ ){
TetsuyaKonno	0:158dbfb66e62	811	for( x = 0; x < Comp_M; x++ ){
TetsuyaKonno	0:158dbfb66e62	812	Pixel_T += Data_Y[( Xp + x ) + (( Yp + y ) * Data_W )];
TetsuyaKonno	0:158dbfb66e62	813	}
TetsuyaKonno	0:158dbfb66e62	814	}
TetsuyaKonno	0:158dbfb66e62	815	Comp_Y[inc] = Pixel_T / Pixel_D;
TetsuyaKonno	0:158dbfb66e62	816	}
TetsuyaKonno	0:158dbfb66e62	817	}
TetsuyaKonno	0:158dbfb66e62	818	break;
TetsuyaKonno	0:158dbfb66e62	819	case 1:
TetsuyaKonno	0:158dbfb66e62	820	for( /* None */ ; Yp < Data_H ; Yp+=Comp_M ){
TetsuyaKonno	0:158dbfb66e62	821	for( Xp = 0; Xp < Data_W; Xp+=Comp_M, inc++ ){
TetsuyaKonno	0:158dbfb66e62	822	Pixel_T = 0;
TetsuyaKonno	0:158dbfb66e62	823	for( y = 0; y < Comp_M; y++ ){
TetsuyaKonno	0:158dbfb66e62	824	for( x = 0; x < Comp_M; x++ ){
TetsuyaKonno	0:158dbfb66e62	825	Pixel_T += Data_Y[( Xp + x ) + (( Yp + y ) * Data_W )];
TetsuyaKonno	0:158dbfb66e62	826	}
TetsuyaKonno	0:158dbfb66e62	827	}
TetsuyaKonno	0:158dbfb66e62	828	Comp_Y[inc] = Pixel_T / Pixel_D;
TetsuyaKonno	0:158dbfb66e62	829	}
TetsuyaKonno	0:158dbfb66e62	830	}
TetsuyaKonno	0:158dbfb66e62	831	counter = 0;
TetsuyaKonno	0:158dbfb66e62	832	break;
TetsuyaKonno	0:158dbfb66e62	833	default:
TetsuyaKonno	0:158dbfb66e62	834	break;
TetsuyaKonno	0:158dbfb66e62	835	}
TetsuyaKonno	0:158dbfb66e62	836	}
TetsuyaKonno	0:158dbfb66e62	837
TetsuyaKonno	0:158dbfb66e62	838	// Binarization_process Function
TetsuyaKonno	0:158dbfb66e62	839	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	840	void Binarization_process( unsigned char Comp_Y, unsigned char Binary, long items, int threshold )
TetsuyaKonno	0:158dbfb66e62	841	{
TetsuyaKonno	0:158dbfb66e62	842	int i;
TetsuyaKonno	0:158dbfb66e62	843
TetsuyaKonno	0:158dbfb66e62	844	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	845	if( Comp_Y[i] >= threshold ) Binary[i] = 1;
TetsuyaKonno	0:158dbfb66e62	846	else Binary[i] = 0;
TetsuyaKonno	0:158dbfb66e62	847	}
TetsuyaKonno	0:158dbfb66e62	848	}
TetsuyaKonno	0:158dbfb66e62	849
TetsuyaKonno	0:158dbfb66e62	850	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	851	// digital sensor functions
TetsuyaKonno	0:158dbfb66e62	852	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	853	//CenterLine_Corrective Function ( image size 20*15pix )
TetsuyaKonno	0:158dbfb66e62	854	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	855	int CenterLine_Corrective( unsigned char *Binary )
TetsuyaKonno	0:158dbfb66e62	856	{
TetsuyaKonno	0:158dbfb66e62	857	#define L 0
TetsuyaKonno	0:158dbfb66e62	858	#define R 1
TetsuyaKonno	0:158dbfb66e62	859
TetsuyaKonno	0:158dbfb66e62	860	int iRet, offset_X, offset_Y;
TetsuyaKonno	0:158dbfb66e62	861	int Xpix, X;
TetsuyaKonno	0:158dbfb66e62	862	int Ypix;
TetsuyaKonno	0:158dbfb66e62	863	int Pixel_diff[2];
TetsuyaKonno	0:158dbfb66e62	864	int Error_cnt;
TetsuyaKonno	0:158dbfb66e62	865	int value;
TetsuyaKonno	0:158dbfb66e62	866
TetsuyaKonno	0:158dbfb66e62	867	/* Center of image */
TetsuyaKonno	0:158dbfb66e62	868	offset_X = 6;
TetsuyaKonno	0:158dbfb66e62	869	offset_Y = 12;
TetsuyaKonno	0:158dbfb66e62	870
TetsuyaKonno	0:158dbfb66e62	871	/* corrective of center line */
TetsuyaKonno	0:158dbfb66e62	872	for( Ypix = 0, Error_cnt = 0; Ypix < (offset_Y - 4); Ypix++ ) {
TetsuyaKonno	0:158dbfb66e62	873	for( value = 0; value < 2; value++ ) {
TetsuyaKonno	0:158dbfb66e62	874	for( Xpix = offset_X; Xpix < (offset_X + 8); Xpix++ ) {
TetsuyaKonno	0:158dbfb66e62	875	/* Lift side */
TetsuyaKonno	0:158dbfb66e62	876	Pixel_diff[L] = 0;
TetsuyaKonno	0:158dbfb66e62	877	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + Xpix ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	878	for( X = Xpix; X > (Xpix - 4); X-- ) {
TetsuyaKonno	0:158dbfb66e62	879	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + X ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	880	Pixel_diff[L]++;
TetsuyaKonno	0:158dbfb66e62	881	} else {
TetsuyaKonno	0:158dbfb66e62	882	break;
TetsuyaKonno	0:158dbfb66e62	883	}
TetsuyaKonno	0:158dbfb66e62	884	}
TetsuyaKonno	0:158dbfb66e62	885	} else {
TetsuyaKonno	0:158dbfb66e62	886	Pixel_diff[L] = -1;
TetsuyaKonno	0:158dbfb66e62	887	}
TetsuyaKonno	0:158dbfb66e62	888	/* Right side */
TetsuyaKonno	0:158dbfb66e62	889	Pixel_diff[R] = 0;
TetsuyaKonno	0:158dbfb66e62	890	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + (Xpix + 1) ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	891	for( X = (Xpix + 1); X < ((Xpix + 1) + 4); X++ ) {
TetsuyaKonno	0:158dbfb66e62	892	if( Binary[ ( ( offset_Y - Ypix ) * 20 ) + X ] >= 1 ) {
TetsuyaKonno	0:158dbfb66e62	893	Pixel_diff[R]++;
TetsuyaKonno	0:158dbfb66e62	894	} else {
TetsuyaKonno	0:158dbfb66e62	895	break;
TetsuyaKonno	0:158dbfb66e62	896	}
TetsuyaKonno	0:158dbfb66e62	897	}
TetsuyaKonno	0:158dbfb66e62	898	} else {
TetsuyaKonno	0:158dbfb66e62	899	Pixel_diff[R] = 1;
TetsuyaKonno	0:158dbfb66e62	900	}
TetsuyaKonno	0:158dbfb66e62	901	/* check */
TetsuyaKonno	0:158dbfb66e62	902	iRet = Pixel_diff[L] - Pixel_diff[R];
TetsuyaKonno	0:158dbfb66e62	903	if( value >= iRet && iRet >= -value ) {
TetsuyaKonno	0:158dbfb66e62	904	break;
TetsuyaKonno	0:158dbfb66e62	905	}
TetsuyaKonno	0:158dbfb66e62	906	}
TetsuyaKonno	0:158dbfb66e62	907	if( value >= iRet && iRet >= -value ) {
TetsuyaKonno	0:158dbfb66e62	908	/* X coordinate */
TetsuyaKonno	0:158dbfb66e62	909	Sensor_X[Ypix][2] = Xpix;
TetsuyaKonno	0:158dbfb66e62	910	Sensor_X[Ypix][3] = Xpix + 1;
TetsuyaKonno	0:158dbfb66e62	911	break;
TetsuyaKonno	0:158dbfb66e62	912	} else {
TetsuyaKonno	0:158dbfb66e62	913	Sensor_X[Ypix][2] = Sensor_X[Ypix][3] = -1;
TetsuyaKonno	0:158dbfb66e62	914	Error_cnt++;
TetsuyaKonno	0:158dbfb66e62	915	}
TetsuyaKonno	0:158dbfb66e62	916	}
TetsuyaKonno	0:158dbfb66e62	917	/* Left side sensor */
TetsuyaKonno	0:158dbfb66e62	918	Sensor_X[Ypix][1] = Sensor_X[Ypix][2] - ( Pixel_diff[L] );
TetsuyaKonno	0:158dbfb66e62	919	Sensor_X[Ypix][0] = Sensor_X[Ypix][1] - ( Pixel_diff[L] + 1 );//( Sensor_X[Ypix][2] - Sensor_X[Ypix][1] );
TetsuyaKonno	0:158dbfb66e62	920	/* Right side sensor */
TetsuyaKonno	0:158dbfb66e62	921	Sensor_X[Ypix][4] = Sensor_X[Ypix][3] + ( Pixel_diff[R] );
TetsuyaKonno	0:158dbfb66e62	922	Sensor_X[Ypix][5] = Sensor_X[Ypix][4] + ( Pixel_diff[R] + 1 );//( Sensor_X[Ypix][4] - Sensor_X[Ypix][3] );
TetsuyaKonno	0:158dbfb66e62	923	}
TetsuyaKonno	0:158dbfb66e62	924	return Error_cnt;
TetsuyaKonno	0:158dbfb66e62	925	}
TetsuyaKonno	0:158dbfb66e62	926
TetsuyaKonno	0:158dbfb66e62	927	//digital_sensor_process Function
TetsuyaKonno	0:158dbfb66e62	928	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	929	void digital_sensor_process( unsigned char *Binary )
TetsuyaKonno	0:158dbfb66e62	930	{
osaboh	2:dd32c5987b14	931	int Ypix; // !!!! not initilazed !!!!
TetsuyaKonno	0:158dbfb66e62	932	int offset_Y;
TetsuyaKonno	0:158dbfb66e62	933	unsigned char sensor, data;
TetsuyaKonno	0:158dbfb66e62	934
TetsuyaKonno	0:158dbfb66e62	935	offset_Y = 12;
TetsuyaKonno	0:158dbfb66e62	936	sensor = 0;
TetsuyaKonno	0:158dbfb66e62	937
TetsuyaKonno	0:158dbfb66e62	938	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][2] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	939	data \|= Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][3] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	940	sensor \|= (data << 4) & 0x10;
TetsuyaKonno	0:158dbfb66e62	941	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][0] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	942	sensor \|= (data << 3) & 0x08;
TetsuyaKonno	0:158dbfb66e62	943	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][1] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	944	sensor \|= (data << 2) & 0x04;
TetsuyaKonno	0:158dbfb66e62	945	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][4] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	946	sensor \|= (data << 1) & 0x02;
TetsuyaKonno	0:158dbfb66e62	947	data = Binary[ ( (offset_Y - Ypix) * 20 ) + Sensor_X[Ypix][5] ] & 0x01;
TetsuyaKonno	0:158dbfb66e62	948	sensor \|= (data << 0) & 0x01;
TetsuyaKonno	0:158dbfb66e62	949	sensor &= 0x1f;
TetsuyaKonno	0:158dbfb66e62	950	sensor_value = sensor;
TetsuyaKonno	0:158dbfb66e62	951	}
TetsuyaKonno	0:158dbfb66e62	952
TetsuyaKonno	0:158dbfb66e62	953	//digital_sensor Function
TetsuyaKonno	0:158dbfb66e62	954	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	955	unsigned char digital_sensor( void )
TetsuyaKonno	0:158dbfb66e62	956	{
TetsuyaKonno	0:158dbfb66e62	957	return sensor_value;
TetsuyaKonno	0:158dbfb66e62	958	}
TetsuyaKonno	0:158dbfb66e62	959
TetsuyaKonno	0:158dbfb66e62	960	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	961	// Mark detect functions
TetsuyaKonno	0:158dbfb66e62	962	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	963	// Extract_Image
TetsuyaKonno	0:158dbfb66e62	964	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	965	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	966	{
TetsuyaKonno	0:158dbfb66e62	967	int x, y;
TetsuyaKonno	0:158dbfb66e62	968	for( y = 0; y < y_size; y++ ) {
TetsuyaKonno	0:158dbfb66e62	969	for( x = 0; x < x_size; x++ ) {
TetsuyaKonno	0:158dbfb66e62	970	Data_B[ x + ( y * x_size ) ] = Binary[ (Xpix + x) + ( (Ypix + y) * Width ) ];
TetsuyaKonno	0:158dbfb66e62	971	}
TetsuyaKonno	0:158dbfb66e62	972	}
TetsuyaKonno	0:158dbfb66e62	973	}
TetsuyaKonno	0:158dbfb66e62	974
TetsuyaKonno	0:158dbfb66e62	975	// Standard deviation
TetsuyaKonno	0:158dbfb66e62	976	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	977	double Standard_Deviation( unsigned char data, double Devi, int items )
TetsuyaKonno	0:158dbfb66e62	978	{
TetsuyaKonno	0:158dbfb66e62	979	int i;
TetsuyaKonno	0:158dbfb66e62	980	double iRet_A, iRet_C, iRet_D;
TetsuyaKonno	0:158dbfb66e62	981
TetsuyaKonno	0:158dbfb66e62	982	/* A 合計値　平均化 */
TetsuyaKonno	0:158dbfb66e62	983	iRet_A = 0;
TetsuyaKonno	0:158dbfb66e62	984	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	985	iRet_A += data[i];
TetsuyaKonno	0:158dbfb66e62	986	}
TetsuyaKonno	0:158dbfb66e62	987	iRet_A /= items;
TetsuyaKonno	0:158dbfb66e62	988
TetsuyaKonno	0:158dbfb66e62	989	/* B 偏差値 */
TetsuyaKonno	0:158dbfb66e62	990	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	991	Devi[i] = data[i] - iRet_A;
TetsuyaKonno	0:158dbfb66e62	992	}
TetsuyaKonno	0:158dbfb66e62	993
TetsuyaKonno	0:158dbfb66e62	994	/* C 分散 */
TetsuyaKonno	0:158dbfb66e62	995	iRet_C = 0;
TetsuyaKonno	0:158dbfb66e62	996	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	997	iRet_C += ( Devi[i] * Devi[i] );
TetsuyaKonno	0:158dbfb66e62	998	}
TetsuyaKonno	0:158dbfb66e62	999	iRet_C /= items;
TetsuyaKonno	0:158dbfb66e62	1000
TetsuyaKonno	0:158dbfb66e62	1001	/* D 標準偏差 */
TetsuyaKonno	0:158dbfb66e62	1002	iRet_D = sqrt( iRet_C );
TetsuyaKonno	0:158dbfb66e62	1003
TetsuyaKonno	0:158dbfb66e62	1004	return iRet_D;
TetsuyaKonno	0:158dbfb66e62	1005	}
TetsuyaKonno	0:158dbfb66e62	1006
TetsuyaKonno	0:158dbfb66e62	1007	// Covariance
TetsuyaKonno	0:158dbfb66e62	1008	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1009	double Covariance( double Devi_A, double Devi_B, int items )
TetsuyaKonno	0:158dbfb66e62	1010	{
TetsuyaKonno	0:158dbfb66e62	1011	int i;
TetsuyaKonno	0:158dbfb66e62	1012	double iRet, iRet_buff;
TetsuyaKonno	0:158dbfb66e62	1013
TetsuyaKonno	0:158dbfb66e62	1014	iRet = 0;
TetsuyaKonno	0:158dbfb66e62	1015	for( i = 0; i < items; i++ ) {
TetsuyaKonno	0:158dbfb66e62	1016	iRet_buff = Devi_A[i] * Devi_B[i];
TetsuyaKonno	0:158dbfb66e62	1017	iRet += iRet_buff;
TetsuyaKonno	0:158dbfb66e62	1018	}
TetsuyaKonno	0:158dbfb66e62	1019	iRet /= items;
TetsuyaKonno	0:158dbfb66e62	1020
TetsuyaKonno	0:158dbfb66e62	1021	return iRet;
TetsuyaKonno	0:158dbfb66e62	1022	}
TetsuyaKonno	0:158dbfb66e62	1023
TetsuyaKonno	0:158dbfb66e62	1024	// Judgement_ImageMatching
TetsuyaKonno	0:158dbfb66e62	1025	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1026	int Judgement_ImageMatching( double covari, double SDevi_A, double SDevi_B )
TetsuyaKonno	0:158dbfb66e62	1027	{
TetsuyaKonno	0:158dbfb66e62	1028	int iRet;
TetsuyaKonno	0:158dbfb66e62	1029
TetsuyaKonno	0:158dbfb66e62	1030	iRet = ( covari * 100 ) / ( SDevi_A * SDevi_B );
TetsuyaKonno	0:158dbfb66e62	1031
TetsuyaKonno	0:158dbfb66e62	1032	return iRet;
TetsuyaKonno	0:158dbfb66e62	1033	}
TetsuyaKonno	0:158dbfb66e62	1034
TetsuyaKonno	0:158dbfb66e62	1035	// MarkDetect_process_T
TetsuyaKonno	0:158dbfb66e62	1036	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1037	void MarkDetect_process_T( void )
TetsuyaKonno	0:158dbfb66e62	1038	{
TetsuyaKonno	0:158dbfb66e62	1039	int x, y;
TetsuyaKonno	0:158dbfb66e62	1040
TetsuyaKonno	0:158dbfb66e62	1041	retJudgeIM_Max[0] = 0;
TetsuyaKonno	0:158dbfb66e62	1042	for( y = 0; y <= 12; y++ ) {
TetsuyaKonno	0:158dbfb66e62	1043	for( x = 0; x <= 15; x++ ) {
TetsuyaKonno	0:158dbfb66e62	1044	Image_part_Extraction( ImageBinary, 20, x, y, NowImageBinary, 5, 3 );
TetsuyaKonno	0:158dbfb66e62	1045	retDevi = Standard_Deviation( NowImageBinary, NowDevi, 15 );
TetsuyaKonno	0:158dbfb66e62	1046	retCovari = Covariance( TempDevi_Triangle, NowDevi, 15 );
TetsuyaKonno	0:158dbfb66e62	1047	retJudgeIM = 0;
TetsuyaKonno	0:158dbfb66e62	1048	retJudgeIM = Judgement_ImageMatching( retCovari, retDevi_Triangle, retDevi );
TetsuyaKonno	0:158dbfb66e62	1049	if( 100 >= retJudgeIM && retJudgeIM > retJudgeIM_Max[0] ) {
TetsuyaKonno	0:158dbfb66e62	1050	Xt = x;
TetsuyaKonno	0:158dbfb66e62	1051	Yt = y;
TetsuyaKonno	0:158dbfb66e62	1052	retJudgeIM_Max[0] = retJudgeIM;
TetsuyaKonno	0:158dbfb66e62	1053	}
TetsuyaKonno	0:158dbfb66e62	1054	}
TetsuyaKonno	0:158dbfb66e62	1055	}
TetsuyaKonno	0:158dbfb66e62	1056	}
TetsuyaKonno	0:158dbfb66e62	1057
TetsuyaKonno	0:158dbfb66e62	1058	// MarkCheck Triangle detection
TetsuyaKonno	0:158dbfb66e62	1059	// Return values: 0: no triangle mark, 1: Triangle mark
TetsuyaKonno	0:158dbfb66e62	1060	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1061	int MarkCheck_Triangle( int percentage )
TetsuyaKonno	0:158dbfb66e62	1062	{
TetsuyaKonno	0:158dbfb66e62	1063	int ret;
TetsuyaKonno	0:158dbfb66e62	1064
TetsuyaKonno	0:158dbfb66e62	1065	ret = 0;
TetsuyaKonno	0:158dbfb66e62	1066	if( retJudgeIM_Max[0] >= percentage ) {
TetsuyaKonno	0:158dbfb66e62	1067	ret = 1;
TetsuyaKonno	0:158dbfb66e62	1068	}
TetsuyaKonno	0:158dbfb66e62	1069
TetsuyaKonno	0:158dbfb66e62	1070	return ret;
TetsuyaKonno	0:158dbfb66e62	1071	}
TetsuyaKonno	0:158dbfb66e62	1072
TetsuyaKonno	0:158dbfb66e62	1073	//******************************************************************//
TetsuyaKonno	0:158dbfb66e62	1074	// Debug functions
TetsuyaKonno	0:158dbfb66e62	1075	//*******************************************************************/
TetsuyaKonno	0:158dbfb66e62	1076	//Image Data Output( for the Excel )
TetsuyaKonno	0:158dbfb66e62	1077	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1078	void ImageData_Serial_Out( unsigned char *Data_Y, int Width )
TetsuyaKonno	0:158dbfb66e62	1079	{
TetsuyaKonno	0:158dbfb66e62	1080	int Xp, Yp, inc, Height;
TetsuyaKonno	0:158dbfb66e62	1081
TetsuyaKonno	0:158dbfb66e62	1082	Height = (Width / (double)4) * 3;
TetsuyaKonno	0:158dbfb66e62	1083	for( Yp = 0, inc = 0; Yp < Height; Yp++ ) {
TetsuyaKonno	0:158dbfb66e62	1084	for( Xp = 0; Xp < Width; Xp++, inc++ ) {
TetsuyaKonno	0:158dbfb66e62	1085	pc.printf( "%d,", Data_Y[ inc ] );
TetsuyaKonno	0:158dbfb66e62	1086	}
TetsuyaKonno	0:158dbfb66e62	1087	pc.printf("\n\r");
TetsuyaKonno	0:158dbfb66e62	1088	}
TetsuyaKonno	0:158dbfb66e62	1089	}
TetsuyaKonno	0:158dbfb66e62	1090
TetsuyaKonno	0:158dbfb66e62	1091	//Image Data Output2( for TeraTerm )
TetsuyaKonno	0:158dbfb66e62	1092	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1093	void ImageData_Serial_Out2( unsigned char *Data_Y, int Width )
TetsuyaKonno	0:158dbfb66e62	1094	{
TetsuyaKonno	0:158dbfb66e62	1095	int Xp, Yp, Height;
TetsuyaKonno	0:158dbfb66e62	1096
TetsuyaKonno	0:158dbfb66e62	1097	Height = (Width / (double)4) * 3;
TetsuyaKonno	0:158dbfb66e62	1098	for( Yp = 0; Yp < Height; Yp++ ) {
TetsuyaKonno	0:158dbfb66e62	1099	for( Xp = 0; Xp < Width; Xp++ ) {
TetsuyaKonno	0:158dbfb66e62	1100	pc.printf( "%d ", Data_Y[Xp + (Yp * Width)] );
TetsuyaKonno	0:158dbfb66e62	1101	}
TetsuyaKonno	0:158dbfb66e62	1102	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	1103	}
TetsuyaKonno	0:158dbfb66e62	1104
TetsuyaKonno	0:158dbfb66e62	1105	//Add display
TetsuyaKonno	0:158dbfb66e62	1106	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	1107	pc.printf( "sensor_inp = 0x%02x\n\r", digital_sensor() );
TetsuyaKonno	0:158dbfb66e62	1108	pc.printf( "T = %3d%% %01d X=%2d Y=%2d\n\r", retJudgeIM_Max[0], MarkCheck_Triangle( 90 ), Xt, Yt );
TetsuyaKonno	0:158dbfb66e62	1109	pc.printf( "\n\r" );
TetsuyaKonno	0:158dbfb66e62	1110	Height += 4;
TetsuyaKonno	0:158dbfb66e62	1111
TetsuyaKonno	0:158dbfb66e62	1112	pc.printf( "\033[%dA" , Height );
TetsuyaKonno	0:158dbfb66e62	1113	}
TetsuyaKonno	0:158dbfb66e62	1114
TetsuyaKonno	0:158dbfb66e62	1115	//------------------------------------------------------------------//
TetsuyaKonno	0:158dbfb66e62	1116	// End of file
TetsuyaKonno	0:158dbfb66e62	1117	//------------------------------------------------------------------//

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	14 Jan 2017
Imports:	1
Forks:	0
Commits:	3
Dependents:	0
Dependencies:	2
Followers:	1

main.cpp@2:dd32c5987b14, 2017-01-14 (annotated)

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