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mbed.cpp
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mbed.cpp
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#include <stdio.h>
#include <stdint.h>
#include <pthread.h>
#include <unistd.h>
#include <cstring>
#include <stdlib.h>
#include <time.h>
#include "mbed.h"
char soln_moves[] = "UDLRFB";
uint8_t board_ids[] = {0,3,4,1,2,5};
sequence_t solve_sequence;
move_t moves[30];
// 0, ... ,5, UDLRFB
// 6, 2
// 7, '
// 8, <space>
// -1 other
int get_char_type(char a)
{
for(int i = 0; i < 6; i )
if(soln_moves[i] == a)
return i;
if(a == '2')
return 6;
if(a == 39) // '
return 7;
if(a == ' ')
return 8;
printf("[ERROR] unrecognized character in solution %c (decimal %d)\n",a,a);
}
void string_to_sequence(char* string)
{
int move = 0;
for(int i = 0; i < strlen(string); i )
{
int type = get_char_type(string[i]);
// direction
if(i%3 == 0)
{
if(type>5 || type <0)
{
printf("[ERROR] Could not find direction for move %d! Got %c instead.\n",move,string[i]);
return;
}
moves[move].face = (face_t)type;
}
if(i%3 == 1)
{
if(type == 6)
moves[move].n_turns = 2;
else if(type == 7)
moves[move].n_turns = -1;
else if(type == 8)
moves[move].n_turns = 1;
else
{
printf("[ERROR] Not a valid move modifier for move %d: %c\n",move,string[i]);
return;
}
}
if(i%3 == 2)
{
if(type != 8)
{
printf("[ERROR] Got invalid space character for move %d: %c\n",move,string[i]);
return;
}
move ;
}
}
solve_sequence.n_moves = move;
solve_sequence.moves = moves;
}
sequence_t* get_sequence()
{
return &solve_sequence;
}
void print_sequence()
{
int n_moves = solve_sequence.n_moves;
printf("Sequence with %d moves\n",n_moves);
for(int i = 0; i < n_moves; i )
printf("\tMove face %c %d turns.\n",soln_moves[solve_sequence.moves[i].face],solve_sequence.moves[i].n_turns);
}
int sequence_to_serial(sequence_t* seq, uint8_t* buffer, int n_bytes)
{
printf("[sequence to serial] sequence with %d moves.\n",seq->n_moves);
if(n_bytes < seq->n_moves)
{
printf("SERIAL BUFFER TOO SMALL!\n");
return 1;
}
// i = 0
buffer[0] = K_START;
// i = 1
buffer[1] = K_MOVES (seq->n_moves & 0x3f);
// i = 2 .. (n_moves 2)
for(int i = 0; i < seq->n_moves; i )
buffer[i 2] = (0x7 & (seq->moves[i].n_turns)) (0x38 & ((uint8_t)board_ids[seq->moves[i].face]<<3));
return seq->n_moves 2;
}
int serial_to_sequence(sequence_t* seq, uint8_t* buffer, int n_bytes)
{
int start_index = -1;
int n_moves = -1;
for(int i = 0; i < n_bytes; i )
{
if(buffer[i] == K_START)
{
start_index = i 2;
break;
}
}
if(start_index == -1)
{
printf("FAILED TO FIND START OF MOVE!\n");
return 1;
}
if((buffer[start_index-1] & 0xC0) != K_MOVES)
{
printf("COULD NOT FIND NUMBER OF MOVES!\n");
return 1;
}
n_moves = buffer[start_index-1]&0x3f;
seq->n_moves = n_moves;
if(n_moves < 15)
{
printf("NUMBER OF MOVES LESS THAN 15.\n");
return 1;
}
for(int i = 0; i < n_moves; i )
{
uint8_t ser_move = buffer[start_index i];
int8_t face = (face_t)((ser_move>>3) & 0x07);
int8_t n_turns = (int8_t)((ser_move) & 0x07);
// 2's complement negation
if(n_turns > 2) n_turns |= 0xf8;
if(face < 0 || face > 5)
{
printf("GOT INVALID FACE.\n");
return 1;
}
if(!(n_turns == -2 || n_turns == -1 || n_turns == 1 || n_turns == 2))
{
printf("GOT INVALID NUMBER OF TURNS: %d\n",n_turns);
printf("Serial data: " BYTE_TO_BINARY_PATTERN "\n",BYTE_TO_BINARY(ser_move));
return 1;
}
seq->moves[i].n_turns = n_turns;
seq->moves[i].face = (face_t)face;
}
return 0;
}
int states[6] = {0,0,0,0,0,0};
int move_counts[6] = {0,0,0,0,0,0};
int wait_counter[6] = {0,0,0,0,0,0};
//states:
// 0 - start command
// 1 - delay for command
// 2 - wait for and
// 3 - delay for and
// 4 - done.
void reset_mbed()
{
for(int i = 0; i < 6; i )
{
states[i] = 0;
move_counts[i] = 0;
wait_counter[i] = 0;
}
}
void* run_sequence_2(void* command)
{
mbed_info_t* cmd = (mbed_info_t*)command;
int n_moves = cmd->seq->n_moves;
int n_turns = 0;
if(states[cmd->face] == 0)
{
cmd->set_and(0,cmd->face); // and off
// check if done
if(move_counts[cmd->face] > n_moves)
{
cmd->set_and(1,cmd->face);
states[cmd->face] = 4;
return NULL;
}
// check how many turns needed
if(cmd->face == cmd->seq->moves[move_counts[cmd->face]].face)
{
n_turns = cmd->seq->moves[move_counts[cmd->face]].n_turns;
}
else n_turns = 0;
// increment move counter
move_counts[cmd->face] ;
// rotate if needed
if(n_turns)
cmd->rotate(n_turns,cmd->face);
// wait...
states[cmd->face] = 1;
wait_counter[cmd->face] = 0;
return NULL;
}
else if(states[cmd->face] == 1)
{
//printf("b%d 1\n",cmd->face);
wait_counter[cmd->face] ;
if(wait_counter[cmd->face] < 500) return NULL;
states[cmd->face] = 2;
cmd->set_and(1,cmd->face);
return NULL;
}
else if(states[cmd->face] == 2)
{
//printf("b%d 2\n",cmd->face);
//printf("b 1 %d\n",cmd->face);
if(cmd->get_and())
{
wait_counter[cmd->face] = 0;
states[cmd->face] = 3;
return NULL;
}
}
else if(states[cmd->face] == 3)
{
//printf("b%d 3\n",cmd->face);
if(wait_counter[cmd->face] < 100) return NULL;
states[cmd->face] = 0;
cmd->set_and(0,cmd->face);
return NULL;
}
else if(states[cmd->face] == 4)
;
return NULL;
//printf("b%d 4\n",cmd->face);
}
void print_sequence_2(sequence_t* seq, uint8_t* buffer)
{
printf("Sequence of %d moves:\n",seq->n_moves);
for(int i = 0; i < seq->n_moves; i )
{
printf(" Move %d: face %d, %d turns.\n",i,(int)seq->moves[i].face,seq->moves[i].n_turns);
if(buffer != NULL)
printf(" Buffer: " BYTE_TO_BINARY_PATTERN "\n",BYTE_TO_BINARY(buffer[2 i]));
}
uint8_t buffer_2[300];
sequence_to_serial(seq,buffer_2,seq->n_moves);
for(int i = 0; i < seq->n_moves; i )
printf("0x%hhx, ",buffer_2[i]);
printf("\n");
}
void make_random_sequence(sequence_t* seq)
{
int n_moves = random(15,18);
seq->n_moves = n_moves;
for(int i = 0; i < n_moves; i )
{
seq->moves[i].face = (face_t)random(0,5);
int n_turns = random(-2,1);
if(n_turns==0)n_turns=2;
seq->moves[i].n_turns = n_turns;
printf("random move %d: %d turns, face %d\n",i,n_turns,seq->moves[i].face);
}
}
void reset_sequence(sequence_t* seq)
{
seq->n_moves = 0;
for(int i = 0; i < 30; i )
{
seq->moves[i].face = (face_t)0;
seq->moves[i].n_turns = 0;
}
}
int random(int min, int max)
{
int rn = (rand() % (max 1 - min)) min;
if(rn > max || rn < min)
printf("RANDOM ERROR\n");
return rn;
}