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/*
* Copyright (C) 2000, Imperial College
*
* This file is part of the Imperial College Exact Real Arithmetic Library.
* See the copyright notice included in the distribution for conditions
* of use.
*/
#include <stdio.h>
#include "real.h"
#include "real-impl.h"
#include "math-lib.h"
static TenXY *nextTensor(Real, Real, int);
static void tanInside();
static void tanOutside();
Real
tan_R(Real x)
{
Real u, v;
Bool xLtEq1, xGtEqNeg1, xLtEq1_and_GtEqNeg1;
static int doneInit = 0;
if (!doneInit) {
registerForceFunc(tanInside, "tanInside", 2);
registerForceFunc(tanOutside, "tanOutside", 2);
doneInit++;
}
/*
if (x->gen.tag.type == VECTOR)
return tan_QZ(x->vec.vec[0], x->vec.vec[1]);
*/
xLtEq1 = ltEq_R_QInt(x, 1, 1);
xGtEqNeg1 = gtEq_R_QInt(x, -1, 1);
xLtEq1_and_GtEqNeg1 = and_B_B(xLtEq1, xGtEqNeg1);
u = (Real) allocCls(tanInside, (void *) x);
u->cls.tag.isSigned = TRUE;
v = (Real) allocCls(tanOutside, (void *) x);
v->cls.tag.isSigned = TRUE;
#ifdef DAVINCI
beginGraphUpdate();
newEdgeToOnlyChild(u, x);
newEdgeToOnlyChild(v, x);
endGraphUpdate();
#endif
/*
* The order of the tests in the alt is not semantically
* significant. The tests are applied in order, so there is a
* very modest performance improvement by putting the -1,1 tests
* before the 999/1000,-999/1000 tests. Also there is a very
* small win by doing the negative test before the positive test.
*/
return realIf(4,
not_B(xLtEq1_and_GtEqNeg1), v,
xLtEq1_and_GtEqNeg1, u,
gtEq_R_QInt(x, 999, 1000), v,
ltEq_R_QInt(x, -999, 1000), v);
}
static TenXY *
nextTensor(Real x, Real y, int n)
{
return (TenXY *) tensor_Int(x, y, 0, 2, -2, 0, 2*n+1, 2*n+1, 2*n+1, 2*n+1);
}
static void
tanInside()
{
Cls *cls, *newCls;
Real x;
ClsData *data;
void stdTensorCont();
cls = (Cls *) POP;
x = (Real) cls->userData;
if ((data = (ClsData *) malloc(sizeof(ClsData))) == NULL)
Error(FATAL, E_INT, "tan_R", "malloc failed");
data->n = 1;
data->x = x;
data->nextTensor = nextTensor;
newCls = allocCls(stdTensorCont, (void *) data);
newCls->tag.isSigned = FALSE;
cls->redirect = tensor_Int(x, (Real) newCls, 1, 1, 1, -1, 0, 1, 0, 1);
#ifdef DAVINCI
beginGraphUpdate();
newEdgeToOnlyChild(newCls, x);
drawEqEdge(cls, cls->redirect);
endGraphUpdate();
#endif
}
static void
tanOutside()
{
Cls *cls;
Real w, x;
cls = (Cls *) POP;
x = (Real) cls->userData;
x = div_R_Int(x, 2);
w = tan_R(x);
cls->redirect = tensor_Int(w, w, 0, -1, 1, 0, 1, 0, 0, 1);
#ifdef DAVINCI
beginGraphUpdate();
drawEqEdge(cls, cls->redirect);
endGraphUpdate();
#endif
}
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