source: orxonox.OLD/branches/new_class_id/src/lib/math/rect2D.cc @ 9851

/*
   orxonox - the future of 3D-vertical-scrollers

   Copyright (C) 2004 orx

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2, or (at your option)
   any later version.

   ### File Specific:
   main-programmer: Benjamin Grauer
   co-programmer: Patrick Boenzli : Vector2D::scale()
                                    Vector2D::abs()

   Benjamin Grauer: port to Vector2D
*/

#define DEBUG_SPECIAL_MODULE DEBUG_MODULE_MATH

#include "rect2D.h"
#ifdef DEBUG
  #include "debug.h"
#else
  #include <stdio.h>
  #define PRINT(x) printf
#endif

/**
 * @brief creates a new Rectangle with
 * @param x the left border
 * @param y the top border
 * @param width: the width
 * @param height the height
 */
Rect2D::Rect2D(float x, float y, float width, float height)
{
  this->setLeft(x),
  this->setTop(y);
  this->setSize(width, height);
}

/**
 * @brief creates a new Rectangle with
 * @param topLeft the top-left corner
 * @param bottomRight the lower-right corner
 */
Rect2D::Rect2D(const Vector2D& topLeft, const Vector2D& bottomRight )
{
  this->setTopLeft(topLeft);
  this->setBottomRight(bottomRight);
}

/**
 * @brief creates a new Rectangle with
 * @param rect the rectangle to copy.
 */
Rect2D::Rect2D(const Rect2D& rect)
{
  *this = rect;
}

/**
 * @brief copies the Values of rect to this rect
 * @param rect copy the values from.
 * @returns this reference.
 */
Rect2D& Rect2D::operator=(const Rect2D& rect)
{
  this->_topLeft = rect._topLeft;
  this->_bottomRight = rect._bottomRight;
  return *this;
}

/**
 * @brief compares two rectanles.
 * @param rect the rectangle to compare
 * @returns true if the two rectangles are the same
 */
bool Rect2D::operator==(const Rect2D& rect) const
{
  return (this->_topLeft == rect._topLeft &&
          this->_bottomRight == rect._bottomRight);
}

/**
 * @brief negative compares two rectanles.
 * @param rect the rectangle to compare
 * @returns true if the two rectangles are different
 */
bool Rect2D::operator!=(const Rect2D& rect) const
{
  return (this->_topLeft != rect._topLeft ||
          this->_bottomRight != rect._bottomRight);
}

/**
 * @brief adds two rectangles together
 * @param rect the rectagle to be added
 * @returns a Rectangle, where both are added together.
 *
 * @note since adding rectangles does not make sense generally, here a description:
 * adds toplefts and botomrights
 */
Rect2D Rect2D::operator+(const Rect2D& rect) const
{
  return Rect2D(this->_topLeft + rect._topLeft,
                this->_bottomRight + rect._bottomRight);
}


/**
 * @brief adds two rectangles together
 * @param rect the rectagle to be added to this one
 * @returns a Rectangle, where both are added together.
 */
Rect2D& Rect2D::operator+=(const Rect2D& rect)
{
  this->_topLeft += rect._topLeft;
  this->_bottomRight += rect._bottomRight;
  return *this;
}


/**
 * @brief subracts two rectangles from each other
 * @param rect the rectagle to be substracted from this one
 * @returns a Rectangle, where both are substracted from one another.
 */
Rect2D Rect2D::operator-(const Rect2D& rect) const
{
  return Rect2D(this->_topLeft - rect._topLeft,
                this->_bottomRight - rect._bottomRight);
}

/**
 * @brief subracts two rectangles from each other
 * @param rect the rectagle to be substracted from this one
 * @returns a Rectangle, where both are substracted from one another.
 */
Rect2D& Rect2D::operator-=(const Rect2D& rect)
{
  this->_topLeft -= rect._topLeft;
  this->_bottomRight -= rect._bottomRight;
  return *this;
}

/**
 * @brief intersects two Rectangles.
 * @see intersection .
 * @param rect the Rectangle to intersect with this one.
 * @returns the intersection Region.
 */
Rect2D Rect2D::operator&(const Rect2D& rect) const
{
  return this->intersection(rect);
}

/**
 * @brief intersects two Rectangles and assigns result to this one.
 * @param rect the Rectangle to intersect with this one.
 * @returns the intersection Region.
 */
Rect2D& Rect2D::operator&=(const Rect2D& rect)
{
  *this = this->intersection(rect);
}

/**
 * TODO coment/implement
 */
Rect2D Rect2D::operator*(const Vector2D& scaling) const
{
#warning implements this...
  //this->scale(scaling);
}

/**
 * @brief sets the width of the Rectangle
 * @param width the new width of the Rectangle
 *
 * the rectangle will be resized from the top left corner out.
 */
void Rect2D::setWidth(float width)
{
  this->_bottomRight.x = this->_topLeft.x + width;
}


/**
 * @brief sets the height of the Rectangle
 * @param height the new height of the Rectangle
 *
 * the rectangle will be resized from the top left corner out.
 */
void Rect2D::setHeight(float height)
{
  this->_bottomRight.y = this->_topLeft.y + height;
}

/**
 * @brief sets the size of the Rectangle
 * @param width the new width of the Rectangle.
 * @param height the new height of the Rectangle.
 * the rectangle will be resized from the top left corner out.
 */
void Rect2D::setSize(float width, float height)
{
  this->_bottomRight = this->_topLeft + Vector2D(width, height);
}


/**
 * @brief sets the size of the Rectangle
 * @param size the new size of the Rectangle.
 * the rectangle will be resized from the top left corner out.
 */
void Rect2D::setSize(const Vector2D& size)
{
  this->_bottomRight = this->_topLeft + size;
}

/**
 * @brief sets the new Center
 * @param center the center to move the Rectangle to.
 * moves the Rectangle from its current center to the new Center
 */
void Rect2D::setCenter(const Vector2D& center)
{
  this->move(center - this->center());
}

/**
 * @brief sets the new Center
 * @param x the center's X to move the Rectangle to.
 * @param y the center's Y to move the Rectangle to.
 * moves the Rectangle from its current center to the new Center
 */
void Rect2D::setCenter(float x, float y)
{
  this->setCenter(Vector2D(x, y));
}

/**
 * @brief sets the new Center
 * @param center the center to move the Rectangle to.
 * moves the Rectangle from its current center to the new Center
 */
void Rect2D::setCenterX(float x)
{
#warning implement this
}

/**
 * @brief sets the new Center
 * @param center the center to move the Rectangle to.
 * moves the Rectangle from its current center to the new Center
 */
void Rect2D::setCenterY(float y)
{
#warning implement this
}

/**
 * @brief scales the Rectangle from topLeft out.
 * @param x: the scale factor in x direction
 */
void Rect2D::scaleX(float x)
{
  this->_bottomRight.x = this->_topLeft.x + this->width() * x;
}

/**
 * @brief scales the Rectangle from topLeft out.
 * @param y: the scale factor in y direction
 */
void Rect2D::scaleY(float y)
{
  this->_bottomRight.y = this->_topLeft.y + this->height() * y;
}

/**
 * @brief scales the Rectangle from topLeft out.
 * @param x: the scale factor in x direction
 * @param y: the scale factor in y direction
 */
void Rect2D::scale(float x, float y)
{
  this->scale(Vector2D(x,y));
}

/**
 * @brief scales the Rectangle from topLeft out.
 * @param v: the scale factors.
 */
void Rect2D::scale(const Vector2D& v)
{
  this->_bottomRight = this->_topLeft + this->size().internalMultipy(v);

}

/**
 * @brief scales the Rectangle from the Center out.
 * @param x: the scale factor in x-direction.
 * @param y: the scale factor in y-direction.
 */
void Rect2D::scaleCentered(float x, float y)
{
  this->scaleCentered(Vector2D(x, y));
}


/**
 * @brief scales the Rectangle from the Center out.
 * @param v: the scale factors.
 */
void Rect2D::scaleCentered(const Vector2D& v)
{
#warning implement this
}

/**
 * @brief moves the Rectangle
 * @param x the amount to move in x.
 */
void Rect2D::moveX(float x)
{
  this->_topLeft.x += x;
  this->_bottomRight.x += x;
}

/**
 * @brief moves the Rectangle
 * @param y the amount to move in y.
 */
void Rect2D::moveY(float y)
{
  this->_topLeft.y += y;
  this->_bottomRight.y += y;
}

/**
 * @brief moves the Rectangle
 * @param x the amount to move in x.
 * @param y the amount to move in y.
 */
void Rect2D::move(float x, float y)
{
  this->move(Vector2D(x, y));
}

/**
 * @brief moves the Rectangle
 * @param v the amount to move.
 */
void Rect2D::move(const Vector2D& v)
{
  this->_topLeft += v;
  this->_bottomRight += v;
}

/**
 * @brief swaps top and bottom.
 */
void Rect2D::swapTopBottom()
{
  float tmp = this->top();
  this->setTop(this->bottom());
  this->setBottom(tmp);
}

/**
 * @brief swaps left and right.
 */
void Rect2D::swapLeftRight()
{
  float tmp = this->left();
  this->setLeft(this->right());
  this->setRight(tmp);
}

/**
 * @brief normalizes the Rectangle.
 *
 * Normalizing a Rectangle means, that the top is above bottom, and left is left of right afterwards :)
 */
void Rect2D::normalize()
{
  if (this->top() > this->bottom())
    this->swapTopBottom();
  if (this->left() > this->right())
    this->swapLeftRight();
}

/**
 * @brief normalizes the Rectangle.
 * @returns the normalized version of this rectangle.
 *
 * Normalizing a Rectangle means, that the top is above bottom, and left is left of right afterwards :)
 */
Rect2D Rect2D::normalized() const
{
  Rect2D norm(*this);
  norm.normalize();
  return norm;
}

/**
 * @brief The intersection of two Rectangles is calculated and returned.
 * @param intersector the Rectangle to intersect with this one.
 * @return the intersection region.
 */
Rect2D Rect2D::intersection(const Rect2D& intersector) const
{
#warning implement
}

/**
 * @brief checks if the intersection of two Rectangles is not empty.
 */
bool Rect2D::intersects(const Rect2D& intersector) const
{
#warning implement

}

/**
 * @brief make an Extensive join of two rectangles.
 * @param rect the rectangle to unite with this one.
 * @returns the united rectangle
 */
Rect2D Rect2D::unite(const Rect2D& rect)
{
#warning implement

}

/**
 * @brief checks if rect is inside of this Rectangle.
 * @param rect The Rectangle that should be inside of this one.
 * @returns tru if it is.
 */
bool Rect2D::contains(const Rect2D& rect) const
{
  return (this->top() <= rect.top() &&
          this->bottom() >= rect.bottom() &&
          this->left() <= rect.left() &&
          this->right() >= rect.right());
}

/**
 * @param point the point to check if it is inside.
 * @returns true if the point is inside of this Rectangle.
 */
bool Rect2D::contains(const Vector2D& point) const
{
  return (this->top() <= point.y &&
          this->bottom() >= point.y &&
          this->left() <= point.x &&
          this->right() >= point.x);
}

/**
 * @brief slerps this Rectangle to rect.
 * @param rect the rectangle to slerp to.
 * @param value how much to slerp to [0:stay, 1:go there]
 * @returns reference to this.
 */
const Rect2D& Rect2D::slerp(const Rect2D& rect, float value)
{
  this->_topLeft.slerp(rect._topLeft, value);
  this->_bottomRight.slerp(rect._bottomRight, value);

  return *this;
}

/**
 * @brief print debug output for the Rect
 */
void Rect2D::debug() const
{
  PRINT(0)("Top: %0.2f Left: %0.2f; Bottom %0.2f Right:%0.2f; Size: %0.2fx%0.2f\n", top(), left(), bottom(), right(), size().x, size().y);
}