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authorsandman <sandman>2002-06-25 21:19:29 (UTC)
committer sandman <sandman>2002-06-25 21:19:29 (UTC)
commit27d9215054a51c1d605e0f4e77abcee3c96e8270 (patch) (unidiff)
tree4ece274016a03911beaa9fd2e011440a6af10877
parentd64bb324d4b617479dab8bf967f954a66f0faa29 (diff)
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Fix for the calibration routine I broke with my latest "enhancement"
(it is not that trivial to detect all sort of rotations and permutations of the x and y axis)
Diffstat (more/less context) (ignore whitespace changes)
-rw-r--r--core/apps/calibrate/calibrate.cpp52
1 files changed, 42 insertions, 10 deletions
diff --git a/core/apps/calibrate/calibrate.cpp b/core/apps/calibrate/calibrate.cpp
index 54fa8ec..1f4fb1b 100644
--- a/core/apps/calibrate/calibrate.cpp
+++ b/core/apps/calibrate/calibrate.cpp
@@ -98,12 +98,44 @@ QPoint Calibrate::fromDevice( const QPoint &p )
98bool Calibrate::sanityCheck() 98bool Calibrate::sanityCheck()
99{ 99{
100 QRect r ( cd.devPoints[ QWSPointerCalibrationData::TopLeft ], cd.devPoints[ QWSPointerCalibrationData::BottomRight ] ); 100 QPoint tl = cd.devPoints[QWSPointerCalibrationData::TopLeft];
101 r = r. normalize ( ); // This should also handle rotated TS controllers 101 QPoint tr = cd.devPoints[QWSPointerCalibrationData::TopRight];
102 102 QPoint bl = cd.devPoints[QWSPointerCalibrationData::BottomLeft];
103 cd. devPoints [QWSPointerCalibrationData::TopRight] = r. topRight ( ); 103 QPoint br = cd.devPoints[QWSPointerCalibrationData::BottomRight];
104 cd. devPoints [QWSPointerCalibrationData::BottomLeft] = r. bottomLeft ( ); 104
105 cd. devPoints [QWSPointerCalibrationData::Center] = r. center ( ); 105 // not needed anywhere .. just calculate it, so it's there
106 106 cd. devPoints [QWSPointerCalibrationData::Center] = QRect ( tl, br ). normalize ( ). center ( );
107 return true; 107
108 int dlx = QABS( bl. x ( ) - tl. x ( ));
109 int dly = QABS( bl. y ( ) - tl. y ( ));
110 int drx = QABS( br. x ( ) - tr. x ( ));
111 int dry = QABS( br. y ( ) - tr. y ( ));
112 int dtx = QABS( tr. x ( ) - tl. x ( ));
113 int dty = QABS( tr. y ( ) - tl. y ( ));
114 int dbx = QABS( br. x ( ) - bl. x ( ));
115 int dby = QABS( br. y ( ) - bl. y ( ));
116
117 int dl = (int) ::sqrt (( dlx * dlx ) + ( dly * dly )); // calculate vector lengths for all sides
118 int dr = (int) ::sqrt (( drx * drx ) + ( dry * dry ));
119 int dt = (int) ::sqrt (( dtx * dtx ) + ( dty * dty ));
120 int db = (int) ::sqrt (( dbx * dbx ) + ( dby * dby ));
121
122 // Calculate leeway for x/y (we do not care if diff1/diff2 is for x or y here !)
123 int diff1 = QABS( dl - dr );
124 int avg1 = ( dl + dr ) / 2;
125 int diff2 = QABS( dt - db );
126 int avg2 = ( dt + db ) / 2;
127
128 // Calculate leeway for "real" vector length against "manhattan" vector length
129 // This is a check, if the rect is rotated (other then 0/90/180/270)
130 // It needs to be performed only for the triange (bl, tl, tr)
131 int diff3 = QABS(( dlx + dly + dtx + dty ) - ( dl + dt ));
132 int avg3 = (( dlx + dly + dtx + dty ) + ( dl + dt )) / 2;
133
134 if (( diff1 > ( avg1 / 20 )) || // 5% leeway
135 ( diff2 > ( avg2 / 20 )) ||
136 ( diff3 > ( avg3 / 20 )))
137 return false;
138 else
139 return true;
108 } 140 }
109 141
@@ -167,6 +199,6 @@ void Calibrate::mouseReleaseEvent( QMouseEvent * )
167 199
168 cd.devPoints[ location ] = penPos; 200 cd.devPoints[ location ] = penPos;
169 if ( location == QWSPointerCalibrationData::TopLeft ) { 201 if ( location < QWSPointerCalibrationData::TopRight ) {
170 location = QWSPointerCalibrationData::BottomRight; 202 location = (QWSPointerCalibrationData::Location) ( int( location ) + 1 );
171 } 203 }
172 else { 204 else {