MBCBoardViewMouse.mm [plain text]
/*
File: MBCBoardViewMouse.mm
Contains: Handle mouse coordinate transformations
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#import "MBCBoardViewMouse.h"
#import "MBCBoardViewDraw.h" // For drawBoardPlane
#import "MBCInteractivePlayer.h"
#import <OpenGL/glu.h>
#import <algorithm>
using std::min;
using std::max;
//
// We're doing a lot of UnProjects. This class encapsulates them.
//
class MBCUnProjector
{
public:
MBCUnProjector(GLdouble winX, GLdouble winY);
MBCPosition UnProject();
MBCPosition UnProject(GLfloat knownY);
private:
GLdouble fWinX;
GLdouble fWinY;
GLint fViewport[4];
GLdouble fMVMatrix[16];
GLdouble fProjMatrix[16];
};
MBCUnProjector::MBCUnProjector(GLdouble winX, GLdouble winY)
: fWinX(winX), fWinY(winY)
{
glGetIntegerv(GL_VIEWPORT, fViewport);
glGetDoublev(GL_MODELVIEW_MATRIX, fMVMatrix);
glGetDoublev(GL_PROJECTION_MATRIX, fProjMatrix);
}
MBCPosition MBCUnProjector::UnProject()
{
MBCPosition pos;
GLfloat z;
GLdouble wv[3];
glReadPixels((GLint)fWinX, (GLint)fWinY, 1, 1, GL_DEPTH_COMPONENT, GL_FLOAT, &z);
gluUnProject(fWinX, fWinY, z, fMVMatrix, fProjMatrix, fViewport,
wv+0, wv+1, wv+2);
pos[0] = wv[0];
pos[1] = wv[1];
pos[2] = wv[2];
return pos;
}
MBCPosition MBCUnProjector::UnProject(GLfloat knownY)
{
MBCPosition pos;
GLdouble p1[3];
GLdouble p0[3];
gluUnProject(fWinX, fWinY, 1.0f, fMVMatrix, fProjMatrix, fViewport,
p1+0, p1+1, p1+2);
gluUnProject(fWinX, fWinY, 0.0f, fMVMatrix, fProjMatrix, fViewport,
p0+0, p0+1, p0+2);
GLdouble yint = (knownY-p1[1])/(p0[1]-p1[1]);
pos[0] = p1[0]+(p0[0]-p1[0])*yint;
pos[1] = knownY;
pos[2] = p1[2]+(p0[2]-p1[2])*yint;
return pos;
}
MBCPosition operator-(const MBCPosition & a, const MBCPosition & b)
{
MBCPosition res;
res[0] = a[0]-b[0];
res[1] = a[1]-b[1];
res[2] = a[2]-b[2];
return res;
}
@implementation MBCBoardView ( Mouse )
- (void) mouseMoved:(NSEvent *)event
{
NSPoint p = [event locationInWindow];
NSPoint l = [self convertPoint:p fromView:nil];
MBCUnProjector unproj(l.x, l.y);
MBCPosition pos = unproj.UnProject();
float pxa = fabs(pos[0]);
float pza = fabs(pos[2]);
NSCursor * cursor = fArrowCursor;
if (pxa > kBoardRadius || pza > kBoardRadius)
if (pxa < kBoardRadius+kBorderWidth+.1f
&& pza < kBoardRadius+kBorderWidth+.1f)
cursor = fHandCursor;
[cursor set];
}
- (void) mouseDown:(NSEvent *)event
{
NSPoint p = [event locationInWindow];
NSPoint l = [self convertPoint:p fromView:nil];
MBCUnProjector unproj(l.x, l.y);
//
// On mousedown, we determine the point on the board surface that
// corresponds to the mouse location by the frontmost Z value, but
// then pretend that the click happened at board surface level. Weirdly
// enough, this seems to give the most natural feeling mouse behavior.
//
MBCPosition pos = unproj.UnProject();
MBCSquare selectedStart = fSelectedDest =
[self positionToSquareOrRegion:&pos];
switch (fSelectedDest) {
case kInvalidSquare:
return;
case kWhitePromoSquare:
case kBlackPromoSquare:
return;
case kBorderRegion:
fInBoardManipulation= true;
fOrigMouse = l;
fCurMouse = l;
fRawAzimuth = fAzimuth;
fSelectedPiece = 0;
[NSCursor hide];
[NSEvent startPeriodicEventsAfterDelay:0.1f withPeriod:0.1f];
break;
default:
if (!fWantMouse || fInAnimation || pos[1] < 0.1)
return;
//
// Let interactive player decide whether we hit one of their pieces
//
[fInteractive startSelection:fSelectedDest];
if (!fSelectedPiece) // Apparently not...
return;
break;
}
pos[1] = 0.0f;
fSelectedStartPos = pos;
gettimeofday(&fLastRedraw, NULL);
fLastSelectedPos = pos;
//
// For better interactivity, we stop the engine while a drag is in progress
//
[[fController engine] interruptEngine];
[self drawNow];
NSDate * whenever = [NSDate distantFuture];
for (bool goOn = true; goOn; ) {
event =
[NSApp nextEventMatchingMask:
NSPeriodicMask|NSLeftMouseUpMask|NSLeftMouseDraggedMask
untilDate:whenever inMode:NSEventTrackingRunLoopMode
dequeue:YES];
switch ([event type]) {
case NSPeriodic:
case NSLeftMouseDragged:
[self dragAndRedraw:event forceRedraw:NO];
break;
case NSLeftMouseUp: {
[self dragAndRedraw:event forceRedraw:YES];
[fInteractive endSelection:fSelectedDest];
goOn = false;
if (fInBoardManipulation) {
fInBoardManipulation = false;
[NSCursor unhide];
[NSEvent stopPeriodicEvents];
}
break; }
default:
/* Ignore any other kind of event. */
break;
}
}
fSelectedDest = kInvalidSquare;
}
- (void) mouseUp:(NSEvent *)event
{
if (!fWantMouse || fInAnimation)
return;
MBCPiece promo;
if (fSelectedDest == kWhitePromoSquare)
promo = [fBoard defaultPromotion:YES];
else if (fSelectedDest == kBlackPromoSquare)
promo = [fBoard defaultPromotion:NO];
else
return;
switch (promo) {
case QUEEN:
if (fVariant == kVarSuicide)
promo = KING; // King promotion is very popular in suicide
else
promo = KNIGHT; // Second most useful
break;
case KING: // Suicide only
promo = KNIGHT;
break;
case KNIGHT:
promo = ROOK;
break;
case ROOK:
promo = BISHOP;
break;
case BISHOP:
promo = QUEEN;
break;
}
[fBoard setDefaultPromotion:promo
for:fSelectedDest == kWhitePromoSquare];
[self setNeedsDisplay:YES];
}
- (void) dragAndRedraw:(NSEvent *)event forceRedraw:(BOOL)force
{
if ([event type] != NSPeriodic) {
NSPoint p = [event locationInWindow];
NSPoint l = [self convertPoint:p fromView:nil];
fCurMouse = l;
//
// On drag, we can use a fairly fast interpolation to determine
// the 3D coordinate using the y where we touched the piece
//
MBCUnProjector unproj(l.x, l.y);
fSelectedPos = unproj.UnProject(0.0f);
[self snapToSquare:&fSelectedPos];
}
struct timeval now;
gettimeofday(&now, NULL);
MBCPosition delta = fSelectedPos-fLastSelectedPos;
GLfloat d2 = delta[0]*delta[0]+delta[2]*delta[2];
NSTimeInterval dt =
now.tv_sec - fLastRedraw.tv_sec
+ 0.000001 * (now.tv_usec - fLastRedraw.tv_usec);
const float kTiltSpeed = 0.50f;
const float kSpinSpeed = 0.50f;
const float kThreshold = 10.0f;
const float kAzimuthRound = 5.0f;
if (force) {
[self setNeedsDisplay:YES];
} else if (fSelectedDest == kBorderRegion) {
float dx = fCurMouse.x-fOrigMouse.x;
float dy = fCurMouse.y-fOrigMouse.y;
if (fabs(dx) > fabs(dy) && fabs(dx) > kThreshold) {
fRawAzimuth += dx*dt*kSpinSpeed;
fRawAzimuth = fmod(fRawAzimuth+360.0f, 360.0f);
float angle = fmod((fAzimuth = fRawAzimuth), 90.0f);
if (angle < kAzimuthRound)
fAzimuth -= angle;
else if (angle > 90.0f-kAzimuthRound)
fAzimuth += 90.0f-angle;
fNeedPerspective= true;
fLastRedraw = now;
[self drawNow];
} else if (fabs(dy) > kThreshold) {
fElevation -= dy*dt*kTiltSpeed;
fElevation =
max(kMinElevation, min(kMaxElevation, fElevation));
fNeedPerspective= true;
fLastRedraw = now;
[self drawNow];
}
} else if (d2 > 25.0f || (d2 > 1.0f && dt > 0.02)) {
fSelectedDest = [self positionToSquare:&fSelectedPos];
fLastRedraw = now;
[self drawNow];
}
}
@end
// Local Variables:
// mode:ObjC
// End: