# TTMath changelog

- Version 0.9.3 (2012.11.28)
- fixed: in Big::FromDouble(double value) (only 32 bit version)

buffer overflow in referencing to UInt<2>

this was used when 'value' was in so called "unnormalized" state

(E=0 and F is nonzero)

it produced incorrect mantissa (on about 8th decimal digit up) - added: Parser::InitCGamma()

initializing coefficients used when calculating the gamma (or factorial) function

this speed up the next calculations

you don't have to call this method explicitly

these coefficients will be calculated when needed - added: option 'group_digits' to Conv struct

you can set how many digits should be grouped - changed: small optimizations in UInt::ToString() and Big::FromString()
- Version 0.9.2 (2010.09.23)
- fixed: Big::Add() sometimes incorrectly rounded the last bit from its mantissa
- fixed: Big::BigAnd() Big::BigOr() Big::BigXor() should have set NaN when the argument was negative (they only returned 2)
- fixed: recurrence calling in Big::FromString(const std::string &, uint, const wchar_t **, bool *)

it should have the signature: Big::FromString(const std::string &, uint, const char **, bool *) - fixed: Big::ToString method

in some cases when in the output string the exponent should be equal zero the method changes the exponent to one so the last digit from the mantissa was lost - fixed: Big::ToDouble(double &) set always +INF (infinity) when the value was too large (even for negative values) (it should set -INF in such a case)
- added: some missing operators

UInt::operator~() /* bitwise neg */

UInt::operator&() /* bitwise and */

UInt::operator&=()

UInt::operator|() /* bitwise or */

UInt::operator|=()

UInt::operator^() /* bitwise xor */

UInt::operator^=()

Big::operator&()

Big::operator&=()

Big::operator|()

Big::operator|=()

Big::operator^()

Big::operator^=()

for Big<> we do not define bitwise neg

Big::operator++()

Big::operator++(int)

Big::operator--()

Big::operator--(int) - added: macro TTMATH_DONT_USE_WCHAR

if defined then the library does not use wide characters (wchar_t, std::wstring, ...) this is a workaround for some compilers - added: bool UInt::IsOnlyTheHighestBitSet()

bool UInt::IsOnlyTheLowestBitSet()

returning true if only the highest/lowest bit is set - added: uint Int::MulInt(sint ss2)
- added: void UInt::Swap(UInt<value_size> & ss2)

void Big::Swap(UInt<value_size> & ss2)

method for swapping this for an argument - added: macro TTMATH_BIG_DEFAULT_CLEAR

when defined the default constructor from Big<> clears its mantissa and exponent

Big<1, 2> var;

var.mantissa and var.exponent will be set to zero

(but var has the NaN flag set too - it is not zero value, this is mainly for debug purposes) - added: only on 32bit platforms:

uint UInt::FromUInt(uint64_t n)

uint Int::FromInt(int64_t n)

void Big::FromUInt(uint64_t n)

void Big::FromInt(int64_t n)

and appropriate constructors and operators - added: TTMATH_FORCEASM macro

asm version of the library is available by default only for:

x86 and amd64 platforms and for Microsoft Visual and GCC compilers, but you can force using asm version (the same asm as for Microsoft Visual) by defining TTMATH_FORCEASM macro

you have to be sure that your compiler accept such an asm format - added: some missing methods for converting

for UInt<>, Int<> and Big<> classes:

uint ToUInt()

sint ToInt()

ToUInt(uint32_t &)

ToInt(uint32_t &)

ToInt(int32_t &)

ToUInt(uint64_t &)

ToInt(uint64_t &)

ToInt(int64_t &)

FromUInt(uint32_t &)

FromInt(uint32_t &)

FromInt(int32_t &)

FromUInt(uint64_t &)

FromInt(uint64_t &)

FromInt(int64_t &)

and appropriate constructors and operators - added: double Big::ToDouble() /there was only Big::ToDouble(double &) /

uint Big::ToFloat(float &)

float Big::ToFloat() - changed: now asm version is available only on x86 and amd64

(and only for GCC and MS VC compilers) - removed: macro TTMATH_RELEASE (now the 'release' version is default)

for debug version define TTMATH_DEBUG macro

TTMATH_DEBUG is also automatically defined when DEBUG or _DEBUG is set - removed: macro TTMATH_REFERENCE_ASSERT from all methods in public interface
- 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 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)
- changed: CTan(x) is Cot(x) now
- added: Ctg(x) a wrapper for Cot(x)
- added: ATg(x) a wrapper for ATan(x)
- changed: ACTan(x) is ACot(x) now
- 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 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 32bit platforms and 64ul on 64bit platforms (128/2=64)
- 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 with ttmath.h even if he uses the parser
- 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()
- 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)
- added: global functions Mod and Sgn too
- added: checking whether a user gives a correct value of a variable or function (user-defined variables/functions in the mathematical parser)
- added: into the parser: logical operators: > < >= <= == != && ||
- 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 by Big::FromInt(Int<int_size> value) (the sign has to be set at the end)
- fixed many small errors
- added ATan (arctan), ACTan (arc ctan) functions
- Version 0.7.0 (2007.02.24):
- finished support for 64bit platforms
- 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/
- added UInt::AddInt and UInt::SubInt
- changed UInt::AddOne and UInt::SubOne (much faster now)
- added UInt::SetBitInWord
- changed UInt::SetBit (much faster now)
- UInt::AddTwoUints renamed to UInt::AddTwoInts
- UInt::FindLeadingBit32 renamed to UInt::FindLeadingBitInWord
- added UInt::SetBitInWord
- UInt::Mul64 renamed to UInt::MulTwoWords
- UInt::Div64 renamed to UInt::DivTwoWords
- 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
- 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
- the mess in macros has been cleaned up
- added TTMATH_RELEASE macro
- Version 0.6.2 (2007.01.10):
- New division algorithm (radix b) where b is 2^32