private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> restoreList(String propertyName, Object state) { if (state == null) { return null; } List<String> list = null; if (state instanceof String) { list = toSingletonList(propertyName, (String)state); } else if (state instanceof String[]) { list = Collections.unmodifiableList(Arrays.asList((String[])state)); } return list; }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }
private static List<String> toList(String propertyName, ValueExpression expression, Object value) { if (value instanceof String) { String strValue = (String)value; // If the value contains no spaces, we can optimize. // This is worthwhile, since the execute/render lists // will often only contain a single value. if (strValue.indexOf(' ') == -1) { return toSingletonList(propertyName, strValue); } // We're stuck splitting up the string. String[] values = SPLIT_PATTERN.split(strValue); if ((values == null) || (values.length == 0)) { return null; } // Note that we could create a Set out of the values if // we care about removing duplicates. However, the // presence of duplicates does not real harm. They will // be consolidated during the partial view traversal. So, // just create an list - garbage in, garbage out. return Collections.unmodifiableList(Arrays.asList(values)); } // RELEASE_PENDING i18n ; throw new FacesException(expression.toString() + " : '" + propertyName + "' attribute value must be either a String or a Collection"); }