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BlockPlanet-old/src/localplayer.cpp

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/*
BlockPlanet
Copyright (C) 2012 MiJyn, Joel Leclerc <mijyn@mail.com>
Contributors:
Jeija
Licensed under GPLv3
Based on:
Minetest-c55
Copyright (C) 2010-2011 celeron55, Perttu Ahola <celeron55@gmail.com>
This program 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 2 of the License, or
(at your option) any later version.
This program 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 this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "localplayer.h"
#include "main.h" // For g_settings
#include "event.h"
#include "collision.h"
#include "gamedef.h"
#include "nodedef.h"
#include "settings.h"
#include "map.h"
/*
LocalPlayer
*/
LocalPlayer::LocalPlayer(IGameDef *gamedef):
Player(gamedef),
m_sneak_node(32767,32767,32767),
m_sneak_node_exists(false)
{
// Initialize hp to 0, so that no hearts will be shown if server
// doesn't support health points
hp = 0;
}
LocalPlayer::~LocalPlayer()
{
}
void LocalPlayer::move(f32 dtime, Map &map, f32 pos_max_d,
core::list<CollisionInfo> *collision_info)
{
INodeDefManager *nodemgr = m_gamedef->ndef();
v3f position = getPosition();
v3f oldpos = position;
v3s16 oldpos_i = floatToInt(oldpos, BS);
v3f old_speed = m_speed;
/*std::cout<<"oldpos_i=("<<oldpos_i.X<<","<<oldpos_i.Y<<","
<<oldpos_i.Z<<")"<<std::endl;*/
/*
Calculate new position
*/
position += m_speed * dtime;
// Skip collision detection if a special movement mode is used
bool fly_allowed = m_gamedef->checkLocalPrivilege("fly");
bool free_move = fly_allowed && g_settings->getBool("free_move");
//bool fast_allowed = m_gamedef->checkLocalPrivilege("fast");
//bool fast_move = fast_allowed && g_settings->getBool("fast_move");
//if(free_move)
//{
// setPosition(position);
// return;
//}
/*
Collision detection
*/
// Player position in nodes
v3s16 pos_i = floatToInt(position, BS);
/*
Check if player is in water (the oscillating value)
*/
try{
// If in water, the threshold of coming out is at higher y
if(in_water)
{
v3s16 pp = floatToInt(position + v3f(0,BS*0.1,0), BS);
in_water = nodemgr->get(map.getNode(pp).getContent()).isLiquid();
}
// If not in water, the threshold of going in is at lower y
else
{
v3s16 pp = floatToInt(position + v3f(0,BS*0.5,0), BS);
in_water = nodemgr->get(map.getNode(pp).getContent()).isLiquid();
}
}
catch(InvalidPositionException &e)
{
in_water = false;
}
/*
Check if player is in water (the stable value)
*/
try{
v3s16 pp = floatToInt(position + v3f(0,0,0), BS);
in_water_stable = nodemgr->get(map.getNode(pp).getContent()).isLiquid();
}
catch(InvalidPositionException &e)
{
in_water_stable = false;
}
/*
Check if player is climbing
*/
try {
v3s16 pp = floatToInt(position + v3f(0,0.5*BS,0), BS);
v3s16 pp2 = floatToInt(position + v3f(0,-0.2*BS,0), BS);
is_climbing = ((nodemgr->get(map.getNode(pp).getContent()).climbable ||
nodemgr->get(map.getNode(pp2).getContent()).climbable));
}
catch(InvalidPositionException &e)
{
is_climbing = false;
}
is_flying = free_move;
//is_sprinting = fast_move;
/*
Collision uncertainty radius
Make it a bit larger than the maximum distance of movement
*/
//f32 d = pos_max_d * 1.1;
// A fairly large value in here makes moving smoother
f32 d = 0.15*BS;
// This should always apply, otherwise there are glitches
assert(d > pos_max_d);
float player_radius = BS*0.30;
float player_height = BS*1.55;
// Maximum distance over border for sneaking
f32 sneak_max = BS*0.4;
/*
If sneaking, player has larger collision radius to keep from
falling
*/
/*if(control.sneak)
player_radius = sneak_max + d*1.1;*/
/*
If sneaking, keep in range from the last walked node and don't
fall off from it
*/
if(control.sneak && m_sneak_node_exists)
{
f32 maxd = 0.5*BS + sneak_max;
v3f lwn_f = intToFloat(m_sneak_node, BS);
position.X = rangelim(position.X, lwn_f.X-maxd, lwn_f.X+maxd);
position.Z = rangelim(position.Z, lwn_f.Z-maxd, lwn_f.Z+maxd);
f32 min_y = lwn_f.Y + 0.5*BS;
if(position.Y < min_y)
{
position.Y = min_y;
//v3f old_speed = m_speed;
if(m_speed.Y < 0)
m_speed.Y = 0;
/*if(collision_info)
{
// Report fall collision
if(old_speed.Y < m_speed.Y - 0.1)
{
CollisionInfo info;
info.t = COLLISION_FALL;
info.speed = m_speed.Y - old_speed.Y;
collision_info->push_back(info);
}
}*/
}
}
/*
Calculate player collision box (new and old)
*/
core::aabbox3d<f32> playerbox(
position.X - player_radius,
position.Y - 0.0,
position.Z - player_radius,
position.X + player_radius,
position.Y + player_height,
position.Z + player_radius
);
core::aabbox3d<f32> playerbox_old(
oldpos.X - player_radius,
oldpos.Y - 0.0,
oldpos.Z - player_radius,
oldpos.X + player_radius,
oldpos.Y + player_height,
oldpos.Z + player_radius
);
/*
If the player's feet touch the topside of any node, this is
set to true.
Player is allowed to jump when this is true.
*/
bool touching_ground_was = touching_ground;
touching_ground = false;
/*std::cout<<"Checking collisions for ("
<<oldpos_i.X<<","<<oldpos_i.Y<<","<<oldpos_i.Z
<<") -> ("
<<pos_i.X<<","<<pos_i.Y<<","<<pos_i.Z
<<"):"<<std::endl;*/
bool standing_on_unloaded = false;
/*
Go through every node around the player
*/
for(s16 y = oldpos_i.Y - 1; y <= oldpos_i.Y + 2; y++)
for(s16 z = oldpos_i.Z - 1; z <= oldpos_i.Z + 1; z++)
for(s16 x = oldpos_i.X - 1; x <= oldpos_i.X + 1; x++)
{
bool is_unloaded = false;
try{
// Player collides into walkable nodes
if(nodemgr->get(map.getNode(v3s16(x,y,z))).walkable == false)
continue;
}
catch(InvalidPositionException &e)
{
is_unloaded = true;
// Doing nothing here will block the player from
// walking over map borders
}
core::aabbox3d<f32> nodebox = getNodeBox(v3s16(x,y,z), BS);
/*
See if the player is touching ground.
Player touches ground if player's minimum Y is near node's
maximum Y and player's X-Z-area overlaps with the node's
X-Z-area.
Use 0.15*BS so that it is easier to get on a node.
*/
if(
//fabs(nodebox.MaxEdge.Y-playerbox.MinEdge.Y) < d
fabs(nodebox.MaxEdge.Y-playerbox.MinEdge.Y) < 0.15*BS
&& nodebox.MaxEdge.X-d > playerbox.MinEdge.X
&& nodebox.MinEdge.X+d < playerbox.MaxEdge.X
&& nodebox.MaxEdge.Z-d > playerbox.MinEdge.Z
&& nodebox.MinEdge.Z+d < playerbox.MaxEdge.Z
){
touching_ground = true;
if(is_unloaded)
standing_on_unloaded = true;
}
// If player doesn't intersect with node, ignore node.
if(playerbox.intersectsWithBox(nodebox) == false)
continue;
/*
Go through every axis
*/
v3f dirs[3] = {
v3f(0,0,1), // back-front
v3f(0,1,0), // top-bottom
v3f(1,0,0), // right-left
};
for(u16 i=0; i<3; i++)
{
/*
Calculate values along the axis
*/
f32 nodemax = nodebox.MaxEdge.dotProduct(dirs[i]);
f32 nodemin = nodebox.MinEdge.dotProduct(dirs[i]);
f32 playermax = playerbox.MaxEdge.dotProduct(dirs[i]);
f32 playermin = playerbox.MinEdge.dotProduct(dirs[i]);
f32 playermax_old = playerbox_old.MaxEdge.dotProduct(dirs[i]);
f32 playermin_old = playerbox_old.MinEdge.dotProduct(dirs[i]);
/*
Check collision for the axis.
Collision happens when player is going through a surface.
*/
/*f32 neg_d = d;
f32 pos_d = d;
// Make it easier to get on top of a node
if(i == 1)
neg_d = 0.15*BS;
bool negative_axis_collides =
(nodemax > playermin && nodemax <= playermin_old + neg_d
&& m_speed.dotProduct(dirs[i]) < 0);
bool positive_axis_collides =
(nodemin < playermax && nodemin >= playermax_old - pos_d
&& m_speed.dotProduct(dirs[i]) > 0);*/
bool negative_axis_collides =
(nodemax > playermin && nodemax <= playermin_old + d
&& m_speed.dotProduct(dirs[i]) < 0);
bool positive_axis_collides =
(nodemin < playermax && nodemin >= playermax_old - d
&& m_speed.dotProduct(dirs[i]) > 0);
bool main_axis_collides =
negative_axis_collides || positive_axis_collides;
/*
Check overlap of player and node in other axes
*/
bool other_axes_overlap = true;
for(u16 j=0; j<3; j++)
{
if(j == i)
continue;
f32 nodemax = nodebox.MaxEdge.dotProduct(dirs[j]);
f32 nodemin = nodebox.MinEdge.dotProduct(dirs[j]);
f32 playermax = playerbox.MaxEdge.dotProduct(dirs[j]);
f32 playermin = playerbox.MinEdge.dotProduct(dirs[j]);
if(!(nodemax - d > playermin && nodemin + d < playermax))
{
other_axes_overlap = false;
break;
}
}
/*
If this is a collision, revert the position in the main
direction.
*/
if(other_axes_overlap && main_axis_collides)
{
//v3f old_speed = m_speed;
m_speed -= m_speed.dotProduct(dirs[i]) * dirs[i];
position -= position.dotProduct(dirs[i]) * dirs[i];
position += oldpos.dotProduct(dirs[i]) * dirs[i];
/*if(collision_info)
{
// Report fall collision
if(old_speed.Y < m_speed.Y - 0.1)
{
CollisionInfo info;
info.t = COLLISION_FALL;
info.speed = m_speed.Y - old_speed.Y;
collision_info->push_back(info);
}
}*/
}
}
} // xyz
/*
Check the nodes under the player to see from which node the
player is sneaking from, if any.
*/
{
v3s16 pos_i_bottom = floatToInt(position - v3f(0,BS/2,0), BS);
v2f player_p2df(position.X, position.Z);
f32 min_distance_f = 100000.0*BS;
// If already seeking from some node, compare to it.
/*if(m_sneak_node_exists)
{
v3f sneaknode_pf = intToFloat(m_sneak_node, BS);
v2f sneaknode_p2df(sneaknode_pf.X, sneaknode_pf.Z);
f32 d_horiz_f = player_p2df.getDistanceFrom(sneaknode_p2df);
f32 d_vert_f = fabs(sneaknode_pf.Y + BS*0.5 - position.Y);
// Ignore if player is not on the same level (likely dropped)
if(d_vert_f < 0.15*BS)
min_distance_f = d_horiz_f;
}*/
v3s16 new_sneak_node = m_sneak_node;
for(s16 x=-1; x<=1; x++)
for(s16 z=-1; z<=1; z++)
{
v3s16 p = pos_i_bottom + v3s16(x,0,z);
v3f pf = intToFloat(p, BS);
v2f node_p2df(pf.X, pf.Z);
f32 distance_f = player_p2df.getDistanceFrom(node_p2df);
f32 max_axis_distance_f = MYMAX(
fabs(player_p2df.X-node_p2df.X),
fabs(player_p2df.Y-node_p2df.Y));
if(distance_f > min_distance_f ||
max_axis_distance_f > 0.5*BS + sneak_max + 0.1*BS)
continue;
try{
// The node to be sneaked on has to be walkable
if(nodemgr->get(map.getNode(p)).walkable == false)
continue;
// And the node above it has to be nonwalkable
if(nodemgr->get(map.getNode(p+v3s16(0,1,0))).walkable == true)
continue;
}
catch(InvalidPositionException &e)
{
continue;
}
min_distance_f = distance_f;
new_sneak_node = p;
}
bool sneak_node_found = (min_distance_f < 100000.0*BS*0.9);
if(control.sneak && m_sneak_node_exists)
{
if(sneak_node_found)
m_sneak_node = new_sneak_node;
}
else
{
m_sneak_node = new_sneak_node;
m_sneak_node_exists = sneak_node_found;
}
/*
If sneaking, the player's collision box can be in air, so
this has to be set explicitly
*/
if(sneak_node_found && control.sneak)
touching_ground = true;
}
/*
Set new position
*/
setPosition(position);
/*
Report collisions
*/
if(collision_info)
{
// Report fall collision
if(old_speed.Y < m_speed.Y - 0.1 && !standing_on_unloaded && !free_move)
{
CollisionInfo info;
info.t = COLLISION_FALL;
info.speed = m_speed.Y - old_speed.Y;
collision_info->push_back(info);
}
}
if(!touching_ground_was && touching_ground){
MtEvent *e = new SimpleTriggerEvent("PlayerRegainGround");
m_gamedef->event()->put(e);
}
{
camera_barely_in_ceiling = false;
v3s16 camera_np = floatToInt(getEyePosition(), BS);
MapNode n = map.getNodeNoEx(camera_np);
if(n.getContent() != CONTENT_IGNORE){
if(nodemgr->get(n).walkable){
camera_barely_in_ceiling = true;
}
}
}
}
void LocalPlayer::move(f32 dtime, Map &map, f32 pos_max_d)
{
move(dtime, map, pos_max_d, NULL);
}
void LocalPlayer::applyControl(float dtime)
{
// Random constants
f32 maxspeed = 33.0 * BS;
setPitch(control.pitch);
setYaw(control.yaw);
v3f move_direction = v3f(0,0,8);
move_direction.rotateXZBy(getYaw());
v3f speed = getSpeed();
bool fly_allowed = m_gamedef->checkLocalPrivilege("fly");
bool fast_allowed = m_gamedef->checkLocalPrivilege("fast");
bool free_move = fly_allowed && g_settings->getBool("free_move");
bool fast_move = fast_allowed && g_settings->getBool("fast_move");
bool continuous_forward = g_settings->getBool("continuous_forward");
if (!in_water || free_move)
{
speed.X=speed.X*0.85;
speed.Z=speed.Z*0.85;
} else {
speed.X=speed.X*0.5;
speed.Z=speed.Z*0.5;
}
if (speed.X<0 && speed.X+0.1>0) {speed.X=0;}
if (speed.Z<0 && speed.Z+0.1>0) {speed.Z=0;}
if (free_move || is_climbing)
{
speed.Y=speed.Y*0.85;
if (speed.Y<0 && speed.Y+0.1>0) {speed.Y=0;}
}
// If free movement and fast movement, always move fast
if(continuous_forward)
speed += move_direction;
if(control.up)
{
speed += move_direction;
if (is_sprinting)
{
speed += move_direction*0.5;
}
}
if(control.down)
{
speed -= move_direction;
}
if(control.left)
{
speed += move_direction.crossProduct(v3f(0,1,0));
}
if(control.right)
{
speed += move_direction.crossProduct(v3f(0,-1,0));
}
if(control.jump)
{
if(free_move)
{
speed.Y = 10*BS;
if (fast_move)
speed.Y = 15*BS;
}
if(touching_ground)
{
//NOTE: The d value in move() affects jump height by
//raising the height at which the jump speed is kept
//at its starting value
if(speed.Y >= -0.5*BS)
{
speed.Y = 6.5*BS;
MtEvent *e = new SimpleTriggerEvent("PlayerJump");
m_gamedef->event()->put(e);
}
}
// Use the oscillating value for getting out of water
// (so that the player doesn't fly on the surface)
if(in_water)
{
speed.Y += 0.2*BS;
if (speed.Y > 0) speed.Y+=0.2*BS;
}
if(is_climbing)
{
speed.Y = 4*BS;
}
}
// Auxiliary button 1 (E)
if(control.aux1)
{
if(free_move)
{
speed.Y = -10*BS;
if (fast_move)
speed.Y = -15*BS;
}
if(is_climbing)
{
speed.Y = -3*BS;
}
if(fast_move && !free_move)
{
speed.X=speed.X*1.11;
speed.Z=speed.Z*1.11;
}
}
if(fast_move&&free_move)
{
speed.X=speed.X*1.1;
speed.Z=speed.Z*1.1;
}
if((in_water_stable || in_water) && !free_move)
{
speed.Y=speed.Y*0.95-0.1*BS;
}
if(control.sneak)
{
speed.X = speed.X / 1.5;
speed.Z = speed.Z / 1.5;
}
if(abs(speed.X)>maxspeed) {speed.X=maxspeed*(abs(speed.X)/speed.X);}
if(abs(speed.Y)>maxspeed) {speed.Y=maxspeed*(abs(speed.Y)/speed.Y);}
if(abs(speed.Z)>maxspeed) {speed.Z=maxspeed*(abs(speed.Z)/speed.Z);}
setSpeed(speed);
}
v3s16 LocalPlayer::getStandingNodePos()
{
if(m_sneak_node_exists)
return m_sneak_node;
return floatToInt(getPosition(), BS);
}
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