finalcut/src/frect.cpp

// File: frect.cpp
// Provides: class FRect

#include "frect.h"

//----------------------------------------------------------------------
// class FRect
//----------------------------------------------------------------------

// constructor and destructor
//----------------------------------------------------------------------
FRect::FRect (const FPoint& p1, const FPoint& p2)
  : X1(short(p1.getX()))
  , Y1(short(p1.getY()))
  , X2(short(p2.getX()))
  , Y2(short(p2.getY()))
{ }

//----------------------------------------------------------------------
FRect::~FRect()  // destructor
{ }

// public methods of FRect
//----------------------------------------------------------------------
bool FRect::isNull() const
{
  return X2 == X1-1 && Y2 == Y1-1;
}

//----------------------------------------------------------------------
void FRect::setX1 (int n)
{
  X1 = short(n);
}

//----------------------------------------------------------------------
void FRect::setY1 (int n)
{
  Y1 = short(n);
}

//----------------------------------------------------------------------
void FRect::setX2 (int n)
{
  X2 = short(n);
}

//----------------------------------------------------------------------
void FRect::setY2 (int n)
{
  Y2 = short(n);
}

//----------------------------------------------------------------------
void FRect::setX (int n)
{
  short dX = short(X2 - X1);
  X1 = short(n);
  X2 = short(X1 + dX);
}

//----------------------------------------------------------------------
void FRect::setY (int n)
{
  short dY = short(Y2 - Y1);
  Y1 = short(n);
  Y2 = short(Y1 + dY);
}

//----------------------------------------------------------------------
void FRect::setPos (int x, int y)
{
  short dX = short(X2 - X1);
  short dY = short(Y2 - Y1);
  X1 = short(x);
  Y1 = short(y);
  X2 = short(X1 + dX);
  Y2 = short(Y1 + dY);
}

//----------------------------------------------------------------------
void FRect::setPos (const FPoint& p)
{
  short dX = short(X2 - X1);
  short dY = short(Y2 - Y1);
  X1 = short(p.getX());
  Y1 = short(p.getY());
  X2 = short(X1 + dX);
  Y2 = short(Y1 + dY);
}

//----------------------------------------------------------------------
void FRect::setWidth (int w)
{
  X2 = short(X1 + w - 1);
}

//----------------------------------------------------------------------
void FRect::setHeight (int h)
{
  Y2 = short(Y1 + h - 1);
}

//----------------------------------------------------------------------
void FRect::setSize (int w, int h)
{
  X2 = short(X1 + w - 1);
  Y2 = short(Y1 + h - 1);
}

//----------------------------------------------------------------------
void FRect::setRect (const FRect& r)
{
  setRect (r.X1, r.Y1, r.X2-r.X1+1, r.Y2-r.Y1+1);
}

//----------------------------------------------------------------------
void FRect::setRect (int x, int y, int width, int height)
{
  X1 = short(x);
  Y1 = short(y);
  X2 = short(x+width-1);
  Y2 = short(y+height-1);
}

//----------------------------------------------------------------------
void FRect::setCoordinates (const FPoint& p1, const FPoint& p2)
{
  setCoordinates (p1.getX(), p1.getY(), p2.getX(), p2.getY());
}

//----------------------------------------------------------------------
void FRect::setCoordinates (int x1, int y1, int x2, int y2)
{
  X1 = short(x1);
  Y1 = short(y1);
  X2 = short(x2);
  Y2 = short(y2);
}

//----------------------------------------------------------------------
void FRect::move (int dx, int dy)
{
  X1 = short(X1 + dx);
  Y1 = short(Y1 + dy);
  X2 = short(X2 + dx);
  Y2 = short(Y2 + dy);
}

//----------------------------------------------------------------------
void FRect::move  (const FPoint& d)
{
  X1 = short(X1 + d.getX());
  Y1 = short(Y1 + d.getY());
  X2 = short(X2 + d.getX());
  Y2 = short(Y2 + d.getY());
}

//----------------------------------------------------------------------
bool FRect::contains (int x, int y) const
{
  return x >= X1 && x <= X2
      && y >= Y1 && y <= Y2;
}

//----------------------------------------------------------------------
bool FRect::contains (const FPoint& p) const
{
  return p.getX() >= X1 && p.getX() <= X2
      && p.getY() >= Y1 && p.getY() <= Y2;
}

//----------------------------------------------------------------------
bool FRect::contains (const FRect& r) const
{
  return r.X1 >= X1 && r.X2 <= X2
      && r.Y1 >= Y1 && r.Y2 <= Y2;
}

//----------------------------------------------------------------------
bool FRect::overlap (const FRect &r) const
{
  return (  std::max(X1, r.X1) <= std::min(X2, r.X2)
         && std::max(Y1, r.Y1) <= std::min(Y2, r.Y2) );
}

//----------------------------------------------------------------------
FRect FRect::intersect (const FRect& r) const
{
  // intersection: this ∩ r
  FRect new_rect;
  new_rect.X1 = std::max(X1, r.X1);
  new_rect.Y1 = std::max(Y1, r.Y1);
  new_rect.X2 = std::min(X2, r.X2);
  new_rect.Y2 = std::min(Y2, r.Y2);
  return new_rect;
}

//----------------------------------------------------------------------
FRect& FRect::operator = (const FRect& r)
{
  X1 = short(r.getX1());
  Y1 = short(r.getY1());
  X2 = short(r.getX2());
  Y2 = short(r.getY2());
  return *this;
}

//----------------------------------------------------------------------
FRect operator + (const FRect& r, const FPoint& p)
{
  return FRect ( r.X1
               , r.Y1
               , r.X2 - r.X1 + 1 + p.getX()
               , r.Y2 - r.Y1 + 1 + p.getY() );
}

//----------------------------------------------------------------------
FRect operator - (const FRect& r, const FPoint& p)
{
  return FRect ( r.X1
               , r.Y1
               , r.X2 - r.X1 + 1 - p.getX()
               , r.Y2 - r.Y1 + 1 - p.getY() );
}

//----------------------------------------------------------------------
bool operator == (const FRect& r1, const FRect& r2)
{
  return r1.X1 == r2.X1
      && r1.Y1 == r2.Y1
      && r1.X2 == r2.X2
      && r1.Y2 == r2.Y2;
}

//----------------------------------------------------------------------
bool operator != (const FRect& r1, const FRect& r2)
{
  return r1.X1 != r2.X1
      || r1.Y1 != r2.Y1
      || r1.X2 != r2.X2
      || r1.Y2 != r2.Y2;
}
Add an inheritance diagram in every class header 2015-09-25 21:37:19 +02:00			`// File: frect.cpp`
			`// Provides: class FRect`
upload 2015-05-23 13:35:12 +02:00
			`#include "frect.h"`

			`//----------------------------------------------------------------------`
			`// class FRect`
			`//----------------------------------------------------------------------`

			`// constructor and destructor`
			`//----------------------------------------------------------------------`
			`FRect::FRect (const FPoint& p1, const FPoint& p2)`
Some code optimizations 2015-09-20 05:44:50 +02:00			`: X1(short(p1.getX()))`
			`, Y1(short(p1.getY()))`
			`, X2(short(p2.getX()))`
			`, Y2(short(p2.getY()))`
			`{ }`
upload 2015-05-23 13:35:12 +02:00
			`//----------------------------------------------------------------------`
			`FRect::~FRect() // destructor`
Some code optimizations 2015-09-22 04:18:20 +02:00			`{ }`
upload 2015-05-23 13:35:12 +02:00
			`// public methods of FRect`
			`//----------------------------------------------------------------------`
			`bool FRect::isNull() const`
			`{`
			`return X2 == X1-1 && Y2 == Y1-1;`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setX1 (int n)`
			`{`
			`X1 = short(n);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setY1 (int n)`
			`{`
			`Y1 = short(n);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setX2 (int n)`
			`{`
			`X2 = short(n);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setY2 (int n)`
			`{`
			`Y2 = short(n);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setX (int n)`
			`{`
Some code optimizations 2015-09-20 05:44:50 +02:00			`short dX = short(X2 - X1);`
upload 2015-05-23 13:35:12 +02:00			`X1 = short(n);`
			`X2 = short(X1 + dX);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setY (int n)`
			`{`
Some code optimizations 2015-09-20 05:44:50 +02:00			`short dY = short(Y2 - Y1);`
upload 2015-05-23 13:35:12 +02:00			`Y1 = short(n);`
			`Y2 = short(Y1 + dY);`
			`}`

Add methods getPos and setPos to FRect and FWidget 2015-09-27 16:00:13 +02:00			`//----------------------------------------------------------------------`
			`void FRect::setPos (int x, int y)`
			`{`
Fix method setPos in the class FRect 2016-07-31 20:25:25 +02:00			`short dX = short(X2 - X1);`
			`short dY = short(Y2 - Y1);`
Add methods getPos and setPos to FRect and FWidget 2015-09-27 16:00:13 +02:00			`X1 = short(x);`
			`Y1 = short(y);`
Fix method setPos in the class FRect 2016-07-31 20:25:25 +02:00			`X2 = short(X1 + dX);`
			`Y2 = short(Y1 + dY);`
Add methods getPos and setPos to FRect and FWidget 2015-09-27 16:00:13 +02:00			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setPos (const FPoint& p)`
			`{`
Fix method setPos in the class FRect 2016-07-31 20:25:25 +02:00			`short dX = short(X2 - X1);`
			`short dY = short(Y2 - Y1);`
Add methods getPos and setPos to FRect and FWidget 2015-09-27 16:00:13 +02:00			`X1 = short(p.getX());`
			`Y1 = short(p.getY());`
Fix method setPos in the class FRect 2016-07-31 20:25:25 +02:00			`X2 = short(X1 + dX);`
			`Y2 = short(Y1 + dY);`
Add methods getPos and setPos to FRect and FWidget 2015-09-27 16:00:13 +02:00			`}`

upload 2015-05-23 13:35:12 +02:00			`//----------------------------------------------------------------------`
			`void FRect::setWidth (int w)`
			`{`
			`X2 = short(X1 + w - 1);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setHeight (int h)`
			`{`
			`Y2 = short(Y1 + h - 1);`
			`}`

The window size is now changeable with the mouse 2016-09-29 04:29:12 +02:00			`//----------------------------------------------------------------------`
			`void FRect::setSize (int w, int h)`
			`{`
			`X2 = short(X1 + w - 1);`
			`Y2 = short(Y1 + h - 1);`
			`}`

upload 2015-05-23 13:35:12 +02:00			`//----------------------------------------------------------------------`
			`void FRect::setRect (const FRect& r)`
			`{`
			`setRect (r.X1, r.Y1, r.X2-r.X1+1, r.Y2-r.Y1+1);`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setRect (int x, int y, int width, int height)`
			`{`
			`X1 = short(x);`
			`Y1 = short(y);`
			`X2 = short(x+width-1);`
			`Y2 = short(y+height-1);`
			`}`

Replacing the widget position variables by FRect objects 2016-09-25 23:53:48 +02:00			`//----------------------------------------------------------------------`
			`void FRect::setCoordinates (const FPoint& p1, const FPoint& p2)`
			`{`
			`setCoordinates (p1.getX(), p1.getY(), p2.getX(), p2.getY());`
			`}`

			`//----------------------------------------------------------------------`
			`void FRect::setCoordinates (int x1, int y1, int x2, int y2)`
			`{`
			`X1 = short(x1);`
			`Y1 = short(y1);`
			`X2 = short(x2);`
			`Y2 = short(y2);`
			`}`

upload 2015-05-23 13:35:12 +02:00			`//----------------------------------------------------------------------`
			`void FRect::move (int dx, int dy)`
			`{`
Some code optimizations 2015-09-20 05:44:50 +02:00			`X1 = short(X1 + dx);`
			`Y1 = short(Y1 + dy);`
			`X2 = short(X2 + dx);`
			`Y2 = short(Y2 + dy);`
upload 2015-05-23 13:35:12 +02:00			`}`

			`//----------------------------------------------------------------------`
			`void FRect::move (const FPoint& d)`
			`{`
Some code optimizations 2015-09-20 05:44:50 +02:00			`X1 = short(X1 + d.getX());`
			`Y1 = short(Y1 + d.getY());`
			`X2 = short(X2 + d.getX());`
			`Y2 = short(Y2 + d.getY());`
upload 2015-05-23 13:35:12 +02:00			`}`

			`//----------------------------------------------------------------------`
			`bool FRect::contains (int x, int y) const`
			`{`
			`return x >= X1 && x <= X2`
			`&& y >= Y1 && y <= Y2;`
			`}`

			`//----------------------------------------------------------------------`
			`bool FRect::contains (const FPoint& p) const`
			`{`
			`return p.getX() >= X1 && p.getX() <= X2`
			`&& p.getY() >= Y1 && p.getY() <= Y2;`
			`}`

			`//----------------------------------------------------------------------`
			`bool FRect::contains (const FRect& r) const`
			`{`
			`return r.X1 >= X1 && r.X2 <= X2`
			`&& r.Y1 >= Y1 && r.Y2 <= Y2;`
			`}`

			`//----------------------------------------------------------------------`
			`bool FRect::overlap (const FRect &r) const`
			`{`
			`return ( std::max(X1, r.X1) <= std::min(X2, r.X2)`
			`&& std::max(Y1, r.Y1) <= std::min(Y2, r.Y2) );`
			`}`

			`//----------------------------------------------------------------------`
			`FRect FRect::intersect (const FRect& r) const`
			`{`
			`// intersection: this ∩ r`
			`FRect new_rect;`
			`new_rect.X1 = std::max(X1, r.X1);`
			`new_rect.Y1 = std::max(Y1, r.Y1);`
			`new_rect.X2 = std::min(X2, r.X2);`
			`new_rect.Y2 = std::min(Y2, r.Y2);`
			`return new_rect;`
			`}`

Replacing the widget position variables by FRect objects 2016-09-25 23:53:48 +02:00			`//----------------------------------------------------------------------`
			`FRect& FRect::operator = (const FRect& r)`
			`{`
			`X1 = short(r.getX1());`
			`Y1 = short(r.getY1());`
			`X2 = short(r.getX2());`
			`Y2 = short(r.getY2());`
			`return *this;`
			`}`

upload 2015-05-23 13:35:12 +02:00			`//----------------------------------------------------------------------`
			`FRect operator + (const FRect& r, const FPoint& p)`
			`{`
coding style 2015-10-10 04:01:22 +02:00			`return FRect ( r.X1`
			`, r.Y1`
			`, r.X2 - r.X1 + 1 + p.getX()`
			`, r.Y2 - r.Y1 + 1 + p.getY() );`
upload 2015-05-23 13:35:12 +02:00			`}`

			`//----------------------------------------------------------------------`
			`FRect operator - (const FRect& r, const FPoint& p)`
			`{`
coding style 2015-10-10 04:01:22 +02:00			`return FRect ( r.X1`
			`, r.Y1`
			`, r.X2 - r.X1 + 1 - p.getX()`
			`, r.Y2 - r.Y1 + 1 - p.getY() );`
upload 2015-05-23 13:35:12 +02:00			`}`

			`//----------------------------------------------------------------------`
			`bool operator == (const FRect& r1, const FRect& r2)`
			`{`
			`return r1.X1 == r2.X1`
			`&& r1.Y1 == r2.Y1`
			`&& r1.X2 == r2.X2`
			`&& r1.Y2 == r2.Y2;`
			`}`

			`//----------------------------------------------------------------------`
			`bool operator != (const FRect& r1, const FRect& r2)`
			`{`
			`return r1.X1 != r2.X1`
			`\|\| r1.Y1 != r2.Y1`
			`\|\| r1.X2 != r2.X2`
			`\|\| r1.Y2 != r2.Y2;`
			`}`