/* copyright (c) 2007 magnus auvinen, see licence.txt for more info */ #include #include "g_game.hpp" const char *TUNING_PARAMS::names[] = { #define MACRO_TUNING_PARAM(name,value) #name, #include "g_tuning.hpp" #undef MACRO_TUNING_PARAM }; bool TUNING_PARAMS::set(int index, float value) { if(index < 0 || index >= num()) return false; ((tune_param *)this)[index] = value; return true; } bool TUNING_PARAMS::get(int index, float *value) { if(index < 0 || index >= num()) return false; *value = (float)((tune_param *)this)[index]; return true; } bool TUNING_PARAMS::set(const char *name, float value) { for(int i = 0; i < num(); i++) if(strcmp(name, names[i]) == 0) return set(i, value); return false; } bool TUNING_PARAMS::get(const char *name, float *value) { for(int i = 0; i < num(); i++) if(strcmp(name, names[i]) == 0) return get(i, value); return false; } // TODO: OPT: rewrite this smarter! void move_point(vec2 *inout_pos, vec2 *inout_vel, float elasticity, int *bounces) { if(bounces) *bounces = 0; vec2 pos = *inout_pos; vec2 vel = *inout_vel; if(col_check_point(pos + vel)) { int affected = 0; if(col_check_point(pos.x + vel.x, pos.y)) { inout_vel->x *= -elasticity; if(bounces) (*bounces)++; affected++; } if(col_check_point(pos.x, pos.y + vel.y)) { inout_vel->y *= -elasticity; if(bounces) (*bounces)++; affected++; } if(affected == 0) { inout_vel->x *= -elasticity; inout_vel->y *= -elasticity; } } else { *inout_pos = pos + vel; } } bool test_box(vec2 pos, vec2 size) { size *= 0.5f; if(col_check_point(pos.x-size.x, pos.y-size.y)) return true; if(col_check_point(pos.x+size.x, pos.y-size.y)) return true; if(col_check_point(pos.x-size.x, pos.y+size.y)) return true; if(col_check_point(pos.x+size.x, pos.y+size.y)) return true; return false; } void move_box(vec2 *inout_pos, vec2 *inout_vel, vec2 size, float elasticity) { // do the move vec2 pos = *inout_pos; vec2 vel = *inout_vel; float distance = length(vel); int max = (int)distance; if(distance > 0.00001f) { //vec2 old_pos = pos; float fraction = 1.0f/(float)(max+1); for(int i = 0; i <= max; i++) { //float amount = i/(float)max; //if(max == 0) //amount = 0; vec2 new_pos = pos + vel*fraction; // TODO: this row is not nice if(test_box(vec2(new_pos.x, new_pos.y), size)) { int hits = 0; if(test_box(vec2(pos.x, new_pos.y), size)) { new_pos.y = pos.y; vel.y *= -elasticity; hits++; } if(test_box(vec2(new_pos.x, pos.y), size)) { new_pos.x = pos.x; vel.x *= -elasticity; hits++; } // neither of the tests got a collision. // this is a real _corner case_! if(hits == 0) { new_pos.y = pos.y; vel.y *= -elasticity; new_pos.x = pos.x; vel.x *= -elasticity; } } pos = new_pos; } } *inout_pos = pos; *inout_vel = vel; } float hermite_basis1(float v) { return 2*v*v*v - 3*v*v+1; } float velocity_ramp(float value, float start, float range, float curvature) { if(value < start) return 1.0f; return 1.0f/pow(curvature, (value-start)/range); } void PLAYER_CORE::reset() { pos = vec2(0,0); vel = vec2(0,0); hook_pos = vec2(0,0); hook_dir = vec2(0,0); hook_tick = 0; hook_state = HOOK_IDLE; hooked_player = -1; jumped = 0; triggered_events = 0; } void PLAYER_CORE::tick() { float phys_size = 28.0f; triggered_events = 0; bool grounded = false; if(col_check_point((int)(pos.x+phys_size/2), (int)(pos.y+phys_size/2+5))) grounded = true; if(col_check_point((int)(pos.x-phys_size/2), (int)(pos.y+phys_size/2+5))) grounded = true; vec2 direction = normalize(vec2(input.target_x, input.target_y)); vel.y += world->tuning.gravity; float max_speed = grounded ? world->tuning.ground_control_speed : world->tuning.air_control_speed; float accel = grounded ? world->tuning.ground_control_accel : world->tuning.air_control_accel; float friction = grounded ? world->tuning.ground_friction : world->tuning.air_friction; // handle movement if(input.direction < 0) vel.x = saturated_add(-max_speed, max_speed, vel.x, -accel); if(input.direction > 0) vel.x = saturated_add(-max_speed, max_speed, vel.x, accel); if(input.direction == 0) vel.x *= friction; // handle jumping // 1 bit = to keep track if a jump has been made on this input // 2 bit = to keep track if a air-jump has been made if(grounded) jumped &= ~2; if(input.jump) { if(!(jumped&1)) { if(grounded) { triggered_events |= COREEVENT_GROUND_JUMP; vel.y = -world->tuning.ground_jump_impulse; jumped |= 1; } else if(!(jumped&2)) { triggered_events |= COREEVENT_AIR_JUMP; vel.y = -world->tuning.air_jump_impulse; jumped |= 3; } } } else jumped &= ~1; // do hook if(input.hook) { if(hook_state == HOOK_IDLE) { hook_state = HOOK_FLYING; hook_pos = pos+direction*phys_size*1.5f; hook_dir = direction; hooked_player = -1; hook_tick = 0; triggered_events |= COREEVENT_HOOK_LAUNCH; } else if(hook_state >= HOOK_RETRACT_START && hook_state < HOOK_RETRACT_END) { hook_state++; } else if(hook_state == HOOK_RETRACT_END) { hook_state = HOOK_RETRACTED; triggered_events |= COREEVENT_HOOK_RETRACT; hook_state = HOOK_RETRACTED; } else if(hook_state == HOOK_FLYING) { vec2 new_pos = hook_pos+hook_dir*world->tuning.hook_fire_speed; if(distance(pos, new_pos) > world->tuning.hook_length) { hook_state = HOOK_RETRACT_START; new_pos = pos + normalize(new_pos-pos) * world->tuning.hook_length; } // make sure that the hook doesn't go though the ground bool going_to_hit_ground = false; if(col_intersect_line(hook_pos, new_pos, &new_pos)) going_to_hit_ground = true; // Check against other players first for(int i = 0; i < MAX_CLIENTS; i++) { PLAYER_CORE *p = world->players[i]; if(!p || p == this) continue; vec2 closest_point = closest_point_on_line(hook_pos, new_pos, p->pos); if(distance(p->pos, closest_point) < phys_size+2.0f) { triggered_events |= COREEVENT_HOOK_ATTACH_PLAYER; hook_state = HOOK_GRABBED; hooked_player = i; break; } } if(hook_state == HOOK_FLYING) { // check against ground if(going_to_hit_ground) { triggered_events |= COREEVENT_HOOK_ATTACH_GROUND; hook_state = HOOK_GRABBED; } hook_pos = new_pos; } } } else { //release_hooked(); hooked_player = -1; hook_state = HOOK_IDLE; hook_pos = pos; } if(hook_state == HOOK_GRABBED) { if(hooked_player != -1) { PLAYER_CORE *p = world->players[hooked_player]; if(p) hook_pos = p->pos; else { // release hook hooked_player = -1; hook_state = HOOK_RETRACTED; hook_pos = pos; } // keep players hooked for a max of 1.5sec //if(server_tick() > hook_tick+(server_tickspeed()*3)/2) //release_hooked(); } // don't do this hook rutine when we are hook to a player if(hooked_player == -1 && distance(hook_pos, pos) > 46.0f) { vec2 hookvel = normalize(hook_pos-pos)*world->tuning.hook_drag_accel; // the hook as more power to drag you up then down. // this makes it easier to get on top of an platform if(hookvel.y > 0) hookvel.y *= 0.3f; // the hook will boost it's power if the player wants to move // in that direction. otherwise it will dampen everything abit if((hookvel.x < 0 && input.direction < 0) || (hookvel.x > 0 && input.direction > 0)) hookvel.x *= 0.95f; else hookvel.x *= 0.75f; vec2 new_vel = vel+hookvel; // check if we are under the legal limit for the hook if(length(new_vel) < world->tuning.hook_drag_speed || length(new_vel) < length(vel)) vel = new_vel; // no problem. apply } // release hook hook_tick++; if(hooked_player != -1 && hook_tick > SERVER_TICK_SPEED*2) { hooked_player = -1; hook_state = HOOK_RETRACTED; hook_pos = pos; } } if(true) { for(int i = 0; i < MAX_CLIENTS; i++) { PLAYER_CORE *p = world->players[i]; if(!p) continue; //player *p = (player*)ent; if(p == this) // || !(p->flags&FLAG_ALIVE) continue; // make sure that we don't nudge our self // handle player <-> player collision float d = distance(pos, p->pos); vec2 dir = normalize(pos - p->pos); if(d < phys_size*1.25f && d > 1.0f) { float a = (phys_size*1.45f - d); // make sure that we don't add excess force by checking the // direction against the current velocity vec2 veldir = normalize(vel); float v = 1-(dot(veldir, dir)+1)/2; vel = vel + dir*a*(v*0.75f); vel = vel * 0.85f; } // handle hook influence if(hooked_player == i) { if(d > phys_size*1.50f) // TODO: fix tweakable variable { float accel = world->tuning.hook_drag_accel * (d/world->tuning.hook_length); float drag_speed = world->tuning.hook_drag_speed; // add force to the hooked player p->vel.x = saturated_add(-drag_speed, drag_speed, p->vel.x, accel*dir.x*1.5f); p->vel.y = saturated_add(-drag_speed, drag_speed, p->vel.y, accel*dir.y*1.5f); // add a little bit force to the guy who has the grip vel.x = saturated_add(-drag_speed, drag_speed, vel.x, -accel*dir.x*0.25f); vel.y = saturated_add(-drag_speed, drag_speed, vel.y, -accel*dir.y*0.25f); } } } } // clamp the velocity to something sane if(length(vel) > 6000) vel = normalize(vel) * 6000; } void PLAYER_CORE::move() { float rampvalue = velocity_ramp(length(vel)*50, world->tuning.velramp_start, world->tuning.velramp_range, world->tuning.velramp_curvature); vel.x = vel.x*rampvalue; move_box(&pos, &vel, vec2(28.0f, 28.0f), 0); vel.x = vel.x*(1.0f/rampvalue); } void PLAYER_CORE::write(NETOBJ_PLAYER_CORE *obj_core) { obj_core->x = (int)pos.x; obj_core->y = (int)pos.y; obj_core->vx = (int)(vel.x*256.0f); obj_core->vy = (int)(vel.y*256.0f); obj_core->hook_state = hook_state; obj_core->hook_tick = hook_tick; obj_core->hook_x = (int)hook_pos.x; obj_core->hook_y = (int)hook_pos.y; obj_core->hook_dx = (int)(hook_dir.x*256.0f); obj_core->hook_dy = (int)(hook_dir.y*256.0f); obj_core->hooked_player = hooked_player; obj_core->jumped = jumped; float a = 0; if(input.target_x == 0) a = atan((float)input.target_y); else a = atan((float)input.target_y/(float)input.target_x); if(input.target_x < 0) a = a+pi; obj_core->angle = (int)(a*256.0f); } void PLAYER_CORE::read(const NETOBJ_PLAYER_CORE *obj_core) { pos.x = obj_core->x; pos.y = obj_core->y; vel.x = obj_core->vx/256.0f; vel.y = obj_core->vy/256.0f; hook_state = obj_core->hook_state; hook_tick = obj_core->hook_tick; hook_pos.x = obj_core->hook_x; hook_pos.y = obj_core->hook_y; hook_dir.x = obj_core->hook_dx/256.0f; hook_dir.y = obj_core->hook_dy/256.0f; hooked_player = obj_core->hooked_player; jumped = obj_core->jumped; } void PLAYER_CORE::quantize() { NETOBJ_PLAYER_CORE c; write(&c); read(&c); }