/* ** -*- C -*- ** ** testSinh.c ** Made by Bruno JOFRET ** ** Started on Fri Dec 8 15:06:16 2006 jofret ** Last update Mon Oct 22 13:39:10 2007 bruno ** ** Copyright INRIA 2006 */ #include "testSinh.h" void ssinhsTest() { printf(">> Float scalar\n"); printf("ssinhs(0) = %f\n", ssinhs((float) 0)); printf("ssinhs(PI) = %f\n", ssinhs(PI)); printf("ssinhs(PI/2) = %f\n", ssinhs(PI/2)); printf("ssinhs(PI/3) = %f\n", ssinhs(PI/3)); printf("ssinhs(PI/4) = %f\n", ssinhs(PI/4)); printf("ssinhs(PI/6) = %f\n", ssinhs(PI/6)); printf("ssinhs(-PI) = %f\n", ssinhs(-PI)); printf("ssinhs(-PI/2) = %f\n", ssinhs(-PI/2)); printf("ssinhs(-PI/3) = %f\n", ssinhs(-PI/3)); printf("ssinhs(-PI/4) = %f\n", ssinhs(-PI/4)); printf("ssinhs(-PI/6) = %f\n", ssinhs(-PI/6)); } void dsinhsTest() { printf(">> Double scalar\n"); printf("dsinhs(0) = %e\n", dsinhs((double) 0)); printf("dsinhs(PI) = %e\n", dsinhs(PI)); printf("dsinhs(PI/2) = %e\n", dsinhs(PI/2)); printf("dsinhs(PI/3) = %e\n", dsinhs(PI/3)); printf("dsinhs(PI/4) = %e\n", dsinhs(PI/4)); printf("dsinhs(PI/6) = %e\n", dsinhs(PI/6)); printf("dsinhs(-PI) = %e\n", dsinhs(-PI)); printf("dsinhs(-PI/2) = %e\n", dsinhs(-PI/2)); printf("dsinhs(-PI/3) = %e\n", dsinhs(-PI/3)); printf("dsinhs(-PI/4) = %e\n", dsinhs(-PI/4)); printf("dsinhs(-PI/6) = %e\n", dsinhs(-PI/6)); } void csinhsTest(void) { floatComplex pi_pi = FloatComplex(PI, PI); floatComplex pi_2_pi_2 = FloatComplex(PI/2, PI/2); floatComplex pi_2_pi_3 = FloatComplex(PI/2, PI/3); floatComplex pi_2_pi_4 = FloatComplex(PI/2, PI/4); floatComplex out; printf(">> Float Complex scalar\n"); out = csinhs(pi_pi); printf("csinhs(PI + I*PI) = %f + I * %f\n", creals(out), cimags(out)); out = csinhs(pi_2_pi_2); printf("csinhs(PI/2 + I*PI/2) = %f + I * %f\n", creals(out), cimags(out)); out = csinhs(pi_2_pi_3); printf("csinhs(PI/2 + I*PI/3) = %f + I * %f\n", creals(out), cimags(out)); out = csinhs(pi_2_pi_4); printf("csinhs(PI/2 + I*PI/4) = %f + I * %f\n", creals(out), cimags(out)); } void zsinhsTest(void) { doubleComplex pi_pi = DoubleComplex(PI, PI); doubleComplex pi_2_pi_2 = DoubleComplex(PI/2, PI/2); doubleComplex pi_2_pi_3 = DoubleComplex(PI/2, PI/3); doubleComplex pi_2_pi_4 = DoubleComplex(PI/2, PI/4); doubleComplex out; printf(">> Double Complex scalar\n"); out = zsinhs(pi_pi); printf("zsinhs(PI + I*PI) = %e + I * %e\n", zreals(out), zimags(out)); out = zsinhs(pi_2_pi_2); printf("zsinhs(PI/2 + I*PI/2) = %e + I * %e\n", zreals(out), zimags(out)); out = zsinhs(pi_2_pi_3); printf("zsinhs(PI/2 + I*PI/3) = %e + I * %e\n", zreals(out), zimags(out)); out = zsinhs(pi_2_pi_4); printf("zsinhs(PI/2 + I*PI/4) = %e + I * %e\n", zreals(out), zimags(out)); } void ssinhaTest(void) { float out[5]; float in[5] = {PI, PI/2, PI/3, PI/4, PI/6}; int i = 0; printf(">> Float array\n"); ssinha(in, 5, out); for (i = 0 ; i < 5 ; ++i) printf("ssinha(array) = %f\n", out[i]); } void dsinhaTest(void) { double out[5]; double in[5] = {PI, PI/2, PI/3, PI/4, PI/6}; int i = 0; printf(">> Double Array\n"); dsinha(in, 5, out); for (i = 0 ; i < 5 ; ++i) printf("ssinha(array) = %f\n", out[i]); } void csinhaTest(void) { floatComplex in[4]; floatComplex out[4]; int i = 0; in[0] = FloatComplex(PI, PI); in[1] = FloatComplex(PI/2, PI/2); in[2] = FloatComplex(PI/2, PI/3); in[3] = FloatComplex(PI/2, PI/4); csinha(in, 4, out); printf(">> Float Complex Array\n"); for (i = 0 ; i < 4 ; ++i) printf("csinha(array) = %e + I * %e\n", creals(out[i]), cimags(out[i])); } void zsinhaTest(void) { doubleComplex in[4]; doubleComplex out[4]; int i = 0; in[0] = DoubleComplex(PI, PI); in[1] = DoubleComplex(PI/2, PI/2); in[2] = DoubleComplex(PI/2, PI/3); in[3] = DoubleComplex(PI/2, PI/4); zsinha(in, 4, out); printf(">> Double Complex Array\n"); for (i = 0 ; i < 4 ; ++i) printf("zsinha(array) = %e + I * %e\n", zreals(out[i]), zimags(out[i])); } int testSinh() { printf("\n>>>> Hyperbolic Sine Tests\n"); ssinhsTest(); dsinhsTest(); csinhsTest(); zsinhsTest(); ssinhaTest(); dsinhaTest(); csinhaTest(); zsinhaTest(); return 0; } int main() { assert(testSinh() == 0); return 0; }