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299 lines
6.4 KiB
299 lines
6.4 KiB
//----------------------------------------------------------------------------
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// File trans.c
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// Author Timothy David Corrie Jr. ([email protected])
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// Copyright (C) 1995-96 Microsoft
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// Date 01-16-95
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//
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//
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// Description
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//
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// Contains sin, cos and tan for rationals
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//
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//
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//----------------------------------------------------------------------------
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#if defined( DOS )
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#include <dosstub.h>
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#else
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#include <windows.h>
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#endif
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#include <ratpak.h>
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void scalerat( IN OUT PRAT *pa, IN ANGLE_TYPE angletype )
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{
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switch ( angletype )
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{
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case ANGLE_RAD:
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scale2pi( pa );
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break;
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case ANGLE_DEG:
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scale( pa, rat_360 );
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break;
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case ANGLE_GRAD:
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scale( pa, rat_400 );
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break;
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}
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}
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//-----------------------------------------------------------------------------
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//
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// FUNCTION: sinrat, _sinrat
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//
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// ARGUMENTS: x PRAT representation of number to take the sine of
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//
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// RETURN: sin of x in PRAT form.
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//
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// EXPLANATION: This uses Taylor series
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//
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// n
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// ___ 2j+1 j
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// \ ] X -1
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// \ ---------
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// / (2j+1)!
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// /__]
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// j=0
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// or,
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// n
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// ___ 2
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// \ ] -X
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// \ thisterm ; where thisterm = thisterm * ---------
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// / j j+1 j (2j)*(2j+1)
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// /__]
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// j=0
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//
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// thisterm = X ; and stop when thisterm < precision used.
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// 0 n
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//
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//-----------------------------------------------------------------------------
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void _sinrat( PRAT *px )
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{
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CREATETAYLOR();
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DUPRAT(pret,*px);
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DUPRAT(thisterm,*px);
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DUPNUM(n2,num_one);
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xx->pp->sign *= -1;
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do {
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NEXTTERM(xx,INC(n2) DIVNUM(n2) INC(n2) DIVNUM(n2));
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} while ( !SMALL_ENOUGH_RAT( thisterm ) );
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DESTROYTAYLOR();
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// Since *px might be epsilon above 1 or below -1, due to TRIMIT we need
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// this trick here.
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inbetween(px,rat_one);
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// Since *px might be epsilon near zero we must set it to zero.
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if ( rat_le(*px,rat_smallest) && rat_ge(*px,rat_negsmallest) )
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{
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DUPRAT(*px,rat_zero);
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}
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}
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void sinrat( PRAT *px )
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{
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scale2pi(px);
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_sinrat(px);
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}
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void sinanglerat( IN OUT PRAT *pa, IN ANGLE_TYPE angletype )
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{
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scalerat( pa, angletype );
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switch ( angletype )
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{
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case ANGLE_DEG:
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if ( rat_gt( *pa, rat_180 ) )
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{
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subrat(pa,rat_360);
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}
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divrat( pa, rat_180 );
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mulrat( pa, pi );
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break;
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case ANGLE_GRAD:
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if ( rat_gt( *pa, rat_200 ) )
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{
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subrat(pa,rat_400);
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}
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divrat( pa, rat_200 );
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mulrat( pa, pi );
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break;
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}
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_sinrat( pa );
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}
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//-----------------------------------------------------------------------------
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//
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// FUNCTION: cosrat, _cosrat
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//
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// ARGUMENTS: x PRAT representation of number to take the cosine of
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//
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// RETURN: cosin of x in PRAT form.
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//
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// EXPLANATION: This uses Taylor series
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//
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// n
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// ___ 2j j
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// \ ] X -1
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// \ ---------
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// / (2j)!
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// /__]
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// j=0
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// or,
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// n
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// ___ 2
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// \ ] -X
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// \ thisterm ; where thisterm = thisterm * ---------
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// / j j+1 j (2j)*(2j+1)
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// /__]
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// j=0
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//
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// thisterm = 1 ; and stop when thisterm < precision used.
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// 0 n
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//
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//-----------------------------------------------------------------------------
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void _cosrat( PRAT *px )
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{
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CREATETAYLOR();
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pret->pp=longtonum( 1L, nRadix );
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pret->pq=longtonum( 1L, nRadix );
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DUPRAT(thisterm,pret)
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n2=longtonum(0L, nRadix);
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xx->pp->sign *= -1;
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do {
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NEXTTERM(xx,INC(n2) DIVNUM(n2) INC(n2) DIVNUM(n2));
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} while ( !SMALL_ENOUGH_RAT( thisterm ) );
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DESTROYTAYLOR();
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// Since *px might be epsilon above 1 or below -1, due to TRIMIT we need
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// this trick here.
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inbetween(px,rat_one);
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// Since *px might be epsilon near zero we must set it to zero.
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if ( rat_le(*px,rat_smallest) && rat_ge(*px,rat_negsmallest) )
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{
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DUPRAT(*px,rat_zero);
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}
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}
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void cosrat( PRAT *px )
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{
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scale2pi(px);
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_cosrat(px);
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}
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void cosanglerat( IN OUT PRAT *pa, IN ANGLE_TYPE angletype )
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{
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scalerat( pa, angletype );
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switch ( angletype )
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{
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case ANGLE_DEG:
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if ( rat_gt( *pa, rat_180 ) )
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{
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PRAT ptmp=NULL;
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DUPRAT(ptmp,rat_360);
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subrat(&ptmp,*pa);
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destroyrat(*pa);
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*pa=ptmp;
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}
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divrat( pa, rat_180 );
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mulrat( pa, pi );
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break;
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case ANGLE_GRAD:
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if ( rat_gt( *pa, rat_200 ) )
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{
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PRAT ptmp=NULL;
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DUPRAT(ptmp,rat_400);
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subrat(&ptmp,*pa);
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destroyrat(*pa);
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*pa=ptmp;
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}
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divrat( pa, rat_200 );
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mulrat( pa, pi );
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break;
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}
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_cosrat( pa );
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}
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//-----------------------------------------------------------------------------
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//
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// FUNCTION: tanrat, _tanrat
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//
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// ARGUMENTS: x PRAT representation of number to take the tangent of
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//
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// RETURN: tan of x in PRAT form.
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//
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// EXPLANATION: This uses sinrat and cosrat
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//
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//-----------------------------------------------------------------------------
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void _tanrat( PRAT *px )
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{
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PRAT ptmp=NULL;
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DUPRAT(ptmp,*px);
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_sinrat(px);
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_cosrat(&ptmp);
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if ( zerrat( ptmp ) )
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{
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destroyrat(ptmp);
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throw( CALC_E_DOMAIN );
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}
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divrat(px,ptmp);
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destroyrat(ptmp);
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}
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void tanrat( PRAT *px )
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{
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scale2pi(px);
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_tanrat(px);
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}
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void tananglerat( IN OUT PRAT *pa, IN ANGLE_TYPE angletype )
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{
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scalerat( pa, angletype );
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switch ( angletype )
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{
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case ANGLE_DEG:
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if ( rat_gt( *pa, rat_180 ) )
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{
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subrat(pa,rat_180);
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}
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divrat( pa, rat_180 );
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mulrat( pa, pi );
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break;
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case ANGLE_GRAD:
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if ( rat_gt( *pa, rat_200 ) )
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{
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subrat(pa,rat_200);
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}
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divrat( pa, rat_200 );
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mulrat( pa, pi );
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break;
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}
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_tanrat( pa );
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}
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