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authorgraehl <graehl@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-08-15 02:41:10 +0000
committergraehl <graehl@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-08-15 02:41:10 +0000
commit297d38bd8f70bcd7690da02bec70a49c2074869d (patch)
tree9589826f619c6b3c029d104f79b1b91eced26483 /utils
parentfd03f9eb8b99047393373520f562721cee1f5d00 (diff)
ftoa
git-svn-id: https://ws10smt.googlecode.com/svn/trunk@549 ec762483-ff6d-05da-a07a-a48fb63a330f
Diffstat (limited to 'utils')
-rwxr-xr-xutils/ftoa.h402
1 files changed, 402 insertions, 0 deletions
diff --git a/utils/ftoa.h b/utils/ftoa.h
new file mode 100755
index 00000000..81a685ac
--- /dev/null
+++ b/utils/ftoa.h
@@ -0,0 +1,402 @@
+#ifndef FTOA_H
+#define FTOA_H
+
+
+//TODO: for fractional digits/non-sci, determine the right amount of left padding (more if the whole number is indeed <1, to keep the significant digits), less if sci notation and/or mantissa has sig. digits (don't want N before . and N after!)
+
+#ifndef FTOA_ROUNDTRIP
+# define FTOA_ROUNDTRIP 1
+#endif
+
+#ifndef FTOA_DEBUG
+# define FTOA_DEBUG 0
+#endif
+
+#ifndef FTOA_USE_SPRINTF
+#define FTOA_USE_SPRINTF 0
+#endif
+
+#if FTOA_DEBUG
+# define FTOAassert(x) assert(x)
+# define DBFTOA(x) std::cerr<<"\nFTOA " <<__func__<<"("<<__LINE__<<"): " #x "="<<x<<"\n"
+# define DBFTOA2(x0,x1) std::cerr<<"\nFTOA " <<__func__<<"("<<__LINE__<<"): " #x0 "="<<x0<<" " #x1 "="<<x1 <<"\n"
+#else
+# define FTOAassert(x)
+# define DBFTOA(x)
+# define DBFTOA2(x0,x1)
+#endif
+
+/* DECIMAL_FOR_WHOLE ; ftos(123)
+ 0 ; 123
+ 1 ; 123
+ 2 ; 123.
+ ; ftos(0) is always just "0" (not "0.0")
+ ; ftos(.01)
+ 0 ; .01
+ 1 ; 0.01
+ 2 ; 0.01
+
+*/
+
+#ifndef DECIMAL_FOR_WHOLE
+# define DECIMAL_FOR_WHOLE 1
+#endif
+
+#include <limits>
+#include <stdint.h>
+#include <iostream>
+#include <cmath>
+#include <assert.h>
+#include <cstdio>
+#include "utoa.h"
+#include "nan.h"
+
+template <class Float>
+struct ftoa_traits {
+};
+
+//eP10,
+// sigd decimal places normally printed, roundtripd needed so that round-trip float->string->float is identity
+
+#define DEFINE_FTOA_TRAITS(FLOATT,INTT,sigd,roundtripd,small,large,used,P10) \
+template <> \
+struct ftoa_traits<FLOATT> { \
+ typedef INTT int_t; \
+ typedef u ## INTT uint_t; \
+ typedef FLOATT float_t; \
+ enum { digits10=std::numeric_limits<INTT>::digits10, chars_block=P10, usedig=used, sigdig=sigd, roundtripdig=roundtripd, bufsize=roundtripdig+7 }; \
+ static const double pow10_block = 1e ## P10; \
+ static const float_t small_f = small; \
+ static const float_t large_f = large; \
+ static inline int sprintf(char *buf,double f) { return std::sprintf(buf,"%." #used "g",f); } \
+ static inline int sprintf_sci(char *buf,double f) { return std::sprintf(buf,"%." #used "e",f); } \
+ static inline int sprintf_nonsci(char *buf,double f) { return std::sprintf(buf,"%." #used "f",f); } \
+ static inline uint_t fracblock(double frac) { FTOAassert(frac>=0 && frac<1); double f=frac*pow10_block;uint_t i=(uint_t)f;FTOAassert(i<pow10_block);return i; } \
+ static inline uint_t rounded_fracblock(double frac) { FTOAassert(frac>=0 && frac<1); double f=frac*pow10_block;uint_t i=(uint_t)(f+.5);FTOAassert(i<pow10_block);return i; } \
+ static inline float_t mantexp10(float_t f,int &exp) { float_t e=std::log10(f); float_t ef=std::floor(e); exp=ef; return f/std::pow((float_t)10,ef); } \
+ static inline bool use_sci_abs(float_t fa) { return fa<small || fa>large; } \
+ static inline bool use_sci(float_t f) { return use_sci_abs(std::fabs(f)); } \
+};
+//TODO: decide on computations in double (would hurt long double) or in native float type - any advantage? more precision is usually better.
+
+//10^22 = 0x1.0f0cf064dd592p73 is the largest exactly representable power of 10 in the binary64 format. but round down to 18 so int64_t can hold it.
+
+#if FTOA_ROUNDTRIP
+#define DEFINE_FTOA_TRAITS_ROUNDTRIP(FLOATT,INTT,sigd,roundtripd,small,large) DEFINE_FTOA_TRAITS(FLOATT,INTT,sigd,roundtripd,small,large,roundtripd,roundtripd)
+#else
+#define DEFINE_FTOA_TRAITS_ROUNDTRIP(FLOATT,INTT,sigd,roundtripd,small,large) DEFINE_FTOA_TRAITS(FLOATT,INTT,sigd,roundtripd,small,large,sigd,sigd)
+#endif
+
+DEFINE_FTOA_TRAITS_ROUNDTRIP(double,int64_t,15,17,1e-5,1e8)
+//i've heard that 1e10 is fine for float. but we only have 1e9 (9 decimal places) in int32.
+DEFINE_FTOA_TRAITS_ROUNDTRIP(float,int32_t,6,9,1e-3,1e8)
+
+
+template <class F>
+inline void ftoa_error(F f,char const* msg="") {
+ using namespace std;
+ cerr<<"ftoa error: "<<msg<<" f="<<f<<endl;
+ assert(!"ftoa error");
+}
+
+// all of the below prepend and return new cursor. null terminate yourself (like itoa/utoa)
+
+//possibly empty string for ~0 (no sci notation fallback). left padded with the right number of 0s (tricky). [ret,p) are the digits.
+template <class F>
+char *prepend_pos_frac_digits(char *p,F f) {
+ FTOAassert(f<1 && f >0);
+ typedef ftoa_traits<F> FT;
+ //repeat if very small??? nah, require sci notation to take care of it.
+ typename FT::uint_t i=FT::rounded_fracblock(f);
+ DBFTOA2(f,i);
+ if (i>0) {
+ unsigned n_skipped;
+ char *d=utoa_drop_trailing_0(p,i,n_skipped);
+ char *b=p-FT::chars_block+n_skipped;
+ FTOAassert(b<=d);
+ left_pad(b,d,'0');
+ return b;
+ } else {
+ return p;
+ }
+}
+
+template <class F>
+char *append_pos_frac_digits(char *p,F f) { // '0' right-padded, nul terminated, return position of nul. [p,ret) are the digits
+ if (f==0) {
+ *p++='0';
+ return p;
+ }
+ FTOAassert(f<1 && f >0);
+ typedef ftoa_traits<F> FT;
+ //repeat if very small??? nah, require sci notation to take care of it.
+ typename FT::uint_t i=FT::rounded_fracblock(f);
+ DBFTOA2(f,i);
+ if (i>0) {
+ char *e=p+FT::chars_block;
+ utoa_left_pad(p,e,i,'0');
+ *e=0;
+ return e;
+ } else {
+ *p=0;
+ return p;
+ }
+}
+
+template <class F>
+inline char *prepend_pos_frac(char *p,F f) {
+ FTOAassert(f<1 && f>=0);
+ if (f==0) {
+ *--p='0';
+ return p;
+ }
+ p=prepend_pos_frac_digits(p,f);
+ *--p='.';
+ if (DECIMAL_FOR_WHOLE>0)
+ *--p='0';
+ return p;
+}
+
+template <class F>
+inline char *append_pos_frac(char *p,F f) {
+ DBFTOA(f);
+ if (DECIMAL_FOR_WHOLE>0)
+ *p++='0';
+ *p++='.';
+ return append_pos_frac_digits(p,f);
+}
+
+template <class F>
+inline char *prepend_frac(char *p,F f,bool positive_sign=false) {
+ FTOAassert(f<1 && f>-1);
+ if (f==0)
+ *--p='0';
+ else if (f<0) {
+ p=prepend_pos_frac(p,-f);
+ *--p='-';
+ } else {
+ p=prepend_pos_frac(p,f);
+ if (positive_sign)
+ *--p='+';
+ }
+ return p;
+}
+
+
+template <class F>
+inline char *append_sign(char *p,F f,bool positive_sign=false) {
+ if (f<0) {
+ *p++='-';
+ } else if (positive_sign)
+ *p++='+';
+ return p;
+}
+
+template <class F>
+inline char *append_frac(char *p,F f,bool positive_sign=false) {
+ FTOAassert(f<1 && f>-1);
+ if (f==0) {
+ *p++='0';
+ return p;
+ } else if (f<0) {
+ *p++='-';
+ return append_pos_frac(p,-f);
+ }
+ if (positive_sign) {
+ *p++='+';
+ return append_pos_frac(p,f);
+ }
+
+}
+
+
+//append_frac, append_pos_sci, append_sci. notice these are all composed according to a pattern (but reversing order of composition in pre vs app). or can implement with copy through buffer
+
+/* will switch to sci notation if integer part is too big for the int type. but for very small values, will simply display 0 (i.e. //TODO: find out log10 and leftpad 0s then convert rest) */
+template <class F>
+char *prepend_pos_nonsci(char *p,F f) {
+ typedef ftoa_traits<F> FT;
+ typedef typename FT::uint_t uint_t;
+ DBFTOA(f);
+ FTOAassert(f>0);
+ if (f>std::numeric_limits<uint_t>::max())
+ return prepend_pos_sci(p,f);
+ //which is faster - modf is weird and returns negative frac part if f is negative. while we could deal with this using fabs, we instead only handle positive here (put - sign in front and negate, then call us) - ?
+#if 0
+ F intpart;
+ F frac=std::modf(f,&intpart);
+ uint_t u=intpart;
+#else
+ uint_t u=f;
+ F frac=f-u;
+#endif
+ DBFTOA2(u,frac);
+ if (frac == 0) {
+ if (DECIMAL_FOR_WHOLE>1)
+ *--p='.';
+ } else {
+ p=prepend_pos_frac_digits(p,frac);
+ *--p='.';
+ }
+ if (u==0) {
+ if (DECIMAL_FOR_WHOLE>0)
+ *--p='0';
+ } else
+ p=utoa(p,u);
+}
+
+// modify p; return true if handled
+template <class F>
+inline bool prepend_0_etc(char *&p,F f,bool positive_sign=false) {
+ if (f==0) {
+ *--p='0';
+ return true;
+ }
+ if (is_nan(f)) {
+ p-=3;
+ p[0]='N';p[1]='A';p[2]='N';
+ return true;
+ }
+ if (is_pos_inf(f)) {
+ p-=3;
+ p[0]='I';p[1]='N';p[2]='F';
+ if (positive_sign)
+ *--p='+';
+ return true;
+ }
+ if (is_neg_inf(f)) {
+ p-=4;
+ p[0]='-';p[1]='I';p[2]='N';p[3]='F';
+ return true;
+ }
+ return false;
+}
+
+template <class F>
+inline char *prepend_nonsci(char *p,F f,bool positive_sign=false) {
+ if (prepend_0_etc(p,f,positive_sign)) return p;
+ if (f<0) {
+ p=prepend_pos_nonsci(p,-f);
+ *--p='-';
+ } else {
+ p=prepend_pos_nonsci(p,f);
+ if (positive_sign)
+ *--p='+';
+ }
+ return p;
+}
+
+template <class F>
+inline char *prepend_pos_sci(char *p,F f,bool positive_sign_exp=false) {
+ FTOAassert(f>0);
+ typedef ftoa_traits<F> FT;
+ int e10;
+ F mant=FT::mantexp10(f,e10);
+ DBFTOA(f);
+ DBFTOA2(mant,e10);
+ FTOAassert(mant<10.00001);
+ if (mant>=10.) {
+ ++e10;
+ mant*=.1;
+ } else if (mant < 1.) {
+ --e10;
+ mant*=10;
+ }
+ p=itoa(p,e10,positive_sign_exp);
+ *--p='e';
+ return prepend_pos_nonsci(p,mant);
+}
+
+template <class F>
+inline char *prepend_sci(char *p,F f,bool positive_sign_mant=false,bool positive_sign_exp=false) {
+ if (prepend_0_etc(p,f,positive_sign_mant)) return p;
+ if (f==0)
+ *--p='0';
+ else if (f<0) {
+ p=prepend_pos_sci(p,-f,positive_sign_exp);
+ *--p='-';
+ } else {
+ p=prepend_pos_sci(p,f,positive_sign_exp);
+ if (positive_sign_mant)
+ *--p='+';
+ }
+ return p;
+}
+
+template <class F>
+inline char *append_nonsci(char *p,F f,bool positive_sign=false) {
+ if (positive_sign&&f>=0) *p++='+';
+ return p+ftoa_traits<F>::sprintf_nonsci(p,f);
+}
+
+template <class F>
+inline char *append_sci(char *p,F f,bool positive_sign=false) {
+ if (positive_sign&&f>=0) *p++='+';
+ return p+ftoa_traits<F>::sprintf_sci(p,f);
+}
+
+template <class F>
+inline char *append_ftoa(char *p,F f,bool positive_sign=false) {
+ if (positive_sign&&f>=0) *p++='+';
+ return p+ftoa_traits<F>::sprintf(p,f);
+}
+
+template <class F>
+inline char *prepend_ftoa(char *p,F f)
+{
+ typedef ftoa_traits<F> FT;
+ return FT::use_sci(f) ? prepend_sci(p,f) : prepend_nonsci(p,f);
+}
+
+template <class F>
+inline std::string ftos_append(F f) {
+ typedef ftoa_traits<F> FT;
+ char buf[FT::bufsize];
+ return std::string(buf,append_ftoa(buf,f));
+}
+
+template <class F>
+inline std::string ftos_prepend(F f) {
+ typedef ftoa_traits<F> FT;
+ char buf[FT::bufsize];
+ char *end=buf+FT::bufsize;
+ return std::string(prepend_ftoa(end,f),end);
+}
+
+
+template <class F>
+inline std::string ftos(F f) {
+#if 0
+ // trust RVO? no extra copies?
+ return FTOA_USE_SPRINTF ? ftos_append(f) : ftos_prepend(f);
+#else
+ typedef ftoa_traits<F> FT;
+ char buf[FT::bufsize];
+ if (FTOA_USE_SPRINTF) {
+ return std::string(buf,append_ftoa(buf,f));
+ } else {
+ char *end=buf+FT::bufsize;
+ return std::string(prepend_ftoa(end,f),end);
+ }
+#endif
+}
+
+namespace {
+ const int ftoa_bufsize=30;
+ char ftoa_outbuf[ftoa_bufsize];
+}
+
+// not even THREADLOCAL - don't use.
+inline char *static_ftoa(float f)
+{
+ if (FTOA_USE_SPRINTF) {
+ append_ftoa(ftoa_outbuf,f);
+ return ftoa_outbuf;
+ } else {
+ char *end=ftoa_outbuf+ftoa_bufsize;
+ return prepend_ftoa(end,f);
+ }
+}
+
+
+#endif