/// <summary>
/// Returns <c>true</c> if this <see cref="IntersectionMatrix" /> is
/// T*T***T** (for two points or two surfaces)
/// 1*T***T** (for two curves).
/// </summary>
/// <param name="dimensionOfGeometryA">The dimension of the first <see cref="IGeometry"/>.</param>
/// <param name="dimensionOfGeometryB">The dimension of the second <see cref="IGeometry"/>.</param>
/// <returns>
/// <c>true</c> if the two <see cref="IGeometry"/>
/// s related by this <see cref="IntersectionMatrix" /> overlap. For this
/// function to return <c>true</c>, the <see cref="IGeometry"/>s must
/// be two points, two curves or two surfaces.
/// </returns>
public bool IsOverlaps(Dimension dimensionOfGeometryA, Dimension dimensionOfGeometryB)
{
if ((dimensionOfGeometryA == Dimension.Point && dimensionOfGeometryB == Dimension.Point) ||
(dimensionOfGeometryA == Dimension.Surface && dimensionOfGeometryB == Dimension.Surface))
return IsTrue(_matrix[(int)Location.Interior, (int)Location.Interior]) &&
IsTrue(_matrix[(int)Location.Interior, (int)Location.Exterior]) &&
IsTrue(_matrix[(int)Location.Exterior, (int)Location.Interior]);
if (dimensionOfGeometryA == Dimension.Curve && dimensionOfGeometryB == Dimension.Curve)
return _matrix[(int)Location.Interior, (int)Location.Interior] == Dimension.Curve &&
IsTrue(_matrix[(int)Location.Interior, (int)Location.Exterior]) &&
IsTrue(_matrix[(int)Location.Exterior, (int)Location.Interior]);
return false;
}
/// <summary>
/// Returns <c>true</c> if this <see cref="IntersectionMatrix" /> is
/// FT*******, F**T***** or F***T****.
/// </summary>
/// <param name="dimensionOfGeometryA">The dimension of the first <see cref="IGeometry"/>.</param>
/// <param name="dimensionOfGeometryB">The dimension of the second <see cref="IGeometry"/>.</param>
/// <returns>
/// <c>true</c> if the two <see cref="IGeometry"/>
/// s related by this <see cref="IntersectionMatrix" /> touch; Returns false
/// if both <see cref="IGeometry"/>s are points.
/// </returns>
public bool IsTouches(Dimension dimensionOfGeometryA, Dimension dimensionOfGeometryB)
{
if (dimensionOfGeometryA > dimensionOfGeometryB)
//no need to get transpose because pattern matrix is symmetrical
return IsTouches(dimensionOfGeometryB, dimensionOfGeometryA);
if ((dimensionOfGeometryA == Dimension.Surface && dimensionOfGeometryB == Dimension.Surface) ||
(dimensionOfGeometryA == Dimension.Curve && dimensionOfGeometryB == Dimension.Curve) ||
(dimensionOfGeometryA == Dimension.Curve && dimensionOfGeometryB == Dimension.Surface) ||
(dimensionOfGeometryA == Dimension.Point && dimensionOfGeometryB == Dimension.Surface) ||
(dimensionOfGeometryA == Dimension.Point && dimensionOfGeometryB == Dimension.Curve))
return _matrix[(int)Location.Interior, (int)Location.Interior] == Dimension.False &&
(IsTrue(_matrix[(int)Location.Interior, (int)Location.Boundary]) ||
IsTrue(_matrix[(int)Location.Boundary, (int)Location.Interior]) ||
IsTrue(_matrix[(int)Location.Boundary, (int)Location.Boundary]));
return false;
}
/// <summary>
/// Tests whether the argument dimensions are equal and
/// this <c>IntersectionMatrix</c> matches
/// the pattern <tt>T*F**FFF*</tt>.
/// <para/>
/// <b>Note:</b> This pattern differs from the one stated in
/// <i>Simple feature access - Part 1: Common architecture</i>.
/// That document states the pattern as <tt>TFFFTFFFT</tt>. This would
/// specify that
/// two identical <tt>POINT</tt>s are not equal, which is not desirable behaviour.
/// The pattern used here has been corrected to compute equality in this situation.
/// </summary>
/// <param name="dimensionOfGeometryA">The dimension of the first <see cref="IGeometry"/>.</param>
/// <param name="dimensionOfGeometryB">The dimension of the second <see cref="IGeometry"/>.</param>
/// <returns>
/// <c>true</c> if the two <see cref="IGeometry"/>s
/// related by this <see cref="IntersectionMatrix" /> are equal; the
/// <see cref="IGeometry"/>s must have the same dimension to be equal.
/// </returns>
public bool IsEquals(Dimension dimensionOfGeometryA, Dimension dimensionOfGeometryB)
{
if (dimensionOfGeometryA != dimensionOfGeometryB)
return false;
return IsTrue(_matrix[(int)Location.Interior, (int)Location.Interior]) &&
_matrix[(int)Location.Interior, (int)Location.Exterior] == Dimension.False &&
_matrix[(int)Location.Boundary, (int)Location.Exterior] == Dimension.False &&
_matrix[(int)Location.Exterior, (int)Location.Interior] == Dimension.False &&
_matrix[(int)Location.Exterior, (int)Location.Boundary] == Dimension.False;
}
/// <summary>
/// If row >= 0 and column >= 0, changes the specified element to <c>minimumDimensionValue</c>
/// if the element is less. Does nothing if row is smaller to 0 or column is smaller to 0.
/// </summary>
/// <param name="row"></param>
/// <param name="column"></param>
/// <param name="minimumDimensionValue"></param>
public void SetAtLeastIfValid(Location row, Location column, Dimension minimumDimensionValue)
{
if (row >= Location.Interior && column >= Location.Interior)
SetAtLeast(row, column, minimumDimensionValue);
}
/// <summary>
/// Changes the elements of this <see cref="IntersectionMatrix" /> to <c>dimensionValue</c>.
/// </summary>
/// <param name="dimensionValue">
/// The dimension value to which to set this <see cref="IntersectionMatrix" />
/// s elements. Possible values <c>True, False, Dontcare, 0, 1, 2}</c>.
/// </param>
public void SetAll(Dimension dimensionValue)
{
for (int ai = 0; ai < 3; ai++)
for (int bi = 0; bi < 3; bi++)
_matrix[ai, bi] = dimensionValue;
}
/// <summary>
/// Changes the specified element to <c>minimumDimensionValue</c> if the element is less.
/// </summary>
/// <param name="row">
/// The row of this <see cref="IntersectionMatrix" />,
/// indicating the interior, boundary or exterior of the first <see cref="IGeometry"/>.
/// </param>
/// <param name="column">
/// The column of this <see cref="IntersectionMatrix" />,
/// indicating the interior, boundary or exterior of the second <see cref="IGeometry"/>.
/// </param>
/// <param name="minimumDimensionValue">
/// The dimension value with which to compare the
/// element. The order of dimension values from least to greatest is
/// <c>True, False, Dontcare, 0, 1, 2</c>.
/// </param>
public void SetAtLeast(Location row, Location column, Dimension minimumDimensionValue)
{
if (_matrix[(int)row, (int)column] < minimumDimensionValue)
_matrix[(int)row, (int)column] = minimumDimensionValue;
}
/// <summary>
/// Changes the value of one of this <see cref="IntersectionMatrix" /> elements.
/// </summary>
/// <param name="row">
/// The row of this <see cref="IntersectionMatrix" />,
/// indicating the interior, boundary or exterior of the first <see cref="IGeometry"/>
/// </param>
/// <param name="column">
/// The column of this <see cref="IntersectionMatrix" />,
/// indicating the interior, boundary or exterior of the second <see cref="IGeometry"/>
/// </param>
/// <param name="dimensionValue">The new value of the element</param>
public void Set(Location row, Location column, Dimension dimensionValue)
{
_matrix[(int)row, (int)column] = dimensionValue;
}
/// <summary>
/// Tests if the dimension value satisfies the dimension symbol.
/// </summary>
/// <param name="actualDimensionValue">
/// a number that can be stored in the <c>IntersectionMatrix</c>.
/// Possible values are <c>{True, False, Dontcare, 0, 1, 2}</c>.
/// </param>
/// <param name="requiredDimensionSymbol">
/// A character used in the string
/// representation of an <see cref="IntersectionMatrix" />.
/// Possible values are <c>T, F, * , 0, 1, 2</c>.
/// </param>
/// <returns>
/// <c>true</c> if the dimension symbol encompasses the dimension value.
/// </returns>
public static bool Matches(Dimension actualDimensionValue, char requiredDimensionSymbol)
{
if (requiredDimensionSymbol == DimensionUtility.SymDontcare)
return true;
if (requiredDimensionSymbol == DimensionUtility.SymTrue && (actualDimensionValue >= Dimension.Point || actualDimensionValue == Dimension.True))
return true;
if (requiredDimensionSymbol == DimensionUtility.SymFalse && actualDimensionValue == Dimension.False)
return true;
if (requiredDimensionSymbol == DimensionUtility.SymP && actualDimensionValue == Dimension.Point)
return true;
if (requiredDimensionSymbol == DimensionUtility.SymL && actualDimensionValue == Dimension.Curve)
return true;
if (requiredDimensionSymbol == DimensionUtility.SymA && actualDimensionValue == Dimension.Surface)
return true;
return false;
}
/// <summary>
/// Tests if the dimension value matches <tt>TRUE</tt>
/// (i.e. has value 0, 1, 2 or TRUE).
/// </summary>
/// <param name="actualDimensionValue">A number that can be stored in the <c>IntersectionMatrix</c>.
/// Possible values are <c>{<see cref="Dimension.True"/>, <see cref="Dimension.False"/>, <see cref="Dimension.Dontcare"/>, <see cref="Dimension.Point"/>, <see cref="Dimension.Curve"/>, <see cref="Dimension.Surface"/>}</c></param>
/// <returns><c>true</c> if the dimension value matches <see cref="Dimension.True"/></returns>
public static bool IsTrue(Dimension actualDimensionValue)
{
if (actualDimensionValue >= 0 || actualDimensionValue == Dimension.True)
{
return true;
}
return false;
}
/// <summary>
/// Converts the dimension value to a dimension symbol,
/// for example, <c>True => 'T'</c>
/// </summary>
/// <param name="dimensionValue">Number that can be stored in the <c>IntersectionMatrix</c>.
/// Possible values are <c>True, False, Dontcare, 0, 1, 2</c>.</param>
/// <returns>Character for use in the string representation of an <c>IntersectionMatrix</c>.
/// Possible values are <c>T, F, * , 0, 1, 2</c>.</returns>
public static char ToDimensionSymbol(Dimension dimensionValue)
{
switch (dimensionValue)
{
case Dimension.False:
return SymFalse;
case Dimension.True:
return SymTrue;
case Dimension.Dontcare:
return SymDontcare;
case Dimension.Point:
return SymP;
case Dimension.Curve:
return SymL;
case Dimension.Surface:
return SymA;
default:
throw new ArgumentOutOfRangeException
("Unknown dimension value: " + dimensionValue);
}
}
