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// // Programmer: Craig Stuart Sapp <craig@ccrma.stanford.edu> // Creation Date: Thu Jan 14 16:39:15 PST 1999 // Last Modified: Thu Jan 14 16:56:37 PST 1999 // Filename: ...improv/examples/byteTable/bytetable.cpp // Syntax: C++; improv // $Smake: g++ -O3 -o %b -Iinclude/sig %f -Llib -lsig && strip %b // // Description: Prints a table of the number-base equivalents // for one byte of decimal, hexadecimal and binary // number systems. The negative version will print // the two's compliment values for negative numbers // which are the common representation for computers // to use when dealing with negative numbers. // #include "Options.h" #include <stdlib.h> #include <ctype.h> #ifndef OLDCPP #include <iostream> #include <iomanip> using namespace std; #else #include <iostream.h> #include <iomanip.h> #endif typedef unsigned char uchar; #define PLAIN_STYLE 0 #define COMMA_STYLE 1 #define ZERO_STYLE 2 // Global variables for command-line options. Options options; // for command-line processing int binaryStyle = PLAIN_STYLE; // for binary number display style int asciiQ = 0; // for printing ASCII eqivalents // function declarations: void checkOptions(Options& opts); void example(void); void printbinarybyte(int number, ostream& out, int style=0); void usage(const char* command); /////////////////////////////////////////////////////////////////////////// int main(int argc, char** argv) { options.setOptions(argc, argv); checkOptions(options); if (options.getBoolean("negative")) { char i = -128; for (int j=-128; j<128; j++, i++) { cout << dec << (int)i << '\t'; if ((binaryStyle & ZERO_STYLE) && (i>0 && i<0x10)) { cout << '0'; } cout << hex << ((int)(uchar)i) << '\t'; printbinarybyte((uchar)i, cout, binaryStyle); if (asciiQ && isprint(i)) { cout << "\t'" << (char)i << "'"; } cout << endl; } } else { for (int k=0; k<256; k++) { cout << dec << k << '\t'; if ((binaryStyle & ZERO_STYLE) && k<0x10) { cout << '0'; } cout << hex << k << '\t'; printbinarybyte(k, cout, binaryStyle); if (asciiQ && isprint(k)) { cout << "\t'" << (char)k << "'"; } cout << endl; } } return 0; } /////////////////////////////////////////////////////////////////////////// ////////////////////////////// // // checkOptions -- // void checkOptions(Options& opts) { opts.define("n|negative=b"); // boolean for twos complement negative opts.define("c|comma=b"); // boolean for adding comma to binary opts.define("z|leading-zeros=b"); // boolean for adding leading zeros opts.define("a|ascii=b"); // boolean for adding ASCII chars opts.define("author=b"); opts.define("version=b"); opts.define("example=b"); opts.define("h|help=b"); opts.process(); if (opts.getBoolean("author")) { cout << "Written by Craig Stuart Sapp, " "craig@ccrma.stanford.edu, January 1999" << endl; exit(0); } else if (opts.getBoolean("version")) { cout << "bytetable, version 1.0 (14 Jan 1999)\n" "compiled: " << __DATE__ << endl; exit(0); } else if (opts.getBoolean("help")) { usage(opts.getCommand()); exit(0); } else if (opts.getBoolean("example")) { example(); exit(0); } // determine output style variables if (opts.getBoolean("comma")) { binaryStyle |= COMMA_STYLE; } if (opts.getBoolean("leading-zeros")) { binaryStyle |= ZERO_STYLE; } if (opts.getBoolean("ascii")) { asciiQ = 1; } } ////////////////////////////// // // example -- shows various command-line option calls to program. // void example(void) { cout << "\n" "# display a table of dec/hex/binary values for one byte\n" "bytetable\n" "\n" "# display a table of dec/hex/binary using the signed range\n" "bytetable -n\n" "\n" "# display a table of dec/hex/binary filling in empty digits\n" "bytetable -z\n" "\n" "# display a table of dec/hex/binary adding a comma in the binaries\n" "bytetable -c\n" "\n" << endl; } ////////////////////////////// // // printbinarybyte -- prints the number in binary form with no // leading zeros. // void printbinarybyte(int number, ostream& out, int style) { unsigned long value = (unsigned long) number; int flag = 0; if (binaryStyle & ZERO_STYLE) { flag = 1; } for (int i=0; i<8; i++) { if (value & (1 << (7-i))) { flag = 1; } if (flag) { if (value & (1 << (7-i))) { out << '1'; } else { out << '0'; } if ((i==3) && (binaryStyle & COMMA_STYLE)) { out << ','; } } } if (flag == 0 && !(binaryStyle & ZERO_STYLE)) { out << '0'; } } ////////////////////////////// // // usage -- how to run this program from the command-line. // void usage(const char* command) { cout << "\n" "Print a number-conversion table for one byte\n" "\n" "Usage: " << command << " [-a][-c][-n][-z] number(s)\n" "\n" "Options:\n" " -a = add a column of printable ASCII character equivalents\n" " -c = add a comma in the middle of binary numbers\n" " -n = print a table which includes the negative numbers\n" " -z = fill in empty digits for binary and hex numbers\n" " --options = list all options, default values, and aliases\n" "\n" << endl; } // md5sum: 8c1d55bfcbc2bc3608d9838536d515ae bytetable.cpp [20050403]