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/*
Minetest-c55
Copyright (C) 2010 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.
*/
#ifndef MAPNODE_HEADER
#define MAPNODE_HEADER
#include <iostream>
#include "common_irrlicht.h"
#include "light.h"
#include "utility.h"
#include "exceptions.h"
#include "serialization.h"
#include "tile.h"
// Size of node in rendering units
#define BS 10
#define MATERIALS_COUNT 256
/*
Ignored node.
Anything that stores MapNodes doesn't have to preserve parameters
associated with this material.
Doesn't create faces with anything and is considered being
out-of-map in the game map.
*/
#define CONTENT_IGNORE 255
#define CONTENT_IGNORE_DEFAULT_PARAM 0
/*
The common material through which the player can walk and which
is transparent to light
*/
#define CONTENT_AIR 254
/*
Suggested materials:
GRAVEL
- Dynamics of gravel: if there is a drop of more than two
blocks on any side, it will drop in there. Is this doable?
New naming scheme:
- Material = irrlicht's Material class
- Content = (u8) content of a node
- Tile = (u16) Material ID at some side of a node
*/
enum Content
{
CONTENT_STONE,
CONTENT_GRASS,
CONTENT_WATER,
CONTENT_TORCH,
CONTENT_TREE,
CONTENT_LEAVES,
CONTENT_GRASS_FOOTSTEPS,
CONTENT_MESE,
CONTENT_MUD,
CONTENT_OCEAN,
CONTENT_CLOUD,
CONTENT_COALSTONE,
// This is set to the number of the actual values in this enum
USEFUL_CONTENT_COUNT
};
extern u16 g_content_tiles[USEFUL_CONTENT_COUNT][6];
extern const char * g_content_inventory_textures[USEFUL_CONTENT_COUNT];
/*
If true, the material allows light propagation and brightness is stored
in param.
*/
inline bool light_propagates_content(u8 m)
{
return (m == CONTENT_AIR || m == CONTENT_TORCH || m == CONTENT_WATER || m == CONTENT_OCEAN);
}
/*
If true, the material allows lossless sunlight propagation.
*/
inline bool sunlight_propagates_content(u8 m)
{
return (m == CONTENT_AIR || m == CONTENT_TORCH);
}
/*
On a node-node surface, the material of the node with higher solidness
is used for drawing.
0: Invisible
1: Transparent
2: Opaque
*/
inline u8 content_solidness(u8 m)
{
// As of now, every pseudo node like torches are added to this
if(m == CONTENT_AIR || m == CONTENT_TORCH)
return 0;
if(m == CONTENT_WATER || m == CONTENT_OCEAN)
return 1;
return 2;
}
// Objects collide with walkable contents
inline bool content_walkable(u8 m)
{
return (m != CONTENT_AIR && m != CONTENT_WATER && m != CONTENT_OCEAN && m != CONTENT_TORCH);
}
// A liquid resists fast movement
inline bool content_liquid(u8 m)
{
return (m == CONTENT_WATER || m == CONTENT_OCEAN);
}
// Pointable contents can be pointed to in the map
inline bool content_pointable(u8 m)
{
return (m != CONTENT_AIR && m != CONTENT_WATER && m != CONTENT_OCEAN);
}
inline bool content_diggable(u8 m)
{
return (m != CONTENT_AIR && m != CONTENT_WATER && m != CONTENT_OCEAN);
}
inline bool content_buildable_to(u8 m)
{
return (m == CONTENT_AIR || m == CONTENT_WATER || m == CONTENT_OCEAN);
}
/*
Returns true for contents that form the base ground that
follows the main heightmap
*/
inline bool is_ground_content(u8 m)
{
return(
m == CONTENT_STONE ||
m == CONTENT_GRASS ||
m == CONTENT_GRASS_FOOTSTEPS ||
m == CONTENT_MESE ||
m == CONTENT_MUD ||
m == CONTENT_COALSTONE
);
}
inline bool is_mineral(u8 c)
{
return(c == CONTENT_MESE
|| c == CONTENT_COALSTONE);
}
/*inline bool content_has_faces(u8 c)
{
return (m != CONTENT_IGNORE
&& m != CONTENT_AIR
&& m != CONTENT_TORCH);
}*/
/*
Nodes make a face if contents differ and solidness differs.
Return value:
0: No face
1: Face uses m1's content
2: Face uses m2's content
*/
inline u8 face_contents(u8 m1, u8 m2)
{
if(m1 == CONTENT_IGNORE || m2 == CONTENT_IGNORE)
return 0;
bool contents_differ = (m1 != m2);
bool solidness_differs = (content_solidness(m1) != content_solidness(m2));
bool makes_face = contents_differ && solidness_differs;
if(makes_face == false)
return 0;
if(content_solidness(m1) > content_solidness(m2))
return 1;
else
return 2;
}
inline bool liquid_replaces_content(u8 c)
{
return (c == CONTENT_AIR || c == CONTENT_TORCH);
}
/*
When placing a node, drection info is added to it if this is true
*/
inline bool content_directional(u8 c)
{
return (c == CONTENT_TORCH);
}
/*
Packs directions like (1,0,0), (1,-1,0)
*/
inline u8 packDir(v3s16 dir)
{
u8 b = 0;
if(dir.X > 0)
b |= (1<<0);
else if(dir.X < 0)
b |= (1<<1);
if(dir.Y > 0)
b |= (1<<2);
else if(dir.Y < 0)
b |= (1<<3);
if(dir.Z > 0)
b |= (1<<4);
else if(dir.Z < 0)
b |= (1<<5);
return b;
}
inline v3s16 unpackDir(u8 b)
{
v3s16 d(0,0,0);
if(b & (1<<0))
d.X = 1;
else if(b & (1<<1))
d.X = -1;
if(b & (1<<2))
d.Y = 1;
else if(b & (1<<3))
d.Y = -1;
if(b & (1<<4))
d.Z = 1;
else if(b & (1<<5))
d.Z = -1;
return d;
}
inline u16 content_tile(u8 c, v3s16 dir)
{
if(c == CONTENT_IGNORE || c == CONTENT_AIR
|| c >= USEFUL_CONTENT_COUNT)
return TILE_NONE;
s32 dir_i = -1;
if(dir == v3s16(0,1,0))
dir_i = 0;
else if(dir == v3s16(0,-1,0))
dir_i = 1;
else if(dir == v3s16(1,0,0))
dir_i = 2;
else if(dir == v3s16(-1,0,0))
dir_i = 3;
else if(dir == v3s16(0,0,1))
dir_i = 4;
else if(dir == v3s16(0,0,-1))
dir_i = 5;
/*if(dir_i == -1)
return TILE_NONE;*/
assert(dir_i != -1);
return g_content_tiles[c][dir_i];
}
enum LightBank
{
LIGHTBANK_DAY,
LIGHTBANK_NIGHT
};
struct MapNode
{
// Content
u8 d;
/*
Misc parameter. Initialized to 0.
- For light_propagates() blocks, this is light intensity,
stored logarithmically from 0 to LIGHT_MAX.
Sunlight is LIGHT_SUN, which is LIGHT_MAX+1.
*/
s8 param;
union
{
/*
Pressure for liquids
*/
u8 pressure;
/*
Direction for torches and other stuff.
If possible, packed with packDir.
*/
u8 dir;
};
MapNode(const MapNode & n)
{
*this = n;
}
MapNode(u8 data=CONTENT_AIR, u8 a_param=0, u8 a_pressure=0)
{
d = data;
param = a_param;
pressure = a_pressure;
}
bool operator==(const MapNode &other)
{
return (d == other.d
&& param == other.param
&& pressure == other.pressure);
}
bool light_propagates()
{
return light_propagates_content(d);
}
bool sunlight_propagates()
{
return sunlight_propagates_content(d);
}
u8 solidness()
{
return content_solidness(d);
}
u8 light_source()
{
/*
Note that a block that isn't light_propagates() can be a light source.
*/
if(d == CONTENT_TORCH)
return LIGHT_MAX;
return 0;
}
u8 getLightBanksWithSource()
{
// Select the brightest of [light source, propagated light]
u8 lightday = 0;
u8 lightnight = 0;
if(light_propagates())
{
lightday = param & 0x0f;
lightnight = (param>>4)&0x0f;
}
if(light_source() > lightday)
lightday = light_source();
if(light_source() > lightnight)
lightnight = light_source();
return (lightday&0x0f) | ((lightnight<<4)&0xf0);
}
void setLightBanks(u8 a_light)
{
param = a_light;
}
u8 getLight(enum LightBank bank)
{
// Select the brightest of [light source, propagated light]
u8 light = 0;
if(light_propagates())
{
if(bank == LIGHTBANK_DAY)
light = param & 0x0f;
else if(bank == LIGHTBANK_NIGHT)
light = (param>>4)&0x0f;
else
assert(0);
}
if(light_source() > light)
light = light_source();
return light;
}
// 0 <= daylight_factor <= 1000
// 0 <= return value <= LIGHT_SUN
u8 getLightBlend(u32 daylight_factor)
{
u8 l = ((daylight_factor * getLight(LIGHTBANK_DAY)
+ (1000-daylight_factor) * getLight(LIGHTBANK_NIGHT))
)/1000;
u8 max = LIGHT_MAX;
if(getLight(LIGHTBANK_DAY) == LIGHT_SUN)
max = LIGHT_SUN;
if(l > max)
l = max;
return l;
}
/*// 0 <= daylight_factor <= 1000
// 0 <= return value <= 255
u8 getLightBlend(u32 daylight_factor)
{
u8 daylight = decode_light(getLight(LIGHTBANK_DAY));
u8 nightlight = decode_light(getLight(LIGHTBANK_NIGHT));
u8 mix = ((daylight_factor * daylight
+ (1000-daylight_factor) * nightlight)
)/1000;
return mix;
}*/
void setLight(enum LightBank bank, u8 a_light)
{
// If not transparent, can't set light
if(light_propagates() == false)
return;
if(bank == LIGHTBANK_DAY)
{
param &= 0xf0;
param |= a_light & 0x0f;
}
else if(bank == LIGHTBANK_NIGHT)
{
param &= 0x0f;
param |= (a_light & 0x0f)<<4;
}
else
assert(0);
}
u16 getTile(v3s16 dir)
{
return content_tile(d, dir);
}
/*
These serialization functions are used when informing client
of a single node add
*/
static u32 serializedLength(u8 version)
{
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: MapNode format not supported");
if(version == 0)
return 1;
else if(version <= 9)
return 2;
else
return 3;
}
void serialize(u8 *dest, u8 version)
{
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: MapNode format not supported");
if(version == 0)
{
dest[0] = d;
}
else if(version <= 9)
{
dest[0] = d;
dest[1] = param;
}
else
{
dest[0] = d;
dest[1] = param;
dest[2] = pressure;
}
}
void deSerialize(u8 *source, u8 version)
{
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: MapNode format not supported");
if(version == 0)
{
d = source[0];
}
else if(version == 1)
{
d = source[0];
// This version doesn't support saved lighting
if(light_propagates() || light_source() > 0)
param = 0;
else
param = source[1];
}
else if(version <= 9)
{
d = source[0];
param = source[1];
}
else
{
d = source[0];
param = source[1];
pressure = source[2];
}
}
};
/*
Returns integer position of the node in given
floating point position.
*/
inline v3s16 floatToInt(v3f p)
{
v3s16 p2(
(p.X + (p.X>0 ? BS/2 : -BS/2))/BS,
(p.Y + (p.Y>0 ? BS/2 : -BS/2))/BS,
(p.Z + (p.Z>0 ? BS/2 : -BS/2))/BS);
return p2;
}
inline v3f intToFloat(v3s16 p)
{
v3f p2(
p.X * BS,
p.Y * BS,
p.Z * BS
);
return p2;
}
#endif
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