#include "line.h"
#include <QtGui>
+#include "container.h"
#include "dimension.h"
+#include "mathconstants.h"
#include "painter.h"
Vector current(point2 - point1);
Vector v = current.Unit() * length;
Vector v2 = point1 + v;
-// painter->DrawLine((int)point1.x, (int)point1.y, (int)v2.x, (int)v2.y);
painter->DrawLine(point1, v2);
if (current.Magnitude() > length)
{
painter->SetPen(QPen(QColor(128, 0, 0), 1.0, Qt::DashLine));
-// painter->DrawLine((int)v2.x, (int)v2.y, (int)point2.x, (int)point2.y);
painter->DrawLine(v2, point2);
}
}
-// Problem: when drawing at large zoom levels, this throws away precision thus
-// causing the line to rendered too short. !!! FIX !!! [DONE]
else
-// painter->DrawLine((int)position.x, (int)position.y, (int)endpoint.x, (int)endpoint.y);
painter->DrawLine(position, endpoint);
+
+ // If we're dragging an endpoint, draw an information panel showing both
+ // the length and angle being set.
+ if (draggingHandle1 || draggingHandle2)
+ {
+ double absAngle = (Vector(endpoint - position).Angle()) * RADIANS_TO_DEGREES;
+ double absLength = Vector(position - endpoint).Magnitude();
+
+ QString text = QObject::tr("Length: %1 in.\n") + QChar(0x2221) + QObject::tr(": %2");
+ text = text.arg(absLength).arg(absAngle);
+#if 0
+ QPen pen = QPen(QColor(0x00, 0xFF, 0x00), 1.0, Qt::SolidLine);
+ painter->SetPen(pen);
+ painter->SetBrush(QBrush(QColor(0x40, 0xFF, 0x40, 0x9F)));
+ QRectF textRect(10.0, 10.0, 270.0, 70.0); // x, y, w, h (in Qt coords)
+ painter->DrawRoundedRect(textRect, 7.0, 7.0);
+
+ textRect.setLeft(textRect.left() + 14);
+ painter->SetFont(*Object::font);
+ pen = QPen(QColor(0x00, 0x5F, 0xDF));
+ painter->SetPen(pen);
+ painter->DrawText(textRect, Qt::AlignVCenter, text);
+#else
+ painter->DrawInformativeText(text);
+#endif
+ }
}
/*virtual*/ Vector Line::Center(void)
objectWasDragged = false;
HitTest(point);
+ // Now that we've done our hit testing on the non-snapped point, snap it if
+ // necessary...
+ if (snapToGrid)
+ point = SnapPointToGrid(point);
+
+// this is shite. this should be checked for in the Container, not here!
+#warning "!!! This should be checked for in Container, not here !!!"
+ // If we're part of a non-top-level container, send this signal to it
+ if (parent->type == OTContainer && !((Container *)parent)->isTopLevelContainer
+ && (hitLine || hitPoint1 || hitPoint2))
+ {
+ parent->state = OSSelected;
+ return true;
+ }
+
/*
There's a small problem here with the implementation: You can have a dimension tied
to only one point while at the same time you can have a dimension sitting on this line.
}
}
-
if (state == OSInactive)
{
-//printf("Line: pp = %lf, length = %lf, distance = %lf\n", parameterizedPoint, lineSegment.Magnitude(), distance);
-//printf(" v1.Magnitude = %lf, v2.Magnitude = %lf\n", v1.Magnitude(), v2.Magnitude());
-//printf(" point = %lf,%lf,%lf; p1 = %lf,%lf,%lf; p2 = %lf,%lf,%lf\n", point.x, point.y, point.z, position.x, position.y, position.z, endpoint.x, endpoint.y, endpoint.z);
-//printf(" \n", );
//How to translate this into pixels from Document space???
-//Maybe we need to pass a scaling factor in here from the caller? That would make sense, as
-//the caller knows about the zoom factor and all that good kinda crap
-//I think what's needed is an Object class variable/method that can be changed by the TLC and
-//called in derived classes to properly scale the location to the current zoom level. That *should* work.
-
-// ALSO: Need to code a global (read: Object class) variable that tells use whether a modifier
-// key was pressed in addition to the mouse click, so we can do stuff like, say, hold
-// down CTRL and be able to do multiple selecting of objects (in that case, we would
-// keep the Object state from changing).
+//Maybe we need to pass a scaling factor in here from the caller? That would
+//make sense, as the caller knows about the zoom factor and all that good kinda
+//crap
+//I think what's needed is an Object class variable/method that can be changed
+//by the TLC and called in derived classes to properly scale the location to
+//the current zoom level. That *should* work.
+
+// ALSO: Need to code a global (read: Object class) variable that tells use
+// whether a modifier key was pressed in addition to the mouse click, so
+// we can do stuff like, say, hold down CTRL and be able to do multiple
+// selecting of objects (in that case, we would keep the Object state
+// from changing).
if (hitPoint1)
{
oldState = state;
state = OSSelected;
- oldPoint = position; //maybe "position"?
+ oldPoint = position;
draggingHandle1 = true;
return true;
}
{
oldState = state;
state = OSSelected;
- oldPoint = endpoint; //maybe "position"?
+ oldPoint = endpoint;
draggingHandle2 = true;
return true;
}
}
else if (state == OSSelected)
{
- // Here we test for collision with handles as well! (SOON!) [I think it works...NOPE]
-/*
-Like so:
- if (v1.Magnitude() < 2.0) // Handle #1
- else if (v2.Magnitude() < 2.0) // Handle #2
-*/
if (hitLine)
{
oldState = state;
/*virtual*/ void Line::PointerMoved(Vector point)
{
- // Hit test tells us what we hit (if anything) through boolean variables. It
- // also tells us whether or not the state changed.
- needUpdate = HitTest(point);
+ if (selectionInProgress)
+ {
+ // Check for whether or not the rect contains this line
+#if 0
+ if (selection.normalized().contains(Extents()))
+#else
+// if (selection.normalized().contains(position.x, position.y)
+// && selection.normalized().contains(endpoint.x, endpoint.y))
+ if (selection.contains(position.x, position.y)
+ && selection.contains(endpoint.x, endpoint.y))
+#endif
+ state = OSSelected;
+ else
+ state = OSInactive;
+
+ return;
+ }
+
+ // Hit test tells us what we hit (if anything) through boolean variables. (It
+ // also tells us whether or not the state changed. --not any more)
+ SaveHitState();
+ HitTest(point);
+ needUpdate = HitStateChanged();
objectWasDragged = (draggingLine | draggingHandle1 | draggingHandle2);
Vector point1 = (draggingHandle1 ? endpoint : position);
Vector point2 = (draggingHandle1 ? position : endpoint);
-#if 0
- Vector current(point2, point1);
- Vector v = current.Unit() * length;
- Vector v2 = point1 + v;
-
- //bleh
- if (!Object::fixedLength)
- v2 = point2;
-#endif
-
if (Object::fixedAngle)
{
// Here we calculate the component of the current vector along the fixed angle.
}
else // endpoint
{
-// Vector v1 = endpoint - position;
Vector v = Vector(endpoint - position).Unit() * length;
endpoint = position + v;
}
}
else
{
- // Otherwise, we calculate the new length, just in case on the next move
- // it turns out to have a fixed length. :-)
+ // Otherwise, we calculate the new length, just in case on the next
+ // move it turns out to have a fixed length. :-)
length = Vector(endpoint - position).Magnitude();
}
if (!Object::fixedAngle)
{
- // Calculate the new angle, just in case on the next move it turns out to
- // be fixed. :-)
+ // Calculate the new angle, just in case on the next move it turns
+ // out to be fixed. :-)
angle = Vector(endpoint - position).Unit();
}
}
draggingHandle1 = false;
draggingHandle2 = false;
-// hitPoint1 = hitPoint2 = hitLine = false;
-
- // Here we check for just a click: If object was clicked and dragged, then
- // revert to the old state (OSInactive). Otherwise, keep the new state that
- // we set.
-/*Maybe it would be better to just check for "object was dragged" state and not have to worry
-about keeping track of old states...
-*/
if (objectWasDragged)
state = oldState;
}
+/*virtual*/ bool Line::HitTest(Point point)
+{
+// SaveHitState();
+
+ hitPoint1 = hitPoint2 = hitLine = false;
+ Vector lineSegment = endpoint - position;
+ Vector v1 = point - position;
+ Vector v2 = point - endpoint;
+ double t = Vector::Parameter(position, endpoint, point);
+ double distance;
+
+ // Geometric interpretation:
+ // The parameter "t" on the vector lineSegment is where the normal of
+ // lineSegment coincides with point. If t < 0, the normal lies beyond the
+ // 1st endpoint. If t > 1, then the normal lies beyond the 2nd endpoint. We
+ // only calculate the length of the normal between the point and the
+ // lineSegment when the parameter is between 0 and 1.
+
+ // Geometric interpretation of "distance = ?Det?(ls, v1) / |ls|":
+ // If the segment endpoints are s and e, and the point is p, then the test
+ // for the perpendicular intercepting the segment is equivalent to insisting
+ // that the two dot products {s-e}.{s-p} and {e-s}.{e-p} are both non-negative.
+ // Perpendicular distance from the point to the segment is computed by first
+ // computing the area of the triangle the three points form, then dividing by
+ // the length of the segment. Distances are done just by the Pythagorean
+ // theorem. Twice the area of the triangle formed by three points is the
+ // determinant of the following matrix:
+ //
+ // sx sy 1 0 0 1 0 0 0
+ // ex ey 1 ==> ex ey 1 ==> ex ey 0
+ // px py 1 px py 1 px py 0
+ //
+ // By translating the start point to the origin, and subtracting row 1 from
+ // all other rows, we end up with the matrix on the right which greatly
+ // simplifies the calculation of the determinant.
+
+ if (t < 0.0)
+ distance = v1.Magnitude();
+ else if (t > 1.0)
+ distance = v2.Magnitude();
+ else
+ // distance = ?Det?(ls, v1) / |ls|
+ distance = fabs((lineSegment.x * v1.y - v1.x * lineSegment.y)
+ / lineSegment.Magnitude());
+
+ if ((v1.Magnitude() * Painter::zoom) < 8.0)
+ hitPoint1 = true;
+ else if ((v2.Magnitude() * Painter::zoom) < 8.0)
+ hitPoint2 = true;
+ else if ((distance * Painter::zoom) < 5.0)
+ hitLine = true;
+
+ return (hitPoint1 || hitPoint2 || hitLine ? true : false);
+// return HitStateChanged();
+}
+
+
// Check to see if the point passed in coincides with any we have. If so, return a
// pointer to it; otherwise, return NULL.
/*virtual*/ Vector * Line::GetPointAt(Vector v)
/*virtual*/ void Line::Enumerate(FILE * file)
{
- fprintf(file, "LINE (%lf,%lf) (%lf,%lf)\n", position.x, position.y, endpoint.x, endpoint.y);
+ fprintf(file, "LINE %i (%lf,%lf) (%lf,%lf)\n", layer, position.x, position.y, endpoint.x, endpoint.y);
}
{
#warning "!!! This doesn't take care of attached Dimensions !!!"
/*
-This is a real problem. While having a pointer in the Dimension to this line's points is fast & easy,
-it creates a huge problem when trying to replicate an object like this.
+This is a real problem. While having a pointer in the Dimension to this line's points
+is fast & easy, it creates a huge problem when trying to replicate an object like this.
-Maybe a way to fix that then, is to have reference numbers instead of pointers. That way, if you copy
-them, ... you might still have problems. Because you can't be sure if a copy will be persistant or not,
-you then *definitely* do not want them to have the same reference number.
+Maybe a way to fix that then, is to have reference numbers instead of pointers. That
+way, if you copy them, ... you might still have problems. Because you can't be sure if
+a copy will be persistant or not, you then *definitely* do not want them to have the
+same reference number.
*/
return new Line(position, endpoint, parent);
}
}
-#if 0
-/*virtual*/ ObjectType Line::Type(void)
+/*virtual*/ void Line::Translate(Vector amount)
+{
+ position += amount;
+ endpoint += amount;
+}
+
+
+/*virtual*/ void Line::Rotate(Vector point, double angle)
+{
+}
+
+
+/*virtual*/ void Line::Scale(Vector point, double amount)
{
- return OTLine;
}
-#endif
void Line::SetDimensionOnLine(Dimension * dimension/*=NULL*/)
}
-bool Line::HitTest(Point point)
-{
- SaveState();
-
- hitPoint1 = hitPoint2 = hitLine = false;
- Vector lineSegment = endpoint - position;
- Vector v1 = point - position;
- Vector v2 = point - endpoint;
- double parameterizedPoint = lineSegment.Dot(v1) / lineSegment.Magnitude(), distance;
-
- // Geometric interpretation:
- // The parameterized point on the vector lineSegment is where the perpendicular
- // intersects lineSegment. If pp < 0, then the perpendicular lies beyond the 1st
- // endpoint. If pp > length of ls, then the perpendicular lies beyond the 2nd endpoint.
-
- if (parameterizedPoint < 0.0)
- distance = v1.Magnitude();
- else if (parameterizedPoint > lineSegment.Magnitude())
- distance = v2.Magnitude();
- else
- // distance = ?Det?(ls, v1) / |ls|
- distance = fabs((lineSegment.x * v1.y - v1.x * lineSegment.y) / lineSegment.Magnitude());
-
- // Geometric interpretation of the above:
- // If the segment endpoints are s and e, and the point is p, then the test
- // for the perpendicular intercepting the segment is equivalent to insisting
- // that the two dot products {s-e}.{s-p} and {e-s}.{e-p} are both non-negative.
- // Perpendicular distance from the point to the segment is computed by first
- // computing the area of the triangle the three points form, then dividing by
- // the length of the segment. Distances are done just by the Pythagorean
- // theorem. Twice the area of the triangle formed by three points is the
- // determinant of the following matrix:
- //
- // sx sy 1 0 0 1 0 0 0
- // ex ey 1 ==> ex ey 1 ==> ex ey 0
- // px py 1 px py 1 px py 0
- //
- // By translating the start point to the origin, and subtracting row 1 from
- // all other rows, we end up with the matrix on the right which greatly
- // simplifies the calculation of the determinant.
-
-//How do we determine distance here? Especially if zoomed in or out???
-//#warning "!!! Distances tested for may not be valid if zoomed in or out !!!"
-// [FIXED]
- if ((v1.Magnitude() * Painter::zoom) < 8.0)
- hitPoint1 = true;
- else if ((v2.Magnitude() * Painter::zoom) < 8.0)
- hitPoint2 = true;
- else if ((distance * Painter::zoom) < 5.0)
- hitLine = true;
-
- return StateChanged();
-}
-
-void Line::SaveState(void)
+void Line::SaveHitState(void)
{
oldHitPoint1 = hitPoint1;
oldHitPoint2 = hitPoint2;
oldHitLine = hitLine;
}
-bool Line::StateChanged(void)
+
+bool Line::HitStateChanged(void)
{
if ((hitPoint1 != oldHitPoint1) || (hitPoint2 != oldHitPoint2) || (hitLine != oldHitLine))
return true;
return false;
}
+
/*
Intersection of two lines:
projects / architektonas / blobdiff