/** * \file props.hxx * Interface definition for a property list. * Started Fall 2000 by David Megginson, david@megginson.com * This code is released into the Public Domain. * * See props.html for documentation [replace with URL when available]. * * $Id: props.hxx,v 1.8 2014/01/02 22:37:48 bcoconni Exp $ */ #ifndef __PROPS_HXX #define __PROPS_HXX #define PROPS_STANDALONE 1 #ifndef PROPS_STANDALONE #define PROPS_STANDALONE 0 #endif #include #if PROPS_STANDALONE #include #include using std::string; using std::vector; using std::istream; using std::ostream; #include "simgear/structure/SGReferenced.hxx" #include "simgear/structure/SGSharedPtr.hxx" #else #include #include #include STL_STRING #include STL_IOSTREAM SG_USING_STD(string); SG_USING_STD(vector); SG_USING_STD(istream); SG_USING_STD(ostream); #include #include #endif #ifdef NONE #pragma warn A sloppy coder has defined NONE as a macro! #undef NONE #endif #ifdef ALIAS #pragma warn A sloppy coder has defined ALIAS as a macro! #undef ALIAS #endif #ifdef UNSPECIFIED #pragma warn A sloppy coder has defined UNSPECIFIED as a macro! #undef UNSPECIFIED #endif #ifdef BOOL #pragma warn A sloppy coder has defined BOOL as a macro! #undef BOOL #endif #ifdef INT #pragma warn A sloppy coder has defined INT as a macro! #undef INT #endif #ifdef LONG #pragma warn A sloppy coder has defined LONG as a macro! #undef LONG #endif #ifdef FLOAT #pragma warn A sloppy coder has defined FLOAT as a macro! #undef FLOAT #endif #ifdef DOUBLE #pragma warn A sloppy coder has defined DOUBLE as a macro! #undef DOUBLE #endif #ifdef STRING #pragma warn A sloppy coder has defined STRING as a macro! #undef STRING #endif //////////////////////////////////////////////////////////////////////// // A raw value. // // This is the mechanism that information-providing routines can // use to link their own values to the property manager. Any // SGValue can be tied to a raw value and then untied again. // // Note: we are forced to use inlined methods here to ensure // that the templates will be instantiated. We're probably taking // a small performance hit for that. //////////////////////////////////////////////////////////////////////// /** * Abstract base class for a raw value. * *

The property manager is implemented in two layers. The {@link * SGPropertyNode} is the highest and most abstract layer, * representing an LValue/RValue pair: it records the position of the * property in the property tree and contains facilities for * navigation to other nodes. It is guaranteed to be persistent: the * {@link SGPropertyNode} will not change during a session, even if * the property is bound and unbound multiple times.

* *

When the property value is not managed internally in the * SGPropertyNode, the SGPropertyNode will contain a reference to an * SGRawValue (this class), which provides an abstract way to get, * set, and clone the underlying value. The SGRawValue may change * frequently during a session as a value is retyped or bound and * unbound to various data source, but the abstract SGPropertyNode * layer insulates the application from those changes. The raw value * contains no facilities for data binding or for type conversion: it * is simply the abstraction of a primitive data type (or a compound * data type, in the case of a string).

* *

The SGPropertyNode class always keeps a *copy* of a raw value, * not the original one passed to it; if you override a derived class * but do not replace the {@link #clone} method, strange things will * happen.

* *

All derived SGRawValue classes must implement {@link #getValue}, * {@link #setValue}, and {@link #clone} for the appropriate type.

* * @see SGPropertyNode * @see SGRawValuePointer * @see SGRawValueFunctions * @see SGRawValueFunctionsIndexed * @see SGRawValueMethods * @see SGRawValueMethodsIndexed */ template class SGRawValue { public: /** * The default underlying value for this type. * * Every raw value has a default; the default is false for a * boolean, 0 for the various numeric values, and "" for a string. * If additional types of raw values are added in the future, they * may need different kinds of default values (such as epoch for a * date type). The default value is used when creating new values. */ static const T DefaultValue; // Default for this kind of raw value. /** * Constructor. * * Use the default value for this type. */ SGRawValue () {} /** * Destructor. */ virtual ~SGRawValue () {} /** * Return the underlying value. * * @return The actual value for the property. * @see #setValue */ virtual T getValue () const = 0; /** * Assign a new underlying value. * * If the new value cannot be set (because this is a read-only * raw value, or because the new value is not acceptable for * some reason) this method returns false and leaves the original * value unchanged. * * @param value The actual value for the property. * @return true if the value was set successfully, false otherwise. * @see #getValue */ virtual bool setValue (T value) = 0; /** * Create a new deep copy of this raw value. * * The copy will contain its own version of the underlying value * as well. * * @return A deep copy of the current object. */ virtual SGRawValue * clone () const = 0; }; /** * A raw value bound to a pointer. * * This is the most efficient way to tie an external value, but also * the most dangerous, because there is no way for the supplier to * perform bounds checking and derived calculations except by polling * the variable to see if it has changed. There is no default * constructor, because this class would be meaningless without a * pointer. */ template class SGRawValuePointer : public SGRawValue { public: /** * Explicit pointer constructor. * * Create a new raw value bound to the value of the variable * referenced by the pointer. * * @param ptr The pointer to the variable to which this raw value * will be bound. */ SGRawValuePointer (T * ptr) : _ptr(ptr) {} /** * Destructor. */ virtual ~SGRawValuePointer () {} /** * Get the underlying value. * * This method will dereference the pointer and return the * variable's value. */ virtual T getValue () const { return *_ptr; } /** * Set the underlying value. * * This method will dereference the pointer and change the * variable's value. */ virtual bool setValue (T value) { *_ptr = value; return true; } /** * Create a copy of this raw value. * * The copy will use the same external pointer as the original. */ virtual SGRawValue * clone () const { return new SGRawValuePointer(_ptr); } private: T * _ptr; }; /** * A value managed through static functions. * * A read-only value will not have a setter; a write-only value will * not have a getter. */ template class SGRawValueFunctions : public SGRawValue { public: /** * The template type of a static getter function. */ typedef T (*getter_t)(); /** * The template type of a static setter function. */ typedef void (*setter_t)(T); /** * Explicit constructor. * * Create a new raw value bound to the getter and setter supplied. * * @param getter A static function for getting a value, or 0 * to read-disable the value. * @param setter A static function for setting a value, or 0 * to write-disable the value. */ SGRawValueFunctions (getter_t getter = 0, setter_t setter = 0) : _getter(getter), _setter(setter) {} /** * Destructor. */ virtual ~SGRawValueFunctions () {} /** * Get the underlying value. * * This method will invoke the getter function to get a value. * If no getter function was supplied, this method will always * return the default value for the type. */ virtual T getValue () const { if (_getter) return (*_getter)(); else return SGRawValue::DefaultValue; } /** * Set the underlying value. * * This method will invoke the setter function to change the * underlying value. If no setter function was supplied, this * method will return false. */ virtual bool setValue (T value) { if (_setter) { (*_setter)(value); return true; } else return false; } /** * Create a copy of this raw value, bound to the same functions. */ virtual SGRawValue * clone () const { return new SGRawValueFunctions(_getter,_setter); } private: getter_t _getter; setter_t _setter; }; /** * An indexed value bound to static functions. * * A read-only value will not have a setter; a write-only value will * not have a getter. An indexed value is useful for binding one * of a list of possible values (such as multiple engines for a * plane). The index is hard-coded at creation time. * * @see SGRawValue */ template class SGRawValueFunctionsIndexed : public SGRawValue { public: typedef T (*getter_t)(int); typedef void (*setter_t)(int,T); SGRawValueFunctionsIndexed (int index, getter_t getter = 0, setter_t setter = 0) : _index(index), _getter(getter), _setter(setter) {} virtual ~SGRawValueFunctionsIndexed () {} virtual T getValue () const { if (_getter) return (*_getter)(_index); else return SGRawValue::DefaultValue; } virtual bool setValue (T value) { if (_setter) { (*_setter)(_index, value); return true; } else return false; } virtual SGRawValue * clone () const { return new SGRawValueFunctionsIndexed(_index, _getter, _setter); } private: int _index; getter_t _getter; setter_t _setter; }; /** * A value managed through an object and access methods. * * A read-only value will not have a setter; a write-only value will * not have a getter. */ template class SGRawValueMethods : public SGRawValue { public: typedef T (C::*getter_t)() const; typedef void (C::*setter_t)(T); SGRawValueMethods (C &obj, getter_t getter = 0, setter_t setter = 0) : _obj(obj), _getter(getter), _setter(setter) {} virtual ~SGRawValueMethods () {} virtual T getValue () const { if (_getter) { return (_obj.*_getter)(); } else { return SGRawValue::DefaultValue; } } virtual bool setValue (T value) { if (_setter) { (_obj.*_setter)(value); return true; } else return false; } virtual SGRawValue * clone () const { return new SGRawValueMethods(_obj, _getter, _setter); } private: C &_obj; getter_t _getter; setter_t _setter; }; /** * An indexed value managed through an object and access methods. * * A read-only value will not have a setter; a write-only value will * not have a getter. */ template class SGRawValueMethodsIndexed : public SGRawValue { public: typedef T (C::*getter_t)(int) const; typedef void (C::*setter_t)(int, T); SGRawValueMethodsIndexed (C &obj, int index, getter_t getter = 0, setter_t setter = 0) : _obj(obj), _index(index), _getter(getter), _setter(setter) {} virtual ~SGRawValueMethodsIndexed () {} virtual T getValue () const { if (_getter) { return (_obj.*_getter)(_index); } else { return SGRawValue::DefaultValue; } } virtual bool setValue (T value) { if (_setter) { (_obj.*_setter)(_index, value); return true; } else return false; } virtual SGRawValue * clone () const { return new SGRawValueMethodsIndexed(_obj, _index, _getter, _setter); } private: C &_obj; int _index; getter_t _getter; setter_t _setter; }; /** * The smart pointer that manage reference counting */ class SGPropertyNode; typedef SGSharedPtr SGPropertyNode_ptr; typedef SGSharedPtr SGConstPropertyNode_ptr; /** * The property change listener interface. * *

Any class that needs to listen for property changes must implement * this interface.

*/ class SGPropertyChangeListener { public: virtual ~SGPropertyChangeListener (); virtual void valueChanged (SGPropertyNode * node); virtual void childAdded (SGPropertyNode * parent, SGPropertyNode * child); virtual void childRemoved (SGPropertyNode * parent, SGPropertyNode * child); protected: friend class SGPropertyNode; virtual void register_property (SGPropertyNode * node); virtual void unregister_property (SGPropertyNode * node); private: vector _properties; }; /** * A node in a property tree. */ class SGPropertyNode : public SGReferenced { public: /** * Public constants. */ enum { MAX_STRING_LEN = 1024 }; /** * Property value types. */ enum Type { NONE = 0, ALIAS, BOOL, INT, LONG, FLOAT, DOUBLE, STRING, UNSPECIFIED }; /** * Access mode attributes. * *

The ARCHIVE attribute is strictly advisory, and controls * whether the property should normally be saved and restored.

*/ enum Attribute { NO_ATTR = 0, READ = 1, WRITE = 2, ARCHIVE = 4, REMOVED = 8, TRACE_READ = 16, TRACE_WRITE = 32, USERARCHIVE = 64, PRESERVE = 128 }; /** * Last used attribute * Update as needed when enum Attribute is changed */ static const int LAST_USED_ATTRIBUTE; /** * Default constructor. */ SGPropertyNode (); /** * Copy constructor. */ SGPropertyNode (const SGPropertyNode &node); /** * Destructor. */ virtual ~SGPropertyNode (); // // Basic properties. // /** * Test whether this node contains a primitive leaf value. */ bool hasValue () const { return (_type != NONE); } /** * Get the node's simple (XML) name. */ const char * getName () const { return _name.c_str(); } /** * Get the node's pretty display name, with subscript when needed. */ const char * getDisplayName (bool simplify = false) const; /** * Get the node's integer index. */ int getIndex () const { return _index; } /** * Get a non-const pointer to the node's parent. */ SGPropertyNode * getParent () { return _parent; } /** * Get a const pointer to the node's parent. */ const SGPropertyNode * getParent () const { return _parent; } // // Children. // /** * Get the number of child nodes. */ int nChildren () const { return (int)_children.size(); } /** * Get a child node by position (*NOT* index). */ SGPropertyNode * getChild (int position); /** * Get a const child node by position (*NOT* index). */ const SGPropertyNode * getChild (int position) const; /** * Test whether a named child exists. */ bool hasChild (const char * name, int index = 0) const { return (getChild(name, index) != 0); } /** * Get a child node by name and index. */ SGPropertyNode * getChild (const char * name, int index = 0, bool create = false); /** * Get a const child node by name and index. */ const SGPropertyNode * getChild (const char * name, int index = 0) const; /** * Get a vector of all children with the specified name. */ vector getChildren (const char * name) const; /** * Remove child by position. */ SGPropertyNode_ptr removeChild (int pos, bool keep = true); /** * Remove a child node */ SGPropertyNode_ptr removeChild (const char * name, int index = 0, bool keep = true); /** * Remove all children with the specified name. */ vector removeChildren (const char * name, bool keep = true); // // Alias support. // /** * Alias this node's leaf value to another's. */ bool alias (SGPropertyNode * target); /** * Alias this node's leaf value to another's by relative path. */ bool alias (const char * path); /** * Remove any alias for this node. */ bool unalias (); /** * Test whether the node's leaf value is aliased to another's. */ bool isAlias () const { return (_type == ALIAS); } /** * Get a non-const pointer to the current alias target, if any. */ SGPropertyNode * getAliasTarget (); /** * Get a const pointer to the current alias target, if any. */ const SGPropertyNode * getAliasTarget () const; // // Path information. // /** * Get the path to this node from the root. */ const char * getPath (bool simplify = false) const; /** * Get a pointer to the root node. */ SGPropertyNode * getRootNode (); /** * Get a const pointer to the root node. */ const SGPropertyNode * getRootNode () const; /** * Get a pointer to another node by relative path. */ SGPropertyNode * getNode (const char * relative_path, bool create = false); /** * Get a pointer to another node by relative path. * * This method leaves the index off the last member of the path, * so that the user can specify it separately (and save some * string building). For example, getNode("/bar[1]/foo", 3) is * exactly equivalent to getNode("bar[1]/foo[3]"). The index * provided overrides any given in the path itself for the last * component. */ SGPropertyNode * getNode (const char * relative_path, int index, bool create = false); /** * Get a const pointer to another node by relative path. */ const SGPropertyNode * getNode (const char * relative_path) const; /** * Get a const pointer to another node by relative path. * * This method leaves the index off the last member of the path, * so that the user can specify it separate. */ const SGPropertyNode * getNode (const char * relative_path, int index) const; // // Access Mode. // /** * Check a single mode attribute for the property node. */ bool getAttribute (Attribute attr) const { return ((_attr & attr) != 0); } /** * Set a single mode attribute for the property node. */ void setAttribute (Attribute attr, bool state) { (state ? _attr |= attr : _attr &= ~attr); } /** * Get all of the mode attributes for the property node. */ int getAttributes () const { return _attr; } /** * Set all of the mode attributes for the property node. */ void setAttributes (int attr) { _attr = attr; } // // Leaf Value (primitive). // /** * Get the type of leaf value, if any, for this node. */ Type getType () const; /** * Get a bool value for this node. */ bool getBoolValue () const; /** * Get an int value for this node. */ int getIntValue () const; /** * Get a long int value for this node. */ long getLongValue () const; /** * Get a float value for this node. */ float getFloatValue () const; /** * Get a double value for this node. */ double getDoubleValue () const; /** * Get a string value for this node. */ const char * getStringValue () const; /** * Set a bool value for this node. */ bool setBoolValue (bool value); /** * Set an int value for this node. */ bool setIntValue (int value); /** * Set a long int value for this node. */ bool setLongValue (long value); /** * Set a float value for this node. */ bool setFloatValue (float value); /** * Set a double value for this node. */ bool setDoubleValue (double value); /** * Set a string value for this node. */ bool setStringValue (const char * value); /** * Set a value of unspecified type for this node. */ bool setUnspecifiedValue (const char * value); // // Data binding. // /** * Test whether this node is bound to an external data source. */ bool isTied () const { return _tied; } /** * Bind this node to an external bool source. */ bool tie (const SGRawValue &rawValue, bool useDefault = true); /** * Bind this node to an external int source. */ bool tie (const SGRawValue &rawValue, bool useDefault = true); /** * Bind this node to an external long int source. */ bool tie (const SGRawValue &rawValue, bool useDefault = true); /** * Bind this node to an external float source. */ bool tie (const SGRawValue &rawValue, bool useDefault = true); /** * Bind this node to an external double source. */ bool tie (const SGRawValue &rawValue, bool useDefault = true); /** * Bind this node to an external string source. */ bool tie (const SGRawValue &rawValue, bool useDefault = true); /** * Unbind this node from any external data source. */ bool untie (); // // Convenience methods using paths. // TODO: add attribute methods // /** * Get another node's type. */ Type getType (const char * relative_path) const; /** * Test whether another node has a leaf value. */ bool hasValue (const char * relative_path) const; /** * Get another node's value as a bool. */ bool getBoolValue (const char * relative_path, bool defaultValue = false) const; /** * Get another node's value as an int. */ int getIntValue (const char * relative_path, int defaultValue = 0) const; /** * Get another node's value as a long int. */ long getLongValue (const char * relative_path, long defaultValue = 0L) const; /** * Get another node's value as a float. */ float getFloatValue (const char * relative_path, float defaultValue = 0.0) const; /** * Get another node's value as a double. */ double getDoubleValue (const char * relative_path, double defaultValue = 0.0L) const; /** * Get another node's value as a string. */ const char * getStringValue (const char * relative_path, const char * defaultValue = "") const; /** * Set another node's value as a bool. */ bool setBoolValue (const char * relative_path, bool value); /** * Set another node's value as an int. */ bool setIntValue (const char * relative_path, int value); /** * Set another node's value as a long int. */ bool setLongValue (const char * relative_path, long value); /** * Set another node's value as a float. */ bool setFloatValue (const char * relative_path, float value); /** * Set another node's value as a double. */ bool setDoubleValue (const char * relative_path, double value); /** * Set another node's value as a string. */ bool setStringValue (const char * relative_path, const char * value); /** * Set another node's value with no specified type. */ bool setUnspecifiedValue (const char * relative_path, const char * value); /** * Test whether another node is bound to an external data source. */ bool isTied (const char * relative_path) const; /** * Bind another node to an external bool source. */ bool tie (const char * relative_path, const SGRawValue &rawValue, bool useDefault = true); /** * Bind another node to an external int source. */ bool tie (const char * relative_path, const SGRawValue &rawValue, bool useDefault = true); /** * Bind another node to an external long int source. */ bool tie (const char * relative_path, const SGRawValue &rawValue, bool useDefault = true); /** * Bind another node to an external float source. */ bool tie (const char * relative_path, const SGRawValue &rawValue, bool useDefault = true); /** * Bind another node to an external double source. */ bool tie (const char * relative_path, const SGRawValue &rawValue, bool useDefault = true); /** * Bind another node to an external string source. */ bool tie (const char * relative_path, const SGRawValue &rawValue, bool useDefault = true); /** * Unbind another node from any external data source. */ bool untie (const char * relative_path); /** * Add a change listener to the property. If "initial" is set call the * listener initially. */ void addChangeListener (SGPropertyChangeListener * listener, bool initial = false); /** * Remove a change listener from the property. */ void removeChangeListener (SGPropertyChangeListener * listener); /** * Fire a value change event to all listeners. */ void fireValueChanged (); /** * Fire a child-added event to all listeners. */ void fireChildAdded (SGPropertyNode * child); /** * Fire a child-removed event to all listeners. */ void fireChildRemoved (SGPropertyNode * child); /** * Clear any existing value and set the type to NONE. */ void clearValue (); protected: void fireValueChanged (SGPropertyNode * node); void fireChildAdded (SGPropertyNode * parent, SGPropertyNode * child); void fireChildRemoved (SGPropertyNode * parent, SGPropertyNode * child); /** * Protected constructor for making new nodes on demand. */ SGPropertyNode (const char * name, int index, SGPropertyNode * parent); private: // Get the raw value bool get_bool () const; int get_int () const; long get_long () const; float get_float () const; double get_double () const; const char * get_string () const; // Set the raw value bool set_bool (bool value); bool set_int (int value); bool set_long (long value); bool set_float (float value); bool set_double (double value); bool set_string (const char * value); /** * Get the value as a string. */ const char * make_string () const; /** * Trace a read access. */ void trace_read () const; /** * Trace a write access. */ void trace_write () const; class hash_table; int _index; string _name; mutable string _display_name; /// To avoid cyclic reference counting loops this shall not be a reference /// counted pointer SGPropertyNode * _parent; vector _children; vector _removedChildren; mutable string _path; mutable string _buffer; hash_table * _path_cache; Type _type; bool _tied; int _attr; // The right kind of pointer... union { SGPropertyNode * alias; SGRawValue * bool_val; SGRawValue * int_val; SGRawValue * long_val; SGRawValue * float_val; SGRawValue * double_val; SGRawValue * string_val; } _value; union { bool bool_val; int int_val; long long_val; float float_val; double double_val; char * string_val; } _local_val; vector * _listeners; /** * A very simple hash table with no remove functionality. */ class hash_table { public: /** * An entry in a bucket in a hash table. */ class entry { public: entry (); ~entry (); const char * get_key () { return _key.c_str(); } void set_key (const char * key); SGPropertyNode * get_value () { return _value; } void set_value (SGPropertyNode * value); private: string _key; SGSharedPtr _value; }; /** * A bucket in a hash table. */ class bucket { public: bucket (); ~bucket (); entry * get_entry (const char * key, bool create = false); void erase(const char * key); private: int _length; entry ** _entries; }; friend class bucket; hash_table (); ~hash_table (); SGPropertyNode * get (const char * key); void put (const char * key, SGPropertyNode * value); void erase(const char * key); private: unsigned int hashcode (const char * key); unsigned int _data_length; bucket ** _data; }; }; #endif // __PROPS_HXX // end of props.hxx