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/******************************************************************************
*
* Copyright (C) 1997-2015 by Dimitri van Heesch.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation under the terms of the GNU General Public License is hereby
* granted. No representations are made about the suitability of this software
* for any purpose. It is provided "as is" without express or implied warranty.
* See the GNU General Public License for more details.
*
* Documents produced by Doxygen are derivative works derived from the
* input used in their production; they are not affected by this license.
*
*/
#ifndef TEMPLATE_H
#define TEMPLATE_H
#include <qcstring.h>
#include <qvaluelist.h>
class FTextStream;
class TemplateListIntf;
class TemplateStructIntf;
class TemplateEngine;
/** @defgroup template_api Template API
*
* This is the API for a
* <a href="https://docs.djangoproject.com/en/1.6/topics/templates/">Django</a>
* compatible template system written in C++.
* It is somewhat inspired by Stephen Kelly's
* <a href="http://www.gitorious.org/grantlee/pages/Home">Grantlee</a>.
*
* A template is simply a text file.
* A template contains \b variables, which get replaced with values when the
* template is evaluated, and \b tags, which control the logic of the template.
*
* Variables look like this: `{{ variable }}`
* When the template engine encounters a variable, it evaluates that variable and
* replaces it with the result. Variable names consist of any combination of
* alphanumeric characters and the underscore ("_").
* Use a dot (.) to access attributes of a structured variable.
*
* One can modify variables for display by using \b filters, for example:
* `{{ value|default:"nothing" }}`
*
* Tags look like this: `{% tag %}`. Tags are more complex than variables:
* Some create text in the output, some control flow by performing loops or logic,
* and some load external information into the template to be used by later variables.
*
* To comment-out part of a line in a template, use the comment syntax:
* `{# comment text #}`.
*
* Supported Django tags:
* - `for ... empty ... endfor`
* - `if ... else ... endif`
* - `block ... endblock`
* - `extend`
* - `include`
* - `with ... endwith`
* - `spaceless ... endspaceless`
* - `cycle`
*
* Extension tags:
* - `create` which instantiates a template and writes the result to a file.
* The syntax is `{% create 'filename' from 'template' %}`.
* - `recursetree`
* - `markers`
* - `msg` ... `endmsg`
* - `set`
*
* Supported Django filters:
* - `default`
* - `length`
* - `add`
* - `divisibleby`
*
* Extension filters:
* - `stripPath`
* - `nowrap`
* - `prepend`
* - `append`
*
* @{
*/
/** @brief Variant type which can hold one value of a fixed set of types. */
class TemplateVariant
{
public:
/** @brief Helper class to create a delegate that can store a function/method call. */
class Delegate
{
public:
/** Callback type to use when creating a delegate from a function. */
typedef TemplateVariant (*StubType)(const void *obj, const QValueList<TemplateVariant> &args);
Delegate() : m_objectPtr(0) , m_stubPtr(0) {}
/** Creates a delegate given an object. The method to call is passed as a template parameter */
template <class T, TemplateVariant (T::*TMethod)(const QValueList<TemplateVariant> &) const>
static Delegate fromMethod(const T* objectPtr)
{
Delegate d;
d.m_objectPtr = objectPtr;
d.m_stubPtr = &methodStub<T, TMethod>;
return d;
}
/** Creates a delegate given an object, and a plain function. */
static Delegate fromFunction(const void *obj,StubType func)
{
Delegate d;
d.m_objectPtr = obj;
d.m_stubPtr = func;
return d;
}
/** Invokes the function/method stored in the delegate */
TemplateVariant operator()(const QValueList<TemplateVariant> &args) const
{
return (*m_stubPtr)(m_objectPtr, args);
}
private:
const void* m_objectPtr;
StubType m_stubPtr;
template <class T, TemplateVariant (T::*TMethod)(const QValueList<TemplateVariant> &) const>
static TemplateVariant methodStub(const void* objectPtr, const QValueList<TemplateVariant> &args)
{
T* p = (T*)(objectPtr);
return (p->*TMethod)(args);
}
};
/** Types of data that can be stored in a TemplateVariant */
enum Type { None, Bool, Integer, String, Struct, List, Function };
/** Returns the type of the value stored in the variant */
Type type() const { return m_type; }
/** Return a string representation of the type of the value stored in the variant */
QCString typeAsString() const
{
switch (m_type)
{
case None: return "none";
case Bool: return "bool";
case Integer: return "integer";
case String: return "string";
case Struct: return "struct";
case List: return "list";
case Function: return "function";
}
return "invalid";
}
/** Returns TRUE if the variant holds a valid value, or FALSE otherwise */
bool isValid() const { return m_type!=None; }
/** Constructs an invalid variant. */
TemplateVariant() : m_type(None), m_strukt(0), m_raw(FALSE) {}
/** Constructs a new variant with a boolean value \a b. */
explicit TemplateVariant(bool b) : m_type(Bool), m_boolVal(b), m_raw(FALSE) {}
/** Constructs a new variant with a integer value \a v. */
TemplateVariant(int v) : m_type(Integer), m_intVal(v), m_raw(FALSE) {}
/** Constructs a new variant with a string value \a s. */
TemplateVariant(const char *s,bool raw=FALSE) : m_type(String), m_strVal(s), m_strukt(0), m_raw(raw) {}
/** Constructs a new variant with a string value \a s. */
TemplateVariant(const QCString &s,bool raw=FALSE) : m_type(String), m_strVal(s), m_strukt(0), m_raw(raw) {}
/** Constructs a new variant with a struct value \a s.
* @note. The variant will hold a reference to the object.
*/
TemplateVariant(TemplateStructIntf *s);
/** Constructs a new variant with a list value \a l.
* @note. The variant will hold a reference to the object.
*/
TemplateVariant(TemplateListIntf *l);
/** Constructs a new variant which represents a method call
* @param[in] delegate Delegate object to invoke when
* calling call() on this variant.
* @note Use TemplateVariant::Delegate::fromMethod() and
* TemplateVariant::Delegate::fromFunction() to create
* Delegate objects.
*/
TemplateVariant(const Delegate &delegate) : m_type(Function), m_strukt(0), m_delegate(delegate), m_raw(FALSE) {}
/** Destroys the Variant object */
~TemplateVariant();
/** Constructs a copy of the variant, \a v,
* passed as the argument to this constructor.
*/
TemplateVariant(const TemplateVariant &v);
/** Assigns the value of the variant \a v to this variant. */
TemplateVariant &operator=(const TemplateVariant &v);
/** Compares this QVariant with v and returns true if they are equal;
* otherwise returns false.
*/
bool operator==(TemplateVariant &other)
{
if (m_type==None)
{
return FALSE;
}
if (m_type==TemplateVariant::List && other.m_type==TemplateVariant::List)
{
return m_list==other.m_list; // TODO: improve me
}
else if (m_type==TemplateVariant::Struct && other.m_type==TemplateVariant::Struct)
{
return m_strukt==other.m_strukt; // TODO: improve me
}
else
{
return toString()==other.toString();
}
}
/** Returns the variant as a string. */
QCString toString() const
{
switch (m_type)
{
case None: return QCString();
case Bool: return m_boolVal ? "true" : "false";
case Integer: return QCString().setNum(m_intVal);
case String: return m_strVal;
case Struct: return "[struct]";
case List: return "[list]";
case Function: return "[function]";
}
return QCString();
}
/** Returns the variant as a boolean. */
bool toBool() const;
/** Returns the variant as an integer. */
int toInt() const;
/** Returns the pointer to list referenced by this variant
* or 0 if this variant does not have list type.
*/
TemplateListIntf *toList() const
{
return m_type==List ? m_list : 0;
}
/** Returns the pointer to struct referenced by this variant
* or 0 if this variant does not have struct type.
*/
TemplateStructIntf *toStruct() const
{
return m_type==Struct ? m_strukt : 0;
}
/** Return the result of apply this function with \a args.
* Returns an empty string if the variant type is not a function.
*/
TemplateVariant call(const QValueList<TemplateVariant> &args)
{
if (m_type==Function) return m_delegate(args);
return TemplateVariant();
}
/** Sets whether or not the value of the Variant should be
* escaped or written as-is (raw).
* @param[in] b TRUE means write as-is, FALSE means apply escaping.
*/
void setRaw(bool b) { m_raw = b; }
/** Returns whether or not the value of the Value is raw.
* @see setRaw()
*/
bool raw() const { return m_raw; }
private:
Type m_type;
QCString m_strVal;
union
{
int m_intVal;
bool m_boolVal;
TemplateStructIntf *m_strukt;
TemplateListIntf *m_list;
};
Delegate m_delegate;
bool m_raw;
};
//------------------------------------------------------------------------
template<class T> class TemplateAutoRef
{
public:
TemplateAutoRef(T *obj) : m_obj(obj)
{
m_obj->addRef();
}
~TemplateAutoRef()
{
m_obj->release();
}
T &operator*() const { return *m_obj; }
T *operator->() const { return m_obj; }
T *get() const { return m_obj; }
private:
T *m_obj;
};
//------------------------------------------------------------------------
/** @brief Abstract read-only interface for a context value of type list.
* @note The values of the list are TemplateVariants.
*/
class TemplateListIntf
{
public:
/** @brief Abstract interface for a iterator of a list. */
class ConstIterator
{
public:
/** Destructor for the iterator */
virtual ~ConstIterator() {}
/** Moves iterator to the first element in the list */
virtual void toFirst() = 0;
/** Moves iterator to the last element in the list */
virtual void toLast() = 0;
/** Moves iterator to the next element in the list */
virtual void toNext() = 0;
/** Moves iterator to the previous element in the list */
virtual void toPrev() = 0;
/* Returns TRUE if the iterator points to a valid element
* in the list, or FALSE otherwise.
* If TRUE is returned, the value pointed to be the
* iterator is assigned to \a v.
*/
virtual bool current(TemplateVariant &v) const = 0;
};
/** Destroys the list */
virtual ~TemplateListIntf() {}
/** Returns the number of elements in the list */
virtual int count() const = 0;
/** Returns the element at index position \a index. */
virtual TemplateVariant at(int index) const = 0;
/** Creates a new iterator for this list.
* @note the user should call delete on the returned pointer.
*/
virtual TemplateListIntf::ConstIterator *createIterator() const = 0;
/** Increase object's reference count */
virtual int addRef() = 0;
/** Decreases object's referenc count, destroy object if 0 */
virtual int release() = 0;
};
/** @brief Default implementation of a context value of type list. */
class TemplateList : public TemplateListIntf
{
public:
// TemplateListIntf methods
virtual int count() const;
virtual TemplateVariant at(int index) const;
virtual TemplateListIntf::ConstIterator *createIterator() const;
virtual int addRef();
virtual int release();
/** Creates an instance with ref count set to 0 */
static TemplateList *alloc();
/** Appends element \a v to the end of the list */
virtual void append(const TemplateVariant &v);
private:
/** Creates a list */
TemplateList();
/** Destroys the list */
~TemplateList();
friend class TemplateListConstIterator;
class Private;
Private *p;
};
//------------------------------------------------------------------------
/** @brief Abstract interface for a context value of type struct. */
class TemplateStructIntf
{
public:
/** Destroys the struct */
virtual ~TemplateStructIntf() {}
/** Gets the value for a field name.
* @param[in] name The name of the field.
*/
virtual TemplateVariant get(const char *name) const = 0;
/** Increase object's reference count */
virtual int addRef() = 0;
/** Decreases object's referenc count, destroy object if 0 */
virtual int release() = 0;
};
/** @brief Default implementation of a context value of type struct. */
class TemplateStruct : public TemplateStructIntf
{
public:
// TemplateStructIntf methods
virtual TemplateVariant get(const char *name) const;
virtual int addRef();
virtual int release();
/** Creates an instance with ref count set to 0. */
static TemplateStruct *alloc();
/** Sets the value the field of a struct
* @param[in] name The name of the field.
* @param[in] v The value to set.
*/
virtual void set(const char *name,const TemplateVariant &v);
private:
/** Creates a struct */
TemplateStruct();
/** Destroys the struct */
virtual ~TemplateStruct();
class Private;
Private *p;
};
//------------------------------------------------------------------------
/** @brief Interface used to escape characters in a string */
class TemplateEscapeIntf
{
public:
/** Returns the \a input after escaping certain characters */
virtual QCString escape(const QCString &input) = 0;
/** Setting tabbing mode on or off (for LaTeX) */
virtual void enableTabbing(bool b) = 0;
};
//------------------------------------------------------------------------
/** @brief Interface used to remove redundant spaces inside a spaceless block */
class TemplateSpacelessIntf
{
public:
/** Returns the \a input after removing redundant whitespace */
virtual QCString remove(const QCString &input) = 0;
/** Reset filter state */
virtual void reset() = 0;
};
//------------------------------------------------------------------------
/** @brief Abstract interface for a template context.
*
* A Context consists of a stack of dictionaries.
* A dictionary consists of a mapping of string keys onto TemplateVariant values.
* A key is searched starting with the dictionary at the top of the stack
* and searching downwards until it is found. The stack is used to create
* local scopes.
* @note This object must be created by TemplateEngine::createContext()
*/
class TemplateContext
{
public:
virtual ~TemplateContext() {}
/** Push a new scope on the stack. */
virtual void push() = 0;
/** Pop the current scope from the stack. */
virtual void pop() = 0;
/** Sets a value in the current scope.
* @param[in] name The name of the value; the key in the dictionary.
* @param[in] v The value associated with the key.
* @note When a given key is already present,
* its value will be replaced by \a v
*/
virtual void set(const char *name,const TemplateVariant &v) = 0;
/** Gets the value for a given key
* @param[in] name The name of key.
* @returns The value, which can be an invalid variant in case the
* key was not found.
*/
virtual TemplateVariant get(const QCString &name) const = 0;
/** Returns a pointer to the value corresponding to a given key.
* @param[in] name The name of key.
* @returns A pointer to the value, or 0 in case the key was not found.
*/
virtual const TemplateVariant *getRef(const QCString &name) const = 0;
/** When files are created (i.e. by {% create ... %}) they written
* to the directory \a dir.
*/
virtual void setOutputDirectory(const QCString &dir) = 0;
/** Sets the interface that will be used for escaping the result
* of variable expansion before writing it to the output.
*/
virtual void setEscapeIntf(const QCString &extension, TemplateEscapeIntf *intf) = 0;
/** Sets the interface that will be used inside a spaceless block
* to remove any redundant whitespace.
*/
virtual void setSpacelessIntf(TemplateSpacelessIntf *intf) = 0;
};
//------------------------------------------------------------------------
/** @brief Abstract interface for a template.
* @note Must be created and is deleted by the TemplateEngine
*/
class Template
{
public:
/** Destructor */
virtual ~Template() {}
/** Renders a template instance to a stream.
* @param[in] ts The text stream to write the results to.
* @param[in] c The context containing data that can be used
* when instantiating the template.
*/
virtual void render(FTextStream &ts,TemplateContext *c) = 0;
};
//------------------------------------------------------------------------
/** @brief Engine to create templates and template contexts. */
class TemplateEngine
{
public:
/** Create a template engine. */
TemplateEngine();
/** Destroys the template engine. */
~TemplateEngine();
/** Creates a new context that can be using to render a template.
* @see Template::render()
*/
TemplateContext *createContext() const;
/** Destroys a context created via createContext().
* @param[in] ctx The context.
*/
void destroyContext(TemplateContext *ctx);
/** Creates a new template whose contents are in a file.
* @param[in] fileName The name of the file containing the template data
* @param[in] fromLine The line number of the statement that triggered the load
* @return the new template, the engine will keep ownership of the object.
*/
Template *loadByName(const QCString &fileName,int fromLine);
/** Indicates that template \a t is no longer needed. The engine
* may decide to delete it.
*/
void unload(Template *t);
/** Prints the current template file include stack */
void printIncludeContext(const char *fileName,int line) const;
private:
friend class TemplateNodeBlock;
friend class TemplateNodeCreate;
void enterBlock(const QCString &fileName,const QCString &blockName,int line);
void leaveBlock();
/** Sets the extension of the output file. This is used to control the
* format of 'special' tags in the template
*/
void setOutputExtension(const char *extension);
/** Returns the output extension, set via setOutputExtension() */
QCString outputExtension() const;
class Private;
Private *p;
};
/** @} */
#endif
|