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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package freemarker.template;
import java.io.BufferedReader;
import java.io.FilterReader;
import java.io.IOException;
import java.io.PrintStream;
import java.io.Reader;
import java.io.StringReader;
import java.io.StringWriter;
import java.io.Writer;
import java.lang.reflect.UndeclaredThrowableException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Vector;
import javax.swing.tree.TreePath;
import freemarker.cache.TemplateCache;
import freemarker.cache.TemplateLoader;
import freemarker.cache.TemplateLookupStrategy;
import freemarker.core.BugException;
import freemarker.core.Configurable;
import freemarker.core.Environment;
import freemarker.core.FMParser;
import freemarker.core.LibraryLoad;
import freemarker.core.Macro;
import freemarker.core.OutputFormat;
import freemarker.core.ParseException;
import freemarker.core.ParserConfiguration;
import freemarker.core.TemplateConfiguration;
import freemarker.core.TemplateElement;
import freemarker.core.TextBlock;
import freemarker.core.TokenMgrError;
import freemarker.core._CoreAPI;
import freemarker.debug.impl.DebuggerService;
/**
* Stores an already parsed template, ready to be processed (rendered) for unlimited times, possibly from multiple
* threads.
*
*
* Typically, you will use {@link Configuration#getTemplate(String)} to create/get {@link Template} objects, so you
* don't construct them directly. But you can also construct a template from a {@link Reader} or a {@link String} that
* contains the template source code. But then it's important to know that while the resulting {@link Template} is
* efficient for later processing, creating a new {@link Template} itself is relatively expensive. So try to re-use
* {@link Template} objects if possible. {@link Configuration#getTemplate(String)} (and its overloads) does that
* (caching {@link Template}-s) for you, but the constructor of course doesn't, so it's up to you to solve then.
*
*
* Objects of this class meant to be handled as immutable and thus thread-safe. However, it has some setter methods for
* changing FreeMarker settings. Those must not be used while the template is being processed, or if the template object
* is already accessible from multiple threads. If some templates need different settings that those coming from the
* shared {@link Configuration}, and you are using {@link Configuration#getTemplate(String)} (or its overloads), then
* use {@link Configuration#setTemplateConfigurations(freemarker.cache.TemplateConfigurationFactory)} to achieve that.
*/
public class Template extends Configurable {
public static final String DEFAULT_NAMESPACE_PREFIX = "D";
public static final String NO_NS_PREFIX = "N";
private static final int READER_BUFFER_SIZE = 4096;
private Map macros = new HashMap();
private List imports = new Vector();
private TemplateElement rootElement;
private String encoding, defaultNS;
private Object customLookupCondition;
private int interpolationSyntax;
private int actualTagSyntax;
private int actualNamingConvention;
private boolean autoEscaping;
private OutputFormat outputFormat;
private final String name;
private final String sourceName;
private final ArrayList lines = new ArrayList();
private final ParserConfiguration parserConfiguration;
private Map prefixToNamespaceURILookup = new HashMap();
private Map namespaceURIToPrefixLookup = new HashMap();
private Version templateLanguageVersion;
/**
* A prime constructor to which all other constructors should
* delegate directly or indirectly.
*/
private Template(String name, String sourceName, Configuration cfg, ParserConfiguration customParserConfiguration) {
super(toNonNull(cfg));
this.name = name;
this.sourceName = sourceName;
this.templateLanguageVersion = normalizeTemplateLanguageVersion(toNonNull(cfg).getIncompatibleImprovements());
this.parserConfiguration = customParserConfiguration != null ? customParserConfiguration : getConfiguration();
}
private static Configuration toNonNull(Configuration cfg) {
return cfg != null ? cfg : Configuration.getDefaultConfiguration();
}
/**
* Same as {@link #Template(String, String, Reader, Configuration)} with {@code null} {@code sourceName} parameter.
*/
public Template(String name, Reader reader, Configuration cfg) throws IOException {
this(name, null, reader, cfg);
}
/**
* Convenience constructor for {@link #Template(String, Reader, Configuration)
* Template(name, new StringReader(reader), cfg)}.
*
* @since 2.3.20
*/
public Template(String name, String sourceCode, Configuration cfg) throws IOException {
this(name, new StringReader(sourceCode), cfg);
}
/**
* Convenience constructor for {@link #Template(String, String, Reader, Configuration, String) Template(name, null,
* reader, cfg, encoding)}.
*/
public Template(String name, Reader reader, Configuration cfg, String encoding) throws IOException {
this(name, null, reader, cfg, encoding);
}
/**
* Constructs a template from a character stream. Note that this is a relatively expensive operation; where higher
* performance matters, you should re-use (cache) {@link Template} instances instead of re-creating them from the
* same source again and again. ({@link Configuration#getTemplate(String) and its overloads already do such reuse.})
*
* @param name
* The path of the template file relatively to the (virtual) directory that you use to store the
* templates (except if {@link #Template(String, String, Reader, Configuration, String) sourceName}
* differs from it). Shouldn't start with {@code '/'}. Should use {@code '/'}, not {@code '\'}. Check
* {@link #getName()} to see how the name will be used. The name should be independent of the actual
* storage mechanism and physical location as far as possible. Even when the templates are stored
* straightforwardly in real files (they often aren't; see {@link TemplateLoader}), the name shouldn't be
* an absolute file path. Like if the template is stored in {@code "/www/templates/forum/main.ftl"}, and
* you are using {@code "/www/templates/"} as the template root directory via
* {@link Configuration#setDirectoryForTemplateLoading(java.io.File)}, then the template name will be
* {@code "forum/main.ftl"}. The name can be {@code null} (should be used for template made on-the-fly
* instead of being loaded from somewhere), in which case relative paths in it will be relative to
* the template root directory (and here again, it's the {@link TemplateLoader} that knows what that
* "physically" means).
* @param sourceName
* See {@link #getSourceName()} for the meaning. Can be {@code null}, in which case
* {@link #getSourceName()} will return the same as {@link #getName()}.
* @param reader
* The character stream to read from. It will always be closed ({@link Reader#close()}) by
* this method (this is for backward compatibility; later major versions may discontinue this behavior).
* The {@link Reader} need not be buffered, because this method ensures that it will be read in few
* kilobyte chunks, not byte by byte.
* @param cfg
* The Configuration object that this Template is associated with. If this is {@code null}, the "default"
* {@link Configuration} object is used, which is highly discouraged, because it can easily lead to
* erroneous, unpredictable behavior. (See more {@link Configuration#getDefaultConfiguration() here...})
*
* @since 2.3.22
*/
public Template(
String name, String sourceName, Reader reader, Configuration cfg) throws IOException {
this(name, sourceName, reader, cfg, null);
}
/**
* Same as {@link #Template(String, String, Reader, Configuration)}, but also specifies the template's encoding (not
* recommended).
*
* @param encoding
* This is the encoding that we are supposed to be using. At the first glance it's unnecessary because we
* already have a {@link Reader} (so decoding with the charset has already happened), however, if this is
* non-{@code null} and there's an {@code #ftl} header with {@code encoding} parameter, they must match,
* or else a {@link WrongEncodingException} is thrown. Thus, it should be set if to decode the template,
* we were using an encoding (a charset), otherwise it should be {@code null}. It's also kept as
* meta-info (returned by {@link #getEncoding()}). It also has an impact when {@code #include}-ing or
* {@code #import}-ing another template from this template, as its default encoding will be this. But
* this behavior of said directives is considered to be harmful, and will be probably phased out.
*
* @since 2.3.22
*/
public Template(
String name, String sourceName, Reader reader, Configuration cfg, String encoding) throws IOException {
this(name, sourceName, reader, cfg, null, encoding);
}
/**
* Same as {@link #Template(String, String, Reader, Configuration, String)}, but also specifies a
* {@link TemplateConfiguration}. This is mostly meant to be used by FreeMarker internally, but advanced users might
* still find this useful.
*
* @param customParserConfiguration
* Overrides the parsing related configuration settings of the {@link Configuration} parameter; can be
* {@code null}. This is useful as the {@link Configuration} is normally a singleton shared by all
* templates, and so it's not good for specifying template-specific settings. (While {@link Template}
* itself has methods to specify settings just for that template, those don't influence the parsing, and
* you only have opportunity to call them after the parsing anyway.) This objects is often a
* {@link TemplateConfiguration} whose parent is the {@link Configuration} parameter, and then it
* practically just overrides some of the parser settings, as the others are inherited from the
* {@link Configuration}. Note that if this is a {@link TemplateConfiguration}, you will also want to
* call {@link TemplateConfiguration#apply(Template)} on the resulting {@link Template} so that
* {@link Configurable} settings will be set too, because this constructor only uses it as a
* {@link ParserConfiguration}.
* @param encoding
* Same as in {@link #Template(String, String, Reader, Configuration, String)}. When it's non-{@code
* null}, it overrides the value coming from the {@link TemplateConfiguration#getEncoding()} method of
* the {@code templateConfiguration} parameter.
*
* @since 2.3.24
*/
public Template(
String name, String sourceName, Reader reader,
Configuration cfg, ParserConfiguration customParserConfiguration,
String encoding) throws IOException {
this(name, sourceName, cfg, customParserConfiguration);
this.setEncoding(encoding);
LineTableBuilder ltbReader;
try {
ParserConfiguration actualParserConfiguration = getParserConfiguration();
if (!(reader instanceof BufferedReader) && !(reader instanceof StringReader)) {
reader = new BufferedReader(reader, READER_BUFFER_SIZE);
}
ltbReader = new LineTableBuilder(reader, actualParserConfiguration);
reader = ltbReader;
try {
FMParser parser = new FMParser(this, reader, actualParserConfiguration);
if (cfg != null) {
_CoreAPI.setPreventStrippings(parser, cfg.getPreventStrippings());
}
try {
this.rootElement = parser.Root();
} catch (IndexOutOfBoundsException exc) {
// There's a JavaCC bug where the Reader throws a RuntimeExcepton and then JavaCC fails with
// IndexOutOfBoundsException. If that wasn't the case, we just rethrow. Otherwise we suppress the
// IndexOutOfBoundsException and let the real cause to be thrown later.
if (!ltbReader.hasFailure()) {
throw exc;
}
rootElement = null;
}
this.actualTagSyntax = parser._getLastTagSyntax();
this.interpolationSyntax = actualParserConfiguration.getInterpolationSyntax();
this.actualNamingConvention = parser._getLastNamingConvention();
} catch (TokenMgrError exc) {
// TokenMgrError VS ParseException is not an interesting difference for the user, so we just convert it
// to ParseException
throw exc.toParseException(this);
}
} catch (ParseException e) {
e.setTemplateName(getSourceName());
throw e;
} finally {
reader.close();
}
// Throws any exception that JavaCC has silently treated as EOF:
ltbReader.throwFailure();
DebuggerService.registerTemplate(this);
namespaceURIToPrefixLookup = Collections.unmodifiableMap(namespaceURIToPrefixLookup);
prefixToNamespaceURILookup = Collections.unmodifiableMap(prefixToNamespaceURILookup);
}
/**
* Equivalent to {@link #Template(String, Reader, Configuration)
* Template(name, reader, null)}.
*
* @deprecated This constructor uses the "default" {@link Configuration}
* instance, which can easily lead to erroneous, unpredictable behavior.
* See more {@link Configuration#getDefaultConfiguration() here...}.
*/
@Deprecated
public Template(String name, Reader reader) throws IOException {
this(name, reader, null);
}
/**
* Only meant to be used internally.
*
* @deprecated Has problems setting actualTagSyntax and templateLanguageVersion; will be removed in 2.4.
*/
@Deprecated
// [2.4] remove this
Template(String name, TemplateElement root, Configuration cfg) {
this(name, null, cfg, (ParserConfiguration) null);
this.rootElement = root;
DebuggerService.registerTemplate(this);
}
/**
* Same as {@link #getPlainTextTemplate(String, String, String, Configuration)} with {@code null} {@code sourceName}
* argument.
*/
static public Template getPlainTextTemplate(String name, String content, Configuration config) {
return getPlainTextTemplate(name, null, content, config);
}
/**
* Creates (not "get"-s) a {@link Template} that only contains a single block of static text, no dynamic content.
*
* @param name
* See {@link #getName} for more details.
* @param sourceName
* See {@link #getSourceName} for more details. If {@code null}, it will be the same as the {@code name}.
* @param content
* the block of text that this template represents
* @param config
* the configuration to which this template belongs
*
* @since 2.3.22
*/
static public Template getPlainTextTemplate(String name, String sourceName, String content, Configuration config) {
Template template;
try {
template = new Template(name, sourceName, new StringReader("X"), config);
} catch (IOException e) {
throw new BugException("Plain text template creation failed", e);
}
_CoreAPI.replaceText((TextBlock) template.rootElement, content);
DebuggerService.registerTemplate(template);
return template;
}
private static Version normalizeTemplateLanguageVersion(Version incompatibleImprovements) {
_TemplateAPI.checkVersionNotNullAndSupported(incompatibleImprovements);
int v = incompatibleImprovements.intValue();
if (v < _VersionInts.V_2_3_19) {
return Configuration.VERSION_2_3_0;
} else if (v > _VersionInts.V_2_3_21) {
return Configuration.VERSION_2_3_21;
} else { // if 2.3.19 or 2.3.20 or 2.3.21
return incompatibleImprovements;
}
}
/**
* Executes template, using the data-model provided, writing the generated output to the supplied {@link Writer}.
*
*
* For finer control over the runtime environment setup, such as per-HTTP-request configuring of FreeMarker
* settings, you may need to use {@link #createProcessingEnvironment(Object, Writer)} instead.
*
* @param dataModel
* the holder of the variables visible from the template (name-value pairs); usually a
* {@code Map} or a JavaBean (where the JavaBean properties will be the variables). Can
* be any object that the {@link ObjectWrapper} in use turns into a {@link TemplateHashModel}. You can
* also use an object that already implements {@link TemplateHashModel}; in that case it won't be
* wrapped. If it's {@code null}, an empty data model is used.
* @param out
* The {@link Writer} where the output of the template will go. Note that unless you have used
* {@link Configuration#setAutoFlush(boolean)} to disable this, {@link Writer#flush()} will be called at
* the when the template processing was finished. {@link Writer#close()} is not called. Can't be
* {@code null}.
*
* @throws TemplateException
* if an exception occurs during template processing
* @throws IOException
* if an I/O exception occurs during writing to the writer.
*/
public void process(Object dataModel, Writer out)
throws TemplateException, IOException {
createProcessingEnvironment(dataModel, out, null).process();
}
/**
* Like {@link #process(Object, Writer)}, but also sets a (XML-)node to be recursively processed by the template.
* That node is accessed in the template with .node, #recurse, etc. See the
* Declarative XML Processing as a
* typical example of recursive node processing.
*
* @param rootNode The root node for recursive processing or {@code null}.
*
* @throws TemplateException if an exception occurs during template processing
* @throws IOException if an I/O exception occurs during writing to the writer.
*/
public void process(Object dataModel, Writer out, ObjectWrapper wrapper, TemplateNodeModel rootNode)
throws TemplateException, IOException {
Environment env = createProcessingEnvironment(dataModel, out, wrapper);
if (rootNode != null) {
env.setCurrentVisitorNode(rootNode);
}
env.process();
}
/**
* Like {@link #process(Object, Writer)}, but overrides the {@link Configuration#getObjectWrapper()}.
*
* @param wrapper The {@link ObjectWrapper} to be used instead of what {@link Configuration#getObjectWrapper()}
* provides, or {@code null} if you don't want to override that.
*/
public void process(Object dataModel, Writer out, ObjectWrapper wrapper)
throws TemplateException, IOException {
createProcessingEnvironment(dataModel, out, wrapper).process();
}
/**
* Creates a {@link freemarker.core.Environment Environment} object, using this template, the data-model provided as
* parameter. You have to call {@link Environment#process()} on the return value to set off the actual rendering.
*
* Use this method if you want to do some special initialization on the {@link Environment} before template
* processing, or if you want to read the {@link Environment} after template processing. Otherwise using
* {@link Template#process(Object, Writer)} is simpler.
*
*
Example:
*
*
* Environment env = myTemplate.createProcessingEnvironment(root, out, null);
* env.process();
*
* The above is equivalent with this:
*
*
* myTemplate.process(root, out);
*
* But with createProcessingEnvironment, you can manipulate the environment
* before and after the processing:
*
*
* Environment env = myTemplate.createProcessingEnvironment(root, out);
*
* env.setLocale(myUsersPreferredLocale);
* env.setTimeZone(myUsersPreferredTimezone);
*
* env.process(); // output is rendered here
*
* TemplateModel x = env.getVariable("x"); // read back a variable set by the template
*
* @param dataModel the holder of the variables visible from all templates; see {@link #process(Object, Writer)} for
* more details.
* @param wrapper The {@link ObjectWrapper} to use to wrap objects into {@link TemplateModel}
* instances. Normally you left it {@code null}, in which case {@link Configurable#getObjectWrapper()} will be
* used.
* @param out The {@link Writer} where the output of the template will go; see {@link #process(Object, Writer)} for
* more details.
*
* @return the {@link Environment} object created for processing. Call {@link Environment#process()} to process the
* template.
*
* @throws TemplateException if an exception occurs while setting up the Environment object.
* @throws IOException if an exception occurs doing any auto-imports
*/
public Environment createProcessingEnvironment(Object dataModel, Writer out, ObjectWrapper wrapper)
throws TemplateException, IOException {
final TemplateHashModel dataModelHash;
if (dataModel instanceof TemplateHashModel) {
dataModelHash = (TemplateHashModel) dataModel;
} else {
if (wrapper == null) {
wrapper = getObjectWrapper();
}
if (dataModel == null) {
dataModelHash = new SimpleHash(wrapper);
} else {
TemplateModel wrappedDataModel = wrapper.wrap(dataModel);
if (wrappedDataModel instanceof TemplateHashModel) {
dataModelHash = (TemplateHashModel) wrappedDataModel;
} else if (wrappedDataModel == null) {
throw new IllegalArgumentException(
wrapper.getClass().getName() + " converted " + dataModel.getClass().getName() + " to null.");
} else {
throw new IllegalArgumentException(
wrapper.getClass().getName() + " didn't convert " + dataModel.getClass().getName()
+ " to a TemplateHashModel. Generally, you want to use a Map or a "
+ "JavaBean as the root-map (aka. data-model) parameter. The Map key-s or JavaBean "
+ "property names will be the variable names in the template.");
}
}
}
return new Environment(this, dataModelHash, out);
}
/**
* Same as {@link #createProcessingEnvironment(Object, Writer, ObjectWrapper)
* createProcessingEnvironment(dataModel, out, null)}.
*/
public Environment createProcessingEnvironment(Object dataModel, Writer out)
throws TemplateException, IOException {
return createProcessingEnvironment(dataModel, out, null);
}
/**
* Returns a string representing the raw template
* text in canonical form.
*/
@Override
public String toString() {
StringWriter sw = new StringWriter();
try {
dump(sw);
} catch (IOException ioe) {
throw new RuntimeException(ioe.getMessage());
}
return sw.toString();
}
/**
* The usually path-like (or URL-like) identifier of the template, or possibly {@code null} for non-stored
* templates. It usually looks like a relative UN*X path; it should use {@code /}, not {@code \}, and shouldn't
* start with {@code /} (but there are no hard guarantees). It's not a real path in a file-system, it's just a name
* that a {@link TemplateLoader} used to load the backing resource (in simple cases; actually that name is
* {@link #getSourceName()}, but see it there). Or, it can also be a name that was never used to load the template
* (directly created with {@link #Template(String, Reader, Configuration)}). Even if the templates are stored
* straightforwardly in files, this is relative to the base directory of the {@link TemplateLoader}. So it really
* could be anything, except that it has importance in these situations:
*
*
* Relative paths to other templates in this template will be resolved relatively to the directory part of this.
* Like if the template name is {@code "foo/this.ftl"}, then {@code <#include "other.ftl">} gets the template with
* name {@code "foo/other.ftl"}.
*
*
*
* You should not use this name to indicate error locations, or to find the actual templates in general, because
* localized lookup, acquisition and other lookup strategies can transform names before they get to the
* {@link TemplateLoader} (the template storage) mechanism. Use {@link #getSourceName()} for these purposes.
*
*
*
* Some frameworks use URL-like template names like {@code "someSchema://foo/bar.ftl"}. FreeMarker understands this
* notation, so an absolute path like {@code "/baaz.ftl"} in that template will be resolved too
* {@code "someSchema://baaz.ftl"}.
*/
public String getName() {
return name;
}
/**
* The name that was actually used to load this template from the {@link TemplateLoader} (or from other custom
* storage mechanism). This is what should be shown in error messages as the error location. This is usually the
* same as {@link #getName()}, except when localized lookup, template acquisition ({@code *} step in the name), or
* other {@link TemplateLookupStrategy} transforms the requested name ({@link #getName()}) to a different final
* {@link TemplateLoader}-level name. For example, when you get a template with name {@code "foo.ftl"} then because
* of localized lookup, it's possible that something like {@code "foo_en.ftl"} will be loaded behind the scenes.
* While the template name will be still the same as the requested template name ({@code "foo.ftl"}), errors should
* point to {@code "foo_de.ftl"}. Note that relative paths are always resolved relatively to the {@code name}, not
* to the {@code sourceName}.
*
* @since 2.3.22
*/
public String getSourceName() {
return sourceName != null ? sourceName : getName();
}
/**
* Returns the Configuration object associated with this template.
*/
public Configuration getConfiguration() {
return (Configuration) getParent();
}
/**
* Returns the {@link ParserConfiguration} that was used for parsing this template. This is most often the same
* object as {@link #getConfiguration()}, but sometimes it's a {@link TemplateConfiguration}, or something else.
* It's never {@code null}.
*
* @since 2.3.24
*/
public ParserConfiguration getParserConfiguration() {
return parserConfiguration;
}
/**
* Return the template language (FTL) version used by this template.
* For now (2.3.21) this is the same as {@link Configuration#getIncompatibleImprovements()}, except
* that it's normalized to the lowest version where the template language was changed.
*/
Version getTemplateLanguageVersion() {
return templateLanguageVersion;
}
/**
* @param encoding
* The encoding that was used to read this template. When this template {@code #include}-s or
* {@code #import}-s another template, by default it will use this encoding for those. For backward
* compatibility, this can be {@code null}, which will unset this setting.
*
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public void setEncoding(String encoding) {
this.encoding = encoding;
}
/**
* The encoding that was (allegedly) used to read this template; also the the default character encoding used for
* reading files included from this template. Possibly {@code null}, in which case you are supposed to use
* {@link Configuration#getEncoding(Locale)}.
*/
public String getEncoding() {
return this.encoding;
}
/**
* Gets the custom lookup condition with which this template was found. See the {@code customLookupCondition}
* parameter of {@link Configuration#getTemplate(String, java.util.Locale, Object, String, boolean, boolean)} for
* more explanation.
*
* @since 2.3.22
*/
public Object getCustomLookupCondition() {
return customLookupCondition;
}
/**
* Mostly only used internally; setter pair of {@link #getCustomLookupCondition()}. This meant to be called directly
* after instantiating the template with its constructor, after a successfull lookup that used this condition. So
* this should only be called from code that deals with creating new {@code Template} objects, like from
* {@link TemplateCache}.
*
* @since 2.3.22
*/
public void setCustomLookupCondition(Object customLookupCondition) {
this.customLookupCondition = customLookupCondition;
}
/**
* Returns the tag syntax the parser has chosen for this template. If the syntax could be determined, it's
* {@link Configuration#SQUARE_BRACKET_TAG_SYNTAX} or {@link Configuration#ANGLE_BRACKET_TAG_SYNTAX}. If the syntax
* couldn't be determined (like because there was no tags in the template, or it was a plain text template), this
* returns whatever the default is in the current configuration, so it's maybe
* {@link Configuration#AUTO_DETECT_TAG_SYNTAX}.
*
* @see Configuration#setTagSyntax(int)
*
* @since 2.3.20
*/
public int getActualTagSyntax() {
return actualTagSyntax;
}
/**
* Returns the interpolation syntax the parser has used for this template. Because the interpolation syntax is
* never auto-detected, it's not called "getActualInterpolationSyntax" (unlike {@link #getActualTagSyntax()}).
*
* @return A constant like {@link Configuration#LEGACY_INTERPOLATION_SYNTAX},
* {@link Configuration#DOLLAR_INTERPOLATION_SYNTAX}, or
* {@link Configuration#SQUARE_BRACKET_INTERPOLATION_SYNTAX}.
*
* @see Configuration#setInterpolationSyntax(int)
*
* @since 2.3.28
*/
public int getInterpolationSyntax() {
return interpolationSyntax;
}
/**
* Returns the naming convention the parser has chosen for this template. If it could be determined, it's
* {@link Configuration#LEGACY_NAMING_CONVENTION} or {@link Configuration#CAMEL_CASE_NAMING_CONVENTION}. If it
* couldn't be determined (like because there no identifier that's part of the template language was used where
* the naming convention matters), this returns whatever the default is in the current configuration, so it's maybe
* {@link Configuration#AUTO_DETECT_TAG_SYNTAX}.
*
* @see Configuration#setNamingConvention(int)
*
* @since 2.3.23
*/
public int getActualNamingConvention() {
return actualNamingConvention;
}
/**
* Returns the output format (see {@link Configuration#setOutputFormat(OutputFormat)}) used for this template.
* The output format of a template can come from various places, in order of increasing priority:
* {@link Configuration#getOutputFormat()}, {@link ParserConfiguration#getOutputFormat()} (which is usually
* provided by {@link Configuration#getTemplateConfigurations()}) and the {@code #ftl} header's {@code output_format}
* option in the template.
*
* @since 2.3.24
*/
public OutputFormat getOutputFormat() {
return outputFormat;
}
/**
* Meant to be called by the parser only.
*/
void setOutputFormat(OutputFormat outputFormat) {
this.outputFormat = outputFormat;
}
/**
* Returns if the template actually uses auto-escaping (see {@link Configuration#setAutoEscapingPolicy(int)}). This value
* is decided by the parser based on the actual {@link OutputFormat}, and the auto-escaping enums, in order of
* increasing priority: {@link Configuration#getAutoEscapingPolicy()}, {@link ParserConfiguration#getAutoEscapingPolicy()}
* (which is usually provided by {@link Configuration#getTemplateConfigurations()}), and finally on the {@code #ftl}
* header's {@code auto_esc} option in the template.
*
* @since 2.3.24
*/
public boolean getAutoEscaping() {
return autoEscaping;
}
/**
* Meant to be called by the parser only.
*/
void setAutoEscaping(boolean autoEscaping) {
this.autoEscaping = autoEscaping;
}
/**
* Dump the raw template in canonical form.
*/
public void dump(PrintStream ps) {
ps.print(rootElement.getCanonicalForm());
}
/**
* Dump the raw template in canonical form.
*/
public void dump(Writer out) throws IOException {
out.write(rootElement.getCanonicalForm());
}
/**
* Called by code internally to maintain a table of macros
*
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public void addMacro(Macro macro) {
macros.put(macro.getName(), macro);
}
/**
* Called by code internally to maintain a list of imports
*
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public void addImport(LibraryLoad ll) {
imports.add(ll);
}
/**
* Returns the template source at the location specified by the coordinates given, or {@code null} if unavailable.
* A strange legacy in the behavior of this method is that it replaces tab characters with spaces according the
* value of {@link Template#getParserConfiguration()}/{@link ParserConfiguration#getTabSize()} (which usually
* comes from {@link Configuration#getTabSize()}), because tab characters move the column number with more than
* 1 in error messages. However, if you set the tab size to 1, this method leaves the tab characters as is.
*
* @param beginColumn the first column of the requested source, 1-based
* @param beginLine the first line of the requested source, 1-based
* @param endColumn the last column of the requested source, 1-based
* @param endLine the last line of the requested source, 1-based
*
* @see freemarker.core.TemplateObject#getSource()
*/
public String getSource(int beginColumn,
int beginLine,
int endColumn,
int endLine) {
if (beginLine < 1 || endLine < 1) return null; // dynamically ?eval-ed expressions has no source available
// Our container is zero-based.
--beginLine;
--beginColumn;
--endColumn;
--endLine;
StringBuilder buf = new StringBuilder();
for (int i = beginLine ; i <= endLine; i++) {
if (i < lines.size()) {
buf.append(lines.get(i));
}
}
int lastLineLength = lines.get(endLine).toString().length();
int trailingCharsToDelete = lastLineLength - endColumn - 1;
buf.delete(0, beginColumn);
buf.delete(buf.length() - trailingCharsToDelete, buf.length());
return buf.toString();
}
/**
* Reader that builds up the line table info for us, and also helps in working around JavaCC's exception
* suppression.
*/
private class LineTableBuilder extends FilterReader {
private final int tabSize;
private final StringBuilder lineBuf = new StringBuilder();
int lastChar;
boolean closed;
/** Needed to work around JavaCC behavior where it silently treats any errors as EOF. */
private Exception failure;
/**
* @param r the character stream to wrap
*/
LineTableBuilder(Reader r, ParserConfiguration parserConfiguration) {
super(r);
tabSize = parserConfiguration.getTabSize();
}
public boolean hasFailure() {
return failure != null;
}
public void throwFailure() throws IOException {
if (failure != null) {
if (failure instanceof IOException) {
throw (IOException) failure;
}
if (failure instanceof RuntimeException) {
throw (RuntimeException) failure;
}
throw new UndeclaredThrowableException(failure);
}
}
@Override
public int read() throws IOException {
try {
int c = in.read();
handleChar(c);
return c;
} catch (Exception e) {
throw rememberException(e);
}
}
private IOException rememberException(Exception e) throws IOException {
// JavaCC used to read from the Reader after it was closed. So we must not treat that as a failure.
if (!closed) {
failure = e;
}
if (e instanceof IOException) {
return (IOException) e;
}
if (e instanceof RuntimeException) {
throw (RuntimeException) e;
}
throw new UndeclaredThrowableException(e);
}
@Override
public int read(char cbuf[], int off, int len) throws IOException {
try {
int numchars = in.read(cbuf, off, len);
for (int i = off; i < off + numchars; i++) {
char c = cbuf[i];
handleChar(c);
}
return numchars;
} catch (Exception e) {
throw rememberException(e);
}
}
@Override
public void close() throws IOException {
if (lineBuf.length() > 0) {
lines.add(lineBuf.toString());
lineBuf.setLength(0);
}
super.close();
closed = true;
}
private void handleChar(int c) {
if (c == '\n' || c == '\r') {
if (lastChar == '\r' && c == '\n') { // CRLF under Windoze
int lastIndex = lines.size() - 1;
String lastLine = (String) lines.get(lastIndex);
lines.set(lastIndex, lastLine + '\n');
} else {
lineBuf.append((char) c);
lines.add(lineBuf.toString());
lineBuf.setLength(0);
}
} else if (c == '\t' && tabSize != 1) {
int numSpaces = tabSize - (lineBuf.length() % tabSize);
for (int i = 0; i < numSpaces; i++) {
lineBuf.append(' ');
}
} else {
lineBuf.append((char) c);
}
lastChar = c;
}
}
/**
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public TemplateElement getRootTreeNode() {
return rootElement;
}
/**
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public Map getMacros() {
return macros;
}
/**
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public List getImports() {
return imports;
}
/**
* This is used internally.
*
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public void addPrefixNSMapping(String prefix, String nsURI) {
if (nsURI.length() == 0) {
throw new IllegalArgumentException("Cannot map empty string URI");
}
if (prefix.length() == 0) {
throw new IllegalArgumentException("Cannot map empty string prefix");
}
if (prefix.equals(NO_NS_PREFIX)) {
throw new IllegalArgumentException("The prefix: " + prefix + " cannot be registered, it's reserved for special internal use.");
}
if (prefixToNamespaceURILookup.containsKey(prefix)) {
throw new IllegalArgumentException("The prefix: '" + prefix + "' was repeated. This is illegal.");
}
if (namespaceURIToPrefixLookup.containsKey(nsURI)) {
throw new IllegalArgumentException("The namespace URI: " + nsURI + " cannot be mapped to 2 different prefixes.");
}
if (prefix.equals(DEFAULT_NAMESPACE_PREFIX)) {
this.defaultNS = nsURI;
} else {
prefixToNamespaceURILookup.put(prefix, nsURI);
namespaceURIToPrefixLookup.put(nsURI, prefix);
}
}
public String getDefaultNS() {
return this.defaultNS;
}
/**
* @return the NamespaceUri mapped to this prefix in this template. (Or null if there is none.)
*/
public String getNamespaceForPrefix(String prefix) {
if (prefix.equals("")) {
return defaultNS == null ? "" : defaultNS;
}
return (String) prefixToNamespaceURILookup.get(prefix);
}
/**
* @return the prefix mapped to this nsURI in this template. (Or null if there is none.)
*/
public String getPrefixForNamespace(String nsURI) {
if (nsURI == null) {
return null;
}
if (nsURI.length() == 0) {
return defaultNS == null ? "" : NO_NS_PREFIX;
}
if (nsURI.equals(defaultNS)) {
return "";
}
return (String) namespaceURIToPrefixLookup.get(nsURI);
}
/**
* @return the prefixed name, based on the ns_prefixes defined
* in this template's header for the local name and node namespace
* passed in as parameters.
*/
public String getPrefixedName(String localName, String nsURI) {
if (nsURI == null || nsURI.length() == 0) {
if (defaultNS != null) {
return NO_NS_PREFIX + ":" + localName;
} else {
return localName;
}
}
if (nsURI.equals(defaultNS)) {
return localName;
}
String prefix = getPrefixForNamespace(nsURI);
if (prefix == null) {
return null;
}
return prefix + ":" + localName;
}
/**
* @return an array of the {@link TemplateElement}s containing the given column and line numbers.
* @deprecated Should only be used internally, and might will be removed later.
*/
@Deprecated
public TreePath containingElements(int column, int line) {
final ArrayList elements = new ArrayList();
TemplateElement element = rootElement;
mainloop: while (element.contains(column, line)) {
elements.add(element);
for (Enumeration enumeration = element.children(); enumeration.hasMoreElements(); ) {
TemplateElement elem = (TemplateElement) enumeration.nextElement();
if (elem.contains(column, line)) {
element = elem;
continue mainloop;
}
}
break;
}
if (elements.isEmpty()) {
return null;
}
return new TreePath(elements.toArray());
}
/**
* Thrown by the {@link Template} constructors that specify a non-{@code null} encoding whoch doesn't match the
* encoding specified in the {@code #ftl} header of the template.
*/
static public class WrongEncodingException extends ParseException {
private static final long serialVersionUID = 1L;
/** @deprecated Use {@link #getTemplateSpecifiedEncoding()} instead. */
@Deprecated
public String specifiedEncoding;
private final String constructorSpecifiedEncoding;
/**
* @deprecated Use {@link #WrongEncodingException(String, String)}.
*/
@Deprecated
public WrongEncodingException(String templateSpecifiedEncoding) {
this(templateSpecifiedEncoding, null);
}
/**
* @since 2.3.22
*/
public WrongEncodingException(String templateSpecifiedEncoding, String constructorSpecifiedEncoding) {
this.specifiedEncoding = templateSpecifiedEncoding;
this.constructorSpecifiedEncoding = constructorSpecifiedEncoding;
}
@Override
public String getMessage() {
return "Encoding specified inside the template (" + specifiedEncoding
+ ") doesn't match the encoding specified for the Template constructor"
+ (constructorSpecifiedEncoding != null ? " (" + constructorSpecifiedEncoding + ")." : ".");
}
/**
* @since 2.3.22
*/
public String getTemplateSpecifiedEncoding() {
return specifiedEncoding;
}
/**
* @since 2.3.22
*/
public String getConstructorSpecifiedEncoding() {
return constructorSpecifiedEncoding;
}
}
}