205 lines
6.2 KiB
C
205 lines
6.2 KiB
C
#include "systems.h"
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#include "../game_state.h"
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#include "../input.h"
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#include "../pathfinding.h"
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#include <math.h>
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#include <raymath.h>
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bool entitySetPath(const ecs_entity_t entity, const Vector2 target, Game *game) {
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const Vector2 *pPath = ecs_get(ECS, entity, Position);
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BZ_ASSERT(pPath);
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const Vector2 start = *pPath;
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Path path = {NULL, 0};
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const bool foundPath = pathfindAStar(&(PathfindingDesc) {
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.start = start,
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.target = target,
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.map = &game->map,
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.outPath = &path,
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.pool = game->pools.pathData,
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.alloc = &game->stackAlloc,
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});
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if (foundPath) {
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BZ_ASSERT(path.paths);
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ecs_set_ptr(ECS, entity, Path, &path);
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return true;
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}
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return false;
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}
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static Position getBottomLeftPos(Position pos, Size size) {
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return (Position) {pos.x - size.x * 0.5f, pos.y - size.y * 0.5f};
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}
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void entityPathRemove(ecs_iter_t *it) {
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Game *game = ecs_singleton_get_mut(ECS, Game);
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for (i32 i = 0; i < it->count; i++) {
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ecs_entity_t entity = it->entities[i];
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ecs_remove(ECS, entity, TargetPosition);
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}
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}
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void entityUpdateSpatialID(ecs_iter_t *it) {
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Game *game = ecs_singleton_get_mut(ECS, Game);
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Position *position = ecs_field(it, Position, 1);
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Position *size = ecs_field(it, Position, 2);
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//Velocity *velocity = ecs_field(it, Velocity, 3);
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SpatialGridID *id = ecs_field(it, SpatialGridID, 4);
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for (i32 i = 0; i < it->count; i++) {
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Position pos = getBottomLeftPos(position[i], size[i]);
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bzSpatialGridUpdate(game->entityGrid, id[i], pos.x, pos.y, size[i].x, size[i].y);
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}
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}
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void entityUpdateKinematic(ecs_iter_t *it) {
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Position *position = ecs_field(it, Position, 1);
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Rotation *rotation = ecs_field(it, Rotation, 2);
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Velocity *velocity = ecs_field(it, Velocity, 3);
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Steering *steering = ecs_field(it, Steering, 4);
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f32 dt = it->delta_time;
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for (i32 i = 0; i < it->count; i++) {
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// Update position and rotation
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// position += velocity * dt
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position[i] = Vector2Add(position[i], Vector2Scale(velocity[i], dt));
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// Update velocity and angular velocity
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// velocity += steering.liner * dt
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velocity[i] = Vector2Add(velocity[i], Vector2Scale(steering[i], dt * 10));
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if (Vector2LengthSqr(steering[i]) == 0) {
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// Decay velocity
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velocity[i] = Vector2Scale(velocity[i], 1 - (dt * 5.0f));
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}
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// Reset steering
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steering[i] = Vector2Zero();
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{
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const InputState *input = ecs_singleton_get(ECS, InputState);
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Vector2 mouse = input->mouseDownWorld;
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f32 rot = Vector2Angle(position[i], mouse) + 270 * DEG2RAD;
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//rotation[i] = rot;
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}
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// Check for speeding and clip
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const f32 maxSpeed = 15.0f;
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if (Vector2Length(velocity[i]) > maxSpeed) {
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velocity[i] = Vector2Normalize(velocity[i]);
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velocity[i] = Vector2Scale(velocity[i], maxSpeed);
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}
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}
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}
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void entityMoveToTarget(ecs_iter_t *it) {
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Position *position = ecs_field(it, Position, 1);
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Rotation *rotation = ecs_field(it, Rotation, 2);
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Velocity *velocity = ecs_field(it, Velocity, 3);
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TargetPosition *targetPos = ecs_field(it, TargetPosition, 4);
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Steering *steering = ecs_field(it, Steering, 5);
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for (i32 i = 0; i < it->count; i++) {
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Position target = targetPos[i];
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steering[i] = Vector2Subtract(target, position[i]);
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f32 dst = Vector2LengthSqr(steering[i]);
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f32 maxAccel = 10.0f;
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steering[i] = Vector2Normalize(steering[i]);
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steering[i] = Vector2Scale(steering[i], maxAccel);
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if (Vector2Length(velocity[i]) > 10.0f) {
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f32 rot = Vector2Angle(position[i], target);
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//rotation[i] = rot;
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}
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if (dst < 8.0f) {
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// Arrived
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ecs_remove(ECS, it->entities[i], TargetPosition);
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}
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}
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}
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void entityFollowPath(ecs_iter_t *it) {
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const Game *game = ecs_singleton_get(ECS, Game);
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Path *path = ecs_field(it, Path, 1);
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for (i32 i = 0; i < it->count; i++) {
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const ecs_entity_t entity = it->entities[i];
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if (!ecs_has(ECS, entity, TargetPosition)) {
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if (path[i].curWaypoint >= path[i].paths->numWaypoints) {
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path[i].curWaypoint = 0;
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PathData *oldPath = path[i].paths;
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bzObjectPoolRelease(game->pools.pathData, oldPath);
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path[i].paths = path[i].paths->next;
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if (!path[i].paths) ecs_remove(ECS, it->entities[i], Path);
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}
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if (path[i].paths) {
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TargetPosition target = path[i].paths->waypoints[path[i].curWaypoint];
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path[i].curWaypoint++;
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ecs_set_ptr(ECS, entity, TargetPosition, &target);
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}
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}
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}
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}
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void renderColliders(ecs_iter_t *it) {
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Position *pos = ecs_field(it, Position, 1);
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Size *size = ecs_field(it, Size, 2);
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for (i32 i = 0; i < it->count; i++) {
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f32 posX = pos[i].x - size[i].x * 0.5f;
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f32 posY = pos[i].y - size[i].y * 0.5f;
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DrawRectangleLines(posX, posY, size[i].x, size[i].y, RED);
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}
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}
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void renderRotationDirection(ecs_iter_t *it) {
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Position *pos = ecs_field(it, Position, 1);
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Rotation *rot = ecs_field(it, Rotation, 2);
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for (i32 i = 0; i < it->count; i++) {
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Vector2 v = {10.0f, 0.0f};
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v = Vector2Rotate(v, rot[i]);
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v = Vector2Add(v, pos[i]);
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DrawCircle(v.x, v.y, 1.0f, RED);
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}
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}
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void renderDebugPath(ecs_iter_t *it) {
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Path *path = ecs_field(it, Path, 1);
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for (i32 i = 0; i < it->count; i++) {
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PathData *pathData = path[i].paths;
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bool first = true;
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while (pathData) {
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for (i32 iPath = 0; iPath < pathData->numWaypoints; iPath++) {
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Color color = RED;
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if (first && iPath < path[i].curWaypoint)
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color = GREEN;
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else if (first && iPath == path[i].curWaypoint)
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color = ORANGE;
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color.a = 180;
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Position pos = pathData->waypoints[iPath];
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DrawCircle(pos.x, pos.y, 3, color);
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}
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first = false;
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pathData = pathData->next;
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}
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}
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}
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