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Functions | |
| QImage * | correctImageTilt (QString filename, QPoint p1, QPoint p2, StatusWidget *status) |
Function Documentation
| QImage* correctImageTilt | ( | QString | filename, |
| QPoint | p1, | ||
| QPoint | p2, | ||
| StatusWidget * | status | ||
| ) |
Definition at line 100 of file tilt.cpp.
References bottomRight, editedImage, findTwoLineIntersection(), StatusWidget::incrementProgress(), interpolatedPixelValue(), newProgress, StatusWidget::setStatus(), StatusWidget::showProgressBar(), topLeft, updateIncrement, DPoint::x(), and DPoint::y().
Referenced by EditingInterface::finishCorrectTilt().
{
//first compute distance between two points or "radius"
int dx = p2.x() - p1.x();
int dy = p2.y() - p1.y();
//determine tilt angle
int delta = 0;
//compute recirpocal of distance between points
double recip_r = 1.0 / sqrt( (double) (dx*dx + dy*dy) );
//compute angle with horizontal axis
if( QABS(dx) > QABS(dy) )
{
delta = dy;
if(dx > 0) delta = -delta;
}
//compute angle with vertical axis
else
{
delta = dx;
if(dy < 0) delta = -delta;
}
double sinTheta = (delta * recip_r);
double theta = asin( sinTheta );
double cosTheta = cos( theta );
//if angle is 0 (improbable but possible) then quit now
if( theta == 0 )
return NULL;
//load original and edited images
QImage originalImage( filename );
//convert to 32-bit depth if necessary
if( originalImage.depth() < 32 ) { originalImage = originalImage.convertDepth( 32, Qt::AutoColor ); }
QImage rotatedImage( originalImage.width(), originalImage.height(), originalImage.depth() );
//setup progress bar
QString statusMessage = qApp->translate( "correctImageTilt", "Correcting Tilt:" );
status->showProgressBar( statusMessage, 200 );
qApp->processEvents();
//during the first phase update the status bar for every 1% of image pixels that are processed
int updateIncrement = (int) ( 0.01 * originalImage.width() * originalImage.height() );
int newProgress = 0;
//set each pixel to the rotated value
double xp, yp;
double w2 = 0.5 * rotatedImage.width();
double h2 = 0.5 * rotatedImage.height();
int x,y;
uchar* scanLine;
QRgb* rgb;
for( y=0; y<rotatedImage.height(); y++)
{
//iterate over each selected pixel in scanline
scanLine = rotatedImage.scanLine(y);
for( x=0; x<rotatedImage.width(); x++)
{
//compute unrotated coordinates
xp = cosTheta*(x-w2) + sinTheta*(y-h2) + w2;
yp = -sinTheta*(x-w2) + cosTheta*(y-h2) + h2;
//set unrotated value
rgb = ((QRgb*)scanLine+x);
*rgb = interpolatedPixelValue( xp, yp, &originalImage);
//update status bar if significant progress has been made since last update
newProgress++;
if(newProgress >= updateIncrement)
{
newProgress = 0;
status->incrementProgress();
qApp->processEvents();
}
}
}
//find rotated corners
double nTheta = -theta;
double sinNTheta = sin( nTheta );
double cosNTheta = cos( nTheta );
DPoint topLeft = DPoint( cosNTheta*(-w2) + sinNTheta*(-h2) + w2,
-sinNTheta*(-w2) + cosNTheta*(-h2) + h2 );
DPoint topRight = DPoint( cosNTheta*(w2) + sinNTheta*(-h2) + w2,
-sinNTheta*(w2) + cosNTheta*(-h2) + h2 );
DPoint bottomLeft = DPoint( cosNTheta*(-w2) + sinNTheta*(h2) + w2,
-sinNTheta*(-w2) + cosNTheta*(h2) + h2 );
DPoint bottomRight = DPoint( cosNTheta*(w2) + sinNTheta*(h2) + w2,
-sinNTheta*(w2) + cosNTheta*(h2) + h2 );
//determine which of these points are which in their rotated form
DPoint top, bottom, left, right;
if( theta < 0 )
{
top = topRight;
bottom = bottomLeft;
left = topLeft;
right = bottomRight;
}
else
{
top = topLeft;
bottom = bottomRight;
left = bottomLeft;
right = topRight;
}
//construct true corners
DPoint trueTopLeft ( 0, 0 );
DPoint trueTopRight ( rotatedImage.width()-1, 0 );
DPoint trueBottomLeft ( 0, rotatedImage.height()-1 );
DPoint trueBottomRight( rotatedImage.width()-1, rotatedImage.height()-1 );
//find intersections with image boundary
DPoint topEdgeL = findTwoLineIntersection( left, top, trueTopLeft, trueTopRight );
DPoint topEdgeR = findTwoLineIntersection( top, right, trueTopLeft, trueTopRight );
DPoint bottomEdgeL = findTwoLineIntersection( left, bottom, trueBottomLeft, trueBottomRight );
DPoint bottomEdgeR = findTwoLineIntersection( bottom, right, trueBottomLeft, trueBottomRight );
DPoint leftEdgeT = findTwoLineIntersection( left, top, trueTopLeft, trueBottomLeft );
DPoint leftEdgeB = findTwoLineIntersection( left, bottom, trueTopLeft, trueBottomLeft );
DPoint rightEdgeT = findTwoLineIntersection( right, top, trueTopRight, trueBottomRight );
DPoint rightEdgeB = findTwoLineIntersection( right, bottom, trueTopRight, trueBottomRight );
//shot rays out from image center to each true corner and find intersections with clipped corners
DPoint center( (int)w2, (int)h2 );
DPoint safeTopLeft = findTwoLineIntersection( center, trueTopLeft, leftEdgeT, topEdgeL );
DPoint safeTopRight = findTwoLineIntersection( center, trueTopRight, rightEdgeT, topEdgeR );
DPoint safeBottomLeft = findTwoLineIntersection( center, trueBottomLeft, leftEdgeB, bottomEdgeL );
DPoint safeBottomRight = findTwoLineIntersection( center, trueBottomRight, rightEdgeB, bottomEdgeR );
//find constrained area
double minY = QMAX( safeTopLeft.y(), safeTopRight.y() );
double maxY = QMIN( safeBottomLeft.y(), safeBottomRight.y() );
double minX = QMAX( safeTopLeft.x(), safeBottomLeft.x() );
double maxX = QMIN( safeTopRight.x(), safeBottomRight.x() );
//find contrained area in integer coordinates. this is semi-tricky.
//if the minimum values decimal porition is nonzero then increment by one
// (eg 5.37 -> 6)
int xMin = (int) minX;
int xMax = (int) maxX;
int yMin = (int) minY;
int yMax = (int) maxY;
if( xMin < minX ) xMin++;
if( yMin < minY ) yMin++;
//construct cropped rotated image
QImage* editedImage = new QImage( xMax - xMin + 1,
yMax - yMin + 1,
rotatedImage.depth() );
//during the second phase update the status bar for every 1% of cropped pixels that are procesed
updateIncrement = (int) ( 0.01 * editedImage->width() * editedImage->height() );
newProgress = 0;
int x2,y2;
uchar* scanLine2;
QRgb* rgb2;
y2 = 0;
for( y=yMin; y<=yMax; y++, y2++)
{
//iterate over each selected pixel in scanline
scanLine = rotatedImage.scanLine(y);
scanLine2 = editedImage->scanLine(y2);
x2 = 0;
for( x=xMin; x<=xMax; x++, x2++)
{
rgb = ((QRgb*)scanLine +x );
rgb2 = ((QRgb*)scanLine2+x2);
*rgb2 = *rgb;
//update status bar if significant progress has been made since last update
newProgress++;
if(newProgress >= updateIncrement)
{
newProgress = 0;
status->incrementProgress();
qApp->processEvents();
}
}
}
//remove status bar
status->setStatus( "" );
qApp->processEvents();
//return pointer to edited image
return editedImage;
}
