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      1 /*
      2  * Copyright (C) 2008 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 package dot.junit.opcodes.rem_int_lit8;
     18 
     19 import dot.junit.DxTestCase;
     20 import dot.junit.DxUtil;
     21 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_1;
     22 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_2;
     23 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_3;
     24 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_4;
     25 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_5;
     26 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_6;
     27 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_7;
     28 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_8;
     29 import dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_9;
     30 
     31 public class Test_rem_int_lit8 extends DxTestCase {
     32 
     33     /**
     34      * @title Arguments = 8, 4
     35      */
     36     public void testN1() {
     37         T_rem_int_lit8_1 t = new T_rem_int_lit8_1();
     38         assertEquals(0, t.run(8));
     39     }
     40 
     41     /**
     42      * @title Arguments = 123, 4
     43      */
     44     public void testN2() {
     45         T_rem_int_lit8_1 t = new T_rem_int_lit8_1();
     46         assertEquals(3, t.run(123));
     47     }
     48 
     49     /**
     50      * @title Dividend = 0
     51      */
     52     public void testN3() {
     53         T_rem_int_lit8_1 t = new T_rem_int_lit8_1();
     54         assertEquals(0, t.run(0));
     55     }
     56 
     57     /**
     58      * @title Dividend is negative
     59      */
     60     public void testN4() {
     61         T_rem_int_lit8_1 t = new T_rem_int_lit8_1();
     62         assertEquals(-2, t.run(-10));
     63     }
     64 
     65     /**
     66      * @title Divisor is negative
     67      */
     68     public void testN5() {
     69         T_rem_int_lit8_2 t = new T_rem_int_lit8_2();
     70         assertEquals(0, t.run(123));
     71     }
     72 
     73     /**
     74      * @title Both Dividend and divisor are negative
     75      */
     76     public void testN6() {
     77         T_rem_int_lit8_3 t = new T_rem_int_lit8_3();
     78         assertEquals(-3, t.run(-123));
     79     }
     80 
     81     /**
     82      * @title Arguments = Byte.MIN_VALUE, -1
     83      */
     84     public void testB1() {
     85         T_rem_int_lit8_5 t = new T_rem_int_lit8_5();
     86         assertEquals(0, t.run(Byte.MIN_VALUE));
     87     }
     88 
     89     /**
     90      * @title Arguments = Byte.MIN_VALUE, 1
     91      */
     92     public void testB2() {
     93         T_rem_int_lit8_6 t = new T_rem_int_lit8_6();
     94         assertEquals(0, t.run(Byte.MIN_VALUE));
     95     }
     96 
     97     /**
     98      * @title Arguments = Byte.MAX_VALUE, 1
     99      */
    100     public void testB3() {
    101         T_rem_int_lit8_6 t = new T_rem_int_lit8_6();
    102         assertEquals(0, t.run(Byte.MAX_VALUE));
    103     }
    104 
    105     /**
    106      * @title Arguments = Short.MIN_VALUE, 127
    107      */
    108     public void testB4() {
    109         T_rem_int_lit8_7 t = new T_rem_int_lit8_7();
    110         assertEquals(-2, t.run(Short.MIN_VALUE));
    111     }
    112 
    113     /**
    114      * @title Arguments = 1, 127
    115      */
    116     public void testB5() {
    117         T_rem_int_lit8_7 t = new T_rem_int_lit8_7();
    118         assertEquals(1, t.run(1));
    119     }
    120 
    121     /**
    122      * @title Arguments = 1, -128
    123      */
    124     public void testB6() {
    125         T_rem_int_lit8_8 t = new T_rem_int_lit8_8();
    126         assertEquals(1, t.run(1));
    127     }
    128 
    129     /**
    130      * @title Divisor is 0
    131      */
    132     public void testE1() {
    133         T_rem_int_lit8_9 t = new T_rem_int_lit8_9();
    134         try {
    135             t.run(1);
    136             fail("expected ArithmeticException");
    137         } catch (ArithmeticException ae) {
    138             // expected
    139         }
    140     }
    141 
    142     /**
    143      * @constraint A23
    144      * @title number of registers
    145      */
    146     public void testVFE1() {
    147         try {
    148             Class.forName("dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_10");
    149             fail("expected a verification exception");
    150         } catch (Throwable t) {
    151             DxUtil.checkVerifyException(t);
    152         }
    153     }
    154 
    155 
    156 
    157     /**
    158      * @constraint B1
    159      * @title types of arguments - int, double
    160      */
    161     public void testVFE2() {
    162         try {
    163             Class.forName("dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_11");
    164             fail("expected a verification exception");
    165         } catch (Throwable t) {
    166             DxUtil.checkVerifyException(t);
    167         }
    168     }
    169 
    170     /**
    171      * @constraint B1
    172      * @title types of arguments - long, int
    173      */
    174     public void testVFE3() {
    175         try {
    176             Class.forName("dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_12");
    177             fail("expected a verification exception");
    178         } catch (Throwable t) {
    179             DxUtil.checkVerifyException(t);
    180         }
    181     }
    182 
    183     /**
    184      * @constraint B1
    185      * @title types of arguments - reference, int
    186      */
    187     public void testVFE4() {
    188         try {
    189             Class.forName("dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_13");
    190             fail("expected a verification exception");
    191         } catch (Throwable t) {
    192             DxUtil.checkVerifyException(t);
    193         }
    194     }
    195 
    196     /**
    197      * @constraint B1
    198      * @title Types of arguments - float, int. The verifier checks that ints
    199      * and floats are not used interchangeably.
    200      */
    201     public void testVFE5() {
    202         try {
    203             Class.forName("dot.junit.opcodes.rem_int_lit8.d.T_rem_int_lit8_4");
    204             fail("expected a verification exception");
    205         } catch (Throwable t) {
    206             DxUtil.checkVerifyException(t);
    207         }
    208     }
    209 
    210 }
    211