public static boolean equals(final String s1, final String s2) { return StringComparator.Ordinal.equals(s1, s2); }
public static int compare(final String s1, final String s2) { return StringComparator.Ordinal.compare(s1, s2); }
public static boolean equals(final String s1, final String s2) { return StringComparator.Ordinal.equals(s1, s2); }
public static int compare(final String s1, final String s2) { return StringComparator.Ordinal.compare(s1, s2); }
public static boolean equals(final String s1, final String s2) { return StringComparator.Ordinal.equals(s1, s2); }
public static int compare(final String s1, final String s2) { return StringComparator.Ordinal.compare(s1, s2); }
public static boolean isTrue(final String value) { if (isNullOrWhitespace(value)) { return false; } final String trimmedValue = value.trim(); if (trimmedValue.length() == 1) { final char ch = Character.toLowerCase(trimmedValue.charAt(0)); return ch == 't' || ch == 'y' || ch == '1'; } return StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "true") || StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "yes"); }
public static int compare(final String s1, final String s2, final StringComparison comparison) { return _comparators[VerifyArgument.notNull(comparison, "comparison").ordinal()].compare(s1, s2); }
public static boolean isFalse(final String value) { if (isNullOrWhitespace(value)) { return false; } final String trimmedValue = value.trim(); if (trimmedValue.length() == 1) { final char ch = Character.toLowerCase(trimmedValue.charAt(0)); return ch == 'f' || ch == 'n' || ch == '0'; } return StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "false") || StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "no"); }
public static int compare(final String s1, final String s2, final StringComparison comparison) { return _comparators[VerifyArgument.notNull(comparison, "comparison").ordinal()].compare(s1, s2); }
public static boolean isFalse(final String value) { if (isNullOrWhitespace(value)) { return false; } final String trimmedValue = value.trim(); if (trimmedValue.length() == 1) { final char ch = Character.toLowerCase(trimmedValue.charAt(0)); return ch == 'f' || ch == 'n' || ch == '0'; } return StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "false") || StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "no"); }
public static int compare(final String s1, final String s2, final StringComparison comparison) { return _comparators[VerifyArgument.notNull(comparison, "comparison").ordinal()].compare(s1, s2); }
public static boolean isTrue(final String value) { if (isNullOrWhitespace(value)) { return false; } final String trimmedValue = value.trim(); if (trimmedValue.length() == 1) { final char ch = Character.toLowerCase(trimmedValue.charAt(0)); return ch == 't' || ch == 'y' || ch == '1'; } return StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "true") || StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "yes"); }
public static boolean isFalse(final String value) { if (isNullOrWhitespace(value)) { return false; } final String trimmedValue = value.trim(); if (trimmedValue.length() == 1) { final char ch = Character.toLowerCase(trimmedValue.charAt(0)); return ch == 'f' || ch == 'n' || ch == '0'; } return StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "false") || StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "no"); }
public static boolean isTrue(final String value) { if (isNullOrWhitespace(value)) { return false; } final String trimmedValue = value.trim(); if (trimmedValue.length() == 1) { final char ch = Character.toLowerCase(trimmedValue.charAt(0)); return ch == 't' || ch == 'y' || ch == '1'; } return StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "true") || StringComparator.OrdinalIgnoreCase.equals(trimmedValue, "yes"); }
static TypeDefinition getNestedType(final List<TypeDefinition> candidates, final TypeReference reference) { for (int i = 0, n = candidates.size(); i < n; i++) { final TypeDefinition candidate = candidates.get(i); if (StringComparator.Ordinal.equals(candidate.getName(), reference.getName())) { return candidate; } } return null; }
static TypeDefinition getNestedType(final List<TypeDefinition> candidates, final TypeReference reference) { for (int i = 0, n = candidates.size(); i < n; i++) { final TypeDefinition candidate = candidates.get(i); if (StringComparator.Ordinal.equals(candidate.getName(), reference.getName())) { return candidate; } } return null; }
static TypeDefinition getNestedType(final List<TypeDefinition> candidates, final TypeReference reference) { for (int i = 0, n = candidates.size(); i < n; i++) { final TypeDefinition candidate = candidates.get(i); if (StringComparator.Ordinal.equals(candidate.getName(), reference.getName())) { return candidate; } } return null; }
public static boolean equals(final String s1, final String s2, final StringComparison comparison) { return _comparators[VerifyArgument.notNull(comparison, "comparison").ordinal()].equals(s1, s2); }
public static boolean equals(final String s1, final String s2, final StringComparison comparison) { return _comparators[VerifyArgument.notNull(comparison, "comparison").ordinal()].equals(s1, s2); }