How to use have method of org.assertj.core.api.AtomicReferenceArrayAssert class

Best Assertj code snippet using org.assertj.core.api.AtomicReferenceArrayAssert.have

Source:AssertJAssertions.java Github

copy

Full Screen

...1133 public AbstractIterableAssert containsNull() { return (AbstractIterableAssert) (Object) null; }1134 public AbstractIterableAssert doesNotContainNull() { return (AbstractIterableAssert) (Object) null; }1135 public AbstractIterableAssert are(Condition p0) { return (AbstractIterableAssert) (Object) null; }1136 public AbstractIterableAssert areNot(Condition p0) { return (AbstractIterableAssert) (Object) null; }1137 public AbstractIterableAssert have(Condition p0) { return (AbstractIterableAssert) (Object) null; }1138 public AbstractIterableAssert doNotHave(Condition p0) { return (AbstractIterableAssert) (Object) null; }1139 public AbstractIterableAssert areAtLeastOne(Condition p0) { return (AbstractIterableAssert) (Object) null; }1140 public AbstractIterableAssert areAtLeast(int p0, Condition p1) { return (AbstractIterableAssert) (Object) null; }1141 public AbstractIterableAssert areAtMost(int p0, Condition p1) { return (AbstractIterableAssert) (Object) null; }1142 public AbstractIterableAssert areExactly(int p0, Condition p1) { return (AbstractIterableAssert) (Object) null; }1143 public AbstractIterableAssert haveAtLeastOne(Condition p0) { return (AbstractIterableAssert) (Object) null; }1144 public AbstractIterableAssert haveAtLeast(int p0, Condition p1) { return (AbstractIterableAssert) (Object) null; }1145 public AbstractIterableAssert haveAtMost(int p0, Condition p1) { return (AbstractIterableAssert) (Object) null; }1146 public AbstractIterableAssert haveExactly(int p0, Condition p1) { return (AbstractIterableAssert) (Object) null; }1147 public AbstractIterableAssert hasAtLeastOneElementOfType(Class p0) { return (AbstractIterableAssert) (Object) null; }1148 public AbstractIterableAssert hasOnlyElementsOfType(Class p0) { return (AbstractIterableAssert) (Object) null; }1149 public AbstractIterableAssert doesNotHaveAnyElementsOfTypes(Class[] p0) { return (AbstractIterableAssert) (Object) null; }1150 public AbstractIterableAssert hasOnlyElementsOfTypes(Class[] p0) { return (AbstractIterableAssert) (Object) null; }1151 public AbstractIterableAssert containsAll(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1152 public AbstractIterableAssert usingElementComparator(java.util.Comparator p0) { return (AbstractIterableAssert) (Object) null; }1153 public AbstractIterableAssert usingDefaultElementComparator() { return (AbstractIterableAssert) (Object) null; }1154 public AbstractIterableAssert containsAnyOf(Object[] p0) { return (AbstractIterableAssert) (Object) null; }1155 public AbstractIterableAssert containsAnyElementsOf(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1156 public AbstractListAssert extracting(String p0) { return (AbstractListAssert) (Object) null; }1157 public AbstractListAssert extractingResultOf(String p0) { return (AbstractListAssert) (Object) null; }1158 public AbstractListAssert extractingResultOf(String p0, Class p1) { return (AbstractListAssert) (Object) null; }1159 public AbstractListAssert extracting(String p0, Class p1) { return (AbstractListAssert) (Object) null; }1160 public AbstractListAssert extracting(String[] p0) { return (AbstractListAssert) (Object) null; }1161 public AbstractListAssert extracting(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1162 public AbstractListAssert map(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1163 public AbstractListAssert extracting(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (AbstractListAssert) (Object) null; }1164 public AbstractListAssert map(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (AbstractListAssert) (Object) null; }1165 public AbstractListAssert flatExtracting(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1166 public AbstractListAssert flatMap(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1167 public AbstractListAssert flatExtracting(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (AbstractListAssert) (Object) null; }1168 public AbstractListAssert flatMap(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (AbstractListAssert) (Object) null; }1169 public AbstractListAssert flatExtracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1170 public AbstractListAssert flatMap(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1171 public AbstractListAssert flatExtracting(org.assertj.core.api.iterable.ThrowingExtractor[] p0) { return (AbstractListAssert) (Object) null; }1172 public AbstractListAssert flatMap(org.assertj.core.api.iterable.ThrowingExtractor[] p0) { return (AbstractListAssert) (Object) null; }1173 public AbstractListAssert flatExtracting(String p0) { return (AbstractListAssert) (Object) null; }1174 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1175 public AbstractListAssert map(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1176 public AbstractListAssert flatExtracting(String[] p0) { return (AbstractListAssert) (Object) null; }1177 public AbstractIterableAssert containsExactlyElementsOf(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1178 public AbstractIterableAssert containsOnlyElementsOf(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1179 public AbstractIterableAssert containsOnlyOnceElementsOf(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1180 public AbstractIterableAssert hasSameElementsAs(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1181 public AbstractIterableAssert usingComparatorForElementFieldsWithNames(java.util.Comparator p0, String[] p1) { return (AbstractIterableAssert) (Object) null; }1182 public AbstractIterableAssert usingComparatorForElementFieldsWithType(java.util.Comparator p0, Class p1) { return (AbstractIterableAssert) (Object) null; }1183 public AbstractIterableAssert usingComparatorForType(java.util.Comparator p0, Class p1) { return (AbstractIterableAssert) (Object) null; }1184 public AbstractIterableAssert usingFieldByFieldElementComparator() { return (AbstractIterableAssert) (Object) null; }1185 public AbstractIterableAssert usingRecursiveFieldByFieldElementComparator() { return (AbstractIterableAssert) (Object) null; }1186 public AbstractIterableAssert usingRecursiveFieldByFieldElementComparator(org.assertj.core.api.recursive.comparison.RecursiveComparisonConfiguration p0) { return (AbstractIterableAssert) (Object) null; }1187 public RecursiveComparisonAssert usingRecursiveComparison() { return (RecursiveComparisonAssert) (Object) null; }1188 public RecursiveComparisonAssert usingRecursiveComparison(org.assertj.core.api.recursive.comparison.RecursiveComparisonConfiguration p0) { return (RecursiveComparisonAssert) (Object) null; }1189 public AbstractIterableAssert usingElementComparatorOnFields(String[] p0) { return (AbstractIterableAssert) (Object) null; }1190 public AbstractIterableAssert usingElementComparatorIgnoringFields(String[] p0) { return (AbstractIterableAssert) (Object) null; }1191 public AbstractIterableAssert inHexadecimal() { return (AbstractIterableAssert) (Object) null; }1192 public AbstractIterableAssert inBinary() { return (AbstractIterableAssert) (Object) null; }1193 public AbstractIterableAssert filteredOn(String p0, Object p1) { return (AbstractIterableAssert) (Object) null; }1194 public AbstractIterableAssert filteredOnNull(String p0) { return (AbstractIterableAssert) (Object) null; }1195 public AbstractIterableAssert filteredOn(String p0, org.assertj.core.api.filter.FilterOperator p1) { return (AbstractIterableAssert) (Object) null; }1196 public AbstractIterableAssert filteredOn(Condition p0) { return (AbstractIterableAssert) (Object) null; }1197 public AbstractIterableAssert filteredOn(java.util.function.Function p0, Object p1) { return (AbstractIterableAssert) (Object) null; }1198 public AbstractIterableAssert filteredOnAssertions(java.util.function.Consumer p0) { return (AbstractIterableAssert) (Object) null; }1199 public AbstractAssert first() { return (AbstractAssert) (Object) null; }1200 public AbstractAssert first(InstanceOfAssertFactory p0) { return (AbstractAssert) (Object) null; }1201 public AbstractAssert last() { return (AbstractAssert) (Object) null; }1202 public AbstractAssert last(InstanceOfAssertFactory p0) { return (AbstractAssert) (Object) null; }1203 public AbstractAssert element(int p0) { return (AbstractAssert) (Object) null; }1204 public AbstractAssert element(int p0, InstanceOfAssertFactory p1) { return (AbstractAssert) (Object) null; }1205 public AbstractAssert singleElement() { return (AbstractAssert) (Object) null; }1206 public AbstractAssert singleElement(InstanceOfAssertFactory p0) { return (AbstractAssert) (Object) null; }1207 public AbstractIterableAssert filteredOn(java.util.function.Predicate p0) { return (AbstractIterableAssert) (Object) null; }1208 public AbstractIterableAssert allMatch(java.util.function.Predicate p0) { return (AbstractIterableAssert) (Object) null; }1209 public AbstractIterableAssert allMatch(java.util.function.Predicate p0, String p1) { return (AbstractIterableAssert) (Object) null; }1210 public AbstractIterableAssert allSatisfy(java.util.function.Consumer p0) { return (AbstractIterableAssert) (Object) null; }1211 public AbstractIterableAssert anyMatch(java.util.function.Predicate p0) { return (AbstractIterableAssert) (Object) null; }1212 public AbstractIterableAssert zipSatisfy(Iterable p0, java.util.function.BiConsumer p1) { return (AbstractIterableAssert) (Object) null; }1213 public AbstractIterableAssert anySatisfy(java.util.function.Consumer p0) { return (AbstractIterableAssert) (Object) null; }1214 public AbstractIterableAssert noneSatisfy(java.util.function.Consumer p0) { return (AbstractIterableAssert) (Object) null; }1215 public AbstractIterableAssert satisfiesExactly(java.util.function.Consumer[] p0) { return (AbstractIterableAssert) (Object) null; }1216 public AbstractIterableAssert satisfiesExactlyInAnyOrder(java.util.function.Consumer[] p0) { return (AbstractIterableAssert) (Object) null; }1217 public AbstractIterableAssert as(String p0, Object[] p1) { return (AbstractIterableAssert) (Object) null; }1218 public AbstractIterableAssert as(org.assertj.core.description.Description p0) { return (AbstractIterableAssert) (Object) null; }1219 public AbstractIterableAssert describedAs(org.assertj.core.description.Description p0) { return (AbstractIterableAssert) (Object) null; }1220 public AbstractIterableAssert describedAs(String p0, Object[] p1) { return (AbstractIterableAssert) (Object) null; }1221 public AbstractIterableAssert doesNotHave(Condition p0) { return (AbstractIterableAssert) (Object) null; }1222 public AbstractIterableAssert doesNotHaveSameClassAs(Object p0) { return (AbstractIterableAssert) (Object) null; }1223 public AbstractIterableAssert has(Condition p0) { return (AbstractIterableAssert) (Object) null; }1224 public AbstractIterableAssert hasSameClassAs(Object p0) { return (AbstractIterableAssert) (Object) null; }1225 public AbstractIterableAssert hasToString(String p0) { return (AbstractIterableAssert) (Object) null; }1226 public AbstractIterableAssert is(Condition p0) { return (AbstractIterableAssert) (Object) null; }1227 public AbstractIterableAssert isEqualTo(Object p0) { return (AbstractIterableAssert) (Object) null; }1228 public AbstractIterableAssert isExactlyInstanceOf(Class p0) { return (AbstractIterableAssert) (Object) null; }1229 public AbstractIterableAssert isIn(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1230 public AbstractIterableAssert isIn(Object[] p0) { return (AbstractIterableAssert) (Object) null; }1231 public AbstractIterableAssert isInstanceOf(Class p0) { return (AbstractIterableAssert) (Object) null; }1232 public AbstractIterableAssert isInstanceOfAny(Class[] p0) { return (AbstractIterableAssert) (Object) null; }1233 public AbstractIterableAssert isNot(Condition p0) { return (AbstractIterableAssert) (Object) null; }1234 public AbstractIterableAssert isNotEqualTo(Object p0) { return (AbstractIterableAssert) (Object) null; }1235 public AbstractIterableAssert isNotExactlyInstanceOf(Class p0) { return (AbstractIterableAssert) (Object) null; }1236 public AbstractIterableAssert isNotIn(Iterable p0) { return (AbstractIterableAssert) (Object) null; }1237 public AbstractIterableAssert isNotIn(Object[] p0) { return (AbstractIterableAssert) (Object) null; }1238 public AbstractIterableAssert isNotInstanceOf(Class p0) { return (AbstractIterableAssert) (Object) null; }1239 public AbstractIterableAssert isNotInstanceOfAny(Class[] p0) { return (AbstractIterableAssert) (Object) null; }1240 public AbstractIterableAssert isNotOfAnyClassIn(Class[] p0) { return (AbstractIterableAssert) (Object) null; }1241 public AbstractIterableAssert isNotNull() { return (AbstractIterableAssert) (Object) null; }1242 public AbstractIterableAssert isNotSameAs(Object p0) { return (AbstractIterableAssert) (Object) null; }1243 public AbstractIterableAssert isOfAnyClassIn(Class[] p0) { return (AbstractIterableAssert) (Object) null; }1244 public AbstractIterableAssert isSameAs(Object p0) { return (AbstractIterableAssert) (Object) null; }1245 public AbstractIterableAssert noneMatch(java.util.function.Predicate p0) { return (AbstractIterableAssert) (Object) null; }1246 public AbstractIterableAssert overridingErrorMessage(String p0, Object[] p1) { return (AbstractIterableAssert) (Object) null; }1247 public AbstractIterableAssert usingDefaultComparator() { return (AbstractIterableAssert) (Object) null; }1248 public AbstractIterableAssert usingComparator(java.util.Comparator p0) { return (AbstractIterableAssert) (Object) null; }1249 public AbstractIterableAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractIterableAssert) (Object) null; }1250 public AbstractIterableAssert withFailMessage(String p0, Object[] p1) { return (AbstractIterableAssert) (Object) null; }1251 public AbstractIterableAssert withThreadDumpOnError() { return (AbstractIterableAssert) (Object) null; }1252 public AbstractIterableSizeAssert size() { return (AbstractIterableSizeAssert) (Object) null; }1253}1254---1255package org.assertj.core.api;1256import java.io.*;1257public abstract class AbstractIterableSizeAssert extends AbstractIntegerAssert {1258 public abstract AbstractIterableAssert returnToIterable();1259}1260---1261package org.assertj.core.api;1262import java.io.*;1263public abstract class AbstractIteratorAssert extends AbstractAssert {1264 public AbstractIteratorAssert hasNext() { return (AbstractIteratorAssert) (Object) null; }1265 public AbstractIteratorAssert isExhausted() { return (AbstractIteratorAssert) (Object) null; }1266 public IterableAssert toIterable() { return (IterableAssert) (Object) null; }1267}1268---1269package org.assertj.core.api;1270import java.io.*;1271public abstract class AbstractListAssert extends AbstractIterableAssert implements IndexedObjectEnumerableAssert {1272 public AbstractListAssert contains(Object p0, org.assertj.core.data.Index p1) { return (AbstractListAssert) (Object) null; }1273 public AbstractListAssert doesNotContain(Object p0, org.assertj.core.data.Index p1) { return (AbstractListAssert) (Object) null; }1274 public AbstractListAssert has(Condition p0, org.assertj.core.data.Index p1) { return (AbstractListAssert) (Object) null; }1275 public AbstractListAssert is(Condition p0, org.assertj.core.data.Index p1) { return (AbstractListAssert) (Object) null; }1276 public AbstractListAssert isSorted() { return (AbstractListAssert) (Object) null; }1277 public AbstractListAssert isSortedAccordingTo(java.util.Comparator p0) { return (AbstractListAssert) (Object) null; }1278 public AbstractListAssert satisfies(java.util.function.Consumer p0, org.assertj.core.data.Index p1) { return (AbstractListAssert) (Object) null; }1279 public AbstractListAssert usingElementComparator(java.util.Comparator p0) { return (AbstractListAssert) (Object) null; }1280 public AbstractListAssert usingDefaultElementComparator() { return (AbstractListAssert) (Object) null; }1281 public AbstractListAssert as(String p0, Object[] p1) { return (AbstractListAssert) (Object) null; }1282 public AbstractListAssert as(org.assertj.core.description.Description p0) { return (AbstractListAssert) (Object) null; }1283 public AbstractListAssert describedAs(org.assertj.core.description.Description p0) { return (AbstractListAssert) (Object) null; }1284 public AbstractListAssert describedAs(String p0, Object[] p1) { return (AbstractListAssert) (Object) null; }1285 public AbstractListAssert doesNotHave(Condition p0) { return (AbstractListAssert) (Object) null; }1286 public AbstractListAssert doesNotHaveSameClassAs(Object p0) { return (AbstractListAssert) (Object) null; }1287 public AbstractListAssert has(Condition p0) { return (AbstractListAssert) (Object) null; }1288 public AbstractListAssert hasSameClassAs(Object p0) { return (AbstractListAssert) (Object) null; }1289 public AbstractListAssert hasToString(String p0) { return (AbstractListAssert) (Object) null; }1290 public AbstractListAssert is(Condition p0) { return (AbstractListAssert) (Object) null; }1291 public AbstractListAssert isEqualTo(Object p0) { return (AbstractListAssert) (Object) null; }1292 public AbstractListAssert isExactlyInstanceOf(Class p0) { return (AbstractListAssert) (Object) null; }1293 public AbstractListAssert isIn(Iterable p0) { return (AbstractListAssert) (Object) null; }1294 public AbstractListAssert isIn(Object[] p0) { return (AbstractListAssert) (Object) null; }1295 public AbstractListAssert isInstanceOf(Class p0) { return (AbstractListAssert) (Object) null; }1296 public AbstractListAssert isInstanceOfAny(Class[] p0) { return (AbstractListAssert) (Object) null; }1297 public AbstractListAssert isNot(Condition p0) { return (AbstractListAssert) (Object) null; }1298 public AbstractListAssert isNotEqualTo(Object p0) { return (AbstractListAssert) (Object) null; }1299 public AbstractListAssert isNotExactlyInstanceOf(Class p0) { return (AbstractListAssert) (Object) null; }1300 public AbstractListAssert isNotIn(Iterable p0) { return (AbstractListAssert) (Object) null; }1301 public AbstractListAssert isNotIn(Object[] p0) { return (AbstractListAssert) (Object) null; }1302 public AbstractListAssert isNotInstanceOf(Class p0) { return (AbstractListAssert) (Object) null; }1303 public AbstractListAssert isNotInstanceOfAny(Class[] p0) { return (AbstractListAssert) (Object) null; }1304 public AbstractListAssert isNotOfAnyClassIn(Class[] p0) { return (AbstractListAssert) (Object) null; }1305 public AbstractListAssert isNotNull() { return (AbstractListAssert) (Object) null; }1306 public AbstractListAssert isNotSameAs(Object p0) { return (AbstractListAssert) (Object) null; }1307 public AbstractListAssert isOfAnyClassIn(Class[] p0) { return (AbstractListAssert) (Object) null; }1308 public AbstractListAssert isSameAs(Object p0) { return (AbstractListAssert) (Object) null; }1309 public AbstractListAssert overridingErrorMessage(String p0, Object[] p1) { return (AbstractListAssert) (Object) null; }1310 public AbstractListAssert usingDefaultComparator() { return (AbstractListAssert) (Object) null; }1311 public AbstractListAssert usingComparator(java.util.Comparator p0) { return (AbstractListAssert) (Object) null; }1312 public AbstractListAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractListAssert) (Object) null; }1313 public AbstractListAssert withFailMessage(String p0, Object[] p1) { return (AbstractListAssert) (Object) null; }1314 public AbstractListAssert withThreadDumpOnError() { return (AbstractListAssert) (Object) null; }1315}1316---1317package org.assertj.core.api;1318import java.io.*;1319public abstract class AbstractLocalDateAssert extends AbstractTemporalAssert {1320 public static String NULL_LOCAL_DATE_TIME_PARAMETER_MESSAGE;1321 public AbstractLocalDateAssert isBefore(java.time.LocalDate p0) { return (AbstractLocalDateAssert) (Object) null; }1322 public AbstractLocalDateAssert isBefore(String p0) { return (AbstractLocalDateAssert) (Object) null; }1323 public AbstractLocalDateAssert isBeforeOrEqualTo(java.time.LocalDate p0) { return (AbstractLocalDateAssert) (Object) null; }1324 public AbstractLocalDateAssert isBeforeOrEqualTo(String p0) { return (AbstractLocalDateAssert) (Object) null; }1325 public AbstractLocalDateAssert isAfterOrEqualTo(java.time.LocalDate p0) { return (AbstractLocalDateAssert) (Object) null; }1326 public AbstractLocalDateAssert isAfterOrEqualTo(String p0) { return (AbstractLocalDateAssert) (Object) null; }1327 public AbstractLocalDateAssert isAfter(java.time.LocalDate p0) { return (AbstractLocalDateAssert) (Object) null; }1328 public AbstractLocalDateAssert isAfter(String p0) { return (AbstractLocalDateAssert) (Object) null; }1329 public AbstractLocalDateAssert isEqualTo(String p0) { return (AbstractLocalDateAssert) (Object) null; }1330 public AbstractLocalDateAssert isNotEqualTo(String p0) { return (AbstractLocalDateAssert) (Object) null; }1331 public AbstractLocalDateAssert isIn(String[] p0) { return (AbstractLocalDateAssert) (Object) null; }1332 public AbstractLocalDateAssert isNotIn(String[] p0) { return (AbstractLocalDateAssert) (Object) null; }1333 public AbstractLocalDateAssert isToday() { return (AbstractLocalDateAssert) (Object) null; }1334 public AbstractLocalDateAssert isBetween(java.time.LocalDate p0, java.time.LocalDate p1) { return (AbstractLocalDateAssert) (Object) null; }1335 public AbstractLocalDateAssert isBetween(String p0, String p1) { return (AbstractLocalDateAssert) (Object) null; }1336 public AbstractLocalDateAssert isStrictlyBetween(java.time.LocalDate p0, java.time.LocalDate p1) { return (AbstractLocalDateAssert) (Object) null; }1337 public AbstractLocalDateAssert isStrictlyBetween(String p0, String p1) { return (AbstractLocalDateAssert) (Object) null; }1338}1339---1340package org.assertj.core.api;1341import java.io.*;1342public abstract class AbstractLocalDateTimeAssert extends AbstractTemporalAssert {1343 public static String NULL_LOCAL_DATE_TIME_PARAMETER_MESSAGE;1344 public AbstractLocalDateTimeAssert isBefore(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1345 public AbstractLocalDateTimeAssert isBefore(String p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1346 public AbstractLocalDateTimeAssert isBeforeOrEqualTo(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1347 public AbstractLocalDateTimeAssert isBeforeOrEqualTo(String p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1348 public AbstractLocalDateTimeAssert isAfterOrEqualTo(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1349 public AbstractLocalDateTimeAssert isAfterOrEqualTo(String p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1350 public AbstractLocalDateTimeAssert isAfter(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1351 public AbstractLocalDateTimeAssert isAfter(String p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1352 public AbstractLocalDateTimeAssert isEqualTo(Object p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1353 public AbstractLocalDateTimeAssert isEqualTo(String p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1354 public AbstractLocalDateTimeAssert isNotEqualTo(Object p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1355 public AbstractLocalDateTimeAssert isNotEqualTo(String p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1356 public AbstractLocalDateTimeAssert isIn(String[] p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1357 public AbstractLocalDateTimeAssert isNotIn(String[] p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1358 public AbstractLocalDateTimeAssert isCloseToUtcNow(org.assertj.core.data.TemporalUnitOffset p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1359 public AbstractLocalDateTimeAssert usingDefaultComparator() { return (AbstractLocalDateTimeAssert) (Object) null; }1360 public AbstractLocalDateTimeAssert isEqualToIgnoringNanos(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1361 public AbstractLocalDateTimeAssert isEqualToIgnoringSeconds(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1362 public AbstractLocalDateTimeAssert isEqualToIgnoringMinutes(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1363 public AbstractLocalDateTimeAssert isEqualToIgnoringHours(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }1364 public AbstractLocalDateTimeAssert isBetween(java.time.LocalDateTime p0, java.time.LocalDateTime p1) { return (AbstractLocalDateTimeAssert) (Object) null; }1365 public AbstractLocalDateTimeAssert isBetween(String p0, String p1) { return (AbstractLocalDateTimeAssert) (Object) null; }1366 public AbstractLocalDateTimeAssert isStrictlyBetween(java.time.LocalDateTime p0, java.time.LocalDateTime p1) { return (AbstractLocalDateTimeAssert) (Object) null; }1367 public AbstractLocalDateTimeAssert isStrictlyBetween(String p0, String p1) { return (AbstractLocalDateTimeAssert) (Object) null; }1368}1369---1370package org.assertj.core.api;1371import java.io.*;1372public abstract class AbstractLocalTimeAssert extends AbstractTemporalAssert {1373 public static String NULL_LOCAL_TIME_PARAMETER_MESSAGE;1374 public AbstractLocalTimeAssert isBefore(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1375 public AbstractLocalTimeAssert isBefore(String p0) { return (AbstractLocalTimeAssert) (Object) null; }1376 public AbstractLocalTimeAssert isBeforeOrEqualTo(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1377 public AbstractLocalTimeAssert isBeforeOrEqualTo(String p0) { return (AbstractLocalTimeAssert) (Object) null; }1378 public AbstractLocalTimeAssert isAfterOrEqualTo(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1379 public AbstractLocalTimeAssert isAfterOrEqualTo(String p0) { return (AbstractLocalTimeAssert) (Object) null; }1380 public AbstractLocalTimeAssert isAfter(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1381 public AbstractLocalTimeAssert isAfter(String p0) { return (AbstractLocalTimeAssert) (Object) null; }1382 public AbstractLocalTimeAssert isEqualTo(String p0) { return (AbstractLocalTimeAssert) (Object) null; }1383 public AbstractLocalTimeAssert isNotEqualTo(String p0) { return (AbstractLocalTimeAssert) (Object) null; }1384 public AbstractLocalTimeAssert isIn(String[] p0) { return (AbstractLocalTimeAssert) (Object) null; }1385 public AbstractLocalTimeAssert isNotIn(String[] p0) { return (AbstractLocalTimeAssert) (Object) null; }1386 public AbstractLocalTimeAssert isEqualToIgnoringNanos(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1387 public AbstractLocalTimeAssert isEqualToIgnoringSeconds(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1388 public AbstractLocalTimeAssert hasSameHourAs(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }1389 public AbstractLocalTimeAssert isBetween(java.time.LocalTime p0, java.time.LocalTime p1) { return (AbstractLocalTimeAssert) (Object) null; }1390 public AbstractLocalTimeAssert isBetween(String p0, String p1) { return (AbstractLocalTimeAssert) (Object) null; }1391 public AbstractLocalTimeAssert isStrictlyBetween(java.time.LocalTime p0, java.time.LocalTime p1) { return (AbstractLocalTimeAssert) (Object) null; }1392 public AbstractLocalTimeAssert isStrictlyBetween(String p0, String p1) { return (AbstractLocalTimeAssert) (Object) null; }1393}1394---1395package org.assertj.core.api;1396import java.io.*;1397public class AbstractLongAdderAssert extends AbstractAssert implements NumberAssert, ComparableAssert {1398 public AbstractLongAdderAssert hasValue(long p0) { return (AbstractLongAdderAssert) (Object) null; }1399 public AbstractLongAdderAssert doesNotHaveValue(long p0) { return (AbstractLongAdderAssert) (Object) null; }1400 public AbstractLongAdderAssert usingComparator(java.util.Comparator p0) { return (AbstractLongAdderAssert) (Object) null; }1401 public AbstractLongAdderAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractLongAdderAssert) (Object) null; }1402 public AbstractLongAdderAssert usingDefaultComparator() { return (AbstractLongAdderAssert) (Object) null; }1403 public AbstractLongAdderAssert isZero() { return (AbstractLongAdderAssert) (Object) null; }1404 public AbstractLongAdderAssert isNotZero() { return (AbstractLongAdderAssert) (Object) null; }1405 public AbstractLongAdderAssert isOne() { return (AbstractLongAdderAssert) (Object) null; }1406 public AbstractLongAdderAssert isPositive() { return (AbstractLongAdderAssert) (Object) null; }1407 public AbstractLongAdderAssert isNegative() { return (AbstractLongAdderAssert) (Object) null; }1408 public AbstractLongAdderAssert isNotNegative() { return (AbstractLongAdderAssert) (Object) null; }1409 public AbstractLongAdderAssert isNotPositive() { return (AbstractLongAdderAssert) (Object) null; }1410 public AbstractLongAdderAssert isEqualByComparingTo(Long p0) { return (AbstractLongAdderAssert) (Object) null; }1411 public AbstractLongAdderAssert isNotEqualByComparingTo(Long p0) { return (AbstractLongAdderAssert) (Object) null; }1412 public AbstractLongAdderAssert isLessThan(Long p0) { return (AbstractLongAdderAssert) (Object) null; }1413 public AbstractLongAdderAssert isLessThanOrEqualTo(Long p0) { return (AbstractLongAdderAssert) (Object) null; }1414 public AbstractLongAdderAssert isGreaterThan(Long p0) { return (AbstractLongAdderAssert) (Object) null; }1415 public AbstractLongAdderAssert isGreaterThanOrEqualTo(Long p0) { return (AbstractLongAdderAssert) (Object) null; }1416 public AbstractLongAdderAssert isBetween(Long p0, Long p1) { return (AbstractLongAdderAssert) (Object) null; }1417 public AbstractLongAdderAssert isStrictlyBetween(Long p0, Long p1) { return (AbstractLongAdderAssert) (Object) null; }1418 public AbstractLongAdderAssert isCloseTo(Long p0, org.assertj.core.data.Offset p1) { return (AbstractLongAdderAssert) (Object) null; }1419 public AbstractLongAdderAssert isNotCloseTo(Long p0, org.assertj.core.data.Offset p1) { return (AbstractLongAdderAssert) (Object) null; }1420 public AbstractLongAdderAssert isCloseTo(Long p0, org.assertj.core.data.Percentage p1) { return (AbstractLongAdderAssert) (Object) null; }1421 public AbstractLongAdderAssert isNotCloseTo(Long p0, org.assertj.core.data.Percentage p1) { return (AbstractLongAdderAssert) (Object) null; }1422 public NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Percentage p1) { return (NumberAssert) (Object) null; }1423 public NumberAssert isCloseTo(Number p0, org.assertj.core.data.Percentage p1) { return (NumberAssert) (Object) null; }1424 public NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Offset p1) { return (NumberAssert) (Object) null; }1425 public NumberAssert isCloseTo(Number p0, org.assertj.core.data.Offset p1) { return (NumberAssert) (Object) null; }1426 public NumberAssert isStrictlyBetween(Number p0, Number p1) { return (NumberAssert) (Object) null; }1427 public NumberAssert isBetween(Number p0, Number p1) { return (NumberAssert) (Object) null; }1428 public ComparableAssert isStrictlyBetween(Comparable p0, Comparable p1) { return (ComparableAssert) (Object) null; }1429 public ComparableAssert isBetween(Comparable p0, Comparable p1) { return (ComparableAssert) (Object) null; }1430 public ComparableAssert isGreaterThanOrEqualTo(Comparable p0) { return (ComparableAssert) (Object) null; }1431 public ComparableAssert isGreaterThan(Comparable p0) { return (ComparableAssert) (Object) null; }1432 public ComparableAssert isLessThanOrEqualTo(Comparable p0) { return (ComparableAssert) (Object) null; }1433 public ComparableAssert isLessThan(Comparable p0) { return (ComparableAssert) (Object) null; }1434 public ComparableAssert isNotEqualByComparingTo(Comparable p0) { return (ComparableAssert) (Object) null; }1435 public ComparableAssert isEqualByComparingTo(Comparable p0) { return (ComparableAssert) (Object) null; }1436}1437---1438package org.assertj.core.api;1439import java.io.*;1440public abstract class AbstractLongArrayAssert extends AbstractArrayAssert {1441 public void isNullOrEmpty() {}1442 public void isEmpty() {}1443 public AbstractLongArrayAssert isNotEmpty() { return (AbstractLongArrayAssert) (Object) null; }1444 public AbstractLongArrayAssert hasSize(int p0) { return (AbstractLongArrayAssert) (Object) null; }1445 public AbstractLongArrayAssert hasSizeGreaterThan(int p0) { return (AbstractLongArrayAssert) (Object) null; }1446 public AbstractLongArrayAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AbstractLongArrayAssert) (Object) null; }1447 public AbstractLongArrayAssert hasSizeLessThan(int p0) { return (AbstractLongArrayAssert) (Object) null; }1448 public AbstractLongArrayAssert hasSizeLessThanOrEqualTo(int p0) { return (AbstractLongArrayAssert) (Object) null; }1449 public AbstractLongArrayAssert hasSizeBetween(int p0, int p1) { return (AbstractLongArrayAssert) (Object) null; }1450 public AbstractLongArrayAssert hasSameSizeAs(Iterable p0) { return (AbstractLongArrayAssert) (Object) null; }1451 public AbstractLongArrayAssert contains(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1452 public AbstractLongArrayAssert contains(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1453 public AbstractLongArrayAssert containsOnly(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1454 public AbstractLongArrayAssert containsOnly(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1455 public AbstractLongArrayAssert containsOnlyOnce(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1456 public AbstractLongArrayAssert containsOnlyOnce(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1457 public AbstractLongArrayAssert containsSequence(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1458 public AbstractLongArrayAssert containsSequence(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1459 public AbstractLongArrayAssert containsSubsequence(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1460 public AbstractLongArrayAssert containsSubsequence(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1461 public AbstractLongArrayAssert contains(long p0, org.assertj.core.data.Index p1) { return (AbstractLongArrayAssert) (Object) null; }1462 public AbstractLongArrayAssert doesNotContain(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1463 public AbstractLongArrayAssert doesNotContain(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1464 public AbstractLongArrayAssert doesNotContain(long p0, org.assertj.core.data.Index p1) { return (AbstractLongArrayAssert) (Object) null; }1465 public AbstractLongArrayAssert doesNotHaveDuplicates() { return (AbstractLongArrayAssert) (Object) null; }1466 public AbstractLongArrayAssert startsWith(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1467 public AbstractLongArrayAssert startsWith(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1468 public AbstractLongArrayAssert endsWith(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1469 public AbstractLongArrayAssert endsWith(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1470 public AbstractLongArrayAssert isSorted() { return (AbstractLongArrayAssert) (Object) null; }1471 public AbstractLongArrayAssert isSortedAccordingTo(java.util.Comparator p0) { return (AbstractLongArrayAssert) (Object) null; }1472 public AbstractLongArrayAssert usingElementComparator(java.util.Comparator p0) { return (AbstractLongArrayAssert) (Object) null; }1473 public AbstractLongArrayAssert usingDefaultElementComparator() { return (AbstractLongArrayAssert) (Object) null; }1474 public AbstractLongArrayAssert containsExactly(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1475 public AbstractLongArrayAssert containsExactly(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1476 public AbstractLongArrayAssert containsExactlyInAnyOrder(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1477 public AbstractLongArrayAssert containsExactlyInAnyOrder(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1478 public AbstractLongArrayAssert containsAnyOf(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1479 public AbstractLongArrayAssert containsAnyOf(Long[] p0) { return (AbstractLongArrayAssert) (Object) null; }1480}1481---1482package org.assertj.core.api;1483import java.io.*;1484public abstract class AbstractLongAssert extends AbstractComparableAssert implements NumberAssert {1485 public AbstractLongAssert isEqualTo(long p0) { return (AbstractLongAssert) (Object) null; }1486 public AbstractLongAssert isNotEqualTo(long p0) { return (AbstractLongAssert) (Object) null; }1487 public AbstractLongAssert isZero() { return (AbstractLongAssert) (Object) null; }1488 public AbstractLongAssert isNotZero() { return (AbstractLongAssert) (Object) null; }1489 public AbstractLongAssert isOne() { return (AbstractLongAssert) (Object) null; }1490 public AbstractLongAssert isPositive() { return (AbstractLongAssert) (Object) null; }1491 public AbstractLongAssert isNegative() { return (AbstractLongAssert) (Object) null; }1492 public AbstractLongAssert isNotNegative() { return (AbstractLongAssert) (Object) null; }1493 public AbstractLongAssert isNotPositive() { return (AbstractLongAssert) (Object) null; }1494 public AbstractLongAssert isEven() { return (AbstractLongAssert) (Object) null; }1495 public AbstractLongAssert isOdd() { return (AbstractLongAssert) (Object) null; }1496 public AbstractLongAssert isLessThan(long p0) { return (AbstractLongAssert) (Object) null; }1497 public AbstractLongAssert isLessThanOrEqualTo(long p0) { return (AbstractLongAssert) (Object) null; }1498 public AbstractLongAssert isGreaterThan(long p0) { return (AbstractLongAssert) (Object) null; }1499 public AbstractLongAssert isGreaterThanOrEqualTo(long p0) { return (AbstractLongAssert) (Object) null; }1500 public AbstractLongAssert isBetween(Long p0, Long p1) { return (AbstractLongAssert) (Object) null; }1501 public AbstractLongAssert isStrictlyBetween(Long p0, Long p1) { return (AbstractLongAssert) (Object) null; }1502 public AbstractLongAssert isCloseTo(long p0, org.assertj.core.data.Offset p1) { return (AbstractLongAssert) (Object) null; }1503 public AbstractLongAssert isNotCloseTo(long p0, org.assertj.core.data.Offset p1) { return (AbstractLongAssert) (Object) null; }1504 public AbstractLongAssert isCloseTo(Long p0, org.assertj.core.data.Offset p1) { return (AbstractLongAssert) (Object) null; }1505 public AbstractLongAssert isNotCloseTo(Long p0, org.assertj.core.data.Offset p1) { return (AbstractLongAssert) (Object) null; }1506 public AbstractLongAssert isCloseTo(Long p0, org.assertj.core.data.Percentage p1) { return (AbstractLongAssert) (Object) null; }1507 public AbstractLongAssert isNotCloseTo(Long p0, org.assertj.core.data.Percentage p1) { return (AbstractLongAssert) (Object) null; }1508 public AbstractLongAssert isCloseTo(long p0, org.assertj.core.data.Percentage p1) { return (AbstractLongAssert) (Object) null; }1509 public AbstractLongAssert isNotCloseTo(long p0, org.assertj.core.data.Percentage p1) { return (AbstractLongAssert) (Object) null; }1510 public AbstractLongAssert usingComparator(java.util.Comparator p0) { return (AbstractLongAssert) (Object) null; }1511 public AbstractLongAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractLongAssert) (Object) null; }1512 public AbstractLongAssert usingDefaultComparator() { return (AbstractLongAssert) (Object) null; }1513 public AbstractComparableAssert isStrictlyBetween(Comparable p0, Comparable p1) { return (AbstractComparableAssert) (Object) null; }1514 public AbstractComparableAssert isBetween(Comparable p0, Comparable p1) { return (AbstractComparableAssert) (Object) null; }1515 public NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Percentage p1) { return (NumberAssert) (Object) null; }1516 public NumberAssert isCloseTo(Number p0, org.assertj.core.data.Percentage p1) { return (NumberAssert) (Object) null; }1517 public NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Offset p1) { return (NumberAssert) (Object) null; }1518 public NumberAssert isCloseTo(Number p0, org.assertj.core.data.Offset p1) { return (NumberAssert) (Object) null; }1519 public NumberAssert isStrictlyBetween(Number p0, Number p1) { return (NumberAssert) (Object) null; }1520 public NumberAssert isBetween(Number p0, Number p1) { return (NumberAssert) (Object) null; }1521}1522---1523package org.assertj.core.api;1524import java.io.*;1525public abstract class AbstractMapAssert extends AbstractObjectAssert implements EnumerableAssert {1526 public AbstractMapAssert allSatisfy(java.util.function.BiConsumer p0) { return (AbstractMapAssert) (Object) null; }1527 public AbstractMapAssert anySatisfy(java.util.function.BiConsumer p0) { return (AbstractMapAssert) (Object) null; }1528 public AbstractMapAssert noneSatisfy(java.util.function.BiConsumer p0) { return (AbstractMapAssert) (Object) null; }1529 public void isNullOrEmpty() {}1530 public void isEmpty() {}1531 public AbstractMapAssert isNotEmpty() { return (AbstractMapAssert) (Object) null; }1532 public AbstractMapAssert hasSize(int p0) { return (AbstractMapAssert) (Object) null; }1533 public AbstractMapAssert hasSizeGreaterThan(int p0) { return (AbstractMapAssert) (Object) null; }1534 public AbstractMapAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AbstractMapAssert) (Object) null; }1535 public AbstractMapAssert hasSizeLessThan(int p0) { return (AbstractMapAssert) (Object) null; }1536 public AbstractMapAssert hasSizeLessThanOrEqualTo(int p0) { return (AbstractMapAssert) (Object) null; }1537 public AbstractMapAssert hasSizeBetween(int p0, int p1) { return (AbstractMapAssert) (Object) null; }1538 public AbstractMapAssert hasSameSizeAs(Object p0) { return (AbstractMapAssert) (Object) null; }1539 public AbstractMapAssert hasSameSizeAs(Iterable p0) { return (AbstractMapAssert) (Object) null; }1540 public AbstractMapAssert hasSameSizeAs(java.util.Map p0) { return (AbstractMapAssert) (Object) null; }1541 public AbstractMapAssert contains(java.util.Map.Entry[] p0) { return (AbstractMapAssert) (Object) null; }1542 public AbstractMapAssert containsAnyOf(java.util.Map.Entry[] p0) { return (AbstractMapAssert) (Object) null; }1543 public AbstractMapAssert containsAllEntriesOf(java.util.Map p0) { return (AbstractMapAssert) (Object) null; }1544 public AbstractMapAssert containsExactlyEntriesOf(java.util.Map p0) { return (AbstractMapAssert) (Object) null; }1545 public AbstractMapAssert containsExactlyInAnyOrderEntriesOf(java.util.Map p0) { return (AbstractMapAssert) (Object) null; }1546 public AbstractMapAssert containsEntry(Object p0, Object p1) { return (AbstractMapAssert) (Object) null; }1547 public AbstractMapAssert hasEntrySatisfying(Object p0, Condition p1) { return (AbstractMapAssert) (Object) null; }1548 public AbstractMapAssert hasEntrySatisfying(Object p0, java.util.function.Consumer p1) { return (AbstractMapAssert) (Object) null; }1549 public AbstractMapAssert hasEntrySatisfying(Condition p0) { return (AbstractMapAssert) (Object) null; }1550 public AbstractMapAssert hasEntrySatisfying(Condition p0, Condition p1) { return (AbstractMapAssert) (Object) null; }1551 public AbstractMapAssert hasKeySatisfying(Condition p0) { return (AbstractMapAssert) (Object) null; }1552 public AbstractMapAssert hasValueSatisfying(Condition p0) { return (AbstractMapAssert) (Object) null; }1553 public AbstractMapAssert doesNotContain(java.util.Map.Entry[] p0) { return (AbstractMapAssert) (Object) null; }1554 public AbstractMapAssert doesNotContainEntry(Object p0, Object p1) { return (AbstractMapAssert) (Object) null; }1555 public AbstractMapAssert containsKey(Object p0) { return (AbstractMapAssert) (Object) null; }1556 public AbstractMapAssert containsKeys(Object[] p0) { return (AbstractMapAssert) (Object) null; }1557 public AbstractMapAssert doesNotContainKey(Object p0) { return (AbstractMapAssert) (Object) null; }1558 public AbstractMapAssert doesNotContainKeys(Object[] p0) { return (AbstractMapAssert) (Object) null; }1559 public AbstractMapAssert containsOnlyKeys(Object[] p0) { return (AbstractMapAssert) (Object) null; }1560 public AbstractMapAssert containsOnlyKeys(Iterable p0) { return (AbstractMapAssert) (Object) null; }1561 public AbstractMapAssert containsValue(Object p0) { return (AbstractMapAssert) (Object) null; }1562 public AbstractMapAssert containsValues(Object[] p0) { return (AbstractMapAssert) (Object) null; }1563 public AbstractMapAssert doesNotContainValue(Object p0) { return (AbstractMapAssert) (Object) null; }1564 public AbstractMapAssert containsOnly(java.util.Map.Entry[] p0) { return (AbstractMapAssert) (Object) null; }1565 public AbstractMapAssert containsExactly(java.util.Map.Entry[] p0) { return (AbstractMapAssert) (Object) null; }1566 public AbstractMapAssert usingElementComparator(java.util.Comparator p0) { return (AbstractMapAssert) (Object) null; }1567 public AbstractMapAssert usingDefaultElementComparator() { return (AbstractMapAssert) (Object) null; }1568 public AbstractMapAssert as(String p0, Object[] p1) { return (AbstractMapAssert) (Object) null; }1569 public AbstractMapAssert as(org.assertj.core.description.Description p0) { return (AbstractMapAssert) (Object) null; }1570 public AbstractMapAssert describedAs(org.assertj.core.description.Description p0) { return (AbstractMapAssert) (Object) null; }1571 public AbstractMapAssert describedAs(String p0, Object[] p1) { return (AbstractMapAssert) (Object) null; }1572 public AbstractMapAssert doesNotHave(Condition p0) { return (AbstractMapAssert) (Object) null; }1573 public AbstractMapAssert doesNotHaveSameClassAs(Object p0) { return (AbstractMapAssert) (Object) null; }1574 public AbstractMapAssert has(Condition p0) { return (AbstractMapAssert) (Object) null; }1575 public AbstractMapAssert hasSameClassAs(Object p0) { return (AbstractMapAssert) (Object) null; }1576 public AbstractMapAssert hasToString(String p0) { return (AbstractMapAssert) (Object) null; }1577 public AbstractMapAssert is(Condition p0) { return (AbstractMapAssert) (Object) null; }1578 public AbstractMapAssert isEqualTo(Object p0) { return (AbstractMapAssert) (Object) null; }1579 public AbstractMapAssert isExactlyInstanceOf(Class p0) { return (AbstractMapAssert) (Object) null; }1580 public AbstractMapAssert isIn(Iterable p0) { return (AbstractMapAssert) (Object) null; }1581 public AbstractMapAssert isIn(Object[] p0) { return (AbstractMapAssert) (Object) null; }1582 public AbstractMapAssert isInstanceOf(Class p0) { return (AbstractMapAssert) (Object) null; }1583 public AbstractMapAssert isInstanceOfAny(Class[] p0) { return (AbstractMapAssert) (Object) null; }1584 public AbstractMapAssert isNot(Condition p0) { return (AbstractMapAssert) (Object) null; }1585 public AbstractMapAssert isNotEqualTo(Object p0) { return (AbstractMapAssert) (Object) null; }1586 public AbstractMapAssert isNotExactlyInstanceOf(Class p0) { return (AbstractMapAssert) (Object) null; }1587 public AbstractMapAssert isNotIn(Iterable p0) { return (AbstractMapAssert) (Object) null; }1588 public AbstractMapAssert isNotIn(Object[] p0) { return (AbstractMapAssert) (Object) null; }1589 public AbstractMapAssert isNotInstanceOf(Class p0) { return (AbstractMapAssert) (Object) null; }1590 public AbstractMapAssert isNotInstanceOfAny(Class[] p0) { return (AbstractMapAssert) (Object) null; }1591 public AbstractMapAssert isNotOfAnyClassIn(Class[] p0) { return (AbstractMapAssert) (Object) null; }1592 public AbstractMapAssert isNotNull() { return (AbstractMapAssert) (Object) null; }1593 public AbstractMapAssert isNotSameAs(Object p0) { return (AbstractMapAssert) (Object) null; }1594 public AbstractMapAssert isOfAnyClassIn(Class[] p0) { return (AbstractMapAssert) (Object) null; }1595 public AbstractMapAssert isSameAs(Object p0) { return (AbstractMapAssert) (Object) null; }1596 public AbstractMapAssert overridingErrorMessage(String p0, Object[] p1) { return (AbstractMapAssert) (Object) null; }1597 public AbstractMapAssert usingDefaultComparator() { return (AbstractMapAssert) (Object) null; }1598 public AbstractMapAssert usingComparator(java.util.Comparator p0) { return (AbstractMapAssert) (Object) null; }1599 public AbstractMapAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractMapAssert) (Object) null; }1600 public AbstractMapAssert withFailMessage(String p0, Object[] p1) { return (AbstractMapAssert) (Object) null; }1601 public AbstractMapAssert withThreadDumpOnError() { return (AbstractMapAssert) (Object) null; }1602 public AbstractMapSizeAssert size() { return (AbstractMapSizeAssert) (Object) null; }1603 public AbstractListAssert extracting(Object[] p0) { return (AbstractListAssert) (Object) null; }1604 public AbstractListAssert extractingByKeys(Object[] p0) { return (AbstractListAssert) (Object) null; }1605 public AbstractObjectAssert extracting(Object p0) { return (AbstractObjectAssert) (Object) null; }1606 public AbstractObjectAssert extractingByKey(Object p0) { return (AbstractObjectAssert) (Object) null; }1607 public AbstractAssert extractingByKey(Object p0, InstanceOfAssertFactory p1) { return (AbstractAssert) (Object) null; }1608 public AbstractListAssert extractingFromEntries(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1609 public AbstractListAssert extractingFromEntries(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1610 public AbstractListAssert flatExtracting(String[] p0) { return (AbstractListAssert) (Object) null; }1611 public RecursiveComparisonAssert usingRecursiveComparison() { return (RecursiveComparisonAssert) (Object) null; }1612 public RecursiveComparisonAssert usingRecursiveComparison(org.assertj.core.api.recursive.comparison.RecursiveComparisonConfiguration p0) { return (RecursiveComparisonAssert) (Object) null; }1613}1614---1615package org.assertj.core.api;1616import java.io.*;1617public abstract class AbstractMapSizeAssert extends AbstractIntegerAssert {1618 public abstract AbstractMapAssert returnToMap();1619}1620---1621package org.assertj.core.api;1622import java.io.*;1623public abstract class AbstractObjectArrayAssert extends AbstractAssert implements IndexedObjectEnumerableAssert, ArraySortedAssert {1624 public AbstractObjectArrayAssert as(org.assertj.core.description.Description p0) { return (AbstractObjectArrayAssert) (Object) null; }1625 public AbstractObjectArrayAssert as(String p0, Object[] p1) { return (AbstractObjectArrayAssert) (Object) null; }1626 public void isNullOrEmpty() {}1627 public void isEmpty() {}1628 public AbstractObjectArrayAssert isNotEmpty() { return (AbstractObjectArrayAssert) (Object) null; }1629 public AbstractObjectArrayAssert hasSize(int p0) { return (AbstractObjectArrayAssert) (Object) null; }1630 public AbstractObjectArrayAssert hasSizeGreaterThan(int p0) { return (AbstractObjectArrayAssert) (Object) null; }1631 public AbstractObjectArrayAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AbstractObjectArrayAssert) (Object) null; }1632 public AbstractObjectArrayAssert hasSizeLessThan(int p0) { return (AbstractObjectArrayAssert) (Object) null; }1633 public AbstractObjectArrayAssert hasSizeLessThanOrEqualTo(int p0) { return (AbstractObjectArrayAssert) (Object) null; }1634 public AbstractObjectArrayAssert hasSizeBetween(int p0, int p1) { return (AbstractObjectArrayAssert) (Object) null; }1635 public AbstractObjectArrayAssert hasSameSizeAs(Object p0) { return (AbstractObjectArrayAssert) (Object) null; }1636 public AbstractObjectArrayAssert hasSameSizeAs(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1637 public AbstractObjectArrayAssert contains(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1638 public AbstractObjectArrayAssert containsOnly(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1639 public AbstractObjectArrayAssert containsOnlyElementsOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1640 public AbstractObjectArrayAssert containsOnlyNulls() { return (AbstractObjectArrayAssert) (Object) null; }1641 public AbstractObjectArrayAssert hasOnlyOneElementSatisfying(java.util.function.Consumer p0) { return (AbstractObjectArrayAssert) (Object) null; }1642 public AbstractObjectArrayAssert hasSameElementsAs(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1643 public AbstractObjectArrayAssert containsOnlyOnce(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1644 public AbstractObjectArrayAssert containsOnlyOnceElementsOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1645 public AbstractObjectArrayAssert containsExactly(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1646 public AbstractObjectArrayAssert containsExactlyInAnyOrder(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1647 public AbstractObjectArrayAssert containsExactlyInAnyOrderElementsOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1648 public AbstractObjectArrayAssert containsExactlyElementsOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1649 public AbstractObjectArrayAssert containsSequence(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1650 public AbstractObjectArrayAssert containsSequence(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1651 public AbstractObjectArrayAssert doesNotContainSequence(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1652 public AbstractObjectArrayAssert doesNotContainSequence(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1653 public AbstractObjectArrayAssert containsSubsequence(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1654 public AbstractObjectArrayAssert containsSubsequence(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1655 public AbstractObjectArrayAssert doesNotContainSubsequence(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1656 public AbstractObjectArrayAssert doesNotContainSubsequence(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1657 public AbstractObjectArrayAssert contains(Object p0, org.assertj.core.data.Index p1) { return (AbstractObjectArrayAssert) (Object) null; }1658 public AbstractObjectArrayAssert hasOnlyElementsOfTypes(Class[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1659 public AbstractObjectArrayAssert doesNotContain(Object p0, org.assertj.core.data.Index p1) { return (AbstractObjectArrayAssert) (Object) null; }1660 public AbstractObjectArrayAssert doesNotContain(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1661 public AbstractObjectArrayAssert doesNotContainAnyElementsOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1662 public AbstractObjectArrayAssert doesNotHaveDuplicates() { return (AbstractObjectArrayAssert) (Object) null; }1663 public AbstractObjectArrayAssert startsWith(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1664 public AbstractObjectArrayAssert endsWith(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1665 public AbstractObjectArrayAssert endsWith(Object p0, Object[] p1) { return (AbstractObjectArrayAssert) (Object) null; }1666 public AbstractObjectArrayAssert isSubsetOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1667 public AbstractObjectArrayAssert isSubsetOf(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1668 public AbstractObjectArrayAssert containsNull() { return (AbstractObjectArrayAssert) (Object) null; }1669 public AbstractObjectArrayAssert doesNotContainNull() { return (AbstractObjectArrayAssert) (Object) null; }1670 public AbstractObjectArrayAssert are(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1671 public AbstractObjectArrayAssert areNot(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1672 public AbstractObjectArrayAssert have(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1673 public AbstractObjectArrayAssert doNotHave(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1674 public AbstractObjectArrayAssert areAtLeast(int p0, Condition p1) { return (AbstractObjectArrayAssert) (Object) null; }1675 public AbstractObjectArrayAssert areAtLeastOne(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1676 public AbstractObjectArrayAssert areAtMost(int p0, Condition p1) { return (AbstractObjectArrayAssert) (Object) null; }1677 public AbstractObjectArrayAssert areExactly(int p0, Condition p1) { return (AbstractObjectArrayAssert) (Object) null; }1678 public AbstractObjectArrayAssert haveAtLeastOne(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1679 public AbstractObjectArrayAssert haveAtLeast(int p0, Condition p1) { return (AbstractObjectArrayAssert) (Object) null; }1680 public AbstractObjectArrayAssert haveAtMost(int p0, Condition p1) { return (AbstractObjectArrayAssert) (Object) null; }1681 public AbstractObjectArrayAssert haveExactly(int p0, Condition p1) { return (AbstractObjectArrayAssert) (Object) null; }1682 public AbstractObjectArrayAssert hasAtLeastOneElementOfType(Class p0) { return (AbstractObjectArrayAssert) (Object) null; }1683 public AbstractObjectArrayAssert hasOnlyElementsOfType(Class p0) { return (AbstractObjectArrayAssert) (Object) null; }1684 public AbstractObjectArrayAssert doesNotHaveAnyElementsOfTypes(Class[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1685 public AbstractObjectArrayAssert isSorted() { return (AbstractObjectArrayAssert) (Object) null; }1686 public AbstractObjectArrayAssert isSortedAccordingTo(java.util.Comparator p0) { return (AbstractObjectArrayAssert) (Object) null; }1687 public AbstractObjectArrayAssert containsAll(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1688 public AbstractObjectArrayAssert usingElementComparator(java.util.Comparator p0) { return (AbstractObjectArrayAssert) (Object) null; }1689 public AbstractObjectArrayAssert usingDefaultElementComparator() { return (AbstractObjectArrayAssert) (Object) null; }1690 public AbstractObjectArrayAssert usingComparatorForElementFieldsWithNames(java.util.Comparator p0, String[] p1) { return (AbstractObjectArrayAssert) (Object) null; }1691 public AbstractObjectArrayAssert usingComparatorForElementFieldsWithType(java.util.Comparator p0, Class p1) { return (AbstractObjectArrayAssert) (Object) null; }1692 public AbstractObjectArrayAssert usingComparatorForType(java.util.Comparator p0, Class p1) { return (AbstractObjectArrayAssert) (Object) null; }1693 public AbstractObjectArrayAssert usingFieldByFieldElementComparator() { return (AbstractObjectArrayAssert) (Object) null; }1694 public AbstractObjectArrayAssert usingRecursiveFieldByFieldElementComparator() { return (AbstractObjectArrayAssert) (Object) null; }1695 public AbstractObjectArrayAssert usingElementComparatorOnFields(String[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1696 public AbstractObjectArrayAssert usingElementComparatorIgnoringFields(String[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1697 public AbstractListAssert extracting(String p0) { return (AbstractListAssert) (Object) null; }1698 public AbstractListAssert extracting(String p0, Class p1) { return (AbstractListAssert) (Object) null; }1699 public AbstractListAssert extracting(String[] p0) { return (AbstractListAssert) (Object) null; }1700 public AbstractListAssert extracting(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1701 public AbstractListAssert extracting(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (AbstractListAssert) (Object) null; }1702 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1703 public AbstractListAssert flatExtracting(java.util.function.Function p0) { return (AbstractListAssert) (Object) null; }1704 public AbstractListAssert flatExtracting(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (AbstractListAssert) (Object) null; }1705 public AbstractListAssert flatExtracting(String p0) { return (AbstractListAssert) (Object) null; }1706 public AbstractListAssert extractingResultOf(String p0) { return (AbstractListAssert) (Object) null; }1707 public AbstractListAssert extractingResultOf(String p0, Class p1) { return (AbstractListAssert) (Object) null; }1708 public AbstractObjectArrayAssert inHexadecimal() { return (AbstractObjectArrayAssert) (Object) null; }1709 public AbstractObjectArrayAssert inBinary() { return (AbstractObjectArrayAssert) (Object) null; }1710 public AbstractObjectArrayAssert filteredOn(String p0, Object p1) { return (AbstractObjectArrayAssert) (Object) null; }1711 public AbstractObjectArrayAssert filteredOnNull(String p0) { return (AbstractObjectArrayAssert) (Object) null; }1712 public AbstractObjectArrayAssert filteredOn(String p0, org.assertj.core.api.filter.FilterOperator p1) { return (AbstractObjectArrayAssert) (Object) null; }1713 public AbstractObjectArrayAssert filteredOn(Condition p0) { return (AbstractObjectArrayAssert) (Object) null; }1714 public AbstractObjectArrayAssert filteredOn(java.util.function.Predicate p0) { return (AbstractObjectArrayAssert) (Object) null; }1715 public AbstractObjectArrayAssert filteredOn(java.util.function.Function p0, Object p1) { return (AbstractObjectArrayAssert) (Object) null; }1716 public AbstractObjectArrayAssert filteredOnAssertions(java.util.function.Consumer p0) { return (AbstractObjectArrayAssert) (Object) null; }1717 public AbstractObjectArrayAssert allMatch(java.util.function.Predicate p0) { return (AbstractObjectArrayAssert) (Object) null; }1718 public AbstractObjectArrayAssert allMatch(java.util.function.Predicate p0, String p1) { return (AbstractObjectArrayAssert) (Object) null; }1719 public AbstractObjectArrayAssert allSatisfy(java.util.function.Consumer p0) { return (AbstractObjectArrayAssert) (Object) null; }1720 public AbstractObjectArrayAssert anyMatch(java.util.function.Predicate p0) { return (AbstractObjectArrayAssert) (Object) null; }1721 public AbstractObjectArrayAssert zipSatisfy(Object[] p0, java.util.function.BiConsumer p1) { return (AbstractObjectArrayAssert) (Object) null; }1722 public AbstractObjectArrayAssert anySatisfy(java.util.function.Consumer p0) { return (AbstractObjectArrayAssert) (Object) null; }1723 public AbstractObjectArrayAssert noneSatisfy(java.util.function.Consumer p0) { return (AbstractObjectArrayAssert) (Object) null; }1724 public AbstractObjectArrayAssert satisfiesExactly(java.util.function.Consumer[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1725 public AbstractObjectArrayAssert satisfiesExactlyInAnyOrder(java.util.function.Consumer[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1726 public AbstractObjectArrayAssert containsAnyOf(Object[] p0) { return (AbstractObjectArrayAssert) (Object) null; }1727 public AbstractObjectArrayAssert containsAnyElementsOf(Iterable p0) { return (AbstractObjectArrayAssert) (Object) null; }1728 public AbstractObjectArrayAssert noneMatch(java.util.function.Predicate p0) { return (AbstractObjectArrayAssert) (Object) null; }1729 public RecursiveComparisonAssert usingRecursiveComparison() { return (RecursiveComparisonAssert) (Object) null; }1730 public RecursiveComparisonAssert usingRecursiveComparison(org.assertj.core.api.recursive.comparison.RecursiveComparisonConfiguration p0) { return (RecursiveComparisonAssert) (Object) null; }1731}1732---1733package org.assertj.core.api;1734import java.io.*;1735public abstract class AbstractObjectAssert extends AbstractAssert {1736 public void AbstractObjectAssert(Object p0, Class p1) {}1737 public AbstractObjectAssert as(org.assertj.core.description.Description p0) { return (AbstractObjectAssert) (Object) null; }1738 public AbstractObjectAssert as(String p0, Object[] p1) { return (AbstractObjectAssert) (Object) null; }1739 public AbstractObjectAssert isEqualToIgnoringNullFields(Object p0) { return (AbstractObjectAssert) (Object) null; }1740 public AbstractObjectAssert isEqualToComparingOnlyGivenFields(Object p0, String[] p1) { return (AbstractObjectAssert) (Object) null; }1741 public AbstractObjectAssert isEqualToIgnoringGivenFields(Object p0, String[] p1) { return (AbstractObjectAssert) (Object) null; }1742 public AbstractObjectAssert hasNoNullFieldsOrProperties() { return (AbstractObjectAssert) (Object) null; }1743 public AbstractObjectAssert hasAllNullFieldsOrProperties() { return (AbstractObjectAssert) (Object) null; }1744 public AbstractObjectAssert hasNoNullFieldsOrPropertiesExcept(String[] p0) { return (AbstractObjectAssert) (Object) null; }1745 public AbstractObjectAssert hasAllNullFieldsOrPropertiesExcept(String[] p0) { return (AbstractObjectAssert) (Object) null; }1746 public AbstractObjectAssert isEqualToComparingFieldByField(Object p0) { return (AbstractObjectAssert) (Object) null; }1747 public AbstractObjectAssert usingComparatorForFields(java.util.Comparator p0, String[] p1) { return (AbstractObjectAssert) (Object) null; }1748 public AbstractObjectAssert usingComparatorForType(java.util.Comparator p0, Class p1) { return (AbstractObjectAssert) (Object) null; }1749 public AbstractObjectAssert hasFieldOrProperty(String p0) { return (AbstractObjectAssert) (Object) null; }1750 public AbstractObjectAssert hasFieldOrPropertyWithValue(String p0, Object p1) { return (AbstractObjectAssert) (Object) null; }1751 public AbstractObjectAssert hasOnlyFields(String[] p0) { return (AbstractObjectAssert) (Object) null; }1752 public AbstractListAssert extracting(String[] p0) { return (AbstractListAssert) (Object) null; }1753 public AbstractObjectAssert extracting(String p0) { return (AbstractObjectAssert) (Object) null; }1754 public AbstractAssert extracting(String p0, InstanceOfAssertFactory p1) { return (AbstractAssert) (Object) null; }1755 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }1756 public AbstractObjectAssert extracting(java.util.function.Function p0) { return (AbstractObjectAssert) (Object) null; }1757 public AbstractAssert extracting(java.util.function.Function p0, InstanceOfAssertFactory p1) { return (AbstractAssert) (Object) null; }1758 public AbstractObjectAssert isEqualToComparingFieldByFieldRecursively(Object p0) { return (AbstractObjectAssert) (Object) null; }1759 public AbstractObjectAssert returns(Object p0, java.util.function.Function p1) { return (AbstractObjectAssert) (Object) null; }1760 public RecursiveComparisonAssert usingRecursiveComparison() { return (RecursiveComparisonAssert) (Object) null; }1761 public RecursiveComparisonAssert usingRecursiveComparison(org.assertj.core.api.recursive.comparison.RecursiveComparisonConfiguration p0) { return (RecursiveComparisonAssert) (Object) null; }1762}1763---1764package org.assertj.core.api;1765import java.io.*;1766public abstract class AbstractOffsetDateTimeAssert extends AbstractTemporalAssert {1767 public static String NULL_OFFSET_DATE_TIME_PARAMETER_MESSAGE;1768 public AbstractOffsetDateTimeAssert isBefore(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1769 public AbstractOffsetDateTimeAssert isBefore(String p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1770 public AbstractOffsetDateTimeAssert isBeforeOrEqualTo(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1771 public AbstractOffsetDateTimeAssert isBeforeOrEqualTo(String p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1772 public AbstractOffsetDateTimeAssert isAfterOrEqualTo(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1773 public AbstractOffsetDateTimeAssert isAfterOrEqualTo(String p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1774 public AbstractOffsetDateTimeAssert isAfter(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1775 public AbstractOffsetDateTimeAssert isAfter(String p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1776 public AbstractOffsetDateTimeAssert isEqualTo(Object p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1777 public AbstractOffsetDateTimeAssert isCloseToUtcNow(org.assertj.core.data.TemporalUnitOffset p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1778 public AbstractOffsetDateTimeAssert isEqualTo(String p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1779 public AbstractOffsetDateTimeAssert isNotEqualTo(Object p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1780 public AbstractOffsetDateTimeAssert isNotEqualTo(String p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1781 public AbstractOffsetDateTimeAssert isIn(String[] p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1782 public AbstractOffsetDateTimeAssert isNotIn(String[] p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1783 public AbstractOffsetDateTimeAssert isEqualToIgnoringNanos(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1784 public AbstractOffsetDateTimeAssert isEqualToIgnoringTimezone(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1785 public AbstractOffsetDateTimeAssert isEqualToIgnoringSeconds(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1786 public AbstractOffsetDateTimeAssert isEqualToIgnoringMinutes(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1787 public AbstractOffsetDateTimeAssert isEqualToIgnoringHours(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1788 public AbstractOffsetDateTimeAssert isBetween(java.time.OffsetDateTime p0, java.time.OffsetDateTime p1) { return (AbstractOffsetDateTimeAssert) (Object) null; }1789 public AbstractOffsetDateTimeAssert isBetween(String p0, String p1) { return (AbstractOffsetDateTimeAssert) (Object) null; }1790 public AbstractOffsetDateTimeAssert isStrictlyBetween(java.time.OffsetDateTime p0, java.time.OffsetDateTime p1) { return (AbstractOffsetDateTimeAssert) (Object) null; }1791 public AbstractOffsetDateTimeAssert isStrictlyBetween(String p0, String p1) { return (AbstractOffsetDateTimeAssert) (Object) null; }1792 public AbstractOffsetDateTimeAssert usingDefaultComparator() { return (AbstractOffsetDateTimeAssert) (Object) null; }1793 public AbstractOffsetDateTimeAssert isAtSameInstantAs(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }1794}1795---1796package org.assertj.core.api;1797import java.io.*;1798public abstract class AbstractOffsetTimeAssert extends AbstractTemporalAssert {1799 public static String NULL_OFFSET_TIME_PARAMETER_MESSAGE;1800 public AbstractOffsetTimeAssert isBefore(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1801 public AbstractOffsetTimeAssert isBefore(String p0) { return (AbstractOffsetTimeAssert) (Object) null; }1802 public AbstractOffsetTimeAssert isBeforeOrEqualTo(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1803 public AbstractOffsetTimeAssert isBeforeOrEqualTo(String p0) { return (AbstractOffsetTimeAssert) (Object) null; }1804 public AbstractOffsetTimeAssert isAfterOrEqualTo(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1805 public AbstractOffsetTimeAssert isAfterOrEqualTo(String p0) { return (AbstractOffsetTimeAssert) (Object) null; }1806 public AbstractOffsetTimeAssert isAfter(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1807 public AbstractOffsetTimeAssert isAfter(String p0) { return (AbstractOffsetTimeAssert) (Object) null; }1808 public AbstractOffsetTimeAssert isEqualTo(String p0) { return (AbstractOffsetTimeAssert) (Object) null; }1809 public AbstractOffsetTimeAssert isNotEqualTo(String p0) { return (AbstractOffsetTimeAssert) (Object) null; }1810 public AbstractOffsetTimeAssert isIn(String[] p0) { return (AbstractOffsetTimeAssert) (Object) null; }1811 public AbstractOffsetTimeAssert isNotIn(String[] p0) { return (AbstractOffsetTimeAssert) (Object) null; }1812 public AbstractOffsetTimeAssert isEqualToIgnoringNanos(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1813 public AbstractOffsetTimeAssert isEqualToIgnoringSeconds(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1814 public AbstractOffsetTimeAssert isEqualToIgnoringTimezone(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1815 public AbstractOffsetTimeAssert hasSameHourAs(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }1816 public AbstractOffsetTimeAssert isBetween(java.time.OffsetTime p0, java.time.OffsetTime p1) { return (AbstractOffsetTimeAssert) (Object) null; }1817 public AbstractOffsetTimeAssert isBetween(String p0, String p1) { return (AbstractOffsetTimeAssert) (Object) null; }1818 public AbstractOffsetTimeAssert isStrictlyBetween(java.time.OffsetTime p0, java.time.OffsetTime p1) { return (AbstractOffsetTimeAssert) (Object) null; }1819 public AbstractOffsetTimeAssert isStrictlyBetween(String p0, String p1) { return (AbstractOffsetTimeAssert) (Object) null; }1820}1821---1822package org.assertj.core.api;1823import java.io.*;1824public abstract class AbstractOptionalAssert extends AbstractAssert {1825 public AbstractOptionalAssert isPresent() { return (AbstractOptionalAssert) (Object) null; }1826 public AbstractOptionalAssert isNotEmpty() { return (AbstractOptionalAssert) (Object) null; }1827 public AbstractOptionalAssert isEmpty() { return (AbstractOptionalAssert) (Object) null; }1828 public AbstractOptionalAssert isNotPresent() { return (AbstractOptionalAssert) (Object) null; }1829 public AbstractOptionalAssert contains(Object p0) { return (AbstractOptionalAssert) (Object) null; }1830 public AbstractOptionalAssert hasValueSatisfying(java.util.function.Consumer p0) { return (AbstractOptionalAssert) (Object) null; }1831 public AbstractOptionalAssert hasValueSatisfying(Condition p0) { return (AbstractOptionalAssert) (Object) null; }1832 public AbstractOptionalAssert hasValue(Object p0) { return (AbstractOptionalAssert) (Object) null; }1833 public AbstractOptionalAssert containsInstanceOf(Class p0) { return (AbstractOptionalAssert) (Object) null; }1834 public AbstractOptionalAssert usingFieldByFieldValueComparator() { return (AbstractOptionalAssert) (Object) null; }1835 public AbstractOptionalAssert usingValueComparator(java.util.Comparator p0) { return (AbstractOptionalAssert) (Object) null; }1836 public AbstractOptionalAssert usingDefaultValueComparator() { return (AbstractOptionalAssert) (Object) null; }1837 public AbstractOptionalAssert containsSame(Object p0) { return (AbstractOptionalAssert) (Object) null; }1838 public AbstractOptionalAssert flatMap(java.util.function.Function p0) { return (AbstractOptionalAssert) (Object) null; }1839 public AbstractOptionalAssert map(java.util.function.Function p0) { return (AbstractOptionalAssert) (Object) null; }1840 public AbstractObjectAssert get() { return (AbstractObjectAssert) (Object) null; }1841 public AbstractAssert get(InstanceOfAssertFactory p0) { return (AbstractAssert) (Object) null; }1842 public RecursiveComparisonAssert usingRecursiveComparison() { return (RecursiveComparisonAssert) (Object) null; }1843 public RecursiveComparisonAssert usingRecursiveComparison(org.assertj.core.api.recursive.comparison.RecursiveComparisonConfiguration p0) { return (RecursiveComparisonAssert) (Object) null; }1844}1845---1846package org.assertj.core.api;1847import java.io.*;1848public abstract class AbstractOptionalDoubleAssert extends AbstractAssert {1849 public AbstractOptionalDoubleAssert isPresent() { return (AbstractOptionalDoubleAssert) (Object) null; }1850 public AbstractOptionalDoubleAssert isNotPresent() { return (AbstractOptionalDoubleAssert) (Object) null; }1851 public AbstractOptionalDoubleAssert isEmpty() { return (AbstractOptionalDoubleAssert) (Object) null; }1852 public AbstractOptionalDoubleAssert isNotEmpty() { return (AbstractOptionalDoubleAssert) (Object) null; }1853 public AbstractOptionalDoubleAssert hasValue(double p0) { return (AbstractOptionalDoubleAssert) (Object) null; }1854 public AbstractOptionalDoubleAssert hasValueCloseTo(Double p0, org.assertj.core.data.Offset p1) { return (AbstractOptionalDoubleAssert) (Object) null; }1855 public AbstractOptionalDoubleAssert hasValueCloseTo(Double p0, org.assertj.core.data.Percentage p1) { return (AbstractOptionalDoubleAssert) (Object) null; }1856}1857---1858package org.assertj.core.api;1859import java.io.*;1860public abstract class AbstractOptionalIntAssert extends AbstractAssert {1861 public AbstractOptionalIntAssert isPresent() { return (AbstractOptionalIntAssert) (Object) null; }1862 public AbstractOptionalIntAssert isNotPresent() { return (AbstractOptionalIntAssert) (Object) null; }1863 public AbstractOptionalIntAssert isEmpty() { return (AbstractOptionalIntAssert) (Object) null; }1864 public AbstractOptionalIntAssert isNotEmpty() { return (AbstractOptionalIntAssert) (Object) null; }1865 public AbstractOptionalIntAssert hasValue(int p0) { return (AbstractOptionalIntAssert) (Object) null; }1866}1867---1868package org.assertj.core.api;1869import java.io.*;1870public abstract class AbstractOptionalLongAssert extends AbstractAssert {1871 public AbstractOptionalLongAssert isPresent() { return (AbstractOptionalLongAssert) (Object) null; }1872 public AbstractOptionalLongAssert isNotPresent() { return (AbstractOptionalLongAssert) (Object) null; }1873 public AbstractOptionalLongAssert isEmpty() { return (AbstractOptionalLongAssert) (Object) null; }1874 public AbstractOptionalLongAssert isNotEmpty() { return (AbstractOptionalLongAssert) (Object) null; }1875 public AbstractOptionalLongAssert hasValue(long p0) { return (AbstractOptionalLongAssert) (Object) null; }1876}1877---1878package org.assertj.core.api;1879import java.io.*;1880public abstract class AbstractPathAssert extends AbstractComparableAssert {1881 public AbstractPathAssert hasSameContentAs(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1882 public AbstractPathAssert hasSameTextualContentAs(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1883 public AbstractPathAssert hasSameTextualContentAs(java.nio.file.Path p0, java.nio.charset.Charset p1) { return (AbstractPathAssert) (Object) null; }1884 public AbstractPathAssert hasSameContentAs(java.nio.file.Path p0, java.nio.charset.Charset p1) { return (AbstractPathAssert) (Object) null; }1885 public AbstractPathAssert hasBinaryContent(byte[] p0) { return (AbstractPathAssert) (Object) null; }1886 public AbstractPathAssert hasSameBinaryContentAs(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1887 public AbstractPathAssert usingCharset(String p0) { return (AbstractPathAssert) (Object) null; }1888 public AbstractPathAssert usingCharset(java.nio.charset.Charset p0) { return (AbstractPathAssert) (Object) null; }1889 public AbstractPathAssert hasContent(String p0) { return (AbstractPathAssert) (Object) null; }1890 public AbstractPathAssert isReadable() { return (AbstractPathAssert) (Object) null; }1891 public AbstractPathAssert isWritable() { return (AbstractPathAssert) (Object) null; }1892 public AbstractPathAssert isExecutable() { return (AbstractPathAssert) (Object) null; }1893 public AbstractPathAssert exists() { return (AbstractPathAssert) (Object) null; }1894 public AbstractPathAssert existsNoFollowLinks() { return (AbstractPathAssert) (Object) null; }1895 public AbstractPathAssert doesNotExist() { return (AbstractPathAssert) (Object) null; }1896 public AbstractPathAssert isRegularFile() { return (AbstractPathAssert) (Object) null; }1897 public AbstractPathAssert isDirectory() { return (AbstractPathAssert) (Object) null; }1898 public AbstractPathAssert isSymbolicLink() { return (AbstractPathAssert) (Object) null; }1899 public AbstractPathAssert isAbsolute() { return (AbstractPathAssert) (Object) null; }1900 public AbstractPathAssert isRelative() { return (AbstractPathAssert) (Object) null; }1901 public AbstractPathAssert isNormalized() { return (AbstractPathAssert) (Object) null; }1902 public AbstractPathAssert isCanonical() { return (AbstractPathAssert) (Object) null; }1903 public AbstractPathAssert hasFileName(String p0) { return (AbstractPathAssert) (Object) null; }1904 public AbstractPathAssert hasParent(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1905 public AbstractPathAssert hasParentRaw(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1906 public AbstractPathAssert hasNoParent() { return (AbstractPathAssert) (Object) null; }1907 public AbstractPathAssert hasNoParentRaw() { return (AbstractPathAssert) (Object) null; }1908 public AbstractPathAssert startsWith(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1909 public AbstractPathAssert startsWithRaw(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1910 public AbstractPathAssert endsWith(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1911 public AbstractPathAssert endsWithRaw(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }1912 public AbstractPathAssert hasDigest(java.security.MessageDigest p0, byte[] p1) { return (AbstractPathAssert) (Object) null; }1913 public AbstractPathAssert hasDigest(java.security.MessageDigest p0, String p1) { return (AbstractPathAssert) (Object) null; }1914 public AbstractPathAssert hasDigest(String p0, byte[] p1) { return (AbstractPathAssert) (Object) null; }1915 public AbstractPathAssert hasDigest(String p0, String p1) { return (AbstractPathAssert) (Object) null; }1916 public AbstractPathAssert isDirectoryContaining(java.util.function.Predicate p0) { return (AbstractPathAssert) (Object) null; }1917 public AbstractPathAssert isDirectoryContaining(String p0) { return (AbstractPathAssert) (Object) null; }1918 public AbstractPathAssert isDirectoryRecursivelyContaining(String p0) { return (AbstractPathAssert) (Object) null; }1919 public AbstractPathAssert isDirectoryRecursivelyContaining(java.util.function.Predicate p0) { return (AbstractPathAssert) (Object) null; }1920 public AbstractPathAssert isDirectoryNotContaining(java.util.function.Predicate p0) { return (AbstractPathAssert) (Object) null; }1921 public AbstractPathAssert isDirectoryNotContaining(String p0) { return (AbstractPathAssert) (Object) null; }1922 public AbstractPathAssert isEmptyDirectory() { return (AbstractPathAssert) (Object) null; }1923 public AbstractPathAssert isNotEmptyDirectory() { return (AbstractPathAssert) (Object) null; }1924 public AbstractPathAssert isEmptyFile() { return (AbstractPathAssert) (Object) null; }1925 public AbstractPathAssert isNotEmptyFile() { return (AbstractPathAssert) (Object) null; }1926}1927---1928package org.assertj.core.api;1929import java.io.*;1930public abstract class AbstractPeriodAssert extends AbstractAssert {1931 public AbstractPeriodAssert hasYears(int p0) { return (AbstractPeriodAssert) (Object) null; }1932 public AbstractPeriodAssert hasMonths(int p0) { return (AbstractPeriodAssert) (Object) null; }1933 public AbstractPeriodAssert hasDays(int p0) { return (AbstractPeriodAssert) (Object) null; }1934 public AbstractPeriodAssert isPositive() { return (AbstractPeriodAssert) (Object) null; }1935 public AbstractPeriodAssert isNegative() { return (AbstractPeriodAssert) (Object) null; }1936}1937---1938package org.assertj.core.api;1939import java.io.*;1940public abstract class AbstractPredicateAssert extends AbstractAssert {1941 public AbstractPredicateAssert accepts(Object[] p0) { return (AbstractPredicateAssert) (Object) null; }1942 public AbstractPredicateAssert rejects(Object[] p0) { return (AbstractPredicateAssert) (Object) null; }1943 public AbstractPredicateAssert acceptsAll(Iterable p0) { return (AbstractPredicateAssert) (Object) null; }1944 public AbstractPredicateAssert rejectsAll(Iterable p0) { return (AbstractPredicateAssert) (Object) null; }1945}1946---1947package org.assertj.core.api;1948import java.io.*;1949abstract class AbstractPredicateLikeAssert extends AbstractAssert {1950}1951---1952package org.assertj.core.api;1953import java.io.*;1954public abstract class AbstractShortArrayAssert extends AbstractArrayAssert {1955 public void isNullOrEmpty() {}1956 public void isEmpty() {}1957 public AbstractShortArrayAssert isNotEmpty() { return (AbstractShortArrayAssert) (Object) null; }1958 public AbstractShortArrayAssert hasSize(int p0) { return (AbstractShortArrayAssert) (Object) null; }1959 public AbstractShortArrayAssert hasSizeGreaterThan(int p0) { return (AbstractShortArrayAssert) (Object) null; }1960 public AbstractShortArrayAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AbstractShortArrayAssert) (Object) null; }1961 public AbstractShortArrayAssert hasSizeLessThan(int p0) { return (AbstractShortArrayAssert) (Object) null; }1962 public AbstractShortArrayAssert hasSizeLessThanOrEqualTo(int p0) { return (AbstractShortArrayAssert) (Object) null; }1963 public AbstractShortArrayAssert hasSizeBetween(int p0, int p1) { return (AbstractShortArrayAssert) (Object) null; }1964 public AbstractShortArrayAssert hasSameSizeAs(Iterable p0) { return (AbstractShortArrayAssert) (Object) null; }1965 public AbstractShortArrayAssert contains(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1966 public AbstractShortArrayAssert contains(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1967 public AbstractShortArrayAssert contains(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1968 public AbstractShortArrayAssert containsOnly(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1969 public AbstractShortArrayAssert containsOnly(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1970 public AbstractShortArrayAssert containsOnly(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1971 public AbstractShortArrayAssert containsOnlyOnce(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1972 public AbstractShortArrayAssert containsOnlyOnce(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1973 public AbstractShortArrayAssert containsOnlyOnce(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1974 public AbstractShortArrayAssert containsSequence(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1975 public AbstractShortArrayAssert containsSequence(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1976 public AbstractShortArrayAssert containsSequence(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1977 public AbstractShortArrayAssert containsSubsequence(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1978 public AbstractShortArrayAssert containsSubsequence(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1979 public AbstractShortArrayAssert containsSubsequence(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1980 public AbstractShortArrayAssert contains(short p0, org.assertj.core.data.Index p1) { return (AbstractShortArrayAssert) (Object) null; }1981 public AbstractShortArrayAssert contains(int p0, org.assertj.core.data.Index p1) { return (AbstractShortArrayAssert) (Object) null; }1982 public AbstractShortArrayAssert doesNotContain(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1983 public AbstractShortArrayAssert doesNotContain(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1984 public AbstractShortArrayAssert doesNotContain(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1985 public AbstractShortArrayAssert doesNotContain(short p0, org.assertj.core.data.Index p1) { return (AbstractShortArrayAssert) (Object) null; }1986 public AbstractShortArrayAssert doesNotContain(int p0, org.assertj.core.data.Index p1) { return (AbstractShortArrayAssert) (Object) null; }1987 public AbstractShortArrayAssert doesNotHaveDuplicates() { return (AbstractShortArrayAssert) (Object) null; }1988 public AbstractShortArrayAssert startsWith(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1989 public AbstractShortArrayAssert startsWith(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1990 public AbstractShortArrayAssert startsWith(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1991 public AbstractShortArrayAssert endsWith(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1992 public AbstractShortArrayAssert endsWith(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1993 public AbstractShortArrayAssert endsWith(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }1994 public AbstractShortArrayAssert isSorted() { return (AbstractShortArrayAssert) (Object) null; }1995 public AbstractShortArrayAssert isSortedAccordingTo(java.util.Comparator p0) { return (AbstractShortArrayAssert) (Object) null; }1996 public AbstractShortArrayAssert usingElementComparator(java.util.Comparator p0) { return (AbstractShortArrayAssert) (Object) null; }1997 public AbstractShortArrayAssert usingDefaultElementComparator() { return (AbstractShortArrayAssert) (Object) null; }1998 public AbstractShortArrayAssert containsExactly(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }1999 public AbstractShortArrayAssert containsExactly(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2000 public AbstractShortArrayAssert containsExactly(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }2001 public AbstractShortArrayAssert containsExactlyInAnyOrder(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2002 public AbstractShortArrayAssert containsExactlyInAnyOrder(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2003 public AbstractShortArrayAssert containsExactlyInAnyOrder(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }2004 public AbstractShortArrayAssert containsAnyOf(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2005 public AbstractShortArrayAssert containsAnyOf(Short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2006 public AbstractShortArrayAssert containsAnyOf(int[] p0) { return (AbstractShortArrayAssert) (Object) null; }2007}2008---2009package org.assertj.core.api;2010import java.io.*;2011public abstract class AbstractShortAssert extends AbstractComparableAssert implements NumberAssert {2012 public AbstractShortAssert isEqualTo(short p0) { return (AbstractShortAssert) (Object) null; }2013 public AbstractShortAssert isNotEqualTo(short p0) { return (AbstractShortAssert) (Object) null; }2014 public AbstractShortAssert isZero() { return (AbstractShortAssert) (Object) null; }2015 public AbstractShortAssert isNotZero() { return (AbstractShortAssert) (Object) null; }2016 public AbstractShortAssert isOne() { return (AbstractShortAssert) (Object) null; }2017 public AbstractShortAssert isPositive() { return (AbstractShortAssert) (Object) null; }2018 public AbstractShortAssert isNegative() { return (AbstractShortAssert) (Object) null; }2019 public AbstractShortAssert isNotNegative() { return (AbstractShortAssert) (Object) null; }2020 public AbstractShortAssert isNotPositive() { return (AbstractShortAssert) (Object) null; }2021 public AbstractShortAssert isEven() { return (AbstractShortAssert) (Object) null; }2022 public AbstractShortAssert isOdd() { return (AbstractShortAssert) (Object) null; }2023 public AbstractShortAssert isLessThan(short p0) { return (AbstractShortAssert) (Object) null; }2024 public AbstractShortAssert isLessThanOrEqualTo(short p0) { return (AbstractShortAssert) (Object) null; }2025 public AbstractShortAssert isGreaterThan(short p0) { return (AbstractShortAssert) (Object) null; }2026 public AbstractShortAssert isGreaterThanOrEqualTo(short p0) { return (AbstractShortAssert) (Object) null; }2027 public AbstractShortAssert isBetween(Short p0, Short p1) { return (AbstractShortAssert) (Object) null; }2028 public AbstractShortAssert isStrictlyBetween(Short p0, Short p1) { return (AbstractShortAssert) (Object) null; }2029 public AbstractShortAssert isCloseTo(short p0, org.assertj.core.data.Offset p1) { return (AbstractShortAssert) (Object) null; }2030 public AbstractShortAssert isNotCloseTo(short p0, org.assertj.core.data.Offset p1) { return (AbstractShortAssert) (Object) null; }2031 public AbstractShortAssert isCloseTo(Short p0, org.assertj.core.data.Offset p1) { return (AbstractShortAssert) (Object) null; }2032 public AbstractShortAssert isNotCloseTo(Short p0, org.assertj.core.data.Offset p1) { return (AbstractShortAssert) (Object) null; }2033 public AbstractShortAssert isCloseTo(Short p0, org.assertj.core.data.Percentage p1) { return (AbstractShortAssert) (Object) null; }2034 public AbstractShortAssert isNotCloseTo(Short p0, org.assertj.core.data.Percentage p1) { return (AbstractShortAssert) (Object) null; }2035 public AbstractShortAssert isCloseTo(short p0, org.assertj.core.data.Percentage p1) { return (AbstractShortAssert) (Object) null; }2036 public AbstractShortAssert isNotCloseTo(short p0, org.assertj.core.data.Percentage p1) { return (AbstractShortAssert) (Object) null; }2037 public AbstractShortAssert usingComparator(java.util.Comparator p0) { return (AbstractShortAssert) (Object) null; }2038 public AbstractShortAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractShortAssert) (Object) null; }2039 public AbstractShortAssert usingDefaultComparator() { return (AbstractShortAssert) (Object) null; }2040 public AbstractComparableAssert isStrictlyBetween(Comparable p0, Comparable p1) { return (AbstractComparableAssert) (Object) null; }2041 public AbstractComparableAssert isBetween(Comparable p0, Comparable p1) { return (AbstractComparableAssert) (Object) null; }2042 public NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Percentage p1) { return (NumberAssert) (Object) null; }2043 public NumberAssert isCloseTo(Number p0, org.assertj.core.data.Percentage p1) { return (NumberAssert) (Object) null; }2044 public NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Offset p1) { return (NumberAssert) (Object) null; }2045 public NumberAssert isCloseTo(Number p0, org.assertj.core.data.Offset p1) { return (NumberAssert) (Object) null; }2046 public NumberAssert isStrictlyBetween(Number p0, Number p1) { return (NumberAssert) (Object) null; }2047 public NumberAssert isBetween(Number p0, Number p1) { return (NumberAssert) (Object) null; }2048}2049---2050package org.assertj.core.api;2051import java.io.*;2052public class AbstractSpliteratorAssert extends AbstractAssert {2053 public AbstractSpliteratorAssert hasCharacteristics(int[] p0) { return (AbstractSpliteratorAssert) (Object) null; }2054 public AbstractSpliteratorAssert hasOnlyCharacteristics(int[] p0) { return (AbstractSpliteratorAssert) (Object) null; }2055}2056---2057package org.assertj.core.api;2058import java.io.*;2059public class AbstractStringAssert extends AbstractCharSequenceAssert {2060 public AbstractStringAssert isLessThan(String p0) { return (AbstractStringAssert) (Object) null; }2061 public AbstractStringAssert isLessThanOrEqualTo(String p0) { return (AbstractStringAssert) (Object) null; }2062 public AbstractStringAssert isGreaterThan(String p0) { return (AbstractStringAssert) (Object) null; }2063 public AbstractStringAssert isGreaterThanOrEqualTo(String p0) { return (AbstractStringAssert) (Object) null; }2064 public AbstractStringAssert isBetween(String p0, String p1) { return (AbstractStringAssert) (Object) null; }2065 public AbstractStringAssert isStrictlyBetween(String p0, String p1) { return (AbstractStringAssert) (Object) null; }2066 public AbstractStringAssert isBase64() { return (AbstractStringAssert) (Object) null; }2067 public AbstractByteArrayAssert decodedAsBase64() { return (AbstractByteArrayAssert) (Object) null; }2068 public AbstractStringAssert usingComparator(java.util.Comparator p0) { return (AbstractStringAssert) (Object) null; }2069 public AbstractStringAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractStringAssert) (Object) null; }2070 public AbstractStringAssert usingDefaultComparator() { return (AbstractStringAssert) (Object) null; }2071 public AbstractStringAssert isEqualTo(String p0, Object[] p1) { return (AbstractStringAssert) (Object) null; }2072 public AbstractStringAssert isEqualTo(String p0) { return (AbstractStringAssert) (Object) null; }2073}2074---2075package org.assertj.core.api;2076import java.io.*;2077public abstract class AbstractTemporalAssert extends AbstractAssert {2078 public AbstractTemporalAssert isCloseTo(java.time.temporal.Temporal p0, org.assertj.core.data.TemporalOffset p1) { return (AbstractTemporalAssert) (Object) null; }2079 public AbstractTemporalAssert isCloseTo(String p0, org.assertj.core.data.TemporalOffset p1) { return (AbstractTemporalAssert) (Object) null; }2080 public AbstractTemporalAssert usingComparator(java.util.Comparator p0) { return (AbstractTemporalAssert) (Object) null; }2081 public AbstractTemporalAssert usingComparator(java.util.Comparator p0, String p1) { return (AbstractTemporalAssert) (Object) null; }2082 public AbstractTemporalAssert usingDefaultComparator() { return (AbstractTemporalAssert) (Object) null; }2083}2084---2085package org.assertj.core.api;2086import java.io.*;2087public abstract class AbstractThrowableAssert extends AbstractObjectAssert {2088 public interface ThrowingCallable {2089 void call() throws Throwable;2090 }2091 public AbstractThrowableAssert hasMessage(String p0) { return (AbstractThrowableAssert) (Object) null; }2092 public AbstractThrowableAssert hasMessage(String p0, Object[] p1) { return (AbstractThrowableAssert) (Object) null; }2093 public AbstractThrowableAssert hasCause(Throwable p0) { return (AbstractThrowableAssert) (Object) null; }2094 public AbstractThrowableAssert hasCauseReference(Throwable p0) { return (AbstractThrowableAssert) (Object) null; }2095 public AbstractThrowableAssert hasNoCause() { return (AbstractThrowableAssert) (Object) null; }2096 public AbstractThrowableAssert getCause() { return (AbstractThrowableAssert) (Object) null; }2097 public AbstractThrowableAssert getRootCause() { return (AbstractThrowableAssert) (Object) null; }2098 public AbstractThrowableAssert hasMessageStartingWith(String p0) { return (AbstractThrowableAssert) (Object) null; }2099 public AbstractThrowableAssert hasMessageStartingWith(String p0, Object[] p1) { return (AbstractThrowableAssert) (Object) null; }2100 public AbstractThrowableAssert hasMessageContaining(String p0) { return (AbstractThrowableAssert) (Object) null; }2101 public AbstractThrowableAssert hasMessageContaining(String p0, Object[] p1) { return (AbstractThrowableAssert) (Object) null; }2102 public AbstractThrowableAssert hasMessageContainingAll(CharSequence[] p0) { return (AbstractThrowableAssert) (Object) null; }2103 public AbstractThrowableAssert hasMessageNotContaining(String p0) { return (AbstractThrowableAssert) (Object) null; }2104 public AbstractThrowableAssert hasMessageNotContainingAny(CharSequence[] p0) { return (AbstractThrowableAssert) (Object) null; }2105 public AbstractThrowableAssert hasStackTraceContaining(String p0) { return (AbstractThrowableAssert) (Object) null; }2106 public AbstractThrowableAssert hasStackTraceContaining(String p0, Object[] p1) { return (AbstractThrowableAssert) (Object) null; }2107 public AbstractThrowableAssert hasMessageMatching(String p0) { return (AbstractThrowableAssert) (Object) null; }2108 public AbstractThrowableAssert hasMessageFindingMatch(String p0) { return (AbstractThrowableAssert) (Object) null; }2109 public AbstractThrowableAssert hasMessageEndingWith(String p0) { return (AbstractThrowableAssert) (Object) null; }2110 public AbstractThrowableAssert hasMessageEndingWith(String p0, Object[] p1) { return (AbstractThrowableAssert) (Object) null; }2111 public AbstractThrowableAssert hasCauseInstanceOf(Class p0) { return (AbstractThrowableAssert) (Object) null; }2112 public AbstractThrowableAssert hasCauseExactlyInstanceOf(Class p0) { return (AbstractThrowableAssert) (Object) null; }2113 public AbstractThrowableAssert hasRootCause(Throwable p0) { return (AbstractThrowableAssert) (Object) null; }2114 public AbstractThrowableAssert hasRootCauseInstanceOf(Class p0) { return (AbstractThrowableAssert) (Object) null; }2115 public AbstractThrowableAssert hasRootCauseExactlyInstanceOf(Class p0) { return (AbstractThrowableAssert) (Object) null; }2116 public AbstractThrowableAssert hasRootCauseMessage(String p0) { return (AbstractThrowableAssert) (Object) null; }2117 public AbstractThrowableAssert hasRootCauseMessage(String p0, Object[] p1) { return (AbstractThrowableAssert) (Object) null; }2118 public AbstractThrowableAssert hasNoSuppressedExceptions() { return (AbstractThrowableAssert) (Object) null; }2119 public AbstractThrowableAssert hasSuppressedException(Throwable p0) { return (AbstractThrowableAssert) (Object) null; }2120 public void doesNotThrowAnyException() {}2121}2122---2123package org.assertj.core.api;2124import java.io.*;2125public abstract class AbstractUriAssert extends AbstractAssert {2126 public AbstractUriAssert hasPath(String p0) { return (AbstractUriAssert) (Object) null; }2127 public AbstractUriAssert hasNoPath() { return (AbstractUriAssert) (Object) null; }2128 public AbstractUriAssert hasPort(int p0) { return (AbstractUriAssert) (Object) null; }2129 public AbstractUriAssert hasNoPort() { return (AbstractUriAssert) (Object) null; }2130 public AbstractUriAssert hasHost(String p0) { return (AbstractUriAssert) (Object) null; }2131 public AbstractUriAssert hasAuthority(String p0) { return (AbstractUriAssert) (Object) null; }2132 public AbstractUriAssert hasFragment(String p0) { return (AbstractUriAssert) (Object) null; }2133 public AbstractUriAssert hasNoFragment() { return (AbstractUriAssert) (Object) null; }2134 public AbstractUriAssert hasQuery(String p0) { return (AbstractUriAssert) (Object) null; }2135 public AbstractUriAssert hasNoQuery() { return (AbstractUriAssert) (Object) null; }2136 public AbstractUriAssert hasScheme(String p0) { return (AbstractUriAssert) (Object) null; }2137 public AbstractUriAssert hasUserInfo(String p0) { return (AbstractUriAssert) (Object) null; }2138 public AbstractUriAssert hasNoUserInfo() { return (AbstractUriAssert) (Object) null; }2139 public AbstractUriAssert hasParameter(String p0) { return (AbstractUriAssert) (Object) null; }2140 public AbstractUriAssert hasParameter(String p0, String p1) { return (AbstractUriAssert) (Object) null; }2141 public AbstractUriAssert hasNoParameters() { return (AbstractUriAssert) (Object) null; }2142 public AbstractUriAssert hasNoParameter(String p0) { return (AbstractUriAssert) (Object) null; }2143 public AbstractUriAssert hasNoParameter(String p0, String p1) { return (AbstractUriAssert) (Object) null; }2144}2145---2146package org.assertj.core.api;2147import java.io.*;2148public abstract class AbstractUrlAssert extends AbstractAssert {2149 public AbstractUrlAssert hasProtocol(String p0) { return (AbstractUrlAssert) (Object) null; }2150 public AbstractUrlAssert hasPath(String p0) { return (AbstractUrlAssert) (Object) null; }2151 public AbstractUrlAssert hasNoPath() { return (AbstractUrlAssert) (Object) null; }2152 public AbstractUrlAssert hasPort(int p0) { return (AbstractUrlAssert) (Object) null; }2153 public AbstractUrlAssert hasNoPort() { return (AbstractUrlAssert) (Object) null; }2154 public AbstractUrlAssert hasHost(String p0) { return (AbstractUrlAssert) (Object) null; }2155 public AbstractUrlAssert hasAuthority(String p0) { return (AbstractUrlAssert) (Object) null; }2156 public AbstractUrlAssert hasQuery(String p0) { return (AbstractUrlAssert) (Object) null; }2157 public AbstractUrlAssert hasNoQuery() { return (AbstractUrlAssert) (Object) null; }2158 public AbstractUrlAssert hasAnchor(String p0) { return (AbstractUrlAssert) (Object) null; }2159 public AbstractUrlAssert hasNoAnchor() { return (AbstractUrlAssert) (Object) null; }2160 public AbstractUrlAssert hasUserInfo(String p0) { return (AbstractUrlAssert) (Object) null; }2161 public AbstractUrlAssert hasNoUserInfo() { return (AbstractUrlAssert) (Object) null; }2162 public AbstractUrlAssert hasParameter(String p0) { return (AbstractUrlAssert) (Object) null; }2163 public AbstractUrlAssert hasParameter(String p0, String p1) { return (AbstractUrlAssert) (Object) null; }2164 public AbstractUrlAssert hasNoParameters() { return (AbstractUrlAssert) (Object) null; }2165 public AbstractUrlAssert hasNoParameter(String p0) { return (AbstractUrlAssert) (Object) null; }2166 public AbstractUrlAssert hasNoParameter(String p0, String p1) { return (AbstractUrlAssert) (Object) null; }2167 public AbstractUrlAssert isEqualToWithSortedQueryParameters(java.net.URL p0) { return (AbstractUrlAssert) (Object) null; }2168}2169---2170package org.assertj.core.api;2171import java.io.*;2172public abstract class AbstractZonedDateTimeAssert extends AbstractTemporalAssert {2173 public static String NULL_DATE_TIME_PARAMETER_MESSAGE;2174 public AbstractZonedDateTimeAssert isBefore(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2175 public AbstractZonedDateTimeAssert isBefore(String p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2176 public AbstractZonedDateTimeAssert isBeforeOrEqualTo(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2177 public AbstractZonedDateTimeAssert isBeforeOrEqualTo(String p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2178 public AbstractZonedDateTimeAssert isAfterOrEqualTo(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2179 public AbstractZonedDateTimeAssert isAfterOrEqualTo(String p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2180 public AbstractZonedDateTimeAssert isAfter(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2181 public AbstractZonedDateTimeAssert isAfter(String p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2182 public AbstractZonedDateTimeAssert isEqualToIgnoringNanos(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2183 public AbstractZonedDateTimeAssert isEqualToIgnoringSeconds(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2184 public AbstractZonedDateTimeAssert isEqualToIgnoringMinutes(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2185 public AbstractZonedDateTimeAssert isEqualToIgnoringHours(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2186 public AbstractZonedDateTimeAssert isEqualTo(Object p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2187 public AbstractZonedDateTimeAssert isEqualTo(String p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2188 public AbstractZonedDateTimeAssert isNotEqualTo(Object p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2189 public AbstractZonedDateTimeAssert isNotEqualTo(String p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2190 public AbstractZonedDateTimeAssert isIn(java.time.ZonedDateTime[] p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2191 public AbstractZonedDateTimeAssert isIn(String[] p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2192 public AbstractZonedDateTimeAssert isNotIn(java.time.ZonedDateTime[] p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2193 public AbstractZonedDateTimeAssert isNotIn(String[] p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2194 public AbstractZonedDateTimeAssert isBetween(java.time.ZonedDateTime p0, java.time.ZonedDateTime p1) { return (AbstractZonedDateTimeAssert) (Object) null; }2195 public AbstractZonedDateTimeAssert isBetween(String p0, String p1) { return (AbstractZonedDateTimeAssert) (Object) null; }2196 public AbstractZonedDateTimeAssert isStrictlyBetween(java.time.ZonedDateTime p0, java.time.ZonedDateTime p1) { return (AbstractZonedDateTimeAssert) (Object) null; }2197 public AbstractZonedDateTimeAssert isStrictlyBetween(String p0, String p1) { return (AbstractZonedDateTimeAssert) (Object) null; }2198 public AbstractZonedDateTimeAssert usingDefaultComparator() { return (AbstractZonedDateTimeAssert) (Object) null; }2199}2200---2201package org.assertj.core.api;2202import java.io.*;2203public interface Array2DAssert {2204 void isNullOrEmpty();2205 void isEmpty();2206 Array2DAssert isNotEmpty();2207 Array2DAssert hasDimensions(int p0, int p1);2208 Array2DAssert hasSameDimensionsAs(Object p0);2209}2210---2211package org.assertj.core.api;2212import java.io.*;2213public interface ArraySortedAssert {2214 ArraySortedAssert isSorted();2215 ArraySortedAssert isSortedAccordingTo(java.util.Comparator p0);2216}2217---2218package org.assertj.core.api;2219import java.io.*;2220public interface Assert extends Descriptable, ExtensionPoints {2221 Assert isEqualTo(Object p0);2222 Assert isNotEqualTo(Object p0);2223 void isNull();2224 Assert isNotNull();2225 Assert isSameAs(Object p0);2226 Assert isNotSameAs(Object p0);2227 Assert isIn(Object[] p0);2228 Assert isNotIn(Object[] p0);2229 Assert isIn(Iterable p0);2230 Assert isNotIn(Iterable p0);2231 Assert usingComparator(java.util.Comparator p0);2232 Assert usingComparator(java.util.Comparator p0, String p1);2233 Assert usingDefaultComparator();2234 AbstractAssert asInstanceOf(InstanceOfAssertFactory p0);2235 Assert isInstanceOf(Class p0);2236 Assert isInstanceOfSatisfying(Class p0, java.util.function.Consumer p1);2237 Assert isInstanceOfAny(Class[] p0);2238 Assert isNotInstanceOf(Class p0);2239 Assert isNotInstanceOfAny(Class[] p0);2240 Assert hasSameClassAs(Object p0);2241 Assert hasToString(String p0);2242 Assert doesNotHaveToString(String p0);2243 Assert doesNotHaveSameClassAs(Object p0);2244 Assert isExactlyInstanceOf(Class p0);2245 Assert isNotExactlyInstanceOf(Class p0);2246 Assert isOfAnyClassIn(Class[] p0);2247 Assert isNotOfAnyClassIn(Class[] p0);2248 AbstractListAssert asList();2249 AbstractCharSequenceAssert asString();2250 boolean equals(Object p0);2251 Assert withThreadDumpOnError();2252 Assert withRepresentation(org.assertj.core.presentation.Representation p0);2253 Assert hasSameHashCodeAs(Object p0);2254 Assert doesNotHaveSameHashCodeAs(Object p0);2255}2256---2257package org.assertj.core.api;2258import java.io.*;2259public interface AssertDelegateTarget {2260}2261---2262package org.assertj.core.api;2263import java.io.*;2264public interface AssertFactory {2265 Assert createAssert(Object p0);2266}2267---2268package org.assertj.core.api;2269import java.io.*;2270public interface AssertProvider {2271 Object assertThat();2272}2273---2274package org.assertj.core.api;2275import java.io.*;2276public interface AssertionInfo {2277 String overridingErrorMessage();2278 org.assertj.core.description.Description description();2279 org.assertj.core.presentation.Representation representation();2280}2281---2282package org.assertj.core.api;2283import java.io.*;2284public class Assertions implements InstanceOfAssertFactories {2285 public static PredicateAssert assertThat(java.util.function.Predicate p0) { return (PredicateAssert) (Object) null; }2286 public static IntPredicateAssert assertThat(java.util.function.IntPredicate p0) { return (IntPredicateAssert) (Object) null; }2287 public static LongPredicateAssert assertThat(java.util.function.LongPredicate p0) { return (LongPredicateAssert) (Object) null; }2288 public static DoublePredicateAssert assertThat(java.util.function.DoublePredicate p0) { return (DoublePredicateAssert) (Object) null; }2289 public static CompletableFutureAssert assertThat(java.util.concurrent.CompletableFuture p0) { return (CompletableFutureAssert) (Object) null; }2290 public static CompletableFutureAssert assertThat(java.util.concurrent.CompletionStage p0) { return (CompletableFutureAssert) (Object) null; }2291 public static OptionalAssert assertThat(java.util.Optional p0) { return (OptionalAssert) (Object) null; }2292 public static OptionalDoubleAssert assertThat(java.util.OptionalDouble p0) { return (OptionalDoubleAssert) (Object) null; }2293 public static OptionalIntAssert assertThat(java.util.OptionalInt p0) { return (OptionalIntAssert) (Object) null; }2294 public static OptionalLongAssert assertThat(java.util.OptionalLong p0) { return (OptionalLongAssert) (Object) null; }2295 public static AbstractBigDecimalAssert assertThat(java.math.BigDecimal p0) { return (AbstractBigDecimalAssert) (Object) null; }2296 public static AbstractBigIntegerAssert assertThat(java.math.BigInteger p0) { return (AbstractBigIntegerAssert) (Object) null; }2297 public static AbstractUriAssert assertThat(java.net.URI p0) { return (AbstractUriAssert) (Object) null; }2298 public static AbstractUrlAssert assertThat(java.net.URL p0) { return (AbstractUrlAssert) (Object) null; }2299 public static AbstractBooleanAssert assertThat(boolean p0) { return (AbstractBooleanAssert) (Object) null; }2300 public static AbstractBooleanAssert assertThat(Boolean p0) { return (AbstractBooleanAssert) (Object) null; }2301 public static AbstractBooleanArrayAssert assertThat(boolean[] p0) { return (AbstractBooleanArrayAssert) (Object) null; }2302 public static Boolean2DArrayAssert assertThat(boolean[][] p0) { return (Boolean2DArrayAssert) (Object) null; }2303 public static AbstractByteAssert assertThat(byte p0) { return (AbstractByteAssert) (Object) null; }2304 public static AbstractByteAssert assertThat(Byte p0) { return (AbstractByteAssert) (Object) null; }2305 public static AbstractByteArrayAssert assertThat(byte[] p0) { return (AbstractByteArrayAssert) (Object) null; }2306 public static Byte2DArrayAssert assertThat(byte[][] p0) { return (Byte2DArrayAssert) (Object) null; }2307 public static AbstractCharacterAssert assertThat(char p0) { return (AbstractCharacterAssert) (Object) null; }2308 public static AbstractCharArrayAssert assertThat(char[] p0) { return (AbstractCharArrayAssert) (Object) null; }2309 public static Char2DArrayAssert assertThat(char[][] p0) { return (Char2DArrayAssert) (Object) null; }2310 public static AbstractCharacterAssert assertThat(Character p0) { return (AbstractCharacterAssert) (Object) null; }2311 public static ClassAssert assertThat(Class p0) { return (ClassAssert) (Object) null; }2312 public static AbstractDoubleAssert assertThat(double p0) { return (AbstractDoubleAssert) (Object) null; }2313 public static AbstractDoubleAssert assertThat(Double p0) { return (AbstractDoubleAssert) (Object) null; }2314 public static AbstractDoubleArrayAssert assertThat(double[] p0) { return (AbstractDoubleArrayAssert) (Object) null; }2315 public static Double2DArrayAssert assertThat(double[][] p0) { return (Double2DArrayAssert) (Object) null; }2316 public static AbstractFileAssert assertThat(File p0) { return (AbstractFileAssert) (Object) null; }2317 public static FutureAssert assertThat(java.util.concurrent.Future p0) { return (FutureAssert) (Object) null; }2318 public static AbstractInputStreamAssert assertThat(InputStream p0) { return (AbstractInputStreamAssert) (Object) null; }2319 public static AbstractFloatAssert assertThat(float p0) { return (AbstractFloatAssert) (Object) null; }2320 public static AbstractFloatAssert assertThat(Float p0) { return (AbstractFloatAssert) (Object) null; }2321 public static AbstractFloatArrayAssert assertThat(float[] p0) { return (AbstractFloatArrayAssert) (Object) null; }2322 public static AbstractIntegerAssert assertThat(int p0) { return (AbstractIntegerAssert) (Object) null; }2323 public static AbstractIntArrayAssert assertThat(int[] p0) { return (AbstractIntArrayAssert) (Object) null; }2324 public static Int2DArrayAssert assertThat(int[][] p0) { return (Int2DArrayAssert) (Object) null; }2325 public static Float2DArrayAssert assertThat(float[][] p0) { return (Float2DArrayAssert) (Object) null; }2326 public static AbstractIntegerAssert assertThat(Integer p0) { return (AbstractIntegerAssert) (Object) null; }2327 public static FactoryBasedNavigableIterableAssert assertThat(Iterable p0, AssertFactory p1) { return (FactoryBasedNavigableIterableAssert) (Object) null; }2328 public static ClassBasedNavigableIterableAssert assertThat(Iterable p0, Class p1) { return (ClassBasedNavigableIterableAssert) (Object) null; }2329 public static FactoryBasedNavigableListAssert assertThat(java.util.List p0, AssertFactory p1) { return (FactoryBasedNavigableListAssert) (Object) null; }2330 public static ClassBasedNavigableListAssert assertThat(java.util.List p0, Class p1) { return (ClassBasedNavigableListAssert) (Object) null; }2331 public static AbstractLongAssert assertThat(long p0) { return (AbstractLongAssert) (Object) null; }2332 public static AbstractLongAssert assertThat(Long p0) { return (AbstractLongAssert) (Object) null; }2333 public static AbstractLongArrayAssert assertThat(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }2334 public static Long2DArrayAssert assertThat(long[][] p0) { return (Long2DArrayAssert) (Object) null; }2335 public static ObjectAssert assertThat(Object p0) { return (ObjectAssert) (Object) null; }2336 public static ObjectArrayAssert assertThat(Object[] p0) { return (ObjectArrayAssert) (Object) null; }2337 public static Object2DArrayAssert assertThat(Object[][] p0) { return (Object2DArrayAssert) (Object) null; }2338 public static AbstractShortAssert assertThat(short p0) { return (AbstractShortAssert) (Object) null; }2339 public static AbstractShortAssert assertThat(Short p0) { return (AbstractShortAssert) (Object) null; }2340 public static AbstractShortArrayAssert assertThat(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2341 public static Short2DArrayAssert assertThat(short[][] p0) { return (Short2DArrayAssert) (Object) null; }2342 public static AbstractDateAssert assertThat(java.util.Date p0) { return (AbstractDateAssert) (Object) null; }2343 public static AbstractZonedDateTimeAssert assertThat(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2344 public static AbstractLocalDateTimeAssert assertThat(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }2345 public static AbstractOffsetDateTimeAssert assertThat(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }2346 public static AbstractOffsetTimeAssert assertThat(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }2347 public static AbstractLocalTimeAssert assertThat(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }2348 public static AbstractLocalDateAssert assertThat(java.time.LocalDate p0) { return (AbstractLocalDateAssert) (Object) null; }2349 public static AbstractInstantAssert assertThat(java.time.Instant p0) { return (AbstractInstantAssert) (Object) null; }2350 public static AbstractDurationAssert assertThat(java.time.Duration p0) { return (AbstractDurationAssert) (Object) null; }2351 public static AbstractPeriodAssert assertThat(java.time.Period p0) { return (AbstractPeriodAssert) (Object) null; }2352 public static AtomicBooleanAssert assertThat(java.util.concurrent.atomic.AtomicBoolean p0) { return (AtomicBooleanAssert) (Object) null; }2353 public static AtomicIntegerAssert assertThat(java.util.concurrent.atomic.AtomicInteger p0) { return (AtomicIntegerAssert) (Object) null; }2354 public static AtomicIntegerArrayAssert assertThat(java.util.concurrent.atomic.AtomicIntegerArray p0) { return (AtomicIntegerArrayAssert) (Object) null; }2355 public static AtomicIntegerFieldUpdaterAssert assertThat(java.util.concurrent.atomic.AtomicIntegerFieldUpdater p0) { return (AtomicIntegerFieldUpdaterAssert) (Object) null; }2356 public static LongAdderAssert assertThat(java.util.concurrent.atomic.LongAdder p0) { return (LongAdderAssert) (Object) null; }2357 public static AtomicLongAssert assertThat(java.util.concurrent.atomic.AtomicLong p0) { return (AtomicLongAssert) (Object) null; }2358 public static AtomicLongArrayAssert assertThat(java.util.concurrent.atomic.AtomicLongArray p0) { return (AtomicLongArrayAssert) (Object) null; }2359 public static AtomicLongFieldUpdaterAssert assertThat(java.util.concurrent.atomic.AtomicLongFieldUpdater p0) { return (AtomicLongFieldUpdaterAssert) (Object) null; }2360 public static AtomicReferenceAssert assertThat(java.util.concurrent.atomic.AtomicReference p0) { return (AtomicReferenceAssert) (Object) null; }2361 public static AtomicReferenceArrayAssert assertThat(java.util.concurrent.atomic.AtomicReferenceArray p0) { return (AtomicReferenceArrayAssert) (Object) null; }2362 public static AtomicReferenceFieldUpdaterAssert assertThat(java.util.concurrent.atomic.AtomicReferenceFieldUpdater p0) { return (AtomicReferenceFieldUpdaterAssert) (Object) null; }2363 public static AtomicMarkableReferenceAssert assertThat(java.util.concurrent.atomic.AtomicMarkableReference p0) { return (AtomicMarkableReferenceAssert) (Object) null; }2364 public static AtomicStampedReferenceAssert assertThat(java.util.concurrent.atomic.AtomicStampedReference p0) { return (AtomicStampedReferenceAssert) (Object) null; }2365 public static AbstractThrowableAssert assertThat(Throwable p0) { return (AbstractThrowableAssert) (Object) null; }2366 public static AbstractThrowableAssert assertThatThrownBy(ThrowableAssert.ThrowingCallable p0) { return (AbstractThrowableAssert) (Object) null; }2367 public static AbstractThrowableAssert assertThatThrownBy(ThrowableAssert.ThrowingCallable p0, String p1, Object[] p2) { return (AbstractThrowableAssert) (Object) null; }2368 public static AbstractThrowableAssert assertThatCode(ThrowableAssert.ThrowingCallable p0) { return (AbstractThrowableAssert) (Object) null; }2369 public static ObjectAssert assertThatObject(Object p0) { return (ObjectAssert) (Object) null; }2370 public static Throwable catchThrowable(ThrowableAssert.ThrowingCallable p0) { return (Throwable) (Object) null; }2371 public static Throwable catchThrowableOfType(ThrowableAssert.ThrowingCallable p0, Class p1) { return (Throwable) (Object) null; }2372 public static ThrowableTypeAssert assertThatExceptionOfType(Class p0) { return (ThrowableTypeAssert) (Object) null; }2373 public static NotThrownAssert assertThatNoException() { return (NotThrownAssert) (Object) null; }2374 public static ThrowableTypeAssert assertThatNullPointerException() { return (ThrowableTypeAssert) (Object) null; }2375 public static ThrowableTypeAssert assertThatIllegalArgumentException() { return (ThrowableTypeAssert) (Object) null; }2376 public static ThrowableTypeAssert assertThatIOException() { return (ThrowableTypeAssert) (Object) null; }2377 public static ThrowableTypeAssert assertThatIllegalStateException() { return (ThrowableTypeAssert) (Object) null; }2378 public static void setRemoveAssertJRelatedElementsFromStackTrace(boolean p0) {}2379 public static Object fail(String p0) { return (Object) (Object) null; }2380 public static Object fail(String p0, Object[] p1) { return (Object) (Object) null; }2381 public static Object fail(String p0, Throwable p1) { return (Object) (Object) null; }2382 public static Object failBecauseExceptionWasNotThrown(Class p0) { return (Object) (Object) null; }2383 public static Object shouldHaveThrown(Class p0) { return (Object) (Object) null; }2384 public static void setMaxLengthForSingleLineDescription(int p0) {}2385 public static void setMaxElementsForPrinting(int p0) {}2386 public static void setPrintAssertionsDescription(boolean p0) {}2387 public static void setDescriptionConsumer(java.util.function.Consumer p0) {}2388 public static void setMaxStackTraceElementsDisplayed(int p0) {}2389 public static org.assertj.core.groups.Properties extractProperty(String p0, Class p1) { return (org.assertj.core.groups.Properties) (Object) null; }2390 public static org.assertj.core.groups.Properties extractProperty(String p0) { return (org.assertj.core.groups.Properties) (Object) null; }2391 public static org.assertj.core.groups.Tuple tuple(Object[] p0) { return (org.assertj.core.groups.Tuple) (Object) null; }2392 public static void setAllowExtractingPrivateFields(boolean p0) {}2393 public static void setAllowComparingPrivateFields(boolean p0) {}2394 public static void setExtractBareNamePropertyMethods(boolean p0) {}2395 public static org.assertj.core.data.MapEntry entry(Object p0, Object p1) { return (org.assertj.core.data.MapEntry) (Object) null; }2396 public static org.assertj.core.data.Index atIndex(int p0) { return (org.assertj.core.data.Index) (Object) null; }2397 public static org.assertj.core.data.Offset offset(Double p0) { return (org.assertj.core.data.Offset) (Object) null; }2398 public static org.assertj.core.data.Offset offset(Float p0) { return (org.assertj.core.data.Offset) (Object) null; }2399 public static org.assertj.core.data.Offset within(Double p0) { return (org.assertj.core.data.Offset) (Object) null; }2400 public static org.assertj.core.data.Offset withPrecision(Double p0) { return (org.assertj.core.data.Offset) (Object) null; }2401 public static org.assertj.core.data.Offset within(Float p0) { return (org.assertj.core.data.Offset) (Object) null; }2402 public static org.assertj.core.data.Offset withPrecision(Float p0) { return (org.assertj.core.data.Offset) (Object) null; }2403 public static org.assertj.core.data.Offset within(java.math.BigDecimal p0) { return (org.assertj.core.data.Offset) (Object) null; }2404 public static org.assertj.core.data.Offset within(java.math.BigInteger p0) { return (org.assertj.core.data.Offset) (Object) null; }2405 public static org.assertj.core.data.Offset within(Byte p0) { return (org.assertj.core.data.Offset) (Object) null; }2406 public static org.assertj.core.data.Offset within(Integer p0) { return (org.assertj.core.data.Offset) (Object) null; }2407 public static org.assertj.core.data.Offset within(Short p0) { return (org.assertj.core.data.Offset) (Object) null; }2408 public static org.assertj.core.data.Offset within(Long p0) { return (org.assertj.core.data.Offset) (Object) null; }2409 public static org.assertj.core.data.TemporalUnitOffset within(long p0, java.time.temporal.TemporalUnit p1) { return (org.assertj.core.data.TemporalUnitOffset) (Object) null; }2410 public static java.time.Duration withMarginOf(java.time.Duration p0) { return (java.time.Duration) (Object) null; }2411 public static org.assertj.core.data.Percentage withinPercentage(Double p0) { return (org.assertj.core.data.Percentage) (Object) null; }2412 public static org.assertj.core.data.Percentage withinPercentage(Integer p0) { return (org.assertj.core.data.Percentage) (Object) null; }2413 public static org.assertj.core.data.Percentage withinPercentage(Long p0) { return (org.assertj.core.data.Percentage) (Object) null; }2414 public static org.assertj.core.data.Offset byLessThan(Double p0) { return (org.assertj.core.data.Offset) (Object) null; }2415 public static org.assertj.core.data.Offset byLessThan(Float p0) { return (org.assertj.core.data.Offset) (Object) null; }2416 public static org.assertj.core.data.Offset byLessThan(java.math.BigDecimal p0) { return (org.assertj.core.data.Offset) (Object) null; }2417 public static org.assertj.core.data.Offset byLessThan(java.math.BigInteger p0) { return (org.assertj.core.data.Offset) (Object) null; }2418 public static org.assertj.core.data.Offset byLessThan(Byte p0) { return (org.assertj.core.data.Offset) (Object) null; }2419 public static org.assertj.core.data.Offset byLessThan(Integer p0) { return (org.assertj.core.data.Offset) (Object) null; }2420 public static org.assertj.core.data.Offset byLessThan(Short p0) { return (org.assertj.core.data.Offset) (Object) null; }2421 public static org.assertj.core.data.Offset byLessThan(Long p0) { return (org.assertj.core.data.Offset) (Object) null; }2422 public static org.assertj.core.data.TemporalUnitOffset byLessThan(long p0, java.time.temporal.TemporalUnit p1) { return (org.assertj.core.data.TemporalUnitOffset) (Object) null; }2423 public static java.util.function.Function from(java.util.function.Function p0) { return (java.util.function.Function) (Object) null; }2424 public static InstanceOfAssertFactory as(InstanceOfAssertFactory p0) { return (InstanceOfAssertFactory) (Object) null; }2425 public static Condition allOf(Condition[] p0) { return (Condition) (Object) null; }2426 public static Condition allOf(Iterable p0) { return (Condition) (Object) null; }2427 public static Condition anyOf(Condition[] p0) { return (Condition) (Object) null; }2428 public static Condition anyOf(Iterable p0) { return (Condition) (Object) null; }2429 public static org.assertj.core.condition.DoesNotHave doesNotHave(Condition p0) { return (org.assertj.core.condition.DoesNotHave) (Object) null; }2430 public static org.assertj.core.condition.Not not(Condition p0) { return (org.assertj.core.condition.Not) (Object) null; }2431 public static org.assertj.core.api.filter.Filters filter(Object[] p0) { return (org.assertj.core.api.filter.Filters) (Object) null; }2432 public static org.assertj.core.api.filter.Filters filter(Iterable p0) { return (org.assertj.core.api.filter.Filters) (Object) null; }2433 public static org.assertj.core.api.filter.InFilter in(Object[] p0) { return (org.assertj.core.api.filter.InFilter) (Object) null; }2434 public static org.assertj.core.api.filter.NotInFilter notIn(Object[] p0) { return (org.assertj.core.api.filter.NotInFilter) (Object) null; }2435 public static org.assertj.core.api.filter.NotFilter not(Object p0) { return (org.assertj.core.api.filter.NotFilter) (Object) null; }2436 public static String contentOf(File p0, java.nio.charset.Charset p1) { return (String) (Object) null; }2437 public static String contentOf(File p0, String p1) { return (String) (Object) null; }2438 public static String contentOf(File p0) { return (String) (Object) null; }2439 public static java.util.List linesOf(File p0) { return (java.util.List) (Object) null; }2440 public static java.util.List linesOf(File p0, java.nio.charset.Charset p1) { return (java.util.List) (Object) null; }2441 public static java.util.List linesOf(File p0, String p1) { return (java.util.List) (Object) null; }2442 public static String contentOf(java.net.URL p0, java.nio.charset.Charset p1) { return (String) (Object) null; }2443 public static String contentOf(java.net.URL p0, String p1) { return (String) (Object) null; }2444 public static String contentOf(java.net.URL p0) { return (String) (Object) null; }2445 public static java.util.List linesOf(java.net.URL p0) { return (java.util.List) (Object) null; }2446 public static java.util.List linesOf(java.net.URL p0, java.nio.charset.Charset p1) { return (java.util.List) (Object) null; }2447 public static java.util.List linesOf(java.net.URL p0, String p1) { return (java.util.List) (Object) null; }2448 public static void setLenientDateParsing(boolean p0) {}2449 public static void registerCustomDateFormat(java.text.DateFormat p0) {}2450 public static void registerCustomDateFormat(String p0) {}2451 public static void useDefaultDateFormatsOnly() {}2452 public static Object assertThat(AssertProvider p0) { return (Object) (Object) null; }2453 public static AbstractCharSequenceAssert assertThat(CharSequence p0) { return (AbstractCharSequenceAssert) (Object) null; }2454 public static AbstractCharSequenceAssert assertThat(StringBuilder p0) { return (AbstractCharSequenceAssert) (Object) null; }2455 public static AbstractCharSequenceAssert assertThat(StringBuffer p0) { return (AbstractCharSequenceAssert) (Object) null; }2456 public static AbstractStringAssert assertThat(String p0) { return (AbstractStringAssert) (Object) null; }2457 public static IterableAssert assertThat(Iterable p0) { return (IterableAssert) (Object) null; }2458 public static IteratorAssert assertThat(java.util.Iterator p0) { return (IteratorAssert) (Object) null; }2459 public static ListAssert assertThat(java.util.List p0) { return (ListAssert) (Object) null; }2460 public static ListAssert assertThat(java.util.stream.Stream p0) { return (ListAssert) (Object) null; }2461 public static ListAssert assertThat(java.util.stream.DoubleStream p0) { return (ListAssert) (Object) null; }2462 public static ListAssert assertThat(java.util.stream.LongStream p0) { return (ListAssert) (Object) null; }2463 public static ListAssert assertThat(java.util.stream.IntStream p0) { return (ListAssert) (Object) null; }2464 public static SpliteratorAssert assertThat(java.util.Spliterator p0) { return (SpliteratorAssert) (Object) null; }2465 public static AbstractPathAssert assertThat(java.nio.file.Path p0) { return (AbstractPathAssert) (Object) null; }2466 public static MapAssert assertThat(java.util.Map p0) { return (MapAssert) (Object) null; }2467 public static AbstractComparableAssert assertThat(Comparable p0) { return (AbstractComparableAssert) (Object) null; }2468 public static AssertDelegateTarget assertThat(AssertDelegateTarget p0) { return (AssertDelegateTarget) (Object) null; }2469 public static void useRepresentation(org.assertj.core.presentation.Representation p0) {}2470 public static void registerFormatterForType(Class p0, java.util.function.Function p1) {}2471 public static void useDefaultRepresentation() {}2472}2473---2474package org.assertj.core.api;2475import java.io.*;2476public class AssertionsForClassTypes {2477 public static CompletableFutureAssert assertThat(java.util.concurrent.CompletableFuture p0) { return (CompletableFutureAssert) (Object) null; }2478 public static OptionalAssert assertThat(java.util.Optional p0) { return (OptionalAssert) (Object) null; }2479 public static OptionalDoubleAssert assertThat(java.util.OptionalDouble p0) { return (OptionalDoubleAssert) (Object) null; }2480 public static OptionalIntAssert assertThat(java.util.OptionalInt p0) { return (OptionalIntAssert) (Object) null; }2481 public static OptionalLongAssert assertThat(java.util.OptionalLong p0) { return (OptionalLongAssert) (Object) null; }2482 public static AbstractBigDecimalAssert assertThat(java.math.BigDecimal p0) { return (AbstractBigDecimalAssert) (Object) null; }2483 public static AbstractUriAssert assertThat(java.net.URI p0) { return (AbstractUriAssert) (Object) null; }2484 public static AbstractUrlAssert assertThat(java.net.URL p0) { return (AbstractUrlAssert) (Object) null; }2485 public static AbstractBooleanAssert assertThat(boolean p0) { return (AbstractBooleanAssert) (Object) null; }2486 public static AbstractBooleanAssert assertThat(Boolean p0) { return (AbstractBooleanAssert) (Object) null; }2487 public static AbstractBooleanArrayAssert assertThat(boolean[] p0) { return (AbstractBooleanArrayAssert) (Object) null; }2488 public static Boolean2DArrayAssert assertThat(boolean[][] p0) { return (Boolean2DArrayAssert) (Object) null; }2489 public static AbstractByteAssert assertThat(byte p0) { return (AbstractByteAssert) (Object) null; }2490 public static AbstractByteAssert assertThat(Byte p0) { return (AbstractByteAssert) (Object) null; }2491 public static AbstractByteArrayAssert assertThat(byte[] p0) { return (AbstractByteArrayAssert) (Object) null; }2492 public static Byte2DArrayAssert assertThat(byte[][] p0) { return (Byte2DArrayAssert) (Object) null; }2493 public static AbstractCharacterAssert assertThat(char p0) { return (AbstractCharacterAssert) (Object) null; }2494 public static AbstractCharArrayAssert assertThat(char[] p0) { return (AbstractCharArrayAssert) (Object) null; }2495 public static Char2DArrayAssert assertThat(char[][] p0) { return (Char2DArrayAssert) (Object) null; }2496 public static AbstractCharacterAssert assertThat(Character p0) { return (AbstractCharacterAssert) (Object) null; }2497 public static ClassAssert assertThat(Class p0) { return (ClassAssert) (Object) null; }2498 public static AbstractDoubleAssert assertThat(double p0) { return (AbstractDoubleAssert) (Object) null; }2499 public static AbstractDoubleAssert assertThat(Double p0) { return (AbstractDoubleAssert) (Object) null; }2500 public static AbstractDoubleArrayAssert assertThat(double[] p0) { return (AbstractDoubleArrayAssert) (Object) null; }2501 public static Double2DArrayAssert assertThat(double[][] p0) { return (Double2DArrayAssert) (Object) null; }2502 public static AbstractFileAssert assertThat(File p0) { return (AbstractFileAssert) (Object) null; }2503 public static AbstractInputStreamAssert assertThat(InputStream p0) { return (AbstractInputStreamAssert) (Object) null; }2504 public static AbstractFloatAssert assertThat(float p0) { return (AbstractFloatAssert) (Object) null; }2505 public static AbstractFloatAssert assertThat(Float p0) { return (AbstractFloatAssert) (Object) null; }2506 public static AbstractFloatArrayAssert assertThat(float[] p0) { return (AbstractFloatArrayAssert) (Object) null; }2507 public static Float2DArrayAssert assertThat(float[][] p0) { return (Float2DArrayAssert) (Object) null; }2508 public static AbstractIntegerAssert assertThat(int p0) { return (AbstractIntegerAssert) (Object) null; }2509 public static AbstractIntArrayAssert assertThat(int[] p0) { return (AbstractIntArrayAssert) (Object) null; }2510 public static Int2DArrayAssert assertThat(int[][] p0) { return (Int2DArrayAssert) (Object) null; }2511 public static AbstractIntegerAssert assertThat(Integer p0) { return (AbstractIntegerAssert) (Object) null; }2512 public static AbstractLongAssert assertThat(long p0) { return (AbstractLongAssert) (Object) null; }2513 public static AbstractLongAssert assertThat(Long p0) { return (AbstractLongAssert) (Object) null; }2514 public static AbstractLongArrayAssert assertThat(long[] p0) { return (AbstractLongArrayAssert) (Object) null; }2515 public static Long2DArrayAssert assertThat(long[][] p0) { return (Long2DArrayAssert) (Object) null; }2516 public static ObjectAssert assertThat(Object p0) { return (ObjectAssert) (Object) null; }2517 public static ObjectArrayAssert assertThat(Object[] p0) { return (ObjectArrayAssert) (Object) null; }2518 public static Object2DArrayAssert assertThat(Object[][] p0) { return (Object2DArrayAssert) (Object) null; }2519 public static AbstractShortAssert assertThat(short p0) { return (AbstractShortAssert) (Object) null; }2520 public static AbstractShortAssert assertThat(Short p0) { return (AbstractShortAssert) (Object) null; }2521 public static AbstractShortArrayAssert assertThat(short[] p0) { return (AbstractShortArrayAssert) (Object) null; }2522 public static Short2DArrayAssert assertThat(short[][] p0) { return (Short2DArrayAssert) (Object) null; }2523 public static AbstractCharSequenceAssert assertThat(StringBuilder p0) { return (AbstractCharSequenceAssert) (Object) null; }2524 public static AbstractCharSequenceAssert assertThat(StringBuffer p0) { return (AbstractCharSequenceAssert) (Object) null; }2525 public static AbstractStringAssert assertThat(String p0) { return (AbstractStringAssert) (Object) null; }2526 public static AbstractDateAssert assertThat(java.util.Date p0) { return (AbstractDateAssert) (Object) null; }2527 public static AbstractZonedDateTimeAssert assertThat(java.time.ZonedDateTime p0) { return (AbstractZonedDateTimeAssert) (Object) null; }2528 public static AbstractLocalDateTimeAssert assertThat(java.time.LocalDateTime p0) { return (AbstractLocalDateTimeAssert) (Object) null; }2529 public static AbstractOffsetDateTimeAssert assertThat(java.time.OffsetDateTime p0) { return (AbstractOffsetDateTimeAssert) (Object) null; }2530 public static AbstractOffsetTimeAssert assertThat(java.time.OffsetTime p0) { return (AbstractOffsetTimeAssert) (Object) null; }2531 public static AbstractLocalTimeAssert assertThat(java.time.LocalTime p0) { return (AbstractLocalTimeAssert) (Object) null; }2532 public static AbstractLocalDateAssert assertThat(java.time.LocalDate p0) { return (AbstractLocalDateAssert) (Object) null; }2533 public static AbstractInstantAssert assertThat(java.time.Instant p0) { return (AbstractInstantAssert) (Object) null; }2534 public static AbstractDurationAssert assertThat(java.time.Duration p0) { return (AbstractDurationAssert) (Object) null; }2535 public static AbstractPeriodAssert assertThat(java.time.Period p0) { return (AbstractPeriodAssert) (Object) null; }2536 public static AbstractThrowableAssert assertThat(Throwable p0) { return (AbstractThrowableAssert) (Object) null; }2537 public static AbstractThrowableAssert assertThatThrownBy(ThrowableAssert.ThrowingCallable p0) { return (AbstractThrowableAssert) (Object) null; }2538 public static AbstractThrowableAssert assertThatThrownBy(ThrowableAssert.ThrowingCallable p0, String p1, Object[] p2) { return (AbstractThrowableAssert) (Object) null; }2539 public static ThrowableTypeAssert assertThatExceptionOfType(Class p0) { return (ThrowableTypeAssert) (Object) null; }2540 public static NotThrownAssert assertThatNoException() { return (NotThrownAssert) (Object) null; }2541 public static AbstractThrowableAssert assertThatCode(ThrowableAssert.ThrowingCallable p0) { return (AbstractThrowableAssert) (Object) null; }2542 public static Throwable catchThrowable(ThrowableAssert.ThrowingCallable p0) { return (Throwable) (Object) null; }2543 public static Throwable catchThrowableOfType(ThrowableAssert.ThrowingCallable p0, Class p1) { return (Throwable) (Object) null; }2544 public static void setRemoveAssertJRelatedElementsFromStackTrace(boolean p0) {}2545 public static void fail(String p0) {}2546 public static void fail(String p0, Throwable p1) {}2547 public static void failBecauseExceptionWasNotThrown(Class p0) {}2548 public static void shouldHaveThrown(Class p0) {}2549 public static void setMaxLengthForSingleLineDescription(int p0) {}2550 public static org.assertj.core.groups.Properties extractProperty(String p0, Class p1) { return (org.assertj.core.groups.Properties) (Object) null; }2551 public static org.assertj.core.groups.Properties extractProperty(String p0) { return (org.assertj.core.groups.Properties) (Object) null; }2552 public static org.assertj.core.groups.Tuple tuple(Object[] p0) { return (org.assertj.core.groups.Tuple) (Object) null; }2553 public static void setAllowExtractingPrivateFields(boolean p0) {}2554 public static void setAllowComparingPrivateFields(boolean p0) {}2555 public static org.assertj.core.data.MapEntry entry(Object p0, Object p1) { return (org.assertj.core.data.MapEntry) (Object) null; }2556 public static org.assertj.core.data.Index atIndex(int p0) { return (org.assertj.core.data.Index) (Object) null; }2557 public static org.assertj.core.data.Offset offset(Double p0) { return (org.assertj.core.data.Offset) (Object) null; }2558 public static org.assertj.core.data.Offset offset(Float p0) { return (org.assertj.core.data.Offset) (Object) null; }2559 public static org.assertj.core.data.Offset within(Double p0) { return (org.assertj.core.data.Offset) (Object) null; }2560 public static org.assertj.core.data.Offset within(Float p0) { return (org.assertj.core.data.Offset) (Object) null; }2561 public static org.assertj.core.data.Offset within(java.math.BigDecimal p0) { return (org.assertj.core.data.Offset) (Object) null; }2562 public static org.assertj.core.data.Offset within(Byte p0) { return (org.assertj.core.data.Offset) (Object) null; }2563 public static org.assertj.core.data.Offset within(Integer p0) { return (org.assertj.core.data.Offset) (Object) null; }2564 public static org.assertj.core.data.Offset within(Short p0) { return (org.assertj.core.data.Offset) (Object) null; }2565 public static org.assertj.core.data.Offset within(Long p0) { return (org.assertj.core.data.Offset) (Object) null; }2566 public static org.assertj.core.data.Percentage withinPercentage(Double p0) { return (org.assertj.core.data.Percentage) (Object) null; }2567 public static org.assertj.core.data.Percentage withinPercentage(Integer p0) { return (org.assertj.core.data.Percentage) (Object) null; }2568 public static org.assertj.core.data.Percentage withinPercentage(Long p0) { return (org.assertj.core.data.Percentage) (Object) null; }2569 public static Condition allOf(Condition[] p0) { return (Condition) (Object) null; }2570 public static Condition allOf(Iterable p0) { return (Condition) (Object) null; }2571 public static Condition anyOf(Condition[] p0) { return (Condition) (Object) null; }2572 public static Condition anyOf(Iterable p0) { return (Condition) (Object) null; }2573 public static org.assertj.core.condition.DoesNotHave doesNotHave(Condition p0) { return (org.assertj.core.condition.DoesNotHave) (Object) null; }2574 public static org.assertj.core.condition.Not not(Condition p0) { return (org.assertj.core.condition.Not) (Object) null; }2575 public static org.assertj.core.api.filter.Filters filter(Object[] p0) { return (org.assertj.core.api.filter.Filters) (Object) null; }2576 public static org.assertj.core.api.filter.Filters filter(Iterable p0) { return (org.assertj.core.api.filter.Filters) (Object) null; }2577 public static org.assertj.core.api.filter.InFilter in(Object[] p0) { return (org.assertj.core.api.filter.InFilter) (Object) null; }2578 public static org.assertj.core.api.filter.NotInFilter notIn(Object[] p0) { return (org.assertj.core.api.filter.NotInFilter) (Object) null; }2579 public static org.assertj.core.api.filter.NotFilter not(Object p0) { return (org.assertj.core.api.filter.NotFilter) (Object) null; }2580 public static String contentOf(File p0, java.nio.charset.Charset p1) { return (String) (Object) null; }2581 public static String contentOf(File p0, String p1) { return (String) (Object) null; }2582 public static String contentOf(File p0) { return (String) (Object) null; }2583 public static java.util.List linesOf(File p0) { return (java.util.List) (Object) null; }2584 public static java.util.List linesOf(File p0, java.nio.charset.Charset p1) { return (java.util.List) (Object) null; }2585 public static java.util.List linesOf(File p0, String p1) { return (java.util.List) (Object) null; }2586 public static String contentOf(java.net.URL p0, java.nio.charset.Charset p1) { return (String) (Object) null; }2587 public static String contentOf(java.net.URL p0, String p1) { return (String) (Object) null; }2588 public static String contentOf(java.net.URL p0) { return (String) (Object) null; }2589 public static java.util.List linesOf(java.net.URL p0) { return (java.util.List) (Object) null; }2590 public static java.util.List linesOf(java.net.URL p0, java.nio.charset.Charset p1) { return (java.util.List) (Object) null; }2591 public static java.util.List linesOf(java.net.URL p0, String p1) { return (java.util.List) (Object) null; }2592 public static void setLenientDateParsing(boolean p0) {}2593 public static void registerCustomDateFormat(java.text.DateFormat p0) {}2594 public static void registerCustomDateFormat(String p0) {}2595 public static void useDefaultDateFormatsOnly() {}2596}2597---2598package org.assertj.core.api;2599import java.io.*;2600public class AtomicBooleanAssert extends AbstractAssert {2601 public void AtomicBooleanAssert(java.util.concurrent.atomic.AtomicBoolean p0) {}2602 public AtomicBooleanAssert isTrue() { return (AtomicBooleanAssert) (Object) null; }2603 public AtomicBooleanAssert isFalse() { return (AtomicBooleanAssert) (Object) null; }2604 public AtomicBooleanAssert usingComparator(java.util.Comparator p0) { return (AtomicBooleanAssert) (Object) null; }2605 public AtomicBooleanAssert usingComparator(java.util.Comparator p0, String p1) { return (AtomicBooleanAssert) (Object) null; }2606}2607---2608package org.assertj.core.api;2609import java.io.*;2610public class AtomicIntegerArrayAssert extends AbstractEnumerableAssert {2611 public void AtomicIntegerArrayAssert(java.util.concurrent.atomic.AtomicIntegerArray p0) {}2612 public void isNullOrEmpty() {}2613 public void isEmpty() {}2614 public AtomicIntegerArrayAssert isNotEmpty() { return (AtomicIntegerArrayAssert) (Object) null; }2615 public AtomicIntegerArrayAssert hasArray(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2616 public AtomicIntegerArrayAssert hasSize(int p0) { return (AtomicIntegerArrayAssert) (Object) null; }2617 public AtomicIntegerArrayAssert hasSizeGreaterThan(int p0) { return (AtomicIntegerArrayAssert) (Object) null; }2618 public AtomicIntegerArrayAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AtomicIntegerArrayAssert) (Object) null; }2619 public AtomicIntegerArrayAssert hasSizeLessThan(int p0) { return (AtomicIntegerArrayAssert) (Object) null; }2620 public AtomicIntegerArrayAssert hasSizeLessThanOrEqualTo(int p0) { return (AtomicIntegerArrayAssert) (Object) null; }2621 public AtomicIntegerArrayAssert hasSizeBetween(int p0, int p1) { return (AtomicIntegerArrayAssert) (Object) null; }2622 public AtomicIntegerArrayAssert hasSameSizeAs(Iterable p0) { return (AtomicIntegerArrayAssert) (Object) null; }2623 public AtomicIntegerArrayAssert contains(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2624 public AtomicIntegerArrayAssert containsOnly(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2625 public AtomicIntegerArrayAssert containsOnlyOnce(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2626 public AtomicIntegerArrayAssert containsSequence(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2627 public AtomicIntegerArrayAssert containsSubsequence(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2628 public AtomicIntegerArrayAssert contains(int p0, org.assertj.core.data.Index p1) { return (AtomicIntegerArrayAssert) (Object) null; }2629 public AtomicIntegerArrayAssert doesNotContain(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2630 public AtomicIntegerArrayAssert doesNotContain(int p0, org.assertj.core.data.Index p1) { return (AtomicIntegerArrayAssert) (Object) null; }2631 public AtomicIntegerArrayAssert doesNotHaveDuplicates() { return (AtomicIntegerArrayAssert) (Object) null; }2632 public AtomicIntegerArrayAssert startsWith(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2633 public AtomicIntegerArrayAssert endsWith(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2634 public AtomicIntegerArrayAssert isSorted() { return (AtomicIntegerArrayAssert) (Object) null; }2635 public AtomicIntegerArrayAssert isSortedAccordingTo(java.util.Comparator p0) { return (AtomicIntegerArrayAssert) (Object) null; }2636 public AtomicIntegerArrayAssert usingElementComparator(java.util.Comparator p0) { return (AtomicIntegerArrayAssert) (Object) null; }2637 public AtomicIntegerArrayAssert usingDefaultElementComparator() { return (AtomicIntegerArrayAssert) (Object) null; }2638 public AtomicIntegerArrayAssert containsExactly(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2639 public AtomicIntegerArrayAssert containsExactlyInAnyOrder(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2640 public AtomicIntegerArrayAssert containsAnyOf(int[] p0) { return (AtomicIntegerArrayAssert) (Object) null; }2641}2642---2643package org.assertj.core.api;2644import java.io.*;2645public class AtomicIntegerAssert extends AbstractAssert {2646 public void AtomicIntegerAssert(java.util.concurrent.atomic.AtomicInteger p0) {}2647 public AtomicIntegerAssert hasValueBetween(int p0, int p1) { return (AtomicIntegerAssert) (Object) null; }2648 public AtomicIntegerAssert hasValueLessThan(int p0) { return (AtomicIntegerAssert) (Object) null; }2649 public AtomicIntegerAssert hasValueLessThanOrEqualTo(int p0) { return (AtomicIntegerAssert) (Object) null; }2650 public AtomicIntegerAssert hasValueGreaterThan(int p0) { return (AtomicIntegerAssert) (Object) null; }2651 public AtomicIntegerAssert hasValueGreaterThanOrEqualTo(int p0) { return (AtomicIntegerAssert) (Object) null; }2652 public AtomicIntegerAssert hasPositiveValue() { return (AtomicIntegerAssert) (Object) null; }2653 public AtomicIntegerAssert hasNonPositiveValue() { return (AtomicIntegerAssert) (Object) null; }2654 public AtomicIntegerAssert hasNegativeValue() { return (AtomicIntegerAssert) (Object) null; }2655 public AtomicIntegerAssert hasNonNegativeValue() { return (AtomicIntegerAssert) (Object) null; }2656 public AtomicIntegerAssert hasValueCloseTo(int p0, org.assertj.core.data.Percentage p1) { return (AtomicIntegerAssert) (Object) null; }2657 public AtomicIntegerAssert hasValueCloseTo(int p0, org.assertj.core.data.Offset p1) { return (AtomicIntegerAssert) (Object) null; }2658 public AtomicIntegerAssert hasValue(int p0) { return (AtomicIntegerAssert) (Object) null; }2659 public AtomicIntegerAssert doesNotHaveValue(int p0) { return (AtomicIntegerAssert) (Object) null; }2660 public AtomicIntegerAssert usingComparator(java.util.Comparator p0) { return (AtomicIntegerAssert) (Object) null; }2661 public AtomicIntegerAssert usingComparator(java.util.Comparator p0, String p1) { return (AtomicIntegerAssert) (Object) null; }2662 public AtomicIntegerAssert usingDefaultComparator() { return (AtomicIntegerAssert) (Object) null; }2663}2664---2665package org.assertj.core.api;2666import java.io.*;2667public class AtomicIntegerFieldUpdaterAssert extends AbstractAtomicFieldUpdaterAssert {2668 public void AtomicIntegerFieldUpdaterAssert(java.util.concurrent.atomic.AtomicIntegerFieldUpdater p0) {}2669 public AtomicIntegerFieldUpdaterAssert hasValue(Integer p0, Object p1) { return (AtomicIntegerFieldUpdaterAssert) (Object) null; }2670 public AbstractAtomicFieldUpdaterAssert hasValue(Object p0, Object p1) { return (AbstractAtomicFieldUpdaterAssert) (Object) null; }2671}2672---2673package org.assertj.core.api;2674import java.io.*;2675public class AtomicLongArrayAssert extends AbstractEnumerableAssert {2676 public void AtomicLongArrayAssert(java.util.concurrent.atomic.AtomicLongArray p0) {}2677 public void isNullOrEmpty() {}2678 public void isEmpty() {}2679 public AtomicLongArrayAssert isNotEmpty() { return (AtomicLongArrayAssert) (Object) null; }2680 public AtomicLongArrayAssert hasArray(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2681 public AtomicLongArrayAssert hasSize(int p0) { return (AtomicLongArrayAssert) (Object) null; }2682 public AtomicLongArrayAssert hasSizeGreaterThan(int p0) { return (AtomicLongArrayAssert) (Object) null; }2683 public AtomicLongArrayAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AtomicLongArrayAssert) (Object) null; }2684 public AtomicLongArrayAssert hasSizeLessThan(int p0) { return (AtomicLongArrayAssert) (Object) null; }2685 public AtomicLongArrayAssert hasSizeLessThanOrEqualTo(int p0) { return (AtomicLongArrayAssert) (Object) null; }2686 public AtomicLongArrayAssert hasSizeBetween(int p0, int p1) { return (AtomicLongArrayAssert) (Object) null; }2687 public AtomicLongArrayAssert hasSameSizeAs(Iterable p0) { return (AtomicLongArrayAssert) (Object) null; }2688 public AtomicLongArrayAssert contains(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2689 public AtomicLongArrayAssert containsOnly(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2690 public AtomicLongArrayAssert containsOnlyOnce(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2691 public AtomicLongArrayAssert containsSequence(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2692 public AtomicLongArrayAssert containsSubsequence(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2693 public AtomicLongArrayAssert contains(long p0, org.assertj.core.data.Index p1) { return (AtomicLongArrayAssert) (Object) null; }2694 public AtomicLongArrayAssert doesNotContain(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2695 public AtomicLongArrayAssert doesNotContain(long p0, org.assertj.core.data.Index p1) { return (AtomicLongArrayAssert) (Object) null; }2696 public AtomicLongArrayAssert doesNotHaveDuplicates() { return (AtomicLongArrayAssert) (Object) null; }2697 public AtomicLongArrayAssert startsWith(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2698 public AtomicLongArrayAssert endsWith(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2699 public AtomicLongArrayAssert isSorted() { return (AtomicLongArrayAssert) (Object) null; }2700 public AtomicLongArrayAssert isSortedAccordingTo(java.util.Comparator p0) { return (AtomicLongArrayAssert) (Object) null; }2701 public AtomicLongArrayAssert usingElementComparator(java.util.Comparator p0) { return (AtomicLongArrayAssert) (Object) null; }2702 public AtomicLongArrayAssert usingDefaultElementComparator() { return (AtomicLongArrayAssert) (Object) null; }2703 public AtomicLongArrayAssert containsExactly(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2704 public AtomicLongArrayAssert containsExactlyInAnyOrder(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2705 public AtomicLongArrayAssert containsAnyOf(long[] p0) { return (AtomicLongArrayAssert) (Object) null; }2706}2707---2708package org.assertj.core.api;2709import java.io.*;2710public class AtomicLongAssert extends AbstractAssert {2711 public void AtomicLongAssert(java.util.concurrent.atomic.AtomicLong p0) {}2712 public AtomicLongAssert hasValueBetween(long p0, long p1) { return (AtomicLongAssert) (Object) null; }2713 public AtomicLongAssert hasValueLessThan(long p0) { return (AtomicLongAssert) (Object) null; }2714 public AtomicLongAssert hasValueLessThanOrEqualTo(long p0) { return (AtomicLongAssert) (Object) null; }2715 public AtomicLongAssert hasValueGreaterThan(long p0) { return (AtomicLongAssert) (Object) null; }2716 public AtomicLongAssert hasValueGreaterThanOrEqualTo(long p0) { return (AtomicLongAssert) (Object) null; }2717 public AtomicLongAssert hasPositiveValue() { return (AtomicLongAssert) (Object) null; }2718 public AtomicLongAssert hasNonPositiveValue() { return (AtomicLongAssert) (Object) null; }2719 public AtomicLongAssert hasNegativeValue() { return (AtomicLongAssert) (Object) null; }2720 public AtomicLongAssert hasNonNegativeValue() { return (AtomicLongAssert) (Object) null; }2721 public AtomicLongAssert hasValueCloseTo(long p0, org.assertj.core.data.Percentage p1) { return (AtomicLongAssert) (Object) null; }2722 public AtomicLongAssert hasValueCloseTo(long p0, org.assertj.core.data.Offset p1) { return (AtomicLongAssert) (Object) null; }2723 public AtomicLongAssert hasValue(long p0) { return (AtomicLongAssert) (Object) null; }2724 public AtomicLongAssert doesNotHaveValue(long p0) { return (AtomicLongAssert) (Object) null; }2725 public AtomicLongAssert usingComparator(java.util.Comparator p0) { return (AtomicLongAssert) (Object) null; }2726 public AtomicLongAssert usingComparator(java.util.Comparator p0, String p1) { return (AtomicLongAssert) (Object) null; }2727 public AtomicLongAssert usingDefaultComparator() { return (AtomicLongAssert) (Object) null; }2728}2729---2730package org.assertj.core.api;2731import java.io.*;2732public class AtomicLongFieldUpdaterAssert extends AbstractAtomicFieldUpdaterAssert {2733 public void AtomicLongFieldUpdaterAssert(java.util.concurrent.atomic.AtomicLongFieldUpdater p0) {}2734 public AtomicLongFieldUpdaterAssert hasValue(Long p0, Object p1) { return (AtomicLongFieldUpdaterAssert) (Object) null; }2735 public AbstractAtomicFieldUpdaterAssert hasValue(Object p0, Object p1) { return (AbstractAtomicFieldUpdaterAssert) (Object) null; }2736}2737---2738package org.assertj.core.api;2739import java.io.*;2740public class AtomicMarkableReferenceAssert extends AbstractAtomicReferenceAssert {2741 public void AtomicMarkableReferenceAssert(java.util.concurrent.atomic.AtomicMarkableReference p0) {}2742 public AtomicMarkableReferenceAssert hasReference(Object p0) { return (AtomicMarkableReferenceAssert) (Object) null; }2743 public AtomicMarkableReferenceAssert isMarked() { return (AtomicMarkableReferenceAssert) (Object) null; }2744 public AtomicMarkableReferenceAssert isNotMarked() { return (AtomicMarkableReferenceAssert) (Object) null; }2745}2746---2747package org.assertj.core.api;2748import java.io.*;2749public class AtomicReferenceArrayAssert extends AbstractAssert implements IndexedObjectEnumerableAssert, ArraySortedAssert {2750 public void AtomicReferenceArrayAssert(java.util.concurrent.atomic.AtomicReferenceArray p0) {}2751 public AtomicReferenceArrayAssert as(org.assertj.core.description.Description p0) { return (AtomicReferenceArrayAssert) (Object) null; }2752 public AtomicReferenceArrayAssert as(String p0, Object[] p1) { return (AtomicReferenceArrayAssert) (Object) null; }2753 public void isNullOrEmpty() {}2754 public void isEmpty() {}2755 public AtomicReferenceArrayAssert isNotEmpty() { return (AtomicReferenceArrayAssert) (Object) null; }2756 public AtomicReferenceArrayAssert hasArray(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2757 public AtomicReferenceArrayAssert hasOnlyOneElementSatisfying(java.util.function.Consumer p0) { return (AtomicReferenceArrayAssert) (Object) null; }2758 public AtomicReferenceArrayAssert hasSize(int p0) { return (AtomicReferenceArrayAssert) (Object) null; }2759 public AtomicReferenceArrayAssert hasSizeGreaterThan(int p0) { return (AtomicReferenceArrayAssert) (Object) null; }2760 public AtomicReferenceArrayAssert hasSizeGreaterThanOrEqualTo(int p0) { return (AtomicReferenceArrayAssert) (Object) null; }2761 public AtomicReferenceArrayAssert hasSizeLessThan(int p0) { return (AtomicReferenceArrayAssert) (Object) null; }2762 public AtomicReferenceArrayAssert hasSizeLessThanOrEqualTo(int p0) { return (AtomicReferenceArrayAssert) (Object) null; }2763 public AtomicReferenceArrayAssert hasSizeBetween(int p0, int p1) { return (AtomicReferenceArrayAssert) (Object) null; }2764 public AtomicReferenceArrayAssert hasSameSizeAs(Object p0) { return (AtomicReferenceArrayAssert) (Object) null; }2765 public AtomicReferenceArrayAssert hasSameSizeAs(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2766 public AtomicReferenceArrayAssert contains(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2767 public AtomicReferenceArrayAssert containsOnly(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2768 public AtomicReferenceArrayAssert containsOnlyElementsOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2769 public AtomicReferenceArrayAssert containsOnlyNulls() { return (AtomicReferenceArrayAssert) (Object) null; }2770 public AtomicReferenceArrayAssert hasSameElementsAs(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2771 public AtomicReferenceArrayAssert containsOnlyOnce(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2772 public AtomicReferenceArrayAssert containsOnlyOnceElementsOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2773 public AtomicReferenceArrayAssert containsExactly(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2774 public AtomicReferenceArrayAssert containsExactlyInAnyOrder(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2775 public AtomicReferenceArrayAssert containsExactlyInAnyOrderElementsOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2776 public AtomicReferenceArrayAssert containsExactlyElementsOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2777 public AtomicReferenceArrayAssert containsSequence(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2778 public AtomicReferenceArrayAssert containsSequence(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2779 public AtomicReferenceArrayAssert doesNotContainSequence(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2780 public AtomicReferenceArrayAssert doesNotContainSequence(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2781 public AtomicReferenceArrayAssert containsSubsequence(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2782 public AtomicReferenceArrayAssert containsSubsequence(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2783 public AtomicReferenceArrayAssert doesNotContainSubsequence(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2784 public AtomicReferenceArrayAssert doesNotContainSubsequence(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2785 public AtomicReferenceArrayAssert contains(Object p0, org.assertj.core.data.Index p1) { return (AtomicReferenceArrayAssert) (Object) null; }2786 public AtomicReferenceArrayAssert hasOnlyElementsOfTypes(Class[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2787 public AtomicReferenceArrayAssert doesNotContain(Object p0, org.assertj.core.data.Index p1) { return (AtomicReferenceArrayAssert) (Object) null; }2788 public AtomicReferenceArrayAssert doesNotContain(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2789 public AtomicReferenceArrayAssert doesNotContainAnyElementsOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2790 public AtomicReferenceArrayAssert doesNotHaveDuplicates() { return (AtomicReferenceArrayAssert) (Object) null; }2791 public AtomicReferenceArrayAssert startsWith(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2792 public AtomicReferenceArrayAssert endsWith(Object p0, Object[] p1) { return (AtomicReferenceArrayAssert) (Object) null; }2793 public AtomicReferenceArrayAssert endsWith(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2794 public AtomicReferenceArrayAssert isSubsetOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2795 public AtomicReferenceArrayAssert isSubsetOf(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2796 public AtomicReferenceArrayAssert containsNull() { return (AtomicReferenceArrayAssert) (Object) null; }2797 public AtomicReferenceArrayAssert doesNotContainNull() { return (AtomicReferenceArrayAssert) (Object) null; }2798 public AtomicReferenceArrayAssert are(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2799 public AtomicReferenceArrayAssert areNot(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2800 public AtomicReferenceArrayAssert have(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2801 public AtomicReferenceArrayAssert doNotHave(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2802 public AtomicReferenceArrayAssert areAtLeast(int p0, Condition p1) { return (AtomicReferenceArrayAssert) (Object) null; }2803 public AtomicReferenceArrayAssert areAtLeastOne(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2804 public AtomicReferenceArrayAssert areAtMost(int p0, Condition p1) { return (AtomicReferenceArrayAssert) (Object) null; }2805 public AtomicReferenceArrayAssert areExactly(int p0, Condition p1) { return (AtomicReferenceArrayAssert) (Object) null; }2806 public AtomicReferenceArrayAssert haveAtLeastOne(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2807 public AtomicReferenceArrayAssert haveAtLeast(int p0, Condition p1) { return (AtomicReferenceArrayAssert) (Object) null; }2808 public AtomicReferenceArrayAssert haveAtMost(int p0, Condition p1) { return (AtomicReferenceArrayAssert) (Object) null; }2809 public AtomicReferenceArrayAssert haveExactly(int p0, Condition p1) { return (AtomicReferenceArrayAssert) (Object) null; }2810 public AtomicReferenceArrayAssert hasAtLeastOneElementOfType(Class p0) { return (AtomicReferenceArrayAssert) (Object) null; }2811 public AtomicReferenceArrayAssert hasOnlyElementsOfType(Class p0) { return (AtomicReferenceArrayAssert) (Object) null; }2812 public AtomicReferenceArrayAssert doesNotHaveAnyElementsOfTypes(Class[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2813 public AtomicReferenceArrayAssert isSorted() { return (AtomicReferenceArrayAssert) (Object) null; }2814 public AtomicReferenceArrayAssert isSortedAccordingTo(java.util.Comparator p0) { return (AtomicReferenceArrayAssert) (Object) null; }2815 public AtomicReferenceArrayAssert containsAll(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2816 public AtomicReferenceArrayAssert usingElementComparator(java.util.Comparator p0) { return (AtomicReferenceArrayAssert) (Object) null; }2817 public AtomicReferenceArrayAssert usingDefaultElementComparator() { return (AtomicReferenceArrayAssert) (Object) null; }2818 public AtomicReferenceArrayAssert usingComparatorForElementFieldsWithNames(java.util.Comparator p0, String[] p1) { return (AtomicReferenceArrayAssert) (Object) null; }2819 public AtomicReferenceArrayAssert usingComparatorForElementFieldsWithType(java.util.Comparator p0, Class p1) { return (AtomicReferenceArrayAssert) (Object) null; }2820 public AtomicReferenceArrayAssert usingComparatorForType(java.util.Comparator p0, Class p1) { return (AtomicReferenceArrayAssert) (Object) null; }2821 public AtomicReferenceArrayAssert usingFieldByFieldElementComparator() { return (AtomicReferenceArrayAssert) (Object) null; }2822 public AtomicReferenceArrayAssert usingRecursiveFieldByFieldElementComparator() { return (AtomicReferenceArrayAssert) (Object) null; }2823 public AtomicReferenceArrayAssert usingElementComparatorOnFields(String[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2824 public AtomicReferenceArrayAssert usingElementComparatorIgnoringFields(String[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2825 public ObjectArrayAssert extracting(String p0) { return (ObjectArrayAssert) (Object) null; }2826 public ObjectArrayAssert extracting(String p0, Class p1) { return (ObjectArrayAssert) (Object) null; }2827 public ObjectArrayAssert extracting(String[] p0) { return (ObjectArrayAssert) (Object) null; }2828 public ObjectArrayAssert extracting(java.util.function.Function p0) { return (ObjectArrayAssert) (Object) null; }2829 public ObjectArrayAssert extracting(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (ObjectArrayAssert) (Object) null; }2830 public ObjectArrayAssert flatExtracting(java.util.function.Function p0) { return (ObjectArrayAssert) (Object) null; }2831 public ObjectArrayAssert flatExtracting(org.assertj.core.api.iterable.ThrowingExtractor p0) { return (ObjectArrayAssert) (Object) null; }2832 public ObjectArrayAssert flatExtracting(String p0) { return (ObjectArrayAssert) (Object) null; }2833 public ObjectArrayAssert extractingResultOf(String p0) { return (ObjectArrayAssert) (Object) null; }2834 public ObjectArrayAssert extractingResultOf(String p0, Class p1) { return (ObjectArrayAssert) (Object) null; }2835 public AtomicReferenceArrayAssert inHexadecimal() { return (AtomicReferenceArrayAssert) (Object) null; }2836 public AtomicReferenceArrayAssert inBinary() { return (AtomicReferenceArrayAssert) (Object) null; }2837 public AtomicReferenceArrayAssert filteredOn(String p0, Object p1) { return (AtomicReferenceArrayAssert) (Object) null; }2838 public AtomicReferenceArrayAssert filteredOnNull(String p0) { return (AtomicReferenceArrayAssert) (Object) null; }2839 public AtomicReferenceArrayAssert filteredOn(String p0, org.assertj.core.api.filter.FilterOperator p1) { return (AtomicReferenceArrayAssert) (Object) null; }2840 public AtomicReferenceArrayAssert filteredOn(Condition p0) { return (AtomicReferenceArrayAssert) (Object) null; }2841 public AtomicReferenceArrayAssert filteredOn(java.util.function.Predicate p0) { return (AtomicReferenceArrayAssert) (Object) null; }2842 public AtomicReferenceArrayAssert filteredOn(java.util.function.Function p0, Object p1) { return (AtomicReferenceArrayAssert) (Object) null; }2843 public AtomicReferenceArrayAssert allMatch(java.util.function.Predicate p0) { return (AtomicReferenceArrayAssert) (Object) null; }2844 public AtomicReferenceArrayAssert allMatch(java.util.function.Predicate p0, String p1) { return (AtomicReferenceArrayAssert) (Object) null; }2845 public AtomicReferenceArrayAssert allSatisfy(java.util.function.Consumer p0) { return (AtomicReferenceArrayAssert) (Object) null; }2846 public AtomicReferenceArrayAssert anyMatch(java.util.function.Predicate p0) { return (AtomicReferenceArrayAssert) (Object) null; }2847 public AtomicReferenceArrayAssert anySatisfy(java.util.function.Consumer p0) { return (AtomicReferenceArrayAssert) (Object) null; }2848 public AtomicReferenceArrayAssert noneSatisfy(java.util.function.Consumer p0) { return (AtomicReferenceArrayAssert) (Object) null; }2849 public AtomicReferenceArrayAssert satisfiesExactly(java.util.function.Consumer[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2850 public AtomicReferenceArrayAssert satisfiesExactlyInAnyOrder(java.util.function.Consumer[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2851 public AtomicReferenceArrayAssert containsAnyOf(Object[] p0) { return (AtomicReferenceArrayAssert) (Object) null; }2852 public AtomicReferenceArrayAssert containsAnyElementsOf(Iterable p0) { return (AtomicReferenceArrayAssert) (Object) null; }2853 public AtomicReferenceArrayAssert noneMatch(java.util.function.Predicate p0) { return (AtomicReferenceArrayAssert) (Object) null; }2854}2855---2856package org.assertj.core.api;2857import java.io.*;2858public class AtomicReferenceAssert extends AbstractAssert {2859 public void AtomicReferenceAssert(java.util.concurrent.atomic.AtomicReference p0) {}2860 public AtomicReferenceAssert hasValue(Object p0) { return (AtomicReferenceAssert) (Object) null; }2861 public AtomicReferenceAssert doesNotHaveValue(Object p0) { return (AtomicReferenceAssert) (Object) null; }2862 public AtomicReferenceAssert hasValueMatching(java.util.function.Predicate p0) { return (AtomicReferenceAssert) (Object) null; }2863 public AtomicReferenceAssert hasValueMatching(java.util.function.Predicate p0, String p1) { return (AtomicReferenceAssert) (Object) null; }2864 public AtomicReferenceAssert hasValueSatisfying(java.util.function.Consumer p0) { return (AtomicReferenceAssert) (Object) null; }2865}2866---2867package org.assertj.core.api;2868import java.io.*;2869public class AtomicReferenceFieldUpdaterAssert extends AbstractAtomicFieldUpdaterAssert {2870 public void AtomicReferenceFieldUpdaterAssert(java.util.concurrent.atomic.AtomicReferenceFieldUpdater p0) {}2871 public AtomicReferenceFieldUpdaterAssert hasValue(Object p0, Object p1) { return (AtomicReferenceFieldUpdaterAssert) (Object) null; }2872}2873---2874package org.assertj.core.api;2875import java.io.*;2876public class AtomicStampedReferenceAssert extends AbstractAtomicReferenceAssert {2877 public void AtomicStampedReferenceAssert(java.util.concurrent.atomic.AtomicStampedReference p0) {}2878 public AtomicStampedReferenceAssert hasReference(Object p0) { return (AtomicStampedReferenceAssert) (Object) null; }2879 public AtomicStampedReferenceAssert hasStamp(int p0) { return (AtomicStampedReferenceAssert) (Object) null; }2880}2881---2882package org.assertj.core.api;2883import java.io.*;2884public class Boolean2DArrayAssert extends Abstract2DArrayAssert {2885 public void Boolean2DArrayAssert(boolean[][] p0) {}2886 public Boolean2DArrayAssert isDeepEqualTo(boolean[][] p0) { return (Boolean2DArrayAssert) (Object) null; }2887 public Boolean2DArrayAssert isEqualTo(Object p0) { return (Boolean2DArrayAssert) (Object) null; }2888 public void isNullOrEmpty() {}2889 public void isEmpty() {}2890 public Boolean2DArrayAssert isNotEmpty() { return (Boolean2DArrayAssert) (Object) null; }2891 public Boolean2DArrayAssert hasDimensions(int p0, int p1) { return (Boolean2DArrayAssert) (Object) null; }2892 public Boolean2DArrayAssert hasSameDimensionsAs(Object p0) { return (Boolean2DArrayAssert) (Object) null; }2893 public Boolean2DArrayAssert contains(boolean[] p0, org.assertj.core.data.Index p1) { return (Boolean2DArrayAssert) (Object) null; }2894 public Boolean2DArrayAssert doesNotContain(boolean[] p0, org.assertj.core.data.Index p1) { return (Boolean2DArrayAssert) (Object) null; }2895 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }2896}2897---2898package org.assertj.core.api;2899import java.io.*;2900public class BooleanAssert extends AbstractBooleanAssert {2901 public void BooleanAssert(Boolean p0) {}2902 public void BooleanAssert(java.util.concurrent.atomic.AtomicBoolean p0) {}2903}2904---2905package org.assertj.core.api;2906import java.io.*;2907public class Byte2DArrayAssert extends Abstract2DArrayAssert {2908 public void Byte2DArrayAssert(byte[][] p0) {}2909 public Byte2DArrayAssert isDeepEqualTo(byte[][] p0) { return (Byte2DArrayAssert) (Object) null; }2910 public Byte2DArrayAssert isEqualTo(Object p0) { return (Byte2DArrayAssert) (Object) null; }2911 public void isNullOrEmpty() {}2912 public void isEmpty() {}2913 public Byte2DArrayAssert isNotEmpty() { return (Byte2DArrayAssert) (Object) null; }2914 public Byte2DArrayAssert hasDimensions(int p0, int p1) { return (Byte2DArrayAssert) (Object) null; }2915 public Byte2DArrayAssert hasSameDimensionsAs(Object p0) { return (Byte2DArrayAssert) (Object) null; }2916 public Byte2DArrayAssert contains(byte[] p0, org.assertj.core.data.Index p1) { return (Byte2DArrayAssert) (Object) null; }2917 public Byte2DArrayAssert doesNotContain(byte[] p0, org.assertj.core.data.Index p1) { return (Byte2DArrayAssert) (Object) null; }2918 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }2919}2920---2921package org.assertj.core.api;2922import java.io.*;2923public class Char2DArrayAssert extends Abstract2DArrayAssert {2924 public void Char2DArrayAssert(char[][] p0) {}2925 public Char2DArrayAssert isDeepEqualTo(char[][] p0) { return (Char2DArrayAssert) (Object) null; }2926 public Char2DArrayAssert isEqualTo(Object p0) { return (Char2DArrayAssert) (Object) null; }2927 public void isNullOrEmpty() {}2928 public void isEmpty() {}2929 public Char2DArrayAssert isNotEmpty() { return (Char2DArrayAssert) (Object) null; }2930 public Char2DArrayAssert hasDimensions(int p0, int p1) { return (Char2DArrayAssert) (Object) null; }2931 public Char2DArrayAssert hasSameDimensionsAs(Object p0) { return (Char2DArrayAssert) (Object) null; }2932 public Char2DArrayAssert contains(char[] p0, org.assertj.core.data.Index p1) { return (Char2DArrayAssert) (Object) null; }2933 public Char2DArrayAssert doesNotContain(char[] p0, org.assertj.core.data.Index p1) { return (Char2DArrayAssert) (Object) null; }2934 public Char2DArrayAssert inUnicode() { return (Char2DArrayAssert) (Object) null; }2935 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }2936}2937---2938package org.assertj.core.api;2939import java.io.*;2940public class ClassAssert extends AbstractClassAssert {2941 public void ClassAssert(Class p0) {}2942 public ClassAssert hasAnnotations(Class[] p0) { return (ClassAssert) (Object) null; }2943}2944---2945package org.assertj.core.api;2946import java.io.*;2947public class ClassBasedNavigableIterableAssert extends AbstractIterableAssert {2948 public void ClassBasedNavigableIterableAssert(Iterable p0, Class p1, Class p2) {}2949 public AbstractAssert toAssert(Object p0, String p1) { return (AbstractAssert) (Object) null; }2950}2951---2952package org.assertj.core.api;2953import java.io.*;2954public class ClassBasedNavigableListAssert extends AbstractListAssert {2955 public void ClassBasedNavigableListAssert(java.util.List p0, Class p1) {}2956 public AbstractAssert toAssert(Object p0, String p1) { return (AbstractAssert) (Object) null; }2957}2958---2959package org.assertj.core.api;2960import java.io.*;2961public interface ComparableAssert {2962 ComparableAssert isEqualByComparingTo(Comparable p0);2963 ComparableAssert isNotEqualByComparingTo(Comparable p0);2964 ComparableAssert isLessThan(Comparable p0);2965 ComparableAssert isLessThanOrEqualTo(Comparable p0);2966 ComparableAssert isGreaterThan(Comparable p0);2967 ComparableAssert isGreaterThanOrEqualTo(Comparable p0);2968 ComparableAssert isBetween(Comparable p0, Comparable p1);2969 ComparableAssert isStrictlyBetween(Comparable p0, Comparable p1);2970}2971---2972package org.assertj.core.api;2973import java.io.*;2974public class CompletableFutureAssert extends AbstractCompletableFutureAssert {2975}2976---2977package org.assertj.core.api;2978import java.io.*;2979public class Condition implements Descriptable {2980 public void Condition() {}2981 public void Condition(String p0) {}2982 public void Condition(java.util.function.Predicate p0, String p1, Object[] p2) {}2983 public void Condition(org.assertj.core.description.Description p0) {}2984 public Condition describedAs(org.assertj.core.description.Description p0) { return (Condition) (Object) null; }2985 public org.assertj.core.description.Description description() { return (org.assertj.core.description.Description) (Object) null; }2986 public boolean matches(Object p0) { return (boolean) (Object) null; }2987 public String toString() { return (String) (Object) null; }2988}2989---2990package org.assertj.core.api;2991import java.io.*;2992public interface Descriptable {2993 Object describedAs(org.assertj.core.description.Description p0);2994 default Object as(java.util.function.Supplier<String> descriptionSupplier) { return null;}2995}2996---2997package org.assertj.core.api;2998import java.io.*;2999public class Double2DArrayAssert extends Abstract2DArrayAssert {3000 public void Double2DArrayAssert(double[][] p0) {}3001 public Double2DArrayAssert isDeepEqualTo(double[][] p0) { return (Double2DArrayAssert) (Object) null; }3002 public Double2DArrayAssert isEqualTo(Object p0) { return (Double2DArrayAssert) (Object) null; }3003 public void isNullOrEmpty() {}3004 public void isEmpty() {}3005 public Double2DArrayAssert isNotEmpty() { return (Double2DArrayAssert) (Object) null; }3006 public Double2DArrayAssert hasDimensions(int p0, int p1) { return (Double2DArrayAssert) (Object) null; }3007 public Double2DArrayAssert hasSameDimensionsAs(Object p0) { return (Double2DArrayAssert) (Object) null; }3008 public Double2DArrayAssert contains(double[] p0, org.assertj.core.data.Index p1) { return (Double2DArrayAssert) (Object) null; }3009 public Double2DArrayAssert doesNotContain(double[] p0, org.assertj.core.data.Index p1) { return (Double2DArrayAssert) (Object) null; }3010 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }3011}3012---3013package org.assertj.core.api;3014import java.io.*;3015public class DoublePredicateAssert extends AbstractPredicateLikeAssert {3016 public void DoublePredicateAssert(java.util.function.DoublePredicate p0) {}3017 public DoublePredicateAssert accepts(double[] p0) { return (DoublePredicateAssert) (Object) null; }3018 public DoublePredicateAssert rejects(double[] p0) { return (DoublePredicateAssert) (Object) null; }3019}3020---3021package org.assertj.core.api;3022import java.io.*;3023public interface EnumerableAssert {3024 void isNullOrEmpty();3025 void isEmpty();3026 EnumerableAssert isNotEmpty();3027 EnumerableAssert hasSize(int p0);3028 EnumerableAssert hasSizeGreaterThan(int p0);3029 EnumerableAssert hasSizeGreaterThanOrEqualTo(int p0);3030 EnumerableAssert hasSizeLessThan(int p0);3031 EnumerableAssert hasSizeLessThanOrEqualTo(int p0);3032 EnumerableAssert hasSizeBetween(int p0, int p1);3033 EnumerableAssert hasSameSizeAs(Iterable p0);3034 EnumerableAssert hasSameSizeAs(Object p0);3035 EnumerableAssert usingElementComparator(java.util.Comparator p0);3036 EnumerableAssert usingDefaultElementComparator();3037}3038---3039package org.assertj.core.api;3040import java.io.*;3041public interface ExtensionPoints {3042 ExtensionPoints is(Condition p0);3043 ExtensionPoints isNot(Condition p0);3044 ExtensionPoints has(Condition p0);3045 ExtensionPoints doesNotHave(Condition p0);3046 ExtensionPoints satisfies(Condition p0);3047}3048---3049package org.assertj.core.api;3050import java.io.*;3051public class FactoryBasedNavigableIterableAssert extends AbstractIterableAssert {3052 public void FactoryBasedNavigableIterableAssert(Iterable p0, Class p1, AssertFactory p2) {}3053 public AbstractAssert toAssert(Object p0, String p1) { return (AbstractAssert) (Object) null; }3054}3055---3056package org.assertj.core.api;3057import java.io.*;3058public class FactoryBasedNavigableListAssert extends AbstractListAssert {3059 public void FactoryBasedNavigableListAssert(java.util.List p0, Class p1, AssertFactory p2) {}3060 public AbstractAssert toAssert(Object p0, String p1) { return (AbstractAssert) (Object) null; }3061}3062---3063package org.assertj.core.api;3064import java.io.*;3065public class Float2DArrayAssert extends Abstract2DArrayAssert {3066 public void Float2DArrayAssert(float[][] p0) {}3067 public Float2DArrayAssert isDeepEqualTo(float[][] p0) { return (Float2DArrayAssert) (Object) null; }3068 public Float2DArrayAssert isEqualTo(Object p0) { return (Float2DArrayAssert) (Object) null; }3069 public void isNullOrEmpty() {}3070 public void isEmpty() {}3071 public Float2DArrayAssert isNotEmpty() { return (Float2DArrayAssert) (Object) null; }3072 public Float2DArrayAssert hasDimensions(int p0, int p1) { return (Float2DArrayAssert) (Object) null; }3073 public Float2DArrayAssert hasSameDimensionsAs(Object p0) { return (Float2DArrayAssert) (Object) null; }3074 public Float2DArrayAssert contains(float[] p0, org.assertj.core.data.Index p1) { return (Float2DArrayAssert) (Object) null; }3075 public Float2DArrayAssert doesNotContain(float[] p0, org.assertj.core.data.Index p1) { return (Float2DArrayAssert) (Object) null; }3076 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }3077}3078---3079package org.assertj.core.api;3080import java.io.*;3081public interface FloatingPointNumberAssert extends NumberAssert {3082 FloatingPointNumberAssert isEqualTo(Number p0, org.assertj.core.data.Offset p1);3083 FloatingPointNumberAssert isCloseTo(Number p0, org.assertj.core.data.Offset p1);3084 FloatingPointNumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Offset p1);3085 FloatingPointNumberAssert isNaN();3086 FloatingPointNumberAssert isNotNaN();3087 FloatingPointNumberAssert isFinite();3088 FloatingPointNumberAssert isInfinite();3089}3090---3091package org.assertj.core.api;3092import java.io.*;3093public class FutureAssert extends AbstractFutureAssert {3094}3095---3096package org.assertj.core.api;3097import java.io.*;3098public interface IndexedObjectEnumerableAssert extends ObjectEnumerableAssert {3099 IndexedObjectEnumerableAssert contains(Object p0, org.assertj.core.data.Index p1);3100 IndexedObjectEnumerableAssert doesNotContain(Object p0, org.assertj.core.data.Index p1);3101}3102---3103package org.assertj.core.api;3104import java.io.*;3105public interface InstanceOfAssertFactories {3106}3107---3108package org.assertj.core.api;3109import java.io.*;3110public class InstanceOfAssertFactory implements AssertFactory {3111 public void InstanceOfAssertFactory(Class p0, AssertFactory p1) {}3112 public AbstractAssert createAssert(Object p0) { return (AbstractAssert) (Object) null; }3113 public String toString() { return (String) (Object) null; }3114}3115---3116package org.assertj.core.api;3117import java.io.*;3118public class Int2DArrayAssert extends Abstract2DArrayAssert {3119 public void Int2DArrayAssert(int[][] p0) {}3120 public Int2DArrayAssert isDeepEqualTo(int[][] p0) { return (Int2DArrayAssert) (Object) null; }3121 public Int2DArrayAssert isEqualTo(Object p0) { return (Int2DArrayAssert) (Object) null; }3122 public void isNullOrEmpty() {}3123 public void isEmpty() {}3124 public Int2DArrayAssert isNotEmpty() { return (Int2DArrayAssert) (Object) null; }3125 public Int2DArrayAssert hasDimensions(int p0, int p1) { return (Int2DArrayAssert) (Object) null; }3126 public Int2DArrayAssert hasSameDimensionsAs(Object p0) { return (Int2DArrayAssert) (Object) null; }3127 public Int2DArrayAssert contains(int[] p0, org.assertj.core.data.Index p1) { return (Int2DArrayAssert) (Object) null; }3128 public Int2DArrayAssert doesNotContain(int[] p0, org.assertj.core.data.Index p1) { return (Int2DArrayAssert) (Object) null; }3129 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }3130}3131---3132package org.assertj.core.api;3133import java.io.*;3134public class IntPredicateAssert extends AbstractPredicateLikeAssert {3135 public void IntPredicateAssert(java.util.function.IntPredicate p0) {}3136 public IntPredicateAssert accepts(int[] p0) { return (IntPredicateAssert) (Object) null; }3137 public IntPredicateAssert rejects(int[] p0) { return (IntPredicateAssert) (Object) null; }3138}3139---3140package org.assertj.core.api;3141import java.io.*;3142public class IterableAssert extends FactoryBasedNavigableIterableAssert {3143 public void IterableAssert(Iterable p0) {}3144 public IterableAssert contains(Object[] p0) { return (IterableAssert) (Object) null; }3145 public IterableAssert containsOnly(Object[] p0) { return (IterableAssert) (Object) null; }3146 public IterableAssert containsOnlyOnce(Object[] p0) { return (IterableAssert) (Object) null; }3147 public IterableAssert containsExactly(Object[] p0) { return (IterableAssert) (Object) null; }3148 public IterableAssert containsExactlyInAnyOrder(Object[] p0) { return (IterableAssert) (Object) null; }3149 public IterableAssert containsAnyOf(Object[] p0) { return (IterableAssert) (Object) null; }3150 public IterableAssert isSubsetOf(Object[] p0) { return (IterableAssert) (Object) null; }3151 public IterableAssert containsSequence(Object[] p0) { return (IterableAssert) (Object) null; }3152 public IterableAssert doesNotContainSequence(Object[] p0) { return (IterableAssert) (Object) null; }3153 public IterableAssert containsSubsequence(Object[] p0) { return (IterableAssert) (Object) null; }3154 public IterableAssert doesNotContainSubsequence(Object[] p0) { return (IterableAssert) (Object) null; }3155 public IterableAssert doesNotContain(Object[] p0) { return (IterableAssert) (Object) null; }3156 public IterableAssert endsWith(Object p0, Object[] p1) { return (IterableAssert) (Object) null; }3157 public AbstractListAssert flatExtracting(org.assertj.core.api.iterable.ThrowingExtractor[] p0) { return (AbstractListAssert) (Object) null; }3158 public AbstractListAssert flatMap(org.assertj.core.api.iterable.ThrowingExtractor[] p0) { return (AbstractListAssert) (Object) null; }3159 public AbstractListAssert flatExtracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3160 public AbstractListAssert flatMap(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3161 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3162 public AbstractListAssert map(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3163 public IterableAssert satisfiesExactly(java.util.function.Consumer[] p0) { return (IterableAssert) (Object) null; }3164 public IterableAssert satisfiesExactlyInAnyOrder(java.util.function.Consumer[] p0) { return (IterableAssert) (Object) null; }3165}3166---3167package org.assertj.core.api;3168import java.io.*;3169public class IteratorAssert extends AbstractIteratorAssert {3170 public void IteratorAssert(java.util.Iterator p0) {}3171}3172---3173package org.assertj.core.api;3174import java.io.*;3175public class ListAssert extends FactoryBasedNavigableListAssert {3176 public void ListAssert(java.util.List p0) {}3177 public void ListAssert(java.util.stream.Stream p0) {}3178 public void ListAssert(java.util.stream.IntStream p0) {}3179 public void ListAssert(java.util.stream.LongStream p0) {}3180 public void ListAssert(java.util.stream.DoubleStream p0) {}3181 public ListAssert isEqualTo(Object p0) { return (ListAssert) (Object) null; }3182 public ListAssert isInstanceOf(Class p0) { return (ListAssert) (Object) null; }3183 public ListAssert isInstanceOfAny(Class[] p0) { return (ListAssert) (Object) null; }3184 public ListAssert isOfAnyClassIn(Class[] p0) { return (ListAssert) (Object) null; }3185 public ListAssert isExactlyInstanceOf(Class p0) { return (ListAssert) (Object) null; }3186 public ListAssert isNotInstanceOf(Class p0) { return (ListAssert) (Object) null; }3187 public ListAssert isNotInstanceOfAny(Class[] p0) { return (ListAssert) (Object) null; }3188 public ListAssert isNotOfAnyClassIn(Class[] p0) { return (ListAssert) (Object) null; }3189 public ListAssert isNotExactlyInstanceOf(Class p0) { return (ListAssert) (Object) null; }3190 public ListAssert isSameAs(Object p0) { return (ListAssert) (Object) null; }3191 public ListAssert isNotSameAs(Object p0) { return (ListAssert) (Object) null; }3192 public ListAssert startsWith(Object[] p0) { return (ListAssert) (Object) null; }3193 public ListAssert contains(Object[] p0) { return (ListAssert) (Object) null; }3194 public ListAssert containsOnly(Object[] p0) { return (ListAssert) (Object) null; }3195 public ListAssert containsOnlyOnce(Object[] p0) { return (ListAssert) (Object) null; }3196 public ListAssert containsExactly(Object[] p0) { return (ListAssert) (Object) null; }3197 public ListAssert containsExactlyInAnyOrder(Object[] p0) { return (ListAssert) (Object) null; }3198 public ListAssert containsAnyOf(Object[] p0) { return (ListAssert) (Object) null; }3199 public ListAssert isSubsetOf(Object[] p0) { return (ListAssert) (Object) null; }3200 public ListAssert containsSequence(Object[] p0) { return (ListAssert) (Object) null; }3201 public ListAssert doesNotContainSequence(Object[] p0) { return (ListAssert) (Object) null; }3202 public ListAssert containsSubsequence(Object[] p0) { return (ListAssert) (Object) null; }3203 public ListAssert doesNotContainSubsequence(Object[] p0) { return (ListAssert) (Object) null; }3204 public ListAssert doesNotContain(Object[] p0) { return (ListAssert) (Object) null; }3205 public ListAssert endsWith(Object p0, Object[] p1) { return (ListAssert) (Object) null; }3206 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3207 public AbstractListAssert map(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3208 public AbstractListAssert flatExtracting(org.assertj.core.api.iterable.ThrowingExtractor[] p0) { return (AbstractListAssert) (Object) null; }3209 public AbstractListAssert flatMap(org.assertj.core.api.iterable.ThrowingExtractor[] p0) { return (AbstractListAssert) (Object) null; }3210 public AbstractListAssert flatExtracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3211 public AbstractListAssert flatMap(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3212 public ListAssert satisfiesExactly(java.util.function.Consumer[] p0) { return (ListAssert) (Object) null; }3213 public ListAssert satisfiesExactlyInAnyOrder(java.util.function.Consumer[] p0) { return (ListAssert) (Object) null; }3214}3215---3216package org.assertj.core.api;3217import java.io.*;3218public class Long2DArrayAssert extends Abstract2DArrayAssert {3219 public void Long2DArrayAssert(long[][] p0) {}3220 public Long2DArrayAssert isDeepEqualTo(long[][] p0) { return (Long2DArrayAssert) (Object) null; }3221 public Long2DArrayAssert isEqualTo(Object p0) { return (Long2DArrayAssert) (Object) null; }3222 public void isNullOrEmpty() {}3223 public void isEmpty() {}3224 public Long2DArrayAssert isNotEmpty() { return (Long2DArrayAssert) (Object) null; }3225 public Long2DArrayAssert hasDimensions(int p0, int p1) { return (Long2DArrayAssert) (Object) null; }3226 public Long2DArrayAssert hasSameDimensionsAs(Object p0) { return (Long2DArrayAssert) (Object) null; }3227 public Long2DArrayAssert contains(long[] p0, org.assertj.core.data.Index p1) { return (Long2DArrayAssert) (Object) null; }3228 public Long2DArrayAssert doesNotContain(long[] p0, org.assertj.core.data.Index p1) { return (Long2DArrayAssert) (Object) null; }3229 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }3230}3231---3232package org.assertj.core.api;3233import java.io.*;3234public class LongAdderAssert extends AbstractLongAdderAssert {3235 public void LongAdderAssert(java.util.concurrent.atomic.LongAdder p0) {}3236}3237---3238package org.assertj.core.api;3239import java.io.*;3240public class LongPredicateAssert extends AbstractPredicateLikeAssert {3241 public void LongPredicateAssert(java.util.function.LongPredicate p0) {}3242 public LongPredicateAssert accepts(long[] p0) { return (LongPredicateAssert) (Object) null; }3243 public LongPredicateAssert rejects(long[] p0) { return (LongPredicateAssert) (Object) null; }3244}3245---3246package org.assertj.core.api;3247import java.io.*;3248public class MapAssert extends AbstractMapAssert {3249 public void MapAssert(java.util.Map p0) {}3250 public MapAssert contains(java.util.Map.Entry[] p0) { return (MapAssert) (Object) null; }3251 public MapAssert containsAnyOf(java.util.Map.Entry[] p0) { return (MapAssert) (Object) null; }3252 public MapAssert containsOnly(java.util.Map.Entry[] p0) { return (MapAssert) (Object) null; }3253 public MapAssert containsExactly(java.util.Map.Entry[] p0) { return (MapAssert) (Object) null; }3254 public MapAssert containsKeys(Object[] p0) { return (MapAssert) (Object) null; }3255 public MapAssert containsOnlyKeys(Object[] p0) { return (MapAssert) (Object) null; }3256 public MapAssert containsValues(Object[] p0) { return (MapAssert) (Object) null; }3257 public MapAssert doesNotContainKeys(Object[] p0) { return (MapAssert) (Object) null; }3258 public MapAssert doesNotContain(java.util.Map.Entry[] p0) { return (MapAssert) (Object) null; }3259 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3260 public AbstractListAssert extractingByKeys(Object[] p0) { return (AbstractListAssert) (Object) null; }3261 public AbstractListAssert extractingFromEntries(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3262}3263---3264package org.assertj.core.api;3265import java.io.*;3266public class NotThrownAssert implements Descriptable {3267 public void NotThrownAssert() {}3268 public void isThrownBy(ThrowableAssert.ThrowingCallable p0) {}3269 public NotThrownAssert describedAs(org.assertj.core.description.Description p0) { return (NotThrownAssert) (Object) null; }3270}3271---3272package org.assertj.core.api;3273import java.io.*;3274public interface NumberAssert {3275 NumberAssert isZero();3276 NumberAssert isNotZero();3277 NumberAssert isOne();3278 NumberAssert isPositive();3279 NumberAssert isNegative();3280 NumberAssert isNotNegative();3281 NumberAssert isNotPositive();3282 NumberAssert isBetween(Number p0, Number p1);3283 NumberAssert isStrictlyBetween(Number p0, Number p1);3284 NumberAssert isCloseTo(Number p0, org.assertj.core.data.Offset p1);3285 NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Offset p1);3286 NumberAssert isCloseTo(Number p0, org.assertj.core.data.Percentage p1);3287 NumberAssert isNotCloseTo(Number p0, org.assertj.core.data.Percentage p1);3288}3289---3290package org.assertj.core.api;3291import java.io.*;3292public class Object2DArrayAssert extends Abstract2DArrayAssert {3293 public void Object2DArrayAssert(Object[][] p0) {}3294 public Object2DArrayAssert isDeepEqualTo(Object[][] p0) { return (Object2DArrayAssert) (Object) null; }3295 public Object2DArrayAssert isEqualTo(Object p0) { return (Object2DArrayAssert) (Object) null; }3296 public void isNullOrEmpty() {}3297 public void isEmpty() {}3298 public Object2DArrayAssert isNotEmpty() { return (Object2DArrayAssert) (Object) null; }3299 public Object2DArrayAssert hasDimensions(int p0, int p1) { return (Object2DArrayAssert) (Object) null; }3300 public Object2DArrayAssert hasSameDimensionsAs(Object p0) { return (Object2DArrayAssert) (Object) null; }3301 public Object2DArrayAssert contains(Object[] p0, org.assertj.core.data.Index p1) { return (Object2DArrayAssert) (Object) null; }3302 public Object2DArrayAssert doesNotContain(Object[] p0, org.assertj.core.data.Index p1) { return (Object2DArrayAssert) (Object) null; }3303 public Abstract2DArrayAssert isDeepEqualTo(Object p0) { return (Abstract2DArrayAssert) (Object) null; }3304}3305---3306package org.assertj.core.api;3307import java.io.*;3308public class ObjectArrayAssert extends AbstractObjectArrayAssert {3309 public void ObjectArrayAssert(Object[] p0) {}3310 public void ObjectArrayAssert(java.util.concurrent.atomic.AtomicReferenceArray p0) {}3311 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3312 public ObjectArrayAssert contains(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3313 public ObjectArrayAssert containsOnly(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3314 public ObjectArrayAssert containsOnlyOnce(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3315 public ObjectArrayAssert containsExactly(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3316 public ObjectArrayAssert containsExactlyInAnyOrder(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3317 public ObjectArrayAssert containsAnyOf(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3318 public ObjectArrayAssert isSubsetOf(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3319 public ObjectArrayAssert containsSequence(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3320 public ObjectArrayAssert doesNotContainSequence(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3321 public ObjectArrayAssert containsSubsequence(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3322 public ObjectArrayAssert doesNotContainSubsequence(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3323 public ObjectArrayAssert doesNotContain(Object[] p0) { return (ObjectArrayAssert) (Object) null; }3324 public ObjectArrayAssert endsWith(Object p0, Object[] p1) { return (ObjectArrayAssert) (Object) null; }3325 public ObjectArrayAssert satisfiesExactly(java.util.function.Consumer[] p0) { return (ObjectArrayAssert) (Object) null; }3326 public ObjectArrayAssert satisfiesExactlyInAnyOrder(java.util.function.Consumer[] p0) { return (ObjectArrayAssert) (Object) null; }3327}3328---3329package org.assertj.core.api;3330import java.io.*;3331public class ObjectAssert extends AbstractObjectAssert {3332 public void ObjectAssert(Object p0) {}3333 public void ObjectAssert(java.util.concurrent.atomic.AtomicReference p0) {}3334 public AbstractListAssert extracting(java.util.function.Function[] p0) { return (AbstractListAssert) (Object) null; }3335}3336---3337package org.assertj.core.api;3338import java.io.*;3339public interface ObjectEnumerableAssert extends EnumerableAssert {3340 ObjectEnumerableAssert contains(Object[] p0);3341 ObjectEnumerableAssert containsOnly(Object[] p0);3342 ObjectEnumerableAssert containsOnlyNulls();3343 ObjectEnumerableAssert containsOnlyOnce(Object[] p0);3344 ObjectEnumerableAssert containsExactly(Object[] p0);3345 ObjectEnumerableAssert containsExactlyInAnyOrder(Object[] p0);3346 ObjectEnumerableAssert containsExactlyInAnyOrderElementsOf(Iterable p0);3347 ObjectEnumerableAssert containsSequence(Object[] p0);3348 ObjectEnumerableAssert containsSequence(Iterable p0);3349 ObjectEnumerableAssert doesNotContainSequence(Object[] p0);3350 ObjectEnumerableAssert doesNotContainSequence(Iterable p0);3351 ObjectEnumerableAssert containsSubsequence(Object[] p0);3352 ObjectEnumerableAssert containsSubsequence(Iterable p0);3353 ObjectEnumerableAssert doesNotContainSubsequence(Object[] p0);3354 ObjectEnumerableAssert doesNotContainSubsequence(Iterable p0);3355 ObjectEnumerableAssert doesNotContain(Object[] p0);3356 ObjectEnumerableAssert doesNotHaveDuplicates();3357 ObjectEnumerableAssert startsWith(Object[] p0);3358 ObjectEnumerableAssert endsWith(Object p0, Object[] p1);3359 ObjectEnumerableAssert endsWith(Object[] p0);3360 ObjectEnumerableAssert containsNull();3361 ObjectEnumerableAssert doesNotContainNull();3362 ObjectEnumerableAssert are(Condition p0);3363 ObjectEnumerableAssert areNot(Condition p0);3364 ObjectEnumerableAssert have(Condition p0);3365 ObjectEnumerableAssert doNotHave(Condition p0);3366 ObjectEnumerableAssert areAtLeast(int p0, Condition p1);3367 ObjectEnumerableAssert areAtLeastOne(Condition p0);3368 ObjectEnumerableAssert areAtMost(int p0, Condition p1);3369 ObjectEnumerableAssert areExactly(int p0, Condition p1);3370 ObjectEnumerableAssert haveAtLeastOne(Condition p0);3371 ObjectEnumerableAssert haveAtLeast(int p0, Condition p1);3372 ObjectEnumerableAssert haveAtMost(int p0, Condition p1);3373 ObjectEnumerableAssert haveExactly(int p0, Condition p1);3374 ObjectEnumerableAssert containsAll(Iterable p0);3375 ObjectEnumerableAssert hasOnlyOneElementSatisfying(java.util.function.Consumer p0);3376 ObjectEnumerableAssert hasOnlyElementsOfTypes(Class[] p0);3377 ObjectEnumerableAssert hasAtLeastOneElementOfType(Class p0);3378 ObjectEnumerableAssert hasOnlyElementsOfType(Class p0);3379 ObjectEnumerableAssert doesNotHaveAnyElementsOfTypes(Class[] p0);3380 ObjectEnumerableAssert containsExactlyElementsOf(Iterable p0);3381 ObjectEnumerableAssert containsOnlyElementsOf(Iterable p0);3382 ObjectEnumerableAssert containsOnlyOnceElementsOf(Iterable p0);3383 ObjectEnumerableAssert hasSameElementsAs(Iterable p0);3384 ObjectEnumerableAssert doesNotContainAnyElementsOf(Iterable p0);3385 ObjectEnumerableAssert isSubsetOf(Iterable p0);3386 ObjectEnumerableAssert isSubsetOf(Object[] p0);3387 ObjectEnumerableAssert allMatch(java.util.function.Predicate p0);...

Full Screen

Full Screen

Source:AtomicReferenceArrayAssert.java Github

copy

Full Screen

...150 * assertThat(atomicArray).hasArray(new String[]{"a", "b", "c", "d"});</code></pre>151 *152 * @param expected the array expected to be in the actual AtomicReferenceArray.153 * @return {@code this} assertion object.154 * @throws AssertionError if the AtomicReferenceArray does not have the given array.155 * @since 2.7.0 / 3.7.0156 */157 public AtomicReferenceArrayAssert<T> hasArray(T[] expected) {158 arrays.assertContainsExactly(info, array, expected);159 return myself;160 }161 162 /**163 * Verifies that the number of values in the AtomicReferenceArray is equal to the given one.164 * <p>165 * Example:166 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; atomicArray = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});167 * 168 * assertThat(atomicArray).hasSize(3);169 * 170 * // assertion will fail171 * assertThat(atomicArray).hasSize(1);</code></pre>172 *173 * @param expected the expected number of values in the actual AtomicReferenceArray.174 * @return {@code this} assertion object.175 * @throws AssertionError if the number of values of the AtomicReferenceArray is not equal to the given one.176 * @since 2.7.0 / 3.7.0177 */178 @Override179 public AtomicReferenceArrayAssert<T> hasSize(int expected) {180 arrays.assertHasSize(info, array, expected);181 return myself;182 }183 /**184 * Verifies that the actual AtomicReferenceArray has the same size as the given array.185 * <p>186 * Parameter is declared as Object to accept both {@code Object[]} and primitive arrays (e.g. {@code int[]}).187 * <p>188 * Example:189 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});190 * int[] fourFiveSix = {4, 5, 6};191 * int[] sevenEight = {7, 8};192 *193 * // assertion will pass194 * assertThat(abc).hasSameSizeAs(fourFiveSix);195 *196 * // assertion will fail197 * assertThat(abc).hasSameSizeAs(sevenEight);</code></pre>198 *199 * @param other the array to compare size with actual AtomicReferenceArray.200 * @return {@code this} assertion object.201 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.202 * @throws AssertionError if the array parameter is {@code null} or is not a true array.203 * @throws AssertionError if actual AtomicReferenceArray and given array don't have the same size.204 * @since 2.7.0 / 3.7.0205 */206 @Override207 public AtomicReferenceArrayAssert<T> hasSameSizeAs(Object other) {208 arrays.assertHasSameSizeAs(info, array, other);209 return myself;210 }211 /**212 * Verifies that the actual AtomicReferenceArray has the same size as the given {@link Iterable}.213 * <p>214 * Example:215 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});216 * Iterable&lt;Ring&gt; elvesRings = newArrayList(vilya, nenya, narya);217 *218 * // assertion will pass219 * assertThat(abc).hasSameSizeAs(elvesRings);220 * 221 * // assertion will fail222 * assertThat(abc).hasSameSizeAs(Arrays.asList("a", "b"));</code></pre>223 *224 * @param other the {@code Iterable} to compare size with actual AtomicReferenceArray.225 * @return {@code this} assertion object.226 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.227 * @throws AssertionError if the other {@code Iterable} is {@code null}.228 * @throws AssertionError if actual AtomicReferenceArray and given {@code Iterable} don't have the same size.229 * @since 2.7.0 / 3.7.0230 */231 @Override232 public AtomicReferenceArrayAssert<T> hasSameSizeAs(Iterable<?> other) {233 arrays.assertHasSameSizeAs(info, array, other);234 return myself;235 }236 /**237 * Verifies that the actual AtomicReferenceArray contains the given values, in any order.238 * <p>239 * Example :240 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});241 *242 * // assertions will pass243 * assertThat(abc).contains("b", "a")244 * .contains("b", "a", "b");245 *246 * // assertions will fail247 * assertThat(abc).contains("d");248 * assertThat(abc).contains("c", "d");</code></pre>249 *250 * @param values the given values.251 * @return {@code this} assertion object.252 * @throws NullPointerException if the given argument is {@code null}.253 * @throws IllegalArgumentException if the given argument is an empty array.254 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.255 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given values.256 * @since 2.7.0 / 3.7.0257 */258 @Override259 public AtomicReferenceArrayAssert<T> contains(@SuppressWarnings("unchecked") T... values) {260 arrays.assertContains(info, array, values);261 return myself;262 }263 /**264 * Verifies that the actual AtomicReferenceArray contains only the given values and nothing else, <b>in any order</b>.265 * <p>266 * Example :267 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});268 *269 * // assertions will pass270 * assertThat(abc).containsOnly("c", "b", "a")271 * .containsOnly("a", "a", "b", "c", "c");272 *273 * // assertion will fail because "c" is missing from the given values274 * assertThat(abc).containsOnly("a", "b");275 * // assertion will fail because abc does not contain "d"276 * assertThat(abc).containsOnly("a", "b", "c", "d");</code></pre>277 *278 * @param values the given values.279 * @return {@code this} assertion object.280 * @throws NullPointerException if the given argument is {@code null}.281 * @throws IllegalArgumentException if the given argument is an empty array.282 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.283 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given values, i.e. the actual AtomicReferenceArray contains some284 * or none of the given values, or the actual AtomicReferenceArray contains more values than the given ones.285 * @since 2.7.0 / 3.7.0286 */287 @Override288 public AtomicReferenceArrayAssert<T> containsOnly(@SuppressWarnings("unchecked") T... values) {289 arrays.assertContainsOnly(info, array, values);290 return myself;291 }292 /**293 * Same semantic as {@link #containsOnly(Object[])} : verifies that actual contains all elements of the given294 * {@code Iterable} and nothing else, <b>in any order</b>.295 * <p>296 * Example :297 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; rings = new AtomicReferenceArray&lt;&gt;(new Ring[]{nenya, vilya});298 *299 * // assertions will pass300 * assertThat(rings).containsOnlyElementsOf(newArrayList(nenya, vilya))301 * .containsOnlyElementsOf(newArrayList(nenya, nenya, vilya, vilya));302 *303 * // assertion will fail as actual does not contain narya304 * assertThat(rings).containsOnlyElementsOf(newArrayList(nenya, vilya, narya));305 * // assertion will fail as actual contains nenya306 * assertThat(rings).containsOnlyElementsOf(newArrayList(vilya));</code></pre>307 *308 * @param iterable the given {@code Iterable} we will get elements from.309 * @since 2.7.0 / 3.7.0310 */311 @Override312 public AtomicReferenceArrayAssert<T> containsOnlyElementsOf(Iterable<? extends T> iterable) {313 return containsOnly(toArray(iterable));314 }315 /**316 * Verifies that the actual AtomicReferenceArray contains only null elements and nothing else.317 * <p>318 * Example :319 * <pre><code class='java'> // assertion will pass320 * AtomicReferenceArray&lt;String&gt; items = new AtomicReferenceArray&lt;&gt;(new String[]{null, null, null});321 * assertThat(items).containsOnlyNulls();322 *323 * // assertion will fail because items2 contains not null element324 * AtomicReferenceArray&lt;String&gt; items2 = new AtomicReferenceArray&lt;&gt;(new String[]{null, null, "notNull"});325 * assertThat(items2).containsOnlyNulls();326 * 327 * // assertion will fail since an empty array does not contain any element and therefore no null ones.328 * AtomicReferenceArray&lt;String&gt; empty = new AtomicReferenceArray&lt;&gt;(new String[0]);329 * assertThat(empty).containsOnlyNulls();</code></pre>330 *331 * @return {@code this} assertion object.332 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.333 * @throws AssertionError if the actual AtomicReferenceArray is empty or contains non null elements.334 * @since 2.9.0 / 3.9.0335 */336 @Override337 public AtomicReferenceArrayAssert<T> containsOnlyNulls() {338 arrays.assertContainsOnlyNulls(info, array);339 return myself;340 }341 /**342 * An alias of {@link #containsOnlyElementsOf(Iterable)} : verifies that actual contains all elements of the343 * given {@code Iterable} and nothing else, <b>in any order</b>.344 * <p>345 * Example:346 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});347 *348 * // assertions will pass:349 * assertThat(elvesRings).hasSameElementsAs(newArrayList(nenya, narya, vilya))350 * .hasSameElementsAs(newArrayList(nenya, narya, vilya, nenya));351 *352 * // assertions will fail:353 * assertThat(elvesRings).hasSameElementsAs(newArrayList(nenya, narya));354 * assertThat(elvesRings).hasSameElementsAs(newArrayList(nenya, narya, vilya, oneRing));</code></pre>355 *356 * @param iterable the {@code Iterable} whose elements we expect to be present357 * @return this assertion object358 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}359 * @throws NullPointerException if the given {@code Iterable} is {@code null}360 * @throws AssertionError if the actual {@code Iterable} does not have the same elements, in any order, as the given361 * {@code Iterable}362 * @since 2.7.0 / 3.7.0363 */364 @Override365 public AtomicReferenceArrayAssert<T> hasSameElementsAs(Iterable<? extends T> iterable) {366 return containsOnlyElementsOf(iterable);367 }368 /**369 * Verifies that the actual AtomicReferenceArray contains the given values only once.370 * <p>371 * Examples :372 * <pre><code class='java'> // array is a factory method to create arrays.373 * AtomicReferenceArray&lt;String&gt; got = new AtomicReferenceArray&lt;&gt;(new String[]{&quot;winter&quot;, &quot;is&quot;, &quot;coming&quot;});374 *375 * // assertions will pass376 * assertThat(got).containsOnlyOnce(&quot;winter&quot;)377 * .containsOnlyOnce(&quot;coming&quot;, &quot;winter&quot;);378 *379 * // assertions will fail380 * AtomicReferenceArray&lt;String&gt; stark= new AtomicReferenceArray&lt;&gt;(new String[]{&quot;Arya&quot;, &quot;Stark&quot;, &quot;daughter&quot;, &quot;of&quot;, &quot;Ned&quot;, &quot;Stark&quot;)});381 * assertThat(got).containsOnlyOnce(&quot;Lannister&quot;);382 * assertThat(stark).containsOnlyOnce(&quot;Stark&quot;);</code></pre>383 *384 * @param values the given values.385 * @return {@code this} assertion object.386 * @throws NullPointerException if the given argument is {@code null}.387 * @throws IllegalArgumentException if the given argument is an empty array.388 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.389 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given values, i.e. the actual AtomicReferenceArray contains some390 * or none of the given values, or the actual AtomicReferenceArray contains more than once these values.391 * @since 2.7.0 / 3.7.0392 */393 @Override394 public AtomicReferenceArrayAssert<T> containsOnlyOnce(@SuppressWarnings("unchecked") T... values) {395 arrays.assertContainsOnlyOnce(info, array, values);396 return myself;397 }398 /**399 * Verifies that the actual AtomicReferenceArray contains only the given values and nothing else, <b>in order</b>.<br>400 * <p>401 * Example :402 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});403 *404 * // assertion will pass405 * assertThat(elvesRings).containsExactly(vilya, nenya, narya);406 *407 * // assertion will fail as actual and expected order differ408 * assertThat(elvesRings).containsExactly(nenya, vilya, narya);</code></pre>409 *410 * @param values the given values.411 * @return {@code this} assertion object.412 * @throws NullPointerException if the given argument is {@code null}.413 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.414 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given values with same order, i.e. the actual AtomicReferenceArray415 * contains some or none of the given values, or the actual AtomicReferenceArray contains more values than the given ones416 * or values are the same but the order is not.417 * @since 2.7.0 / 3.7.0418 */419 @Override420 public AtomicReferenceArrayAssert<T> containsExactly(@SuppressWarnings("unchecked") T... values) {421 arrays.assertContainsExactly(info, array, values);422 return myself;423 }424 /**425 * Verifies that the actual AtomicReferenceArray contains exactly the given values and nothing else, <b>in any order</b>.<br>426 *427 * <p>428 * Example :429 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});430 *431 * // assertion will pass432 * assertThat(elvesRings).containsExactlyInAnyOrder(vilya, vilya, nenya, narya);433 *434 * // assertion will fail as vilya is contained twice in elvesRings.435 * assertThat(elvesRings).containsExactlyInAnyOrder(nenya, vilya, narya);</code></pre>436 *437 * @param values the given values.438 * @return {@code this} assertion object.439 * @throws NullPointerException if the given argument is {@code null}.440 * @throws AssertionError if the actual group is {@code null}.441 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given values, i.e. it442 * contains some or none of the given values, or more values than the given ones.443 */444 @Override445 public AtomicReferenceArrayAssert<T> containsExactlyInAnyOrder(@SuppressWarnings("unchecked") T... values) {446 arrays.assertContainsExactlyInAnyOrder(info, array, values);447 return myself;448 }449 /**450 * Verifies that the actual AtomicReferenceArray contains exactly the given values and nothing else, <b>in any order</b>.<br>451 *452 * <p>453 * Example :454 * <pre><code class='java'>455 * AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray(new Ring[]{vilya, nenya, narya, vilya});456 * AtomicReferenceArray&lt;Ring&gt; elvesRingsSomeMissing = new AtomicReferenceArray(new Ring[]{vilya, nenya, narya});457 * AtomicReferenceArray&lt;Ring&gt; elvesRingsDifferentOrder = new AtomicReferenceArray(new Ring[]{nenya, narya, vilya, vilya});458 *459 * // assertion will pass460 * assertThat(elvesRings).containsExactlyInAnyOrder(elvesRingsDifferentOrder);461 *462 * // assertion will fail as vilya is contained twice in elvesRings.463 * assertThat(elvesRings).containsExactlyInAnyOrder(elvesRingsSomeMissing);</code></pre>464 *465 * @param values the given values.466 * @return {@code this} assertion object.467 * @throws NullPointerException if the given argument is {@code null}.468 * @throws AssertionError if the actual group is {@code null}.469 * @throws AssertionError if the actual group does not contain the given values, i.e. the actual group470 * contains some or none of the given values, or the actual group contains more values than the given ones.471 * @since 2.9.0 / 3.9.0472 */473 @Override474 public AtomicReferenceArrayAssert<T> containsExactlyInAnyOrderElementsOf(Iterable<? extends T> values) {475 return containsExactlyInAnyOrder(toArray(values));476 }477 /**478 * Same as {@link #containsExactly(Object...)} but handles the {@link Iterable} to array conversion : verifies that479 * actual contains all elements of the given {@code Iterable} and nothing else <b>in the same order</b>.480 * <p>481 * Example :482 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});483 *484 * // assertion will pass485 * assertThat(elvesRings).containsExactlyElementsOf(newLinkedList(vilya, nenya, narya));486 *487 * // assertion will fail as actual and expected order differ488 * assertThat(elvesRings).containsExactlyElementsOf(newLinkedList(nenya, vilya, narya));</code></pre>489 *490 * @param iterable the given {@code Iterable} we will get elements from.491 */492 @Override493 public AtomicReferenceArrayAssert<T> containsExactlyElementsOf(Iterable<? extends T> iterable) {494 return containsExactly(toArray(iterable));495 }496 /**497 * Verifies that the actual AtomicReferenceArray contains the given sequence in the correct order and <b>without extra values between the sequence values</b>.498 * <p>499 * Use {@link #containsSubsequence(Object...)} to allow values between the expected sequence values.500 * <p>501 * Example:502 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});503 *504 * // assertion will pass505 * assertThat(elvesRings).containsSequence(vilya, nenya)506 * .containsSequence(nenya, narya);507 *508 * // assertions will fail, the elements order is correct but there is a value between them (nenya)509 * assertThat(elvesRings).containsSequence(vilya, narya);510 * assertThat(elvesRings).containsSequence(nenya, vilya);</code></pre>511 *512 * @param sequence the sequence of objects to look for.513 * @return this assertion object.514 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.515 * @throws AssertionError if the given array is {@code null}.516 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given sequence.517 */518 @Override519 public AtomicReferenceArrayAssert<T> containsSequence(@SuppressWarnings("unchecked") T... sequence) {520 arrays.assertContainsSequence(info, array, sequence);521 return myself;522 }523 /**524 * Verifies that the actual AtomicReferenceArray contains the given sequence in the correct order and <b>without extra values between the sequence values</b>.525 * <p>526 * Use {@link #containsSubsequence(Object...)} to allow values between the expected sequence values.527 * <p>528 * Example:529 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});530 *531 * // assertion will pass532 * assertThat(elvesRings).containsSequence(newArrayList(vilya, nenya))533 * .containsSequence(newArrayList(nenya, narya));534 *535 * // assertions will fail, the elements order is correct but there is a value between them (nenya)536 * assertThat(elvesRings).containsSequence(newArrayList(vilya, narya));537 * assertThat(elvesRings).containsSequence(newArrayList(nenya, vilya));</code></pre>538 *539 * @param sequence the sequence of objects to look for.540 * @return this assertion object.541 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.542 * @throws AssertionError if the given array is {@code null}.543 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given sequence.544 */545 @Override546 public AtomicReferenceArrayAssert<T> containsSequence(Iterable<? extends T> sequence) {547 checkSequenceIsNotNull(sequence);548 arrays.assertContainsSequence(info, array, toArray(sequence));549 return myself;550 }551 /**552 * Verifies that the actual AtomicReferenceArray contains the given sequence in the given order and <b>without extra values between the sequence values</b>.553 * <p>554 * Use {@link #doesNotContainSubsequence(Object...)} to also ensure the sequence does not exist with values between the expected sequence values.555 * <p>556 * Example:557 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});558 *559 * // assertion will pass, the elements order is correct but there is a value between them (nenya)560 * assertThat(elvesRings).containsSequence(vilya, narya);561 * assertThat(elvesRings).containsSequence(nenya, vilya);562 *563 * // assertions will fail564 * assertThat(elvesRings).containsSequence(vilya, nenya);565 * assertThat(elvesRings).containsSequence(nenya, narya);</code></pre>566 *567 * @param sequence the sequence of objects to look for.568 * @return this assertion object.569 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.570 * @throws AssertionError if the given array is {@code null}.571 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given sequence.572 */573 @Override574 public AtomicReferenceArrayAssert<T> doesNotContainSequence(@SuppressWarnings("unchecked") T... sequence) {575 arrays.assertDoesNotContainSequence(info, array, sequence);576 return myself;577 }578 /**579 * Verifies that the actual AtomicReferenceArray contains the given sequence in the given order and <b>without extra values between the sequence values</b>.580 * <p>581 * Use {@link #doesNotContainSubsequence(Iterable)} to also ensure the sequence does not exist with values between the expected sequence values.582 * <p>583 * Example:584 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});585 *586 * // assertion will pass, the elements order is correct but there is a value between them (nenya)587 * assertThat(elvesRings).containsSequence(newArrayList(vilya, narya));588 * assertThat(elvesRings).containsSequence(newArrayList(nenya, vilya));589 *590 * // assertions will fail591 * assertThat(elvesRings).containsSequence(newArrayList(vilya, nenya));592 * assertThat(elvesRings).containsSequence(newArrayList(nenya, narya));</code></pre>593 *594 * @param sequence the sequence of objects to look for.595 * @return this assertion object.596 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.597 * @throws AssertionError if the given array is {@code null}.598 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given sequence.599 */600 @Override601 public AtomicReferenceArrayAssert<T> doesNotContainSequence(Iterable<? extends T> sequence) {602 checkSequenceIsNotNull(sequence);603 arrays.assertDoesNotContainSequence(info, array, toArray(sequence));604 return myself;605 }606 /**607 * Verifies that the actual AtomicReferenceArray contains the given subsequence in the correct order (possibly with other values between them).608 * <p>609 * Example:610 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});611 *612 * // assertions will pass613 * assertThat(elvesRings).containsSubsequence(vilya, nenya)614 * .containsSubsequence(vilya, narya);615 *616 * // assertion will fail617 * assertThat(elvesRings).containsSubsequence(nenya, vilya);</code></pre>618 *619 * @param subsequence the subsequence of objects to look for.620 * @return this assertion object.621 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.622 * @throws AssertionError if the given array is {@code null}.623 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given subsequence.624 */625 @Override626 public AtomicReferenceArrayAssert<T> containsSubsequence(@SuppressWarnings("unchecked") T... subsequence) {627 arrays.assertContainsSubsequence(info, array, subsequence);628 return myself;629 }630 /**631 * Verifies that the actual AtomicReferenceArray contains the given subsequence in the correct order (possibly with other values between them).632 * <p>633 * Example:634 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});635 *636 * // assertions will pass637 * assertThat(elvesRings).containsSubsequence(newArrayList(vilya, nenya))638 * .containsSubsequence(newArrayList(vilya, narya));639 *640 * // assertion will fail641 * assertThat(elvesRings).containsSubsequence(newArrayList(nenya, vilya));</code></pre>642 *643 * @param subsequence the subsequence of objects to look for.644 * @return this assertion object.645 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.646 * @throws AssertionError if the given array is {@code null}.647 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given subsequence.648 */649 @Override650 public AtomicReferenceArrayAssert<T> containsSubsequence(Iterable<? extends T> subsequence) {651 checkSubsequenceIsNotNull(subsequence);652 arrays.assertContainsSubsequence(info, array, toArray(subsequence));653 return myself;654 }655 /**656 * Verifies that the actual AtomicReferenceArray does not contain the given subsequence in the correct order (possibly657 * with other values between them).658 * <p>659 * Example:660 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});661 *662 * // assertions will pass663 * assertThat(elvesRings).doesNotContainSubsequence(nenya, vilya);664 *665 * // assertion will fail666 * assertThat(elvesRings).doesNotContainSubsequence(vilya, nenya);667 * assertThat(elvesRings).doesNotContainSubsequence(vilya, narya);</code></pre>668 *669 * @param subsequence the subsequence of objects to look for.670 * @return this assertion object.671 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.672 * @throws AssertionError if the given array is {@code null}.673 * @throws AssertionError if the actual AtomicReferenceArray contains the given subsequence.674 */675 @Override676 public AtomicReferenceArrayAssert<T> doesNotContainSubsequence(@SuppressWarnings("unchecked") T... subsequence) {677 arrays.assertDoesNotContainSubsequence(info, array, subsequence);678 return myself;679 }680 /**681 * Verifies that the actual AtomicReferenceArray does not contain the given subsequence in the correct order (possibly682 * with other values between them).683 * <p>684 * Example:685 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});686 *687 * // assertions will pass688 * assertThat(elvesRings).doesNotContainSubsequence(newArrayList(nenya, vilya));689 *690 * // assertion will fail691 * assertThat(elvesRings).doesNotContainSubsequence(newArrayList(vilya, nenya));692 * assertThat(elvesRings).doesNotContainSubsequence(newArrayList(vilya, narya));</code></pre>693 *694 * @param subsequence the subsequence of objects to look for.695 * @return this assertion object.696 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.697 * @throws AssertionError if the given array is {@code null}.698 * @throws AssertionError if the actual AtomicReferenceArray contains the given subsequence.699 */700 @Override701 public AtomicReferenceArrayAssert<T> doesNotContainSubsequence(Iterable<? extends T> subsequence) {702 checkSubsequenceIsNotNull(subsequence);703 arrays.assertDoesNotContainSubsequence(info, array, toArray(subsequence));704 return myself;705 }706 /**707 * Verifies that the actual AtomicReferenceArray contains the given object at the given index.708 * <p>709 * Example:710 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});711 *712 * // assertions will pass713 * assertThat(elvesRings).contains(vilya, atIndex(0))714 * .contains(nenya, atIndex(1))715 * .contains(narya, atIndex(2));716 *717 * // assertions will fail718 * assertThat(elvesRings).contains(vilya, atIndex(1));719 * assertThat(elvesRings).contains(nenya, atIndex(2));720 * assertThat(elvesRings).contains(narya, atIndex(0));</code></pre>721 *722 * @param value the object to look for.723 * @param index the index where the object should be stored in the actual AtomicReferenceArray.724 * @return this assertion object.725 * @throws AssertionError if the actual AtomicReferenceArray is {@code null} or empty.726 * @throws NullPointerException if the given {@code Index} is {@code null}.727 * @throws IndexOutOfBoundsException if the value of the given {@code Index} is equal to or greater than the size of the actual728 * AtomicReferenceArray.729 * @throws AssertionError if the actual AtomicReferenceArray does not contain the given object at the given index.730 */731 @Override732 public AtomicReferenceArrayAssert<T> contains(T value, Index index) {733 arrays.assertContains(info, array, value, index);734 return myself;735 }736 /**737 * Verifies that all elements of the actual group are instances of given classes or interfaces.738 * <p>739 * Example :740 * <pre><code class='java'> AtomicReferenceArray&lt;Object&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Object[]{"", new StringBuilder()});741 * 742 * // assertions will pass743 * assertThat(objects).hasOnlyElementsOfTypes(CharSequence.class);744 * assertThat(objects).hasOnlyElementsOfTypes(String.class, StringBuilder.class);745 * 746 * // assertions will fail747 * assertThat(objects).hasOnlyElementsOfTypes(Number.class);748 * assertThat(objects).hasOnlyElementsOfTypes(String.class, Number.class);749 * assertThat(objects).hasOnlyElementsOfTypes(String.class);</code></pre>750 * 751 * @param types the expected classes and interfaces752 * @return {@code this} assertion object.753 * @throws NullPointerException if the given argument is {@code null}.754 * @throws AssertionError if the actual group is {@code null}.755 * @throws AssertionError if not all elements of the actual group are instances of one of the given types756 * @since 2.7.0 / 3.7.0757 */758 @Override759 public AtomicReferenceArrayAssert<T> hasOnlyElementsOfTypes(Class<?>... types) {760 arrays.assertHasOnlyElementsOfTypes(info, array, types);761 return myself;762 }763 /**764 * Verifies that the actual AtomicReferenceArray does not contain the given object at the given index.765 * <p>766 * Example:767 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});768 *769 * // assertions will pass770 * assertThat(elvesRings).doesNotContain(vilya, atIndex(1))771 * .doesNotContain(nenya, atIndex(2))772 * .doesNotContain(narya, atIndex(0));773 *774 * // assertions will fail775 * assertThat(elvesRings).doesNotContain(vilya, atIndex(0));776 * assertThat(elvesRings).doesNotContain(nenya, atIndex(1));777 * assertThat(elvesRings).doesNotContain(narya, atIndex(2));</code></pre>778 *779 * @param value the object to look for.780 * @param index the index where the object should not be stored in the actual AtomicReferenceArray.781 * @return this assertion object.782 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.783 * @throws NullPointerException if the given {@code Index} is {@code null}.784 * @throws AssertionError if the actual AtomicReferenceArray contains the given object at the given index.785 */786 @Override787 public AtomicReferenceArrayAssert<T> doesNotContain(T value, Index index) {788 arrays.assertDoesNotContain(info, array, value, index);789 return myself;790 }791 /**792 * Verifies that the actual AtomicReferenceArray does not contain the given values.793 * <p>794 * Example :795 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});796 *797 * // assertion will pass798 * assertThat(abc).doesNotContain("d", "e");799 *800 * // assertions will fail801 * assertThat(abc).doesNotContain("a");802 * assertThat(abc).doesNotContain("a", "b", "c");803 * assertThat(abc).doesNotContain("a", "x");</code></pre>804 *805 * @param values the given values.806 * @return {@code this} assertion object.807 * @throws NullPointerException if the given argument is {@code null}.808 * @throws IllegalArgumentException if the given argument is an empty array.809 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.810 * @throws AssertionError if the actual AtomicReferenceArray contains any of the given values.811 */812 @Override813 public AtomicReferenceArrayAssert<T> doesNotContain(@SuppressWarnings("unchecked") T... values) {814 arrays.assertDoesNotContain(info, array, values);815 return myself;816 }817 /**818 * Verifies that the actual AtomicReferenceArray does not contain any elements of the given {@link Iterable} (i.e. none).819 * <p>820 * Example:821 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});822 *823 * // assertion will pass824 * assertThat(actual).doesNotContainAnyElementsOf(newArrayList("d", "e"));825 *826 * // assertions will fail827 * assertThat(actual).doesNotContainAnyElementsOf(newArrayList("a", "b"));828 * assertThat(actual).doesNotContainAnyElementsOf(newArrayList("d", "e", "a"));</code></pre>829 *830 * @param iterable the {@link Iterable} whose elements must not be in the actual AtomicReferenceArray.831 * @return {@code this} assertion object.832 * @throws NullPointerException if the given argument is {@code null}.833 * @throws IllegalArgumentException if the given argument is an empty iterable.834 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.835 * @throws AssertionError if the actual AtomicReferenceArray contains some elements of the given {@link Iterable}.836 */837 @Override838 public AtomicReferenceArrayAssert<T> doesNotContainAnyElementsOf(Iterable<? extends T> iterable) {839 arrays.assertDoesNotContainAnyElementsOf(info, array, iterable);840 return myself;841 }842 /**843 * Verifies that the actual AtomicReferenceArray does not contain duplicates.844 * <p>845 * Example :846 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});847 * AtomicReferenceArray&lt;String&gt; aaa = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "a", "a"});848 *849 * // assertion will pass850 * assertThat(abc).doesNotHaveDuplicates();851 *852 * // assertion will fail853 * assertThat(aaa).doesNotHaveDuplicates();</code></pre>854 *855 * @return {@code this} assertion object.856 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.857 * @throws AssertionError if the actual AtomicReferenceArray contains duplicates.858 */859 @Override860 public AtomicReferenceArrayAssert<T> doesNotHaveDuplicates() {861 arrays.assertDoesNotHaveDuplicates(info, array);862 return myself;863 }864 /**865 * Verifies that the actual AtomicReferenceArray starts with the given sequence of objects, without any other objects between them.866 * Similar to <code>{@link #containsSequence(Object...)}</code>, but it also verifies that the first element in the867 * sequence is also the first element of the actual AtomicReferenceArray.868 * <p>869 * Example :870 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});871 *872 * // assertion will pass873 * assertThat(abc).startsWith("a", "b");874 *875 * // assertion will fail876 * assertThat(abc).startsWith("c");</code></pre>877 *878 * @param sequence the sequence of objects to look for.879 * @return this assertion object.880 * @throws NullPointerException if the given argument is {@code null}.881 * @throws IllegalArgumentException if the given argument is an empty array.882 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.883 * @throws AssertionError if the actual AtomicReferenceArray does not start with the given sequence of objects.884 */885 @Override886 public AtomicReferenceArrayAssert<T> startsWith(@SuppressWarnings("unchecked") T... sequence) {887 arrays.assertStartsWith(info, array, sequence);888 return myself;889 }890 /**891 * Verifies that the actual AtomicReferenceArray ends with the given sequence of objects, without any other objects between them.892 * Similar to <code>{@link #containsSequence(Object...)}</code>, but it also verifies that the last element in the893 * sequence is also last element of the actual AtomicReferenceArray.894 * <p>895 * Example :896 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});897 *898 * // assertion will pass899 * assertThat(abc).endsWith("b", "c");900 *901 * // assertion will fail902 * assertThat(abc).endsWith("a");</code></pre>903 *904 * @param first the first element of the end sequence of objects to look for.905 * @param sequence the rest of the end sequence of objects to look for.906 * @return this assertion object.907 * @throws NullPointerException if the given argument is {@code null}.908 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.909 * @throws AssertionError if the actual AtomicReferenceArray does not end with the given sequence of objects.910 */911 @Override912 public AtomicReferenceArrayAssert<T> endsWith(T first, @SuppressWarnings("unchecked") T... sequence) {913 arrays.assertEndsWith(info, array, first, sequence);914 return myself;915 }916 /**917 * Verifies that the actual AtomicReferenceArray ends with the given sequence of objects, without any other objects between them.918 * Similar to <code>{@link #containsSequence(Object...)}</code>, but it also verifies that the last element in the919 * sequence is also last element of the actual AtomicReferenceArray.920 * <p>921 * Example :922 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});923 *924 * // assertions will pass925 * assertThat(abc).endsWith(new String[0])926 * .endsWith(new String[] {"b", "c"});927 *928 * // assertion will fail929 * assertThat(abc).endsWith(new String[] {"a"});</code></pre>930 *931 * @param sequence the (possibly empty) sequence of objects to look for.932 * @return this assertion object.933 * @throws NullPointerException if the given argument is {@code null}.934 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.935 * @throws AssertionError if the actual AtomicReferenceArray does not end with the given sequence of objects.936 */937 @Override938 public AtomicReferenceArrayAssert<T> endsWith(T[] sequence) {939 arrays.assertEndsWith(info, array, sequence);940 return myself;941 }942 /**943 * Verifies that all elements of actual are present in the given {@code Iterable}.944 * <p>945 * Example:946 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});947 * List&lt;Ring&gt; ringsOfPower = newArrayList(oneRing, vilya, nenya, narya, dwarfRing, manRing);948 *949 * // assertion will pass:950 * assertThat(elvesRings).isSubsetOf(ringsOfPower);951 *952 * // assertion will fail:953 * assertThat(elvesRings).isSubsetOf(newArrayList(nenya, narya));</code></pre>954 *955 * @param values the {@code Iterable} that should contain all actual elements.956 * @return this assertion object.957 * @throws AssertionError if the actual {@code Iterable} is {@code null}.958 * @throws NullPointerException if the given {@code Iterable} is {@code null}.959 * @throws AssertionError if the actual {@code Iterable} is not subset of set {@code Iterable}.960 */961 @Override962 public AtomicReferenceArrayAssert<T> isSubsetOf(Iterable<? extends T> values) {963 arrays.assertIsSubsetOf(info, array, values);964 return myself;965 }966 /**967 * Verifies that all elements of actual are present in the given values.968 * <p>969 * Example:970 * <pre><code class='java'> AtomicReferenceArray&lt;Ring&gt; elvesRings = new AtomicReferenceArray&lt;&gt;(new Ring[]{vilya, nenya, narya});971 *972 * // assertions will pass:973 * assertThat(elvesRings).isSubsetOf(vilya, nenya, narya)974 * .isSubsetOf(vilya, nenya, narya, dwarfRing);975 *976 * // assertions will fail:977 * assertThat(elvesRings).isSubsetOf(vilya, nenya);978 * assertThat(elvesRings).isSubsetOf(vilya, nenya, dwarfRing);</code></pre>979 *980 * @param values the values that should be used for checking the elements of actual.981 * @return this assertion object.982 * @throws AssertionError if the actual {@code Iterable} is {@code null}.983 * @throws AssertionError if the actual {@code Iterable} is not subset of the given values.984 */985 @Override986 public AtomicReferenceArrayAssert<T> isSubsetOf(@SuppressWarnings("unchecked") T... values) {987 arrays.assertIsSubsetOf(info, array, Arrays.asList(values));988 return myself;989 }990 /**991 * Verifies that the actual AtomicReferenceArray contains at least a null element.992 * <p>993 * Example :994 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});995 * AtomicReferenceArray&lt;String&gt; abNull = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", null});996 *997 * // assertion will pass998 * assertThat(abNull).containsNull();999 *1000 * // assertion will fail1001 * assertThat(abc).containsNull();</code></pre>1002 *1003 * @return {@code this} assertion object.1004 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.1005 * @throws AssertionError if the actual AtomicReferenceArray does not contain a null element.1006 */1007 @Override1008 public AtomicReferenceArrayAssert<T> containsNull() {1009 arrays.assertContainsNull(info, array);1010 return myself;1011 }1012 /**1013 * Verifies that the actual AtomicReferenceArray does not contain null elements.1014 * <p>1015 * Example :1016 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});1017 * AtomicReferenceArray&lt;String&gt; abNull = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", null});1018 *1019 * // assertion will pass1020 * assertThat(abc).doesNotContainNull();1021 *1022 * // assertion will fail1023 * assertThat(abNull).doesNotContainNull();</code></pre>1024 *1025 * @return {@code this} assertion object.1026 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.1027 * @throws AssertionError if the actual AtomicReferenceArray contains a null element.1028 */1029 @Override1030 public AtomicReferenceArrayAssert<T> doesNotContainNull() {1031 arrays.assertDoesNotContainNull(info, array);1032 return myself;1033 }1034 /**1035 * Verifies that each element value satisfies the given condition1036 * <p>1037 * Example :1038 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});1039 * AtomicReferenceArray&lt;String&gt; abcc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "cc"});1040 *1041 * Condition&lt;String&gt; singleCharacterString1042 * = new Condition&lt;&gt;(s -&gt; s.length() == 1, "single character String");1043 *1044 * // assertion will pass1045 * assertThat(abc).are(singleCharacterString);1046 *1047 * // assertion will fail1048 * assertThat(abcc).are(singleCharacterString);</code></pre>1049 *1050 * @param condition the given condition.1051 * @return {@code this} object.1052 * @throws NullPointerException if the given condition is {@code null}.1053 * @throws AssertionError if an element cannot be cast to T.1054 * @throws AssertionError if one or more elements don't satisfy the given condition.1055 */1056 @Override1057 public AtomicReferenceArrayAssert<T> are(Condition<? super T> condition) {1058 arrays.assertAre(info, array, condition);1059 return myself;1060 }1061 /**1062 * Verifies that each element value does not satisfy the given condition1063 * <p>1064 * Example :1065 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});1066 * AtomicReferenceArray&lt;String&gt; abcc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "cc"});1067 *1068 * Condition&lt;String&gt; moreThanOneCharacter =1069 * = new Condition&lt;&gt;(s -&gt; s.length() &gt; 1, "more than one character");1070 *1071 * // assertion will pass1072 * assertThat(abc).areNot(moreThanOneCharacter);1073 *1074 * // assertion will fail1075 * assertThat(abcc).areNot(moreThanOneCharacter);</code></pre>1076 *1077 * @param condition the given condition.1078 * @return {@code this} object.1079 * @throws NullPointerException if the given condition is {@code null}.1080 * @throws AssertionError if an element cannot be cast to T.1081 * @throws AssertionError if one or more elements satisfy the given condition.1082 */1083 @Override1084 public AtomicReferenceArrayAssert<T> areNot(Condition<? super T> condition) {1085 arrays.assertAreNot(info, array, condition);1086 return myself;1087 }1088 /**1089 * Verifies that all elements satisfy the given condition.1090 * <p>1091 * Example :1092 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});1093 * AtomicReferenceArray&lt;String&gt; abcc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "cc"});1094 *1095 * Condition&lt;String&gt; onlyOneCharacter =1096 * = new Condition&lt;&gt;(s -&gt; s.length() == 1, "only one character");1097 *1098 * // assertion will pass1099 * assertThat(abc).have(onlyOneCharacter);1100 *1101 * // assertion will fail1102 * assertThat(abcc).have(onlyOneCharacter);</code></pre>1103 *1104 * @param condition the given condition.1105 * @return {@code this} object.1106 * @throws NullPointerException if the given condition is {@code null}.1107 * @throws AssertionError if an element cannot be cast to T.1108 * @throws AssertionError if one or more elements do not satisfy the given condition.1109 */1110 @Override1111 public AtomicReferenceArrayAssert<T> have(Condition<? super T> condition) {1112 arrays.assertHave(info, array, condition);1113 return myself;1114 }1115 /**1116 * Verifies that all elements don't satisfy the given condition.1117 * <p>1118 * Example :1119 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});1120 * AtomicReferenceArray&lt;String&gt; abcc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "cc"});1121 *1122 * Condition&lt;String&gt; moreThanOneCharacter =1123 * = new Condition&lt;&gt;(s -&gt; s.length() &gt; 1, "more than one character");1124 *1125 * // assertion will pass1126 * assertThat(abc).doNotHave(moreThanOneCharacter);1127 *1128 * // assertion will fail1129 * assertThat(abcc).doNotHave(moreThanOneCharacter);</code></pre>1130 *1131 * @param condition the given condition.1132 * @return {@code this} object.1133 * @throws NullPointerException if the given condition is {@code null}.1134 * @throws AssertionError if an element cannot be cast to T.1135 * @throws AssertionError if one or more elements satisfy the given condition.1136 */1137 @Override1138 public AtomicReferenceArrayAssert<T> doNotHave(Condition<? super T> condition) {1139 arrays.assertDoNotHave(info, array, condition);1140 return myself;1141 }1142 /**1143 * Verifies that there are <b>at least</b> <i>n</i> elements in the actual AtomicReferenceArray satisfying the given condition.1144 * <p>1145 * Example :1146 * <pre><code class='java'> AtomicReferenceArray&lt;Integer&gt; oneThwoThree = new AtomicReferenceArray&lt;&gt;(new Integer[]{1, 2, 3});1147 *1148 * Condition&lt;Integer&gt; oddNumber = new Condition&lt;&gt;(value % 2 == 1, "odd number");1149 *1150 * // assertion will pass1151 * oneThwoThree.areAtLeast(2, oddNumber);1152 *1153 * // assertion will fail1154 * oneThwoThree.areAtLeast(3, oddNumber);</code></pre>1155 *1156 * @param times the minimum number of times the condition should be verified.1157 * @param condition the given condition.1158 * @return {@code this} object.1159 * @throws NullPointerException if the given condition is {@code null}.1160 * @throws AssertionError if an element can not be cast to T.1161 * @throws AssertionError if the number of elements satisfying the given condition is &lt; n.1162 */1163 @Override1164 public AtomicReferenceArrayAssert<T> areAtLeast(int times, Condition<? super T> condition) {1165 arrays.assertAreAtLeast(info, array, times, condition);1166 return myself;1167 }1168 /**1169 * Verifies that there is <b>at least <i>one</i></b> element in the actual AtomicReferenceArray satisfying the given condition.1170 * <p>1171 * This method is an alias for {@code areAtLeast(1, condition)}.1172 * <p>1173 * Example:1174 * <pre><code class='java'> // jedi is a Condition&lt;String&gt;1175 * AtomicReferenceArray&lt;String&gt; rebels = new AtomicReferenceArray&lt;&gt;(new String[]{"Luke", "Solo", "Leia"});1176 * 1177 * assertThat(rebels).areAtLeastOne(jedi);</code></pre>1178 *1179 * @see #haveAtLeast(int, Condition)1180 */1181 @Override1182 public AtomicReferenceArrayAssert<T> areAtLeastOne(Condition<? super T> condition) {1183 areAtLeast(1, condition);1184 return myself;1185 }1186 /**1187 * Verifies that there are <b>at most</b> <i>n</i> elements in the actual AtomicReferenceArray satisfying the given condition.1188 * <p>1189 * Example :1190 * <pre><code class='java'> AtomicReferenceArray&lt;Integer&gt; oneThwoThree = new AtomicReferenceArray&lt;&gt;(new Integer[]{1, 2, 3});1191 *1192 * Condition&lt;Integer&gt; oddNumber = new Condition&lt;&gt;(value % 2 == 1, "odd number");1193 *1194 * // assertions will pass1195 * oneThwoThree.areAtMost(2, oddNumber);1196 * oneThwoThree.areAtMost(3, oddNumber);1197 *1198 * // assertion will fail1199 * oneThwoThree.areAtMost(1, oddNumber);</code></pre>1200 *1201 * @param times the number of times the condition should be at most verified.1202 * @param condition the given condition.1203 * @return {@code this} object.1204 * @throws NullPointerException if the given condition is {@code null}.1205 * @throws AssertionError if an element cannot be cast to T.1206 * @throws AssertionError if the number of elements satisfying the given condition is &gt; n.1207 */1208 @Override1209 public AtomicReferenceArrayAssert<T> areAtMost(int times, Condition<? super T> condition) {1210 arrays.assertAreAtMost(info, array, times, condition);1211 return myself;1212 }1213 /**1214 * Verifies that there are <b>exactly</b> <i>n</i> elements in the actual AtomicReferenceArray satisfying the given condition.1215 * <p>1216 * Example :1217 * <pre><code class='java'> AtomicReferenceArray&lt;Integer&gt; oneThwoThree = new AtomicReferenceArray&lt;&gt;(new Integer[]{1, 2, 3});1218 *1219 * Condition&lt;Integer&gt; oddNumber = new Condition&lt;&gt;(value % 2 == 1, "odd number");1220 *1221 * // assertion will pass1222 * oneThwoThree.areExactly(2, oddNumber);1223 *1224 * // assertions will fail1225 * oneThwoThree.areExactly(1, oddNumber);1226 * oneThwoThree.areExactly(3, oddNumber);</code></pre>1227 *1228 * @param times the exact number of times the condition should be verified.1229 * @param condition the given condition.1230 * @return {@code this} object.1231 * @throws NullPointerException if the given condition is {@code null}.1232 * @throws AssertionError if an element cannot be cast to T.1233 * @throws AssertionError if the number of elements satisfying the given condition is &ne; n.1234 */1235 @Override1236 public AtomicReferenceArrayAssert<T> areExactly(int times, Condition<? super T> condition) {1237 arrays.assertAreExactly(info, array, times, condition);1238 return myself;1239 }1240 /**1241 * Verifies that there is <b>at least <i>one</i></b> element in the actual AtomicReferenceArray satisfying the given condition.1242 * <p>1243 * This method is an alias for {@code haveAtLeast(1, condition)}.1244 * <p>1245 * Example:1246 * <pre><code class='java'> AtomicReferenceArray&lt;BasketBallPlayer&gt; bullsPlayers = new AtomicReferenceArray&lt;&gt;(new BasketBallPlayer[]{butler, rose});1247 *1248 * // potentialMvp is a Condition&lt;BasketBallPlayer&gt;1249 * assertThat(bullsPlayers).haveAtLeastOne(potentialMvp);</code></pre>1250 *1251 * @see #haveAtLeast(int, Condition)1252 */1253 @Override1254 public AtomicReferenceArrayAssert<T> haveAtLeastOne(Condition<? super T> condition) {1255 return haveAtLeast(1, condition);1256 }1257 /**1258 * Verifies that there are <b>at least <i>n</i></b> elements in the actual AtomicReferenceArray satisfying the given condition.1259 * <p>1260 * Example :1261 * <pre><code class='java'> AtomicReferenceArray&lt;Integer&gt; oneThwoThree = new AtomicReferenceArray&lt;&gt;(new Integer[]{1, 2, 3});1262 *1263 * Condition&lt;Integer&gt; oddNumber = new Condition&lt;&gt;(value % 2 == 1, "odd number");1264 *1265 * // assertion will pass1266 * oneThwoThree.haveAtLeast(2, oddNumber);1267 *1268 * // assertion will fail1269 * oneThwoThree.haveAtLeast(3, oddNumber);</code></pre>1270 *1271 * This method is an alias for {@link #areAtLeast(int, Condition)}.1272 */1273 @Override1274 public AtomicReferenceArrayAssert<T> haveAtLeast(int times, Condition<? super T> condition) {1275 arrays.assertHaveAtLeast(info, array, times, condition);1276 return myself;1277 }1278 /**1279 * Verifies that there are <b>at most</b> <i>n</i> elements in the actual AtomicReferenceArray satisfying the given condition.1280 * <p>1281 * Example :1282 * <pre><code class='java'> AtomicReferenceArray&lt;Integer&gt; oneThwoThree = new AtomicReferenceArray&lt;&gt;(new Integer[]{1, 2, 3});1283 *1284 * Condition&lt;Integer&gt; oddNumber = new Condition&lt;&gt;(value % 2 == 1, "odd number");1285 *1286 * // assertions will pass1287 * oneThwoThree.haveAtMost(2, oddNumber);1288 * oneThwoThree.haveAtMost(3, oddNumber);1289 *1290 * // assertion will fail1291 * oneThwoThree.haveAtMost(1, oddNumber);</code></pre>1292 *1293 * This method is an alias {@link #areAtMost(int, Condition)}.1294 */1295 @Override1296 public AtomicReferenceArrayAssert<T> haveAtMost(int times, Condition<? super T> condition) {1297 arrays.assertHaveAtMost(info, array, times, condition);1298 return myself;1299 }1300 /**1301 * Verifies that there are <b>exactly</b> <i>n</i> elements in the actual AtomicReferenceArray satisfying the given condition.1302 * <p>1303 * Example :1304 * <pre><code class='java'> AtomicReferenceArray&lt;Integer&gt; oneThwoThree = new AtomicReferenceArray&lt;&gt;(new Integer[]{1, 2, 3});1305 *1306 * Condition&lt;Integer&gt; oddNumber = new Condition&lt;&gt;(value % 2 == 1, "odd number");1307 *1308 * // assertion will pass1309 * oneThwoThree.haveExactly(2, oddNumber);1310 *1311 * // assertions will fail1312 * oneThwoThree.haveExactly(1, oddNumber);1313 * oneThwoThree.haveExactly(3, oddNumber);</code></pre>1314 *1315 * This method is an alias {@link #areExactly(int, Condition)}.1316 */1317 @Override1318 public AtomicReferenceArrayAssert<T> haveExactly(int times, Condition<? super T> condition) {1319 arrays.assertHaveExactly(info, array, times, condition);1320 return myself;1321 }1322 /**1323 * Verifies that at least one element in the actual AtomicReferenceArray has the specified type (matching1324 * includes subclasses of the given type).1325 * <p>1326 * Example:1327 * <pre><code class='java'> AtomicReferenceArray&lt;Number&gt; numbers = new AtomicReferenceArray&lt;&gt;(new Number[]{ 2, 6L, 8.0 });1328 * 1329 * // successful assertion:1330 * assertThat(numbers).hasAtLeastOneElementOfType(Long.class);1331 * 1332 * // assertion failure:1333 * assertThat(numbers).hasAtLeastOneElementOfType(Float.class);</code></pre>1334 *1335 * @param expectedType the expected type.1336 * @return this assertion object.1337 * @throws NullPointerException if the given type is {@code null}.1338 * @throws AssertionError if the actual AtomicReferenceArray does not have any elements of the given type.1339 */1340 @Override1341 public AtomicReferenceArrayAssert<T> hasAtLeastOneElementOfType(Class<?> expectedType) {1342 arrays.assertHasAtLeastOneElementOfType(info, array, expectedType);1343 return myself;1344 }1345 /**1346 * Verifies that all the elements in the actual AtomicReferenceArray belong to the specified type (matching includes1347 * subclasses of the given type).1348 * <p>1349 * Example:1350 * <pre><code class='java'> AtomicReferenceArray&lt;Number&gt; numbers = new AtomicReferenceArray&lt;&gt;(new Number[]{ 2, 6, 8 });1351 * 1352 * // successful assertion:1353 * assertThat(numbers).hasOnlyElementsOfType(Integer.class);1354 * 1355 * // assertion failure:1356 * assertThat(numbers).hasOnlyElementsOfType(Long.class);</code></pre>1357 *1358 * @param expectedType the expected type.1359 * @return this assertion object.1360 * @throws NullPointerException if the given type is {@code null}.1361 * @throws AssertionError if one element is not of the expected type.1362 */1363 @Override1364 public AtomicReferenceArrayAssert<T> hasOnlyElementsOfType(Class<?> expectedType) {1365 arrays.assertHasOnlyElementsOfType(info, array, expectedType);1366 return myself;1367 }1368 /**1369 * Verifies that all the elements in the actual AtomicReferenceArray do not belong to the specified types (including subclasses).1370 * <p>1371 * Example:1372 * <pre><code class='java'> AtomicReferenceArray&lt;Number&gt; numbers = new AtomicReferenceArray&lt;&gt;(new Number[]{ 2, 6, 8.0 });1373 *1374 * // successful assertion:1375 * assertThat(numbers).doesNotHaveAnyElementsOfTypes(Long.class, Float.class);1376 *1377 * // assertion failure:1378 * assertThat(numbers).doesNotHaveAnyElementsOfTypes(Long.class, Integer.class);</code></pre>1379 *1380 * @param unexpectedTypes the not expected types.1381 * @return this assertion object.1382 * @throws NullPointerException if the given types is {@code null}.1383 * @throws AssertionError if one element's type matches the given types.1384 * @since 2.9.0 / 3.9.01385 */1386 @Override1387 public AtomicReferenceArrayAssert<T> doesNotHaveAnyElementsOfTypes(Class<?>... unexpectedTypes) {1388 arrays.assertDoesNotHaveAnyElementsOfTypes(info, array, unexpectedTypes);1389 return myself;1390 }1391 /** {@inheritDoc} */1392 @Override1393 public AtomicReferenceArrayAssert<T> isSorted() {1394 arrays.assertIsSorted(info, array);1395 return myself;1396 }1397 /** {@inheritDoc} */1398 @Override1399 public AtomicReferenceArrayAssert<T> isSortedAccordingTo(Comparator<? super T> comparator) {1400 arrays.assertIsSortedAccordingToComparator(info, array, comparator);1401 return myself;1402 }1403 /**1404 * Verifies that the actual AtomicReferenceArray contains all the elements of given {@code Iterable}, in any order.1405 * <p>1406 * Example :1407 * <pre><code class='java'> AtomicReferenceArray&lt;String&gt; abc = new AtomicReferenceArray&lt;&gt;(new String[]{"a", "b", "c"});1408 *1409 * // assertion will pass1410 * assertThat(abc).containsAll(Arrays.asList("b", "c"));1411 * 1412 * // assertions will fail1413 * assertThat(abc).containsAll(Arrays.asList("d"));1414 * assertThat(abc).containsAll(Arrays.asList("a", "b", "c", "d"));</code></pre>1415 *1416 * @param iterable the given {@code Iterable} we will get elements from.1417 * @return {@code this} assertion object.1418 * @throws NullPointerException if the given argument is {@code null}.1419 * @throws AssertionError if the actual AtomicReferenceArray is {@code null}.1420 * @throws AssertionError if the actual AtomicReferenceArray does not contain all the elements of given {@code Iterable}.1421 */1422 @Override1423 public AtomicReferenceArrayAssert<T> containsAll(Iterable<? extends T> iterable) {1424 arrays.assertContainsAll(info, array, iterable);1425 return myself;1426 }1427 /**1428 * Use given custom comparator instead of relying on actual element type <code>equals</code> method to compare AtomicReferenceArray1429 * elements for incoming assertion checks.1430 * <p>1431 * Custom comparator is bound to assertion instance, meaning that if a new assertion is created, it will use default1432 * comparison strategy.1433 * <p>1434 * Examples :1435 * <pre><code class='java'> // compares invoices by payee1436 * assertThat(invoiceArray).usingComparator(invoicePayeeComparator).isEqualTo(expectedinvoiceArray).1437 *1438 * // compares invoices by date, doesNotHaveDuplicates and contains both use the given invoice date comparator1439 * assertThat(invoiceArray).usingComparator(invoiceDateComparator).doesNotHaveDuplicates().contains(may2010Invoice)1440 *1441 * // as assertThat(invoiceArray) creates a new assertion, it falls back to standard comparison strategy1442 * // based on Invoice's equal method to compare invoiceArray elements to lowestInvoice.1443 * assertThat(invoiceArray).contains(lowestInvoice).1444 *1445 * // standard comparison : the fellowshipOfTheRing includes Gandalf but not Sauron (believe me) ...1446 * assertThat(fellowshipOfTheRing).contains(gandalf)1447 * .doesNotContain(sauron);1448 *1449 * // ... but if we compare only races, Sauron is in fellowshipOfTheRing because he's a Maia like Gandalf.1450 * assertThat(fellowshipOfTheRing).usingElementComparator(raceComparator)1451 * .contains(sauron);</code></pre>1452 *1453 * @param elementComparator the comparator to use for incoming assertion checks.1454 * @throws NullPointerException if the given comparator is {@code null}.1455 * @return {@code this} assertion object.1456 */1457 @Override1458 @CheckReturnValue1459 public AtomicReferenceArrayAssert<T> usingElementComparator(Comparator<? super T> elementComparator) {1460 this.arrays = new ObjectArrays(new ComparatorBasedComparisonStrategy(elementComparator));1461 objects = new Objects(new AtomicReferenceArrayElementComparisonStrategy<>(elementComparator));1462 return myself;1463 }1464 private AtomicReferenceArrayAssert<T> usingExtendedByTypesElementComparator(Comparator<Object> elementComparator) {1465 return usingElementComparator(new ExtendedByTypesComparator(elementComparator, comparatorsByType));1466 }1467 /** {@inheritDoc} */1468 @Override1469 @CheckReturnValue1470 public AtomicReferenceArrayAssert<T> usingDefaultElementComparator() {1471 this.arrays = ObjectArrays.instance();1472 return myself;1473 }1474 /**1475 * Allows to set a comparator to compare properties or fields of elements with the given names.1476 * A typical usage is for comparing fields of numeric type at a given precision.1477 * <p>1478 * To be used, comparators need to be specified by this method <b>before</b> calling any of:1479 * <ul>1480 * <li>{@link #usingFieldByFieldElementComparator}</li>1481 * <li>{@link #usingElementComparatorOnFields}</li>1482 * <li>{@link #usingElementComparatorIgnoringFields}</li>1483 * <li>{@link #usingRecursiveFieldByFieldElementComparator}</li>1484 * </ul>1485 * <p>1486 * Comparators specified by this method have precedence over comparators specified by1487 * {@link #usingComparatorForElementFieldsWithType(Comparator, Class) usingComparatorForElementFieldsWithType}.1488 * <p>1489 * Example:1490 * <p>1491 * <pre><code class='java'> public class TolkienCharacter {1492 * private String name;1493 * private double height;1494 * // constructor omitted1495 * }1496 *1497 * TolkienCharacter frodo = new TolkienCharacter(&quot;Frodo&quot;, 1.2);1498 * TolkienCharacter tallerFrodo = new TolkienCharacter(&quot;Frodo&quot;, 1.3);1499 * TolkienCharacter reallyTallFrodo = new TolkienCharacter(&quot;Frodo&quot;, 1.9);1500 *1501 * Comparator&lt;Double&gt; closeEnough = new Comparator&lt;Double&gt;() {1502 * double precision = 0.5;1503 * public int compare(Double d1, Double d2) {1504 * return Math.abs(d1 - d2) &lt;= precision ? 0 : 1;1505 * }1506 * };1507 *1508 * AtomicReferenceArray&lt;TolkienCharacter&gt; hobbits = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[]{frodo});1509 *1510 * // assertions will pass1511 * assertThat(hobbits).usingComparatorForElementFieldsWithNames(closeEnough, &quot;height&quot;)1512 * .usingFieldByFieldElementComparator()1513 * .contains(tallerFrodo);1514 *1515 * assertThat(hobbits).usingComparatorForElementFieldsWithNames(closeEnough, &quot;height&quot;)1516 * .usingElementComparatorOnFields(&quot;height&quot;)1517 * .contains(tallerFrodo);1518 *1519 * assertThat(hobbits).usingComparatorForElementFieldsWithNames(closeEnough, &quot;height&quot;)1520 * .usingElementComparatorIgnoringFields(&quot;name&quot;)1521 * .contains(tallerFrodo);1522 *1523 * assertThat(hobbits).usingComparatorForElementFieldsWithNames(closeEnough, &quot;height&quot;)1524 * .usingRecursiveFieldByFieldElementComparator()1525 * .contains(tallerFrodo);1526 *1527 * // assertion will fail1528 * assertThat(hobbits).usingComparatorForElementFieldsWithNames(closeEnough, &quot;height&quot;)1529 * .usingFieldByFieldElementComparator()1530 * .containsExactly(reallyTallFrodo);</code></pre>1531 *1532 * @param comparator the {@link java.util.Comparator} to use1533 * @param elementPropertyOrFieldNames the names of the properties and/or fields of the elements the comparator should be used for1534 * @return {@code this} assertions object1535 * @since 2.7.0 / 3.7.01536 */1537 @CheckReturnValue1538 public <C> AtomicReferenceArrayAssert<T> usingComparatorForElementFieldsWithNames(Comparator<C> comparator,1539 String... elementPropertyOrFieldNames) {1540 for (String elementPropertyOrField : elementPropertyOrFieldNames) {1541 comparatorsForElementPropertyOrFieldNames.put(elementPropertyOrField, comparator);1542 }1543 return myself;1544 }1545 /**1546 * Allows to set a specific comparator to compare properties or fields of elements with the given type.1547 * A typical usage is for comparing fields of numeric type at a given precision.1548 * <p>1549 * To be used, comparators need to be specified by this method <b>before</b> calling any of:1550 * <ul>1551 * <li>{@link #usingFieldByFieldElementComparator}</li>1552 * <li>{@link #usingElementComparatorOnFields}</li>1553 * <li>{@link #usingElementComparatorIgnoringFields}</li>1554 * <li>{@link #usingRecursiveFieldByFieldElementComparator}</li>1555 * </ul>1556 * <p>1557 * Comparators specified by {@link #usingComparatorForElementFieldsWithNames(Comparator, String...) usingComparatorForElementFieldsWithNames}1558 * have precedence over comparators specified by this method.1559 * <p>1560 * Example:1561 * <pre><code class='java'> public class TolkienCharacter {1562 * private String name;1563 * private double height;1564 * // constructor omitted1565 * }1566 * TolkienCharacter frodo = new TolkienCharacter(&quot;Frodo&quot;, 1.2);1567 * TolkienCharacter tallerFrodo = new TolkienCharacter(&quot;Frodo&quot;, 1.3);1568 * TolkienCharacter reallyTallFrodo = new TolkienCharacter(&quot;Frodo&quot;, 1.9);1569 *1570 * Comparator&lt;Double&gt; closeEnough = new Comparator&lt;Double&gt;() {1571 * double precision = 0.5;1572 * public int compare(Double d1, Double d2) {1573 * return Math.abs(d1 - d2) &lt;= precision ? 0 : 1;1574 * }1575 * };1576 *1577 * AtomicReferenceArray&lt;TolkienCharacter&gt; hobbits = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[]{frodo});1578 *1579 * // assertions will pass1580 * assertThat(hobbits).usingComparatorForElementFieldsWithType(closeEnough, Double.class)1581 * .usingFieldByFieldElementComparator()1582 * .contains(tallerFrodo);1583 *1584 * assertThat(hobbits).usingComparatorForElementFieldsWithType(closeEnough, Double.class)1585 * .usingElementComparatorOnFields(&quot;height&quot;)1586 * .contains(tallerFrodo);1587 *1588 * assertThat(hobbits).usingComparatorForElementFieldsWithType(closeEnough, Double.class)1589 * .usingElementComparatorIgnoringFields(&quot;name&quot;)1590 * .contains(tallerFrodo);1591 *1592 * assertThat(hobbits).usingComparatorForElementFieldsWithType(closeEnough, Double.class)1593 * .usingRecursiveFieldByFieldElementComparator()1594 * .contains(tallerFrodo);1595 *1596 * // assertion will fail1597 * assertThat(hobbits).usingComparatorForElementFieldsWithType(closeEnough, Double.class)1598 * .usingFieldByFieldElementComparator()1599 * .contains(reallyTallFrodo);</code></pre>1600 *1601 * If multiple compatible comparators have been registered for a given {@code type}, the closest in the inheritance 1602 * chain to the given {@code type} is chosen in the following order:1603 * <ol>1604 * <li>The comparator for the exact given {@code type}</li>1605 * <li>The comparator of a superclass of the given {@code type}</li>1606 * <li>The comparator of an interface implemented by the given {@code type}</li>1607 * </ol>1608 *1609 * @param comparator the {@link java.util.Comparator} to use1610 * @param type the {@link java.lang.Class} of the type of the element fields the comparator should be used for1611 * @return {@code this} assertions object1612 * @since 2.7.0 / 3.7.01613 */1614 @CheckReturnValue1615 public <C> AtomicReferenceArrayAssert<T> usingComparatorForElementFieldsWithType(Comparator<C> comparator, Class<C> type) {1616 comparatorsForElementPropertyOrFieldTypes.put(type, comparator);1617 return myself;1618 }1619 /**1620 * Allows to set a specific comparator for the given type of elements or their fields.1621 * Extends {@link #usingComparatorForElementFieldsWithType} by applying comparator specified for given type1622 * to elements themselves, not only to their fields.1623 * <p>1624 * Usage of this method affects comparators set by next methods:1625 * <ul>1626 * <li>{@link #usingFieldByFieldElementComparator}</li>1627 * <li>{@link #usingElementComparatorOnFields}</li>1628 * <li>{@link #usingElementComparatorIgnoringFields}</li>1629 * <li>{@link #usingRecursiveFieldByFieldElementComparator}</li>1630 * </ul>1631 * <p>1632 * Example:1633 * <pre><code class='java'> // assertion will pass1634 * assertThat(new AtomicReferenceArray<>(new Object[] { "some", new BigDecimal("4.2") }))1635 * .usingComparatorForType(BIG_DECIMAL_COMPARATOR, BigDecimal.class)1636 * .contains(new BigDecimal("4.20"));1637 * </code></pre>1638 * </p>1639 *1640 * @param comparator the {@link java.util.Comparator} to use1641 * @param type the {@link java.lang.Class} of the type of the element or element fields the comparator should be used for1642 * @return {@code this} assertions object1643 * @since 2.9.0 / 3.9.01644 */1645 @CheckReturnValue1646 public <C> AtomicReferenceArrayAssert<T> usingComparatorForType(Comparator<C> comparator, Class<C> type) {1647 if (arrays.getComparator() == null) {1648 usingElementComparator(new ExtendedByTypesComparator(comparatorsByType));1649 }1650 comparatorsForElementPropertyOrFieldTypes.put(type, comparator);1651 comparatorsByType.put(type, comparator);1652 return myself;1653 }1654 /**1655 * Use field/property by field/property comparison (including inherited fields/properties) instead of relying on1656 * actual type A <code>equals</code> method to compare AtomicReferenceArray elements for incoming assertion checks. Private fields1657 * are included but this can be disabled using {@link Assertions#setAllowExtractingPrivateFields(boolean)}.1658 * <p>1659 * This can be handy if <code>equals</code> method of the objects to compare does not suit you.1660 * <p>1661 * You can specify a custom comparator per name or type of element field with1662 * {@link #usingComparatorForElementFieldsWithNames(Comparator, String...)}1663 * and {@link #usingComparatorForElementFieldsWithType(Comparator, Class)}.1664 * <p>1665 * Note that the comparison is <b>not</b> recursive, if one of the fields/properties is an Object, it will be compared1666 * to the other field/property using its <code>equals</code> method.1667 * </p>1668 * Example:1669 * <pre><code class='java'> TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);1670 * TolkienCharacter frodoClone = new TolkienCharacter("Frodo", 33, HOBBIT);1671 *1672 * // Fail if equals has not been overridden in TolkienCharacter as equals default implementation only compares references1673 * assertThat(atomicArray(frodo)).contains(frodoClone);1674 *1675 * // frodo and frodoClone are equals when doing a field by field comparison.1676 * assertThat(atomicArray(frodo)).usingFieldByFieldElementComparator().contains(frodoClone);</code></pre>1677 *1678 * @return {@code this} assertion object.1679 * @since 2.7.0 / 3.7.01680 */1681 @CheckReturnValue1682 public AtomicReferenceArrayAssert<T> usingFieldByFieldElementComparator() {1683 return usingExtendedByTypesElementComparator(new FieldByFieldComparator(comparatorsForElementPropertyOrFieldNames,1684 comparatorsForElementPropertyOrFieldTypes));1685 }1686 /**1687 * Use a recursive field/property by field/property comparison (including inherited fields/properties)1688 * instead of relying on actual type A <code>equals</code> method to compare AtomicReferenceArray elements for incoming1689 * assertion checks. This can be useful if actual's {@code equals} implementation does not suit you.1690 * <p>1691 * The recursive property/field comparison is <b>not</b> applied on fields having a custom {@code equals}1692 * implementation, i.e. the overridden {@code equals} method will be used instead of a field/property by field/property comparison.1693 * <p>1694 * You can specify a custom comparator per (nested) name or type of element field with1695 * {@link #usingComparatorForElementFieldsWithNames(Comparator, String...) usingComparatorForElementFieldsWithNames}1696 * and {@link #usingComparatorForElementFieldsWithType(Comparator, Class) usingComparatorForElementFieldsWithType}.1697 * <p>1698 * The recursive comparison handles cycles.1699 * <p>1700 * The objects to compare can be of different types but must have the same properties/fields. For example if actual object has a1701 * {@code name} String field, the other object must also have one.1702 * <p>1703 * If an object has a field and a property with the same name, the property value will be used over the field.1704 * <p>1705 * Example:1706 *1707 * <pre><code class='java'> TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);1708 * TolkienCharacter pippin = new TolkienCharacter("Pippin", 28, HOBBIT);1709 * frodo.setFriend(pippin);1710 * pippin.setFriend(frodo);1711 *1712 * TolkienCharacter frodoClone = new TolkienCharacter("Frodo", 33, HOBBIT);1713 * TolkienCharacter pippinClone = new TolkienCharacter("Pippin", 28, HOBBIT);1714 * frodoClone.setFriend(pippinClone);1715 * pippinClone.setFriend(frodoClone);1716 *1717 * AtomicReferenceArray&lt;TolkienCharacter&gt; hobbits = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[] {frodo, pippin});1718 *1719 * // fails if equals has not been overridden in TolkienCharacter as it would compares object references1720 * assertThat(hobbits).contains(frodoClone, pippinClone);1721 *1722 * // frodo/frodoClone and pippin/pippinClone are equals when doing a recursive property/field by property/field comparison1723 * assertThat(hobbits).usingRecursiveFieldByFieldElementComparator()1724 * .contains(frodoClone, pippinClone);</code></pre>1725 *1726 * @return {@code this} assertion object.1727 * @since 2.7.0 / 3.7.01728 */1729 @CheckReturnValue1730 public AtomicReferenceArrayAssert<T> usingRecursiveFieldByFieldElementComparator() {1731 return usingExtendedByTypesElementComparator(new RecursiveFieldByFieldComparator(comparatorsForElementPropertyOrFieldNames,1732 comparatorsForElementPropertyOrFieldTypes));1733 }1734 /**1735 * Use field/property by field/property comparison on the <b>given fields/properties only</b> (including inherited1736 * fields/properties) instead of relying on actual type A <code>equals</code> method to compare AtomicReferenceArray elements for1737 * incoming assertion checks. Private fields are included but this can be disabled using1738 * {@link Assertions#setAllowExtractingPrivateFields(boolean)}.1739 * <p>1740 * This can be handy if <code>equals</code> method of the objects to compare does not suit you.1741 * <p>1742 * You can specify a custom comparator per name or type of element field with1743 * {@link #usingComparatorForElementFieldsWithNames(Comparator, String...)}1744 * and {@link #usingComparatorForElementFieldsWithType(Comparator, Class)}.1745 * <p>1746 * Note that the comparison is <b>not</b> recursive, if one of the fields/properties is an Object, it will be compared1747 * to the other field/property using its <code>equals</code> method.1748 * </p>1749 * Example:1750 * <pre><code class='java'> TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);1751 * TolkienCharacter sam = new TolkienCharacter("Sam", 38, HOBBIT);1752 *1753 * // frodo and sam both are hobbits, so they are equals when comparing only race1754 * assertThat(atomicArray(frodo)).usingElementComparatorOnFields("race").contains(sam); // OK1755 *1756 * // ... but not when comparing both name and race1757 * assertThat(atomicArray(frodo)).usingElementComparatorOnFields("name", "race").contains(sam); // FAIL</code></pre>1758 *1759 * @return {@code this} assertion object.1760 * @since 2.7.0 / 3.7.01761 */1762 @CheckReturnValue1763 public AtomicReferenceArrayAssert<T> usingElementComparatorOnFields(String... fields) {1764 return usingExtendedByTypesElementComparator(new OnFieldsComparator(comparatorsForElementPropertyOrFieldNames,1765 comparatorsForElementPropertyOrFieldTypes, fields));1766 }1767 /**1768 * Use field/property by field/property on all fields/properties <b>except</b> the given ones (including inherited1769 * fields/properties) instead of relying on actual type A <code>equals</code> method to compare AtomicReferenceArray elements for1770 * incoming assertion checks. Private fields are included but this can be disabled using1771 * {@link Assertions#setAllowExtractingPrivateFields(boolean)}.1772 * <p>1773 * This can be handy if <code>equals</code> method of the objects to compare does not suit you.1774 * <p>1775 * You can specify a custom comparator per name or type of element field with1776 * {@link #usingComparatorForElementFieldsWithNames(Comparator, String...)}1777 * and {@link #usingComparatorForElementFieldsWithType(Comparator, Class)}.1778 * <p>1779 * Note that the comparison is <b>not</b> recursive, if one of the fields/properties is an Object, it will be compared1780 * to the other field/property using its <code>equals</code> method.1781 * </p>1782 * Example:1783 * <pre><code class='java'> TolkienCharacter frodo = new TolkienCharacter("Frodo", 33, HOBBIT);1784 * TolkienCharacter sam = new TolkienCharacter("Sam", 38, HOBBIT);1785 *1786 * // frodo and sam both are hobbits, so they are equals when comparing only race (i.e. ignoring all other fields)1787 * assertThat(atomicArray(frodo)).usingElementComparatorIgnoringFields("name", "age").contains(sam); // OK1788 *1789 * // ... but not when comparing both name and race1790 * assertThat(atomicArray(frodo)).usingElementComparatorIgnoringFields("age").contains(sam); // FAIL</code></pre>1791 *1792 * @param fields the names of the fields/properties to ignore1793 * @return {@code this} assertion object.1794 * @since 2.7.0 / 3.7.01795 */1796 @CheckReturnValue1797 public AtomicReferenceArrayAssert<T> usingElementComparatorIgnoringFields(String... fields) {1798 return usingExtendedByTypesElementComparator(new IgnoringFieldsComparator(comparatorsForElementPropertyOrFieldNames,1799 comparatorsForElementPropertyOrFieldTypes, fields));1800 }1801 /**1802 * Extract the values of given field or property from the array's elements under test into a new array, this new array1803 * becoming the array under test.1804 * <p>1805 * It allows you to test a field/property of the array's elements instead of testing the elements themselves, which can1806 * be much less work !1807 * <p>1808 * Let's take an example to make things clearer :1809 * <pre><code class='java'> // Build a array of TolkienCharacter, a TolkienCharacter has a name (String) and a Race (a class)1810 * // they can be public field or properties, both works when extracting their values.1811 * AtomicReferenceArray&lt;TolkienCharacter&gt; fellowshipOfTheRing = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[]{1812 * new TolkienCharacter(&quot;Frodo&quot;, 33, HOBBIT),1813 * new TolkienCharacter(&quot;Sam&quot;, 38, HOBBIT),1814 * new TolkienCharacter(&quot;Gandalf&quot;, 2020, MAIA),1815 * new TolkienCharacter(&quot;Legolas&quot;, 1000, ELF),1816 * new TolkienCharacter(&quot;Pippin&quot;, 28, HOBBIT),1817 * new TolkienCharacter(&quot;Gimli&quot;, 139, DWARF),1818 * new TolkienCharacter(&quot;Aragorn&quot;, 87, MAN,1819 * new TolkienCharacter(&quot;Boromir&quot;, 37, MAN)1820 * };1821 *1822 * // let's verify the names of TolkienCharacter in fellowshipOfTheRing :1823 *1824 * assertThat(fellowshipOfTheRing).extracting(&quot;name&quot;)1825 * .contains(&quot;Boromir&quot;, &quot;Gandalf&quot;, &quot;Frodo&quot;)1826 * .doesNotContain(&quot;Sauron&quot;, &quot;Elrond&quot;);1827 *1828 * // you can also extract nested field/property like the name of Race :1829 *1830 * assertThat(fellowshipOfTheRing).extracting(&quot;race.name&quot;)1831 * .contains(&quot;Hobbit&quot;, &quot;Elf&quot;)1832 * .doesNotContain(&quot;Orc&quot;);</code></pre>1833 *1834 * A property with the given name is looked for first, if it does not exist then a field with the given name1835 * is looked for.1836 * <p>1837 * Note that the order of extracted field/property values is consistent with the array order.1838 *1839 * @param fieldOrProperty the field/property to extract from the array under test1840 * @return a new assertion object whose object under test is the array of extracted field/property values.1841 * @throws IntrospectionError if no field or property exists with the given name1842 * @since 2.7.0 / 3.7.01843 */1844 @CheckReturnValue1845 public ObjectArrayAssert<Object> extracting(String fieldOrProperty) {1846 Object[] values = FieldsOrPropertiesExtractor.extract(array, byName(fieldOrProperty));1847 String extractedDescription = extractedDescriptionOf(fieldOrProperty);1848 String description = mostRelevantDescription(info.description(), extractedDescription);1849 return new ObjectArrayAssert<>(values).as(description);1850 }1851 /**1852 * Extract the values of given field or property from the array's elements under test into a new array, this new array1853 * becoming the array under test with type.1854 * <p>1855 * It allows you to test a field/property of the array's elements instead of testing the elements themselves, which can1856 * be much less work !1857 * <p>1858 * Let's take an example to make things clearer :1859 * <pre><code class='java'> // Build an array of TolkienCharacter, a TolkienCharacter has a name (String) and a Race (a class)1860 * // they can be public field or properties, both works when extracting their values.1861 * AtomicReferenceArray&lt;TolkienCharacter&gt; fellowshipOfTheRing = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[]{1862 * new TolkienCharacter(&quot;Frodo&quot;, 33, HOBBIT),1863 * new TolkienCharacter(&quot;Sam&quot;, 38, HOBBIT),1864 * new TolkienCharacter(&quot;Gandalf&quot;, 2020, MAIA),1865 * new TolkienCharacter(&quot;Legolas&quot;, 1000, ELF),1866 * new TolkienCharacter(&quot;Pippin&quot;, 28, HOBBIT),1867 * new TolkienCharacter(&quot;Gimli&quot;, 139, DWARF),1868 * new TolkienCharacter(&quot;Aragorn&quot;, 87, MAN,1869 * new TolkienCharacter(&quot;Boromir&quot;, 37, MAN)1870 * };1871 *1872 * // let's verify the names of TolkienCharacter in fellowshipOfTheRing :1873 *1874 * assertThat(fellowshipOfTheRing).extracting(&quot;name&quot;, String.class)1875 * .contains(&quot;Boromir&quot;, &quot;Gandalf&quot;, &quot;Frodo&quot;)1876 * .doesNotContain(&quot;Sauron&quot;, &quot;Elrond&quot;);1877 *1878 * // you can also extract nested field/property like the name of Race :1879 *1880 * assertThat(fellowshipOfTheRing).extracting(&quot;race.name&quot;, String.class)1881 * .contains(&quot;Hobbit&quot;, &quot;Elf&quot;)1882 * .doesNotContain(&quot;Orc&quot;);</code></pre>1883 *1884 * A property with the given name is looked for first, if it does not exist then a field with the given name1885 * is looked for.1886 * <p>1887 * Note that the order of extracted field/property values is consistent with the order of the array under test.1888 *1889 * @param fieldOrProperty the field/property to extract from the array under test1890 * @param extractingType type to return1891 * @return a new assertion object whose object under test is the array of extracted field/property values.1892 * @throws IntrospectionError if no field or property exists with the given name1893 * @since 2.7.0 / 3.7.01894 */1895 @CheckReturnValue1896 public <P> ObjectArrayAssert<P> extracting(String fieldOrProperty, Class<P> extractingType) {1897 @SuppressWarnings("unchecked")1898 P[] values = (P[]) FieldsOrPropertiesExtractor.extract(array, byName(fieldOrProperty));1899 String extractedDescription = extractedDescriptionOf(fieldOrProperty);1900 String description = mostRelevantDescription(info.description(), extractedDescription);1901 return new ObjectArrayAssert<>(values).as(description);1902 }1903 /**1904 * Extract the values of given fields/properties from the array's elements under test into a new array composed of1905 * Tuple (a simple data structure), this new array becoming the array under test.1906 * <p>1907 * It allows you to test fields/properties of the the array's elements instead of testing the elements themselves, it1908 * can be sometimes much less work !1909 * <p>1910 * The Tuple data corresponds to the extracted values of the given fields/properties, for instance if you ask to1911 * extract "id", "name" and "email" then each Tuple data will be composed of id, name and email extracted from the1912 * element of the initial array (the Tuple's data order is the same as the given fields/properties order).1913 * <p>1914 * Let's take an example to make things clearer :1915 * <pre><code class='java'> // Build an array of TolkienCharacter, a TolkienCharacter has a name (String) and a Race (a class)1916 * // they can be public field or properties, both works when extracting their values.1917 * AtomicReferenceArray&lt;TolkienCharacter&gt; fellowshipOfTheRing = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[]{1918 * new TolkienCharacter(&quot;Frodo&quot;, 33, HOBBIT),1919 * new TolkienCharacter(&quot;Sam&quot;, 38, HOBBIT),1920 * new TolkienCharacter(&quot;Gandalf&quot;, 2020, MAIA),1921 * new TolkienCharacter(&quot;Legolas&quot;, 1000, ELF),1922 * new TolkienCharacter(&quot;Pippin&quot;, 28, HOBBIT),1923 * new TolkienCharacter(&quot;Gimli&quot;, 139, DWARF),1924 * new TolkienCharacter(&quot;Aragorn&quot;, 87, MAN,1925 * new TolkienCharacter(&quot;Boromir&quot;, 37, MAN)1926 * };1927 *1928 * // let's verify 'name' and 'age' of some TolkienCharacter in fellowshipOfTheRing :1929 *1930 * assertThat(fellowshipOfTheRing).extracting(&quot;name&quot;, &quot;age&quot;)1931 * .contains(tuple(&quot;Boromir&quot;, 37),1932 * tuple(&quot;Sam&quot;, 38),1933 * tuple(&quot;Legolas&quot;, 1000));1934 *1935 *1936 * // extract 'name', 'age' and Race name values.1937 *1938 * assertThat(fellowshipOfTheRing).extracting(&quot;name&quot;, &quot;age&quot;, &quot;race.name&quot;)1939 * .contains(tuple(&quot;Boromir&quot;, 37, &quot;Man&quot;),1940 * tuple(&quot;Sam&quot;, 38, &quot;Hobbit&quot;),1941 * tuple(&quot;Legolas&quot;, 1000, &quot;Elf&quot;));</code></pre>1942 *1943 * A property with the given name is looked for first, if it does not exist the a field with the given name is1944 * looked for.1945 * <p>1946 * Note that the order of extracted property/field values is consistent with the iteration order of the array under1947 * test.1948 *1949 * @param propertiesOrFields the properties/fields to extract from the initial array under test1950 * @return a new assertion object whose object under test is the list of Tuple with extracted properties/fields values1951 * as data.1952 * @throws IntrospectionError if one of the given name does not match a field or property in one of the initial1953 * Iterable's element.1954 */1955 @CheckReturnValue1956 public ObjectArrayAssert<Tuple> extracting(String... propertiesOrFields) {1957 Object[] values = FieldsOrPropertiesExtractor.extract(array, byName(propertiesOrFields));1958 Tuple[] result = Arrays.copyOf(values, values.length, Tuple[].class);1959 String extractedDescription = extractedDescriptionOf(propertiesOrFields);1960 String description = mostRelevantDescription(info.description(), extractedDescription);1961 return new ObjectArrayAssert<>(result).as(description);1962 }1963 /**1964 * Extract the values from the array's elements by applying an extracting function on them. The returned1965 * array becomes a new object under test.1966 * <p>1967 * It allows to test values from the elements in safer way than by using {@link #extracting(String)}, as it1968 * doesn't utilize introspection.1969 * <p>1970 * Let's take a look an example:1971 * <pre><code class='java'> // Build a list of TolkienCharacter, a TolkienCharacter has a name, and age and a Race (a specific class)1972 * // they can be public field or properties, both can be extracted.1973 * AtomicReferenceArray&lt;TolkienCharacter&gt; fellowshipOfTheRing = new AtomicReferenceArray&lt;&gt;(new TolkienCharacter[]{1974 * new TolkienCharacter(&quot;Frodo&quot;, 33, HOBBIT),1975 * new TolkienCharacter(&quot;Sam&quot;, 38, HOBBIT),1976 * new TolkienCharacter(&quot;Gandalf&quot;, 2020, MAIA),1977 * new TolkienCharacter(&quot;Legolas&quot;, 1000, ELF),1978 * new TolkienCharacter(&quot;Pippin&quot;, 28, HOBBIT),1979 * new TolkienCharacter(&quot;Gimli&quot;, 139, DWARF),1980 * new TolkienCharacter(&quot;Aragorn&quot;, 87, MAN,1981 * new TolkienCharacter(&quot;Boromir&quot;, 37, MAN)1982 * };1983 *1984 *1985 * // this extracts the race1986 * Extractor&lt;TolkienCharacter, Race&gt; race = new Extractor&lt;TolkienCharacter, Race&gt;() {1987 * {@literal @}Override1988 * public Race extract(TolkienCharacter input) {1989 * return input.getRace();1990 * }1991 * }1992 *1993 * // fellowship has hobbits, right, my presioussss?1994 * assertThat(fellowshipOfTheRing).extracting(race).contains(HOBBIT);</code></pre>1995 *1996 * Note that the order of extracted property/field values is consistent with the iteration order of the Iterable under1997 * test, for example if it's a {@link HashSet}, you won't be able to make any assumptions on the extracted values1998 * order.1999 *2000 * @param extractor the object transforming input object to desired one2001 * @return a new assertion object whose object under test is the list of values extracted2002 * @since 2.7.0 / 3.7.02003 */2004 @CheckReturnValue2005 public <U> ObjectArrayAssert<U> extracting(Extractor<? super T, U> extractor) {2006 U[] extracted = FieldsOrPropertiesExtractor.extract(array, extractor);2007 return new ObjectArrayAssert<>(extracted);2008 }2009 /**2010 * Extract the Iterable values from the array's elements by applying an Iterable extracting function on them2011 * and concatenating the result lists into an array which becomes the new object under test.2012 * <p>2013 * It allows testing the results of extracting values that are represented by Iterables.2014 * <p>2015 * For example:2016 * <pre><code class='java'> CartoonCharacter bart = new CartoonCharacter("Bart Simpson");2017 * CartoonCharacter lisa = new CartoonCharacter("Lisa Simpson");2018 * CartoonCharacter maggie = new CartoonCharacter("Maggie Simpson");2019 * CartoonCharacter homer = new CartoonCharacter("Homer Simpson");2020 * homer.addChildren(bart, lisa, maggie);2021 *2022 * CartoonCharacter pebbles = new CartoonCharacter("Pebbles Flintstone");2023 * CartoonCharacter fred = new CartoonCharacter("Fred Flintstone");2024 * fred.getChildren().add(pebbles);2025 *2026 * Extractor&lt;CartoonCharacter, List&lt;CartoonCharacter&gt;&gt; childrenOf = new Extractor&lt;CartoonCharacter, List&lt;CartoonCharacter&gt;&gt;() {2027 * {@literal @}Override2028 * public List&lt;CartoonChildren&gt; extract(CartoonCharacter input) {2029 * return input.getChildren();2030 * }2031 * }2032 *2033 * AtomicReferenceArray&lt;CartoonCharacter&gt; parents = new AtomicReferenceArray&lt;&gt;(new CartoonCharacter[]{ homer, fred });2034 * // check children2035 * assertThat(parents).flatExtracting(childrenOf)2036 * .containsOnly(bart, lisa, maggie, pebbles);</code></pre>2037 *2038 * The order of extracted values is consisted with both the order of the collection itself, as well as the extracted2039 * collections.2040 *2041 * @param extractor the object transforming input object to an Iterable of desired ones2042 * @return a new assertion object whose object under test is the list of values extracted2043 * @since 2.7.0 / 3.7.02044 */2045 @CheckReturnValue2046 public <U, C extends Collection<U>> ObjectArrayAssert<U> flatExtracting(Extractor<? super T, C> extractor) {2047 final List<C> extractedValues = FieldsOrPropertiesExtractor.extract(Arrays.asList(array), extractor);2048 final List<U> result = newArrayList();2049 for (C e : extractedValues) {2050 result.addAll(e);2051 }2052 return new ObjectArrayAssert<>(IterableUtil.toArray(result));2053 }2054 /**2055 * Extract from array's elements the Iterable/Array values corresponding to the given property/field name and2056 * concatenate them into a single array becoming the new object under test.2057 * <p>2058 * It allows testing the elements of extracting values that are represented by iterables or arrays.2059 * <p>2060 * For example:2061 * <pre><code class='java'> CartoonCharacter bart = new CartoonCharacter("Bart Simpson");2062 * CartoonCharacter lisa = new CartoonCharacter("Lisa Simpson");2063 * CartoonCharacter maggie = new CartoonCharacter("Maggie Simpson");2064 * CartoonCharacter homer = new CartoonCharacter("Homer Simpson");2065 * homer.addChildren(bart, lisa, maggie);2066 *2067 * CartoonCharacter pebbles = new CartoonCharacter("Pebbles Flintstone");2068 * CartoonCharacter fred = new CartoonCharacter("Fred Flintstone");2069 * fred.getChildren().add(pebbles);2070 *2071 * AtomicReferenceArray&lt;CartoonCharacter&gt; parents = new AtomicReferenceArray&lt;&gt;(new CartoonCharacter[]{ homer, fred });2072 * // check children2073 * assertThat(parents).flatExtracting("children")2074 * .containsOnly(bart, lisa, maggie, pebbles);</code></pre>2075 *2076 * The order of extracted values is consisted with both the order of the collection itself, as well as the extracted2077 * collections.2078 *2079 * @param propertyName the object transforming input object to an Iterable of desired ones2080 * @return a new assertion object whose object under test is the list of values extracted2081 * @throws IllegalArgumentException if one of the extracted property value was not an array or an iterable.2082 * @since 2.7.0 / 3.7.02083 */2084 @CheckReturnValue2085 public ObjectArrayAssert<Object> flatExtracting(String propertyName) {2086 List<Object> extractedValues = newArrayList();2087 List<?> extractedGroups = FieldsOrPropertiesExtractor.extract(Arrays.asList(array), byName(propertyName));2088 for (Object group : extractedGroups) {2089 // expecting AtomicReferenceArray to be an iterable or an array2090 if (isArray(group)) {2091 int size = Array.getLength(group);2092 for (int i = 0; i < size; i++) {2093 extractedValues.add(Array.get(group, i));2094 }2095 } else if (group instanceof Iterable) {2096 Iterable<?> iterable = (Iterable<?>) group;2097 for (Object value : iterable) {2098 extractedValues.add(value);2099 }2100 } else {2101 CommonErrors.wrongElementTypeForFlatExtracting(group);2102 }2103 }2104 return new ObjectArrayAssert<>(extractedValues.toArray());2105 }2106 /**2107 * Extract the result of given method invocation from the array's elements under test into a new array, this new array2108 * becoming the array under test.2109 * <p>2110 * It allows you to test a method results of the array's elements instead of testing the elements themselves, which can be2111 * much less work!2112 * <p>2113 * It is especially useful for classes that does not conform to the Java Bean's getter specification (i.e. public String2114 * toString() or public String status() instead of public String getStatus()).2115 * <p>2116 * Let's take an example to make things clearer :2117 * <pre><code class='java'> // Build a array of WesterosHouse, a WesterosHouse has a method: public String sayTheWords()2118 * AtomicReferenceArray&lt;WesterosHouse&gt; greatHousesOfWesteros = new AtomicReferenceArray&lt;&gt;(new WesterosHouse[]{ 2119 * new WesterosHouse(&quot;Stark&quot;, &quot;Winter is Coming&quot;),2120 * new WesterosHouse(&quot;Lannister&quot;, &quot;Hear Me Roar!&quot;), 2121 * new WesterosHouse(&quot;Greyjoy&quot;, &quot;We Do Not Sow&quot;),2122 * new WesterosHouse(&quot;Baratheon&quot;, &quot;Our is the Fury&quot;), 2123 * new WesterosHouse(&quot;Martell&quot;, &quot;Unbowed, Unbent, Unbroken&quot;),2124 * new WesterosHouse(&quot;Tyrell&quot;, &quot;Growing Strong&quot;) });2125 *2126 * // let's verify the words of the great houses of Westeros:2127 * assertThat(greatHousesOfWesteros).extractingResultOf(&quot;sayTheWords&quot;)2128 * .contains(&quot;Winter is Coming&quot;, &quot;We Do Not Sow&quot;, &quot;Hear Me Roar&quot;)2129 * .doesNotContain(&quot;Lannisters always pay their debts&quot;);</code></pre>2130 *2131 * <p>2132 * Following requirements have to be met to extract method results:2133 * <ul>2134 * <li>method has to be public,</li>2135 * <li>method cannot accept any arguments,</li>2136 * <li>method cannot return void.</li>2137 * </ul>2138 * <p>2139 * Note that the order of extracted values is consistent with the order of the array under test.2140 *2141 * @param method the name of the method which result is to be extracted from the array under test2142 * @return a new assertion object whose object under test is the array of extracted values.2143 * @throws IllegalArgumentException if no method exists with the given name, or method is not public, or method does2144 * return void, or method accepts arguments.2145 * @since 2.7.0 / 3.7.02146 */2147 @CheckReturnValue2148 public ObjectArrayAssert<Object> extractingResultOf(String method) {2149 Object[] values = FieldsOrPropertiesExtractor.extract(array, resultOf(method));2150 String extractedDescription = extractedDescriptionOfMethod(method);2151 String description = mostRelevantDescription(info.description(), extractedDescription);2152 return new ObjectArrayAssert<>(values).as(description);2153 }2154 /**2155 * Extract the result of given method invocation from the array's elements under test into a new array, this new array2156 * becoming the array under test.2157 * <p>2158 * It allows you to test a method results of the array's elements instead of testing the elements themselves, which can be2159 * much less work!2160 * <p>2161 * It is especially useful for classes that do not conform to the Java Bean's getter specification (i.e. public String2162 * toString() or public String status() instead of public String getStatus()).2163 * <p>2164 * Let's take an example to make things clearer :2165 * <pre><code class='java'> // Build a array of WesterosHouse, a WesterosHouse has a method: public String sayTheWords()2166 * AtomicReferenceArray&lt;WesterosHouse&gt; greatHousesOfWesteros = new AtomicReferenceArray&lt;&gt;(new WesterosHouse[]{ 2167 * new WesterosHouse(&quot;Stark&quot;, &quot;Winter is Coming&quot;),2168 * new WesterosHouse(&quot;Lannister&quot;, &quot;Hear Me Roar!&quot;), 2169 * new WesterosHouse(&quot;Greyjoy&quot;, &quot;We Do Not Sow&quot;),2170 * new WesterosHouse(&quot;Baratheon&quot;, &quot;Our is the Fury&quot;), 2171 * new WesterosHouse(&quot;Martell&quot;, &quot;Unbowed, Unbent, Unbroken&quot;),2172 * new WesterosHouse(&quot;Tyrell&quot;, &quot;Growing Strong&quot;) });2173 *2174 * // let's verify the words of the great houses of Westeros:2175 * assertThat(greatHousesOfWesteros).extractingResultOf(&quot;sayTheWords&quot;, String.class)2176 * .contains(&quot;Winter is Coming&quot;, &quot;We Do Not Sow&quot;, &quot;Hear Me Roar&quot;)2177 * .doesNotContain(&quot;Lannisters always pay their debts&quot;);</code></pre>2178 *2179 * <p>2180 * Following requirements have to be met to extract method results:2181 * <ul>2182 * <li>method has to be public,</li>2183 * <li>method can not accept any arguments,</li>2184 * <li>method can not return void.</li>2185 * </ul>2186 * <p>2187 * Note that the order of extracted values is consistent with the order of the array under test.2188 *2189 * @param method the name of the method which result is to be extracted from the array under test2190 * @param extractingType type to return2191 * @return a new assertion object whose object under test is the array of extracted values.2192 * @throws IllegalArgumentException if no method exists with the given name, or method is not public, or method does2193 * return void, or method accepts arguments.2194 * @since 2.7.0 / 3.7.02195 */2196 @CheckReturnValue2197 public <P> ObjectArrayAssert<P> extractingResultOf(String method, Class<P> extractingType) {2198 @SuppressWarnings("unchecked")2199 P[] values = (P[]) FieldsOrPropertiesExtractor.extract(array, resultOf(method));2200 String extractedDescription = extractedDescriptionOfMethod(method);2201 String description = mostRelevantDescription(info.description(), extractedDescription);2202 return new ObjectArrayAssert<>(values).as(description);2203 }2204 /**2205 * Enable hexadecimal object representation of Iterable elements instead of standard java representation in error2206 * messages.2207 * <p>2208 * It can be useful to better understand what the error was with a more meaningful error message.2209 * <p>2210 * Example2211 * <pre><code class='java'> 2212 * AtomicReferenceArray&lt;Byte&gt; bytes = new AtomicReferenceArray&lt;&gt;(new Byte[]{ 0x10, 0x20 });2213 * assertThat(bytes).inHexadecimal().contains(new Byte[] { 0x30 });</code></pre>2214 *2215 * With standard error message:2216 * <pre><code class='java'> Expecting:2217 * &lt;[16, 32]&gt;2218 * to contain:2219 * &lt;[48]&gt;2220 * but could not find:2221 * &lt;[48]&gt;</code></pre>2222 *2223 * With Hexadecimal error message:2224 * <pre><code class='java'> Expecting:2225 * &lt;[0x10, 0x20]&gt;2226 * to contain:2227 * &lt;[0x30]&gt;2228 * but could not find:2229 * &lt;[0x30]&gt;</code></pre>2230 *2231 * @return {@code this} assertion object.2232 * @since 2.7.0 / 3.7.02233 */2234 @Override2235 @CheckReturnValue2236 public AtomicReferenceArrayAssert<T> inHexadecimal() {2237 return super.inHexadecimal();2238 }2239 @Override2240 @CheckReturnValue2241 public AtomicReferenceArrayAssert<T> inBinary() {2242 return super.inBinary();2243 }2244 /**2245 * Filter the array under test keeping only elements having a property or field equal to {@code expectedValue}, the2246 * property/field is specified by {@code propertyOrFieldName} parameter.2247 * <p>2248 * The filter first tries to get the value from a property (named {@code propertyOrFieldName}), if no such property2249 * exists it tries to read the value from a field. Reading private fields is supported by default, this can be2250 * globally disabled by calling {@link Assertions#setAllowExtractingPrivateFields(boolean)2251 * Assertions.setAllowExtractingPrivateFields(false)}.2252 * <p>2253 * When reading <b>nested</b> property/field, if an intermediate value is null the whole nested property/field is2254 * considered to be null, thus reading "address.street.name" value will return null if "street" value is null.2255 * <p>2256 *2257 * As an example, let's check all employees 800 years old (yes, special employees):2258 * <pre><code class='java'> Employee yoda = new Employee(1L, new Name("Yoda"), 800);2259 * Employee obiwan = new Employee(2L, new Name("Obiwan"), 800);2260 * Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26);2261 * Employee noname = new Employee(4L, null, 50);2262 *2263 * AtomicReferenceArray&lt;Employee&gt; employees = new AtomicReferenceArray&lt;&gt;(new Employee[]{ yoda, luke, obiwan, noname });2264 *2265 * assertThat(employees).filteredOn("age", 800)2266 * .containsOnly(yoda, obiwan);</code></pre>2267 *2268 * Nested properties/fields are supported:2269 * <pre><code class='java'> // Name is bean class with 'first' and 'last' String properties2270 *2271 * // name is null for noname =&gt; it does not match the filter on "name.first"2272 * assertThat(employees).filteredOn("name.first", "Luke")2273 * .containsOnly(luke);2274 *2275 * assertThat(employees).filteredOn("name.last", "Vader")2276 * .isEmpty();</code></pre>2277 * <p>2278 * If you want to filter on null value, use {@link #filteredOnNull(String)} as Java will resolve the call to2279 * {@link #filteredOn(String, FilterOperator)} instead of this method.2280 * <p>2281 * An {@link IntrospectionError} is thrown if the given propertyOrFieldName can't be found in one of the array2282 * elements.2283 * <p>2284 * You can chain filters:2285 * <pre><code class='java'> // fellowshipOfTheRing is an array of TolkienCharacter having race and name fields2286 * // 'not' filter is statically imported from Assertions.not2287 *2288 * assertThat(fellowshipOfTheRing).filteredOn("race.name", "Man")2289 * .filteredOn("name", not("Boromir"))2290 * .containsOnly(aragorn);</code></pre>2291 * If you need more complex filter, use {@link #filteredOn(Condition)} and provide a {@link Condition} to specify the2292 * filter to apply.2293 *2294 * @param propertyOrFieldName the name of the property or field to read2295 * @param expectedValue the value to compare element's property or field with2296 * @return a new assertion object with the filtered array under test2297 * @throws IllegalArgumentException if the given propertyOrFieldName is {@code null} or empty.2298 * @throws IntrospectionError if the given propertyOrFieldName can't be found in one of the array elements.2299 * @since 2.7.0 / 3.7.02300 */2301 @CheckReturnValue2302 public AtomicReferenceArrayAssert<T> filteredOn(String propertyOrFieldName, Object expectedValue) {2303 Iterable<? extends T> filteredIterable = filter(array).with(propertyOrFieldName, expectedValue).get();2304 return new AtomicReferenceArrayAssert<>(new AtomicReferenceArray<>(toArray(filteredIterable)));2305 }2306 /**2307 * Filter the array under test keeping only elements whose property or field specified by {@code propertyOrFieldName}2308 * is null.2309 * <p>2310 * exists it tries to read the value from a field. Reading private fields is supported by default, this can be2311 * globally disabled by calling {@link Assertions#setAllowExtractingPrivateFields(boolean)2312 * Assertions.setAllowExtractingPrivateFields(false)}.2313 * <p>2314 * When reading <b>nested</b> property/field, if an intermediate value is null the whole nested property/field is2315 * considered to be null, thus reading "address.street.name" value will return null if "street" value is null.2316 * <p>2317 * As an example, let's check all employees 800 years old (yes, special employees):2318 * <pre><code class='java'> Employee yoda = new Employee(1L, new Name("Yoda"), 800);2319 * Employee obiwan = new Employee(2L, new Name("Obiwan"), 800);2320 * Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26);2321 * Employee noname = new Employee(4L, null, 50);2322 *2323 * AtomicReferenceArray&lt;Employee&gt; employees = new AtomicReferenceArray&lt;&gt;(new Employee[]{ yoda, luke, obiwan, noname });2324 *2325 * assertThat(employees).filteredOnNull("name")2326 * .containsOnly(noname);</code></pre>2327 *2328 * Nested properties/fields are supported:2329 * <pre><code class='java'> // Name is bean class with 'first' and 'last' String properties2330 *2331 * assertThat(employees).filteredOnNull("name.last")2332 * .containsOnly(yoda, obiwan, noname);</code></pre>2333 *2334 * An {@link IntrospectionError} is thrown if the given propertyOrFieldName can't be found in one of the array2335 * elements.2336 * <p>2337 * If you need more complex filter, use {@link #filteredOn(Condition)} and provide a {@link Condition} to specify the2338 * filter to apply.2339 *2340 * @param propertyOrFieldName the name of the property or field to read2341 * @return a new assertion object with the filtered array under test2342 * @throws IntrospectionError if the given propertyOrFieldName can't be found in one of the array elements.2343 * @since 2.7.0 / 3.7.02344 */2345 @CheckReturnValue2346 public AtomicReferenceArrayAssert<T> filteredOnNull(String propertyOrFieldName) {2347 // need to cast nulll to Object otherwise it calls :2348 // filteredOn(String propertyOrFieldName, FilterOperation<?> filterOperation)2349 return filteredOn(propertyOrFieldName, (Object) null);2350 }2351 /**2352 * Filter the array under test keeping only elements having a property or field matching the filter expressed with2353 * the {@link FilterOperator}, the property/field is specified by {@code propertyOrFieldName} parameter.2354 * <p>2355 * The existing filters are :2356 * <ul>2357 * <li> {@link Assertions#not(Object) not(Object)}</li>2358 * <li> {@link Assertions#in(Object...) in(Object...)}</li>2359 * <li> {@link Assertions#notIn(Object...) notIn(Object...)}</li>2360 * </ul>2361 * <p>2362 * Whatever filter is applied, it first tries to get the value from a property (named {@code propertyOrFieldName}), if2363 * no such property exists it tries to read the value from a field. Reading private fields is supported by default,2364 * this can be globally disabled by calling {@link Assertions#setAllowExtractingPrivateFields(boolean)2365 * Assertions.setAllowExtractingPrivateFields(false)}.2366 * <p>2367 * When reading <b>nested</b> property/field, if an intermediate value is null the whole nested property/field is2368 * considered to be null, thus reading "address.street.name" value will return null if "street" value is null.2369 * <p>2370 *2371 * As an example, let's check stuff on some special employees :2372 * <pre><code class='java'> Employee yoda = new Employee(1L, new Name("Yoda"), 800);2373 * Employee obiwan = new Employee(2L, new Name("Obiwan"), 800);2374 * Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26);2375 *2376 * AtomicReferenceArray&lt;Employee&gt; employees = new AtomicReferenceArray&lt;&gt;(new Employee[]{ yoda, luke, obiwan, noname });2377 *2378 * // 'not' filter is statically imported from Assertions.not2379 * assertThat(employees).filteredOn("age", not(800))2380 * .containsOnly(luke);2381 *2382 * // 'in' filter is statically imported from Assertions.in2383 * // Name is bean class with 'first' and 'last' String properties2384 * assertThat(employees).filteredOn("name.first", in("Yoda", "Luke"))2385 * .containsOnly(yoda, luke);2386 *2387 * // 'notIn' filter is statically imported from Assertions.notIn2388 * assertThat(employees).filteredOn("name.first", notIn("Yoda", "Luke"))2389 * .containsOnly(obiwan);</code></pre>2390 *2391 * An {@link IntrospectionError} is thrown if the given propertyOrFieldName can't be found in one of the array2392 * elements.2393 * <p>2394 * Note that combining filter operators is not supported, thus the following code is not correct:2395 * <pre><code class='java'> // Combining filter operators like not(in(800)) is NOT supported2396 * // -&gt; throws UnsupportedOperationException2397 * assertThat(employees).filteredOn("age", not(in(800)))2398 * .contains(luke);</code></pre>2399 * <p>2400 * You can chain filters:2401 * <pre><code class='java'> // fellowshipOfTheRing is an array of TolkienCharacter having race and name fields2402 * // 'not' filter is statically imported from Assertions.not2403 *2404 * assertThat(fellowshipOfTheRing).filteredOn("race.name", "Man")2405 * .filteredOn("name", not("Boromir"))2406 * .containsOnly(aragorn);</code></pre>2407 *2408 * If you need more complex filter, use {@link #filteredOn(Condition)} and provide a {@link Condition} to specify the2409 * filter to apply.2410 *2411 * @param propertyOrFieldName the name of the property or field to read2412 * @param filterOperator the filter operator to apply2413 * @return a new assertion object with the filtered array under test2414 * @throws IllegalArgumentException if the given propertyOrFieldName is {@code null} or empty.2415 * @since 2.7.0 / 3.7.02416 */2417 @CheckReturnValue2418 public AtomicReferenceArrayAssert<T> filteredOn(String propertyOrFieldName, FilterOperator<?> filterOperator) {2419 checkNotNull(filterOperator);2420 Filters<? extends T> filter = filter(array).with(propertyOrFieldName);2421 filterOperator.applyOn(filter);2422 return new AtomicReferenceArrayAssert<>(new AtomicReferenceArray<>(toArray(filter.get())));2423 }2424 /**2425 * Filter the array under test keeping only elements matching the given {@link Condition}.2426 * <p>2427 * Let's check old employees whose age &gt; 100:2428 * <pre><code class='java'> Employee yoda = new Employee(1L, new Name("Yoda"), 800);2429 * Employee obiwan = new Employee(2L, new Name("Obiwan"), 800);2430 * Employee luke = new Employee(3L, new Name("Luke", "Skywalker"), 26);2431 * Employee noname = new Employee(4L, null, 50);2432 *2433 * AtomicReferenceArray&lt;Employee&gt; employees = new AtomicReferenceArray&lt;&gt;(new Employee[]{ yoda, luke, obiwan, noname });2434 *2435 * // old employee condition, "old employees" describes the condition in error message2436 * // you just have to implement 'matches' method2437 * Condition&lt;Employee&gt; oldEmployees = new Condition&lt;Employee&gt;("old employees") {2438 * {@literal @}Override2439 * public boolean matches(Employee employee) {2440 * return employee.getAge() &gt; 100;2441 * }2442 * };2443 * }2444 * assertThat(employees).filteredOn(oldEmployees)2445 * .containsOnly(yoda, obiwan);</code></pre>2446 *2447 * You can combine {@link Condition} with condition operator like {@link Not}:2448 * <pre><code class='java'> // 'not' filter is statically imported from Assertions.not2449 * assertThat(employees).filteredOn(not(oldEmployees))2450 * .contains(luke, noname);</code></pre>...

Full Screen

Full Screen

Source:AtomicReferenceArrayAssert_haveExactly_Test.java Github

copy

Full Screen

...16import org.assertj.core.api.AtomicReferenceArrayAssert;17import org.assertj.core.api.AtomicReferenceArrayAssertBaseTest;18import org.assertj.core.api.TestCondition;19import org.junit.Before;20public class AtomicReferenceArrayAssert_haveExactly_Test extends AtomicReferenceArrayAssertBaseTest {21 private Condition<Object> condition;22 @Before23 public void before() {24 condition = new TestCondition<>();25 }26 @Override27 protected AtomicReferenceArrayAssert<Object> invoke_api_method() {28 return assertions.haveExactly(2, condition);29 }30 @Override31 protected void verify_internal_effects() {32 verify(arrays).assertHaveExactly(info(), internalArray(), 2, condition);33 }34}...

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1package org.assertj.core.api;2import java.util.concurrent.atomic.AtomicReferenceArray;3public class AtomicReferenceArrayAssert<E> extends AbstractAtomicReferenceArrayAssert<AtomicReferenceArrayAssert<E>, E> {4 public AtomicReferenceArrayAssert(AtomicReferenceArray<E> actual) {5 super(actual, AtomicReferenceArrayAssert.class);6 }7 * @return a new <code>{@link AtomicReferenceArrayAssert}</code>8 public static <E> AtomicReferenceArrayAssert<E> assertThat(AtomicReferenceArray<E> actual) {9 return new AtomicReferenceArrayAssert<E>(actual);10 }11}12package org.assertj.core.api;13import java.util.concurrent.atomic.AtomicReferenceArray;14 extends AbstractAssert<SELF, AtomicReferenceArray<E>> {15 protected AbstractAtomicReferenceArrayAssert(AtomicReferenceArray<E> actual, Class<?> selfType) {16 super(actual, selfType);17 }18 public SELF hasSize(int expected) {19 return myself;20 }21 public SELF isEmpty() {22 return myself;23 }24 public SELF isNotEmpty() {25 return myself;26 }27}28package org.assertj.core.api;29public abstract class AbstractAssert<SELF extends AbstractAssert<SELF, ACTUAL>, ACTUAL> {30 protected final ACTUAL actual;31 protected AbstractAssert(ACTUAL actual, Class<?> selfType) {32 this.actual = actual;33 }34}35package org.assertj.core.api;36public class Assertions {37 public static <T> T assertThat(T actual) {38 return actual;39 }40}41package org.assertj.core.api;42import java.util.concurrent.atomic.AtomicReferenceArray;43public class AtomicReferenceArrayAssert<E> extends AbstractAtomicReferenceArrayAssert<AtomicReferenceArrayAssert<E>, E> {44 public AtomicReferenceArrayAssert(AtomicReferenceArray<E> actual) {45 super(actual, AtomicReferenceArrayAssert.class);46 }47 * Creates a new <code>{@link AtomicReference

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import static org.assertj.core.api.Assertions.*;2import java.util.concurrent.atomic.AtomicReferenceArray;3public class 1 {4 public static void main(String[] args) {5 AtomicReferenceArray<String> array = new AtomicReferenceArray<>(new String[] { "one", "two", "three" });6 assertThat(array).hasSize(3);7 }8}9import static org.assertj.core.api.Assertions.*;10import java.util.concurrent.atomic.AtomicReferenceArray;11public class 2 {12 public static void main(String[] args) {13 AtomicReferenceArray<String> array = new AtomicReferenceArray<>(new String[] { "one", "two", "three" });14 assertThat(array).hasSize(3);15 }16}17import static org.assertj.core.api.Assertions.*;18import java.util.concurrent.atomic.AtomicReferenceArray;19public class 3 {20 public static void main(String[] args) {21 AtomicReferenceArray<String> array = new AtomicReferenceArray<>(new String[] { "one", "two", "three" });22 assertThat(array).hasSize(3);23 }24}25import static org.assertj.core.api.Assertions.*;26import java.util.concurrent.atomic.AtomicReferenceArray;27public class 4 {28 public static void main(String[] args) {29 AtomicReferenceArray<String> array = new AtomicReferenceArray<>(new String[] { "one", "two", "three" });30 assertThat(array).hasSize(3);31 }32}33import static org.assertj.core.api.Assertions.*;34import java.util.concurrent.atomic.AtomicReferenceArray;35public class 5 {36 public static void main(String[] args) {37 AtomicReferenceArray<String> array = new AtomicReferenceArray<>(new String[] { "one", "two", "three" });38 assertThat(array).hasSize(3);39 }40}41import static org.assertj.core.api.Assertions.*;42import java.util.concurrent.atomic.AtomicReferenceArray;43public class 6 {

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import static org.assertj.core.api.Assertions.assertThat;2import java.util.concurrent.atomic.AtomicReferenceArray;3public class 1 {4 public static void main(String[] args) {5 AtomicReferenceArray<String> array = new AtomicReferenceArray<String>(5);6 array.set(0, "first");7 array.set(1, "second");8 array.set(2, "third");9 array.set(3, "fourth");10 array.set(4, "fifth");11 assertThat(array).contains("first", "second", "third", "fourth", "fifth");12 }13}

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1package org.assertj.core.api;2public class AtomicReferenceArrayAssert<ELEMENT> extends AbstractAtomicReferenceArrayAssert<AtomicReferenceArrayAssert<ELEMENT>, ELEMENT> {3 public AtomicReferenceArrayAssert(AtomicReferenceArray<ELEMENT> actual) {4 super(actual, AtomicReferenceArrayAssert.class);5 }6}7package org.assertj.core.api;8public abstract class AbstractAtomicReferenceArrayAssert<S extends AbstractAtomicReferenceArrayAssert<S, ELEMENT>, ELEMENT> extends AbstractAssert<S, AtomicReferenceArray<ELEMENT>> {9 public AbstractAtomicReferenceArrayAssert(AtomicReferenceArray<ELEMENT> actual, Class<?> selfType) {10 super(actual, selfType);11 }12}13package org.assertj.core.api;14public abstract class AbstractAssert<SELF extends AbstractAssert<SELF, ACTUAL>, ACTUAL> {15 public AbstractAssert(ACTUAL actual, Class<?> selfType) {16 this.actual = actual;17 }18}19package org.assertj.core.api;20public abstract class AbstractObjectAssert<SELF extends AbstractObjectAssert<SELF, ACTUAL>, ACTUAL> extends AbstractAssert<SELF, ACTUAL> {21 public AbstractObjectAssert(ACTUAL actual, Class<?> selfType) {22 super(actual, selfType);23 }24}25package org.assertj.core.api;26public abstract class AbstractAssert<SELF extends AbstractAssert<SELF, ACTUAL>, ACTUAL> {27 public AbstractAssert(ACTUAL actual, Class<?> selfType) {28 this.actual = actual;29 }30}31package org.assertj.core.api;32public abstract class AbstractIntegerAssert<SELF extends AbstractIntegerAssert<SELF>> extends AbstractComparableAssert<SELF, Integer> {33 public AbstractIntegerAssert(Integer actual, Class<?> selfType) {34 super(actual, selfType);35 }36}37package org.assertj.core.api;

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import org.assertj.core.api.Assertions;2import org.assertj.core.api.AtomicReferenceArrayAssert;3import java.util.concurrent.atomic.AtomicReferenceArray;4import java.util.concurrent.atomic.AtomicReference;5public class 1 {6 public static void main(String[] args) {7 AtomicReferenceArray<AtomicReference> atomicReferenceArray = new AtomicReferenceArray<AtomicReference>(new AtomicReference[]{new AtomicReference("foo"), new AtomicReference("bar")});8 AtomicReferenceArrayAssert atomicReferenceArrayAssert = Assertions.assertThat(atomicReferenceArray);9 atomicReferenceArrayAssert.hasSize(2);10 atomicReferenceArrayAssert.containsExactly(new AtomicReference("foo"), new AtomicReference("bar"));11 }12}

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import org.assertj.core.api.Assertions;2import org.assertj.core.api.AtomicReferenceArrayAssert;3import org.assertj.core.api.AtomicReferenceArrayAssertBaseTest;4public class AtomicReferenceArrayAssert_hasSize_Test extends AtomicReferenceArrayAssertBaseTest {5 protected AtomicReferenceArrayAssert<Object> invoke_api_method() {6 return assertions.hasSize(5);7 }8 protected void verify_internal_effects() {9 Assertions.assertThat(getArrays(assertions)).hasSize(5);10 }11}12import org.assertj.core.api.AbstractAtomicReferenceArrayAssert;13import org.assertj.core.api.AbstractAtomicReferenceArrayAssertBaseTest;14import org.assertj.core.data.Index;15public class AtomicReferenceArrayAssert_hasSize_Test extends AbstractAtomicReferenceArrayAssertBaseTest {16 protected AbstractAtomicReferenceArrayAssert<Object, ?> invoke_api_method() {17 return assertions.hasSize(5);18 }19 protected void verify_internal_effects() {20 verify(arrays).assertHasSize(info(), internalArray(), 5);21 }22}23import org.assertj.core.api.AbstractAssert;24import org.assertj.core.api.AbstractAssertBaseTest;25import org.assertj.core.data.Index;26public class AtomicReferenceArrayAssert_hasSize_Test extends AbstractAssertBaseTest {27 protected AtomicReferenceArrayAssert<Object> invoke_api_method() {28 return assertions.hasSize(5);29 }30 protected void verify_internal_effects() {31 verify(arrays).assertHasSize(getInfo(assertions), getActual(assertions), 5);32 }33}34import org.assertj.core.api.AbstractObjectAssert;35import org.assertj.core.api.AbstractObjectAssertBaseTest;36import org.assertj.core.data.Index;37public class AtomicReferenceArrayAssert_hasSize_Test extends AbstractObjectAssertBaseTest {38 protected AtomicReferenceArrayAssert<Object> invoke_api_method() {39 return assertions.hasSize(5);40 }41 protected void verify_internal_effects() {42 verify(arrays).assertHasSize(getInfo(assertions), getActual(assertions), 5);43 }44}

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import static org.assertj.core.api.Assertions.*;2import java.util.concurrent.atomic.AtomicReferenceArray;3import org.assertj.core.api.AtomicReferenceArrayAssert;4import org.junit.Test;5public class Test1 {6 public void test() {7 AtomicReferenceArray<String> array = new AtomicReferenceArray<>(new String[] {"a", "b", "c"});8 AtomicReferenceArrayAssert<String> assert1 = assertThat(array);9 assert1.contains("a", "b");10 }11}12import static org.assertj.core.api.Assertions.*;13import java.util.HashMap;14import java.util.Map;15import org.assertj.core.api.MapAssert;16import org.junit.Test;17public class Test2 {18 public void test() {19 Map<String, String> map = new HashMap<>();20 map.put("a", "a");21 map.put("b", "b");22 MapAssert<String, String> assert1 = assertThat(map);23 assert1.containsEntry("a", "a");24 }25}26import static org.assertj.core.api.Assertions.*;27import org.assertj.core.api.ObjectAssert;28import org.junit.Test;29public class Test3 {30 public void test() {31 Object object = new Object();32 ObjectAssert<Object> assert1 = assertThat(object);33 assert1.hasSameClassAs(object);34 }35}36import static org.assertj.core.api.Assertions.*;37import org.assertj.core.api.ObjectArrayAssert;38import org.junit.Test;39public class Test4 {40 public void test() {41 Object[] array = new Object[] {"a", "b", "c"};42 ObjectArrayAssert<Object> assert1 = assertThat(array);43 assert1.contains("a", "b");44 }45}46import static org.assertj.core.api.Assertions.*;47import java.util.ArrayList;48import java.util.List;49import org.assertj.core.api.ListAssert;50import org.junit.Test;51public class Test5 {52 public void test() {53 List<String> list = new ArrayList<>();54 list.add("a");

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import static org.assertj.core.api.Assertions.assertThat;2import java.util.concurrent.atomic.AtomicInteger;3import java.util.concurrent.atomic.AtomicReferenceArray;4public class Test {5 public static void main(String[] args) {6 AtomicInteger[] atomicIntegerArray = new AtomicInteger[3];7 atomicIntegerArray[0] = new AtomicInteger(1);8 atomicIntegerArray[1] = new AtomicInteger(2);9 atomicIntegerArray[2] = new AtomicInteger(3);10 AtomicReferenceArray<AtomicInteger> atomicReferenceArray = new AtomicReferenceArray<>(atomicIntegerArray);11 assertThat(atomicReferenceArray).have(new Condition<>(v -> v.get() == 1, "value is 1"));12 }13}14import static org.assertj.core.api.Assertions.assertThat;15import java.util.concurrent.atomic.AtomicInteger;16import java.util.concurrent.atomic.AtomicReferenceArray;17public class Test {18 public static void main(String[] args) {19 AtomicInteger[] atomicIntegerArray = new AtomicInteger[3];20 atomicIntegerArray[0] = new AtomicInteger(1);21 atomicIntegerArray[1] = new AtomicInteger(2);22 atomicIntegerArray[2] = new AtomicInteger(3);23 AtomicReferenceArray<AtomicInteger> atomicReferenceArray = new AtomicReferenceArray<>(atomicIntegerArray);24 assertThat(atomicReferenceArray).haveAtLeast(1, new Condition<>(v -> v.get() == 1, "value is 1"));25 }26}27import static org.assertj.core.api.Assertions.assertThat;28import java.util.concurrent.atomic.AtomicInteger;29import java.util.concurrent.atomic.AtomicReferenceArray;30public class Test {31 public static void main(String[] args) {32 AtomicInteger[] atomicIntegerArray = new AtomicInteger[3];33 atomicIntegerArray[0] = new AtomicInteger(1);34 atomicIntegerArray[1] = new AtomicInteger(2);35 atomicIntegerArray[2] = new AtomicInteger(3);36 AtomicReferenceArray<AtomicInteger> atomicReferenceArray = new AtomicReferenceArray<>(atomicIntegerArray);37 assertThat(atomicReferenceArray).haveAtMost(3, new Condition<>(v -> v.get() == 1, "value is 1"));38 }39}

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import org.assertj.core.api.Assertions;2import java.util.concurrent.atomic.AtomicReferenceArray;3public class AtomicReferenceArrayAssertDemo {4 public static void main(String[] args) {5 AtomicReferenceArray<String> atomicReferenceArray = new AtomicReferenceArray<>(3);6 atomicReferenceArray.set(0, "Hello");7 atomicReferenceArray.set(1, "World");8 atomicReferenceArray.set(2, "!");9 Assertions.assertThat(atomicReferenceArray).hasSize(3);10 }11}12org.assertj.core.api.Assertions.assertThat(atomicReferenceArray).hasSize(3);

Full Screen

Full Screen

have

Using AI Code Generation

copy

Full Screen

1import java.util.concurrent.atomic.AtomicReferenceArray;2import org.junit.Test;3import static org.assertj.core.api.Assertions.assertThat;4public class AssertJAtomicReferenceArrayAssertTest {5 public void testAssertJAtomicReferenceArrayAssert() {6 AtomicReferenceArray<String> array = new AtomicReferenceArray<String>(new String[] { "one", "two", "three" });7 assertThat(array).contains("one", "two", "three");8 }9}10import java.util.concurrent.atomic.AtomicReferenceArray;11import org.junit.Test;12import static org.assertj.core.api.Assertions.assertThat;13public class AssertJAtomicReferenceArrayAssertTest {14 public void testAssertJAtomicReferenceArrayAssert() {15 AtomicReferenceArray<String> array = new AtomicReferenceArray<String>(new String[] { "one", "two", "three" });16 assertThat(array).contains("one", "two", "three");17 }18}19import java.util.concurrent.atomic.AtomicReferenceArray;20import org.junit.Test;21import static org.assertj.core.api.Assertions.assertThat;22public class AssertJAtomicReferenceArrayAssertTest {23 public void testAssertJAtomicReferenceArrayAssert() {24 AtomicReferenceArray<String> array = new AtomicReferenceArray<String>(new String[] { "one", "two", "three" });25 assertThat(array).contains("one", "two", "three");26 }27}28import java.util.concurrent.atomic.AtomicReferenceArray;29import org.junit.Test;30import static org.assertj.core.api.Assertions.assertThat;31public class AssertJAtomicReferenceArrayAssertTest {32 public void testAssertJAtomicReferenceArrayAssert() {33 AtomicReferenceArray<String> array = new AtomicReferenceArray<String>(new String[] { "one", "two", "three" });34 assertThat(array).contains("one", "two", "three");35 }36}

Full Screen

Full Screen

Automation Testing Tutorials

Learn to execute automation testing from scratch with LambdaTest Learning Hub. Right from setting up the prerequisites to run your first automation test, to following best practices and diving deeper into advanced test scenarios. LambdaTest Learning Hubs compile a list of step-by-step guides to help you be proficient with different test automation frameworks i.e. Selenium, Cypress, TestNG etc.

LambdaTest Learning Hubs:

YouTube

You could also refer to video tutorials over LambdaTest YouTube channel to get step by step demonstration from industry experts.

Run Assertj automation tests on LambdaTest cloud grid

Perform automation testing on 3000+ real desktop and mobile devices online.

Most used method in AtomicReferenceArrayAssert

Try LambdaTest Now !!

Get 100 minutes of automation test minutes FREE!!

Next-Gen App & Browser Testing Cloud

Was this article helpful?

Helpful

NotHelpful