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// implementation of generic tools
#include "cube.h"
void *operator new(size_t size)
{
void *p = malloc(size);
if(!p) abort();
return p;
}
void *operator new[](size_t size)
{
void *p = malloc(size);
if(!p) abort();
return p;
}
void operator delete(void *p) { if(p) free(p); }
void operator delete[](void *p) { if(p) free(p); }
void *operator new(size_t size, bool err)
{
void *p = malloc(size);
if(!p && err) abort();
return p;
}
void *operator new[](size_t size, bool err)
{
void *p = malloc(size);
if(!p && err) abort();
return p;
}
////////////////////////// rnd numbers ////////////////////////////////////////
#define N (624)
#define M (397)
#define K (0x9908B0DFU)
static uint state[N];
static int next = N;
void seedMT(uint seed)
{
state[0] = seed;
for(uint i = 1; i < N; i++)
state[i] = seed = 1812433253U * (seed ^ (seed >> 30)) + i;
next = 0;
}
uint randomMT()
{
int cur = next;
if(++next >= N)
{
if(next > N) { seedMT(5489U + time(NULL)); cur = next++; }
else next = 0;
}
uint y = (state[cur] & 0x80000000U) | (state[next] & 0x7FFFFFFFU);
state[cur] = y = state[cur < N-M ? cur + M : cur + M-N] ^ (y >> 1) ^ (-int(y & 1U) & K);
y ^= (y >> 11);
y ^= (y << 7) & 0x9D2C5680U;
y ^= (y << 15) & 0xEFC60000U;
y ^= (y >> 18);
return y;
}
///////////////////////// network ///////////////////////
// all network traffic is in 32bit ints, which are then compressed using the following simple scheme (assumes that most values are small).
template<class T>
static inline void putint_(T &p, int n)
{
if(n<128 && n>-127) p.put(n);
else if(n<0x8000 && n>=-0x8000) { p.put(0x80); p.put(n); p.put(n>>8); }
else { p.put(0x81); p.put(n); p.put(n>>8); p.put(n>>16); p.put(n>>24); }
}
void putint(ucharbuf &p, int n) { putint_(p, n); }
void putint(packetbuf &p, int n) { putint_(p, n); }
void putint(vector<uchar> &p, int n) { putint_(p, n); }
int getint(ucharbuf &p)
{
int c = (schar)p.get();
if(c==-128) { int n = p.get(); n |= ((schar)p.get())<<8; return n; }
else if(c==-127) { int n = p.get(); n |= p.get()<<8; n |= p.get()<<16; return n|(p.get()<<24); }
else return c;
}
// much smaller encoding for unsigned integers up to 28 bits, but can handle signed
template<class T>
static inline void putuint_(T &p, int n)
{
if(n < 0 || n >= (1<<21))
{
p.put(0x80 | (n & 0x7F));
p.put(0x80 | ((n >> 7) & 0x7F));
p.put(0x80 | ((n >> 14) & 0x7F));
p.put(n >> 21);
}
else if(n < (1<<7)) p.put(n);
else if(n < (1<<14))
{
p.put(0x80 | (n & 0x7F));
p.put(n >> 7);
}
else
{
p.put(0x80 | (n & 0x7F));
p.put(0x80 | ((n >> 7) & 0x7F));
p.put(n >> 14);
}
}
void putuint(ucharbuf &p, int n) { putuint_(p, n); }
void putuint(packetbuf &p, int n) { putuint_(p, n); }
void putuint(vector<uchar> &p, int n) { putuint_(p, n); }
int getuint(ucharbuf &p)
{
int n = p.get();
if(n & 0x80)
{
n += (p.get() << 7) - 0x80;
if(n & (1<<14)) n += (p.get() << 14) - (1<<14);
if(n & (1<<21)) n += (p.get() << 21) - (1<<21);
if(n & (1<<28)) n |= ~0U<<28;
}
return n;
}
template<class T>
static inline void putfloat_(T &p, float f)
{
lilswap(&f, 1);
p.put((uchar *)&f, sizeof(float));
}
void putfloat(ucharbuf &p, float f) { putfloat_(p, f); }
void putfloat(packetbuf &p, float f) { putfloat_(p, f); }
void putfloat(vector<uchar> &p, float f) { putfloat_(p, f); }
float getfloat(ucharbuf &p)
{
float f;
p.get((uchar *)&f, sizeof(float));
return lilswap(f);
}
template<class T>
static inline void sendstring_(const char *t, T &p)
{
while(*t) putint(p, *t++);
putint(p, 0);
}
void sendstring(const char *t, ucharbuf &p) { sendstring_(t, p); }
void sendstring(const char *t, packetbuf &p) { sendstring_(t, p); }
void sendstring(const char *t, vector<uchar> &p) { sendstring_(t, p); }
void getstring(char *text, ucharbuf &p, size_t len)
{
char *t = text;
do
{
if(t>=&text[len]) { text[len-1] = 0; return; }
if(!p.remaining()) { *t = 0; return; }
*t = getint(p);
}
while(*t++);
}
void filtertext(char *dst, const char *src, bool whitespace, bool forcespace, size_t len)
{
for(int c = uchar(*src); c; c = uchar(*++src))
{
if(c == '\f')
{
if(!*++src) break;
continue;
}
if(!iscubeprint(c))
{
if(!iscubespace(c) || !whitespace) continue;
if(forcespace) c = ' ';
}
*dst++ = c;
if(!--len) break;
}
*dst = '\0';
}
void ipmask::parse(const char *name)
{
union { uchar b[sizeof(enet_uint32)]; enet_uint32 i; } ipconv, maskconv;
ipconv.i = 0;
maskconv.i = 0;
loopi(4)
{
char *end = NULL;
int n = strtol(name, &end, 10);
if(!end) break;
if(end > name) { ipconv.b[i] = n; maskconv.b[i] = 0xFF; }
name = end;
while(int c = *name)
{
++name;
if(c == '.') break;
if(c == '/')
{
int range = clamp(int(strtol(name, NULL, 10)), 0, 32);
mask = range ? ENET_HOST_TO_NET_32(0xFFffFFff << (32 - range)) : maskconv.i;
ip = ipconv.i & mask;
return;
}
}
}
ip = ipconv.i;
mask = maskconv.i;
}
int ipmask::print(char *buf) const
{
char *start = buf;
union { uchar b[sizeof(enet_uint32)]; enet_uint32 i; } ipconv, maskconv;
ipconv.i = ip;
maskconv.i = mask;
int lastdigit = -1;
loopi(4) if(maskconv.b[i])
{
if(lastdigit >= 0) *buf++ = '.';
loopj(i - lastdigit - 1) { *buf++ = '*'; *buf++ = '.'; }
buf += sprintf(buf, "%d", ipconv.b[i]);
lastdigit = i;
}
enet_uint32 bits = ~ENET_NET_TO_HOST_32(mask);
int range = 32;
for(; (bits&0xFF) == 0xFF; bits >>= 8) range -= 8;
for(; bits&1; bits >>= 1) --range;
if(!bits && range%8) buf += sprintf(buf, "/%d", range);
return int(buf-start);
}
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