The next little game in the series where I make a fancy rogue game.
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roguish/tests/collider.cpp

136 lines
3.6 KiB

#include <catch2/catch_test_macros.hpp>
#include <fmt/core.h>
#include <string>
#include "collider.hpp"
#include "dinkyecs.hpp"
using DinkyECS::Entity;
using namespace fmt;
FoundList require_found(const SpatialHashTable& collider, Point at, bool diag, size_t expect_size) {
println("TEST require_found at={},{}", at.x, at.y);
auto [found, nearby] = collider.neighbors(at, diag);
REQUIRE(found == true);
REQUIRE(nearby.size() == expect_size);
return nearby;
}
TEST_CASE("confirm basic collision operations", "[collision]") {
DinkyECS::World world;
Entity player = world.entity();
Entity enemy = world.entity();
SpatialHashTable collider;
collider.insert({11,11}, player);
collider.insert({21,21}, enemy);
{ // not found
auto [found, nearby] = collider.neighbors({1,1});
REQUIRE(!found);
REQUIRE(nearby.empty());
}
// found
FoundList nearby = require_found(collider, {10,10}, true, 1);
REQUIRE(nearby[0] == player);
{ // removed
collider.remove({11,11});
auto [found, nearby] = collider.neighbors({10,10}, true);
REQUIRE(!found);
REQUIRE(nearby.empty());
}
collider.insert({11,11}, player); // setup for the move test
{ // moving, not found
collider.move({11,11}, {12, 12}, player);
auto [found, nearby] = collider.neighbors({10,10}, true);
REQUIRE(!found);
REQUIRE(nearby.empty());
}
nearby = require_found(collider, {11,11}, true, 1);
REQUIRE(nearby[0] == player);
// confirm occupied works
REQUIRE(collider.occupied({12,12}));
REQUIRE(collider.occupied({21,21}));
REQUIRE(!collider.occupied({1,10}));
}
TEST_CASE("confirm multiple entities moving", "[collision]") {
DinkyECS::World world;
Entity player = world.entity();
Entity e1 = world.entity();
Entity e2 = world.entity();
Entity e3 = world.entity();
SpatialHashTable collider;
collider.insert({11,11}, player);
collider.insert({10,10}, e2);
collider.insert({11,10}, e3);
collider.insert({21,21}, e1);
FoundList nearby = require_found(collider, {11,11}, false, 1);
REQUIRE(nearby[0] == e3);
nearby = require_found(collider, {11,11}, true, 2);
REQUIRE(nearby[0] == e3);
REQUIRE(nearby[1] == e2);
collider.move({11,11}, {20,20}, player);
nearby = require_found(collider, {20,20}, true, 1);
REQUIRE(nearby[0] == e1);
}
TEST_CASE("test edge cases that might crash", "[collision]") {
DinkyECS::World world;
Entity player = world.entity();
Entity enemy = world.entity();
SpatialHashTable collider;
collider.insert({0,0}, player);
Point enemy_at = {1, 0};
collider.insert(enemy_at, enemy);
FoundList nearby = require_found(collider, {0,0}, true, 1);
collider.move({1,0}, {1,1}, enemy);
nearby = require_found(collider, {0,0}, true, 1);
REQUIRE(nearby[0] == enemy);
collider.move({1,1}, {0,1}, enemy);
nearby = require_found(collider, {0,0}, true, 1);
REQUIRE(nearby[0] == enemy);
}
TEST_CASE("check all diagonal works", "[collision]") {
DinkyECS::World world;
Entity player = world.entity();
Entity enemy = world.entity();
SpatialHashTable collider;
Point player_at = {1,1};
collider.insert(player_at, player);
Point enemy_at = {1, 0};
collider.insert(enemy_at, enemy);
for(size_t x = 0; x <= 2; x++) {
for(size_t y = 0; y <= 2; y++) {
if(enemy_at.x == player_at.x && enemy_at.y == player_at.y) continue; // skip player spot
FoundList nearby = require_found(collider, player_at, true, 1);
REQUIRE(nearby[0] == enemy);
// move the enemy to a new spot around the player
Point move_to = {enemy_at.x + x, enemy_at.y + y};
collider.move(enemy_at, move_to, enemy);
enemy_at = move_to;
}
}
}