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authorHoodieJeansJordans <abdaadir@gmail.com>2022-06-05 13:15:48 +0200
committerHoodieJeansJordans <abdaadir@gmail.com>2022-06-05 13:15:48 +0200
commit5692ca8c65f5f5617d6987b610e425a32c0d8e1d (patch)
treec8ba30591ec56024db506221cf03db7968c22a83 /robot/mode_maze.c
parent266fd5ef0c45315fc0bf281a15630a9b4765e68c (diff)
Toevoeging Maze module.
Diffstat (limited to 'robot/mode_maze.c')
-rw-r--r--robot/mode_maze.c141
1 files changed, 140 insertions, 1 deletions
diff --git a/robot/mode_maze.c b/robot/mode_maze.c
index 6ae62be..9570706 100644
--- a/robot/mode_maze.c
+++ b/robot/mode_maze.c
@@ -1,3 +1,142 @@
#include "mode_maze.h"
+#include "orangutan_shim.h"
+void full_rotation(){
+ set_motors(0,0);
+ delay_ms(500);
+ set_motors(60,-60);
+ delay_ms(540);
+ set_motors(0,0);
+ position = read_line(sensors,IR_EMITTERS_ON);
+ delay_ms(500);
+
-void w2_mode_maze() {}
+}
+
+void half_rotation_left(){
+ set_motors(0,0);
+ set_motors(50,50);
+ delay_ms(150);
+ set_motors(-30,30);
+ delay_ms(600);
+ set_motors(0,0);
+ position = read_line(sensors,IR_EMITTERS_ON);
+ delay_ms(500);
+
+}
+void half_rotation_right(){
+ set_motors(0,0);
+ set_motors(50,50);
+ delay_ms(150);
+ set_motors(30,-30);
+ delay_ms(600);
+ set_motors(0,0);
+ set_motors(50,50);
+ delay_ms(150);
+ position = read_line(sensors,IR_EMITTERS_ON);
+ delay_ms(500);
+}
+void crossway_detection(){
+ half_rotation_left();
+}
+void intersection_detection(){
+ half_rotation_left();
+}
+void w2_mode_maze() {
+ while(1)
+ {
+ // Get the position of the line. Note that we *must* provide
+ // the "sensors" argument to read_line() here, even though we
+ // are not interested in the individual sensor readings.
+ position = read_line(sensors,IR_EMITTERS_ON);
+
+ // The "proportional" term should be 0 when we are on the line.
+ int proportional = ((int)position) - 2000;
+
+ // Compute the derivative (change) and integral (sum) of the
+ // position.
+ int derivative = proportional - last_proportional;
+ integral += proportional;
+
+ // Remember the last position.
+ last_proportional = proportional;
+
+ // Compute the difference between the two motor power settings,
+ // m1 - m2. If this is a positive number the robot will turn
+ // to the right. If it is a negative number, the robot will
+ // turn to the left, and the magnitude of the number determines
+ // the sharpness of the turn.
+ int power_difference = proportional/20 + integral/10000 + derivative*3/2;
+
+ // Compute the actual motor settings. We never set either motor
+ // to a negative value.
+
+ const int max = 60;
+ if(power_difference > max)
+ power_difference = max;
+ if(power_difference < -max)
+ power_difference = -max;
+
+ if(sensors[0] < 100 && sensors[1] <100 && sensors[2] < 100 && sensors[3] < 100 && sensors[4] < 100){
+ // grid detectie
+ /*set_motors(0,0);
+ delay_ms(450);
+ set_motors(50,50);
+ delay_ms(180);
+ if ( sensors[2] >= 100 || sensors[3] >= 100 || sensors[1] >= 100 || sensors[0] >= 100 || sensors[4] >= 100)
+ {
+ set_motors(0,0);
+ delay_ms(15000);
+ set_motors(50,50);
+ delay_ms(180);
+ if (sensors[2] >= 100 || sensors[3] >= 100 || sensors[1] >= 100 || sensors[0] >= 100 || sensors[4] >= 100 )
+ {
+ set_motors(0,0);
+ delay_ms(1500);
+ set_motors(50,50);
+ delay_ms(180);
+ if (sensors[2] >= 100 || sensors[3] >= 100 || sensors[1] >= 100 || sensors[0] >= 100 || sensors[4] >= 100)
+ {
+ print("GRID!");
+ set_motors(0,0);
+ delay_ms(10000);
+
+ }
+ }
+
+ }
+ else if(sensors[0] < 100 && sensors[1] <100 && sensors[2] < 100 && sensors[3] < 100 && sensors[4] < 100){*/
+ full_rotation();
+ //}
+
+ }
+ else if(sensors[0] >= 500 && sensors[1] >= 250 && sensors[2] >= 500 && sensors[3] >= 250 &&sensors[4] >= 500){
+ crossway_detection();
+ }
+ //else if(sensors[0] >= 500 && sensors[2] < 50 &&sensors[4] >= 500){
+ //intersection_detection();
+ //}
+ else if (sensors[0] >= 500 && sensors[1] >= 200 && sensors[4] < 100){
+ half_rotation_left();
+ }
+ //else if(sensors[4] >= 500 && sensors[3] >= 200 && sensors[0] < 100){
+ //half_rotation_right();
+ //}
+ else{
+ if(power_difference < 0 && (sensors[2] > 100 || sensors[3] > 100 || sensors[1] > 100) )
+ set_motors(max+power_difference, max);
+ else if( power_difference > 0 && ( sensors[2] > 100 || sensors[3] > 100 || sensors[1] > 100) )
+ set_motors(max, max-power_difference);
+
+ }
+
+ }
+
+ // This part of the code is never reached. A robot should
+ // never reach the end of its program, or unpredictable behavior
+ // will result as random code starts getting executed. If you
+ // really want to stop all actions at some point, set your motors
+ // to 0,0 and run the following command to loop forever:
+ //
+ // while(1);
+}
+}