minetest/src/mapblock_mesh.cpp

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/*
2013-02-24 18:40:43 +01:00
Minetest
2013-02-24 19:38:45 +01:00
Copyright (C) 2010-2013 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 Lesser General Public License as published by
the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser 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 "mapblock_mesh.h"
#include "light.h"
#include "mapblock.h"
#include "map.h"
#include "profiler.h"
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#include "nodedef.h"
#include "mesh.h"
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#include "minimap.h"
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#include "content_mapblock.h"
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#include "noise.h"
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#include "shader.h"
#include "settings.h"
#include "util/directiontables.h"
#include <IMeshManipulator.h>
/*
MeshMakeData
*/
MeshMakeData::MeshMakeData(Client *client, bool use_shaders,
bool use_tangent_vertices):
m_vmanip(),
m_blockpos(-1337,-1337,-1337),
m_crack_pos_relative(-1337, -1337, -1337),
m_smooth_lighting(false),
m_show_hud(false),
m_client(client),
m_use_shaders(use_shaders),
m_use_tangent_vertices(use_tangent_vertices)
{}
void MeshMakeData::fill(MapBlock *block)
{
m_blockpos = block->getPos();
v3s16 blockpos_nodes = m_blockpos*MAP_BLOCKSIZE;
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/*
Copy data
*/
// Allocate this block + neighbors
m_vmanip.clear();
VoxelArea voxel_area(blockpos_nodes - v3s16(1,1,1) * MAP_BLOCKSIZE,
blockpos_nodes + v3s16(1,1,1) * MAP_BLOCKSIZE*2-v3s16(1,1,1));
m_vmanip.addArea(voxel_area);
{
//TimeTaker timer("copy central block data");
// 0ms
// Copy our data
block->copyTo(m_vmanip);
}
{
//TimeTaker timer("copy neighbor block data");
// 0ms
/*
Copy neighbors. This is lightning fast.
Copying only the borders would be *very* slow.
*/
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// Get map
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Map *map = block->getParent();
for(u16 i=0; i<26; i++)
{
const v3s16 &dir = g_26dirs[i];
v3s16 bp = m_blockpos + dir;
MapBlock *b = map->getBlockNoCreateNoEx(bp);
if(b)
b->copyTo(m_vmanip);
}
}
}
void MeshMakeData::fillSingleNode(MapNode *node)
{
m_blockpos = v3s16(0,0,0);
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v3s16 blockpos_nodes = v3s16(0,0,0);
VoxelArea area(blockpos_nodes-v3s16(1,1,1)*MAP_BLOCKSIZE,
blockpos_nodes+v3s16(1,1,1)*MAP_BLOCKSIZE*2-v3s16(1,1,1));
s32 volume = area.getVolume();
s32 our_node_index = area.index(1,1,1);
// Allocate this block + neighbors
m_vmanip.clear();
m_vmanip.addArea(area);
// Fill in data
MapNode *data = new MapNode[volume];
for(s32 i = 0; i < volume; i++)
{
if(i == our_node_index)
{
data[i] = *node;
}
else
{
data[i] = MapNode(CONTENT_AIR, LIGHT_MAX, 0);
}
}
m_vmanip.copyFrom(data, area, area.MinEdge, area.MinEdge, area.getExtent());
delete[] data;
}
void MeshMakeData::setCrack(int crack_level, v3s16 crack_pos)
{
if(crack_level >= 0)
m_crack_pos_relative = crack_pos - m_blockpos*MAP_BLOCKSIZE;
}
void MeshMakeData::setSmoothLighting(bool smooth_lighting)
{
m_smooth_lighting = smooth_lighting;
}
/*
Light and vertex color functions
*/
/*
Calculate non-smooth lighting at interior of node.
Single light bank.
*/
static u8 getInteriorLight(enum LightBank bank, MapNode n, s32 increment,
INodeDefManager *ndef)
{
u8 light = n.getLight(bank, ndef);
while(increment > 0)
{
light = undiminish_light(light);
--increment;
}
while(increment < 0)
{
light = diminish_light(light);
++increment;
}
return decode_light(light);
}
/*
Calculate non-smooth lighting at interior of node.
Both light banks.
*/
u16 getInteriorLight(MapNode n, s32 increment, INodeDefManager *ndef)
{
u16 day = getInteriorLight(LIGHTBANK_DAY, n, increment, ndef);
u16 night = getInteriorLight(LIGHTBANK_NIGHT, n, increment, ndef);
return day | (night << 8);
}
/*
Calculate non-smooth lighting at face of node.
Single light bank.
*/
static u8 getFaceLight(enum LightBank bank, MapNode n, MapNode n2,
v3s16 face_dir, INodeDefManager *ndef)
{
u8 light;
u8 l1 = n.getLight(bank, ndef);
u8 l2 = n2.getLight(bank, ndef);
if(l1 > l2)
light = l1;
else
light = l2;
// Boost light level for light sources
u8 light_source = MYMAX(ndef->get(n).light_source,
ndef->get(n2).light_source);
if(light_source > light)
light = light_source;
return decode_light(light);
}
/*
Calculate non-smooth lighting at face of node.
Both light banks.
*/
u16 getFaceLight(MapNode n, MapNode n2, v3s16 face_dir, INodeDefManager *ndef)
{
u16 day = getFaceLight(LIGHTBANK_DAY, n, n2, face_dir, ndef);
u16 night = getFaceLight(LIGHTBANK_NIGHT, n, n2, face_dir, ndef);
return day | (night << 8);
}
/*
Calculate smooth lighting at the XYZ- corner of p.
Both light banks
*/
static u16 getSmoothLightCombined(v3s16 p, MeshMakeData *data)
{
static const v3s16 dirs8[8] = {
v3s16(0,0,0),
v3s16(0,0,1),
v3s16(0,1,0),
v3s16(0,1,1),
v3s16(1,0,0),
v3s16(1,1,0),
v3s16(1,0,1),
v3s16(1,1,1),
};
INodeDefManager *ndef = data->m_client->ndef();
u16 ambient_occlusion = 0;
u16 light_count = 0;
u8 light_source_max = 0;
u16 light_day = 0;
u16 light_night = 0;
for (u32 i = 0; i < 8; i++)
{
MapNode n = data->m_vmanip.getNodeNoExNoEmerge(p - dirs8[i]);
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// if it's CONTENT_IGNORE we can't do any light calculations
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if (n.getContent() == CONTENT_IGNORE) {
continue;
}
const ContentFeatures &f = ndef->get(n);
if (f.light_source > light_source_max)
light_source_max = f.light_source;
// Check f.solidness because fast-style leaves look better this way
if (f.param_type == CPT_LIGHT && f.solidness != 2) {
light_day += decode_light(n.getLightNoChecks(LIGHTBANK_DAY, &f));
light_night += decode_light(n.getLightNoChecks(LIGHTBANK_NIGHT, &f));
light_count++;
} else {
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ambient_occlusion++;
}
}
if(light_count == 0)
return 0xffff;
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light_day /= light_count;
light_night /= light_count;
// Boost brightness around light sources
bool skip_ambient_occlusion_day = false;
if(decode_light(light_source_max) >= light_day) {
light_day = decode_light(light_source_max);
skip_ambient_occlusion_day = true;
}
bool skip_ambient_occlusion_night = false;
if(decode_light(light_source_max) >= light_night) {
light_night = decode_light(light_source_max);
skip_ambient_occlusion_night = true;
}
if (ambient_occlusion > 4)
{
static const float ao_gamma = rangelim(
g_settings->getFloat("ambient_occlusion_gamma"), 0.25, 4.0);
// Table of gamma space multiply factors.
static const float light_amount[3] = {
powf(0.75, 1.0 / ao_gamma),
powf(0.5, 1.0 / ao_gamma),
powf(0.25, 1.0 / ao_gamma)
};
//calculate table index for gamma space multiplier
ambient_occlusion -= 5;
if (!skip_ambient_occlusion_day)
light_day = rangelim(core::round32(light_day*light_amount[ambient_occlusion]), 0, 255);
if (!skip_ambient_occlusion_night)
light_night = rangelim(core::round32(light_night*light_amount[ambient_occlusion]), 0, 255);
}
return light_day | (light_night << 8);
}
/*
Calculate smooth lighting at the given corner of p.
Both light banks.
*/
u16 getSmoothLight(v3s16 p, v3s16 corner, MeshMakeData *data)
{
if(corner.X == 1) p.X += 1;
// else corner.X == -1
if(corner.Y == 1) p.Y += 1;
// else corner.Y == -1
if(corner.Z == 1) p.Z += 1;
// else corner.Z == -1
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return getSmoothLightCombined(p, data);
}
void get_sunlight_color(video::SColorf *sunlight, u32 daynight_ratio){
f32 rg = daynight_ratio / 1000.0f - 0.04f;
f32 b = (0.98f * daynight_ratio) / 1000.0f + 0.078f;
sunlight->r = rg;
sunlight->g = rg;
sunlight->b = b;
}
void final_color_blend(video::SColor *result,
u16 light, u32 daynight_ratio)
{
video::SColorf dayLight;
get_sunlight_color(&dayLight, daynight_ratio);
final_color_blend(result,
encode_light_and_color(light, video::SColor(0xFFFFFFFF), 0), dayLight);
}
void final_color_blend(video::SColor *result,
const video::SColor &data, const video::SColorf &dayLight)
{
static const video::SColorf artificialColor(1.04f, 1.04f, 1.04f);
video::SColorf c(data);
f32 n = 1 - c.a;
f32 r = c.r * (c.a * dayLight.r + n * artificialColor.r) * 2.0f;
f32 g = c.g * (c.a * dayLight.g + n * artificialColor.g) * 2.0f;
f32 b = c.b * (c.a * dayLight.b + n * artificialColor.b) * 2.0f;
// Emphase blue a bit in darker places
// Each entry of this array represents a range of 8 blue levels
static const u8 emphase_blue_when_dark[32] = {
1, 4, 6, 6, 6, 5, 4, 3, 2, 1, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
};
b += emphase_blue_when_dark[irr::core::clamp((s32) ((r + g + b) / 3 * 255),
0, 255) / 8] / 255.0f;
result->setRed(core::clamp((s32) (r * 255.0f), 0, 255));
result->setGreen(core::clamp((s32) (g * 255.0f), 0, 255));
result->setBlue(core::clamp((s32) (b * 255.0f), 0, 255));
}
/*
Mesh generation helpers
*/
/*
vertex_dirs: v3s16[4]
*/
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static void getNodeVertexDirs(v3s16 dir, v3s16 *vertex_dirs)
{
/*
If looked from outside the node towards the face, the corners are:
0: bottom-right
1: bottom-left
2: top-left
3: top-right
*/
if(dir == v3s16(0,0,1))
{
// If looking towards z+, this is the face that is behind
// the center point, facing towards z+.
vertex_dirs[0] = v3s16(-1,-1, 1);
vertex_dirs[1] = v3s16( 1,-1, 1);
vertex_dirs[2] = v3s16( 1, 1, 1);
vertex_dirs[3] = v3s16(-1, 1, 1);
}
else if(dir == v3s16(0,0,-1))
{
// faces towards Z-
vertex_dirs[0] = v3s16( 1,-1,-1);
vertex_dirs[1] = v3s16(-1,-1,-1);
vertex_dirs[2] = v3s16(-1, 1,-1);
vertex_dirs[3] = v3s16( 1, 1,-1);
}
else if(dir == v3s16(1,0,0))
{
// faces towards X+
vertex_dirs[0] = v3s16( 1,-1, 1);
vertex_dirs[1] = v3s16( 1,-1,-1);
vertex_dirs[2] = v3s16( 1, 1,-1);
vertex_dirs[3] = v3s16( 1, 1, 1);
}
else if(dir == v3s16(-1,0,0))
{
// faces towards X-
vertex_dirs[0] = v3s16(-1,-1,-1);
vertex_dirs[1] = v3s16(-1,-1, 1);
vertex_dirs[2] = v3s16(-1, 1, 1);
vertex_dirs[3] = v3s16(-1, 1,-1);
}
else if(dir == v3s16(0,1,0))
{
// faces towards Y+ (assume Z- as "down" in texture)
vertex_dirs[0] = v3s16( 1, 1,-1);
vertex_dirs[1] = v3s16(-1, 1,-1);
vertex_dirs[2] = v3s16(-1, 1, 1);
vertex_dirs[3] = v3s16( 1, 1, 1);
}
else if(dir == v3s16(0,-1,0))
{
// faces towards Y- (assume Z+ as "down" in texture)
vertex_dirs[0] = v3s16( 1,-1, 1);
vertex_dirs[1] = v3s16(-1,-1, 1);
vertex_dirs[2] = v3s16(-1,-1,-1);
vertex_dirs[3] = v3s16( 1,-1,-1);
}
}
struct FastFace
{
TileSpec tile;
video::S3DVertex vertices[4]; // Precalculated vertices
};
static void makeFastFace(TileSpec tile, u16 li0, u16 li1, u16 li2, u16 li3,
v3f p, v3s16 dir, v3f scale, std::vector<FastFace> &dest)
{
// Position is at the center of the cube.
v3f pos = p * BS;
float x0 = 0.0;
float y0 = 0.0;
float w = 1.0;
float h = 1.0;
v3f vertex_pos[4];
v3s16 vertex_dirs[4];
getNodeVertexDirs(dir, vertex_dirs);
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v3s16 t;
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u16 t1;
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switch (tile.rotation)
{
case 0:
break;
case 1: //R90
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[3];
vertex_dirs[3] = vertex_dirs[2];
vertex_dirs[2] = vertex_dirs[1];
vertex_dirs[1] = t;
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t1=li0;
li0=li3;
li3=li2;
li2=li1;
li1=t1;
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break;
case 2: //R180
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[2];
vertex_dirs[2] = t;
t = vertex_dirs[1];
vertex_dirs[1] = vertex_dirs[3];
vertex_dirs[3] = t;
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t1 = li0;
li0 = li2;
li2 = t1;
t1 = li1;
li1 = li3;
li3 = t1;
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break;
case 3: //R270
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[1];
vertex_dirs[1] = vertex_dirs[2];
vertex_dirs[2] = vertex_dirs[3];
vertex_dirs[3] = t;
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t1 = li0;
li0 = li1;
li1 = li2;
li2 = li3;
li3 = t1;
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break;
case 4: //FXR90
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[3];
vertex_dirs[3] = vertex_dirs[2];
vertex_dirs[2] = vertex_dirs[1];
vertex_dirs[1] = t;
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t1 = li0;
li0 = li3;
li3 = li2;
li2 = li1;
li1 = t1;
y0 += h;
h *= -1;
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break;
case 5: //FXR270
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[1];
vertex_dirs[1] = vertex_dirs[2];
vertex_dirs[2] = vertex_dirs[3];
vertex_dirs[3] = t;
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t1 = li0;
li0 = li1;
li1 = li2;
li2 = li3;
li3 = t1;
y0 += h;
h *= -1;
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break;
case 6: //FYR90
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[3];
vertex_dirs[3] = vertex_dirs[2];
vertex_dirs[2] = vertex_dirs[1];
vertex_dirs[1] = t;
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t1 = li0;
li0 = li3;
li3 = li2;
li2 = li1;
li1 = t1;
x0 += w;
w *= -1;
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break;
case 7: //FYR270
t = vertex_dirs[0];
vertex_dirs[0] = vertex_dirs[1];
vertex_dirs[1] = vertex_dirs[2];
vertex_dirs[2] = vertex_dirs[3];
vertex_dirs[3] = t;
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t1 = li0;
li0 = li1;
li1 = li2;
li2 = li3;
li3 = t1;
x0 += w;
w *= -1;
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break;
case 8: //FX
y0 += h;
h *= -1;
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break;
case 9: //FY
x0 += w;
w *= -1;
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break;
default:
break;
}
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for(u16 i=0; i<4; i++)
{
vertex_pos[i] = v3f(
BS/2*vertex_dirs[i].X,
BS/2*vertex_dirs[i].Y,
BS/2*vertex_dirs[i].Z
);
}
for(u16 i=0; i<4; i++)
{
vertex_pos[i].X *= scale.X;
vertex_pos[i].Y *= scale.Y;
vertex_pos[i].Z *= scale.Z;
vertex_pos[i] += pos;
}
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f32 abs_scale = 1.0;
if (scale.X < 0.999 || scale.X > 1.001) abs_scale = scale.X;
else if(scale.Y < 0.999 || scale.Y > 1.001) abs_scale = scale.Y;
else if(scale.Z < 0.999 || scale.Z > 1.001) abs_scale = scale.Z;
v3f normal(dir.X, dir.Y, dir.Z);
dest.push_back(FastFace());
FastFace& face = *dest.rbegin();
u16 li[4] = { li0, li1, li2, li3 };
v2f32 f[4] = {
core::vector2d<f32>(x0 + w * abs_scale, y0 + h),
core::vector2d<f32>(x0, y0 + h),
core::vector2d<f32>(x0, y0),
core::vector2d<f32>(x0 + w * abs_scale, y0) };
for (u8 i = 0; i < 4; i++) {
video::SColor c = encode_light_and_color(li[i], tile.color,
tile.emissive_light);
if (!tile.emissive_light)
applyFacesShading(c, normal);
face.vertices[i] = video::S3DVertex(vertex_pos[i], normal, c, f[i]);
}
face.tile = tile;
}
/*
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
equivalent: Whether the blocks share the same face (eg. water and glass)
TODO: Add 3: Both faces drawn with backface culling, remove equivalent
*/
static u8 face_contents(content_t m1, content_t m2, bool *equivalent,
INodeDefManager *ndef)
{
*equivalent = false;
if(m1 == CONTENT_IGNORE || m2 == CONTENT_IGNORE)
return 0;
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bool contents_differ = (m1 != m2);
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const ContentFeatures &f1 = ndef->get(m1);
const ContentFeatures &f2 = ndef->get(m2);
// Contents don't differ for different forms of same liquid
if(f1.sameLiquid(f2))
contents_differ = false;
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u8 c1 = f1.solidness;
u8 c2 = f2.solidness;
bool solidness_differs = (c1 != c2);
bool makes_face = contents_differ && solidness_differs;
if(makes_face == false)
return 0;
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if(c1 == 0)
c1 = f1.visual_solidness;
if(c2 == 0)
c2 = f2.visual_solidness;
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if(c1 == c2){
*equivalent = true;
// If same solidness, liquid takes precense
if(f1.isLiquid())
return 1;
if(f2.isLiquid())
return 2;
}
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if(c1 > c2)
return 1;
else
return 2;
}
/*
Gets nth node tile (0 <= n <= 5).
*/
TileSpec getNodeTileN(MapNode mn, v3s16 p, u8 tileindex, MeshMakeData *data)
{
INodeDefManager *ndef = data->m_client->ndef();
const ContentFeatures &f = ndef->get(mn);
TileSpec spec = f.tiles[tileindex];
if (!spec.has_color)
mn.getColor(f, &spec.color);
// Apply temporary crack
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if (p == data->m_crack_pos_relative)
spec.material_flags |= MATERIAL_FLAG_CRACK;
return spec;
}
/*
Gets node tile given a face direction.
*/
TileSpec getNodeTile(MapNode mn, v3s16 p, v3s16 dir, MeshMakeData *data)
{
INodeDefManager *ndef = data->m_client->ndef();
// Direction must be (1,0,0), (-1,0,0), (0,1,0), (0,-1,0),
// (0,0,1), (0,0,-1) or (0,0,0)
assert(dir.X * dir.X + dir.Y * dir.Y + dir.Z * dir.Z <= 1);
// Convert direction to single integer for table lookup
// 0 = (0,0,0)
// 1 = (1,0,0)
// 2 = (0,1,0)
// 3 = (0,0,1)
// 4 = invalid, treat as (0,0,0)
// 5 = (0,0,-1)
// 6 = (0,-1,0)
// 7 = (-1,0,0)
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u8 dir_i = ((dir.X + 2 * dir.Y + 3 * dir.Z) & 7)*2;
// Get rotation for things like chests
u8 facedir = mn.getFaceDir(ndef);
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static const u16 dir_to_tile[24 * 16] =
{
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// 0 +X +Y +Z -Z -Y -X -> value=tile,rotation
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0,0, 2,0 , 0,0 , 4,0 , 0,0, 5,0 , 1,0 , 3,0 , // rotate around y+ 0 - 3
0,0, 4,0 , 0,3 , 3,0 , 0,0, 2,0 , 1,1 , 5,0 ,
0,0, 3,0 , 0,2 , 5,0 , 0,0, 4,0 , 1,2 , 2,0 ,
0,0, 5,0 , 0,1 , 2,0 , 0,0, 3,0 , 1,3 , 4,0 ,
0,0, 2,3 , 5,0 , 0,2 , 0,0, 1,0 , 4,2 , 3,1 , // rotate around z+ 4 - 7
0,0, 4,3 , 2,0 , 0,1 , 0,0, 1,1 , 3,2 , 5,1 ,
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0,0, 3,3 , 4,0 , 0,0 , 0,0, 1,2 , 5,2 , 2,1 ,
0,0, 5,3 , 3,0 , 0,3 , 0,0, 1,3 , 2,2 , 4,1 ,
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0,0, 2,1 , 4,2 , 1,2 , 0,0, 0,0 , 5,0 , 3,3 , // rotate around z- 8 - 11
0,0, 4,1 , 3,2 , 1,3 , 0,0, 0,3 , 2,0 , 5,3 ,
0,0, 3,1 , 5,2 , 1,0 , 0,0, 0,2 , 4,0 , 2,3 ,
0,0, 5,1 , 2,2 , 1,1 , 0,0, 0,1 , 3,0 , 4,3 ,
0,0, 0,3 , 3,3 , 4,1 , 0,0, 5,3 , 2,3 , 1,3 , // rotate around x+ 12 - 15
0,0, 0,2 , 5,3 , 3,1 , 0,0, 2,3 , 4,3 , 1,0 ,
0,0, 0,1 , 2,3 , 5,1 , 0,0, 4,3 , 3,3 , 1,1 ,
0,0, 0,0 , 4,3 , 2,1 , 0,0, 3,3 , 5,3 , 1,2 ,
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0,0, 1,1 , 2,1 , 4,3 , 0,0, 5,1 , 3,1 , 0,1 , // rotate around x- 16 - 19
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0,0, 1,2 , 4,1 , 3,3 , 0,0, 2,1 , 5,1 , 0,0 ,
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0,0, 1,3 , 3,1 , 5,3 , 0,0, 4,1 , 2,1 , 0,3 ,
0,0, 1,0 , 5,1 , 2,3 , 0,0, 3,1 , 4,1 , 0,2 ,
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0,0, 3,2 , 1,2 , 4,2 , 0,0, 5,2 , 0,2 , 2,2 , // rotate around y- 20 - 23
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0,0, 5,2 , 1,3 , 3,2 , 0,0, 2,2 , 0,1 , 4,2 ,
0,0, 2,2 , 1,0 , 5,2 , 0,0, 4,2 , 0,0 , 3,2 ,
0,0, 4,2 , 1,1 , 2,2 , 0,0, 3,2 , 0,3 , 5,2
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};
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u16 tile_index=facedir*16 + dir_i;
TileSpec spec = getNodeTileN(mn, p, dir_to_tile[tile_index], data);
spec.rotation=dir_to_tile[tile_index + 1];
spec.texture = data->m_client->tsrc()->getTexture(spec.texture_id);
return spec;
}
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static void getTileInfo(
// Input:
MeshMakeData *data,
const v3s16 &p,
const v3s16 &face_dir,
// Output:
bool &makes_face,
v3s16 &p_corrected,
v3s16 &face_dir_corrected,
u16 *lights,
TileSpec &tile
)
{
VoxelManipulator &vmanip = data->m_vmanip;
INodeDefManager *ndef = data->m_client->ndef();
v3s16 blockpos_nodes = data->m_blockpos * MAP_BLOCKSIZE;
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MapNode &n0 = vmanip.getNodeRefUnsafe(blockpos_nodes + p);
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// Don't even try to get n1 if n0 is already CONTENT_IGNORE
if (n0.getContent() == CONTENT_IGNORE) {
makes_face = false;
return;
}
const MapNode &n1 = vmanip.getNodeRefUnsafeCheckFlags(
blockpos_nodes + p + face_dir);
if (n1.getContent() == CONTENT_IGNORE) {
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makes_face = false;
return;
}
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// This is hackish
bool equivalent = false;
u8 mf = face_contents(n0.getContent(), n1.getContent(),
&equivalent, ndef);
if(mf == 0)
{
makes_face = false;
return;
}
makes_face = true;
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MapNode n = n0;
if (mf == 1) {
p_corrected = p;
face_dir_corrected = face_dir;
} else {
n = n1;
p_corrected = p + face_dir;
face_dir_corrected = -face_dir;
}
tile = getNodeTile(n, p_corrected, face_dir_corrected, data);
const ContentFeatures &f = ndef->get(n);
tile.emissive_light = f.light_source;
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// eg. water and glass
if (equivalent)
tile.material_flags |= MATERIAL_FLAG_BACKFACE_CULLING;
if (data->m_smooth_lighting == false)
{
lights[0] = lights[1] = lights[2] = lights[3] =
getFaceLight(n0, n1, face_dir, ndef);
}
else
{
v3s16 vertex_dirs[4];
getNodeVertexDirs(face_dir_corrected, vertex_dirs);
for(u16 i=0; i<4; i++)
{
lights[i] = getSmoothLight(
blockpos_nodes + p_corrected,
vertex_dirs[i], data);
}
}
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return;
}
/*
startpos:
translate_dir: unit vector with only one of x, y or z
face_dir: unit vector with only one of x, y or z
*/
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static void updateFastFaceRow(
MeshMakeData *data,
v3s16 startpos,
v3s16 translate_dir,
v3f translate_dir_f,
v3s16 face_dir,
v3f face_dir_f,
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std::vector<FastFace> &dest)
{
v3s16 p = startpos;
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u16 continuous_tiles_count = 1;
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bool makes_face = false;
v3s16 p_corrected;
v3s16 face_dir_corrected;
u16 lights[4] = {0,0,0,0};
TileSpec tile;
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getTileInfo(data, p, face_dir,
makes_face, p_corrected, face_dir_corrected,
lights, tile);
for(u16 j=0; j<MAP_BLOCKSIZE; j++)
{
// If tiling can be done, this is set to false in the next step
bool next_is_different = true;
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v3s16 p_next;
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bool next_makes_face = false;
v3s16 next_p_corrected;
v3s16 next_face_dir_corrected;
u16 next_lights[4] = {0,0,0,0};
TileSpec next_tile;
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// If at last position, there is nothing to compare to and
// the face must be drawn anyway
if(j != MAP_BLOCKSIZE - 1)
{
p_next = p + translate_dir;
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getTileInfo(data, p_next, face_dir,
next_makes_face, next_p_corrected,
next_face_dir_corrected, next_lights,
next_tile);
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if(next_makes_face == makes_face
&& next_p_corrected == p_corrected + translate_dir
&& next_face_dir_corrected == face_dir_corrected
&& next_lights[0] == lights[0]
&& next_lights[1] == lights[1]
&& next_lights[2] == lights[2]
&& next_lights[3] == lights[3]
&& next_tile == tile
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&& tile.rotation == 0
&& (tile.material_flags & MATERIAL_FLAG_TILEABLE_HORIZONTAL)
&& (tile.material_flags & MATERIAL_FLAG_TILEABLE_VERTICAL)
&& tile.color == next_tile.color
&& tile.emissive_light == next_tile.emissive_light) {
next_is_different = false;
continuous_tiles_count++;
} else {
/*if(makes_face){
g_profiler->add("Meshgen: diff: next_makes_face != makes_face",
next_makes_face != makes_face ? 1 : 0);
g_profiler->add("Meshgen: diff: n_p_corr != p_corr + t_dir",
(next_p_corrected != p_corrected + translate_dir) ? 1 : 0);
g_profiler->add("Meshgen: diff: next_f_dir_corr != f_dir_corr",
next_face_dir_corrected != face_dir_corrected ? 1 : 0);
g_profiler->add("Meshgen: diff: next_lights[] != lights[]",
(next_lights[0] != lights[0] ||
next_lights[0] != lights[0] ||
next_lights[0] != lights[0] ||
next_lights[0] != lights[0]) ? 1 : 0);
g_profiler->add("Meshgen: diff: !(next_tile == tile)",
!(next_tile == tile) ? 1 : 0);
}*/
}
/*g_profiler->add("Meshgen: Total faces checked", 1);
if(makes_face)
g_profiler->add("Meshgen: Total makes_face checked", 1);*/
} else {
/*if(makes_face)
g_profiler->add("Meshgen: diff: last position", 1);*/
}
if(next_is_different)
{
/*
Create a face if there should be one
*/
if(makes_face)
{
// Floating point conversion of the position vector
v3f pf(p_corrected.X, p_corrected.Y, p_corrected.Z);
// Center point of face (kind of)
v3f sp = pf - ((f32)continuous_tiles_count / 2.0 - 0.5) * translate_dir_f;
v3f scale(1,1,1);
if(translate_dir.X != 0) {
scale.X = continuous_tiles_count;
}
if(translate_dir.Y != 0) {
scale.Y = continuous_tiles_count;
}
if(translate_dir.Z != 0) {
scale.Z = continuous_tiles_count;
}
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makeFastFace(tile, lights[0], lights[1], lights[2], lights[3],
sp, face_dir_corrected, scale, dest);
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g_profiler->avg("Meshgen: faces drawn by tiling", 0);
for(int i = 1; i < continuous_tiles_count; i++){
g_profiler->avg("Meshgen: faces drawn by tiling", 1);
}
}
continuous_tiles_count = 1;
}
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makes_face = next_makes_face;
p_corrected = next_p_corrected;
face_dir_corrected = next_face_dir_corrected;
lights[0] = next_lights[0];
lights[1] = next_lights[1];
lights[2] = next_lights[2];
lights[3] = next_lights[3];
tile = next_tile;
p = p_next;
}
}
static void updateAllFastFaceRows(MeshMakeData *data,
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std::vector<FastFace> &dest)
{
/*
Go through every y,z and get top(y+) faces in rows of x+
*/
for(s16 y = 0; y < MAP_BLOCKSIZE; y++) {
for(s16 z = 0; z < MAP_BLOCKSIZE; z++) {
updateFastFaceRow(data,
v3s16(0,y,z),
v3s16(1,0,0), //dir
v3f (1,0,0),
v3s16(0,1,0), //face dir
v3f (0,1,0),
dest);
}
}
/*
Go through every x,y and get right(x+) faces in rows of z+
*/
for(s16 x = 0; x < MAP_BLOCKSIZE; x++) {
for(s16 y = 0; y < MAP_BLOCKSIZE; y++) {
updateFastFaceRow(data,
v3s16(x,y,0),
v3s16(0,0,1), //dir
v3f (0,0,1),
v3s16(1,0,0), //face dir
v3f (1,0,0),
dest);
}
}
/*
Go through every y,z and get back(z+) faces in rows of x+
*/
for(s16 z = 0; z < MAP_BLOCKSIZE; z++) {
for(s16 y = 0; y < MAP_BLOCKSIZE; y++) {
updateFastFaceRow(data,
v3s16(0,y,z),
v3s16(1,0,0), //dir
v3f (1,0,0),
v3s16(0,0,1), //face dir
v3f (0,0,1),
dest);
}
}
}
/*
MapBlockMesh
*/
MapBlockMesh::MapBlockMesh(MeshMakeData *data, v3s16 camera_offset):
m_mesh(new scene::SMesh()),
m_minimap_mapblock(NULL),
m_client(data->m_client),
m_driver(m_client->tsrc()->getDevice()->getVideoDriver()),
m_tsrc(m_client->getTextureSource()),
m_shdrsrc(m_client->getShaderSource()),
m_animation_force_timer(0), // force initial animation
m_last_crack(-1),
m_crack_materials(),
m_last_daynight_ratio((u32) -1),
m_daynight_diffs()
{
m_enable_shaders = data->m_use_shaders;
m_use_tangent_vertices = data->m_use_tangent_vertices;
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m_enable_vbo = g_settings->getBool("enable_vbo");
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if (g_settings->getBool("enable_minimap")) {
m_minimap_mapblock = new MinimapMapblock;
m_minimap_mapblock->getMinimapNodes(
&data->m_vmanip, data->m_blockpos * MAP_BLOCKSIZE);
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}
// 4-21ms for MAP_BLOCKSIZE=16 (NOTE: probably outdated)
// 24-155ms for MAP_BLOCKSIZE=32 (NOTE: probably outdated)
//TimeTaker timer1("MapBlockMesh()");
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std::vector<FastFace> fastfaces_new;
fastfaces_new.reserve(512);
/*
We are including the faces of the trailing edges of the block.
This means that when something changes, the caller must
also update the meshes of the blocks at the leading edges.
NOTE: This is the slowest part of this method.
*/
{
// 4-23ms for MAP_BLOCKSIZE=16 (NOTE: probably outdated)
//TimeTaker timer2("updateAllFastFaceRows()");
updateAllFastFaceRows(data, fastfaces_new);
}
// End of slow part
/*
Convert FastFaces to MeshCollector
*/
MeshCollector collector(m_use_tangent_vertices);
{
// avg 0ms (100ms spikes when loading textures the first time)
// (NOTE: probably outdated)
//TimeTaker timer2("MeshCollector building");
for (u32 i = 0; i < fastfaces_new.size(); i++) {
FastFace &f = fastfaces_new[i];
const u16 indices[] = {0,1,2,2,3,0};
const u16 indices_alternate[] = {0,1,3,2,3,1};
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if(f.tile.texture == NULL)
continue;
const u16 *indices_p = indices;
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/*
Revert triangles for nicer looking gradient if the
brightness of vertices 1 and 3 differ less than
the brightness of vertices 0 and 2.
*/
if (abs(f.vertices[0].Color.getAverage()
- f.vertices[2].Color.getAverage())
> abs(f.vertices[1].Color.getAverage()
- f.vertices[3].Color.getAverage()))
indices_p = indices_alternate;
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collector.append(f.tile, f.vertices, 4, indices_p, 6);
}
}
/*
Add special graphics:
- torches
- flowing water
- fences
- whatever
*/
mapblock_mesh_generate_special(data, collector);
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/*
Convert MeshCollector to SMesh
*/
for(u32 i = 0; i < collector.prebuffers.size(); i++)
{
PreMeshBuffer &p = collector.prebuffers[i];
// Generate animation data
// - Cracks
if(p.tile.material_flags & MATERIAL_FLAG_CRACK)
{
// Find the texture name plus ^[crack:N:
std::ostringstream os(std::ios::binary);
os<<m_tsrc->getTextureName(p.tile.texture_id)<<"^[crack";
if(p.tile.material_flags & MATERIAL_FLAG_CRACK_OVERLAY)
os<<"o"; // use ^[cracko
os<<":"<<(u32)p.tile.animation_frame_count<<":";
m_crack_materials.insert(std::make_pair(i, os.str()));
// Replace tile texture with the cracked one
p.tile.texture = m_tsrc->getTextureForMesh(
os.str()+"0",
&p.tile.texture_id);
}
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// - Texture animation
if (p.tile.material_flags & MATERIAL_FLAG_ANIMATION) {
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// Add to MapBlockMesh in order to animate these tiles
m_animation_tiles[i] = p.tile;
m_animation_frames[i] = 0;
if(g_settings->getBool("desynchronize_mapblock_texture_animation")){
// Get starting position from noise
m_animation_frame_offsets[i] = 100000 * (2.0 + noise3d(
data->m_blockpos.X, data->m_blockpos.Y,
data->m_blockpos.Z, 0));
} else {
// Play all synchronized
m_animation_frame_offsets[i] = 0;
}
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// Replace tile texture with the first animation frame
FrameSpec animation_frame = p.tile.frames[0];
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p.tile.texture = animation_frame.texture;
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}
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if (!m_enable_shaders) {
// Extract colors for day-night animation
// Dummy sunlight to handle non-sunlit areas
video::SColorf sunlight;
get_sunlight_color(&sunlight, 0);
u32 vertex_count =
m_use_tangent_vertices ?
p.tangent_vertices.size() : p.vertices.size();
for (u32 j = 0; j < vertex_count; j++) {
video::SColor *vc;
if (m_use_tangent_vertices) {
vc = &p.tangent_vertices[j].Color;
} else {
vc = &p.vertices[j].Color;
}
video::SColor copy(*vc);
if (vc->getAlpha() == 0) // No sunlight - no need to animate
final_color_blend(vc, copy, sunlight); // Finalize color
else // Record color to animate
m_daynight_diffs[i][j] = copy;
// The sunlight ratio has been stored,
// delete alpha (for the final rendering).
vc->setAlpha(255);
}
}
// Create material
video::SMaterial material;
material.setFlag(video::EMF_LIGHTING, false);
material.setFlag(video::EMF_BACK_FACE_CULLING, true);
material.setFlag(video::EMF_BILINEAR_FILTER, false);
material.setFlag(video::EMF_FOG_ENABLE, true);
material.setTexture(0, p.tile.texture);
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if (m_enable_shaders) {
material.MaterialType = m_shdrsrc->getShaderInfo(p.tile.shader_id).material;
p.tile.applyMaterialOptionsWithShaders(material);
if (p.tile.normal_texture) {
material.setTexture(1, p.tile.normal_texture);
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}
material.setTexture(2, p.tile.flags_texture);
} else {
p.tile.applyMaterialOptions(material);
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}
scene::SMesh *mesh = (scene::SMesh *)m_mesh;
// Create meshbuffer, add to mesh
if (m_use_tangent_vertices) {
scene::SMeshBufferTangents *buf = new scene::SMeshBufferTangents();
// Set material
buf->Material = material;
// Add to mesh
mesh->addMeshBuffer(buf);
// Mesh grabbed it
buf->drop();
buf->append(&p.tangent_vertices[0], p.tangent_vertices.size(),
&p.indices[0], p.indices.size());
} else {
scene::SMeshBuffer *buf = new scene::SMeshBuffer();
// Set material
buf->Material = material;
// Add to mesh
mesh->addMeshBuffer(buf);
// Mesh grabbed it
buf->drop();
buf->append(&p.vertices[0], p.vertices.size(),
&p.indices[0], p.indices.size());
}
}
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/*
Do some stuff to the mesh
*/
m_camera_offset = camera_offset;
translateMesh(m_mesh,
intToFloat(data->m_blockpos * MAP_BLOCKSIZE - camera_offset, BS));
if (m_use_tangent_vertices) {
scene::IMeshManipulator* meshmanip =
m_client->getSceneManager()->getMeshManipulator();
meshmanip->recalculateTangents(m_mesh, true, false, false);
}
if (m_mesh)
{
#if 0
// Usually 1-700 faces and 1-7 materials
std::cout<<"Updated MapBlock has "<<fastfaces_new.size()<<" faces "
<<"and uses "<<m_mesh->getMeshBufferCount()
<<" materials (meshbuffers)"<<std::endl;
#endif
// Use VBO for mesh (this just would set this for ever buffer)
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if (m_enable_vbo) {
m_mesh->setHardwareMappingHint(scene::EHM_STATIC);
}
}
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//std::cout<<"added "<<fastfaces.getSize()<<" faces."<<std::endl;
// Check if animation is required for this mesh
m_has_animation =
!m_crack_materials.empty() ||
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!m_daynight_diffs.empty() ||
!m_animation_tiles.empty();
}
MapBlockMesh::~MapBlockMesh()
{
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if (m_enable_vbo && m_mesh) {
for (u32 i = 0; i < m_mesh->getMeshBufferCount(); i++) {
scene::IMeshBuffer *buf = m_mesh->getMeshBuffer(i);
m_driver->removeHardwareBuffer(buf);
}
}
m_mesh->drop();
m_mesh = NULL;
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delete m_minimap_mapblock;
}
bool MapBlockMesh::animate(bool faraway, float time, int crack, u32 daynight_ratio)
{
if(!m_has_animation)
{
m_animation_force_timer = 100000;
return false;
}
m_animation_force_timer = myrand_range(5, 100);
// Cracks
if(crack != m_last_crack)
{
for (UNORDERED_MAP<u32, std::string>::iterator i = m_crack_materials.begin();
i != m_crack_materials.end(); ++i) {
scene::IMeshBuffer *buf = m_mesh->getMeshBuffer(i->first);
std::string basename = i->second;
// Create new texture name from original
std::ostringstream os;
os<<basename<<crack;
u32 new_texture_id = 0;
video::ITexture *new_texture =
m_tsrc->getTextureForMesh(os.str(), &new_texture_id);
buf->getMaterial().setTexture(0, new_texture);
// If the current material is also animated,
// update animation info
UNORDERED_MAP<u32, TileSpec>::iterator anim_iter =
m_animation_tiles.find(i->first);
if (anim_iter != m_animation_tiles.end()){
TileSpec &tile = anim_iter->second;
tile.texture = new_texture;
tile.texture_id = new_texture_id;
// force animation update
m_animation_frames[i->first] = -1;
}
}
m_last_crack = crack;
}
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// Texture animation
for (UNORDERED_MAP<u32, TileSpec>::iterator i = m_animation_tiles.begin();
i != m_animation_tiles.end(); ++i) {
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const TileSpec &tile = i->second;
// Figure out current frame
int frameoffset = m_animation_frame_offsets[i->first];
int frame = (int)(time * 1000 / tile.animation_frame_length_ms
+ frameoffset) % tile.animation_frame_count;
// If frame doesn't change, skip
if(frame == m_animation_frames[i->first])
continue;
m_animation_frames[i->first] = frame;
scene::IMeshBuffer *buf = m_mesh->getMeshBuffer(i->first);
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FrameSpec animation_frame = tile.frames[frame];
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buf->getMaterial().setTexture(0, animation_frame.texture);
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if (m_enable_shaders) {
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if (animation_frame.normal_texture) {
buf->getMaterial().setTexture(1, animation_frame.normal_texture);
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}
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buf->getMaterial().setTexture(2, animation_frame.flags_texture);
}
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}
// Day-night transition
if(!m_enable_shaders && (daynight_ratio != m_last_daynight_ratio))
{
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// Force reload mesh to VBO
if (m_enable_vbo) {
m_mesh->setDirty();
}
video::SColorf day_color;
get_sunlight_color(&day_color, daynight_ratio);
for(std::map<u32, std::map<u32, video::SColor > >::iterator
i = m_daynight_diffs.begin();
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i != m_daynight_diffs.end(); ++i)
{
scene::IMeshBuffer *buf = m_mesh->getMeshBuffer(i->first);
video::S3DVertex *vertices = (video::S3DVertex *)buf->getVertices();
for(std::map<u32, video::SColor >::iterator
j = i->second.begin();
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j != i->second.end(); ++j)
{
final_color_blend(&(vertices[j->first].Color), j->second, day_color);
}
}
m_last_daynight_ratio = daynight_ratio;
}
return true;
}
void MapBlockMesh::updateCameraOffset(v3s16 camera_offset)
{
if (camera_offset != m_camera_offset) {
translateMesh(m_mesh, intToFloat(m_camera_offset-camera_offset, BS));
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if (m_enable_vbo) {
m_mesh->setDirty();
}
m_camera_offset = camera_offset;
}
}
/*
MeshCollector
*/
void MeshCollector::append(const TileSpec &tile,
const video::S3DVertex *vertices, u32 numVertices,
const u16 *indices, u32 numIndices)
{
if (numIndices > 65535) {
dstream<<"FIXME: MeshCollector::append() called with numIndices="<<numIndices<<" (limit 65535)"<<std::endl;
return;
}
PreMeshBuffer *p = NULL;
for (u32 i = 0; i < prebuffers.size(); i++) {
PreMeshBuffer &pp = prebuffers[i];
if (pp.tile != tile)
continue;
if (pp.indices.size() + numIndices > 65535)
continue;
p = &pp;
break;
}
if (p == NULL) {
PreMeshBuffer pp;
pp.tile = tile;
prebuffers.push_back(pp);
p = &prebuffers[prebuffers.size() - 1];
}
u32 vertex_count;
if (m_use_tangent_vertices) {
vertex_count = p->tangent_vertices.size();
for (u32 i = 0; i < numVertices; i++) {
video::S3DVertexTangents vert(vertices[i].Pos, vertices[i].Normal,
vertices[i].Color, vertices[i].TCoords);
p->tangent_vertices.push_back(vert);
}
} else {
vertex_count = p->vertices.size();
for (u32 i = 0; i < numVertices; i++) {
video::S3DVertex vert(vertices[i].Pos, vertices[i].Normal,
vertices[i].Color, vertices[i].TCoords);
p->vertices.push_back(vert);
}
}
for (u32 i = 0; i < numIndices; i++) {
u32 j = indices[i] + vertex_count;
p->indices.push_back(j);
}
}
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/*
MeshCollector - for meshnodes and converted drawtypes.
*/
void MeshCollector::append(const TileSpec &tile,
const video::S3DVertex *vertices, u32 numVertices,
const u16 *indices, u32 numIndices,
v3f pos, video::SColor c, u8 light_source)
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{
if (numIndices > 65535) {
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dstream<<"FIXME: MeshCollector::append() called with numIndices="<<numIndices<<" (limit 65535)"<<std::endl;
return;
}
PreMeshBuffer *p = NULL;
for (u32 i = 0; i < prebuffers.size(); i++) {
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PreMeshBuffer &pp = prebuffers[i];
if(pp.tile != tile)
continue;
if(pp.indices.size() + numIndices > 65535)
continue;
p = &pp;
break;
}
if (p == NULL) {
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PreMeshBuffer pp;
pp.tile = tile;
prebuffers.push_back(pp);
p = &prebuffers[prebuffers.size() - 1];
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}
video::SColor original_c = c;
u32 vertex_count;
if (m_use_tangent_vertices) {
vertex_count = p->tangent_vertices.size();
for (u32 i = 0; i < numVertices; i++) {
if (!light_source) {
c = original_c;
applyFacesShading(c, vertices[i].Normal);
}
video::S3DVertexTangents vert(vertices[i].Pos + pos,
vertices[i].Normal, c, vertices[i].TCoords);
p->tangent_vertices.push_back(vert);
}
} else {
vertex_count = p->vertices.size();
for (u32 i = 0; i < numVertices; i++) {
if (!light_source) {
c = original_c;
applyFacesShading(c, vertices[i].Normal);
}
video::S3DVertex vert(vertices[i].Pos + pos, vertices[i].Normal, c,
vertices[i].TCoords);
p->vertices.push_back(vert);
}
}
for (u32 i = 0; i < numIndices; i++) {
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u32 j = indices[i] + vertex_count;
p->indices.push_back(j);
}
}
video::SColor encode_light_and_color(u16 light, const video::SColor &color,
u8 emissive_light)
{
// Get components
f32 day = (light & 0xff) / 255.0f;
f32 night = (light >> 8) / 255.0f;
// Add emissive light
night += emissive_light * 0.01f;
if (night > 255)
night = 255;
// Since we don't know if the day light is sunlight or
// artificial light, assume it is artificial when the night
// light bank is also lit.
if (day < night)
day = 0;
else
day = day - night;
f32 sum = day + night;
// Ratio of sunlight:
float r;
if (sum > 0)
r = day / sum;
else
r = 0;
// Average light:
float b = (day + night) / 2;
return video::SColor(r * 255, b * color.getRed(), b * color.getGreen(),
b * color.getBlue());
}