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Carla/source/modules/juce_gui_basics/positioning/juce_RelativeCoordinate.h

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  1. /*

  2.   ==============================================================================

  3. 

  4.    This file is part of the JUCE library.

  5.    Copyright (c) 2017 - ROLI Ltd.

  6. 

  7.    JUCE is an open source library subject to commercial or open-source

  8.    licensing.

  9. 

  10.    By using JUCE, you agree to the terms of both the JUCE 5 End-User License

  11.    Agreement and JUCE 5 Privacy Policy (both updated and effective as of the

  12.    27th April 2017).

  13. 

  14.    End User License Agreement: www.juce.com/juce-5-licence

  15.    Privacy Policy: www.juce.com/juce-5-privacy-policy

  16. 

  17.    Or: You may also use this code under the terms of the GPL v3 (see

  18.    www.gnu.org/licenses).

  19. 

  20.    JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER

  21.    EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE

  22.    DISCLAIMED.

  23. 

  24.   ==============================================================================

  25. */

  26. 

  27. namespace juce

  28. {

  29. 

  30. //==============================================================================

  31. /**

  32.     Expresses a coordinate as a dynamically evaluated expression.

  33. 

  34.     When using relative coordinates to position components, the following symbols are available:

  35.      - "left", "right", "top", "bottom" refer to the position of those edges in this component, so

  36.        e.g. for a component whose width is always 100, you might set the right edge to the "left + 100".

  37.      - "[id].left", "[id].right", "[id].top", "[id].bottom", "[id].width", "[id].height", where [id] is

  38.        the identifier of one of this component's siblings. A component's identifier is set with

  39.        Component::setComponentID(). So for example if you want your component to always be 50 pixels to the

  40.        right of the one called "xyz", you could set your left edge to be "xyz.right + 50".

  41.      - Instead of an [id], you can use the name "parent" to refer to this component's parent. Like

  42.        any other component, these values are relative to their component's parent, so "parent.right" won't be

  43.        very useful for positioning a component because it refers to a position with the parent's parent.. but

  44.        "parent.width" can be used for setting positions relative to the parent's size. E.g. to make a 10x10

  45.        component which remains 1 pixel away from its parent's bottom-right, you could use

  46.        "right - 10, bottom - 10, parent.width - 1, parent.height - 1".

  47.      - The name of one of the parent component's markers can also be used as a symbol. For markers to be

  48.        used, the parent component must implement its Component::getMarkers() method, and return at least one

  49.        valid MarkerList. So if you want your component's top edge to be 10 pixels below the

  50.        marker called "foobar", you'd set it to "foobar + 10".

  51. 

  52.     See the Expression class for details about the operators that are supported, but for example

  53.     if you wanted to make your component remains centred within its parent with a size of 100, 100,

  54.     you could express it as:

  55.     @code myComp.setBounds (RelativeBounds ("parent.width / 2 - 50, parent.height / 2 - 50, left + 100, top + 100"));

  56.     @endcode

  57.     ..or an alternative way to achieve the same thing:

  58.     @code myComp.setBounds (RelativeBounds ("right - 100, bottom - 100, parent.width / 2 + 50, parent.height / 2 + 50"));

  59.     @endcode

  60. 

  61.     Or if you wanted a 100x100 component whose top edge is lined up to a marker called "topMarker" and

  62.     which is positioned 50 pixels to the right of another component called "otherComp", you could write:

  63.     @code myComp.setBounds (RelativeBounds ("otherComp.right + 50, topMarker, left + 100, top + 100"));

  64.     @endcode

  65. 

  66.     Be careful not to make your coordinate expressions recursive, though, or exceptions and assertions will

  67.     be thrown!

  68. 

  69.     @see RelativePoint, RelativeRectangle

  70. */

  71. class JUCE_API  RelativeCoordinate

  72. {

  73. public:

  74.     //==============================================================================

  75.     /** Creates a zero coordinate. */

  76.     RelativeCoordinate();

  77.     RelativeCoordinate (const Expression& expression);

  78.     RelativeCoordinate (const RelativeCoordinate&);

  79.     RelativeCoordinate& operator= (const RelativeCoordinate&);

  80.     RelativeCoordinate (RelativeCoordinate&&) noexcept;

  81.     RelativeCoordinate& operator= (RelativeCoordinate&&) noexcept;

  82. 

  83.     /** Creates an absolute position from the parent origin on either the X or Y axis.

  84. 

  85.         @param absoluteDistanceFromOrigin   the distance from the origin

  86.     */

  87.     RelativeCoordinate (double absoluteDistanceFromOrigin);

  88. 

  89.     /** Recreates a coordinate from a string description.

  90.         The string will be parsed by ExpressionParser::parse().

  91.         @param stringVersion    the expression to use

  92.         @see toString

  93.     */

  94.     RelativeCoordinate (const String& stringVersion);

  95. 

  96.     /** Destructor. */

  97.     ~RelativeCoordinate();

  98. 

  99.     bool operator== (const RelativeCoordinate&) const noexcept;

  100.     bool operator!= (const RelativeCoordinate&) const noexcept;

  101. 

  102.     //==============================================================================

  103.     /** Calculates the absolute position of this coordinate.

  104. 

  105.         You'll need to provide a suitable Expression::Scope for looking up any coordinates that may

  106.         be needed to calculate the result.

  107.     */

  108.     double resolve (const Expression::Scope* evaluationScope) const;

  109. 

  110.     /** Returns true if this coordinate uses the specified coord name at any level in its evaluation.

  111.         This will recursively check any coordinates upon which this one depends.

  112.     */

  113.     bool references (const String& coordName, const Expression::Scope* evaluationScope) const;

  114. 

  115.     /** Returns true if there's a recursive loop when trying to resolve this coordinate's position. */

  116.     bool isRecursive (const Expression::Scope* evaluationScope) const;

  117. 

  118.     /** Returns true if this coordinate depends on any other coordinates for its position. */

  119.     bool isDynamic() const;

  120. 

  121.     //==============================================================================

  122.     /** Changes the value of this coord to make it resolve to the specified position.

  123. 

  124.         Calling this will leave the anchor points unchanged, but will set this coordinate's absolute

  125.         or relative position to whatever value is necessary to make its resultant position

  126.         match the position that is provided.

  127.     */

  128.     void moveToAbsolute (double absoluteTargetPosition, const Expression::Scope* evaluationScope);

  129. 

  130.     /** Returns the expression that defines this coordinate. */

  131.     const Expression& getExpression() const         { return term; }

  132. 

  133. 

  134.     //==============================================================================

  135.     /** Returns a string which represents this coordinate.

  136.         For details of the string syntax, see the constructor notes.

  137.     */

  138.     String toString() const;

  139. 

  140.     //==============================================================================

  141.     /** A set of static strings that are commonly used by the RelativeCoordinate class.

  142. 

  143.         As well as avoiding using string literals in your code, using these preset values

  144.         has the advantage that all instances of the same string will share the same, reference-counted

  145.         String object, so if you have thousands of points which all refer to the same

  146.         anchor points, this can save a significant amount of memory allocation.

  147.     */

  148.     struct Strings

  149.     {

  150.         static const String parent;         /**< "parent" */

  151.         static const String left;           /**< "left" */

  152.         static const String right;          /**< "right" */

  153.         static const String top;            /**< "top" */

  154.         static const String bottom;         /**< "bottom" */

  155.         static const String x;              /**< "x" */

  156.         static const String y;              /**< "y" */

  157.         static const String width;          /**< "width" */

  158.         static const String height;         /**< "height" */

  159.     };

  160. 

  161.     struct StandardStrings

  162.     {

  163.         enum Type

  164.         {

  165.             left, right, top, bottom,

  166.             x, y, width, height,

  167.             parent,

  168.             unknown

  169.         };

  170. 

  171.         static Type getTypeOf (const String& s) noexcept;

  172.     };

  173. 

  174. private:

  175.     //==============================================================================

  176.     Expression term;

  177. };

  178. 

  179. } // namespace juce