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rgriege-RunDarwin.c++
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rgriege-RunDarwin.c++
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// -----------------------------
// projects/darwin/RunDarwin.c++
// Copyright (C) 2013
// Glenn P. Downing
// -----------------------------
/*
To run the program:
% g++ -pedantic -std=c++0x -Wall Darwin.c++ RunDarwin.c++ -o RunDarwin
% valgrind RunDarwin > RunDarwin.out
To configure Doxygen:
doxygen -g
That creates the ifle Doxyfile.
Make the following edits:
EXTRACT_ALL = YES
EXTRACT_PRIVATE = YES
EXTRACT_STATIC = YES
GENERATE_LATEX = NO
To document the program:
doxygen Doxyfile
*/
// --------
// includes
// --------
#include <cassert> // assert
#include <cstdlib> // rand, srand
#include <iostream> // cout, endl
#include <stdexcept> // invalid_argument, out_of_range
#include <climits>
#include "Darwin.h"
#define NP UINT_MAX
template <typename T>
std::vector<T*> to_ptrs(std::vector<T>& ts) {
std::vector<T*> ptrs;
for (auto& t : ts) {
ptrs.push_back(&t);
}
return ptrs;
}
// ----
// main
// ----
int main () {
using namespace std;
// ----
// food
// ----
/*
0: left
1: go 0
*/
vector<Instruction> food_program = { {TURN_WEST, NP}, {GO, 0} };
Species food(to_ptrs(food_program), 'f');
// ------
// hopper
// ------
/*
0: hop
1: go 0
*/
vector<Instruction> hopper_program = {{HOP},{GO, 0}};
Species hopper(to_ptrs(hopper_program), 'h');
// -----
// rover
// -----
/*
0: if_enemy 9
1: if_empty 7
2: if_random 5
3: left
4: go 0
5: right
6: go 0
7: hop
8: go 0
9: infect
10: go 0
*/
vector<Instruction> rover_program = { {IF_ENEMY, 9}, {IF_EMPTY, 7}, {IF_RANDOM, 5}, {TURN_WEST, NP},
{GO, 0}, {TURN_EAST, NP}, {GO, 0}, {HOP, NP}, {GO, 0}, {INFECT, NP}, {GO, 0} };
Species rover(to_ptrs(rover_program), 'r');
// ----
// trap
// ----
/*
0: if_enemy 3
1: left
2: go 0
3: infect
4: go 0
*/
vector<Instruction> trap_program = { {IF_ENEMY, 3}, {TURN_WEST, NP}, {GO, 0}, {INFECT, NP}, {GO, 0} };
Species trap(to_ptrs(trap_program), 't');
// ----------
// darwin 8x8
// ----------
try {
cout << "*** Darwin 8x8 ***" << endl;
/*
8x8 Darwin
Hopper, facing south, at (0, 0)
Hopper, facing north, at (7, 7)
Trap, facing east, at (0, 7)
Trap, facing west, at (7, 0)
Simulate 10 moves.
Print every grid.
*/
vector<Creature> creatures = {{&hopper, SOUTH, {0, 0}}, {&hopper, NORTH, {7, 7}},
{&trap, EAST, {0, 7}}, {&trap, WEST, {7, 0}}};
Board board(8, 8, to_ptrs(creatures));
for (int i = 0; i < 10; i++) {
cout << "Turn = " << i << endl;
board.printTurn(cout);
board.runTurn();
}
}
catch (const invalid_argument&) {
assert(false);}
catch (const out_of_range&) {
assert(false);}
// ----------
// darwin 5x5
// ----------
{
cout << "*** Darwin 5x5" << endl;
/*
5x5 Darwin
Trap, facing north, at (2, 3)
Rover, facing north, at (4, 2)
Rover, facing east, at (3, 1)
Rover, facing south, at (0, 4)
Hopper, facing east, at (4, 0)
Simulate 7 moves.
Print every grid.
*/
vector<Creature> creatures = {{&trap, NORTH, {2, 3}}, {&rover, NORTH, {4, 2}},
{&rover, EAST, {3, 1}}, {&rover, SOUTH, {0, 4}}, {&hopper, EAST, {4, 0}}};
Board board(5, 5, to_ptrs(creatures));
for (int i = 0; i < 7; i++) {
cout << "Turn = " << i << endl;
board.printTurn(cout);
board.runTurn();
}
}
// ----------
// darwin 3x3
// ----------
{
cout << "*** Darwin 3x3 ***" << endl;
srand(0);
/*
3x3 Darwin
Trap, facing south, at (1, 1)
Rover, facing east, at (0, 0)
Simulate 16 moves.
Print every grid.
*/
vector<Creature> creatures = {{&trap, SOUTH, {1, 1}}, {&rover, EAST, {0, 0}}};
Board board(3, 3, to_ptrs(creatures));
for (int i = 0; i < 16; i++) {
cout << "Turn = " << i << endl;
board.printTurn(cout);
board.runTurn();
}
}
return 0;}