X-Git-Url: https://ginac.de/CLN/cln.git//cln.git?a=blobdiff_plain;f=tests%2Ftest_MI_mul.cc;h=f06ea2b46cee65fa79132f38cc51704a6bff8bf2;hb=8291a5fb2a13f68c028f5fef3fd2d185b555063a;hp=0b733b8ea13c4e60e9e9ab54ac027a0289081bf7;hpb=dd9e0f894eec7e2a8cf85078330ddc0a6639090b;p=cln.git diff --git a/tests/test_MI_mul.cc b/tests/test_MI_mul.cc index 0b733b8..f06ea2b 100644 --- a/tests/test_MI_mul.cc +++ b/tests/test_MI_mul.cc @@ -7,7 +7,7 @@ int test_MI_mul (int iterations) // Check commutativity. for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); - cl_modint_ring R = cl_find_modint_ring(m); + cl_modint_ring R = find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_MI b = R->canonhom(testrandom_I()); ASSERT3(a*b == b*a, m,a,b); @@ -15,7 +15,7 @@ int test_MI_mul (int iterations) // Check associativity. for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); - cl_modint_ring R = cl_find_modint_ring(m); + cl_modint_ring R = find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_MI b = R->canonhom(testrandom_I()); cl_MI c = R->canonhom(testrandom_I()); @@ -24,7 +24,7 @@ int test_MI_mul (int iterations) // Check second binomial formula. for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); - cl_modint_ring R = cl_find_modint_ring(m); + cl_modint_ring R = find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_MI b = R->canonhom(testrandom_I()); ASSERT3((a+b)*(a-b) == a*a-b*b, m,a,b); @@ -32,7 +32,7 @@ int test_MI_mul (int iterations) // Check distributive formula. for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); - cl_modint_ring R = cl_find_modint_ring(m); + cl_modint_ring R = find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_MI b = R->canonhom(testrandom_I()); cl_MI c = R->canonhom(testrandom_I()); @@ -41,7 +41,7 @@ int test_MI_mul (int iterations) // Check special cases 0, 1, -1. for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); - cl_modint_ring R = cl_find_modint_ring(m); + cl_modint_ring R = find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_MI z = R->zero(); cl_MI o = R->one();