{0,symzero,"Enter command or expression to evaluate.#NEWLINE##SYNTAXHIGHLIGHT#Example: 2+3-cos(3)#NORMALTEXT##NEWLINE# #NEWLINE#More help is available for designated topics.#NEWLINE#-------------------------------------------------#NEWLINE#functions Base functions.#NEWLINE#trigon Trigonometric functions.#NEWLINE#hyper Hyperbolic functions.#NEWLINE#complex Syntax for complex numbers.#NEWLINE#statements Available statements.#NEWLINE#operators Supported operators.#NEWLINE#-------------------------------------------------#NEWLINE##SYNTAXHIGHLIGHT#Example: help trigon#NEWLINE#"},
{1,symoperator,"-------------------------------------------------#NEWLINE# + Mathematical addition.#NEWLINE# - Mathematical subtraction.#NEWLINE# * Mathematical multiplication.#NEWLINE# / Mathematical division.#NEWLINE# ^ Mathematical exponentiation.#NEWLINE# = Assignment of variable values.#NEWLINE# | Absolute value of number. #NEWLINE#-------------------------------------------------#NEWLINE#"},
{2,symfunction,"-------------------------------------------------#NEWLINE#abs Absolute value of number.#NEWLINE#sgn Mathematical signum function.#NEWLINE#round Round to nearest integer number.#NEWLINE#trunc Discard fraction part of number.#NEWLINE#floor Mathematical floor function.#NEWLINE#ceil Mathematical ceiling function.#NEWLINE#sqrt Square root function (exp 1/2).#NEWLINE#cbrt Cube root function (exp 1/3).#NEWLINE#lb Binary logarithm function (base 2).#NEWLINE#ln Natural logarithm function (base e).#NEWLINE#lg Common logarithm function (base 10).#NEWLINE#-------------------------------------------------#NEWLINE##SYNTAXHIGHLIGHT#Example: round(1.55)#NORMALTEXT##NEWLINE#"},
{3,symtrigon,"-------------------------------------------------#NEWLINE#sin Trigonometric sine function.#NEWLINE#cos Trigonometric cosine function.#NEWLINE#tan Trigonometric tangent function.#NEWLINE#cot Trigonometric cotangent function.#NEWLINE#sec Trigonometric secant function.#NEWLINE#csc Trigonometric cosecant function.#NEWLINE#asin Inverse trigonometric sine function.#NEWLINE#acos Inverse trigonometric cosine function.#NEWLINE#atan Inverse trigonometric tangent function.#NEWLINE#acot Inverse trigonometric cotangent function.#NEWLINE#asec Inverse trigonometric secant function.#NEWLINE#acsc Inverse trigonometric cosecant function.#NEWLINE#-------------------------------------------------#NEWLINE#Inverse functions can be prefixed with ar or arc #NEWLINE#instead of a.#NEWLINE#"},
{4,symhyper,"-------------------------------------------------#NEWLINE#sinh Hyperbolic sine function.#NEWLINE#cosh Hyperbolic cosine function.#NEWLINE#tanh Hyperbolic tangent function.#NEWLINE#coth Hyperbolic cotangent function.#NEWLINE#sech Hyperbolic secant function.#NEWLINE#csch Hyperbolic cosecant function. #NEWLINE#asinh Inverse hyperbolic sine function.#NEWLINE#acosh Inverse hyperbolic cosine function.#NEWLINE#atanh Inverse hyperbolic tangent function.#NEWLINE#acoth Inverse hyperbolic cotangent function.#NEWLINE#asech Inverse hyperbolic secant function.#NEWLINE#acsch Inverse hyperbolic cosecant function.#NEWLINE#-------------------------------------------------#NEWLINE#Inverse functions can be prefixed with ar or arc #NEWLINE#instead of a.#NEWLINE#"},
{5,symstatement,"---------------------------------------------------------#NEWLINE#clear Clear console window.#NEWLINE#def Define function.#NEWLINE#delete Delete variable or function.#NEWLINE#digits Set number of significant digits.#NEWLINE#eval Evaluate arithmetic expression.#NEWLINE#execute Execute statements in a file.#NEWLINE#functions Show list of user defined functions.#NEWLINE#input Change numeral input system (experimental).#NEWLINE#help Show basic help text.#NEWLINE#output Change numeral output system (experimental).#NEWLINE#list Show content of a directory.#NEWLINE#show Show content of a file.#NEWLINE#load Load variable and functions from file.#NEWLINE#save Save variable and functions to file.#NEWLINE#variables Show list of variables.#NEWLINE#version Show version string.#NEWLINE#memory Show internal memory usage.#NEWLINE#exit Exit program.#NEWLINE#---------------------------------------------------------#NEWLINE#The def and eval statements are optional. Functions and#NEWLINE#variables statements can be shorten to funcs and vars.#NEWLINE#"},
{6,symcomplex,"Expressions with complex numbers are written using an i to denote#NEWLINE#the imaginary value. Complex numbers can seamlessly be mixed with#NEWLINE#real numbers.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: 2+3i#NEWLINE#Example: 2+3.2i*cos(-1i)+5/7#NEWLINE#"},
{7,symclear,"The clear statement erases all text in the console window.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: clear#NEWLINE#"},
{8,symdef,"The def statement is used to define functions. When defining a function#NEWLINE#it is possible to omit the def keyword. Defined functions can be shown#NEWLINE#using the functions statement.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: def f(x)=2*x+3#NEWLINE#Optional syntax: f(x)=2*x+3#NEWLINE#"},
{9,symdelete,"The delete statement can delete variable and functions. To delete a#NEWLINE#single variable or functions use the name of the function or variable.#NEWLINE#To delete all functions or variables specify either the variable or#NEWLINE#function keyword.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: delete f(x)#NEWLINE#Syntax: delete variables#NEWLINE#"},
{10,symdigits,"The digits statement defines the displayed number of significant digits.#NEWLINE#To show current configuration use the digits statement without specifying#NEWLINE#the number.#NEWLINE# #SYNTAXHIGHLIGHT#Syntax: digits 7#NEWLINE#"},
{11,symeval,"The eval statement evaluates an expression. When evaluating an expression#NEWLINE#it is possible to omit the eval keyword.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: eval 2.4*x+3.2#NEWLINE#Optional syntax: 2.4*x+3.2#NEWLINE#"},
{12,symexecute,"The execute statement reads the content of a file and execute all statements.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: execute \"savedfile\"#NEWLINE#"},
{13,syminput,"The input statement either changes or shows the how numeral input is interpreted.#NEWLINE#Possible input systems are: binary, octal, decimal and hexadecimal. Default is#NEWLINE#decimal. To use positional systems with other bases specify the base number.#NEWLINE#Numeral output system can be modified using the output statement.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: input hexadecimal#NEWLINE#Syntax: input 4#NEWLINE#"},
{14,symhelp,"The help statement can be used to display help about topics and statements.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: help variables#NEWLINE#"},
{15,symoutput,"The output statement either changes or shows the how numeral output is shown.#NEWLINE#Possible output systems are: binary, octal, decimal and hexadecimal. Default#NEWLINE#is decimal. To use positional systems with other bases specify the base number.#NEWLINE#Numeral input system can be modified using the input statement.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: output octal#NEWLINE#"},
{16,symlist,"No description is available for the list statement.#NEWLINE#"},
{17,symshow,"The show statement displays the content of a file.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: show \"filetosee\"#NEWLINE#"},
{18,symload,"The load statement retrieves a set of defined variables and functions from#NEWLINE#a file. Variables and functions can be saved using the save statement.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: load \"savedwork\"#NEWLINE#"},
{19,symsave,"The save statement saves defined variables and functions to a file in a#NEWLINE#plain text format. Saved variables and functions can be retrieved using#NEWLINE#the load statement.#NEWLINE# #SYNTAXHIGHLIGHT#Syntax: save \"worktokeep\"#NEWLINE#"},
{20,symversion,"Show which version of amath is running.#NEWLINE#"},
{21,symmem,"Show internal memory usage together with maximum usage.#NEWLINE#"},
{22,symvariable,"The variable statement shows a list of variables in memory.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: variables#NEWLINE##NORMALTEXT#optional syntax: vars#NEWLINE#"},
{23,symexit,"The exit statement shuts down amath.#NEWLINE##SYNTAXHIGHLIGHT#Syntax: exit#NEWLINE#"},
{24,syme,"Euler's number is base of the exponential function which equals its own#NEWLINE#derivative. It is approximately equal to 2.71828.#NEWLINE##SYNTAXHIGHLIGHT#Example: ln(e)#NEWLINE#"},
{25,sympi,"Pi is the ratio of the circumference of a circle to its diameter. Being an#NEWLINE#irrational number, pi cannot be expressed exactly as a common fraction.#NEWLINE#The value of pi is commonly approximated as #SYNTAXHIGHLIGHT#3.14159#NORMALTEXT#.#NEWLINE#"},
{26,symi,"The imaginary unit is denoted and commonly referred to as i.#NEWLINE#The imaginary unit is a number, which when multiplied#NEWLINE#by itself gives -1.#NEWLINE#"},
{27,symins,"No help is available for the ins variable#NEWLINE#"},
{28,symbin,"No help is available for the binary keyword#NEWLINE"},
{29,symoct,"No help is available for the octal keyword#NEWLINE"},
{30,symdec,"No help is available for the decimal keyword#NEWLINE"},
{31,symhex,"No help is available for the hexadecimal keyword#NEWLINE"},