Calc Calc is arbitrary precision arithmetic system that uses a C-like language.
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Calc is arbitrary precision arithmetic system that uses a C-like language. Calc is arbitrary precision arithmetic system that uses a C-like language. Calc is useful as a calculator, an algorithm prototype, and as a mathematical research tool.More importantly, calc provides a machine-independent means of computation. Calc comes with a rich set of builtin mathematical and programmatic functions.For example, the following line can be input: 3 * (4 + 1)and the calculator will print: 15Calc as the usual collection of arithmetic operators +, -, /, * as well as ^ exponentiation), % (modulus) and // (integer divide). For example: 3 * 19^43 - 1will produce: 29075426613099201338473141505176993450849249622191102976Notice that calc values can be very large. For example: 2^23209-1will print: 402874115778988778181873329071 ... many digits ... 3779264511The special '.' symbol (called dot), represents the result of the last command expression, if any. This is of great use when a series of partial results are calculated, or when the output mode is changed and the last result needs to be redisplayed. For example, the above result can be modified by typing: . % (2^127-1) and the calculator will print: 39614081257132168796771975167For more complex calculations, variables can be used to save the intermediate results. For example, the result of adding 7 to the previous result can be saved by typing: curds = 15whey = 7 + 2*curdsFunctions can be used in expressions. There are a great number of pre-defined functions. For example, the following will calculate the factorial of the value of 'old': fact(whey)and the calculator prints: 13763753091226345046315979581580902400000000The calculator also knows about complex numbers, so that typing: (2+3i) * (4-3i)cos(.)will print: 17+6i-55.50474777265624667147+193.9265235748927986537iThe calculator can calculate transcendental functions, and accept and display numbers in real or exponential format. For example, typing: config("display", 70)epsilon(1e-70)sin(1)prints: 0.8414709848078965066525023216302989996225630607983710656727517099919104Calc can output values in terms of fractions, octal or hexadecimal. For example: config("mode", "fraction"),(17/19)^23base(16),(19/17)^29will print: 19967568900859523802559065713/2578296279453077272482260672590x9201e65bdbb801eaf403f657efcf863/0x5cd2e2a01291ffd73bee6aa7dcf7d1All numbers are represented as fractions with arbitrarily large numerators and denominators which are always reduced to lowest terms. Real or exponential format numbers can be input and are converted to the equivalent fraction. Hex, binary, or octal numbers can be input by using numbers with leading '0x', '0b' or '0' characters. Complex numbers can be input using a trailing 'i', as in '2+3i'. Strings and characters are input by using single or double quotes. Commands are statements in a C-like language, where each input line is treated as the body of a procedure. Thus the command line can contain variable declarations, expressions, labels, conditional tests, and loops. Assignments to any variable name will automatically define that name as a global variable.The other important thing to know is that all non-assignment expressions which are evaluated are automatically printed. Thus, you can evaluate an expression's value by simply typing it in. Many useful built-in mathematical functions are available. Use the: help builtincommand to list them. You can also define your own functions by using the 'define' keyword, followed by a function declaration very similar to C. define f2(n){ local ans; ans = 1; while (n > 1) ans *= (n -= 2); return ans;} Thus the input: f2(79)will produce; 1009847364737869270905302433221592504062302663202724609375Functions which only need to return a simple expression can be defined using an equals sign, as in the example: define sc(a,b) = a^3 + b^3Thus the input: sc(31, 61)will produce; 256772Variables in functions can be defined as either 'global', 'local', or 'static'. Global variables are common to all functions and the command line, whereas local variables are unique to each function level, and are destroyed when the function returns.Static variables are scoped within single input files, or within functions, and are never destroyed. Variables are not typed at definition time, but dynamically change as they are used. What's New in This Release: · A bug where calling functions with different values of epsilon would return incorrect results was fixed. · A bug were certain typographical errors in interactive mode would cause calc to exit was fixed. · A bug in solve.cal was fixed. · Minor documentation improvements were made. · The Makefile and build process were improved.

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