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strf.h
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strf.h
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#ifndef STRF_H
#define STRF_H
#include <cstring>
#include <string>
#include <algorithm>
namespace bwgame {
namespace strf {
namespace strf_detail {
struct descriptor {
bool end;
bool flag_left_justify, flag_sign, flag_space, flag_hash, flag_zero;
unsigned int width, precision;
char c;
descriptor() : end(true) {}
};
template<typename T> struct unsigned_type;
template<> struct unsigned_type<char> { typedef unsigned char type; };
template<> struct unsigned_type<signed char> { typedef unsigned char type; };
template<> struct unsigned_type<unsigned char> { typedef unsigned char type; };
template<> struct unsigned_type<short> { typedef unsigned short type; };
template<> struct unsigned_type<unsigned short> { typedef unsigned short type; };
template<> struct unsigned_type<int> { typedef unsigned int type; };
template<> struct unsigned_type<unsigned int> { typedef unsigned int type; };
template<> struct unsigned_type<long> { typedef unsigned long type; };
template<> struct unsigned_type<unsigned long> { typedef unsigned long type; };
template<> struct unsigned_type<long long> { typedef unsigned long long type; };
template<> struct unsigned_type<unsigned long long> { typedef unsigned long long type; };
template<typename dst_T>
struct builder {
dst_T& dst;
const char* fmt;
size_t pos;
descriptor desc;
builder(dst_T&dst, const char*fmt) : dst(dst), fmt(fmt), pos(0) {}
template<typename T> char* reserve_impl(T& dst, size_t n) {
size_t size = dst.size();
if (size < pos + n) {
size_t ns = dst.size() + std::max(dst.size() / 2, (size_t)16);
if (ns > pos + n) dst.resize(ns);
else dst.resize(pos + n);
}
return (char*)dst.data();
}
char* reserve(size_t n) {
return reserve_impl(dst, n);
}
void bad(const char* str) {
size_t n = strlen(str);
char* dst = reserve(1 + n + 1);
dst[pos++] = '(';
memcpy(dst + pos, str, n);
pos += n;
dst[pos++] = ')';
}
descriptor next() {
descriptor r;
const char* c = fmt;
auto flush = [&]() {
if (c == this->fmt) return;
size_t n = c - this->fmt;
char* str = this->reserve(n);
memcpy(&str[this->pos], this->fmt, n);
this->pos += n;
};
auto testflag = [&]() -> bool {
switch (*c) {
case '-': r.flag_left_justify = true; break;
case '+': r.flag_sign = true; break;
case ' ': r.flag_space = true; break;
case '#': r.flag_hash = true; break;
case '0': r.flag_zero = true; break;
default: return false;
}
c++;
return true;
};
auto num = [&](unsigned int&dstv) {
if (*c == '*') {
dstv = ~1;
c++;
return;
}
const char*e = c;
unsigned int m = 1;
if (*e >= '0'&&*e <= '9') e++;
while (*e >= '0'&&*e <= '9') { e++; m *= 10; };
if (e == c) return;
unsigned rv = 0;
for (; c != e; c++) {
rv += (*c - '0')*m;
m /= 10;
}
dstv = rv;
};
while (*c) {
if (*c == '%') {
flush();
if (*++c == '%') {
char* str = reserve(1);
str[pos++] = '%';
++c;
fmt = c;
} else {
r.end = false;
r.flag_left_justify = false;
r.flag_sign = false;
r.flag_space = false;
r.flag_hash = false;
r.flag_zero = false;
while (testflag());
r.width = ~0;
r.precision = ~0;
num(r.width);
if (*c == '.') ++c, num(r.precision);
if (!*c) {
bad("bad format string");
r.end = true;
return r;
}
r.c = *c++;
fmt = c;
return r;
}
}
c++;
}
flush();
r.end = true;
return r;
}
template<typename T, int base, bool caps>
void do_num(T v) {
char buf[sizeof(v) * 4];
bool negative = std::is_signed<T>::value ? (typename std::make_signed<T>::type)v < 0 : false;
char* c = &buf[sizeof(buf)];
bool is_zero = v == 0;
if (is_zero) {
if (desc.precision != 0) *--c = '0';
} else {
if (negative) v = 0 - v;
typename unsigned_type<T>::type& uv = (typename unsigned_type<T>::type&)v;
while (uv) {
char n = uv%base;
uv /= base;
char d;
if (base > 10 && n > 9) d = n - 10 + (caps ? 'A' : 'a');
else d = '0' + n;
*--c = d;
}
}
size_t len = &buf[sizeof(buf)] - c;
const char* num = c;
char prefix[4];
c = &prefix[0];
if (desc.flag_hash && !is_zero) {
if (base == 8) *c++ = '0';
else if (base == 16) {
*c++ = '0';
if (caps) *c++ = 'X';
else *c++ = 'x';
}
}
if (negative) {
*c++ = '-';
} else {
if (desc.flag_sign) *c++ = '+';
else if (desc.flag_space) *c++ = ' ';
}
size_t prefix_len = c - &prefix[0];
size_t outlen = prefix_len + len;
if (desc.precision != (unsigned)-1 && desc.precision > len) outlen += (desc.precision - len);
size_t numlen = outlen;
if (desc.width != (unsigned)-1 && desc.width > outlen) outlen = desc.width;
char*str = reserve(outlen);
if (!desc.flag_zero && !desc.flag_left_justify) {
for (size_t i = 0; i < outlen - numlen; i++) str[pos++] = ' ';
}
if (prefix_len) {
memcpy(&str[pos], prefix, prefix_len);
pos += prefix_len;
}
if (desc.flag_zero) {
for (size_t i = 0; i < outlen - numlen; i++) str[pos++] = '0';
}
if (desc.precision != (unsigned)-1 && desc.precision>len) {
for (size_t i = 0; i < desc.precision - len; i++) str[pos++] = '0';
}
memcpy(&str[pos], num, len);
pos += len;
if (desc.flag_left_justify) {
if (desc.flag_zero) {
bad("zero flag and left justify flag cannot be specified together");
return;
}
for (size_t i = 0; i<outlen - numlen; i++) str[pos++] = ' ';
}
}
void do_string(const char* s, size_t len) {
if (desc.flag_zero || desc.flag_hash || desc.flag_sign || desc.flag_space) {
bad("bad flags for string");
return;
}
if (!s) {
s = "(null)";
len = 6;
}
size_t outlen = len;
if (desc.precision != (unsigned)-1 && outlen>desc.precision) outlen = desc.precision;
if (outlen<len) len = outlen;
if (desc.width != (unsigned)-1 && desc.width>outlen) outlen = desc.width;
char* str = reserve(outlen);
if (!desc.flag_left_justify) {
for (size_t i = 0; i < outlen - len; i++) str[pos++] = ' ';
}
memcpy(&str[pos], s, len);
pos += len;
if (desc.flag_left_justify) {
for (size_t i = 0; i < outlen - len; i++) str[pos++] = ' ';
}
}
template<typename T>
unsigned int to_uint(T&& v) {
bad("argument can not be converted to unsigned int");
return 0;
}
unsigned int to_uint(char v) { return v; }
unsigned int to_uint(unsigned char v) { return v; }
unsigned int to_uint(short v) { return v; }
unsigned int to_uint(unsigned short v) { return v; }
unsigned int to_uint(int v) { return v; }
unsigned int to_uint(unsigned int v) { return v; }
unsigned int to_uint(long v) { return v; }
unsigned int to_uint(unsigned long v) { return v; }
template<int base, bool caps, typename T>
void do_signed_int(T&& v) {
bad("argument is not numeric");
}
template<int base, bool caps> void do_signed_int(bool v) { do_num<int, base, caps>(v ? 1 : 0); }
template<int base, bool caps> void do_signed_int(char v) { do_num<signed char, base, caps>(v); }
template<int base, bool caps> void do_signed_int(signed char v) { do_num<signed char, base, caps>(v); }
template<int base, bool caps> void do_signed_int(unsigned char v) { do_num<signed char, base, caps>(v); }
template<int base, bool caps> void do_signed_int(short v) { do_num<short, base, caps>(v); }
template<int base, bool caps> void do_signed_int(unsigned short v) { do_num<short, base, caps>(v); }
template<int base, bool caps> void do_signed_int(int v) { do_num<int, base, caps>(v); }
template<int base, bool caps> void do_signed_int(unsigned int v) { do_num<int, base, caps>(v); }
template<int base, bool caps> void do_signed_int(long v) { do_num<long, base, caps>(v); }
template<int base, bool caps> void do_signed_int(unsigned long v) { do_num<long, base, caps>(v); }
template<int base, bool caps> void do_signed_int(long long v) { do_num<long long, base, caps>(v); }
template<int base, bool caps> void do_signed_int(unsigned long long v) { do_num<long long, base, caps>(v); }
template<int base, bool caps, typename T>
void do_unsigned_int(T&& v) {
bad("argument is not numeric");
}
template<int base, bool caps> void do_unsigned_int(bool v) { do_num<unsigned int, base, caps>(v ? 1 : 0); }
template<int base, bool caps> void do_unsigned_int(char v) { do_num<unsigned char, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(signed char v) { do_num<unsigned char, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(unsigned char v) { do_num<unsigned char, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(short v) { do_num<unsigned short, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(unsigned short v) { do_num<unsigned short, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(int v) { do_num<unsigned int, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(unsigned int v) { do_num<unsigned int, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(long v) { do_num<unsigned long, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(unsigned long v) { do_num<unsigned long, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(long long v) { do_num<unsigned long long, base, caps>(v); }
template<int base, bool caps> void do_unsigned_int(unsigned long long v) { do_num<unsigned long long, base, caps>(v); }
template<typename T>
void do_string(T&& v) {
bad("argument is not a string");
}
void do_string(char*str) { do_string(str, str ? strlen(str) : 0); }
void do_string(const char*str) { do_string(str, str ? strlen(str) : 0); }
template<typename t, typename traits, typename allocator>
void do_string(std::basic_string<t, traits, allocator>&&s) { do_string(s.c_str(), s.size()); }
template<typename t, typename traits, typename allocator>
void do_string(const std::basic_string<t, traits, allocator>&&s) { do_string(s.c_str(), s.size()); }
template<typename t, typename traits, typename allocator>
void do_string(std::basic_string<t, traits, allocator>&s) { do_string(s.c_str(), s.size()); }
template<typename t, typename traits, typename allocator>
void do_string(const std::basic_string<t, traits, allocator>&s) { do_string(s.c_str(), s.size()); }
template<typename T>
void do_pointer(T&& v) {
bad("argument is not a pointer");
}
void do_pointer(void* v) {
desc.flag_hash = true;
do_unsigned_int<16, false>((uintptr_t)v);
}
template<typename T> void do_pointer(T*v) {
do_pointer((void*)v);
}
template<typename T>
void do_float(T&& v) {
bad("argument is not floating-point");
}
void do_float(double v) {
char fstr[0x10];
char* c = &fstr[0];
*c++ = '%';
if (desc.flag_hash) *c++ = '#';
if (desc.flag_left_justify) *c++ = '-';
if (desc.flag_sign) *c++ = '+';
if (desc.flag_space) *c++ = ' ';
if (desc.flag_zero) *c++ = '0';
if (desc.width != (unsigned)-1) *c++ = '*';
if (desc.precision != (unsigned)-1) { *c++ = '.'; *c++ = '*'; }
*c++ = desc.c;
*c = 0;
size_t len = 0x100;
if (desc.precision != (unsigned)-1) len += desc.precision;
if (desc.width != (unsigned)-1 && desc.width >= len) len += desc.width;
char* str = reserve(len);
str += pos;
memset(str, 0, len);
if (desc.width != (unsigned)-1 && desc.precision != (unsigned)-1) sprintf(str, fstr, (int)desc.width, (int)desc.precision, v);
else if (desc.width != (unsigned)-1) sprintf(str, fstr, (int)desc.width, v);
else if (desc.precision != (unsigned)-1) sprintf(str, fstr, (int)desc.precision, v);
else sprintf(str, fstr, v);
pos += strlen(str);
}
void do_float(float v) {
do_float((double)v);
}
template<typename T>
void do_char(T&& v) {
bad("argument is not convertible to a character");
}
void do_char(char c) {
if (desc.flag_zero || desc.flag_hash || desc.flag_sign || desc.flag_space) {
bad("bad flags for character");
return;
}
size_t outlen = 1;
if (desc.width != (unsigned)-1 && desc.width > outlen) outlen = desc.width;
char* str = reserve(outlen);
if (!desc.flag_left_justify) {
for (size_t i = 0; i < outlen - 1; i++) str[pos++] = ' ';
}
str[pos++] = c;
if (desc.flag_left_justify) {
for (size_t i = 0; i < outlen - 1; i++) str[pos++] = ' ';
}
}
void do_char(signed char c) { do_char((char)c); }
void do_char(unsigned char c) { do_char((char)c); }
void do_char(short c) { do_char((char)c); }
void do_char(unsigned short c) { do_char((char)c); }
void do_char(int c) { do_char((char)c); }
void do_char(unsigned int c) { do_char((char)c); }
void do_char(long c) { do_char((char)c); }
void do_char(unsigned long c) { do_char((char)c); }
void do_char(long long c) { do_char((char)c); }
void do_char(unsigned long long c) { do_char((char)c); }
template<typename T>
void advance(T&& v) {
if (desc.end) desc = next();
if (desc.end) {
bad("too many arguments for the specified format string");
return;
}
if (desc.width == ~(unsigned)1) {
desc.width = to_uint(std::forward<T>(v));
return;
}
if (desc.precision == ~(unsigned)1) {
desc.precision = to_uint(std::forward<T>(v));
return;
}
switch (desc.c) {
case 'd':
case 'i':
do_signed_int<10, false>(std::forward<T>(v));
break;
case 'u':
do_unsigned_int<10, false>(std::forward<T>(v));
break;
case 'x':
do_unsigned_int<16, false>(std::forward<T>(v));
break;
case 'X':
do_unsigned_int<16, true>(std::forward<T>(v));
break;
case 'o':
do_unsigned_int<8, false>(std::forward<T>(v));
break;
case 's':
do_string(std::forward<T>(v));
break;
case 'c':
do_char(std::forward<T>(v));
break;
case 'p':
do_pointer(std::forward<T>(v));
break;
case 'e':
case 'E':
case 'f':
case 'g':
case 'G':
do_float(std::forward<T>(v));
break;
default: bad("unrecognized specifier in format string");
}
desc.end = true;
}
const char* finish() {
if (!desc.end) {
bad("too few arguments for the specified format string");
dst.resize(pos);
return dst.c_str();
}
auto f = next();
if (!f.end) {
bad("too few arguments for the specified format string");
dst.resize(pos);
return dst.c_str();
}
dst.resize(pos);
return dst.c_str();
}
};
template<typename builder_T>
void advance(builder_T& b) {
}
template<typename builder_T, typename A1, typename ...Ax>
void advance(builder_T& b, A1&& a1, Ax&&... ax) {
b.advance(std::forward<A1>(a1));
strf_detail::advance(b, std::forward<Ax>(ax)...);
}
}
template<typename dst_T, typename ...A>
const char* format(dst_T& dst, const char* fmt, A&&... args) {
strf_detail::builder<dst_T> b(dst, fmt);
strf_detail::advance(b, std::forward<A>(args)...);
return b.finish();
}
}
}
#endif