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path: root/src/options.cpp
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#include "options.h"

#include "config.h"

#include "unitnumber.h"
#include "unitparser.h"
#include "number.h"
#include "lexer.h"
#include "parser.h"

#include <bu/streamstack.h>
#include <bu/sio.h>
#include <stdlib.h>

Options::Options( int argc, char *argv[] ) :
    iScale( 0 ),
    iRadix( 10 )
{
    addOption( iRadix, 'r', "radix",
        Bu::String("Set the radix (default: %1)").arg( iRadix ) );
    addOption( iScale, 's', "scale",
        Bu::String("Set the scale (default: %1)").arg( iScale ) );
    addOption( Bu::slot(this, &Options::selfTest), "self-test",
        "Run a series of tests to ensure everything is working correctly.");
    addOption( Bu::slot(this, &Options::textPrimes), "text-primes",
        "Generate primes in base 36 that only have digits > 9 in them.");
    addOption( Bu::slot(this, &Options::isPrime), 'p', "is-prime",
        "Tests every parameter after to see if it is prime then prints out "
        "the ones that are prime.  Set radix first.");
    addOption( Bu::slot(this, &Options::convert), 'c', "convert",
        "Convert the provided number to the given radix in the format "
        "number:to-radix or from-radix:number:to-radix.  The radix should "
        "be provided in base-10");
    addOption( Bu::slot(this, &Options::execute), 'e', "execute",
        "Execute the next parameters as an equation and print the result. "
        "If you want a different scale or radix then set them first. This will "
        "use all remaining parameters as the equation (you may wish to quote "
        "your equation to prevent special characters from being interpreted by "
        "your shell).");
    addOption( Bu::slot(this, &Options::sum), "sum",
        "Read numbers from standard input and sum them, output the result.");
    addOption( Bu::slot(this, &Options::version), 'v', "version",
        "Show the version string ('" CLIC_VERSION_STR "')");
    addHelpOption('h', "help", "This help");

    parse( argc, argv );
}

Options::~Options()
{
}

int Options::selfTest( Bu::StringArray )
{
    UnitNumber().run();
    UnitParser().run();

    exit( 0 );
    return 0;
}

bool hasDigits( const Bu::String &s )
{
    for( Bu::String::const_iterator i = s.begin(); i; i++ )
    {
        if( *i >= '0' && *i <= '9' )
            return true;
    }
    return false;
}

int Options::textPrimes( Bu::StringArray aArgs )
{
    Number tst( 0, 36 );
    Number max( 0, 36 );
    Number j( 0, 36 );
    Number one( 0, 36 );
    Number fact( 0, 36 );
    one = "1";
    fact = "2";
    if( aArgs.getSize() >= 2 )
        tst = aArgs[1];
    else
        tst = "1";

    for(;; tst = tst + one )
    {
        if( hasDigits( tst.toString() ) )
            continue;

        max = tst / fact;
        bool bPrime = true;
        for( j = "2"; j < max; j = j + one )
        {
            if( (tst%j).isZero() )
            {
                bPrime = false;
                break;
            }
        }

        if( bPrime )
        {
            Bu::println("%1").arg( tst );
        }
    }
    
    exit( 0 );
    return 0;
}

int Options::isPrime( Bu::StringArray aArgs )
{
    Number tst( 0, iRadix );
    Number max( 0, iRadix );
    Number j( 0, iRadix );
    Number one( 0, iRadix );
    Number fact( 0, iRadix );
    one = "1";
    fact = "2";

    for( Bu::StringArray::iterator i = aArgs.begin()+1; i; i++ )
    {
        tst = *i;
        max = tst / fact;
        bool bPrime = true;
        for( j = "2"; j < max; j = j + one )
        {
            if( (tst%j).isZero() )
            {
                bPrime = false;
                break;
            }
        }

        if( bPrime )
        {
            Bu::println("%1").arg( tst );
        }
    }

    exit( 0 );
    return aArgs.getSize();
}

int Options::convert( Bu::StringArray aArgs )
{
    for( Bu::StringArray::iterator i = aArgs.begin()+1; i; i++ )
    {
        Bu::StringList lBits = (*i).split(':');
        if( lBits.getSize() < 2 || lBits.getSize() > 3 )
            throw Bu::ExceptionBase("Invalid format");
        
        int iFromRadix = iRadix;
        int iToRadix;
        Number n;
        if( lBits.getSize() == 2 )
        {
            iToRadix = strtol( lBits.last().getStr(), 0, 10 );
            n = Number( lBits.first(), 0, iFromRadix );
        }
        else if( lBits.getSize() == 3 )
        {
            iFromRadix = strtol( lBits.first().getStr(), 0, 10 );
            iToRadix = strtol( lBits.last().getStr(), 0, 10 );
            n = Number( *(lBits.begin()+1), 0, iFromRadix );
        }
        Bu::println("%1").arg( n.toString() );
        Bu::println("%1").arg( n.toRadix( iToRadix ).toString() );
    }

    exit( 0 );
    return 0;
}

int Options::execute( Bu::StringArray aArgs )
{
    if( aArgs.getSize() == 1 )
    {
        Bu::println("Must provide an equation to execute.");
        exit( 0 );
        return 0;
    }
    Bu::MemBuf mbIn(aArgs[1]);
    mbIn.setPos( mbIn.getSize() );
    for( int j = 2; j < aArgs.getSize(); j++ )
    {
        mbIn.write(" ");
        mbIn.write( aArgs[j] );
    }
//    Bu::println("eq: '''%1'''").arg( mbIn.getString() );
    mbIn.setPos( 0 );
    Bu::MemBuf mbOut;
    Lexer lex( mbIn );
    lex.setScale( iScale );
    lex.setRadix( iRadix );
    Parser parser( lex, mbOut );
    parser.parse();
    Bu::print( mbOut.getString() );
    exit( 0 );
    return aArgs.getSize();
}

int Options::sum( Bu::StringArray aArgs )
{
    Number sum( iScale, iRadix );
    while( !Bu::sioRaw.isEos() )
    {
        Bu::String s = Bu::sioRaw.readLine();
        if( s.isEmpty() )
            break;
        Number n( s, iScale, iRadix );
        sum = sum + n;
    }
    Bu::println("%1").arg( sum );
    exit( 0 );
    return 0;
}

int Options::version( Bu::StringArray aArgs )
{
    Bu::println( CLIC_VERSION_STR );
    exit( 0 );
    return 0;
}