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// 7 september 2015
# include "uipriv_windows.hpp"
# include "draw.hpp"
// TODO
// - write a test for transform followed by clip and clip followed by transform to make sure they work the same as on gtk+ and cocoa
// - write a test for nested transforms for gtk+
struct uiDrawPath {
ID2D1PathGeometry * path ;
ID2D1GeometrySink * sink ;
BOOL inFigure ;
} ;
uiDrawPath * uiDrawNewPath ( uiDrawFillMode fillmode )
{
uiDrawPath * p ;
HRESULT hr ;
p = uiNew ( uiDrawPath ) ;
hr = d2dfactory - > CreatePathGeometry ( & ( p - > path ) ) ;
if ( hr ! = S_OK )
logHRESULT ( L " error creating path " , hr ) ;
hr = p - > path - > Open ( & ( p - > sink ) ) ;
if ( hr ! = S_OK )
logHRESULT ( L " error opening path " , hr ) ;
switch ( fillmode ) {
case uiDrawFillModeWinding :
p - > sink - > SetFillMode ( D2D1_FILL_MODE_WINDING ) ;
break ;
case uiDrawFillModeAlternate :
p - > sink - > SetFillMode ( D2D1_FILL_MODE_ALTERNATE ) ;
break ;
}
return p ;
}
void uiDrawFreePath ( uiDrawPath * p )
{
if ( p - > inFigure )
p - > sink - > EndFigure ( D2D1_FIGURE_END_OPEN ) ;
if ( p - > sink ! = NULL )
// TODO close sink first?
p - > sink - > Release ( ) ;
p - > path - > Release ( ) ;
uiFree ( p ) ;
}
void uiDrawPathNewFigure ( uiDrawPath * p , double x , double y )
{
D2D1_POINT_2F pt ;
if ( p - > inFigure )
p - > sink - > EndFigure ( D2D1_FIGURE_END_OPEN ) ;
pt . x = x ;
pt . y = y ;
p - > sink - > BeginFigure ( pt , D2D1_FIGURE_BEGIN_FILLED ) ;
p - > inFigure = TRUE ;
}
// Direct2D arcs require a little explanation.
// An arc in Direct2D is defined by the chord between the endpoints.
// There are four possible arcs with the same two endpoints that you can draw this way.
// See https://www.youtube.com/watch?v=ATS0ANW1UxQ for a demonstration.
// There is a property rotationAngle which deals with the rotation /of the entire ellipse that forms an ellpitical arc/ - it's effectively a transformation on the arc.
// That is to say, it's NOT THE SWEEP.
// The sweep is defined by the start and end points and whether the arc is "large".
// As a result, this design does not allow for full circles or ellipses with a single arc; they have to be simulated with two.
struct arc {
double xCenter ;
double yCenter ;
double radius ;
double startAngle ;
double sweep ;
int negative ;
} ;
// this is used for the comparison below
// if it falls apart it can be changed later
# define aerMax 6 * DBL_EPSILON
static void drawArc ( uiDrawPath * p , struct arc * a , void ( * startFunction ) ( uiDrawPath * , double , double ) )
{
double sinx , cosx ;
double startX , startY ;
double endX , endY ;
D2D1_ARC_SEGMENT as ;
BOOL fullCircle ;
double absSweep ;
// as above, we can't do a full circle with one arc
// simulate it with two half-circles
// of course, we have a dragon: equality on floating-point values!
// I've chosen to do the AlmostEqualRelative() technique in https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
fullCircle = FALSE ;
// use the absolute value to tackle both ≥2π and ≤-2π at the same time
absSweep = fabs ( a - > sweep ) ;
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if ( absSweep > ( 2 * uiPi ) ) // this part is easy
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fullCircle = TRUE ;
else {
double aerDiff ;
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aerDiff = fabs ( absSweep - ( 2 * uiPi ) ) ;
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// if we got here then we know a->sweep is larger (or the same!)
fullCircle = aerDiff < = absSweep * aerMax ;
}
// TODO make sure this works right for the negative direction
if ( fullCircle ) {
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a - > sweep = uiPi ;
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drawArc ( p , a , startFunction ) ;
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a - > startAngle + = uiPi ;
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drawArc ( p , a , NULL ) ;
return ;
}
// first, figure out the arc's endpoints
// unfortunately D2D1SinCos() is only defined on Windows 8 and newer
// the MSDN page doesn't say this, but says it requires d2d1_1.h, which is listed as only supported on Windows 8 and newer elsewhere on MSDN
// so we must use sin() and cos() and hope it's right...
sinx = sin ( a - > startAngle ) ;
cosx = cos ( a - > startAngle ) ;
startX = a - > xCenter + a - > radius * cosx ;
startY = a - > yCenter + a - > radius * sinx ;
sinx = sin ( a - > startAngle + a - > sweep ) ;
cosx = cos ( a - > startAngle + a - > sweep ) ;
endX = a - > xCenter + a - > radius * cosx ;
endY = a - > yCenter + a - > radius * sinx ;
// now do the initial step to get the current point to be the start point
// this is either creating a new figure, drawing a line, or (in the case of our full circle code above) doing nothing
if ( startFunction ! = NULL )
( * startFunction ) ( p , startX , startY ) ;
// now we can draw the arc
as . point . x = endX ;
as . point . y = endY ;
as . size . width = a - > radius ;
as . size . height = a - > radius ;
as . rotationAngle = 0 ; // as above, not relevant for circles
if ( a - > negative )
as . sweepDirection = D2D1_SWEEP_DIRECTION_COUNTER_CLOCKWISE ;
else
as . sweepDirection = D2D1_SWEEP_DIRECTION_CLOCKWISE ;
// TODO explain the outer if
if ( ! a - > negative )
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if ( a - > sweep > uiPi )
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as . arcSize = D2D1_ARC_SIZE_LARGE ;
else
as . arcSize = D2D1_ARC_SIZE_SMALL ;
else
// TODO especially this part
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if ( a - > sweep > uiPi )
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as . arcSize = D2D1_ARC_SIZE_SMALL ;
else
as . arcSize = D2D1_ARC_SIZE_LARGE ;
p - > sink - > AddArc ( & as ) ;
}
void uiDrawPathNewFigureWithArc ( uiDrawPath * p , double xCenter , double yCenter , double radius , double startAngle , double sweep , int negative )
{
struct arc a ;
a . xCenter = xCenter ;
a . yCenter = yCenter ;
a . radius = radius ;
a . startAngle = startAngle ;
a . sweep = sweep ;
a . negative = negative ;
drawArc ( p , & a , uiDrawPathNewFigure ) ;
}
void uiDrawPathLineTo ( uiDrawPath * p , double x , double y )
{
D2D1_POINT_2F pt ;
pt . x = x ;
pt . y = y ;
p - > sink - > AddLine ( pt ) ;
}
void uiDrawPathArcTo ( uiDrawPath * p , double xCenter , double yCenter , double radius , double startAngle , double sweep , int negative )
{
struct arc a ;
a . xCenter = xCenter ;
a . yCenter = yCenter ;
a . radius = radius ;
a . startAngle = startAngle ;
a . sweep = sweep ;
a . negative = negative ;
drawArc ( p , & a , uiDrawPathLineTo ) ;
}
void uiDrawPathBezierTo ( uiDrawPath * p , double c1x , double c1y , double c2x , double c2y , double endX , double endY )
{
D2D1_BEZIER_SEGMENT s ;
s . point1 . x = c1x ;
s . point1 . y = c1y ;
s . point2 . x = c2x ;
s . point2 . y = c2y ;
s . point3 . x = endX ;
s . point3 . y = endY ;
p - > sink - > AddBezier ( & s ) ;
}
void uiDrawPathCloseFigure ( uiDrawPath * p )
{
p - > sink - > EndFigure ( D2D1_FIGURE_END_CLOSED ) ;
p - > inFigure = FALSE ;
}
void uiDrawPathAddRectangle ( uiDrawPath * p , double x , double y , double width , double height )
{
// this is the same algorithm used by cairo and Core Graphics, according to their documentations
uiDrawPathNewFigure ( p , x , y ) ;
uiDrawPathLineTo ( p , x + width , y ) ;
uiDrawPathLineTo ( p , x + width , y + height ) ;
uiDrawPathLineTo ( p , x , y + height ) ;
uiDrawPathCloseFigure ( p ) ;
}
void uiDrawPathEnd ( uiDrawPath * p )
{
HRESULT hr ;
if ( p - > inFigure ) {
p - > sink - > EndFigure ( D2D1_FIGURE_END_OPEN ) ;
// needed for uiDrawFreePath()
p - > inFigure = FALSE ;
}
hr = p - > sink - > Close ( ) ;
if ( hr ! = S_OK )
logHRESULT ( L " error closing path " , hr ) ;
p - > sink - > Release ( ) ;
// also needed for uiDrawFreePath()
p - > sink = NULL ;
}
ID2D1PathGeometry * pathGeometry ( uiDrawPath * p )
{
if ( p - > sink ! = NULL )
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userbug ( " You cannot draw with a uiDrawPath that was not ended. (path: %p) " , p ) ;
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return p - > path ;
}