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/*
(c) 2010 Perttu Ahola <celeron55@gmail.com>
*/
#include "heightmap.h"
/*
ValueGenerator
*/
ValueGenerator* ValueGenerator::deSerialize(std::string line)
{
std::istringstream ss(line);
//ss.imbue(std::locale("C"));
std::string name;
std::getline(ss, name, ' ');
if(name == "constant")
{
f32 value;
ss>>value;
return new ConstantGenerator(value);
}
else if(name == "linear")
{
f32 height;
v2f slope;
ss>>height;
ss>>slope.X;
ss>>slope.Y;
return new LinearGenerator(height, slope);
}
else if(name == "power")
{
f32 height;
v2f slope;
f32 power;
ss>>height;
ss>>slope.X;
ss>>slope.Y;
ss>>power;
return new PowerGenerator(height, slope, power);
}
else
{
throw SerializationError
("Invalid heightmap generator (deSerialize)");
}
}
/*
FixedHeightmap
*/
f32 FixedHeightmap::avgNeighbours(v2s16 p, s16 d)
{
v2s16 dirs[4] = {
v2s16(1,0),
v2s16(0,1),
v2s16(-1,0),
v2s16(0,-1)
};
f32 sum = 0.0;
f32 count = 0.0;
for(u16 i=0; i<4; i++){
v2s16 p2 = p + dirs[i] * d;
f32 n = getGroundHeightParent(p2);
if(n < GROUNDHEIGHT_VALID_MINVALUE)
continue;
sum += n;
count += 1.0;
}
assert(count > 0.001);
return sum / count;
}
f32 FixedHeightmap::avgDiagNeighbours(v2s16 p, s16 d)
{
v2s16 dirs[4] = {
v2s16(1,1),
v2s16(-1,-1),
v2s16(-1,1),
v2s16(1,-1)
};
f32 sum = 0.0;
f32 count = 0.0;
for(u16 i=0; i<4; i++){
v2s16 p2 = p + dirs[i] * d;
f32 n = getGroundHeightParent(p2);
if(n < GROUNDHEIGHT_VALID_MINVALUE)
continue;
sum += n;
count += 1.0;
}
assert(count > 0.001);
return sum / count;
}
/*
Adds a point to transform into a diamond pattern
center = Center of the diamond phase (center of a square)
a = Side length of the existing square (2, 4, 8, ...)
Adds the center points of the next squares to next_squares as
dummy "true" values.
*/
void FixedHeightmap::makeDiamond(
v2s16 center,
s16 a,
f32 randmax,
core::map<v2s16, bool> &next_squares)
{
/*dstream<<"makeDiamond(): center="
<<"("<<center.X<<","<<center.Y<<")"
<<", a="<<a<<", randmax="<<randmax
<<", next_squares.size()="<<next_squares.size()
<<std::endl;*/
f32 n = avgDiagNeighbours(center, a/2);
// Add (-1.0...1.0) * randmax
n += ((float)rand() / (float)(RAND_MAX/2) - 1.0)*randmax;
bool worked = setGroundHeightParent(center, n);
if(a >= 2 && worked)
{
next_squares[center + a/2*v2s16(-1,0)] = true;
next_squares[center + a/2*v2s16(1,0)] = true;
next_squares[center + a/2*v2s16(0,-1)] = true;
next_squares[center + a/2*v2s16(0,1)] = true;
}
}
/*
Adds a point to transform into a square pattern
center = The point that is added. The center of a diamond.
a = Diameter of the existing diamond. (2, 4, 8, 16, ...)
Adds center points of the next diamonds to next_diamonds.
*/
void FixedHeightmap::makeSquare(
v2s16 center,
s16 a,
f32 randmax,
core::map<v2s16, bool> &next_diamonds)
{
/*dstream<<"makeSquare(): center="
<<"("<<center.X<<","<<center.Y<<")"
<<", a="<<a<<", randmax="<<randmax
<<", next_diamonds.size()="<<next_diamonds.size()
<<std::endl;*/
f32 n = avgNeighbours(center, a/2);
// Add (-1.0...1.0) * randmax
n += ((float)rand() / (float)(RAND_MAX/2) - 1.0)*randmax;
bool worked = setGroundHeightParent(center, n);
if(a >= 4 && worked)
{
next_diamonds[center + a/4*v2s16(1,1)] = true;
next_diamonds[center + a/4*v2s16(-1,1)] = true;
next_diamonds[center + a/4*v2s16(-1,-1)] = true;
next_diamonds[center + a/4*v2s16(1,-1)] = true;
}
}
void FixedHeightmap::DiamondSquare(f32 randmax, f32 randfactor)
{
u16 a;
if(W < H)
a = W-1;
else
a = H-1;
// Check that a is a power of two
if((a & (a-1)) != 0)
throw;
core::map<v2s16, bool> next_diamonds;
core::map<v2s16, bool> next_squares;
next_diamonds[v2s16(a/2, a/2)] = true;
while(a >= 2)
{
next_squares.clear();
for(core::map<v2s16, bool>::Iterator
i = next_diamonds.getIterator();
i.atEnd() == false; i++)
{
v2s16 p = i.getNode()->getKey();
makeDiamond(p, a, randmax, next_squares);
}
//print();
next_diamonds.clear();
for(core::map<v2s16, bool>::Iterator
i = next_squares.getIterator();
i.atEnd() == false; i++)
{
v2s16 p = i.getNode()->getKey();
makeSquare(p, a, randmax, next_diamonds);
}
//print();
a /= 2;
randmax *= randfactor;
}
}
void FixedHeightmap::generateContinued(f32 randmax, f32 randfactor,
f32 *corners)
{
DSTACK(__FUNCTION_NAME);
/*dstream<<"FixedHeightmap("<<m_pos_on_master.X
<<","<<m_pos_on_master.Y
<<")::generateContinued()"<<std::endl;*/
// Works only with blocksize=2,4,8,16,32,64,...
s16 a = m_blocksize;
// Check that a is a power of two
if((a & (a-1)) != 0)
throw;
// Overwrite with GROUNDHEIGHT_NOTFOUND_SETVALUE
for(s16 y=0; y<=a; y++){
for(s16 x=0; x<=a; x++){
v2s16 p(x,y);
setGroundHeight(p, GROUNDHEIGHT_NOTFOUND_SETVALUE);
}
}
/*
Seed borders from master heightmap
NOTE: Does this actually have any effect on the output?
*/
struct SeedSpec
{
v2s16 neighbour_start;
v2s16 heightmap_start;
v2s16 dir;
};
SeedSpec seeds[4] =
{
{ // Z- edge on X-axis
v2s16(0, -1), // neighbour_start
v2s16(0, 0), // heightmap_start
v2s16(1, 0) // dir
},
{ // Z+ edge on X-axis
v2s16(0, m_blocksize),
v2s16(0, m_blocksize),
v2s16(1, 0)
},
{ // X- edge on Z-axis
v2s16(-1, 0),
v2s16(0, 0),
v2s16(0, 1)
},
{ // X+ edge on Z-axis
v2s16(m_blocksize, 0),
v2s16(m_blocksize, 0),
v2s16(0, 1)
},
};
for(s16 i=0; i<4; i++){
v2s16 npos = seeds[i].neighbour_start + m_pos_on_master * m_blocksize;
v2s16 hpos = seeds[i].heightmap_start;
for(s16 s=0; s<m_blocksize+1; s++){
f32 h = m_master->getGroundHeight(npos, false);
//dstream<<"h="<<h<<std::endl;
if(h < GROUNDHEIGHT_VALID_MINVALUE)
continue;
//break;
setGroundHeight(hpos, h);
hpos += seeds[i].dir;
npos += seeds[i].dir;
}
}
/*dstream<<"borders seeded:"<<std::endl;
print();*/
/*
Fill with corners[] (if not already set)
*/
v2s16 dirs[4] = {
v2s16(0,0),
v2s16(1,0),
v2s16(1,1),
v2s16(0,1),
};
for(u16 i=0; i<4; i++){
v2s16 npos = dirs[i] * a;
// Don't replace already seeded corners
f32 h = getGroundHeight(npos);
if(h > GROUNDHEIGHT_VALID_MINVALUE)
continue;
setGroundHeight(dirs[i] * a, corners[i]);
}
/*dstream<<"corners filled:"<<std::endl;
print();*/
DiamondSquare(randmax, randfactor);
}
u32 FixedHeightmap::serializedLength(u8 version, u16 blocksize)
{
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: FixedHeightmap format not supported");
// Any version
{
/*// [0] s32 blocksize
// [4] v2s16 pos_on_master
// [8] s32 data[W*H] (W=H=blocksize+1)
return 4 + 4 + (blocksize+1)*(blocksize+1)*4;*/
// [8] s32 data[W*H] (W=H=blocksize+1)
return (blocksize+1)*(blocksize+1)*4;
}
}
u32 FixedHeightmap::serializedLength(u8 version)
{
return serializedLength(version, m_blocksize);
}
void FixedHeightmap::serialize(u8 *dest, u8 version)
{
//dstream<<"FixedHeightmap::serialize"<<std::endl;
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: FixedHeightmap format not supported");
// Any version
{
/*writeU32(&dest[0], m_blocksize);
writeV2S16(&dest[4], m_pos_on_master);
u32 nodecount = W*H;
for(u32 i=0; i<nodecount; i++)
{
writeS32(&dest[8+i*4], (s32)(m_data[i]*1000.0));
}*/
u32 nodecount = W*H;
for(u32 i=0; i<nodecount; i++)
{
writeS32(&dest[i*4], (s32)(m_data[i]*1000.0));
}
}
}
void FixedHeightmap::deSerialize(u8 *source, u8 version)
{
/*dstream<<"FixedHeightmap::deSerialize m_blocksize="
<<m_blocksize<<std::endl;*/
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: FixedHeightmap format not supported");
// Any version
{
u32 nodecount = (m_blocksize+1)*(m_blocksize+1);
for(u32 i=0; i<nodecount; i++)
{
m_data[i] = ((f32)readS32(&source[i*4]))/1000.0;
}
/*printf("source[0,1,2,3]=%x,%x,%x,%x\n",
(int)source[0]&0xff,
(int)source[1]&0xff,
(int)source[2]&0xff,
(int)source[3]&0xff);
dstream<<"m_data[0]="<<m_data[0]<<", "
<<"readS32(&source[0])="<<readS32(&source[0])
<<std::endl;
dstream<<"m_data[4*4]="<<m_data[4*4]<<", "
<<"readS32(&source[4*4])="<<readS32(&source[4*4])
<<std::endl;*/
}
}
void setcolor(f32 h, f32 rangemin, f32 rangemax)
{
#ifndef _WIN32
const char *colors[] =
{
"\x1b[40m",
"\x1b[44m",
"\x1b[46m",
"\x1b[42m",
"\x1b[43m",
"\x1b[41m",
};
u16 colorcount = sizeof(colors)/sizeof(colors[0]);
f32 scaled = (h - rangemin) / (rangemax - rangemin);
u8 color = scaled * colorcount;
if(color > colorcount-1)
color = colorcount-1;
/*printf("rangemin=%f, rangemax=%f, h=%f -> color=%i\n",
rangemin,
rangemax,
h,
color);*/
printf("%s", colors[color]);
//printf("\x1b[31;40m");
//printf("\x1b[44;1m");
#endif
}
void resetcolor()
{
#ifndef _WIN32
printf("\x1b[0m");
#endif
}
/*
UnlimitedHeightmap
*/
void UnlimitedHeightmap::print()
{
s16 minx = 10000;
s16 miny = 10000;
s16 maxx = -10000;
s16 maxy = -10000;
core::map<v2s16, FixedHeightmap*>::Iterator i;
i = m_heightmaps.getIterator();
if(i.atEnd()){
printf("UnlimitedHeightmap::print(): empty.\n");
return;
}
for(; i.atEnd() == false; i++)
{
v2s16 p = i.getNode()->getValue()->getPosOnMaster();
if(p.X < minx) minx = p.X;
if(p.Y < miny) miny = p.Y;
if(p.X > maxx) maxx = p.X;
if(p.Y > maxy) maxy = p.Y;
}
minx = minx * m_blocksize;
miny = miny * m_blocksize;
maxx = (maxx+1) * m_blocksize;
maxy = (maxy+1) * m_blocksize;
printf("UnlimitedHeightmap::print(): from (%i,%i) to (%i,%i)\n",
minx, miny, maxx, maxy);
// Calculate range
f32 rangemin = 1e10;
f32 rangemax = -1e10;
for(s32 y=miny; y<=maxy; y++){
for(s32 x=minx; x<=maxx; x++){
f32 h = getGroundHeight(v2s16(x,y), false);
if(h < GROUNDHEIGHT_VALID_MINVALUE)
continue;
if(h < rangemin)
rangemin = h;
if(h > rangemax)
rangemax = h;
}
}
printf(" ");
for(s32 x=minx; x<=maxx; x++){
printf("% .3d ", x);
}
printf("\n");
for(s32 y=miny; y<=maxy; y++){
printf("% .3d ", y);
for(s32 x=minx; x<=maxx; x++){
f32 n = getGroundHeight(v2s16(x,y), false);
if(n < GROUNDHEIGHT_VALID_MINVALUE)
printf(" - ");
else
{
setcolor(n, rangemin, rangemax);
printf("% -5.1f", getGroundHeight(v2s16(x,y), false));
resetcolor();
}
}
printf("\n");
}
}
FixedHeightmap * UnlimitedHeightmap::getHeightmap(v2s16 p_from, bool generate)
{
DSTACK("UnlimitedHeightmap::getHeightmap()");
/*
We want to check that all neighbours of the wanted heightmap
exist.
This is because generating the neighboring heightmaps will
modify the current one.
*/
if(generate)
{
// Go through all neighbors (corners also) and the current one
// and generate every one of them.
for(s16 x=p_from.X-1; x<=p_from.X+1; x++)
for(s16 y=p_from.Y-1; y<=p_from.Y+1; y++)
{
v2s16 p(x,y);
// Check if exists
core::map<v2s16, FixedHeightmap*>::Node *n = m_heightmaps.find(p);
if(n != NULL)
continue;
// Doesn't exist
// Generate it
FixedHeightmap *heightmap = new FixedHeightmap(this, p, m_blocksize);
m_heightmaps.insert(p, heightmap);
f32 corners[4] = {
m_base_generator->getValue(p+v2s16(0,0)),
m_base_generator->getValue(p+v2s16(1,0)),
m_base_generator->getValue(p+v2s16(1,1)),
m_base_generator->getValue(p+v2s16(0,1)),
};
f32 randmax = m_randmax_generator->getValue(p);
f32 randfactor = m_randfactor_generator->getValue(p);
heightmap->generateContinued(randmax, randfactor, corners);
}
}
core::map<v2s16, FixedHeightmap*>::Node *n = m_heightmaps.find(p_from);
if(n != NULL)
{
return n->getValue();
}
else
{
throw InvalidPositionException
("Something went really wrong in UnlimitedHeightmap::getHeightmap");
}
}
f32 UnlimitedHeightmap::getGroundHeight(v2s16 p, bool generate)
{
v2s16 heightmappos = getNodeHeightmapPos(p);
v2s16 relpos = p - heightmappos*m_blocksize;
try{
FixedHeightmap * href = getHeightmap(heightmappos, generate);
f32 h = href->getGroundHeight(relpos);
if(h > GROUNDHEIGHT_VALID_MINVALUE)
return h;
}
catch(InvalidPositionException){}
/*
If on border or in the (0,0) corner, try to get from
overlapping heightmaps
*/
if(relpos.X == 0){
try{
FixedHeightmap * href = getHeightmap(
heightmappos-v2s16(1,0), false);
f32 h = href->getGroundHeight(v2s16(m_blocksize, relpos.Y));
if(h > GROUNDHEIGHT_VALID_MINVALUE)
return h;
}
catch(InvalidPositionException){}
}
if(relpos.Y == 0){
try{
FixedHeightmap * href = getHeightmap(
heightmappos-v2s16(0,1), false);
f32 h = href->getGroundHeight(v2s16(relpos.X, m_blocksize));
if(h > GROUNDHEIGHT_VALID_MINVALUE)
return h;
}
catch(InvalidPositionException){}
}
if(relpos.X == 0 && relpos.Y == 0){
try{
FixedHeightmap * href = getHeightmap(
heightmappos-v2s16(1,1), false);
f32 h = href->getGroundHeight(v2s16(m_blocksize, m_blocksize));
if(h > GROUNDHEIGHT_VALID_MINVALUE)
return h;
}
catch(InvalidPositionException){}
}
return GROUNDHEIGHT_NOTFOUND_SETVALUE;
}
void UnlimitedHeightmap::setGroundHeight(v2s16 p, f32 y, bool generate)
{
bool was_set = false;
v2s16 heightmappos = getNodeHeightmapPos(p);
v2s16 relpos = p - heightmappos*m_blocksize;
/*dstream<<"UnlimitedHeightmap::setGroundHeight(("
<<p.X<<","<<p.Y<<"), "<<y<<"): "
<<"heightmappos=("<<heightmappos.X<<","
<<heightmappos.Y<<") relpos=("
<<relpos.X<<","<<relpos.Y<<")"
<<std::endl;*/
try{
FixedHeightmap * href = getHeightmap(heightmappos, generate);
href->setGroundHeight(relpos, y);
was_set = true;
}catch(InvalidPositionException){}
// Update in neighbour heightmap if it's at border
if(relpos.X == 0){
try{
FixedHeightmap * href = getHeightmap(
heightmappos-v2s16(1,0), generate);
href->setGroundHeight(v2s16(m_blocksize, relpos.Y), y);
was_set = true;
}catch(InvalidPositionException){}
}
if(relpos.Y == 0){
try{
FixedHeightmap * href = getHeightmap(
heightmappos-v2s16(0,1), generate);
href->setGroundHeight(v2s16(relpos.X, m_blocksize), y);
was_set = true;
}catch(InvalidPositionException){}
}
if(relpos.X == 0 && relpos.Y == 0){
try{
FixedHeightmap * href = getHeightmap(
heightmappos-v2s16(1,1), generate);
href->setGroundHeight(v2s16(m_blocksize, m_blocksize), y);
was_set = true;
}catch(InvalidPositionException){}
}
if(was_set == false)
{
throw InvalidPositionException
("UnlimitedHeightmap failed to set height");
}
}
void UnlimitedHeightmap::serialize(std::ostream &os, u8 version)
{
//dstream<<"UnlimitedHeightmap::serialize()"<<std::endl;
if(!ser_ver_supported(version))
throw VersionMismatchException
("ERROR: UnlimitedHeightmap format not supported");
if(version <= 7)
{
/*if(m_base_generator->getId() != VALUE_GENERATOR_ID_CONSTANT
|| m_randmax_generator->getId() != VALUE_GENERATOR_ID_CONSTANT
|| m_randfactor_generator->getId() != VALUE_GENERATOR_ID_CONSTANT)*/
if(std::string(m_base_generator->getName()) != "constant"
|| std::string(m_randmax_generator->getName()) != "constant"
|| std::string(m_randfactor_generator->getName()) != "constant")
{
throw SerializationError
("Cannot write UnlimitedHeightmap in old version: "
"Generators are not ConstantGenerators.");
}
f32 basevalue = ((ConstantGenerator*)m_base_generator)->m_value;
f32 randmax = ((ConstantGenerator*)m_randmax_generator)->m_value;
f32 randfactor = ((ConstantGenerator*)m_randfactor_generator)->m_value;
// Write version
os.write((char*)&version, 1);
/*
[0] u16 blocksize
[2] s32 randmax*1000
[6] s32 randfactor*1000
[10] s32 basevalue*1000
[14] u32 heightmap_count
[18] X * (v2s16 pos + heightmap)
*/
u32 heightmap_size =
FixedHeightmap::serializedLength(version, m_blocksize);
u32 heightmap_count = m_heightmaps.size();
//dstream<<"heightmap_size="<<heightmap_size<<std::endl;
u32 datasize = 2+4+4+4+4+heightmap_count*(4+heightmap_size);
SharedBuffer<u8> data(datasize);
writeU16(&data[0], m_blocksize);
writeU32(&data[2], (s32)(randmax*1000.0));
writeU32(&data[6], (s32)(randfactor*1000.0));
writeU32(&data[10], (s32)(basevalue*1000.0));
writeU32(&data[14], heightmap_count);
core::map<v2s16, FixedHeightmap*>::Iterator j;
j = m_heightmaps.getIterator();
u32 i=0;
for(; j.atEnd() == false; j++)
{
FixedHeightmap *hm = j.getNode()->getValue();
v2s16 pos = j.getNode()->getKey();
writeV2S16(&data[18+i*(4+heightmap_size)], pos);
hm->serialize(&data[18+i*(4+heightmap_size)+4], version);
i++;
}
os.write((char*)*data, data.getSize());
}
else
{
// Write version
os.write((char*)&version, 1);
u8 buf[4];
writeU16(buf, m_blocksize);
os.write((char*)buf, 2);
/*m_randmax_generator->serialize(os, version);
m_randfactor_generator->serialize(os, version);
m_base_generator->serialize(os, version);*/
m_randmax_generator->serialize(os);
m_randfactor_generator->serialize(os);
m_base_generator->serialize(os);
u32 heightmap_count = m_heightmaps.size();
writeU32(buf, heightmap_count);
os.write((char*)buf, 4);
u32 heightmap_size =
FixedHeightmap::serializedLength(version, m_blocksize);
SharedBuffer<u8> hmdata(heightmap_size);
core::map<v2s16, FixedHeightmap*>::Iterator j;
j = m_heightmaps.getIterator();
u32 i=0;
for(; j.atEnd() == false; j++)
{
v2s16 pos = j.getNode()->getKey();
writeV2S16(buf, pos);
os.write((char*)buf, 4);
FixedHeightmap *hm = j.getNode()->getValue();
hm->serialize(*hmdata, version);
os.write((char*)*hmdata, hmdata.getSize());
i++;
}
}
}
UnlimitedHeightmap * UnlimitedHeightmap::deSerialize(std::istream &is)
{
u8 version;
is.read((char*)&version, 1);
if(!ser_ver_supported(version))
throw VersionMismatchException("ERROR: UnlimitedHeightmap format not supported");
if(version <= 7)
{
/*
[0] u16 blocksize
[2] s32 randmax*1000
[6] s32 randfactor*1000
[10] s32 basevalue*1000
[14] u32 heightmap_count
[18] X * (v2s16 pos + heightmap)
*/
SharedBuffer<u8> data(18);
is.read((char*)*data, 18);
if(is.gcount() != 18)
throw SerializationError
("UnlimitedHeightmap::deSerialize: no enough input data");
s16 blocksize = readU16(&data[0]);
f32 randmax = (f32)readU32(&data[2]) / 1000.0;
f32 randfactor = (f32)readU32(&data[6]) / 1000.0;
f32 basevalue = (f32)readU32(&data[10]) / 1000.0;
u32 heightmap_count = readU32(&data[14]);
/*dstream<<"UnlimitedHeightmap::deSerialize():"
<<" blocksize="<<blocksize
<<" heightmap_count="<<heightmap_count
<<std::endl;*/
u32 heightmap_size =
FixedHeightmap::serializedLength(version, blocksize);
//dstream<<"heightmap_size="<<heightmap_size<<std::endl;
ValueGenerator *maxgen = new ConstantGenerator(randmax);
ValueGenerator *factorgen = new ConstantGenerator(randfactor);
ValueGenerator *basegen = new ConstantGenerator(basevalue);
UnlimitedHeightmap *hm = new UnlimitedHeightmap
(blocksize, maxgen, factorgen, basegen);
for(u32 i=0; i<heightmap_count; i++)
{
//dstream<<"i="<<i<<std::endl;
SharedBuffer<u8> data(4+heightmap_size);
is.read((char*)*data, 4+heightmap_size);
if(is.gcount() != (s32)(4+heightmap_size)){
delete hm;
throw SerializationError
("UnlimitedHeightmap::deSerialize: no enough input data");
}
v2s16 pos = readV2S16(&data[0]);
FixedHeightmap *f = new FixedHeightmap(hm, pos, blocksize);
f->deSerialize(&data[4], version);
hm->m_heightmaps.insert(pos, f);
}
return hm;
}
else
{
u8 buf[4];
is.read((char*)buf, 2);
s16 blocksize = readU16(buf);
ValueGenerator *maxgen = ValueGenerator::deSerialize(is);
ValueGenerator *factorgen = ValueGenerator::deSerialize(is);
ValueGenerator *basegen = ValueGenerator::deSerialize(is);
is.read((char*)buf, 4);
u32 heightmap_count = readU32(buf);
u32 heightmap_size =
FixedHeightmap::serializedLength(version, blocksize);
UnlimitedHeightmap *hm = new UnlimitedHeightmap
(blocksize, maxgen, factorgen, basegen);
for(u32 i=0; i<heightmap_count; i++)
{
is.read((char*)buf, 4);
v2s16 pos = readV2S16(buf);
SharedBuffer<u8> data(heightmap_size);
is.read((char*)*data, heightmap_size);
if(is.gcount() != (s32)(heightmap_size)){
delete hm;
throw SerializationError
("UnlimitedHeightmap::deSerialize: no enough input data");
}
FixedHeightmap *f = new FixedHeightmap(hm, pos, blocksize);
f->deSerialize(*data, version);
hm->m_heightmaps.insert(pos, f);
}
return hm;
}
}
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