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💿🐜 Antkeeper source code https://antkeeper.com
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source/src/game/states/play-state.cpp

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/*
* Copyright (C) 2020 Christopher J. Howard
*
* This file is part of Antkeeper source code.
*
* Antkeeper source code 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 3 of the License, or
* (at your option) any later version.
*
* Antkeeper source code is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Antkeeper source code. If not, see <http://www.gnu.org/licenses/>.
*/
#include "animation/ease.hpp"
#include "animation/screen-transition.hpp"
#include "configuration.hpp"
#include "debug/logger.hpp"
#include "entity/archetype.hpp"
#include "game/components/cavity-component.hpp"
#include "game/components/copy-transform-component.hpp"
#include "game/components/copy-translation-component.hpp"
#include "game/components/model-component.hpp"
#include "game/components/placement-component.hpp"
#include "game/components/samara-component.hpp"
#include "game/components/terrain-component.hpp"
#include "game/components/tool-component.hpp"
#include "game/components/transform-component.hpp"
#include "game/entity-commands.hpp"
#include "game/game-context.hpp"
#include "game/states/game-states.hpp"
#include "math/math.hpp"
#include "nest.hpp"
#include "orbit-cam.hpp"
#include "renderer/material.hpp"
#include "renderer/model.hpp"
#include "renderer/passes/sky-pass.hpp"
#include "resources/resource-manager.hpp"
#include "scene/model-instance.hpp"
#include "scene/scene.hpp"
#include "game/systems/control-system.hpp"
#include "utility/fundamental-types.hpp"
void play_state_enter(game_context* ctx)
{
logger* logger = ctx->logger;
logger->push_task("Entering play state");
// Enable sky pass
ctx->overworld_sky_pass->set_enabled(true);
resource_manager* resource_manager = ctx->resource_manager;
entt::registry& ecs_registry = *ctx->ecs_registry;
// Load entity archetypes
ecs::archetype* ant_hill_archetype = resource_manager->load<ecs::archetype>("ant-hill.ent");
ecs::archetype* maple_tree_archetype = resource_manager->load<ecs::archetype>("maple-tree.ent");
ecs::archetype* nest_archetype = resource_manager->load<ecs::archetype>("harvester-nest.ent");
ecs::archetype* samara_archetype = resource_manager->load<ecs::archetype>("samara.ent");
ecs::archetype* forceps_archetype = resource_manager->load<ecs::archetype>("forceps.ent");
ecs::archetype* larva_archetype = resource_manager->load<ecs::archetype>("larva.ent");
ecs::archetype* pebble_archetype = resource_manager->load<ecs::archetype>("pebble.ent");
ecs::archetype* flashlight_archetype = resource_manager->load<ecs::archetype>("flashlight.ent");
ecs::archetype* flashlight_light_cone_archetype = resource_manager->load<ecs::archetype>("flashlight-light-cone.ent");
// Create flashlight + light cone compund entity
flashlight_archetype->assign(ecs_registry, ctx->flashlight_entity);
auto flashlight_light_cone = flashlight_light_cone_archetype->create(ecs_registry);
ec::bind_transform(ecs_registry, flashlight_light_cone, ctx->flashlight_entity);
ec::assign_render_layers(ecs_registry, ctx->flashlight_entity, 2);
ec::assign_render_layers(ecs_registry, flashlight_light_cone, 2);
ecs::placement_component placement;
auto ant_hill_entity = ant_hill_archetype->create(ecs_registry);
placement.ray.origin = {0, 10000, 0};
placement.ray.direction = {0, -1, 0};
ecs_registry.assign<ecs::placement_component>(ant_hill_entity, placement);
float pebble_radius = 300.0f;
int pebble_count = 100;
for (int i = 0; i < pebble_count; ++i)
{
float x = math::random(-pebble_radius, pebble_radius);
float z = math::random(-pebble_radius, pebble_radius);
auto pebble_entity = pebble_archetype->create(ecs_registry);
auto& transform = ecs_registry.get<ecs::transform_component>(pebble_entity);
transform.transform = math::identity_transform<float>;
transform.transform.rotation = math::angle_axis(math::random(0.0f, math::two_pi<float>), {0, 1, 0});
transform.transform.scale = float3{1, 1, 1} * math::random(0.75f, 1.25f);
placement.ray.origin = {x, 10000, z};
ecs_registry.assign<ecs::placement_component>(pebble_entity, placement);
}
auto maple_tree_entity = maple_tree_archetype->create(ecs_registry);
placement.ray.origin = {300, 10000, 200};
placement.ray.direction = {0, -1, 0};
ecs_registry.assign<ecs::placement_component>(maple_tree_entity, placement);
auto nest_entity = nest_archetype->create(ecs_registry);
int terrain_radius = 2;
for (int x = -terrain_radius; x <= terrain_radius; ++x)
{
for (int z = -terrain_radius; z <= terrain_radius; ++z)
{
ecs::terrain_component terrain_component;
terrain_component.subdivisions = TERRAIN_PATCH_RESOLUTION;
terrain_component.x = x;
terrain_component.z = z;
auto terrain_entity = ecs_registry.create();
ecs_registry.assign<ecs::terrain_component>(terrain_entity, terrain_component);
}
}
for (int i = 0; i < 15; ++i)
{
auto samara_entity = samara_archetype->create(ecs_registry);
auto& transform = ecs_registry.get<ecs::transform_component>(samara_entity);
float zone = 200.0f;
transform.transform = math::identity_transform<float>;
transform.transform.translation.x = math::random(-zone, zone);
transform.transform.translation.y = math::random(50.0f, 150.0f);
transform.transform.translation.z = math::random(-zone, zone);
ecs::samara_component samara_component;
samara_component.angle = math::random(0.0f, math::radians(360.0f));
samara_component.direction = math::normalize(float3{math::random(-1.0f, 1.0f), math::random(-1.0f, -5.0f), math::random(-1.0f, 1.0f)});
samara_component.chirality = (math::random(0.0f, 1.0f) < 0.5f) ? -1.0f : 1.0f;
ecs_registry.assign_or_replace<ecs::samara_component>(samara_entity, samara_component);
}
/*
ecs::archetype* grass_archetype = resource_manager->load<ecs::archetype>("grassland-grass.ent");
auto grass_entity_1 = grass_archetype->create(ecs_registry);
auto grass_entity_2 = grass_archetype->create(ecs_registry);
ecs_registry.get<ecs::transform_component>(grass_entity_2).transform.rotation = math::angle_axis(math::radians(120.0f), float3{0, 1, 0});
*/
// Setup overworld camera
camera* camera = ctx->overworld_camera;
orbit_cam* orbit_cam = ctx->orbit_cam;
orbit_cam->attach(camera);
orbit_cam->set_target_focal_point({0, 0, 0});
orbit_cam->set_target_focal_distance(15.0f);
orbit_cam->set_target_elevation(math::radians(25.0f));
orbit_cam->set_target_azimuth(0.0f);
orbit_cam->set_focal_point(orbit_cam->get_target_focal_point());
orbit_cam->set_focal_distance(orbit_cam->get_target_focal_distance());
orbit_cam->set_elevation(orbit_cam->get_target_elevation());
orbit_cam->set_azimuth(orbit_cam->get_target_azimuth());
// Create forceps tool
auto forceps_entity = forceps_archetype->create(ecs_registry);
ecs::tool_component forceps_tool_component;
forceps_tool_component.active = true;
ecs_registry.assign<ecs::tool_component>(forceps_entity, forceps_tool_component);
ctx->overworld_scene->update_tweens();
// Allocate a nest
nest* nest = new ::nest();
// Setup initial nest parameters
float tunnel_radius = 1.15f;
nest->set_tunnel_radius(tunnel_radius);
nest::shaft* central_shaft = nest->get_central_shaft();
central_shaft->chirality = 1.0f;
central_shaft->rotation = math::radians(0.0f);
central_shaft->depth = {0.0f, 200.0f};
central_shaft->radius = {15.0f, 15.0f};
central_shaft->pitch = {40.0f, 40.0f};
central_shaft->translation = {{{0.0f, 0.0f}, {0.0f, 0.0f}}};
central_shaft->current_depth = 0.0f;
for (std::size_t i = 0; i < 4; ++i)
{
nest::chamber chamber;
chamber.shaft = central_shaft;
chamber.depth = (i + 1) * 50.0f;
chamber.rotation = math::radians(0.0f);
chamber.inner_radius = 4.0f;
chamber.outer_radius = 10.0f;
central_shaft->chambers.push_back(chamber);
}
// Dig nest shafts
float shift = 0.1f;
for (int i = 0; i < 800; ++i)
{
ecs::cavity_component cavity;
cavity.position = nest->extend_shaft(*nest->get_central_shaft());
cavity.position += float3{math::random(-shift, shift), math::random(-shift, shift), math::random(-shift, shift)};
cavity.radius = tunnel_radius * math::random(1.0f, 1.1f);
ecs_registry.assign<ecs::cavity_component>(ecs_registry.create(), cavity);
}
// Dig nest chambers
/*
for (int i = 0; i < central_shaft->chambers.size(); ++i)
{
for (int j = 0; j < 150; ++j)
{
ecs::cavity_component cavity;
cavity.position = nest->expand_chamber(central_shaft->chambers[i]);
cavity.position += float3{math::random(-shift, shift), math::random(-shift, shift), math::random(-shift, shift)};
cavity.radius = tunnel_radius * math::random(1.0f, 1.1f);
ecs_registry.assign<ecs::cavity_component>(ecs_registry.create(), cavity);
}
}
*/
// Place larva in chamber
{
auto larva = larva_archetype->create(ecs_registry);
ec::assign_render_layers(ecs_registry, larva, 1);
//ecs::warp_to(ecs_registry, larva, {0, -20, 0});
//auto& transform = ecs_registry.get<ecs::transform_component>(larva_entity);
//transform.transform = math::identity_transform<float>;
//transform.transform.translation = nest->get_shaft_position(*central_shaft, central_shaft->depth[1]);
//transform.transform.translation.y -= 1.0f;
}
control_system* control_system = ctx->control_system;
control_system->update(0.0, 0.0);
control_system->set_nest(nest);
orbit_cam->update(0.0f);
// Start fade in
ctx->fade_transition->transition(1.0f, true, ease<float>::in_quad);
logger->pop_task(EXIT_SUCCESS);
}
void play_state_exit(game_context* ctx)
{
logger* logger = ctx->logger;
logger->push_task("Exiting play state");
logger->pop_task(EXIT_SUCCESS);
}