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flet / flet-libgeos python
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Version:
3.13.0 ▾
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/**********************************************************************
*
* GEOS - Geometry Engine Open Source
* http://geos.osgeo.org
*
* Copyright (C) 2011 Sandro Santilli <strk@kbt.io>
*
* This is free software; you can redistribute and/or modify it under
* the terms of the GNU Lesser General Public Licence as published
* by the Free Software Foundation.
* See the COPYING file for more information.
*
**********************************************************************
*
* Last port: linearref/LocationIndexedLine.java r466
*
**********************************************************************/
#pragma once
#include <geos/export.h>
#include <geos/geom/Coordinate.h>
#include <geos/geom/Geometry.h>
#include <geos/linearref/LinearLocation.h>
#include <geos/linearref/LocationIndexOfPoint.h>
#include <geos/linearref/LocationIndexOfLine.h>
#include <geos/util/IllegalArgumentException.h>
namespace geos {
namespace linearref { // geos::linearref
/**
* \brief
* Supports linear referencing along a linear
* [Geometry](@ref geom::Geometry) using
* [LinearLocations](@ref LinearLocation) as the index.
*/
class GEOS_DLL LocationIndexedLine {
private:
const geom::Geometry* linearGeom;
void
checkGeometryType()
{
if(!linearGeom->isLineal()) {
throw util::IllegalArgumentException("Input geometry must be linear");
}
}
public:
/**
* \brief
* Constructs an object which allows linear referencing along
* a given linear [Geometry](@ref geom::Geometry).
*
* @param p_linearGeom the linear geometry to reference along
*/
LocationIndexedLine(const geom::Geometry* p_linearGeom)
: linearGeom(p_linearGeom)
{
checkGeometryType();
}
/**
* \brief
* Computes the [Coordinate](@ref geom::Coordinate) for the point
* on the line at the given index.
*
* If the index is out of range the first or last point on the
* line will be returned.
* The Z-ordinate of the computed point will be interpolated from
* the Z-ordinates of the line segment containing it, if they exist.
*
* @param index the index of the desired point
* @return the Coordinate at the given index
*/
geom::Coordinate
extractPoint(const LinearLocation& index) const
{
return index.getCoordinate(linearGeom);
}
/**
* \brief
* Computes the [Coordinate](@ref geom::Coordinate) for the point
* on the line at the given index, offset by the given distance.
*
* If the index is out of range the first or last point on the
* line will be returned.
* The computed point is offset to the left of the line if the offset
* distance is positive, to the right if negative.
*
* The Z-ordinate of the computed point will be interpolated from
* the Z-ordinates of the line segment containing it, if they exist.
*
* @param index the index of the desired point
* @param offsetDistance the distance the point is offset from the segment
* (positive is to the left, negative is to the right)
* @return the Coordinate at the given index
*/
geom::Coordinate
extractPoint(const LinearLocation& index,
double offsetDistance) const
{
geom::Coordinate ret;
index.getSegment(linearGeom)->pointAlongOffset(
index.getSegmentFraction(), offsetDistance, ret
);
return ret;
}
/**
* \brief
* Computes the [LineString](@ref geom::LineString) for the interval
* on the line between the given indices.
*
* If the endIndex lies before the startIndex,
* the computed geometry is reversed.
*
* @param startIndex the index of the start of the interval
* @param endIndex the index of the end of the interval
* @return the linear interval between the indices
*/
std::unique_ptr<geom::Geometry>
extractLine(const LinearLocation& startIndex,
const LinearLocation& endIndex) const
{
return ExtractLineByLocation::extract(linearGeom, startIndex, endIndex);
}
/**
* \brief
* Computes the index for a given point on the line.
*
* The supplied point does not <i>necessarily</i> have to lie precisely
* on the line, but if it is far from the line the accuracy and
* performance of this function is not guaranteed.
* Use {@link #project} to compute a guaranteed result for points
* which may be far from the line.
*
* @param pt a point on the line
* @return the index of the point
*
* @see project
*/
LinearLocation
indexOf(const geom::Coordinate& pt) const
{
return LocationIndexOfPoint::indexOf(linearGeom, pt);
}
/**
* \brief
* Finds the index for a point on the line
* which is greater than the given index.
*
* If no such index exists, returns <tt>minIndex</tt>.
* This method can be used to determine all indexes for
* a point which occurs more than once on a non-simple line.
* It can also be used to disambiguate cases where the given point lies
* slightly off the line and is equidistant from two different
* points on the line.
*
* The supplied point does not <i>necessarily</i> have to lie precisely
* on the line, but if it is far from the line the accuracy and
* performance of this function is not guaranteed.
* Use {@link #project} to compute a guaranteed result for points
* which may be far from the line.
*
* @param pt a point on the line
* @param minIndex the value the returned index must be greater than
* @return the index of the point greater than the given minimum index
*
* @see project
*/
LinearLocation
indexOfAfter(const geom::Coordinate& pt,
const LinearLocation& minIndex) const
{
return LocationIndexOfPoint::indexOfAfter(linearGeom, pt, &minIndex);
}
/**
* \brief
* Computes the indices for a subline of the line.
*
* (The subline must <b>conform</b> to the line; that is,
* all vertices in the subline (except possibly the first and last)
* must be vertices of the line and occur in the same order).
*
* @param subLine a subLine of the line
* @return a pair of indices for the start and end of the subline.
*/
LinearLocation*
indicesOf(const geom::Geometry* subLine) const
{
return LocationIndexOfLine::indicesOf(linearGeom, subLine);
}
/**
* \brief
* Computes the index for the closest point on the line to the given point.
*
* If more than one point has the closest distance the first one along
* the line is returned.
* (The point does not necessarily have to lie precisely on the line.)
*
* @param pt a point on the line
* @return the index of the point
*/
LinearLocation
project(const geom::Coordinate& pt) const
{
return LocationIndexOfPoint::indexOf(linearGeom, pt);
}
/**
* \brief
* Returns the index of the start of the line
*
* @return the start index
*/
LinearLocation
getStartIndex() const
{
return LinearLocation();
}
/**
* \brief
* Returns the index of the end of the line
*
* @return the end index
*/
LinearLocation
getEndIndex() const
{
return LinearLocation::getEndLocation(linearGeom);
}
/**
* \brief
* Tests whether an index is in the valid index range for the line.
*
* @param index the index to test
* @return `true` if the index is in the valid range
*/
bool
isValidIndex(const LinearLocation& index) const
{
return index.isValid(linearGeom);
}
/**
* \brief
* Computes a valid index for this line
* by clamping the given index to the valid range of index values
*
* @return a valid index value
*/
LinearLocation
clampIndex(const LinearLocation& index) const
{
LinearLocation loc = index;
loc.clamp(linearGeom);
return loc;
}
};
} // geos::linearref
} // geos