/*
* Copyright Droids Corporation (2009)
- *
+ *
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
*
* Revision : $Id: commands_mainboard.c,v 1.9 2009-11-08 17:24:33 zer0 Exp $
*
- * Olivier MATZ <zer0@droids-corp.org>
+ * Olivier MATZ <zer0@droids-corp.org>
*/
#include <stdio.h>
#include <quadramp.h>
#include <control_system_manager.h>
#include <trajectory_manager.h>
+#include <trajectory_manager_core.h>
#include <trajectory_manager_utils.h>
#include <vect_base.h>
#include <lines.h>
u08 bit=0;
struct cmd_event_result * res = parsed_result;
-
+
if (!strcmp_P(res->arg1, PSTR("all"))) {
- bit = DO_ENCODERS | DO_CS | DO_RS | DO_POS |
- DO_BD | DO_TIMER | DO_POWER;
+ bit = 0xFF;
if (!strcmp_P(res->arg2, PSTR("on")))
mainboard.flags |= bit;
else if (!strcmp_P(res->arg2, PSTR("off")))
mainboard.flags &= bit;
else { /* show */
- printf_P(PSTR("encoders is %s\r\n"),
+ printf_P(PSTR("encoders is %s\r\n"),
(DO_ENCODERS & mainboard.flags) ? "on":"off");
- printf_P(PSTR("cs is %s\r\n"),
+ printf_P(PSTR("cs is %s\r\n"),
(DO_CS & mainboard.flags) ? "on":"off");
- printf_P(PSTR("rs is %s\r\n"),
+ printf_P(PSTR("rs is %s\r\n"),
(DO_RS & mainboard.flags) ? "on":"off");
- printf_P(PSTR("pos is %s\r\n"),
+ printf_P(PSTR("pos is %s\r\n"),
(DO_POS & mainboard.flags) ? "on":"off");
- printf_P(PSTR("bd is %s\r\n"),
+ printf_P(PSTR("bd is %s\r\n"),
(DO_BD & mainboard.flags) ? "on":"off");
- printf_P(PSTR("timer is %s\r\n"),
+ printf_P(PSTR("timer is %s\r\n"),
(DO_TIMER & mainboard.flags) ? "on":"off");
- printf_P(PSTR("power is %s\r\n"),
+ printf_P(PSTR("power is %s\r\n"),
(DO_POWER & mainboard.flags) ? "on":"off");
+ printf_P(PSTR("errblock is %s\r\n"),
+ (DO_ERRBLOCKING & mainboard.flags) ? "on":"off");
}
return;
}
}
else if (!strcmp_P(res->arg1, PSTR("power")))
bit = DO_POWER;
+ else if (!strcmp_P(res->arg1, PSTR("errblock")))
+ bit = DO_ERRBLOCKING;
if (!strcmp_P(res->arg2, PSTR("on")))
mainboard.flags |= bit;
}
mainboard.flags &= (~bit);
}
- printf_P(PSTR("%s is %s\r\n"), res->arg1,
+ printf_P(PSTR("%s is %s\r\n"), res->arg1,
(bit & mainboard.flags) ? "on":"off");
}
prog_char str_event_arg0[] = "event";
parse_pgm_token_string_t cmd_event_arg0 = TOKEN_STRING_INITIALIZER(struct cmd_event_result, arg0, str_event_arg0);
-prog_char str_event_arg1[] = "all#encoders#cs#rs#pos#bd#timer#power";
+prog_char str_event_arg1[] = "all#encoders#cs#rs#pos#bd#timer#power#errblock";
parse_pgm_token_string_t cmd_event_arg1 = TOKEN_STRING_INITIALIZER(struct cmd_event_result, arg1, str_event_arg1);
prog_char str_event_arg2[] = "on#off#show";
parse_pgm_token_string_t cmd_event_arg2 = TOKEN_STRING_INITIALIZER(struct cmd_event_result, arg2, str_event_arg2);
.data = NULL, /* 2nd arg of func */
.help_str = help_event,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_event_arg0,
- (prog_void *)&cmd_event_arg1,
- (prog_void *)&cmd_event_arg2,
+ (prog_void *)&cmd_event_arg0,
+ (prog_void *)&cmd_event_arg1,
+ (prog_void *)&cmd_event_arg2,
NULL,
},
};
printf("not implemented\n");
#else
uint16_t i = 0, ret = 0, ret2 = 0;
-
+
if (mainboard.flags & DO_ENCODERS) {
printf_P(PSTR("Disable encoder event first\r\n"));
return;
.data = NULL, /* 2nd arg of func */
.help_str = help_spi_test,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_spi_test_arg0,
+ (prog_void *)&cmd_spi_test_arg0,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_opponent,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_opponent_arg0,
- (prog_void *)&cmd_opponent_arg1,
+ (prog_void *)&cmd_opponent_arg0,
+ (prog_void *)&cmd_opponent_arg1,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_opponent_set,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_opponent_arg0,
+ (prog_void *)&cmd_opponent_arg0,
(prog_void *)&cmd_opponent_arg1_set,
- (prog_void *)&cmd_opponent_arg2,
- (prog_void *)&cmd_opponent_arg3,
+ (prog_void *)&cmd_opponent_arg2,
+ (prog_void *)&cmd_opponent_arg3,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_start,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_start_arg0,
- (prog_void *)&cmd_start_color,
- (prog_void *)&cmd_start_debug,
+ (prog_void *)&cmd_start_arg0,
+ (prog_void *)&cmd_start_color,
+ (prog_void *)&cmd_start_debug,
NULL,
},
};
static void print_cs(void)
{
printf_P(PSTR("cons_d=% .8"PRIi32" cons_a=% .8"PRIi32" fil_d=% .8"PRIi32" fil_a=% .8"PRIi32" "
- "err_d=% .8"PRIi32" err_a=% .8"PRIi32" out_d=% .8"PRIi32" out_a=% .8"PRIi32"\r\n"),
+ "err_d=% .8"PRIi32" err_a=% .8"PRIi32" out_d=% .8"PRIi32" out_a=% .8"PRIi32"\r\n"),
cs_get_consign(&mainboard.distance.cs),
cs_get_consign(&mainboard.angle.cs),
cs_get_filtered_consign(&mainboard.distance.cs),
static void print_pos(void)
{
- printf_P(PSTR("x=% .8d y=% .8d a=% .8d\r\n"),
+ printf_P(PSTR("x=% .8d y=% .8d a=% .8d\r\n"),
position_get_x_s16(&mainboard.pos),
position_get_y_s16(&mainboard.pos),
position_get_a_deg_s16(&mainboard.pos));
wait_ms(10);
continue;
}
-
+
if (cmd == -1) {
switch(c) {
case '1': print ^= PRINT_POS; break;
case '5': print ^= PRINT_TIME; break;
case '6': print ^= PRINT_BLOCKING; break;
- case 'q':
+ case 'q':
if (mainboard.flags & DO_CS)
strat_hardstop();
pwm_set_and_save(LEFT_PWM, 0);
pwm_set_and_save(LEFT_PWM, 0);
pwm_set_and_save(RIGHT_PWM, 0);
break;
- default:
+ default:
break;
}
}
else {
switch(cmd) {
- case KEY_UP_ARR:
+ case KEY_UP_ARR:
pwm_set_and_save(LEFT_PWM, 1200);
pwm_set_and_save(RIGHT_PWM, 1200);
break;
- case KEY_LEFT_ARR:
+ case KEY_LEFT_ARR:
pwm_set_and_save(LEFT_PWM, -1200);
pwm_set_and_save(RIGHT_PWM, 1200);
break;
- case KEY_DOWN_ARR:
+ case KEY_DOWN_ARR:
pwm_set_and_save(LEFT_PWM, -1200);
pwm_set_and_save(RIGHT_PWM, -1200);
break;
.data = NULL, /* 2nd arg of func */
.help_str = help_interact,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_interact_arg0,
+ (prog_void *)&cmd_interact_arg0,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_color,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_color_arg0,
- (prog_void *)&cmd_color_color,
+ (prog_void *)&cmd_color_arg0,
+ (prog_void *)&cmd_color_color,
NULL,
},
};
{
// struct cmd_rs_result *res = parsed_result;
do {
- printf_P(PSTR("angle cons=% .6"PRIi32" in=% .6"PRIi32" out=% .6"PRIi32" / "),
+ printf_P(PSTR("angle cons=% .6"PRIi32" in=% .6"PRIi32" out=% .6"PRIi32" / "),
cs_get_consign(&mainboard.angle.cs),
cs_get_filtered_feedback(&mainboard.angle.cs),
cs_get_out(&mainboard.angle.cs));
- printf_P(PSTR("distance cons=% .6"PRIi32" in=% .6"PRIi32" out=% .6"PRIi32" / "),
+ printf_P(PSTR("distance cons=% .6"PRIi32" in=% .6"PRIi32" out=% .6"PRIi32" / "),
cs_get_consign(&mainboard.distance.cs),
cs_get_filtered_feedback(&mainboard.distance.cs),
cs_get_out(&mainboard.distance.cs));
.data = NULL, /* 2nd arg of func */
.help_str = help_rs,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_rs_arg0,
- (prog_void *)&cmd_rs_arg1,
+ (prog_void *)&cmd_rs_arg0,
+ (prog_void *)&cmd_rs_arg1,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_i2cdebug,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_i2cdebug_arg0,
+ (prog_void *)&cmd_i2cdebug_arg0,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_cobboard_show,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_cobboard_show_arg0,
- (prog_void *)&cmd_cobboard_show_arg1,
+ (prog_void *)&cmd_cobboard_show_arg0,
+ (prog_void *)&cmd_cobboard_show_arg1,
NULL,
},
};
/* function called when cmd_cobboard_setmode1 is parsed successfully */
static void cmd_cobboard_setmode1_parsed(void *parsed_result, void *data)
{
-#ifdef HOST_VERSION
- printf("not implemented\n");
-#else
struct cmd_cobboard_setmode1_result *res = parsed_result;
if (!strcmp_P(res->arg1, PSTR("init")))
i2c_cobboard_mode_init();
else if (!strcmp_P(res->arg1, PSTR("eject")))
i2c_cobboard_mode_eject();
-#endif
}
prog_char str_cobboard_setmode1_arg0[] = "cobboard";
.data = NULL, /* 2nd arg of func */
.help_str = help_cobboard_setmode1,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_cobboard_setmode1_arg0,
- (prog_void *)&cmd_cobboard_setmode1_arg1,
+ (prog_void *)&cmd_cobboard_setmode1_arg0,
+ (prog_void *)&cmd_cobboard_setmode1_arg1,
NULL,
},
};
/* function called when cmd_cobboard_setmode2 is parsed successfully */
static void cmd_cobboard_setmode2_parsed(void * parsed_result, void * data)
{
-#ifdef HOST_VERSION
- printf("not implemented\n");
-#else
struct cmd_cobboard_setmode2_result *res = parsed_result;
uint8_t side = I2C_LEFT_SIDE;
i2c_cobboard_mode_harvest(side);
else if (!strcmp_P(res->arg1, PSTR("pack")))
i2c_cobboard_mode_pack(side);
-#endif
}
prog_char str_cobboard_setmode2_arg0[] = "cobboard";
.data = NULL, /* 2nd arg of func */
.help_str = help_cobboard_setmode2,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_cobboard_setmode2_arg0,
- (prog_void *)&cmd_cobboard_setmode2_arg1,
- (prog_void *)&cmd_cobboard_setmode2_arg2,
+ (prog_void *)&cmd_cobboard_setmode2_arg0,
+ (prog_void *)&cmd_cobboard_setmode2_arg1,
+ (prog_void *)&cmd_cobboard_setmode2_arg2,
NULL,
},
};
/* function called when cmd_cobboard_setmode3 is parsed successfully */
static void cmd_cobboard_setmode3_parsed(void *parsed_result, void *data)
{
-#ifdef HOST_VERSION
- printf("not implemented\n");
-#else
struct cmd_cobboard_setmode3_result *res = parsed_result;
if (!strcmp_P(res->arg1, PSTR("xxx")))
printf("faux\r\n");
-#endif
}
prog_char str_cobboard_setmode3_arg0[] = "cobboard";
.data = NULL, /* 2nd arg of func */
.help_str = help_cobboard_setmode3,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_cobboard_setmode3_arg0,
- (prog_void *)&cmd_cobboard_setmode3_arg1,
- (prog_void *)&cmd_cobboard_setmode3_arg2,
+ (prog_void *)&cmd_cobboard_setmode3_arg0,
+ (prog_void *)&cmd_cobboard_setmode3_arg1,
+ (prog_void *)&cmd_cobboard_setmode3_arg2,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_ballboard_show,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_ballboard_show_arg0,
- (prog_void *)&cmd_ballboard_show_arg1,
+ (prog_void *)&cmd_ballboard_show_arg0,
+ (prog_void *)&cmd_ballboard_show_arg1,
NULL,
},
};
/* function called when cmd_ballboard_setmode1 is parsed successfully */
static void cmd_ballboard_setmode1_parsed(void *parsed_result, void *data)
{
-#ifdef HOST_VERSION
- printf("not implemented\n");
-#else
struct cmd_ballboard_setmode1_result *res = parsed_result;
if (!strcmp_P(res->arg1, PSTR("init")))
i2c_ballboard_set_mode(I2C_BALLBOARD_MODE_HARVEST);
/* other commands */
-#endif
}
prog_char str_ballboard_setmode1_arg0[] = "ballboard";
.data = NULL, /* 2nd arg of func */
.help_str = help_ballboard_setmode1,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_ballboard_setmode1_arg0,
- (prog_void *)&cmd_ballboard_setmode1_arg1,
+ (prog_void *)&cmd_ballboard_setmode1_arg0,
+ (prog_void *)&cmd_ballboard_setmode1_arg1,
NULL,
},
};
/* function called when cmd_ballboard_setmode2 is parsed successfully */
static void cmd_ballboard_setmode2_parsed(void * parsed_result, void * data)
{
-#ifdef HOST_VERSION
- printf("not implemented\n");
-#else
struct cmd_ballboard_setmode2_result *res = parsed_result;
uint8_t mode = I2C_BALLBOARD_MODE_INIT;
mode = I2C_BALLBOARD_MODE_TAKE_R_FORK;
}
i2c_ballboard_set_mode(mode);
-#endif
}
prog_char str_ballboard_setmode2_arg0[] = "ballboard";
.data = NULL, /* 2nd arg of func */
.help_str = help_ballboard_setmode2,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_ballboard_setmode2_arg0,
- (prog_void *)&cmd_ballboard_setmode2_arg1,
- (prog_void *)&cmd_ballboard_setmode2_arg2,
+ (prog_void *)&cmd_ballboard_setmode2_arg0,
+ (prog_void *)&cmd_ballboard_setmode2_arg1,
+ (prog_void *)&cmd_ballboard_setmode2_arg2,
NULL,
},
};
/* function called when cmd_ballboard_setmode3 is parsed successfully */
static void cmd_ballboard_setmode3_parsed(void *parsed_result, void *data)
{
-#ifdef HOST_VERSION
- printf("not implemented\n");
-#else
struct cmd_ballboard_setmode3_result *res = parsed_result;
if (!strcmp_P(res->arg1, PSTR("xxx")))
printf("faux\r\n");
-#endif
}
prog_char str_ballboard_setmode3_arg0[] = "ballboard";
.data = NULL, /* 2nd arg of func */
.help_str = help_ballboard_setmode3,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_ballboard_setmode3_arg0,
- (prog_void *)&cmd_ballboard_setmode3_arg1,
- (prog_void *)&cmd_ballboard_setmode3_arg2,
+ (prog_void *)&cmd_ballboard_setmode3_arg0,
+ (prog_void *)&cmd_ballboard_setmode3_arg1,
+ (prog_void *)&cmd_ballboard_setmode3_arg2,
NULL,
},
};
.data = NULL, /* 2nd arg of func */
.help_str = help_servo_balls,
.tokens = { /* token list, NULL terminated */
- (prog_void *)&cmd_servo_balls_arg0,
- (prog_void *)&cmd_servo_balls_arg1,
+ (prog_void *)&cmd_servo_balls_arg0,
+ (prog_void *)&cmd_servo_balls_arg1,
NULL,
},
};
static void cmd_clitoid_parsed(void *parsed_result, void *data)
{
struct cmd_clitoid_result *res = parsed_result;
- clitoid(res->alpha_deg, res->beta_deg, res->R_mm,
- res->Vd, res->Amax, res->d_inter_mm);
+/* clitoid(res->alpha_deg, res->beta_deg, res->R_mm, */
+/* res->Vd, res->Amax, res->d_inter_mm); */
+ double x = position_get_x_double(&mainboard.pos);
+ double y = position_get_y_double(&mainboard.pos);
+ double a = position_get_a_rad_double(&mainboard.pos);
+
+ strat_set_speed(res->Vd, SPEED_ANGLE_FAST);
+ trajectory_clitoid(&mainboard.traj, x, y, a, 150.,
+ res->alpha_deg, res->beta_deg, res->R_mm,
+ res->d_inter_mm);
}
prog_char str_clitoid_arg0[] = "clitoid";
},
};
-//////////////////////
-
-// 500 -- 5
-// 400 -- 3
-#define TEST_SPEED 400
-#define TEST_ACC 3
-
-static void line2line(double line1x1, double line1y1,
- double line1x2, double line1y2,
- double line2x1, double line2y1,
- double line2x2, double line2y2,
- double radius, double dist)
-{
- uint8_t err;
- double speed_d, speed_a;
- double distance, angle;
- double line1_angle = atan2(line1y2-line1y1, line1x2-line1x1);
- double line2_angle = atan2(line2y2-line2y1, line2x2-line2x1);
-
- printf_P(PSTR("%s()\r\n"), __FUNCTION__);
-
- strat_set_speed(TEST_SPEED, TEST_SPEED);
- quadramp_set_2nd_order_vars(&mainboard.angle.qr, TEST_ACC, TEST_ACC);
-
- circle_get_da_speed_from_radius(&mainboard.traj, radius,
- &speed_d, &speed_a);
- trajectory_line_abs(&mainboard.traj,
- line1x1, line1y1,
- line1x2, line1y2, 150.);
- err = WAIT_COND_OR_TRAJ_END(distance_from_robot(line1x2, line1y2) <
- dist, TRAJ_FLAGS_NO_NEAR);
- /* circle */
- strat_set_speed(speed_d, speed_a);
- angle = line2_angle - line1_angle;
- distance = angle * radius;
- if (distance < 0)
- distance = -distance;
- angle = simple_modulo_2pi(angle);
- angle = DEG(angle);
- printf_P(PSTR("(%d,%d,%d) "),
- position_get_x_s16(&mainboard.pos),
- position_get_y_s16(&mainboard.pos),
- position_get_a_deg_s16(&mainboard.pos));
- printf_P(PSTR("circle distance=%2.2f angle=%2.2f\r\n"),
- distance, angle);
-
- /* take some margin on dist to avoid deceleration */
- trajectory_d_a_rel(&mainboard.traj, distance + 250, angle);
-
- /* circle exit condition */
- err = WAIT_COND_OR_TRAJ_END(trajectory_angle_finished(&mainboard.traj),
- TRAJ_FLAGS_NO_NEAR);
-
- strat_set_speed(500, 500);
- printf_P(PSTR("(%d,%d,%d) "),
- position_get_x_s16(&mainboard.pos),
- position_get_y_s16(&mainboard.pos),
- position_get_a_deg_s16(&mainboard.pos));
- printf_P(PSTR("line\r\n"));
- trajectory_line_abs(&mainboard.traj,
- line2x1, line2y1,
- line2x2, line2y2, 150.);
-}
-
-static void halfturn(double line1x1, double line1y1,
- double line1x2, double line1y2,
- double line2x1, double line2y1,
- double line2x2, double line2y2,
- double radius, double dist, double dir)
-{
- uint8_t err;
- double speed_d, speed_a;
- double distance, angle;
-
- printf_P(PSTR("%s()\r\n"), __FUNCTION__);
-
- strat_set_speed(TEST_SPEED, TEST_SPEED);
- quadramp_set_2nd_order_vars(&mainboard.angle.qr, TEST_ACC, TEST_ACC);
-
- circle_get_da_speed_from_radius(&mainboard.traj, radius,
- &speed_d, &speed_a);
- trajectory_line_abs(&mainboard.traj,
- line1x1, line1y1,
- line1x2, line1y2, 150.);
- err = WAIT_COND_OR_TRAJ_END(distance_from_robot(line1x2, line1y2) <
- dist, TRAJ_FLAGS_NO_NEAR);
- /* circle */
- strat_set_speed(speed_d, speed_a);
- angle = dir * M_PI/2.;
- distance = angle * radius;
- if (distance < 0)
- distance = -distance;
- angle = simple_modulo_2pi(angle);
- angle = DEG(angle);
-
- /* take some margin on dist to avoid deceleration */
- DEBUG(E_USER_STRAT, "circle1 distance=%2.2f angle=%2.2f",
- distance, angle);
- trajectory_d_a_rel(&mainboard.traj, distance + 500, angle);
-
- /* circle exit condition */
- err = WAIT_COND_OR_TRAJ_END(trajectory_angle_finished(&mainboard.traj),
- TRAJ_FLAGS_NO_NEAR);
-
- DEBUG(E_USER_STRAT, "miniline");
- err = WAIT_COND_OR_TRAJ_END(distance_from_robot(line2x1, line2y1) <
- dist, TRAJ_FLAGS_NO_NEAR);
- DEBUG(E_USER_STRAT, "circle2");
- /* take some margin on dist to avoid deceleration */
- trajectory_d_a_rel(&mainboard.traj, distance + 500, angle);
-
- err = WAIT_COND_OR_TRAJ_END(trajectory_angle_finished(&mainboard.traj),
- TRAJ_FLAGS_NO_NEAR);
-
- strat_set_speed(500, 500);
- DEBUG(E_USER_STRAT, "line");
- trajectory_line_abs(&mainboard.traj,
- line2x1, line2y1,
- line2x2, line2y2, 150.);
-}
-
/**********************************************************/
/* Test */
/* function called when cmd_test is parsed successfully */
static void cmd_test_parsed(void *parsed_result, void *data)
{
- // struct cmd_test_result *res = parsed_result;
-#ifdef HOST_VERSION
- strat_reset_pos(400, 400, 90);
- mainboard.angle.on = 1;
- mainboard.distance.on = 1;
-#endif
- printf_P(PSTR("%s()\r\n"), __FUNCTION__);
- while (!cmdline_keypressed()) {
- /****** PASS1 */
-
-#define DIST_HARD_TURN 260
-#define RADIUS_HARD_TURN 100
-#define DIST_EASY_TURN 190
-#define RADIUS_EASY_TURN 190
-#define DIST_HALF_TURN 225
-#define RADIUS_HALF_TURN 130
-
- /* hard turn */
- line2line(375, 597, 375, 1847,
- 375, 1847, 1050, 1472,
- RADIUS_HARD_TURN, DIST_HARD_TURN);
-
- /* easy left and easy right !*/
- line2line(825, 1596, 1050, 1472,
- 1050, 1472, 1500, 1722,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
- line2line(1050, 1472, 1500, 1722,
- 1500, 1722, 2175, 1347,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
- line2line(1500, 1722, 2175, 1347,
- 2175, 1347, 2175, 847,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
-
- /* half turns */
- halfturn(2175, 1347, 2175, 722,
- 2625, 722, 2625, 1597,
- RADIUS_HALF_TURN, DIST_HALF_TURN, 1.);
- halfturn(2625, 847, 2625, 1722,
- 2175, 1722, 2175, 1097,
- RADIUS_HALF_TURN, DIST_HALF_TURN, 1.);
-
- /* easy turns */
- line2line(2175, 1597, 2175, 1097,
- 2175, 1097, 1500, 722,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
- line2line(2175, 1097, 1500, 722,
- 1500, 722, 1050, 972,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
- line2line(1500, 722, 1050, 972,
- 1050, 972, 375, 597,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
-
- /* hard turn */
- line2line(1050, 972, 375, 597,
- 375, 597, 375, 1097,
- RADIUS_HARD_TURN, DIST_HARD_TURN);
-
- /****** PASS2 */
-
- /* easy turn */
- line2line(375, 597, 375, 1097,
- 375, 1097, 1050, 1472,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
-
- /* hard turn */
- line2line(375, 1097, 1050, 1472,
- 1050, 1472, 375, 1847,
- RADIUS_HARD_TURN, DIST_HARD_TURN);
-
- /* hard turn */
- line2line(1050, 1472, 375, 1847,
- 375, 1847, 375, 1347,
- RADIUS_HARD_TURN, DIST_HARD_TURN);
-
- /* easy turn */
- line2line(375, 1847, 375, 1347,
- 375, 1347, 1050, 972,
- RADIUS_EASY_TURN, DIST_EASY_TURN);
-
- /* hard turn */
- line2line(375, 1347, 1050, 972,
- 1050, 972, 375, 597,
- RADIUS_HARD_TURN, DIST_HARD_TURN);
-
- /* hard turn */
- line2line(1050, 972, 375, 597,
- 375, 597, 375, 1847,
- RADIUS_HARD_TURN, DIST_HARD_TURN);
-
- }
trajectory_hardstop(&mainboard.traj);
}