diff options
author | graehl <graehl@ec762483-ff6d-05da-a07a-a48fb63a330f> | 2010-08-13 03:30:49 +0000 |
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committer | graehl <graehl@ec762483-ff6d-05da-a07a-a48fb63a330f> | 2010-08-13 03:30:49 +0000 |
commit | 6ca64b5cf2d4c0c2698d4298e88dde274f766ac4 (patch) | |
tree | c37af6ea1ae5159b8bea55a94b120359ba9188c3 /utils/utoa.h | |
parent | e1458e933f41a95bb5f98aeffbc15242ef7752f1 (diff) |
named_enum, itoa, cdec replace --a-b=x with --a_b=x
git-svn-id: https://ws10smt.googlecode.com/svn/trunk@536 ec762483-ff6d-05da-a07a-a48fb63a330f
Diffstat (limited to 'utils/utoa.h')
-rwxr-xr-x | utils/utoa.h | 199 |
1 files changed, 154 insertions, 45 deletions
diff --git a/utils/utoa.h b/utils/utoa.h index 8d304f97..341965cc 100755 --- a/utils/utoa.h +++ b/utils/utoa.h @@ -1,19 +1,61 @@ #ifndef UTOA_H #define UTOA_H + #include <stdint.h> #include <string> #include <cstring> +#include <limits> +// define this if you're paranoid about converting 0-9 (int) to 0-9 (char) by adding to '0', which is safe for ascii, utf8, etc. #ifndef DIGIT_LOOKUP_TABLE # define DIGIT_LOOKUP_TABLE 0 #endif +//TODO: 3 decimal digit lookup table, divide by 1000 faster? +//TODO: benchmark these two (also, some assembly that does effectively divmod?) +#if 1 +// maybe this is faster than mod because we are already dividing +#define NDIV10MOD(rem,n) rem = n; n /= 10; rem -= 10*n; +#else +// or maybe optimizer does it just as well or better with this: +#define NDIV10MOD(rem,n) rem = n%10; n = n/10; +#endif + +template <class T> +struct signed_for_int { +}; + + +#define DEFINE_SIGNED_FOR_3(t,it,ut) \ +template <> \ +struct signed_for_int<t> { \ + typedef ut unsigned_t; \ + typedef it signed_t; \ + typedef t original_t; \ + enum { toa_bufsize = 3 + std::numeric_limits<t>::digits10, toa_bufsize_minus_1=toa_bufsize-1 }; \ +}; + +// toa_bufsize will hold enough chars for a c string converting to sign,digits (for both signed and unsigned types), because normally an unsigned would only need 2 extra chars. we reserve 3 explicitly for the case that itoa(buf,UINT_MAX,true) is called, with output +4...... + +#define DEFINE_SIGNED_FOR(it) DEFINE_SIGNED_FOR_3(it,it,u ## it) \ + DEFINE_SIGNED_FOR_3(u ## it,it,u ## it) + +DEFINE_SIGNED_FOR(int8_t) +DEFINE_SIGNED_FOR(int16_t) +DEFINE_SIGNED_FOR(int32_t) +DEFINE_SIGNED_FOR(int64_t) +//DEFINE_SIGNED_FOR_3(int,int,unsigned) +//DEFINE_SIGNED_FOR_3(unsigned,int,unsigned) + +/* // The largest 32-bit integer is 4294967295, that is 10 chars // 1 more for sign, and 1 for 0-termination of string -// generally: 2 + std::numeric_limits<T>::is_signed + std::numeric_limits<T>::digits10 const unsigned utoa_bufsize=12; const unsigned utoa_bufsizem1=utoa_bufsize-1; +const unsigned ultoa_bufsize=22; +const unsigned ultoa_bufsizem1=utoa_bufsize-1; +*/ #ifdef DIGIT_LOOKUP_TABLE namespace { @@ -30,72 +72,139 @@ inline char digit_to_char(int d) { #endif } -// returns n in string [return,num); *num=0 yourself before calling if you want a c_str -inline char *utoa(char *num,uint32_t n) { - if ( !n ) { - *--num='0'; + +// returns n in string [return,num); *num=0 yourself before calling if you want a c_str. in other words, the sequence [ret,buf) contains the written digits +template <class Int> +char *utoa(char *buf,Int n_) { + typedef typename signed_for_int<Int>::unsigned_t Uint; + Uint n=n_; + if (!n) { + *--buf='0'; } else { - uint32_t rem; + Uint rem; // 3digit lookup table, divide by 1000 faster? - while ( n ) { -#if 1 - rem = n; - n /= 10; - rem -= 10*n; // maybe this is faster than mod because we are already dividing -#else - rem = n%10; // would optimizer combine these together? - n = n/10; -#endif - *--num = digit_to_char(rem); + while (n) { + NDIV10MOD(rem,n); + *--buf = digit_to_char(rem); } } - return num; + return buf; } -inline char *itoa(char *p,int32_t n) { - if (n<0) { - p=utoa(p,-n); // (unsigned)(-INT_MIN) == 0x1000000 in 2s complement and not == 0. - *--p='-'; - return p; - } else - return utoa(p,n); +// left_pad_0(buf,utoa(buf+bufsz,n)) means that [buf,buf+bufsz) is a left-0 padded seq. of digits. no 0s are added if utoa is already past buf (you must have ensured that this is valid memory, naturally) +inline void left_pad(char *left,char *buf,char pad='0') { + while (buf>left) + *--buf=pad; + // return buf; } -inline std::string utos(uint32_t n) { - char buf[utoa_bufsize]; - char *end=buf+utoa_bufsize; - char *p=utoa(end,n); +template <class Int> +char *utoa_left_pad(char *buf,char *bufend,Int n, char pad='0') { + char *r=utoa(bufend,n); + assert(buf<=r); + left_pad(buf,r,pad); + return buf; +} + +// note: 0 -> 0, but otherwise x000000 -> x (x has no trailing 0s). same conditions as utoa; [ret,buf) gives the sequence of digits +// useful for floating point fraction output +template <class Uint_> +char *utoa_drop_trailing_0(char *buf,Uint_ n_, unsigned &n_skipped) { + typedef typename signed_for_int<Uint_>::unsigned_t Uint; + Uint n=n_; + n_skipped=0; + if (!n) { + *--buf='0'; + return buf; + } else { + Uint rem; + while (n) { + NDIV10MOD(rem,n); + if (rem) { + *--buf = digit_to_char(rem); + // some non-0 trailing digits; now output all digits. + while (n) { + NDIV10MOD(rem,n); + *--buf = digit_to_char(rem); + } + return buf; + } + ++n_skipped; + } + assert(0); + return 0; + } +} + +// desired feature: itoa(unsigned) = utoa(unsigned) +// positive sign: 0 -> +0, 1-> +1. obviously -n -> -n +template <class Int> +//typename signed_for_int<Int>::original_t instead of Int to give more informative wrong-type message? +char *itoa(char *buf,Int i,bool positive_sign=false) { + typename signed_for_int<Int>::unsigned_t n=i; + if (i<0) + n=-n; //sidesteps 2s complement issue doing this rather than just u=-n. + char * ret=utoa(buf,n); + if (i<0) { + *--ret='-'; + } else if (positive_sign) + *--ret='+'; + return ret; +} + +template <class Int> +char * itoa_left_pad(char *buf,char *bufend,Int i,bool positive_sign=false,char pad='0') { + typename signed_for_int<Int>::unsigned_t n=i; + if (i<0) { + n=-n; //sidesteps 2s complement issue doing this rather than just u=-n. + *buf='-'; + } else if (positive_sign) + *buf='+'; + char * r=utoa(bufend,n); + assert(buf<r); + left_pad(buf+1,r,pad); + return buf; +} + +template <class Int> +inline std::string itos(Int n) { + char buf[signed_for_int<Int>::toa_bufsize]; + char *end=buf+signed_for_int<Int>::toa_bufsize; + char *p=itoa(end,n); return std::string(p,end); } -inline std::string itos(int32_t n) { - char buf[utoa_bufsize]; - char *end=buf+utoa_bufsize; +template <class Int> +inline std::string utos(Int n) { + char buf[signed_for_int<Int>::toa_bufsize]; + char *end=buf+signed_for_int<Int>::toa_bufsize; char *p=itoa(end,n); return std::string(p,end); } //returns position of '\0' terminating number written starting at to -inline char* append_utoa(char *to,uint32_t n) { - char buf[utoa_bufsize]; - char *end=buf+utoa_bufsize; - char *s=utoa(end,n); - int ns=end-s; - std::memcpy(to,s,ns); +template <class Int> +inline char* append_utoa(char *to,typename signed_for_int<Int>::unsigned_t n) { + char buf[signed_for_int<Int>::toa_bufsize]; + char *end=buf+signed_for_int<Int>::toa_bufsize; + char *p=itoa(end,n); + int ns=end-p; + std::memcpy(to,p,ns); to+=ns; - *to++=0; + *to=0; return to; } //returns position of '\0' terminating number written starting at to -inline char* append_itoa(char *to,int32_t n) { - char buf[utoa_bufsize]; - char *end=buf+utoa_bufsize; - char *s=itoa(end,n); - int ns=end-s; - std::memcpy(to,s,ns); +template <class Int> +inline char* append_itoa(char *to,typename signed_for_int<Int>::signed_t n) { + char buf[signed_for_int<Int>::toa_bufsize]; + char *end=buf+signed_for_int<Int>::toa_bufsize; + char *p=utoa(end,n); + int ns=end-p; + std::memcpy(to,p,ns); to+=ns; - *to++=0; + *to=0; return to; } |