Test_shr_long.rar_verify

package dot.junit.opcodes.shr_long; import dot.junit.DxTestCase; import dot.junit.DxUtil; import dot.junit.opcodes.shr_long.d.T_shr_long_1; import dot.junit.opcodes.shr_long.d.T_shr_long_7; public class Test_shr_long extends DxTestCase { /** * @title Arguments = 40000000000l, 3 */ public void testN1() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(5000000000l, t.run(40000000000l, 3)); } /** * @title Arguments = 40000000000l, 1 */ public void testN2() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(20000000000l, t.run(40000000000l, 1)); } /** * @title Arguments = -40000000000l, 1 */ public void testN3() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(-20000000000l, t.run(-40000000000l, 1)); } /** * @title Arguments = 1 & -1 */ public void testN4() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(0l, t.run(1l, -1)); } /** * @title Verify that shift distance is actually in range 0 to 64. */ public void testN5() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(32, t.run(65l, 65)); } /** * @title Types of arguments - double, int. Dalvik doens't distinguish 64-bits types internally, * so this operation of double and int makes no sense but shall not crash the VM. */ public void testN6() { T_shr_long_7 t = new T_shr_long_7(); try { t.run(4.67d, 1); } catch (Throwable e) { } } /** * @title Arguments = 0 & -1 */ public void testB1() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(0l, t.run(0l, -1)); } /** * @title Arguments = 1 & 0 */ public void testB2() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(1l, t.run(1l, 0)); } /** * @title Arguments = Long.MAX_VALUE & 1 */ public void testB3() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(0x3FFFFFFFFFFFFFFFl, t.run(Long.MAX_VALUE, 1)); } /** * @title Arguments = Long.MIN_VALUE & 1 */ public void testB4() { T_shr_long_1 t = new T_shr_long_1(); assertEquals(0xc000000000000000l, t.run(Long.MIN_VALUE, 1)); } /** * @constraint A24 * @title number of registers */ public void testVFE1() { try { Class.forName("dot.junit.opcodes.shr_long.d.T_shr_long_2"); fail("expected a verification exception"); } catch (Throwable t) { DxUtil.checkVerifyException(t); } } /** * @constraint B1 * @title types of arguments - long, double */ public void testVFE2() { try { Class.forName("dot.junit.opcodes.shr_long.d.T_shr_long_3"); fail("expected a verification exception"); } catch (Throwable t) { DxUtil.checkVerifyException(t); } } /** * @constraint B1 * @title types of arguments - int, int */ public void testVFE3() { try { Class.forName("dot.junit.opcodes.shr_long.d.T_shr_long_4"); fail("expected a verification exception"); } catch (Throwable t) { DxUtil.checkVerifyException(t); } } /** * @constraint B1 * @title types of arguments - float, int */ public void testVFE4() { try { Class.forName("dot.junit.opcodes.shr_long.d.T_shr_long_5"); fail("expected a verification exception"); } catch (Throwable t) { DxUtil.checkVerifyException(t); } } /** * @constraint B1 * @title types of arguments - reference, int */ public void testVFE5() { try { Class.forName("dot.junit.opcodes.shr_long.d.T_shr_long_6"); fail("expected a verification exception"); } catch (Throwable t) { DxUtil.checkVerifyException(t); } } }