changed: version of the library: 0.9.1 now

git-svn-id: svn://ttmath.org/publicrep/ttmath/trunk@286 e52654a7-88a9-db11-a3e9-0013d4bc506e
added: to samples: big2.cpp with TTMATH_BITS() macro
2010-02-07 18:17:24 +00:00 · 2010-02-07 13:36:39 +00:00 · 2010-02-02 21:05:08 +00:00 · 2010-02-02 21:02:10 +00:00 · 2010-01-06 00:54:01 +00:00 · 2010-01-03 01:10:37 +00:00
30 changed files with 15398 additions and 3483 deletions
--- a/470
+++ b/470
@@ -1,11 +1,419 @@
 Version 0.9.1 (2010.02.07):
    * fixed:   the parser didn't use characters for changing the base (# and &)
               those characters were skipped
               (this bug was introduced in 0.9.0)
    * fixed:   added in the parser: operator's associativity
               operator ^ (powering) is right-associative:
               sample: 2^3^4 is equal 2^(3^4) and it is: 2.41e+24
               previously was: 2^3^4 = (2^3)^4 = 4096
    * fixed:   in Big::ToString_CreateNewMantissaAndExponent() changed the formula:
               new_exp_ = [log base (2^exponent)] + 1
               now the part '+ 1' is only made when the logarithm is positive and with fraction
               if the value is negative we can only skip the fraction, previously
               we lost some last digits from the new mantissa
               Consider this binary value (32 bit mantissa):
               (bin)1.0000000000000000000000000000011
               previously ToString() gave 1, now we have: 1.000000001
    * changed: in Big::ToString() the base rounding is made only if the result value
               would not be an integer, e.g. if the value is 1.999999999999 then
               the base rounding will not be done - because as the result would be 2
    * added:   IEEE 754 half-to-even rounding (bankers' rounding) to the following
               floating point algorithms: Big::Add, Big::Sub, Big::Mul, Big::Div
    * added:   static sint UInt<value_size>::FindLowestBitInWord(uint x)
               this method is looking for the lowest set bit in a word
    * added:   UInt::FindLowestBit(uint & table_id, uint & index)
               this method is looking for the lowest set bit
 Version 0.9.0 (2009.11.25):
    * added:   support for wide characters (wchar_t, std::wstring)
    * added:   Big::IsInteger()
               returns true if the value is integer (without fraction)
               (NaN flag is not checked)
    * added:   global Gamma() function
    * added:   gamma() function to the parser
    * added:   CGamma<ValueType> class
               is used with Gamma() and Factorial() in multithreaded environment
    * added:   multithread support for Big<> class
               you should compile with TTMATH_MULTITHREADS
               and use TTMATH_MULTITHREADS_HELPER macro somewhere in your *.cpp file
    * added:   x86_64 asm code for Microsoft Visual compiler
               file: ttmathuint_x86_64_msvc.asm
               (this file should be compiled first because MS VC doesn't support inline assembler in x86_64 mode) 
    * added:   flag TTMATH_BIG_ZERO to Big<> class
               if this flag is set then there is a value zero
               Big::IsZero() is faster now
    * added:   Big::ClearInfoBit(unsigned char)
               Big::SetInfoBit(unsigned char)
               Big::IsInfoBit(unsigned char)
               some methods for manipulating the info flags
    * added:   macro: TTMATH_BITS(min_bits)
 		       which returns the number of machine words 
 		       capable to hold min_bits bits
    * added:   bool Parser::Calculated()
               this method returns true is something was calculated
               (at least one mathematical operator was used or a function or variable)
    * added:   to the parser: operator percentage
               e.g. 1000-50%=1000-(1000*0,5)=500
    * added:   struct: Conv
               consists of some parameters used
               in ToString() and FromString()
    * added:   Big::ToString() can group digits
               e.g. 1234567 -> 1`234`567
    * added:   Parser::SetGroup(int g)
               Parser::SetComma(int c, int c2 = 0)
               Parser::SetParamSep(int s)
    * added:   std::string  UInt::ToString(uint b = 10)
               std::wstring UInt::ToWString(uint b = 10)
               std::string  Int::ToString(uint b = 10)
               std::wstring Int::ToWString(uint b = 10)
               uint         Big::ToString(std::string & result, const Conv & conv)
               uint         Big::ToString(std::wstring & result, const Conv & conv)
               std::string  Big::ToString(const Conv & conv)
               std::string  Big::ToString()
               std::wstring Big::ToWString(const Conv & conv)
               std::wstring Big::ToWString()
    * added:   uint FromString(const char * source, const Conv & conv, const char **, bool *)
               uint FromString(const wchar_t * source, const Conv & conv, const wchar_t **, bool *)
               uint FromString(const std::string & string, const Conv & conv, const wchar_t **, bool *)
               uint FromString(const std::wstring & string, const Conv & conv, const wchar_t **, bool *)
    * added:   UInt::Sqrt() - a new algorithm for calculating the square root
    * added:   to the parser: function frac() - returns a value without the integer part
               (only fraction remains)
    * added:   Int::DivInt(sint divisor, sint * remainder)
    * added:   const char * UInt::LibTypeStr()
               const char * Big::LibTypeStr()
               LibTypeCode UInt::LibType()
               LibTypeCode Big::LibType()
               returning a string/enum represents the currect type of the library
               we have following types:
                   asm_vc_32   - with asm code designed for Microsoft Visual C++ (32 bits)
                   asm_gcc_32  - with asm code designed for GCC (32 bits)
                   asm_vc_64   - with asm for VC (64 bit)
                   asm_gcc_64  - with asm for GCC (64 bit)
                   no_asm_32   - pure C++ version (32 bit) - without any asm code
                   no_asm_64   - pure C++ version (64 bit) - without any asm code
    * added:   UInt::operator>>(int)
               UInt::operator>>=(int)
               UInt::operator<<(int)
               UInt::operator<<=(int)
    * changed: Factorial() is using the Gamma() function now
    * changed: Big::Div(ss2)
               Big::Mod(ss2)
               they return 2 when ss2 is zero
               previously returned 1
    * changed: algorithms in Big::Sqrt() and ttmath::Root(x ; n)
               they were not too much accurate for some integers
               e.g. Root(16;4) returned a value very closed to 2 (not exactly 2)
    * changed: added specializations to Big::ToString() when the base is equal 4, 8 or 16
               the previous version was not accurate on some last digits (after the comma operator)
               consider this binary value (32 bit mantissa):
               base 2: 1.1111 1111 1111 1111 1111 1111 1110 101
               previous ToString() gave:
                  base 4:  1.33333333333332
                  base 8:  1.777777777
                  base 16: 1.FFFFFF
               now we have:
                  base 4:  1.3333333333333222
                  base 8:  1.77777777724
                  base 16: 1.FFFFFFEA
    * changed: in Big::ToString() some additional rounding (base_round) is now made only 
               when the value is not an integer
    * changed: another compilers than MS VC or GCC by default use no asm version (TTMATH_NOASM)
    * removed: Parser<>::SetFactorialMax() method
               the factorial() is such a fast now that we don't need the method longer
    * removed: ErrorCode::err_too_big_factorial
    * removed: macros: TTMATH_COMMA_CHARACTER_1 and TTMATH_COMMA_CHARACTER_2
               the comma characters we have in Conv struct now
 Version 0.8.6 (2009.10.25):
    * fixed:   UInt::SetBitInWord(uint & value, uint bit) set 1 if the bit was
               equal 1 (should be set 2)
               this affected only no-asm parts - when macro TTMATH_NOASM was defined
    * fixed:   UInt<value_size>::MulInt(uint ss2)
               there was a buffer overflow when value_size was equal 1
    * fixed:   UInt::AddVector() and UInt::SubVector() didn't want to compile
               when macro TTMATH_NOASM was defined
    * fixed:   Big::operator>> didn't correctly recognize values in scientific mode (with 'e' character)
    * fixed:   Int::FromString(const tt_string & s, uint b = 10)
               didn't use 'b' (always was '10')
    * fixed:   buffer overflow in Big::ToInt(Int<int_size> & result)
    * fixed:   powering algorithm in:
               UInt::Pow(UInt<value_size> pow)
               Big::Pow(UInt<pow_size> pow)
               Big::PowUInt(Big<exp, man> pow)
               when 'pow' was sufficient large the algorithm returned carry
               but the result could have been calculated correctly
 Version 0.8.5 (2009.06.16):
    * fixed:   Big::Mod(x) didn't correctly return a carry
               and the result was sometimes very big (even greater than x)
    * fixed:   global function Mod(x) didn't set an ErrorCode object
    * fixed:   global function Round() didn't test a carry
               now it sets ErrorCode object
    * changed: function Sin(x) to Sin(x, ErrorCode * err=0)
               when x was very big the function returns zero
               now it sets ErrorCode object to err_overflow
               and the result has a NaN flag set
               the same is to Cos() function
    * changed: PrepareSin(x) is using Big::Mod() now when reducing 2PI period
               should be a little accurate especially on a very big 'x'
    * changed: uint Mul(const UInt<value_size> & ss2, uint algorithm = 100)
               void MulBig(const UInt<value_size> & ss2, UInt<value_size*2> & result, uint algorithm = 100)
               those methods by default use MulFastest() and MulFastestBig()
    * changed: changed a little Mul2Big() to cooperate with Mul3Big()
    * added:   uint UInt::Mul3(const UInt<value_size> & ss2)
               void UInt::Mul3Big(const UInt<value_size> & ss2, UInt<value_size*2> & result)
               a new multiplication algorithm: Karatsuba multiplication,
               on a vector UInt<100> with all items different from zero this algorithm is faster
               about 3 times than Mul2Big(), and on a vector UInt<1000> with all items different from
               zero this algorithm is faster more than 5 times than Mul2Big()
               (measured on 32bit platform with GCC 4.3.3 with -O3 and -DTTMATH_RELEASE)
    * added:   uint MulFastest(const UInt<value_size> & ss2)
               void MulFastestBig(const UInt<value_size> & ss2, UInt<value_size*2> & result)
               those methods are trying to select the fastest multiplication algorithm
    * added:   uint AddVector(const uint * ss1, const uint * ss2, uint ss1_size, uint ss2_size, uint * result)
               uint SubVector(const uint * ss1, const uint * ss2, uint ss1_size, uint ss2_size, uint * result)
               three forms: asm x86, asm x86_64, no-asm
               those methods are used by the Karatsuba multiplication algorithm
    * added:   to Big<> class: support for NaN flag (Not a Number)
               bool Big::IsNan() - returns true if the NaN flag is set
               void Big::SetNan() - sets the NaN flag
               The NaN flag is set by default after creating an object:
                 Big<1, 2> a;    // NaN is set (it means the object has not a valid number)
                 std::cout << a; // cout gives "NaN"
                 a = 123;        // now NaN is not set
                 std::cout << a; // cout gives "123"
               The NaN is set if there was a carry during calculations
                 a.Mul(very_big_value); // a will have a NaN set
               The NaN is set if an argument is NaN too
                 b.SetNan();
                 a.Add(b);  // a will have NaN because b has NaN too
               If you try to do something on a NaN object, the result is a NaN too
                 a.SetNan();
                 a.Add(2);  // a is still a NaN 
               The NaN is set if you use incorrect arguments
                 a.Ln(-10); // a will have the NaN flag
               The only way to clear the NaN flag is to assign a correct value or other correct object,
               supposing 'a' has NaN flag, to remove the flag you can either:
                 a = 10;
                 a.FromInt(30);
                 a.SetOne(); 
                 a.FromBig(other_object_without_nan);
                 etc.
 Version 0.8.4 (2009.05.08):
    * fixed:   UInt::DivInt() didn't check whether the divisor is zero
               there was a hardware interruption when the divisor was zero
               (now the method returns one)
    * fixed:   the problem with GCC optimization on x86_64
               sometimes when using -O2 or -O3 GCC doesn't set correctly
               the stack pointer (actually the stack is used for other things)
               and you can't use instructions like push/pop in assembler code.
               All the asm code in x86_64 have been rewritten, now instructions
               push/pop are not used, other thing which have access to stack 
               (like "m" (mask) constraints in Rcl2 and Rcr2) have also gone away,
               now the library works well with -O2 and -O3 and the asm code
               is a little faster
    * added:   UInt::PrintLog(const char * msg, std::ostream & output)
               used (for debugging purposes) by macro TTMATH_LOG(msg)
               (it is used in nearly all methods in UInt class)
    * added:   macro TTMATH_DEBUG_LOG: when defined then TTMATH_LOG() 
               put some debug information (to std::cout)
    * added:   ttmathuint_x86.h, ttmathuint_x86_64.h, ttmathuint_noasm.h, 
               all the methods which are using assembler code have been 
               rewritten to no-asm forms, now we have:
               1. asm for x86      file: ttmathuint_x86.h
               2. asm for x86_64   file: ttmathuint_x86_64.h
               3. no asm           file: ttmathuint_noasm.h
                  (it's used when macro TTMATH_NOASM is defined)
               The third form can be used on x86 and x86_64 as well and
               on other platforms with a little effort.
 Version 0.8.3 (2009.04.06):
    * fixed:   RclMoveAllWords() and RcrMoveAllWords() sometimes didn't return
               the proper carry, (when 'bits' was greater than or equal to 'value_size')
               this had impact on Rcl() and Rcr(), they also returned the wrong carry	
    * fixed:   UInt::Div() didn't return a correct result when the divisor was equal 1
               there was an error in UInt::DivInt() - when the divisor was 1 it returned
               zero and the carry was set
    * fixed:   there was a TTMATH_REREFENCE_ASSERT error in Big::PowUInt() caused by: start.Mul(start)
    * fixed:   Big::Add incorrectly rounded 'this' when both exponents were equal
               it caused that sometimes when adding a zero the result has changed
               this had impact among other things on FromString() method
               "0,8" had different binary representation from "0,80"
    * fixed:   template Big::FromBig(const Big<another_exp, another_man> & another)
               didn't correctly set the exponent (when the mantisses had different size -
               when 'man' was different from 'another_man')
               this had impact on operator= too
               sample:
               Big<2,3> a = 100;
               Big<3,5> b;
               b = a; // b had a wrong value
    * fixed:   Big::Pow(const Big<exp, man> & pow)
               it's using PowInt() only when pow.exponent is in range (-man*TTMATH_BITS_PER_UINT; 0]
               previously the powering 'hung' on an input like this: "(1+ 1e-10000) ^ 10e100000000"
               (there was 10e100000000 iterations in PowInt())
    * fixed:   in function DegToRad(const ValueType & x, ErrorCode * err = 0) it is better
               to make division first and then mutliplication -- the result is more
               accurate especially when x is: 90,180,270 or 360
    * fixed:   the parser didn't correctly treat operators for changing the base
               (radix) -- operators '#' and '&', e.g.:
               '#sin(1)' was equal '0' -- there was a zero from '#' and then
               it was multipied by 'sin(1)'
               the parser didn't check whether Big::FromString() has actually
               read a proper value -- the method Big::FromString() didn't have
               something to report such a situation
    * fixed:   Big::FromString() when the base is 10, the method reads the scientific
               part only if such a part it correctly supplied, e.g:
               '1234e10', '1234e+10', '1234e-5'
               previous '1234e' was treated as: '1234e0' (now parsing stops on 'e' and
               the 'e' can be parsed by other parsers, e.g. the mathematical
               parser -- now in the parser would be: '1234e' = '1234 * e' = '3354,3597...' )
    * changed: renamed: Big::PowUInt(UInt<pow_size> pow) -> Big::Pow(UInt<pow_size> pow)
               it returns 2 when there is: 0^0
    * changed: renamed: Big::PowInt(Int<pow_size> pow) -> Big::Pow(Int<pow_size> pow)
               it returns 2 when there is: 0^0 or 0^(-something)
    * changed: renamed: Big::PowBUInt() -> PowUInt(), Big::PowBInt() -> Big::PowInt()
               they return 2 when the arguments are incorrect (like above)
    * changed: UInt::SetBitInWord(uint & value, uint bit) is taking the first argument by a reference now,
               the specific bit is set in the 'value' and the method returns the last state of the bit (zero or one)
    * changed: UInt::SetBit(uint bit_index) - it's using TTMATH_ASSERT now
    * changed: the size of built-in variables (constants) in ttmathbig.h
               now they consist of 256 32bit words
               macro TTMATH_BUILTIN_VARIABLES_SIZE is equal: 256u on a 32bit platform and 128ul on a 64bit platform
    * changed: the asm code in ttmathuint.h and ttmathuint64.h has been completely rewritten
               now UInt<> is faster about 15-30% than UInt<> from 0.8.2
               this has impact on Big<> too - it's faster about 10% now
    * changed: in the parser: the form with operators '#' and '&' is as follows:
               [-|+][#|&]numeric_value
               previous was: [-|+][#|&][-|+]numeric_value
    * changed: in the parser: the short form of multiplication has the same
               priority as the normal multiplication, e.g.:
               '2x^3' = 2 * (x^3)
               previous the priority was greater than powering priority
               previous: '2x^3' = (2*x) ^ 3
    * added:   UInt::GetBit(uint bit_index) - returning the state of the specific bit
    * added:   Big::operator=(double) and Big::Big(double)
    * added:   UInt::Pow(UInt<value_size> pow) and Int::Pow(Int<value_size> pow)
    * added:   global template functions in ttmath.h:
               ValueType GradToRad(const ValueType & x, ErrorCode * err = 0)
               ValueType RadToGrad(const ValueType & x, ErrorCode * err = 0)
               ValueType DegToGrad(const ValueType & x, ErrorCode * err = 0)
               ValueType DegToGrad(const ValueType & d, const ValueType & m,
                                   const ValueType & s, ErrorCode * err = 0)
               ValueType GradToDeg(const ValueType & x, ErrorCode * err = 0)
    * added:   Parser::SetDegRadGrad(int angle) - 0 deg, 1 rad (default), 2 grad
               this affects following functions (in the parser only): sin, cos, tan, cot,
               asin, acos, atan, acot
    * added:   functions to the parser: gradtorad(grad), radtograd(rad), degtograd(deg),
               degtograd(d,m,s), gradtodeg(grad)
    * added:   UInt::FromString, added a parametr 'after_source'
               which is pointing at the end of the parsed string
    * added:   Int::FromString(): parameter 'const char ** after_source = 0'
               if exists it's pointing at the end of the parsed string
    * added:   to UInt::FromString(), Int::FromString(), Big::FromString():
               parameter 'bool * value_read = 0' - (if exists) tells
               whether something has actually been read (at least one digit)
    * added:   Objects::IsDefined(const std::string & name)
               returning true if such an object is defined
    * removed: Big::FromString() this method doesn't longer recognize operators
               for changing the base ('#' and '&')
 Version 0.8.2 (2008.06.18):
    * added:   UInt::BitNot2() this method has been proposed by
               Arek <kmicicc AnTispam users.sourceforge.net>
    * changed: Int::FromInt(const Int<argument_size> & p), 
               Int::FromInt(sint value) (it returns zero now)
               Int::operator=(uint i)
               Int::Int(uint i)
    * added:   Int::FromUInt(const UInt<argument_size> & p),
               Int::FromUInt(uint value)
               and appropriate constructors and assignment 
               operators as well
    * changed: Big::FromInt(Int<int_size> value),
    * added:   Big::FromUInt(UInt<int_size> value),
               Big::operator=(const UInt<int_size> & value)
               Big::Big(const UInt<int_size> & value)
    * changed: the parser is allowed to recognize values which
               begin with a dot, e.g '.5' is treated as '0.5'
    * added:   a method Big::FromDouble(double) which converts from
               standard double into a Big
    * added:   uint Big::ToDouble(double&) - converting into double
    * added:   Big::FromBig() and an operator= and a contructor
               for converting from another kind of a Big class
    * added:   to the parser: avg(), sum()
    * added:   'decimal_point' parameter into Big::ToString(...)
    * fixed:   Big::operator>> didn't use TTMATH_COMMA_CHARACTER_2 macro
    * added:   a short form of multiplication (without the '*' character)
               e.g. '5y', (it's used only if the second parameter
               is a variable or function)
    * changed: variables and functions are case-sensitive now
    * added:   variables and functions can have underline characters
               in their names
    * changed: 'max_digit_after_comma' in Big::ToString()
               remove the -2 state
    * added:   'remove_trailing_zeroes' in Big::ToString()
               it's either true or false
    * fixed/changed: the way of using Big::SetSign()
               the method do not check whether there is a zero or not now
               (even if there's a zero the method can set a sign bit)
               I changed this due to some prior errors
               (errors corrected in revision 17, 49 and 58)
 Version 0.8.1 (2007.04.17):
    * fixed:   Big::PowFrac(..) didn't return a correct error code
               (when 'this' was negative)
    * added:   Root(x; index) (and to the parser as well)
    * added:   macro: TTMATH_PRERELEASE_VER (can be either zero or one)
    * added:   UInt::MulInt(int, UInt<int another_size>::&)
    * added:   Big::MulUInt(uint)
    * changed: Big::MulInt(sint)
    * added:   Big::ToUInt(uint &)
    * changed: Big::ToInt(sint&)
    * changed: Factorial() it uses Big::MulUInt() at the beginning
               (faster now especially more on a 32bit platform)
    * added:   doxygen.cfg for generating a documentation from the doxygen
    * changed: UInt::Rcl(uint c=0) and UInt::Rcr(uint c=0) into
               UInt::Rcl2(uint bits, uint c) and UInt::Rcr2(uint bits, uint c)
               now they can move more than one bit and they are only private
    * fixed:   UInt::Rcl(uint bits, uint c) and UInt::Rcr(uint bits, uint c)
               didn't correctly return a carry if the 'bits' were equal
               to 'value_size*TTMATH_BITS_PER_UINT'
    * changed: UInt::Rcl(uint bits, uint c) and UInt::Rcr(uint bits, uint c)
               into UInt::Rcl(uint bits, uint c=0) and
               UInt::Rcr(uint bits, uint c=0)
               they are faster now when the bits is greater than a half of
               the TTMATH_BITS_PER_UINT
    * changed: UInt::CompensationToLeft() it's faster now
    * changed: more small changes where there were UInt::Rcl(uint c=0) and
               UInt::Rcr(uint c=0) used
    * changed: as the Big type uses UInt::Rcl() and UInt::Rcr() a lot then
               it is much faster now (about 5-25%)
    * added:   ASinh(), ACosh(), ATanh() /ATgh()/, ACoth() /ACtgh()/
               and to the parser as well
    * added:   UInt::BitAnd(), UInt::BitOr(), UInt::BitXor(), UInt::BitNot(),
               Big::BitAnd(), Big::BitOr(), Big::BitXor()
    * added:   to the parser: bitand(), bitor(), bitxor()
               /band(), bor(), bxor()/
    * changed: the way of parsing operators in the mathematical parser
               (the parser is not too much greedy now)
 Version 0.8.0 (2007.03.28):
    * added:   into the parser: SetFactorialMax()
    * added:   DegToDeg(deg, min, sec), DegToRad(deg), DegToRad(deg, min, sec),
               RadToDeg(rad), Ceil(x), Floor(x), Sqrt(x), Sinh(x), Cosh(x),
               Tanh(x) /Tgh(x)/, Coth(x) /Ctgh(x)/
    * changed: class Objects in ttmathobjects.h has been completely rewritten,
-	  we can change the names of user-defined variables or functions, and the
+               we can change the names of user-defined variables or functions,
-	  names are case-sensitive now
+               and the names are case-sensitive now
    * added:   class History which is used in functions which take a lot of time
               during calculating e.g. Factorial(x)
    * added:   Tg(x) a wrapper for Tan(x)
@@ -16,14 +424,14 @@ Version 0.8.0 (2007.03.28):
    * added:   ACtg(x) a wrapper for ACot(x)
    * added:   UInt::PrintTable() (for debugging etc.)
    * changed: the methods Big::SetPi() Big::SetE() and Big::SetLn2() have
-	  been rewritten, now they have 128 32bit words (it's about 1232 valid
+               been rewritten, now they have 128 32bit words (it's about
-	  decimal digits)
+               1232 valid decimal digits)
    * fixed:   previous values from Big::SetPi() Big::SetE() and
               Big::SetLn2() were not too much accurate (last 2-3 words were wrong)
    * added:   Big::SetLn10() (128 32bit words as well)
-	* added: macro: TTMATH_BUILTIN_VARIABLES_SIZE which is equal 128u on
+    * added:   macro TTMATH_BUILTIN_VARIABLES_SIZE which is equal 128u on
               32bit platforms and 64ul on 64bit platforms (128/2=64)
-	* added: macros: TTMATH_PLATFORM32 and TTMATH_PLATFORM64
+    * added:   macros TTMATH_PLATFORM32 and TTMATH_PLATFORM64
    * changed: a small optimisation in UInt::Mul2Big()
    * added:   at the end of ttmath.h: #include "ttmathparser.h"
               this is for convenience for a programmer, he can only use #include
@@ -31,13 +439,14 @@ Version 0.8.0 (2007.03.28):
    * added:   to samples: big.cpp, parser.cpp
    * added/changes/fixed: in copy-constructors and operators= in Int,
               Uint and Big (more info in the commit log)
-	* renamed Big::SetDotOne() into Big::Set05()
+    * renamed: Big::SetDotOne() into Big::Set05()
    * changes: a few small optimisations in Big
    * deleted: the word 'virtual' from destructors: UInt, Int, Big
               (types in this library are not projected to be base-classes for
               another ones derived from them)
    * and more small changes (look at the commit log)    
 Version 0.7.2 (2007.03.09):
    * added:   Big::Mod - the remainder from a division
    * added:   Big::Sgn - the 'sign' from the value (-1,0,1)
@@ -48,37 +457,42 @@ Version 0.7.2 (2007.03.09):
    * added:   into the parser: logical functions: and() or() not() if()
    * added:   ErrorCode::err_unknown_operator when the parser couldn't read an operator
 Version 0.7.1 (2007.02.27):
-	* fixed the error 'overflow during printing' which was caused
+    * fixed:   the error 'overflow during printing' which was caused
               by Big::FromInt(Int<int_size> value) (the sign has to be set at the end)
-	* fixed many small errors
+    * fixed:   many small errors
-	* added ATan (arctan), ACTan (arc ctan) functions
+    * added:   ATan (arctan), ACTan (arc ctan) functions
 Version 0.7.0 (2007.02.24):
-	* finished support for 64bit platforms
+    * finished: support for 64bit platforms
-	* added ASin (arcsin), ACos (arccos) functions
+    * added:   ASin (arcsin), ACos (arccos) functions
 Version 0.6.4 (2007.01.29):
-	* fixed the problem with a sign in the mathematical parser /-(1) was 1/
+    * fixed:   the problem with a sign in the mathematical parser /-(1) was 1/
-	* added UInt::AddInt and UInt::SubInt
+    * added:   UInt::AddInt and UInt::SubInt
-	* changed UInt::AddOne and UInt::SubOne (much faster now)
+    * changed: UInt::AddOne and UInt::SubOne (much faster now)
-	* added UInt::SetBitInWord
+    * added:   UInt::SetBitInWord
-	* changed UInt::SetBit (much faster now)
+    * changed: UInt::SetBit (much faster now)
-	* UInt::AddTwoUints renamed to UInt::AddTwoInts
+               UInt::AddTwoUints renamed to UInt::AddTwoInts
-	* UInt::FindLeadingBit32 renamed to UInt::FindLeadingBitInWord
+               UInt::FindLeadingBit32 renamed to UInt::FindLeadingBitInWord
-	* added UInt::SetBitInWord
+               UInt::Mul64 renamed to UInt::MulTwoWords
-	* UInt::Mul64 renamed to UInt::MulTwoWords
+               UInt::Div64 renamed to UInt::DivTwoWords
-	* UInt::Div64 renamed to UInt::DivTwoWords
+    * added:   UInt::SetBitInWord
    * and more small changes in UInt type
    * start adding support for Amd64 (not finished yet) (added ttmathuint64.h)
 Version 0.6.3 (2007.01.22):
-	* position of arguments (x and base) in logarithm functions are swapped
+    * changed: position of arguments (x and base) in logarithm functions are swapped
-	* it's possible to use any multiplication algorithms in the same time
+    * changed: it's possible to use any multiplication algorithms in the same time
               (macros UINT_MUL_VERSION_'X' have gone)
-	* added ExceptionInfo, ReferenceError and RuntimeError classes
+    * added:   ExceptionInfo, ReferenceError and RuntimeError classes
-	* the mess in macros has been cleaned up
+    * changed: the mess in macros has been cleaned up
-	* added TTMATH_RELEASE macro
+    * added:   TTMATH_RELEASE macro
 Version 0.6.2 (2007.01.10):
-	* New division algorithm (radix b) where b is 2^32
+    * added:   New division algorithm (radix b) where b is 2^32
--- a/2
+++ b/2
@@ -1,4 +1,4 @@
-Copyright (c) 2006-2007, Tomasz Sowa
+Copyright (c) 2006-2010, Tomasz Sowa
 All rights reserved.
 Redistribution and use in source and binary forms, with or without
--- a/35
+++ b/35
@@ -1,24 +1,23 @@
-TTMath - a bignum library for C++
+A bignum library for C++
 TTMath is a small library which allows one to perform arithmetic operations
-with big unsigned integer, big signed integer and big floating point
+with big unsigned integer, big signed integer and big floating point numbers.
-numbers. It provides standard mathematical operations like adding,
+It provides standard mathematical operations like adding, subtracting,
-subtracting, multiplying, dividing etc. With the library also goes
+multiplying, dividing. With the library also goes a mathematical parser to
-a mathematical parser which helps you solving input formulas read directly
+help you solving mathematical expressions.
 from a user.
-TTMath is developed under the (new) BSD licence which means that it is free
+TTMath is developed under the BSD licence which means that it is free for
-for both personal and commercial use but the library has some technical
+both personal and commercial use.
 limitations: you can use it only on i386 and Amd64, another platforms are
 not supported (Intel 64bit platforms were not tested but should work as
 well), and you can use this library only with the C++ programming language. 
 The main goal of the library is to allow one to use big values in the same
-way as the standard types like int, float, etc. It does not need to be
+way as the standard types like int or float. It does not need to be compiled
-compiled first because the whole library is written as the C++ templates.
+first because the whole library is written as the C++ templates. This means
-This means only C++ developers can use this library and one thing they have
+only C++ developers can use this library and one thing they have to do is
-to do is to use  'include' directive of the preprocessor. How big the
+to use 'include' directive of the preprocessor. How big the values can be
-values can be is set directly in the source code by the programmer.
+is set at compile time.
-Author: Tomasz Sowa <t.sowa AnTispam slimaczek.pl>
+Author: Tomasz Sowa <t.sowa@ttmath.org>
-Home page: http://sourceforge.net/projects/ttmath
+WWW:    http://www.ttmath.org
 Contributors:
 Christian Kaiser <chk@online.de>
--- a/7
+++ b/7
@@ -1,7 +0,0 @@
 TODO TTMath Library
 ===================
 * Add bitwise operators (or functions) and, or, xor
 * Add functions for generating random values
--- a/constgen/Makefile
+++ b/constgen/Makefile
@@ -0,0 +1,27 @@
 o      = main.o
 CC     = g++
 CFLAGS = -s -O2 -DTTMATH_CONSTANTSGENERATOR
 name   = gen
 .SUFFIXES: .cpp .o
 .cpp.o:
 	$(CC) -c $(CFLAGS) $<
 all: $(name)
 $(name): $(o)
 	$(CC) -o $(name) $(CFLAGS) $(o)
 main.o: main.cpp
 clean:
 	rm -f *.o
 	rm -f *.s
 	rm -f $(name)
 	rm -f $(name).exe
--- a/constgen/main.cpp
+++ b/constgen/main.cpp
@@ -0,0 +1,126 @@
 /*
 * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
 */
 /* 
 * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 /*
  this simple program is used to make constants which then are put into ttmathbig.h
 */
 #include "../ttmath/ttmath.h"
 #include <iostream>
 void CalcPi()
 {
 	ttmath::Big<1,400> pi;
 	// 3100 digits after commna, taken from: http://zenwerx.com/pi.php
 	pi = "3.1415926535897932384626433832795028841971693993751058209749445923078164062862089986280348253421170679"
 	"8214808651328230664709384460955058223172535940812848111745028410270193852110555964462294895493038196"
 	"4428810975665933446128475648233786783165271201909145648566923460348610454326648213393607260249141273"
 	"7245870066063155881748815209209628292540917153643678925903600113305305488204665213841469519415116094"
 	"3305727036575959195309218611738193261179310511854807446237996274956735188575272489122793818301194912"
 	"9833673362440656643086021394946395224737190702179860943702770539217176293176752384674818467669405132"
 	"0005681271452635608277857713427577896091736371787214684409012249534301465495853710507922796892589235"
 	"4201995611212902196086403441815981362977477130996051870721134999999837297804995105973173281609631859"
 	"5024459455346908302642522308253344685035261931188171010003137838752886587533208381420617177669147303"
 	"5982534904287554687311595628638823537875937519577818577805321712268066130019278766111959092164201989"
 	"3809525720106548586327886593615338182796823030195203530185296899577362259941389124972177528347913151"
 	"5574857242454150695950829533116861727855889075098381754637464939319255060400927701671139009848824012"
 	"8583616035637076601047101819429555961989467678374494482553797747268471040475346462080466842590694912"
 	"9331367702898915210475216205696602405803815019351125338243003558764024749647326391419927260426992279"
 	"6782354781636009341721641219924586315030286182974555706749838505494588586926995690927210797509302955"
 	"3211653449872027559602364806654991198818347977535663698074265425278625518184175746728909777727938000"
 	"8164706001614524919217321721477235014144197356854816136115735255213347574184946843852332390739414333"
 	"4547762416862518983569485562099219222184272550254256887671790494601653466804988627232791786085784383"
 	"8279679766814541009538837863609506800642251252051173929848960841284886269456042419652850222106611863"
 	"0674427862203919494504712371378696095636437191728746776465757396241389086583264599581339047802759009"
 	"9465764078951269468398352595709825822620522489407726719478268482601476990902640136394437455305068203"
 	"4962524517493996514314298091906592509372216964615157098583874105978859597729754989301617539284681382"
 	"6868386894277415599185592524595395943104997252468084598727364469584865383673622262609912460805124388"
 	"4390451244136549762780797715691435997700129616089441694868555848406353422072225828488648158456028506"
 	"0168427394522674676788952521385225499546667278239864565961163548862305774564980355936345681743241125"
 	"1507606947945109659609402522887971089314566913686722874894056010150330861792868092087476091782493858"
 	"9009714909675985261365549781893129784821682998948722658804857564014270477555132379641451523746234364"
 	"5428584447952658678210511413547357395231134271661021359695362314429524849371871101457654035902799344"
 	"0374200731057853906219838744780847848968332144571386875194350643021845319104848100537061468067491927"
 	"8191197939952061419663428754440643745123718192179998391015919561814675142691239748940907186494231961"
 	"5679452080951465502252316038819301420937621378559566389377870830390697920773467221825625996615014215";
 	std::cout << "---------------- PI ----------------" << std::endl;
 	pi.mantissa.PrintTable(std::cout);
 }
 void CalcE()
 {
 	ttmath::Big<1,400> e;
 	ttmath::uint steps;
 	// macro TTMATH_CONSTANTSGENERATOR has to be defined	
 	e.ExpSurrounding0(1, &steps);
 	std::cout << "---------------- e ----------------" << std::endl;
 	e.mantissa.PrintTable(std::cout);
 	std::cout << "ExpSurrounding0(1): " << steps << " iterations" << std::endl;
 }
 void CalcLn(int x)
 {
 	ttmath::Big<1,400> ln;
 	ttmath::uint steps;
 	// macro TTMATH_CONSTANTSGENERATOR has to be defined	
 	ln.LnSurrounding1(x, &steps);
 	std::cout << "---------------- ln(" << x << ") ----------------" << std::endl;
 	ln.mantissa.PrintTable(std::cout);
 	std::cout << "LnSurrounding1(" << x << "): " << steps << " iterations" << std::endl;
 }
 int main()
 {
 	CalcPi();
 	CalcE();
 	CalcLn(2);
 	CalcLn(10);
 return 0;
 }
--- a/doxygen.cfg
+++ b/doxygen.cfg
--- a/samples/Makefile
+++ b/samples/Makefile
@@ -8,7 +8,7 @@ CFLAGS = -Wall -pedantic -s -O2 -I..
 	$(CC) -c $(CFLAGS) $<
-all: uint int big parser
+all: uint int big big2 parser
 uint: uint.o
@@ -20,6 +20,9 @@ int: int.o
 big: big.o
 	$(CC) -o big $(CFLAGS) big.o
 big2: big2.o
 	$(CC) -o big2 $(CFLAGS) big2.o
 parser: parser.o
 	$(CC) -o parser $(CFLAGS) parser.o
@@ -27,6 +30,7 @@ parser: parser.o
 uint.o:		uint.cpp
 int.o:		int.cpp
 big.o:		big.cpp
 big2.o:		big2.cpp
 parser.o:	parser.cpp
@@ -36,6 +40,7 @@ clean:
 	rm -f uint
 	rm -f int
 	rm -f big
 	rm -f big2
 	rm -f parser
 # on MS Windows can automatically be added suffixes .exe to the names of output programs
 	rm -f *.exe
--- a/samples/big.cpp
+++ b/samples/big.cpp
@@ -5,6 +5,8 @@
 // this type has 2 words for its mantissa and 1 word for its exponent
 // (on a 32bit platform one word means a word of 32 bits,
 // and on a 64bit platform one word means a word of 64 bits)
 // Big<exponent, mantissa>
 typedef ttmath::Big<1,2> MyBig;
@@ -32,20 +34,21 @@ MyBig atemp;
 	if( !atemp.Add(b) )
 		std::cout << "a + b = " << atemp << std::endl;
 	else
-		std::cout << "a + b = (carry) " << atemp << std::endl;
+		std::cout << "a + b = (carry)" << std::endl;
 		// it have no sense to print 'atemp' (it's undefined)
 	atemp = a;
 	if( !atemp.Sub(b) )
 		std::cout << "a - b = " << atemp << std::endl;
 	else
-		std::cout << "a - b = (carry) " << atemp << std::endl;
+		std::cout << "a - b = (carry)" << std::endl;
 	atemp = a;
 	if( !atemp.Mul(b) )
 		std::cout << "a * b = " << atemp << std::endl;
 	else
-		std::cout << "a * b = (carry: the result is too big) " << std::endl;
+		std::cout << "a * b = (carry)" << std::endl;
-		// it have no sense to print 'atemp' (it's undefined)
+		
 	atemp = a;
 	if( !atemp.Div(b) )
@@ -55,6 +58,7 @@ MyBig atemp;
 }
 int main()
 {
 MyBig a,b;
@@ -68,9 +72,8 @@ MyBig a,b;
 	// 'a' will have the max value which can be held in this type
 	a.SetMax();
-	// at the moment conversions from double (or float etc.) are not supported
+	// conversion from double
-	// you cannot do that: b = 456.32f
+	b = 456.32;
 	b = "456.32";
 	// Look at the value 'a' and the product from a+b and a-b
 	// Don't worry this is the nature of floating point numbers
@@ -86,12 +89,12 @@ b = 98767878.124322
 a + b = 98891334.667778
 a - b = -98644421.580866
 a * b = 12193540837712.2708
-a / b = 0.0012499665458095765
+a / b = 0.00124996654580957646
 Calculating with a carry
-a = 1.624801256070839555e+646457012
+a = 1.624801256066640878e+646457012
-b = 456.32
+b = 456.319999999999993
-a + b = 1.624801256070839555e+646457012
+a + b = 1.624801256066640878e+646457012
-a - b = 1.624801256070839555e+646457012
+a - b = 1.624801256066640878e+646457012
-a * b = (carry: the result is too big) 
+a * b = (carry)
-a / b = 3.56066193914542329e+646457009
+a / b = 3.560661939136222174e+646457009
 */
--- a/samples/big2.cpp
+++ b/samples/big2.cpp
@@ -0,0 +1,113 @@
 #include <ttmath/ttmath.h>
 #include <iostream>
 // this is a similar example to big.cpp
 // but now we're using TTMATH_BITS() macro
 // this macro returns how many words we need to store
 // the given number of bits
 // TTMATH_BITS(64) 
 //   on a 32bit platform the macro returns 2 (2*32=64)
 //   on a 64bit platform the macro returns 1
 // TTMATH_BITS(128)
 //   on a 32bit platform the macro returns 4 (4*32=128)
 //   on a 64bit platform the macro returns 2 (2*64=128)
 // Big<exponent, mantissa>
 typedef ttmath::Big<TTMATH_BITS(64), TTMATH_BITS(128)> MyBig;
 // consequently on a 32bit platform we define: Big<2, 4>
 // and on a 64bit platform: Big<1, 2>
 // and the calculations will be the same on both platforms       
 void SimpleCalculating(const MyBig & a, const MyBig & b)
 {
 	std::cout << "Simple calculating" << std::endl;
 	std::cout << "a = " << a << std::endl;
 	std::cout << "b = " << b << std::endl;
 	std::cout << "a + b = " << a+b << std::endl;
 	std::cout << "a - b = " << a-b << std::endl;
 	std::cout << "a * b = " << a*b << std::endl;
 	std::cout << "a / b = " << a/b << std::endl;
 }
 void CalculatingWithCarry(const MyBig & a, const MyBig & b)
 {
 MyBig atemp;
 	std::cout << "Calculating with a carry" << std::endl;
 	std::cout << "a = " << a << std::endl;
 	std::cout << "b = " << b << std::endl;
 	atemp = a;
 	if( !atemp.Add(b) )
 		std::cout << "a + b = " << atemp << std::endl;
 	else
 		std::cout << "a + b = (carry)" << std::endl;
 		// it have no sense to print 'atemp' (it's undefined)
 	atemp = a;
 	if( !atemp.Sub(b) )
 		std::cout << "a - b = " << atemp << std::endl;
 	else
 		std::cout << "a - b = (carry)" << std::endl;
 	atemp = a;
 	if( !atemp.Mul(b) )
 		std::cout << "a * b = " << atemp << std::endl;
 	else
 		std::cout << "a * b = (carry)" << std::endl;
 	atemp = a;
 	if( !atemp.Div(b) )
 		std::cout << "a / b = " << atemp << std::endl;
 	else
 		std::cout << "a / b = (carry or division by zero) " << std::endl;
 }
 int main()
 {
 MyBig a,b;
 	// conversion from 'const char *'
 	a = "123456.543456";
 	b = "98767878.124322";
 	SimpleCalculating(a,b);
 	// 'a' will have the max value which can be held in this type
 	a.SetMax();
 	// conversion from double
 	b = 456.32;
 	// Look at the value 'a' and the product from a+b and a-b
 	// Don't worry this is the nature of floating point numbers
 	CalculatingWithCarry(a,b);
 }
 /*
 the result (the same on a 32 or 64bit platform):
 Simple calculating
 a = 123456.543456
 b = 98767878.124322
 a + b = 98891334.667778
 a - b = -98644421.580866
 a * b = 12193540837712.270763536832
 a / b = 0.001249966545809576460596448526166860913
 Calculating with a carry
 a = 2.3495345545711177736883282090959505003e+2776511644261678604
 b = 456.3199999999999931787897367030382156
 a + b = 2.3495345545711177736883282090959505003e+2776511644261678604
 a - b = 2.3495345545711177736883282090959505003e+2776511644261678604
 a * b = (carry)
 a / b = 5.1488748127873374141170361292780486452e+2776511644261678601
 */
--- a/samples/parser.cpp
+++ b/samples/parser.cpp
@@ -29,6 +29,11 @@ const char equation[] = " (34 + 24) * 123 - 34.32 ^ 6 * sin(2.56) - atan(10)";
 /*
 the result (on 32 bit platform):
 -897705014.52573107
 */
 /*
 the result (on 64 bit platform):
 -897705014.5257310676097719585259773124
 */
--- a/tests/Makefile
+++ b/tests/Makefile
@@ -0,0 +1,31 @@
 CC     = g++
 o      = main.o uinttest.o
 CFLAGS = -Wall -O2 -s
 ttmath = ..
 name   = tests
 .SUFFIXES: .cpp .o
 .cpp.o:
 	$(CC) -c $(CFLAGS) -I$(ttmath) $<
 all: $(name)
 $(name): $(o)
 	$(CC) -o $(name) $(CFLAGS) -I$(ttmath) $(o)
 main.o: main.cpp uinttest.h
 uinttest.o: uinttest.cpp uinttest.h
 clean:
 	rm -f *.o
 	rm -f $(name)
 	rm -f $(name).exe
--- a/tests/main.cpp
+++ b/tests/main.cpp
@@ -0,0 +1,68 @@
 /*
 * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
 */
 /* 
 * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 #include <iostream>
 #include <ttmath/ttmath.h>
 #include "uinttest.h"
 const char uint_tests_file[] = "tests.uint32";
 void test_uint()
 {
 	UIntTest test;
 	test.set_file_name(uint_tests_file);
 	test.go();
 }
 int main()
 {
 using namespace ttmath;
 	test_uint();
 return 0;
 }
--- a/tests/tests.uint32
+++ b/tests/tests.uint32
@@ -0,0 +1,92 @@
 # Add
 #     min_bits   max_bits   a           b         result       carry
 add   32         0          0           0         0            0
 add   32         0          1           1         2            0
 add   32         0          2342234     3563456   5905690      0
 add   32         0          254455      3453435   3707890      0
 add   32         0          4294967295  0         4294967295   0
 add   32         32         4294967295                                 1         0                                                  1
 add   32         32         4294967295                                 0         4294967295                                         0
 add   64         64         18446744073709551615                       1         0                                                  1
 add   64         64         18446744073709551615                       0         18446744073709551615                               0
 add   96         96         79228162514264337593543950335              1         0                                                  1
 add   96         96         79228162514264337593543950335              0         79228162514264337593543950335                      0
 add   128        128        340282366920938463463374607431768211455    1         0                                                  1
 add   128        128        340282366920938463463374607431768211455    0         340282366920938463463374607431768211455            0
 add   160        160        1461501637330902918203684832716283019655932542975 1 0 1
 add   160        160        1461501637330902918203684832716283019655932542975 0 1461501637330902918203684832716283019655932542975 0
 add   192        192        6277101735386680763835789423207666416102355444464034512895 1 0 1
 add   192        192        6277101735386680763835789423207666416102355444464034512895 0 6277101735386680763835789423207666416102355444464034512895 0
 # AddInt
 #       min_bits max_bits   bits_per_int a               b(int)       index         result           carry
 addint  32       0          32           0               0            0             0                0
 addint  32       0          32           1000            2000         0             3000             0
 addint  64       0          32           562342345       1423445      1             6113650284997065 0                
 addint  64       0          32           5342342455      3423553423  0              8765895878 0
 addint  96       0          32           478895734       46756734     2             862509505820513898647477878                0
 addint  128      0          32           27370506140054471803784984408165997441 24543 3 27372450636847059393422542757339093889 0
 addint  128      128        32           340282366841711102552375003685868034945 2234543 3 177038656721750864719686733515479937 1
 addint  160      160        32           1461501637330902918124457471805283415910032366465 3 3 158457126631793409034731674497 1
 addint  192      0          32           6277101735386680763835789423128439055191355840718134336385 3354 1 6277101735386680763835789423128439055191355855123454647169 0
 addint  192      192        32           6277101735386680763835789423128439055191355840718134336385 3354 5 4901876491607848387655079701569502248322251848964993 1
 addint  64       0          64           0               0            0             0                0
 addint  64       0          64           5342342 345534234 0 350876576 0
 addint  64       0          64           5342342455 34235534234 0 39577876689 0
 addint  64       64         64           18446744073709550615 2000 0 999 1
 addint  128      0          64           42895062544824211012058135 3453234 0 42895062544824211015511369 0
 addint  128      0          64           42895062544824211012058135 456234234 1 8458931214807741031021280279 0
 addint  128      128        64           340282366920938426569886460012664978455 45623 1 804702316727431770143767 1
 addint  192      192        64           6277101735386680763835789423207666379208867297044931279895 45623234 1 841563227924816702308613143 1
 addint  192      192        64           6277101735386679588840776445207152040176347835149297122327 45623234 2 15523607057094857017675614218510090830281178135 1
 addint  192      192        64           6277101735386680763835789423207666416102355444464034512895 1 0 0 1
 # AddTwoInts
 # a the value
 # c lower word
 # b higher word
 # index - index of the lower (c) word
 # if there is a carry the result is skipped
 #             min_bits   max_bits   bits_per_int    a                    b(int)                 c(int)             index         result                   carry
 addtwoints    64         0          32              0                    0                      0                  0             0                        0
 addtwoints    64         0          32              23542345             3453245                2356252356         0             14831576719870221        0
 addtwoints    64         64         32              4563456879824345332  3453245255             3673623543         0             0                        1
 addtwoints    96         0          32              345345634564352344231 1231354534            345324551          1             22714482299528678798871855271  0
 addtwoints    96         96         32              33333336690445123453645645123                      4241542514         145235414    1    0 1
 addtwoints    128        0          32              921345787234870984751756                           2356245656         3423623455   2    186681013820253010515426931265335245452 0
 addtwoints    128        128        32              259817508127340892734075234234345345346            3452345324         452354345    2    0 1
 addtwoints    160        0          32              458674036702857083457018457034                     435236456          1451234242   1    466702732224470435083940719562 0
 addtwoints    160        0          32              258672084570198475012875019876674534523452543562   935245345          736765636    3    576919584276960743542382023227664277469907669578 0
 addtwoints    192        0          32              2398670187501982374012837086745045                 3253453245         234567536    4    4754927244626858434362642830810490464530603685767816794581 0
 addtwoints    192        192        32              1734564564356435667546738087098769876387468736123143453646 3456345245 3256347435   4    0 1
 addtwoints    128        0          64              0 0 0 0 0 0          
 addtwoints    128        0          64              14513452345  234512412345 8473567534  0 4325990452636459442359440119399 0
 addtwoints    128        128        64              325434534534536347567567356714513452345  4324546234512412345 8473567534  0  0 1
 addtwoints    192        0          64              8786356223462562562561234 4356879827345 34745638455 1 1482569380039046311960318103044992688410168990618834 0
 addtwoints    192        0          64              875687458745872039847234234048572306857602   12341234356 3472568734534 1 4199505313073142510985676024483326499863441546882 0
 addtwoints    192        192        64              6234554767823878635622346242564564564564564564562562561234 457644356879827345 34844576655 1 0 1
--- a/tests/uinttest.cpp
+++ b/tests/uinttest.cpp
@@ -0,0 +1,424 @@
 /*
 * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
 */
 /* 
 * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 #include "uinttest.h"
 void UIntTest::set_file_name(const std::string & f)
 {
 	file_name = f;
 }
 bool UIntTest::read_uint(uuint & result)
 {
 UInt<1> temp;
 	int c = temp.FromString(pline, 10, &pline);
 	result = temp.ToUInt();
 	if( c )
 	{
 		std::cerr << " carry from reading uint" << std::endl;
 		return false;
 	}
 return true;
 }
 template<uuint type_size>
 bool UIntTest::read_uint(UInt<type_size> & result)
 {
 	int c = result.FromString(pline, 10, &pline);
 	if( c )
 	{
 		std::cerr << " carry from UInt<>::FromString()" << std::endl;
 		return false;
 	}
 return true;
 }
 bool UIntTest::check_minmax_bits(int type_size)
 {
 	uuint min_bits;
 	uuint max_bits;
 	read_uint(min_bits);
 	read_uint(max_bits);
 	if( min_bits != 0 && type_size * TTMATH_BITS_PER_UINT < (unsigned int)min_bits )
 		return false;
 	if( max_bits != 0 && type_size * TTMATH_BITS_PER_UINT > (unsigned int)max_bits )
 		return false;
 return true;
 }
 bool UIntTest::check_minmax_bits_bitperint(int type_size)
 {
 	if( !check_minmax_bits(type_size) )
 		return false;
 	uuint bits;
 	read_uint(bits);
 	if( TTMATH_BITS_PER_UINT != bits )
 		return false;
 return true;
 }
 bool UIntTest::check_end()
 {
 	skip_white_characters();
 	if( *pline!='#' && *pline!= 0 )
 	{
 		std::cerr << "syntax error" << std::endl;
 		return false;
 	}
 return true;
 }
 template<uuint type_size>
 bool UIntTest::check_result_carry(const ttmath::UInt<type_size> & result, const ttmath::UInt<type_size> & new_result,
 						int carry, int new_carry)
 {
 bool ok = true;
 	if( new_carry != carry )
 	{
 		std::cerr << "Incorrect carry: " << new_carry << " (expected: " << carry << ")" << std::endl;
 		ok = false;
 	}
 	if( new_result != result )
 	{
 		std::cerr << "Incorrect result: " << new_result << " (expected: " << result << ")" << std::endl;
 		ok = false;
 	}
 return ok;
 }
 template<uuint type_size>
 bool UIntTest::check_result_or_carry(const ttmath::UInt<type_size> & result, const ttmath::UInt<type_size> & new_result,
 						int carry, int new_carry)
 {
 	if( new_carry != carry )
 	{
 		std::cerr << "Incorrect carry: " << new_carry << " (expected: " << carry << ")" << std::endl;
 		return false;
 	}
 	if( new_carry == 1 )
 		return true;
 	if( new_result != result )
 	{
 		std::cerr << "Incorrect result: " << new_result << " (expected: " << result << ")" << std::endl;
 		return false;
 	}
 return true;
 }
 template<uuint type_size>
 void UIntTest::test_add()
 {
 	UInt<type_size> a,b,result, new_result;
 	if( !check_minmax_bits(type_size) )
 		return;
 	read_uint(a);
 	read_uint(b);
 	read_uint(result);
 	uuint carry;
 	read_uint(carry);
 	std::cerr << '[' << row << "] Add<" << type_size << ">: ";
 	if( !check_end() )
 		return;
 	new_result = a;
 	int new_carry = new_result.Add(b);
 	if( check_result_carry(result, new_result, carry, new_carry) )
 		std::cerr << "ok" << std::endl;
 }
 template<uuint type_size>
 void UIntTest::test_addint()
 {
 	UInt<type_size> a, result, new_result;
 	if( !check_minmax_bits_bitperint(type_size) )
 		return;
 	uuint b, index, carry;
 	read_uint(a);
 	read_uint(b);
 	read_uint(index);
 	read_uint(result);
 	read_uint(carry);
 	std::cerr << '[' << row << "] AddInt<" << type_size << ">: ";
 	if( !check_end() )
 		return;
 	new_result = a;
 	int new_carry = new_result.AddInt(b, index);
 	if( check_result_carry(result, new_result, carry, new_carry) )
 		std::cerr << "ok" << std::endl;
 }
 template<uuint type_size>
 void UIntTest::test_addtwoints()
 {
 	UInt<type_size> a, result, new_result;
 	if( !check_minmax_bits_bitperint(type_size) )
 		return;
 	std::cerr << '[' << row << "] AddTwoInts<" << type_size << ">: ";
 	uuint b, c, index, carry;
 	read_uint(a);
 	read_uint(b);
 	read_uint(c);
 	read_uint(index);
 	read_uint(result);
 	read_uint(carry);
 	if( !check_end() )
 		return;
 	if( index >= type_size - 1 )
 	{
 		std::cerr << "index too large" << std::endl;
 		return;
 	}
 	new_result = a;
 	int new_carry = new_result.AddTwoInts(b, c, index);
 	if( check_result_or_carry(result, new_result, carry, new_carry) )
 		std::cerr << "ok" << std::endl;
 }
 int UIntTest::upper_char(int c)
 {
 	if( c>='a' && c<='z' )
 		return c - 'a' + 'A';
 return c;
 }
 bool UIntTest::is_white(int c)
 {
 	if( c==' ' || c=='\t' || c==13 )
 		return true;
 return false;
 }
 void UIntTest::skip_white_characters()
 {
 	while( is_white(*pline) )
 		++pline;
 }
 bool UIntTest::read_method()
 {
 	skip_white_characters();
 	if( *pline == '#' )
 		return false;
 	method.clear();
 	for(int c = upper_char(*pline) ; c>='A'&& c<='Z' ; c = upper_char(*pline) )
 	{
 		method += c;
 		++pline;
 	}
 	if( method.empty() )
 	{
 		skip_white_characters();
 		if( *pline == 0 )
 			return false;
 		else
 		{	
 			std::cerr << '[' << row << "] ";
 			std::cerr << "syntax error" << std::endl;
 			return false;
 		}
 	}
 return true;
 }
 void UIntTest::test_method()
 {
 const char * p = pline;
 	if( method == "ADD" )
 	{
 		pline = p; test_add<1>();
 		pline = p; test_add<2>();
 		pline = p; test_add<3>();
 		pline = p; test_add<4>();
 		pline = p; test_add<5>();
 		pline = p; test_add<6>();
 		pline = p; test_add<7>();
 		pline = p; test_add<8>();
 		pline = p; test_add<9>();
 	}
 	else
 	if( method == "ADDINT" )
 	{
 		pline = p; test_addint<1>();
 		pline = p; test_addint<2>();
 		pline = p; test_addint<3>();
 		pline = p; test_addint<4>();
 		pline = p; test_addint<5>();
 		pline = p; test_addint<6>();
 		pline = p; test_addint<7>();
 		pline = p; test_addint<8>();
 		pline = p; test_addint<9>();
 	}
 	else
 	if( method == "ADDTWOINTS" )
 	{
 		pline = p; test_addtwoints<1>();
 		pline = p; test_addtwoints<2>();
 		pline = p; test_addtwoints<3>();
 		pline = p; test_addtwoints<4>();
 		pline = p; test_addtwoints<5>();
 		pline = p; test_addtwoints<6>();
 		pline = p; test_addtwoints<7>();
 		pline = p; test_addtwoints<8>();
 		pline = p; test_addtwoints<9>();
 	}
 	else
 	{
 		std::cerr << '[' << row << "] ";
 		std::cerr << "method " << method << " is not supported" << std::endl;
 	}
 }
 bool UIntTest::check_line()
 {
 	std::getline(file, line);
 	pline = line.c_str();
 	if( read_method() )
 		test_method();
 	if( file.eof() )
 		return false;
 return true;
 }
 void UIntTest::go()
 {
 	file.open(file_name.c_str());
 	if( !file )
 	{
 		std::cerr << "I can't open the input file" << std::endl;
 		return;
 	}
 	row = 1;
 	while( check_line() )
 		++row;
 }
--- a/tests/uinttest.h
+++ b/tests/uinttest.h
@@ -0,0 +1,105 @@
 /*
 * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
 */
 /* 
 * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 #ifndef headerfileuinttest
 #define headerfileuinttest
 #include <string>
 #include <fstream>
 #include <iostream>
 #include <ttmath/ttmath.h>
 using namespace ttmath;
 typedef ttmath::uint uuint;
 class UIntTest
 {
 	std::string file_name;
 	// current line from the file
 	std::string line;
 	const char * pline;
 	std::ifstream file;
 	std::string method;
 	int row;
 public:
 	void set_file_name(const std::string & f);
 	void go();
 bool read_uint(uuint & result);
 template<uuint type_size>
 bool read_uint(UInt<type_size> & result);
 	template<uuint type_size> void test_add();
 	template<uuint type_size> void test_addint();
 	template<uuint type_size> void test_addtwoints();
 	template<uuint type_size> bool check_result_carry(const ttmath::UInt<type_size> & result, const ttmath::UInt<type_size> & new_result,
 						int carry, int new_carry);
 	template<uuint type_size> bool check_result_or_carry(const ttmath::UInt<type_size> & result, const ttmath::UInt<type_size> & new_result,
 						int carry, int new_carry);
 int upper_char(int c);
 bool is_white(int c);
 void skip_white_characters();
 bool read_method();
 void test_method();
 bool check_line();
 bool check_minmax_bits(int type_size);
 bool check_minmax_bits_bitperint(int type_size);
 bool check_end();
 };
 #endif
--- a/ttmath/ttmath.h
+++ b/ttmath/ttmath.h
--- a/ttmath/ttmathbig.h
+++ b/ttmath/ttmathbig.h
--- a/ttmath/ttmathint.h
+++ b/ttmath/ttmathint.h
@@ -1,11 +1,11 @@
 /*
- * This file is a part of TTMath Mathematical Library
+ * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
- * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
+ * Author: Tomasz Sowa <t.sowa@ttmath.org>
 */
 /* 
- * Copyright (c) 2006-2007, Tomasz Sowa
+ * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
@@ -208,7 +208,7 @@ private:
 public:
 	/*!
-		this method adds two value with a sign and returns carry
+		this method adds two value with a sign and returns a carry
 		we're using methods from the base class because values are stored with U2
 		we must only make the carry correction
@@ -468,6 +468,129 @@ public:
 	}
 	/*!
 		division this = this / ss2  (ss2 is int)
 		returned values:
 			0 - ok
 			1 - division by zero
 		for example: (result means 'this')
 			 20 /  3 --> result:  6   remainder:  2
 			-20 /  3 --> result: -6   remainder: -2
 			 20 / -3 --> result: -6   remainder:  2
 			-20 / -3 --> result:  6   remainder: -2
 		in other words: this(old) = ss2 * this(new)(result) + remainder
 	*/
 	uint DivInt(sint ss2, sint * remainder = 0)
 	{
 	bool ss1_is_sign, ss2_is_sign;
 		ss1_is_sign = IsSign();
 		/*
 			we don't have to test the carry from Abs as well as in Mul
 		*/
 		Abs();
 		if( ss2 < 0 )
 		{
 			ss2 = -ss2;
 			ss2_is_sign = true;
 		}
 		else
 		{
 			ss2_is_sign = false;
 		}
 		uint rem;
 		uint c = UInt<value_size>::DivInt((uint)ss2, &rem);
 		if( ss1_is_sign != ss2_is_sign )
 			SetSign();
 		if( remainder )
 		{
 			if( ss1_is_sign )
 				*remainder = -sint(rem);
 			else
 				*remainder = sint(rem);
 		}
 	return c;
 	}
 	uint DivInt(sint ss2, sint & remainder)
 	{
 		return DivInt(ss2, &remainder);
 	}
 private:
 	/*!
 		power this = this ^ pow
 		this can be negative
 		pow is >= 0
 	*/
 	uint Pow2(const Int<value_size> & pow)
 	{
 		bool was_sign = IsSign();
 		uint c = 0;
 		if( was_sign )
 			c += Abs();
 		uint c_temp = UInt<value_size>::Pow(pow);
 		if( c_temp > 0 )
 			return c_temp; // c_temp can be: 0, 1 or 2
 		if( was_sign && (pow.table[0] & 1) == 1 )
 			// negative value to the power of odd number is negative
 			c += ChangeSign();
 	return (c==0)? 0 : 1;
 	}
 public:
 	/*!
 		power this = this ^ pow
 		return values:
 		0 - ok
 		1 - carry
 		2 - incorrect arguments 0^0 or 0^(-something)
 	*/
 	uint Pow(Int<value_size> pow)
 	{
 		if( !pow.IsSign() )
 			return Pow2(pow);
 		if( UInt<value_size>::IsZero() )
 			// if 'pow' is negative then
 			// 'this' must be different from zero
 			return 2;
 		if( pow.ChangeSign() )
 			return 1;
 		Int<value_size> t(*this);
 		uint c_temp = t.Pow2(pow);
 		if( c_temp > 0 )
 			return c_temp;
 		UInt<value_size>::SetOne();
 		if( Div(t) )
 			return 1;
 	return 0;
 	}
 	/*!
@@ -475,17 +598,14 @@ public:
 	*	convertion methods
 	*
 	*/
 private:
 	/*!
-		this method convert an UInt<another_size> type to this class
+		an auxiliary method for converting both from UInt and Int
 		this operation has mainly sense if the value from p
 		can be held in this type
 		it returns a carry if the value 'p' is too big
 	*/
 	template<uint argument_size>
-	uint FromInt(const Int<argument_size> & p)
+	uint FromUIntOrInt(const UInt<argument_size> & p, bool UInt_type)
 	{
 		uint min_size = (value_size < argument_size)? value_size : argument_size;
 		uint i;
@@ -496,15 +616,25 @@ public:
 		if( value_size > argument_size )
 		{	
-			// 'this' is longer than 'p'
+			uint fill;
 			uint fill = (p.table[argument_size-1] & TTMATH_UINT_HIGHEST_BIT)? TTMATH_UINT_MAX_VALUE : 0;
 			if( UInt_type )
 				fill = 0;
 			else
 				fill = (p.table[argument_size-1] & TTMATH_UINT_HIGHEST_BIT)?
 														TTMATH_UINT_MAX_VALUE : 0;
 			// 'this' is longer than 'p'
 			for( ; i<value_size ; ++i)
 				UInt<value_size>::table[i] = fill;
 		}
 		else
 		{
-			uint test = (UInt<value_size>::table[value_size-1] & TTMATH_UINT_HIGHEST_BIT)? TTMATH_UINT_MAX_VALUE : 0;
+			uint test = (UInt<value_size>::table[value_size-1] & TTMATH_UINT_HIGHEST_BIT)?
 																TTMATH_UINT_MAX_VALUE : 0;
 			if( UInt_type && test!=0 )
 				return 1;
 			for( ; i<argument_size ; ++i)
 				if( p.table[i] != test )
@@ -514,11 +644,27 @@ public:
 	return 0;
 	}
 public:
 	/*!
 		this method converts an Int<another_size> type into this class
 		this operation has mainly sense if the value from p
 		can be held in this type
 		it returns a carry if the value 'p' is too big
 	*/
 	template<uint argument_size>
 	uint FromInt(const Int<argument_size> & p)
 	{
 		return FromUIntOrInt(p, false);
 	}
 	/*!
 		this method converts the sint type into this class
 	*/
-	void FromInt(sint value)
+	uint FromInt(sint value)
 	{
 	uint fill = ( value<0 ) ? TTMATH_UINT_MAX_VALUE : 0;
@@ -526,16 +672,46 @@ public:
 			UInt<value_size>::table[i] = fill;
 		UInt<value_size>::table[0] = uint(value);
 		// there'll never be a carry here
 	return 0;
 	}
 	/*!
-		this operator converts an UInt<another_size> type to this class
+		this method converts UInt<another_size> into this class
 		it doesn't return a carry
 	*/
 	template<uint argument_size>
-	Int<value_size> & operator=(const Int<argument_size> & p)
+	uint FromUInt(const UInt<argument_size> & p)
 	{
 		return FromUIntOrInt(p, true);
 	}
 	/*!
 		this method converts the uint type into this class
 	*/
 	uint FromUInt(uint value)
 	{
 		for(uint i=1 ; i<value_size ; ++i)
 			UInt<value_size>::table[i] = 0;
 		UInt<value_size>::table[0] = value;
 		// there can be a carry here when the size of this value is equal one word
 		// and the 'value' has the highest bit set
 		if( value_size==1 && (value & TTMATH_UINT_HIGHEST_BIT)!=0 )
 			return 1;
 	return 0;
 	}
 	/*!
 		the default assignment operator
 	*/
 	Int<value_size> & operator=(const Int<value_size> & p)
 	{
 		FromInt(p);
@@ -544,9 +720,12 @@ public:
 	/*!
-		the default assignment operator
+		this operator converts an Int<another_size> type to this class
 		it doesn't return a carry
 	*/
-	Int<value_size> & operator=(const Int<value_size> & p)
+	template<uint argument_size>
 	Int<value_size> & operator=(const Int<argument_size> & p)
 	{
 		FromInt(p);
@@ -575,11 +754,46 @@ public:
 	/*!
-		this method converts the uint type to this class
+		a copy constructor
 	*/
 	Int(const Int<value_size> & u)
 	{
 		FromInt(u);
 	}
 	/*!
 		a constructor for copying from another types
 	*/
 	template<uint argument_size>
 	Int(const Int<argument_size> & u)
 	{
 		// look that 'size' we still set as 'value_size' and not as u.value_size
 		FromInt(u);
 	}
 	/*!
 		this operator converts an UInt<another_size> type to this class
 		it doesn't return a carry
 	*/
 	template<uint argument_size>
 	Int<value_size> & operator=(const UInt<argument_size> & p)
 	{
 		FromUInt(p);
 	return *this;
 	}
 	/*!
 		this method converts the Uint type to this class
 	*/
 	Int<value_size> & operator=(uint i)
 	{
-		UInt<value_size>::FromUInt(i);
+		FromUInt(i);
 	return *this;
 	}
@@ -590,10 +804,23 @@ public:
 	*/
 	Int(uint i)
 	{
-		UInt<value_size>::FromUInt(i);
+		FromUInt(i);
 	}
 	/*!
 		a constructor for copying from another types
 	*/
 	template<uint argument_size>
 	Int(const UInt<argument_size> & u)
 	{
 		// look that 'size' we still set as 'value_size' and not as u.value_size
 		FromUInt(u);
 	}
 #ifdef TTMATH_PLATFORM64
 	/*!
@@ -630,7 +857,7 @@ public:
 	*/
 	Int<value_size> & operator=(unsigned int i)
 	{
-		UInt<value_size>::FromUInt(uint(i));
+		FromUInt(uint(i));
 	return *this;
 	}
@@ -644,7 +871,7 @@ public:
 	*/
 	Int(unsigned int i)
 	{
-		UInt<value_size>::FromUInt(uint(i));
+		FromUInt(uint(i));
 	}
 #endif
@@ -659,6 +886,15 @@ public:
 	}
 	/*!
 		a constructor for converting string to this class (with the base=10)
 	*/
 	Int(const wchar_t * s)
 	{
 		FromString(s);
 	}
 	/*!
 		a constructor for converting a string to this class (with the base=10)
 	*/
@@ -668,6 +904,15 @@ public:
 	}
 	/*!
 		a constructor for converting a string to this class (with the base=10)
 	*/
 	Int(const std::wstring & s)
 	{
 		FromString( s.c_str() );
 	}
 	/*!
 		a default constructor
@@ -678,18 +923,6 @@ public:
 	}
 	/*!
 		the copy constructor
 	*/
 	template<uint argument_size>
 	Int(const Int<argument_size> & u) : UInt<value_size>::size(value_size)
 	{
 		// look that 'size' we still set as 'value_size' and not as u.value_size
 		operator=(u);
 	}
 	/*!
 		the destructor
 	*/
@@ -697,6 +930,7 @@ public:
 	{
 	}
 	/*!
 		this method returns the lowest value from table with a sign
@@ -709,10 +943,13 @@ public:
 	}
 private:
 	/*!	
-		this method converts the value to a string with a base equal 'b'
+		an auxiliary method for converting to a string
 	*/
-	void ToString(std::string & result, uint b = 10) const
+	template<class string_type>
 	void ToStringBase(string_type & result, uint b = 10) const
 	{
 		if( IsSign() )
 		{
@@ -728,39 +965,74 @@ public:
 		}
 	}
 public:
 	/*!	
 		this method converts the value to a string with a base equal 'b'
 	*/
 	void ToString(std::string & result, uint b = 10) const
 	{
 		return ToStringBase(result, b);
 	}
 	/*!	
-		this method converts a string into its value
+		this method converts the value to a string with a base equal 'b'
 		it returns carry=1 if the value will be too big or an incorrect base 'b' is given
 		string is ended with a non-digit value, for example:
 			"-12" will be translated to -12
 			as well as:
 			"- 12foo" will be translated to 12 too
 		existing first white characters will be ommited
 		(between '-' and a first digit can be white characters too)
 	*/
-	uint FromString(const char * s, uint b = 10)
+	void ToString(std::wstring & result, uint b = 10) const
 	{
 		return ToStringBase(result, b);
 	}
 	/*!	
 		this method converts the value to a string with a base equal 'b'
 	*/
 	std::string ToString(uint b = 10) const
 	{
 		std::string result;
 		ToStringBase(result, b);
 	return result;
 	}
 	/*!	
 		this method converts the value to a string with a base equal 'b'
 	*/
 	std::wstring ToWString(uint b = 10) const
 	{
 		std::wstring result;
 		ToStringBase(result, b);
 	return result;
 	}
 private:
 	/*!
 		an auxiliary method for converting from a string
 	*/
 	template<class char_type>
 	uint FromStringBase(const char_type * s, uint b = 10, const char_type ** after_source = 0, bool * value_read = 0)
 	{
 	bool is_sign = false;
-		UInt<value_size>::SkipWhiteCharacters(s);
+		Misc::SkipWhiteCharacters(s);
 		if( *s == '-' )
 		{
 			is_sign = true;
-			UInt<value_size>::SkipWhiteCharacters(++s);
+			Misc::SkipWhiteCharacters(++s);
 		}
 		else
 		if( *s == '+' )
 		{
-			UInt<value_size>::SkipWhiteCharacters(++s);
+			Misc::SkipWhiteCharacters(++s);
 		}
-		if( UInt<value_size>::FromString(s,b) )
+		if( UInt<value_size>::FromString(s,b,after_source,value_read) )
 			return 1;
 		if( is_sign )
@@ -771,12 +1043,15 @@ public:
 			/*
 				the reference to mmin will be automatically converted to the reference
-				to a UInt type
+				to UInt type
 				(this value can be equal mmin -- look at a description in ChangeSign())
 			*/
 			if( UInt<value_size>::operator>( mmin ) )
 				return 1;
 			/*
 				if the value is equal mmin the method ChangeSign() does nothing (only returns 1 but we ignore it)
 			*/
 			ChangeSign();
 		}
 		else
@@ -793,13 +1068,56 @@ public:
 	}
 public:
 	/*!
 		this method converts a string into its value
 		it returns carry=1 if the value will be too big or an incorrect base 'b' is given
 		string is ended with a non-digit value, for example:
 			"-12" will be translated to -12
 			as well as:
 			"- 12foo" will be translated to -12 too
 		existing first white characters will be ommited
 		(between '-' and a first digit can be white characters too)
 		after_source (if exists) is pointing at the end of the parsed string
 		value_read (if exists) tells whether something has actually been read (at least one digit)
 	*/
 	uint FromString(const char * s, uint b = 10, const char ** after_source = 0, bool * value_read = 0)
 	{
 		return FromStringBase(s, b, after_source, value_read);
 	}
 	/*!
 		this method converts a string into its value
 	*/
 	uint FromString(const wchar_t * s, uint b = 10, const wchar_t ** after_source = 0, bool * value_read = 0)
 	{
 		return FromStringBase(s, b, after_source, value_read);
 	}
 	/*!
 		this method converts a string into its value
 		it returns carry=1 if the value will be too big or an incorrect base 'b' is given
 	*/
 	uint FromString(const std::string & s, uint b = 10)
 	{
-		return FromString( s.c_str() );
+		return FromString( s.c_str(), b );
 	}
 	/*!
 		this method converts a string into its value
 		it returns carry=1 if the value will be too big or an incorrect base 'b' is given
 	*/
 	uint FromString(const std::wstring & s, uint b = 10)
 	{
 		return FromString( s.c_str(), b );
 	}
@@ -814,6 +1132,17 @@ public:
 	}
 	/*!
 		this operator converts a string into its value (with base = 10)
 	*/
 	Int<value_size> & operator=(const wchar_t * s)
 	{
 		FromString(s);
 	return *this;
 	}
 	/*!
 		this operator converts a string into its value (with base = 10)
 	*/
@@ -825,6 +1154,15 @@ public:
 	}
 	/*!
 		this operator converts a string into its value (with base = 10)
 	*/
 	Int<value_size> & operator=(const std::wstring & s)
 	{
 		FromString( s.c_str() );
 	return *this;
 	}
 	/*!
@@ -1104,9 +1442,15 @@ public:
 	*
 	*/
-	friend std::ostream & operator<<(std::ostream & s, const Int<value_size> & l)
+private:
 	/*!
 		an auxiliary method for outputing to standard streams
 	*/
 	template<class ostream_type, class string_type>
 	static ostream_type & OutputToStream(ostream_type & s, const Int<value_size> & l)
 	{
-	std::string ss;
+	string_type ss;
 		l.ToString(ss);
 		s << ss;
@@ -1116,12 +1460,40 @@ public:
-	friend std::istream & operator>>(std::istream & s, Int<value_size> & l)
+public:
 	{
 	std::string ss;
-	// char for operator>>
+
-	unsigned char z;
+	/*!
 		output to standard streams
 	*/
 	friend std::ostream & operator<<(std::ostream & s, const Int<value_size> & l)
 	{
 		return OutputToStream<std::ostream, std::string>(s, l);
 	}
 	/*!
 		output to standard streams
 	*/
 	friend std::wostream & operator<<(std::wostream & s, const Int<value_size> & l)
 	{
 		return OutputToStream<std::wostream, std::wstring>(s, l);
 	}
 private:
 	/*!
 		an auxiliary method for converting from a string
 	*/
 	template<class istream_type, class string_type, class char_type>
 	static istream_type & InputFromStream(istream_type & s, Int<value_size> & l)
 	{
 	string_type ss;
 	// char or wchar_t for operator>>
 	char_type z;
 		// operator>> omits white characters if they're set for ommiting
 		s >> z;
@@ -1133,10 +1505,10 @@ public:
 		}
 		// we're reading only digits (base=10)
-		while( s.good() && UInt<value_size>::CharToDigit(z, 10)>=0 )
+		while( s.good() && Misc::CharToDigit(z, 10)>=0 )
 		{
 			ss += z;
-			z = s.get();
+			z = static_cast<char_type>(s.get());
 		}
 		// we're leaving the last readed character
@@ -1148,9 +1520,28 @@ public:
 	return s;
 	}
 public:
 	/*!
 		input from standard streams
 	*/
 	friend std::istream & operator>>(std::istream & s, Int<value_size> & l)
 	{
 		return InputFromStream<std::istream, std::string, char>(s, l);
 	}
 	/*!
 		input from standard streams
 	*/
 	friend std::wistream & operator>>(std::wistream & s, Int<value_size> & l)
 	{
 		return InputFromStream<std::wistream, std::wstring, wchar_t>(s, l);
 	}
 };
 } // namespace
 #endif
--- a/ttmath/ttmathmisc.h
+++ b/ttmath/ttmathmisc.h
@@ -0,0 +1,243 @@
 /*
 * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@ttmath.org>
 */
 /* 
 * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 #ifndef headerfilettmathmisc
 #define headerfilettmathmisc
 /*!
 	\file ttmathmisc.h
    \brief some helpful functions
 */
 #include <string>
 namespace ttmath
 {
 /*!
 	some helpful functions
 */
 class Misc
 {
 public:
 /*
 *
 *	AssignString(result, str)
 *	result = str
 *
 */
 /*!
 	result = str
 */
 static void AssignString(std::string & result, const char * str)
 {
 	result = str;
 }
 /*!
 	result = str
 */
 static void AssignString(std::wstring & result, const char * str)
 {
 	result.clear();
 	for( ; *str ; ++str )
 		result += *str;
 }
 /*!
 	result = str
 */
 static void AssignString(std::wstring & result, const std::string & str)
 {
 	return AssignString(result, str.c_str());
 }
 /*!
 	result = str
 */
 static void AssignString(std::string & result, const wchar_t * str)
 {
 	result.clear();
 	for( ; *str ; ++str )
 		result += static_cast<char>(*str);
 }
 /*!
 	result = str
 */
 static void AssignString(std::string & result, const std::wstring & str)
 {
 	return AssignString(result, str.c_str());
 }
 /*
 *
 *	AddString(result, str)
 *	result += str
 *
 */
 /*!
 	result += str
 */
 static void AddString(std::string & result, const char * str)
 {
 	result += str;
 }
 /*!
 	result += str
 */
 static void AddString(std::wstring & result, const char * str)
 {
 	for( ; *str ; ++str )
 		result += *str;
 }
 /*
 	this method omits any white characters from the string
 	char_type is char or wchar_t
 */
 template<class char_type>
 static void SkipWhiteCharacters(const char_type * & c)
 {
 	// 13 is at the end in a DOS text file (\r\n)
 	while( (*c==' ' ) || (*c=='\t') || (*c==13 ) || (*c=='\n') )
 		++c;
 }
 /*!
 	this static method converts one character into its value
 	for example:
 		1 -> 1
 		8 -> 8
 		A -> 10
 		f -> 15
 	this method don't check whether c is correct or not
 */
 static uint CharToDigit(uint c)
 {
 	if(c>='0' && c<='9')
 		return c-'0';
 	if(c>='a' && c<='z')
 		return c-'a'+10;
 return c-'A'+10;
 }
 /*!
 	this method changes a character 'c' into its value
 	(if there can't be a correct value it returns -1)
 	for example:
 	c=2, base=10 -> function returns 2
 	c=A, base=10 -> function returns -1
 	c=A, base=16 -> function returns 10
 */
 static sint CharToDigit(uint c, uint base)
 {
 	if( c>='0' && c<='9' )
 		c=c-'0';
 	else
 	if( c>='a' && c<='z' )
 		c=c-'a'+10;
 	else
 	if( c>='A' && c<='Z' )
 		c=c-'A'+10;
 	else
 		return -1;
 	if( c >= base )
 		return -1;
 return sint(c);
 }
 /*!
 	this method converts a digit into a char
 	digit should be from <0,F>
 	(we don't have to get a base)
 	for example:
 		1  -> 1
 		8  -> 8
 		10 -> A
 		15 -> F
 */
 static uint DigitToChar(uint digit)
 {
 	if( digit < 10 )
 		return digit + '0';
 return digit - 10 + 'A';
 }
 }; // struct Misc
 }
 #endif
--- a/ttmath/ttmathobjects.h
+++ b/ttmath/ttmathobjects.h
@@ -1,11 +1,11 @@
 /*
 * This file is a part of TTMath Mathematical Library
 * and is distributed under the (new) BSD licence.
- * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
+ * Author: Tomasz Sowa <t.sowa@ttmath.org>
 */
 /* 
- * Copyright (c) 2006-2007, Tomasz Sowa
+ * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
@@ -44,12 +44,13 @@
    \brief Mathematic functions.
 */
 #include "ttmathtypes.h"
 #include <string>
 #include <vector>
 #include <list>
 #include <map>
 #include "ttmathtypes.h"
 #include "ttmathmisc.h"
 namespace ttmath
@@ -73,6 +74,7 @@ public:
 	struct Item
 	{
 		// name of a variable of a function
 		// internally we store variables and funcions as std::string (not std::wstring even when wide characters are used)
 		std::string value;
 		// number of parameters required by the function
@@ -97,12 +99,12 @@ public:
 		if 'can_be_digit' is true that means when the 'c' is a digit this 
 		method returns true otherwise it returns false
 	*/
-	static bool CorrectCharacter(int c, bool can_be_digit)
+	static bool CorrectCharacter(wchar_t c, bool can_be_digit)
 	{
 		if( (c>='a' && c<='z') || (c>='A' && c<='Z') )
 			return true;
-		if( can_be_digit && (c>='0' && c<='9') )
+		if( can_be_digit && ((c>='0' && c<='9') || c=='_') )
 			return true;
 	return false;
@@ -112,7 +114,8 @@ public:
 	/*!
 		this method returns true if the name can be as a name of an object
 	*/
-	static bool IsNameCorrect(const std::string & name)
+	template<class string_type>
 	static bool IsNameCorrect(const string_type & name)
 	{
 		if( name.empty() )
 			return false;
@@ -120,7 +123,7 @@ public:
 		if( !CorrectCharacter(name[0], false) )
 			return false;
-		std::string::const_iterator i=name.begin();
+		typename string_type::const_iterator i = name.begin();
 		for(++i ; i!=name.end() ; ++i)
 			if( !CorrectCharacter(*i, true) )
@@ -130,6 +133,37 @@ public:
 	}
 	/*!
 		this method returns true if such an object is defined (name exists)
 	*/
 	bool IsDefined(const std::string & name)
 	{
 		Iterator i = table.find(name);
 		if( i != table.end() )
 			// we have this object in our table
 			return true;
 	return false;
 	}
 	/*!
 		this method returns true if such an object is defined (name exists)
 	*/
 	bool IsDefined(const std::wstring & name)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return false;
 		Misc::AssignString(str_tmp1, name);
 	return IsDefined(str_tmp1);
 	}
 	/*!
 		this method adds one object (variable of function) into the table
 	*/
@@ -150,6 +184,23 @@ public:
 	}
 	/*!
 		this method adds one object (variable of function) into the table
 	*/
 	ErrorCode Add(const std::wstring & name, const std::wstring & value, int param = 0)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 		Misc::AssignString(str_tmp2, value);
 	return Add(str_tmp1, str_tmp2, param);
 	}
 	/*!
 		this method returns 'true' if the table is empty
 	*/
@@ -207,6 +258,23 @@ public:
 	}
 	/*!
 		this method changes the value and the number of parameters for a specific object
 	*/
 	ErrorCode EditValue(const std::wstring & name, const std::wstring & value, int param = 0)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 		Misc::AssignString(str_tmp2, value);
 	return EditValue(str_tmp1, str_tmp2, param);
 	}
 	/*!
 		this method changes the name of a specific object
 	*/
@@ -238,6 +306,23 @@ public:
 	}
 	/*!
 		this method changes the name of a specific object
 	*/
 	ErrorCode EditName(const std::wstring & old_name, const std::wstring & new_name)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(old_name) || !IsNameCorrect(new_name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, old_name);
 		Misc::AssignString(str_tmp2, new_name);
 	return EditName(str_tmp1, str_tmp2);
 	}
 	/*!
 		this method deletes an object
 	*/
@@ -258,7 +343,23 @@ public:
 	/*!
-		this method sets the value of a specific object
+		this method deletes an object
 	*/
 	ErrorCode Delete(const std::wstring & name)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 	return Delete(str_tmp1);
 	}	
 	/*!
 		this method gets the value of a specific object
 	*/
 	ErrorCode GetValue(const std::string & name, std::string & value) const
 	{
@@ -280,7 +381,25 @@ public:
 	/*!
-		this method sets the value of a specific object
+		this method gets the value of a specific object
 	*/
 	ErrorCode GetValue(const std::wstring & name, std::wstring & value)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 		ErrorCode err = GetValue(str_tmp1, str_tmp2);
 		Misc::AssignString(value, str_tmp2);
 	return err;
 	}
 	/*!
 		this method gets the value of a specific object
 		(this version is used for not copying the whole string)
 	*/
 	ErrorCode GetValue(const std::string & name, const char ** value) const
@@ -303,7 +422,24 @@ public:
 	/*!
-		this method sets the value and the number of parameters
+		this method gets the value of a specific object
 		(this version is used for not copying the whole string)
 	*/
 	ErrorCode GetValue(const std::wstring & name, const char ** value)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 	return GetValue(str_tmp1, value);
 	}
 	/*!
 		this method gets the value and the number of parameters
 		of a specific object
 	*/
 	ErrorCode GetValueAndParam(const std::string & name, std::string & value, int * param) const
@@ -327,6 +463,25 @@ public:
 	}
 	/*!
 		this method gets the value and the number of parameters
 		of a specific object
 	*/
 	ErrorCode GetValueAndParam(const std::wstring & name, std::wstring & value, int * param)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 		ErrorCode err = GetValueAndParam(str_tmp1, str_tmp2, param);
 		Misc::AssignString(value, str_tmp2);
 	return err;
 	}
 	/*!
 		this method sets the value and the number of parameters
 		of a specific object
@@ -353,6 +508,25 @@ public:
 	}
 	/*!
 		this method sets the value and the number of parameters
 		of a specific object
 		(this version is used for not copying the whole string
 		but in fact we make one copying during AssignString())
 	*/
 	ErrorCode GetValueAndParam(const std::wstring & name, const char ** value, int * param)
 	{
 		// we should check whether the name (in wide characters) are correct
 		// before calling AssignString() function
 		if( !IsNameCorrect(name) )
 			return err_incorrect_name;
 		Misc::AssignString(str_tmp1, name);
 	return GetValueAndParam(str_tmp1, value, param);
 	}
 	/*!
 		this method returns a pointer into the table
 	*/
@@ -365,6 +539,7 @@ public:
 private:
 	Table table;
 	std::string str_tmp1, str_tmp2;
 }; // end of class Objects
@@ -411,11 +586,11 @@ public:
 	/*!
 		default constructor
-		default max size of the History's container is 10 items
+		default max size of the History's container is 15 items
 	*/
 	History()
 	{
-		buffer_max_size = 10;
+		buffer_max_size = 15;
 	}
@@ -472,10 +647,118 @@ public:
 	return false;
 	}
 	/*!
 		this methods deletes an item
 		we assume that there is only one item with the 'key'
 		(this methods removes the first one)
 	*/
 	bool Remove(const ValueType & key)
 	{
 		typename buffer_type::iterator i = buffer.begin();
 		for( ; i != buffer.end() ; ++i )
 		{
 			if( i->key == key )
 			{
 				buffer.erase(i);
 				return true;
 			}
 		}
 	return false;
 	}
 }; // end of class History
 /*!
 	this is an auxiliary class used when calculating Gamma() or Factorial()
 	in multithreaded environment you can provide an object of this class to
 	the Gamma() or Factorial() function, e.g;
 		typedef Big<1, 3> MyBig;
 		MyBig x = 123456;
 		CGamma<MyBig> cgamma;
 		std::cout << Gamma(x, cgamma);
 	each thread should have its own CGamma<> object
 	in a single-thread environment a CGamma<> object is a static variable
 	in a second version of Gamma() and you don't have to explicitly use it, e.g.
 		typedef Big<1, 3> MyBig;
 		MyBig x = 123456;
 		std::cout << Gamma(x);
 */
 template<class ValueType>
 struct CGamma
 {
 	/*!
 		this table holds factorials
 			1
 			1
 			2
 			6
 			24
 			120
 			720
 			.......
 	*/
 	std::vector<ValueType> fact;
 	/*!
 		this table holds Bernoulli numbers
 			1
 			-0.5
 			0.166666666666666666666666667
 			0
 			-0.0333333333333333333333333333
 			0
 			0.0238095238095238095238095238
 			0
 			-0.0333333333333333333333333333
 			0
 			0.075757575757575757575757576
 			.....
 	*/
 	std::vector<ValueType> bern;
 	/*!
 		here we store some calculated values
 		(this is for speeding up, if the next argument of Gamma() or Factorial()
 		is in the 'history' then the result we are not calculating but simply
 		return from the 'history' object)
 	*/
 	History<ValueType> history;
 	/*!
 		this method prepares some coefficients: factorials and Bernoulli numbers
 		stored in 'fact' and 'bern' objects
 		how many values should be depends on the size of the mantissa - if
 		the mantissa is larger then we must calculate more values
 		    for a mantissa which consists of 256 bits (8 words on a 32bit platform)
 			we have to calculate about 30 values (the size of fact and bern will be 30),
 			and for a 2048 bits mantissa we have to calculate 306 coefficients
 		you don't have to call this method, these coefficients will be automatically calculated
 		when they are needed
 		you must note that calculating these coefficients is a little time-consuming operation,
 		(especially when the mantissa is large) and first call to Gamma() or Factorial()
 		can take more time than next calls, and in the end this is the point when InitAll()
 		comes in handy: you can call this method somewhere at the beginning of your program
 	*/
 	void InitAll();
 	// definition is in ttmath.h
 };
 } // namespace
--- a/ttmath/ttmathparser.h
+++ b/ttmath/ttmathparser.h
--- a/ttmath/ttmaththreads.h
+++ b/ttmath/ttmaththreads.h
@@ -0,0 +1,250 @@
 /*
 * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@ttmath.org>
 */
 /* 
 * Copyright (c) 2006-2009, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 #ifndef headerfilettmaththreads
 #define headerfilettmaththreads
 #include "ttmathtypes.h"
 #ifdef TTMATH_WIN32_THREADS
 #include <windows.h>
 #include <cstdio>
 #endif
 #ifdef TTMATH_POSIX_THREADS
 #include <pthread.h>
 #endif
 /*!
 	\file ttmaththreads.h
    \brief Some objects used in multithreads environment
 */
 /*
 	this is a simple skeleton of a program in multithreads environment:
 	#define TTMATH_MULTITHREADS
 	#include<ttmath/ttmath.h>
 	TTMATH_MULTITHREADS_HELPER
 	int main()
 	{
 	[...]
 	}
 	make sure that macro TTMATH_MULTITHREADS is defined and (somewhere in *.cpp file)
 	use TTMATH_MULTITHREADS_HELPER macro (outside of any classes/functions/namespaces scope)
 */
 namespace ttmath
 {
 #ifdef TTMATH_WIN32_THREADS
 	/*
 		we use win32 threads
 	*/
 	/*!
 		in multithreads environment you should use TTMATH_MULTITHREADS_HELPER macro
 		somewhere in *.cpp file
 		(at the moment in win32 this macro does nothing)
 	*/
 	#define TTMATH_MULTITHREADS_HELPER
 	/*!
 		objects of this class are used to synchronize
 	*/
 	class ThreadLock
 	{
 		HANDLE mutex_handle;
 		void CreateName(char * buffer) const
 		{
 			#ifdef _MSC_VER
 			#pragma warning (disable : 4996)
 			// warning C4996: 'sprintf': This function or variable may be unsafe. Consider using sprintf_s instead.
 			#endif
 			sprintf(buffer, "TTMATH_LOCK_%ul", (unsigned long)GetCurrentProcessId());
 			#ifdef _MSC_VER
 			#pragma warning (default : 4996)
 			#endif
 		}
 	public:
 		bool Lock()
 		{
 		char buffer[50];
 			CreateName(buffer);
 			mutex_handle = CreateMutexA(0, false, buffer);
 			if( mutex_handle == 0 )
 				return false;
 			WaitForSingleObject(mutex_handle, INFINITE);
 		return true;
 		}
 		ThreadLock()
 		{
 			mutex_handle = 0;
 		}
 		~ThreadLock()
 		{
 			if( mutex_handle != 0 )
 			{
 				ReleaseMutex(mutex_handle);
 				CloseHandle(mutex_handle);
 			}
 		}
 	};
 #endif  // #ifdef TTMATH_WIN32_THREADS
 #ifdef TTMATH_POSIX_THREADS
 	/*
 		we use posix threads
 	*/
 	/*!
 		in multithreads environment you should use TTMATH_MULTITHREADS_HELPER macro
 		somewhere in *.cpp file
 		(this macro defines a pthread_mutex_t object used by TTMath library)
 	*/
 	#define TTMATH_MULTITHREADS_HELPER                          \
 	namespace ttmath                                            \
 	{                                                           \
 	pthread_mutex_t ttmath_mutex = PTHREAD_MUTEX_INITIALIZER;   \
 	}
 	/*!
 		ttmath_mutex will be defined by TTMATH_MULTITHREADS_HELPER macro 
 	*/
 	extern pthread_mutex_t ttmath_mutex;
 	/*!
 		objects of this class are used to synchronize
 	*/
 	class ThreadLock
 	{
 	public:
 		bool Lock()
 		{
 			if( pthread_mutex_lock(&ttmath_mutex) != 0 )
 				return false;
 		return true;
 		}
 		~ThreadLock()
 		{
 			pthread_mutex_unlock(&ttmath_mutex);
 		}
 	};
 #endif // #ifdef TTMATH_POSIX_THREADS
 #if !defined(TTMATH_POSIX_THREADS) && !defined(TTMATH_WIN32_THREADS)
 	/*!
 		we don't use win32 and pthreads
 	*/
 	/*!
 	*/
 	#define TTMATH_MULTITHREADS_HELPER
 	/*!
 		objects of this class are used to synchronize
 		actually we don't synchronize, the method Lock() returns always 'false'
 	*/
 	class ThreadLock
 	{
 	public:
 		bool Lock()
 		{
 			return false;
 		}
 	};
 #endif // #if !defined(TTMATH_POSIX_THREADS) && !defined(TTMATH_WIN32_THREADS)
 } // namespace
 #endif
--- a/ttmath/ttmathtypes.h
+++ b/ttmath/ttmathtypes.h
@@ -1,11 +1,11 @@
 /*
- * This file is a part of TTMath Mathematical Library
+ * This file is a part of TTMath Bignum Library
 * and is distributed under the (new) BSD licence.
- * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
+ * Author: Tomasz Sowa <t.sowa@ttmath.org>
 */
 /* 
- * Copyright (c) 2006-2007, Tomasz Sowa
+ * Copyright (c) 2006-2010, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
@@ -54,14 +54,18 @@
 #include <stdexcept>
 #include <sstream>
-
+#include <vector>
 /*!
 	the version of the library
 	TTMATH_PRERELEASE_VER is either zero or one
 	if zero that means this is the release version of the library
 */
 #define TTMATH_MAJOR_VER		0
-#define TTMATH_MINOR_VER		8
+#define TTMATH_MINOR_VER		9
-#define TTMATH_REVISION_VER		0
+#define TTMATH_REVISION_VER		1
 #define TTMATH_PRERELEASE_VER	0
 /*!
@@ -79,7 +83,7 @@
 	 gcc -DTTMATH_RELEASE -o myprogram myprogram.cpp 
 	or by defining this macro in your code before using any header files of this library
-	if TTMATH_RELEASE is not set then TTMATH_DEBUG is set	
+	if TTMATH_RELEASE is not set then TTMATH_DEBUG is set automatically
 */
 #ifndef TTMATH_RELEASE
 	#define TTMATH_DEBUG
@@ -108,6 +112,15 @@ namespace ttmath
 /*!
 	another compilers than MS VC or GCC by default use no asm version (TTMATH_NOASM)
 */
 #if !defined _MSC_VER && !defined __GNUC__
 	#define TTMATH_NOASM
 #endif
 #ifdef TTMATH_PLATFORM32
 	/*!
@@ -116,6 +129,20 @@ namespace ttmath
 	typedef unsigned int uint;
 	typedef signed   int sint;
 	/*!
 		this type is twice bigger than uint
 		(64bit on a 32bit platforms)
 		although C++ Standard - ANSI ISO IEC 14882:2003 doesn't define such a type (long long) 
 		but it is defined in C99 and in upcoming C++0x /3.9.1 (2)/ and many compilers support it
 		this type is used in UInt::MulTwoWords and UInt::DivTwoWords when macro TTMATH_NOASM is defined
 		but only on a 32bit platform
 	*/
 	#ifdef TTMATH_NOASM
 		typedef unsigned long long int ulint;
 	#endif
 	/*!
 		how many bits there are in the uint type
 	*/
@@ -137,15 +164,37 @@ namespace ttmath
 		which are kept in built-in variables for a Big<> type
 		(these variables are defined in ttmathbig.h)
 	*/
-	#define TTMATH_BUILTIN_VARIABLES_SIZE 128u
+	#define TTMATH_BUILTIN_VARIABLES_SIZE 256u
 	/*!
 		this macro returns the number of machine words 
 		capable to hold min_bits bits
 		e.g. TTMATH_BITS(128) returns 4
 	*/
 	#define TTMATH_BITS(min_bits) ((min_bits-1)/32 + 1)
 #else
 	/*!
 		on 64bit platforms one word (uint, sint) will be equal 64bits
 	*/
 	#ifdef _MSC_VER
 		/* in VC 'long' type has 32 bits, __int64 is VC extension */
 		typedef unsigned __int64 uint;
 		typedef signed   __int64 sint;
 	#else
 		typedef unsigned long uint;
 		typedef signed   long sint;
 	#endif 
 	/*!
 		on 64bit platform we do not define ulint
 		sizeof(long long) is 8 (64bit) but we need 128bit
 		on 64 bit platform (when there is defined TTMATH_NOASM macro)
 		methods UInt::MulTwoWords and UInt::DivTwoWords are using other algorithms than those on 32 bit
 	*/
 	//typedef unsigned long long int ulint;
 	/*!
 		how many bits there are in the uint type
@@ -168,29 +217,31 @@ namespace ttmath
 		which are kept in built-in variables for a Big<> type
 		(these variables are defined in ttmathbig.h)
 	*/
-	#define TTMATH_BUILTIN_VARIABLES_SIZE 64ul
+	#define TTMATH_BUILTIN_VARIABLES_SIZE 128ul
 	/*!
 		this macro returns the number of machine words 
 		capable to hold min_bits bits
 		e.g. TTMATH_BITS(128) returns 2
 	*/
 	#define TTMATH_BITS(min_bits) ((min_bits-1)/64 + 1)
 #endif
 }
 #if defined(TTMATH_MULTITHREADS) && !defined(TTMATH_MULTITHREADS_NOSYNC)
 	#if !defined(TTMATH_POSIX_THREADS) && !defined(TTMATH_WIN32_THREADS)
-/*!
+		#if defined(_WIN32)
-	characters which represent the comma operator
+			#define TTMATH_WIN32_THREADS
 		#elif defined(unix) || defined(__unix__) || defined(__unix)
 			#define TTMATH_POSIX_THREADS
 		#endif
-	TTMATH_COMMA_CHARACTER_1 is used in reading (parsing) and in writing
+	#endif
-	TTMATH_COMMA_CHARACTER_2 can be used in reading as an auxiliary comma character
+#endif
 	that means you can input values for example 1.2345 and 1,2345 as well
 	if you don't want it just put 0 there e.g.
 		#define TTMATH_COMMA_CHARACTER_2 0
 	then only TTMATH_COMMA_CHARACTER_1 will be used
 	don't put there any special character which is used by the parser
 	(for example a semicolon ';' shouldn't be there)
 */
 #define TTMATH_COMMA_CHARACTER_1 '.'
 #define TTMATH_COMMA_CHARACTER_2 ','
 /*!
@@ -209,10 +260,59 @@ namespace ttmath
 /*!
 	this is a limit when calculating Karatsuba multiplication
 	if the size of a vector is smaller than TTMATH_USE_KARATSUBA_MULTIPLICATION_FROM_SIZE
 	the Karatsuba algorithm will use standard schoolbook multiplication
 */
 #ifdef TTMATH_DEBUG_LOG
 	// if TTMATH_DEBUG_LOG is defined then we should use the same size regardless of the compiler
 	#define TTMATH_USE_KARATSUBA_MULTIPLICATION_FROM_SIZE 3
 #else
 	#ifdef __GNUC__
 		#define TTMATH_USE_KARATSUBA_MULTIPLICATION_FROM_SIZE 3
 	#else
 		#define TTMATH_USE_KARATSUBA_MULTIPLICATION_FROM_SIZE 5
 	#endif
 #endif
 /*!
 	this is a special value used when calculating the Gamma(x) function
 	if x is greater than this value then the Gamma(x) will be calculated using
 	some kind of series
 	don't use smaller values than about 100
 */
 #define TTMATH_GAMMA_BOUNDARY 2000
 namespace ttmath
 {
 	/*!
 		lib type codes:
 		  asm_vc_32   - with asm code designed for Microsoft Visual C++ (32 bits)
 		  asm_gcc_32  - with asm code designed for GCC (32 bits)
 		  asm_vc_64   - with asm for VC (64 bit)
 		  asm_gcc_64  - with asm for GCC (64 bit)
 		  no_asm_32   - pure C++ version (32 bit) - without any asm code
 		  no_asm_64   - pure C++ version (64 bit) - without any asm code
 	*/
 	enum LibTypeCode
 	{
 	  asm_vc_32 = 0,
 	  asm_gcc_32,
 	  asm_vc_64,
 	  asm_gcc_64,
 	  no_asm_32,
 	  no_asm_64
 	};
 	/*!
 		error codes
 	*/
@@ -243,10 +343,132 @@ namespace ttmath
 		err_object_exists,
 		err_unknown_object,
 		err_still_calculating,
-		err_too_big_factorial
+		err_in_short_form_used_function,
 		err_percent_from
 	};
 	/*!
 		this struct is used when converting to/from a string
 		/temporarily only in Big::ToString() and Big::FromString()/
 	*/
 	struct Conv
 	{
 		/*!
 			base (radix) on which the value will be shown (or read)
 			default: 10
 		*/
 		uint base;
 		/*!
 			used only in Big::ToString()
 			if true the value will be always shown in the scientific mode, e.g: 123e+30
 			default: false
 		*/
 		bool scient;
 		/*!
 			used only in Big::ToString()
 			if scient is false then the value will be print in the scientific mode
 			only if the exponent is greater than scien_from
 			default: 15
 		*/
 		sint scient_from;
 		/*!
 			if 'base_round' is true and 'base' is different from 2, 4, 8, or 16
 			and the result value is not an integer then we make an additional rounding
 			(after converting the last digit from the result is skipped)
 			default: true
 			e.g.
 			Conv c;
 			c.base_round = false;
 			Big<1, 1> a = "0.1";                       // decimal input
 			std::cout << a.ToString(c) << std::endl;   // the result is: 0.099999999
 		*/
 		bool base_round;
 		/*!
 			used only in Big::ToString()
 			tells how many digits after comma are possible
 			default: -1 which means all digits are printed
 			set it to zero if you want integer value only
 			for example when the value is:
 				12.345678 and 'round' is 4
 			then the result will be 
 				12.3457   (the last digit was rounded)
 		*/
 		sint round;
 		/*!
 			if true that not mattered digits in the mantissa will be cut off
 			(zero characters at the end -- after the comma operator)
 			e.g. 1234,78000 will be: 1234,78
 			default: true
 		*/
 		bool trim_zeroes;
 		/*!
 			the main comma operator (used when reading and writing)
 			default is a dot '.'
 		*/
 		uint comma;
 		/*!
 			additional comma operator (used only when reading) 
 			if you don't want it just set it to zero
 			default is a comma ','
 			this allowes you to convert from a value:
 			123.45 as well as from 123,45
 		*/
 		uint comma2;
 		/*!
 			it sets the character which is used for grouping
 			if group=' ' then: 1234,56789 will be printed as: 1 234,567 89
 			if you don't want grouping just set it to zero (which is default)
 		*/
 		uint group;
 		/*!
 		*/
 		uint group_exp; // not implemented yet
 		Conv()
 		{
 			// default values
 			base         = 10;
 			scient       = false;
 			scient_from  = 15;
 			base_round   = true;
 			round        = -1;
 			trim_zeroes  = true;
 			comma        = '.';
 			comma2       = ',';
 			group        = 0;
 			group_exp    = 0;
 		}
 	};
 	/*!
 		this simple class can be used in multithreading model
 		(you can write your own class derived from this one)
@@ -300,7 +522,7 @@ namespace ttmath
 		can throw an exception of this type
 		If you compile with gcc you can get a small benefit 
-		from using method Where() (it returns std::string with
+		from using method Where() (it returns std::string) with
 		the name and the line of a file where the macro TTMATH_REFERENCE_ASSERT
 		was used)
@@ -320,7 +542,7 @@ namespace ttmath
 			foo.Add(foo);
 		but there are only few methods which can do that
 	*/
-	class ReferenceError : public std::logic_error, ExceptionInfo
+	class ReferenceError : public std::logic_error, public ExceptionInfo
 	{
 	public:
@@ -348,11 +570,11 @@ namespace ttmath
 		of this type
 		if you compile with gcc you can get a small benefit 
-		from using method Where() (it returns std::string with
+		from using method Where() (it returns std::string) with
 		the name and the line of a file where the macro TTMATH_ASSERT
 		was used)
 	*/
-	class RuntimeError : public std::runtime_error, ExceptionInfo
+	class RuntimeError : public std::runtime_error, public ExceptionInfo
 	{
 	public:
@@ -401,7 +623,24 @@ namespace ttmath
 	#endif
 	#ifdef TTMATH_DEBUG_LOG
 		#define TTMATH_LOG(msg)                             PrintLog(msg, std::cout);
 		#define TTMATH_LOGC(msg, carry)                     PrintLog(msg, carry, std::cout);
 		#define TTMATH_VECTOR_LOG(msg, vector, len)         PrintVectorLog(msg, std::cout, vector, len);
 		#define TTMATH_VECTOR_LOGC(msg, carry, vector, len) PrintVectorLog(msg, carry, std::cout, vector, len);
 	#else
 		#define TTMATH_LOG(msg)
 		#define TTMATH_LOGC(msg, carry)
 		#define TTMATH_VECTOR_LOG(msg, vector, len)
 		#define TTMATH_VECTOR_LOGC(msg, carry, vector, len)
 	#endif
 } // namespace
 #endif
--- a/ttmath/ttmathuint.h
+++ b/ttmath/ttmathuint.h
--- a/ttmath/ttmathuint64.h
+++ b/ttmath/ttmathuint64.h
@@ -1,943 +0,0 @@
 /*
 * This file is a part of TTMath Mathematical Library
 * and is distributed under the (new) BSD licence.
 * Author: Tomasz Sowa <t.sowa@slimaczek.pl>
 */
 /* 
 * Copyright (c) 2006-2007, Tomasz Sowa
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 * 
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *    
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *    
 *  * Neither the name Tomasz Sowa nor the names of contributors to this
 *    project may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */
 /*!
 	\file ttmathuint.h
    \brief template class UInt<uint> for 64bit processors
 */
 namespace ttmath
 {
 	/*!
 	*
 	*	basic mathematic functions
 	*
 	*/
 #ifdef TTMATH_PLATFORM64
 	/*!
 		in 64bit platforms we must define additional operators and contructors
 		in order to allow a user initializing the objects in this way:
 			UInt<...> type = 20;
 		or
 			UInt<...> type; 
 			type = 30;
 		decimal constants such as 20, 30 etc. are integer literal of type int,
 		if the value is greater it can even be long int,
 		0 is an octal integer of type int
 		(ISO 14882 p2.13.1 Integer literals)
 	*/
 	/*!
 		this operator converts the unsigned int type to this class
 		***this operator is created only on a 64bit platform***
 		it takes one argument of 32bit
 	*/
 	template<uint value_size>
 	UInt<value_size> & UInt<value_size>::operator=(unsigned int i)
 	{
 		FromUInt(uint(i));
 	return *this;
 	}
 	/*!
 		a constructor for converting the unsigned int to this class
 		***this constructor is created only on a 64bit platform***
 		it takes one argument of 32bit
 	*/
 	template<uint value_size>
 	UInt<value_size>::UInt(unsigned int i)
 	{
 		FromUInt(uint(i));
 	}
 	/*!
 		an operator for converting the signed int to this class
 		***this constructor is created only on a 64bit platform***
 		it takes one argument of 32bit
 		look at the description of UInt::operator=(sint)
 	*/
 	template<uint value_size>
 	UInt<value_size> & UInt<value_size>::operator=(signed int i)
 	{
 		FromUInt(uint(i));
 	return *this;
 	}
 	/*!
 		a constructor for converting the signed int to this class
 		***this constructor is created only on a 64bit platform***
 		it takes one argument of 32bit
 		look at the description of UInt::operator=(sint)
 	*/
 	template<uint value_size>
 	UInt<value_size>::UInt(signed int i)
 	{
 		FromUInt(uint(i));
 	}
 	/*!
 		this method copies the value stored in an another table
 		(warning: first values in temp_table are the highest words -- it's different
 		from our table)
 		***this method is created only on a 64bit platform***
 		we copy as many words as it is possible
 		if temp_table_len is bigger than value_size we'll try to round 
 		the lowest word from table depending on the last not used bit in temp_table
 		(this rounding isn't a perfect rounding -- look at the description below)
 		and if temp_table_len is smaller than value_size we'll clear the rest words
 		in the table
 		warning: we're using 'temp_table' as a pointer at 32bit words
 	*/
 	template<uint value_size>
 	void UInt<value_size>::SetFromTable(const unsigned int * temp_table, uint temp_table_len)
 	{
 		uint temp_table_index = 0;
 		sint i; // 'i' with a sign
 		for(i=value_size-1 ; i>=0 && temp_table_index<temp_table_len; --i, ++temp_table_index)
 		{
 			table[i] = uint(temp_table[ temp_table_index ]) << 32;
 			++temp_table_index;
 			if( temp_table_index<temp_table_len )
 				table[i] |= temp_table[ temp_table_index ];
 		}
 		// rounding mantissa
 		if( temp_table_index < temp_table_len )
 		{
 			if( (temp_table[temp_table_index] & TTMATH_UINT_HIGHEST_BIT) != 0 )
 			{
 				/*
 					very simply rounding
 					if the bit from not used last word from temp_table is set to one
 					we're rouding the lowest word in the table
 					in fact there should be a normal addition but
 					we don't use Add() or AddTwoInts() because these methods 
 					can set a carry and then there'll be a small problem
 					for optimization
 				*/
 				if( table[0] != TTMATH_UINT_MAX_VALUE )
 					++table[0];
 			}
 		}
 		// cleaning the rest of the mantissa
 		for( ; i >= 0 ; --i)
 			table[i] = 0;
 	}
 	/*!
 		this method adding ss2 to the this and adding carry if it's defined
 		(this = this + ss2 + c)
 		***this method is created only on a 64bit platform***
 		c must be zero or one (might be a bigger value than 1)
 		function returns carry (1) (if it was)
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::Add(const UInt<value_size> & ss2, uint c)
 	{
 	register uint b = value_size;
 	register uint * p1 = table;
 	register uint * p2 = const_cast<uint*>(ss2.table);
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			/*
 				this part should be compiled with gcc
 			*/
 			__asm__ __volatile__(
 				"push %%rbx				\n"
 				"push %%rcx				\n"
 				"push %%rdx				\n"
 				"movq $0, %%rax			\n"
 				"subq %%rsi, %%rax		\n"
 			"1:							\n"
 				"movq (%%rbx),%%rax		\n"
 				"adcq (%%rdx),%%rax		\n"
 				"movq %%rax,(%%rbx)		\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 			"loop 1b					\n"
 				"movq $0, %%rax			\n"
 				"adcq %%rax,%%rax		\n"
 				"movq %%rax, %%rsi		\n" 
 				"pop %%rdx				\n"
 				"pop %%rcx				\n"
 				"pop %%rbx				\n"
 				: "=S" (c)
 				: "0" (c), "c" (b), "b" (p1), "d" (p2)
 				: "%rax", "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*!
 		this method adds one word (at a specific position)
 		and returns a carry (if it was)
 		***this method is created only on a 64bit platform***
 		if we've got (value_size=3):
 			table[0] = 10;
 			table[1] = 30;
 			table[2] = 5;	
 		and we call:
 			AddInt(2,1)
 		then it'll be:
 			table[0] = 10;
 			table[1] = 30 + 2;
 			table[2] = 5;
 		of course if there was a carry from table[3] it would be returned
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::AddInt(uint value, uint index)
 	{
 	register uint b = value_size;
 	register uint * p1 = table;
 	register uint c;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__ __volatile__(
 				"push %%rbx						\n"
 				"push %%rcx						\n"
 				"push %%rdx						\n"
 				"subq %%rdx, %%rcx 				\n"
 				"leaq (%%rbx,%%rdx,8), %%rbx 	\n"
 				"movq %%rsi, %%rdx				\n"
 				"clc							\n"
 			"1:									\n"
 				"movq (%%rbx), %%rax			\n"
 				"adcq %%rdx, %%rax				\n"
 				"movq %%rax, (%%rbx)			\n"
 			"jnc 2f								\n"
 				"movq $0, %%rdx					\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 			"loop 1b							\n"
 			"2:									\n"
 				"movq $0, %%rax					\n"
 				"adcq %%rax,%%rax				\n"
 				"pop %%rdx						\n"
 				"pop %%rcx						\n"
 				"pop %%rbx						\n"
 				: "=a" (c)
 				: "c" (b), "d" (index), "b" (p1), "S" (value)
 				: "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*!
 		this method adds only two unsigned words to the existing value
 		and these words begin on the 'index' position
 		(it's used in the multiplication algorithm 2)
 		***this method is created only on a 64bit platform***
 		index should be equal or smaller than value_size-2 (index <= value_size-2)
 		x1 - lower word, x2 - higher word
 		for example if we've got value_size equal 4 and:
 			table[0] = 3
 			table[1] = 4
 			table[2] = 5
 			table[3] = 6
 		then let
 			x1 = 10
 			x2 = 20
 		and
 			index = 1
 		the result of this method will be:
 			table[0] = 3
 			table[1] = 4 + x1 = 14
 			table[2] = 5 + x2 = 25
 			table[3] = 6
 		and no carry at the end of table[3]
 		(of course if there was a carry in table[2](5+20) then 
 		this carry would be passed to the table[3] etc.)
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::AddTwoInts(uint x2, uint x1, uint index)
 	{
 	register uint b = value_size;
 	register uint * p1 = table;
 	register uint c;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__ __volatile__(
 				"push %%rbx						\n"
 				"push %%rcx						\n"
 				"push %%rdx						\n"
 				"subq %%rdx, %%rcx 				\n"
 				"leaq (%%rbx,%%rdx,8), %%rbx 	\n"
 				"movq $0, %%rdx					\n"
 				"movq (%%rbx), %%rax			\n"
 				"addq %%rsi, %%rax					\n"
 				"movq %%rax, (%%rbx)			\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"movq (%%rbx), %%rax			\n"
 				"adcq %%rdi, %%rax					\n"
 				"movq %%rax, (%%rbx)			\n"
 			"jnc 2f								\n"
 				"dec %%rcx						\n"
 				"dec %%rcx						\n"
 			"jz 2f								\n"
 			"1:									\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"movq (%%rbx), %%rax			\n"
 				"adcq %%rdx, %%rax				\n"
 				"movq %%rax, (%%rbx)			\n"
 			"jnc 2f								\n"
 			"loop 1b							\n"
 			"2:									\n"
 				"movq $0, %%rax					\n"
 				"adcq %%rax,%%rax				\n"
 				"pop %%rdx						\n"
 				"pop %%rcx						\n"
 				"pop %%rbx						\n"
 				: "=a" (c)
 				: "c" (b), "d" (index), "b" (p1), "S" (x1), "D" (x2)
 				: "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*!
 		this method's subtracting ss2 from the 'this' and subtracting
 		carry if it has been defined
 		(this = this - ss2 - c)
 		***this method is created only on a 64bit platform***
 		c must be zero or one (might be a bigger value than 1)
 		function returns carry (1) (if it was)
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::Sub(const UInt<value_size> & ss2, uint c)
 	{
 	register uint b = value_size;
 	register uint * p1 = table;
 	register uint * p2 = const_cast<uint*>(ss2.table);
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__  __volatile__(
 				"push %%rbx				\n"
 				"push %%rcx				\n"
 				"push %%rdx				\n"
 				"movq $0, %%rax			\n"
 				"subq %%rsi, %%rax		\n"
 			"1:							\n"
 				"movq (%%rbx),%%rax		\n"
 				"sbbq (%%rdx),%%rax		\n"
 				"movq %%rax,(%%rbx)		\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rbx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 				"inc %%rdx				\n"
 			"loop 1b					\n"
 				"movq $0, %%rax			\n"
 				"adcq %%rax,%%rax		\n"
 				"movq %%rax, %%rsi		\n" 
 				"pop %%rdx				\n"
 				"pop %%rcx				\n"
 				"pop %%rbx				\n"
 				: "=S" (c)
 				: "0" (c), "c" (b), "b" (p1), "d" (p2)
 				: "%rax", "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*!
 		this method subtracts one word (at a specific position)
 		and returns a carry (if it was)
 		***this method is created only on a 64bit platform***
 		if we've got (value_size=3):
 			table[0] = 10;
 			table[1] = 30;
 			table[2] = 5;	
 		and we call:
 			SubInt(2,1)
 		then it'll be:
 			table[0] = 10;
 			table[1] = 30 - 2;
 			table[2] = 5;
 		of course if there was a carry from table[3] it would be returned
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::SubInt(uint value, uint index)
 	{
 	register uint b = value_size;
 	register uint * p1 = table;
 	register uint c;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__ __volatile__(
 				"push %%rbx						\n"
 				"push %%rcx						\n"
 				"push %%rdx						\n"
 				"subq %%rdx, %%rcx 				\n"
 				"leaq (%%rbx,%%rdx,8), %%rbx 	\n"
 				"movq %%rsi, %%rdx					\n"
 				"clc							\n"
 			"1:									\n"
 				"movq (%%rbx), %%rax			\n"
 				"sbbq %%rdx, %%rax				\n"
 				"movq %%rax, (%%rbx)			\n"
 			"jnc 2f								\n"
 				"movq $0, %%rdx					\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 				"inc %%rbx						\n"
 			"loop 1b							\n"
 			"2:									\n"
 				"movq $0, %%rax					\n"
 				"adcq %%rax,%%rax				\n"
 				"pop %%rdx						\n"
 				"pop %%rcx						\n"
 				"pop %%rbx						\n"
 				: "=a" (c)
 				: "c" (b), "d" (index), "b" (p1), "S" (value)
 				: "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*!
 		this method moving once all bits into the left side
 		return value <- this <- C
 		***this method is created only on a 64bit platform***
 		the lowest bit will hold value of 'c' and
 		function returns the highest bit
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::Rcl(uint c)
 	{
 	register sint b = value_size;
 	register uint * p1 = table;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 		__asm__  __volatile__(
 			"push %%rbx			\n"
 			"push %%rcx			\n"
 			"movq $0,%%rax		\n"
 			"subq %%rdx,%%rax	\n"
 		"1:						\n"
 			"rclq $1,(%%rbx)	\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 			"inc %%rbx			\n"
 		"loop 1b				\n"
 			"movq $0, %%rdx		\n"
 			"adcq %%rdx,%%rdx	\n"
 			"pop %%rcx			\n"
 			"pop %%rbx			\n"
 			: "=d" (c)
 			: "0" (c), "c" (b), "b" (p1)
 			: "%rax", "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*!
 		this method moving once all bits into the right side
 		C -> *this -> return value
 		***this method is created only on a 64bit platform***
 		the highest bit will be held value of 'c' and
 		function returns the lowest bit
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::Rcr(uint c)
 	{
 	register sint b = value_size;
 	register uint * p1 = table;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__  __volatile__(
 			"push %%rbx			\n"
 			"push %%rcx			\n"
 			"leaq (%%rbx,%%rcx,8),%%rbx  \n"
 			"movq $0, %%rax		\n"
 			"subq %%rdx, %%rax	\n"
 		"1:						\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"dec %%rbx			\n"
 			"rcrq $1,(%%rbx)	\n"
 		"loop 1b				\n"
 			"movq $0, %%rdx		\n"
 			"adcq %%rdx,%%rdx	\n"
 			"pop %%rcx			\n"
 			"pop %%rbx			\n"
 			: "=d" (c)
 			: "0" (c), "c" (b), "b" (p1)
 			: "%rax", "cc", "memory" );
 		#endif
 	return c;
 	}
 	/*
 		this method returns the number of the highest set bit in one 32-bit word
 		if the 'x' is zero this method returns '-1'
 		***this method is created only on a 64bit platform***
 	*/
 	template<uint value_size>
 	sint UInt<value_size>::FindLeadingBitInWord(uint x)
 	{
 	register sint result;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__  __volatile__(
 			"bsrq %%rbx, %%rax	\n"
 			"jnz 1f				\n"
 			"movq $-1, %%rax	\n"
 		"1:						\n"
 			: "=a" (result)
 			: "b" (x)
 			: "cc" );
 		#endif
 	return result;
 	}
 	/*!
 		this method sets a special bit in the 'value'
 		and returns the result
 		***this method is created only on a 64bit platform***
 		bit is from <0,31>
 		e.g.
 		SetBitInWord(0,0) = 1
 		SetBitInWord(0,2) = 4
 		SetBitInWord(10, 8) = 266
 	*/
 	template<uint value_size>
 	uint UInt<value_size>::SetBitInWord(uint value, uint bit)
 	{
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__  __volatile__(
 			"btsq %%rbx,%%rax	\n"
 			: "=a" (value)
 			: "0" (value), "b" (bit)
 			: "cc" );
 		#endif
 	return value;
 	}
 	/*!
 	 *
 	 * Multiplication
 	 *
 	 *
 	*/
 	/*!
 		multiplication: result2:result1 = a * b
 		result2 - higher word
 		result1 - lower word of the result
 		this methos never returns a carry
 		***this method is created only on a 64bit platform***
 		it is an auxiliary method for version two of the multiplication algorithm
 	*/
 	template<uint value_size>
 	void UInt<value_size>::MulTwoWords(uint a, uint b, uint * result2, uint * result1)
 	{
 	/*
 		we must use these temporary variables in order to inform the compilator
 		that value pointed with result1 and result2 has changed
 		this has no effect in visual studio but it's usefull when
 		using gcc and options like -O
 	*/
 	register uint result1_;
 	register uint result2_;
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 		__asm__ __volatile__(
 			"mulq %%rdx			\n"
 			: "=a" (result1_), "=d" (result2_)
 			: "0" (a), "1" (b)
 			: "cc" );
 		#endif
 		*result1 = result1_;
 		*result2 = result2_;
 	}
 	/*!
 	 *
 	 * Division
 	 *
 	 *
 	*/
 	/*!
 		this method calculates 64bits word a:b / 32bits c (a higher, b lower word)
 		r = a:b / c and rest - remainder
 		***this method is created only on a 64bit platform***
 		*
 		* WARNING:
 		* if r (one word) is too small for the result or c is equal zero
 		* there'll be a hardware interruption (0)
 		* and probably the end of your program
 		*
 	*/
 	template<uint value_size>
 	void UInt<value_size>::DivTwoWords(uint a,uint b, uint c, uint * r, uint * rest)
 	{
 		register uint r_;
 		register uint rest_;
 		/*
 			these variables have similar meaning like those in
 			the multiplication algorithm MulTwoWords
 		*/
 		#ifndef __GNUC__
 			#error "another compiler than GCC is currently not supported in 64bit mode"
 		#endif
 		#ifdef __GNUC__
 			__asm__ __volatile__(
 			"divq %%rcx				\n"
 			: "=a" (r_), "=d" (rest_)
 			: "d" (a), "a" (b), "c" (c)
 			: "cc" );
 		#endif
 		*r = r_;
 		*rest = rest_;
 	}
 #endif
 } //namespace
--- a/ttmath/ttmathuint_noasm.h
+++ b/ttmath/ttmathuint_noasm.h
--- a/ttmath/ttmathuint_x86.h
+++ b/ttmath/ttmathuint_x86.h
--- a/ttmath/ttmathuint_x86_64.h
+++ b/ttmath/ttmathuint_x86_64.h
--- a/ttmath/ttmathuint_x86_64_msvc.asm
+++ b/ttmath/ttmathuint_x86_64_msvc.asm
@@ -0,0 +1,548 @@
 ;
 ; This file is a part of TTMath Bignum Library
 ; and is distributed under the (new) BSD licence.
 ; Author: Christian Kaiser <chk@online.de>
 ;
 ; 
 ; Copyright (c) 2009, Christian Kaiser
 ; All rights reserved.
 ; 
 ; Redistribution and use in source and binary forms, with or without
 ; modification, are permitted provided that the following conditions are met:
 ; 
 ;  * Redistributions of source code must retain the above copyright notice,
 ;    this list of conditions and the following disclaimer.
 ;    
 ;  * Redistributions in binary form must reproduce the above copyright
 ;    notice, this list of conditions and the following disclaimer in the
 ;    documentation and/or other materials provided with the distribution.
 ;    
 ;  * Neither the name Christian Kaiser nor the names of contributors to this
 ;    project may be used to endorse or promote products derived
 ;    from this software without specific prior written permission.
 ;
 ; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 ; AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 ; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 ; ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 ; LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 ; CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 ; SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 ; INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 ; CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 ; ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 ; THE POSSIBILITY OF SUCH DAMAGE.
 ;
 ;
 ; compile with debug info:    ml64.exe /Zd /Zi ttmathuint_x86_64_msvc.asm
 ; compile without debug info: ml64.exe ttmathuint_x86_64_msvc.asm
 ; this create ttmathuint_x86_64_msvc.obj file which can be linked with your program
 ;
 PUBLIC	ttmath_adc_x64
 PUBLIC	ttmath_addindexed_x64
 PUBLIC	ttmath_addindexed2_x64
 PUBLIC	ttmath_addvector_x64
 PUBLIC	ttmath_sbb_x64
 PUBLIC	ttmath_subindexed_x64
 PUBLIC	ttmath_subvector_x64
 PUBLIC	ttmath_rcl_x64
 PUBLIC	ttmath_rcr_x64
 PUBLIC	ttmath_rcl2_x64
 PUBLIC	ttmath_rcr2_x64
 PUBLIC	ttmath_div_x64
 ;
 ; Microsoft x86_64 convention: http://msdn.microsoft.com/en-us/library/9b372w95.aspx
 ;
 ;	"rax, rcx, rdx, r8-r11 are volatile."
 ;	"rbx, rbp, rdi, rsi, r12-r15 are nonvolatile."
 ;
 .CODE
        ALIGN       8
 ;----------------------------------------
 ttmath_adc_x64				PROC
        ; rcx = p1
        ; rdx = p2
        ; r8 = nSize
        ; r9 = nCarry
        xor		rax, rax
        xor		r11, r11
        sub		rax, r9		; sets CARRY if r9 != 0
 		ALIGN 16
 loop1:
 		mov		rax,qword ptr [rdx + r11 * 8]
 		adc		qword ptr [rcx + r11 * 8], rax
 		lea		r11, [r11+1]
 		dec		r8
 		jnz		loop1
 		setc	al
 		movzx	rax, al
 		ret
 ttmath_adc_x64				ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_addindexed_x64	PROC
        ; rcx = p1
        ; rdx = nSize
        ; r8 = nPos
        ; r9 = nValue
 		xor		rax, rax			; rax = result
 		sub		rdx, r8				; rdx = remaining count of uints
 		add		qword ptr [rcx + r8 * 8], r9
 		jc		next1
 		ret
 next1:
 		mov		r9, 1
 		ALIGN 16
 loop1:
 		dec		rdx
 		jz		done_with_cy
 		lea		r8, [r8+1]
 		add		qword ptr [rcx + r8 * 8], r9
 		jc		loop1
 		ret
 done_with_cy:
 		lea		rax, [rax+1]		; rax = 1
 		ret
 ttmath_addindexed_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_addindexed2_x64	PROC
        ; rcx = p1 (pointer)
        ; rdx = b  (value size)
        ; r8 = nPos
        ; r9 = nValue1
        ; [esp+0x28] = nValue2
 		xor		rax, rax			; return value
 		mov		r11, rcx			; table
 		sub		rdx, r8				; rdx = remaining count of uints
 		mov		r10, [esp+028h]		; r10 = nValue2
 		add		qword ptr [r11 + r8 * 8], r9
 		lea		r8, [r8+1]
 		lea		rdx, [rdx-1]
 		adc		qword ptr [r11 + r8 * 8], r10
 		jc		next
 		ret
 		ALIGN 16
 loop1:
 		lea		r8, [r8+1]
 		add		qword ptr [r11 + r8 * 8], 1
 		jc		next
 		ret
 next:
 		dec		rdx					; does not modify CY too...
 		jnz		loop1
 		lea		rax, [rax+1]
 		ret
 ttmath_addindexed2_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_addvector_x64				PROC
        ; rcx = ss1
        ; rdx = ss2
        ; r8 = ss1_size
        ; r9 = ss2_size
        ; [esp+0x28] = result
 		mov		r10, [esp+028h]
 		sub		r8, r9
        xor		r11, r11				; r11=0, cf=0
 		ALIGN 16
 loop1:
 		mov		rax, qword ptr [rcx + r11 * 8]
 		adc		rax, qword ptr [rdx + r11 * 8]
 		mov		qword ptr [r10 + r11 * 8], rax
 		inc		r11
 		dec		r9
 		jnz		loop1
 		adc		r9, r9					; r9 has the cf state
 		or		r8, r8
 		jz		done
 		neg		r9						; setting cf from r9
 		mov		r9, 0					; don't use xor here (cf is used)
 loop2:
 		mov		rax, qword ptr [rcx + r11 * 8]
 		adc		rax, r9
 		mov		qword ptr [r10 + r11 * 8], rax
 		inc		r11
 		dec		r8
 		jnz		loop2
 		adc		r8, r8
 		mov		rax, r8
 		ret
 done:
 		mov		rax, r9
 		ret
 ttmath_addvector_x64				ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_sbb_x64				PROC
        ; rcx = p1
        ; rdx = p2
        ; r8 = nCount
        ; r9 = nCarry
        xor		rax, rax
        xor		r11, r11
        sub		rax, r9				; sets CARRY if r9 != 0
 		ALIGN 16
 loop1:
 		mov		rax,qword ptr [rdx + r11 * 8]
 		sbb		qword ptr [rcx + r11 * 8], rax
 		lea		r11, [r11+1]
 		dec		r8
 		jnz		loop1
 		setc	al
 		movzx	rax, al
 		ret
 ttmath_sbb_x64				ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_subindexed_x64	PROC
        ; rcx = p1
        ; rdx = nSize
        ; r8 = nPos
        ; r9 = nValue
 		sub		rdx, r8				; rdx = remaining count of uints
 		ALIGN 16
 loop1:
 		sub		qword ptr [rcx + r8 * 8], r9
 		jnc		done
 		lea		r8, [r8+1]
 		mov		r9, 1
 		dec		rdx
 		jnz		loop1
 		mov		rax, 1
 		ret
 done:
 		xor		rax, rax
 		ret
 ttmath_subindexed_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ;	the same asm code as in addvector_x64 only two instructions 'adc' changed to 'sbb'
 ttmath_subvector_x64				PROC
        ; rcx = ss1
        ; rdx = ss2
        ; r8 = ss1_size
        ; r9 = ss2_size
        ; [esp+0x28] = result
 		mov		r10, [esp+028h]
 		sub		r8, r9
        xor		r11, r11				; r11=0, cf=0
 		ALIGN 16
 loop1:
 		mov		rax, qword ptr [rcx + r11 * 8]
 		sbb		rax, qword ptr [rdx + r11 * 8]
 		mov		qword ptr [r10 + r11 * 8], rax
 		inc		r11
 		dec		r9
 		jnz		loop1
 		adc		r9, r9					; r9 has the cf state
 		or		r8, r8
 		jz		done
 		neg		r9						; setting cf from r9
 		mov		r9, 0					; don't use xor here (cf is used)
 loop2:
 		mov		rax, qword ptr [rcx + r11 * 8]
 		sbb		rax, r9
 		mov		qword ptr [r10 + r11 * 8], rax
 		inc		r11
 		dec		r8
 		jnz		loop2
 		adc		r8, r8
 		mov		rax, r8
 		ret
 done:
 		mov		rax, r9
 		ret
 ttmath_subvector_x64				ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_rcl_x64	PROC
        ; rcx = p1
        ; rdx = b
        ; r8 = nLowestBit
 		mov		r11, rcx			; table
 		xor		r10, r10
 		neg		r8					; CY set if r8 <> 0
 		ALIGN 16
 loop1:
 		rcl		qword ptr [r11 + r10 * 8], 1
 		lea		r10, [r10+1]
 		dec		rdx
 		jnz		loop1
 		setc	al
 		movzx	rax, al
        ret
 ttmath_rcl_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_rcr_x64	PROC
        ; rcx = p1
        ; rdx = nSize
        ; r8 = nLowestBit
 		xor		r10, r10
 		neg		r8					; CY set if r8 <> 0
 		ALIGN 16
 loop1:
 		rcr		qword ptr -8[rcx + rdx * 8], 1
 		dec		rdx
 		jnz		loop1
 		setc	al
 		movzx	rax, al
        ret
 ttmath_rcr_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_div_x64	PROC
        ; rcx = &Hi
        ; rdx = &Lo
        ; r8 = nDiv
        mov		r11, rcx
        mov		r10, rdx
        mov		rdx, qword ptr [r11]
        mov		rax, qword ptr [r10]
        div		r8
        mov		qword ptr [r10], rdx ; remainder
        mov		qword ptr [r11], rax ; value
        ret
 ttmath_div_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_rcl2_x64	PROC
        ; rcx = p1
        ; rdx = nSize
        ; r8 = bits
        ; r9 = c
        push	rbx
        mov		r10, rcx	; r10 = p1
        xor		rax, rax
        mov		rcx, 64
        sub		rcx, r8
        mov		r11, -1
        shr		r11, cl		; r11 = mask
 		mov		rcx, r8		; rcx = count of bits
 		mov		rbx, rax	; rbx = old value = 0
 		or		r9, r9
 		cmovnz	rbx, r11	; if (c) then old value = mask
        mov		r9, rax		; r9 = index (0..nSize-1)
 		ALIGN 16
 loop1:
 		rol		qword ptr [r10+r9*8], cl
 		mov		rax, qword ptr [r10+r9*8]
 		and		rax, r11
 		xor		qword ptr [r10+r9*8], rax
 		or		qword ptr [r10+r9*8], rbx
 		mov		rbx, rax
 		lea		r9, [r9+1]
 		dec		rdx
 		jnz		loop1
 		and		rax, 1
 		pop		rbx
        ret
 ttmath_rcl2_x64	ENDP
 ;----------------------------------------
        ALIGN       8
 ;----------------------------------------
 ttmath_rcr2_x64	PROC
        ; rcx = p1
        ; rdx = nSize
        ; r8 = bits
        ; r9 = c
        push	rbx
        mov		r10, rcx	; r10 = p1
        xor		rax, rax
        mov		rcx, 64
        sub		rcx, r8
        mov		r11, -1
        shl		r11, cl		; r11 = mask
 		mov		rcx, r8		; rcx = count of bits
 		mov		rbx, rax	; rbx = old value = 0
 		or		r9, r9
 		cmovnz	rbx, r11	; if (c) then old value = mask
        mov		r9, rdx		; r9 = index (0..nSize-1)
 		lea		r9, [r9-1]
 		ALIGN 16
 loop1:
 		ror		qword ptr [r10+r9*8], cl
 		mov		rax, qword ptr [r10+r9*8]
 		and		rax, r11
 		xor		qword ptr [r10+r9*8], rax
 		or		qword ptr [r10+r9*8], rbx
 		mov		rbx, rax
 		lea		r9, [r9-1]
 		dec		rdx
 		jnz		loop1
 		rol		rax, 1
 		and		rax, 1
 		pop		rbx
        ret
 ttmath_rcr2_x64	ENDP
 END