From 043fbfeeb6194b3dd49042743aae5c99aa58ab21 Mon Sep 17 00:00:00 2001 From: Paul Reilly Date: Mon, 17 Apr 2023 01:37:28 -0500 Subject: [PATCH] New polar coordinates library --- .gitignore | 44 ++ .idea/.gitignore | 3 + Commons/.gitignore | 42 ++ Commons/build.gradle | 10 + .../simplexdev/polarize/api/IPoint2D.java | 22 + .../simplexdev/polarize/api/IPoint3D.java | 30 ++ .../simplexdev/polarize/api/IQuaternion.java | 100 +++++ .../simplexdev/polarize/api/IScalar.java | 89 ++++ .../simplexdev/polarize/api/IVector.java | 153 +++++++ .../simplexdev/polarize/api/units/Phi.java | 24 + .../simplexdev/polarize/api/units/Radius.java | 23 + .../simplexdev/polarize/api/units/Theta.java | 6 + .../polarize/cartesian/CartesianUnit.java | 45 ++ .../polarize/cartesian/CartesianVector.java | 143 ++++++ .../simplexdev/polarize/math/Point2D.java | 24 + .../simplexdev/polarize/math/Point3D.java | 30 ++ .../simplexdev/polarize/math/Quaternion.java | 90 ++++ .../simplexdev/polarize/polar/Delta.java | 30 ++ .../simplexdev/polarize/polar/PolarUnit.java | 30 ++ .../simplexdev/polarize/polar/Scalar.java | 81 ++++ .../polarize/polar/SphericalUnit.java | 41 ++ .../polarize/util/Interpolator.java | 422 ++++++++++++++++++ .../simplexdev/polarize/util/Polarizer.java | 235 ++++++++++ .../simplexdev/polarize/util/Rotator.java | 90 ++++ .../simplexdev/polarize/util/Utilities.java | 59 +++ Paper/.gitignore | 42 ++ Paper/build.gradle | 22 + .../simplexdev/paper/DataConverter.java | 77 ++++ build.gradle | 28 ++ gradle/wrapper/gradle-wrapper.jar | Bin 0 -> 60756 bytes gradle/wrapper/gradle-wrapper.properties | 6 + gradlew | 234 ++++++++++ gradlew.bat | 89 ++++ settings.gradle | 4 + 34 files changed, 2368 insertions(+) create mode 100644 .gitignore create mode 100644 .idea/.gitignore create mode 100644 Commons/.gitignore create mode 100644 Commons/build.gradle create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint2D.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint3D.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/IQuaternion.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/IScalar.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/IVector.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/units/Phi.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/units/Radius.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/api/units/Theta.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianUnit.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianVector.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/math/Point2D.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/math/Point3D.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/math/Quaternion.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/polar/Delta.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/polar/PolarUnit.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/polar/Scalar.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/polar/SphericalUnit.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/util/Interpolator.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/util/Polarizer.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/util/Rotator.java create mode 100644 Commons/src/main/java/io/github/simplexdev/polarize/util/Utilities.java create mode 100644 Paper/.gitignore create mode 100644 Paper/build.gradle create mode 100644 Paper/src/main/java/io/github/simplexdev/paper/DataConverter.java create mode 100644 build.gradle create mode 100644 gradle/wrapper/gradle-wrapper.jar create mode 100644 gradle/wrapper/gradle-wrapper.properties create mode 100644 gradlew create mode 100644 gradlew.bat create mode 100644 settings.gradle diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..026f5d3 --- /dev/null +++ b/.gitignore @@ -0,0 +1,44 @@ +.gradle +/gradle +.idea +build/ +!gradle/wrapper/gradle-wrapper.jar +!**/src/main/**/build/ +!**/src/test/**/build/ + +### IntelliJ IDEA ### +.idea/modules.xml +.idea/jarRepositories.xml +.idea/compiler.xml +.idea/libraries/ +*.iws +*.iml +*.ipr +out/ +!**/src/main/**/out/ +!**/src/test/**/out/ + +### Eclipse ### +.apt_generated +.classpath +.factorypath +.project +.settings +.springBeans +.sts4-cache +bin/ +!**/src/main/**/bin/ +!**/src/test/**/bin/ + +### NetBeans ### +/nbproject/private/ +/nbbuild/ +/dist/ +/nbdist/ +/.nb-gradle/ + +### VS Code ### +.vscode/ + +### Mac OS ### +.DS_Store \ No newline at end of file diff --git a/.idea/.gitignore b/.idea/.gitignore new file mode 100644 index 0000000..26d3352 --- /dev/null +++ b/.idea/.gitignore @@ -0,0 +1,3 @@ +# Default ignored files +/shelf/ +/workspace.xml diff --git a/Commons/.gitignore b/Commons/.gitignore new file mode 100644 index 0000000..b63da45 --- /dev/null +++ b/Commons/.gitignore @@ -0,0 +1,42 @@ +.gradle +build/ +!gradle/wrapper/gradle-wrapper.jar +!**/src/main/**/build/ +!**/src/test/**/build/ + +### IntelliJ IDEA ### +.idea/modules.xml +.idea/jarRepositories.xml +.idea/compiler.xml +.idea/libraries/ +*.iws +*.iml +*.ipr +out/ +!**/src/main/**/out/ +!**/src/test/**/out/ + +### Eclipse ### +.apt_generated +.classpath +.factorypath +.project +.settings +.springBeans +.sts4-cache +bin/ +!**/src/main/**/bin/ +!**/src/test/**/bin/ + +### NetBeans ### +/nbproject/private/ +/nbbuild/ +/dist/ +/nbdist/ +/.nb-gradle/ + +### VS Code ### +.vscode/ + +### Mac OS ### +.DS_Store \ No newline at end of file diff --git a/Commons/build.gradle b/Commons/build.gradle new file mode 100644 index 0000000..abdc447 --- /dev/null +++ b/Commons/build.gradle @@ -0,0 +1,10 @@ +plugins { + id 'java' +} + +group = 'io.github.simplexdev' +version = '1.0-SNAPSHOT' + +test { + useJUnitPlatform() +} \ No newline at end of file diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint2D.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint2D.java new file mode 100644 index 0000000..040e984 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint2D.java @@ -0,0 +1,22 @@ +package io.github.simplexdev.polarize.api; + +/** + * Represents a point in 2D space along an XZ plane. + * We are using XZ instead of XY because Minecraft uses XZ. + * While this library is not Minecraft specific, it is designed with Minecraft in mind. + */ +public interface IPoint2D { + /** + * Returns the X coordinate of the point. + * + * @return The X coordinate of the point. + */ + double getX(); + + /** + * Returns the Z coordinate of the point. + * + * @return The Z coordinate of the point. + */ + double getZ(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint3D.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint3D.java new file mode 100644 index 0000000..dcc2ac4 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/IPoint3D.java @@ -0,0 +1,30 @@ +package io.github.simplexdev.polarize.api; + +/** + * Represents a point in 3D space. + * It's important to note that Y is our vertical plane, and XZ is our horizontal plane. + * This is because Minecraft's coordinate system is based on the XZ plane. + * While this library is not Minecraft-specific, it is designed with Minecraft in mind. + */ +public interface IPoint3D { + /** + * Returns the X coordinate of this point. + * + * @return The X coordinate of this point. + */ + double getX(); + + /** + * Returns the Y coordinate of this point. + * + * @return The Y coordinate of this point. + */ + double getY(); + + /** + * Returns the Z coordinate of this point. + * + * @return The Z coordinate of this point. + */ + double getZ(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/IQuaternion.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/IQuaternion.java new file mode 100644 index 0000000..684ccff --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/IQuaternion.java @@ -0,0 +1,100 @@ +package io.github.simplexdev.polarize.api; + +/** + * Represents the rotation of an object in 3D space. + */ +public interface IQuaternion { + /** + * Adds a fixed length to this quaternion. + * + * @param add The amount to add. + * @return The result of the addition. + */ + IQuaternion add(double add); + + /** + * Adds this quaternion to another quaternion. + * + * @param quaternion The quaternion to add. + * @return The result of the addition. + */ + IQuaternion add(IQuaternion quaternion); + + /** + * Multiplies this quaternion by a fixed length. + * + * @param multiply The scalar to multiply by. + * @return The result of the multiplication. + */ + IQuaternion multiply(double multiply); + + /** + * Multiplies this quaternion by another quaternion. + * + * @param quaternion The quaternion to multiply by. + * @return The result of the multiplication. + */ + IQuaternion multiply(IQuaternion quaternion); + + /** + * Returns a normalized quaternion that has the same orientation as this quaternion. + *

+ * A normalized quaternion has a magnitude of 1 and represents the same + * orientation as the original quaternion. An ArithmeticException is thrown + * if the magnitude of the quaternion is zero, as it is impossible to + * normalize a quaternion with a magnitude of zero. + * + * @return A normalized quaternion that has the same orientation as this quaternion. + * @throws ArithmeticException If this quaternion has a magnitude of zero. + */ + IQuaternion normalize(); + + /** + * Returns the inverse of this quaternion. + *

+ * In mathematics, the inverse of a quaternion is a value that, + * when multiplied by the original quaternion, results in the identity quaternion + * (i.e., a quaternion with a scalar part of 1 and a vector part of 0). + *

+ * The inverse of a quaternion is defined as the conjugate of the quaternion + * divided by its magnitude. + * + * @return the inverse of this quaternion + * @throws ArithmeticException if the magnitude of this quaternion is zero. + */ + IQuaternion inverse() throws ArithmeticException; + + /** + * Returns the conjugate of this quaternion. + *

+ * In mathematics, the conjugate of a complex number or quaternion is a value + * obtained by changing the sign of its imaginary part. + *

+ * Specifically, for a complex number a + bi, the conjugate is a - bi, + * where a and b are real numbers and i is the imaginary unit. + *

+ * For a quaternion a + bi + cj + dk, the conjugate is a - bi - cj - dk, + * where a, b, c, and d are real numbers and i, j, and k are imaginary units. + * + * @return the conjugate of this quaternion + */ + IQuaternion conjugate(); + + /** + * Returns the magnitude of this quaternion. + *

+ * The magnitude of a quaternion is a measure of its size or length + * and is calculated as the square root of the sum of the squares of its four components. + * + * @return the magnitude of this quaternion + */ + double getMagnitude(); + + double getW(); + + double getX(); + + double getY(); + + double getZ(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/IScalar.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/IScalar.java new file mode 100644 index 0000000..0f6621f --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/IScalar.java @@ -0,0 +1,89 @@ +package io.github.simplexdev.polarize.api; + +/** + * Represents a scalar value. + * This is similar to a Vector, but with only one dimension. + * This is intended for use against polar-specific coordinates, and is not + * compatible with cartesian coordinates. + * + * @see IVector + */ +public interface IScalar { + /** + * Returns the origin of the scalar. + * This is the value that the scalar is relative to. + * + * @return The origin of the scalar. + */ + double getOrigin(); + + /** + * Returns the magnitude of the scalar. + * This is effectively the length of the scalar. + * + * @return The magnitude of the scalar. + */ + double getMagnitude(); + + /** + * Adds a double value to this scalar and returns the result. + * + * @param add The value to add to this scalar. + * @return The result of adding the given scalar value to this scalar. + */ + IScalar add(double add); + + /** + * Adds this scalar with the passed one. + * + * @param scalar The scalar to add to this scalar. + * @return The result of adding the given scalar value to this scalar. + */ + IScalar add(IScalar scalar); + + /** + * Multiplies this scalar by the passed value and returns the result. + * + * @param multiply The value to multiply this scalar by. + * @return The result of multiplying this scalar by the given scalar value. + */ + IScalar multiply(double multiply); + + /** + * Multiplies this scalar by the passed scalar and returns the result. + * + * @param scalar The scalar to multiply this scalar by. + * @return The result of multiplying this scalar by the given scalar value. + */ + IScalar multiply(IScalar scalar); + + /** + * Multiplies this scalar by a quaternion and returns the result. + * + * @param quaternion The quaternion to multiply this scalar by. + * @return The result of multiplying this scalar by the given quaternion. + */ + IScalar multiply(IQuaternion quaternion); + + /** + * Returns a normalized version of this scalar. + * + * @return A normalized version of this scalar. + */ + IScalar normalize(); + + /** + * Returns the inverse of this scalar. + * + * @return The inverse of this scalar. + * @throws ArithmeticException If this scalar is zero. + */ + IScalar inverse() throws ArithmeticException; + + /** + * Returns the negation of this scalar. + * + * @return The negation of this scalar. + */ + IScalar negate(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/IVector.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/IVector.java new file mode 100644 index 0000000..a1908f5 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/IVector.java @@ -0,0 +1,153 @@ +package io.github.simplexdev.polarize.api; + +import org.jetbrains.annotations.NotNull; + +/** + * This interface represents a vector in 3D space. + * A vector is a line with a direction and a length. + * A vector can be represented by a point in space. + * However, there is a much better suited Point2D and Point3D interface + * for this purpose. + */ +public interface IVector { + /** + * This method adds the X Y Z mods of the vector passed in + * to the X Y Z mods of this vector. The length is recalculated. + * + * @param vector The vector to add to this vector. + * @return A new vector with the X Y Z mods added. + */ + IVector add(@NotNull IVector vector); + + /** + * This method multiplies the X Y Z mods of the vector passed in + * to the X Y Z mods of this vector. The length is recalculated. + * + * @param vector The vector to multiply to this vector. + * @return A new vector with the X Y Z mods multiplied. + */ + IVector multiply(@NotNull IVector vector); + + /** + * This method returns a new vector with the X Y Z mods added + * by the value. The length is recalculated. This is a static input based + * on the value passed in which will add to each mod of the vector. + * + * @param value The value to add to the X Y Z mods. + * @return A new vector with the X Y Z mods added by the value. + */ + IVector add(double value); + + /** + * This method returns a new vector with the X Y Z mods multiplied + * by the value. The length is recalculated. This is a static input based + * on the value passed in which will multiply each mod of the vector. + * + * @param value The value to multiply the X Y Z mods by. + * @return A new vector with the X Y Z mods multiplied by the value. + */ + IVector multiply(double value); + + /** + * This method returns a copy of this vector with the X Y Z mods inverted. + * The length is recalculated. The X Y Z mods are multiplied by -1. + * + * @return A copy of this vector with the X Y Z mods inverted. + */ + IVector inverse(); + + /** + * This method returns a copy of this vector with a length of 1. + * X Y Z mods all remain unchanged. + * + * @return A copy of this vector with a length of 1. + */ + IVector normalize(); + + /** + * This method returns the dot product of this vector and the + * vector passed in. The dot product of two vectors is + * the sum of the corresponding product components. + * + * @param vector The vector to dot product with. + * @return The dot product of this vector and the vector passed in. + */ + double dot(@NotNull IVector vector); + + /** + * This method returns the angle between this vector and the vector + * passed in. The angle is in radians. The angle is the angle between + * the two vectors, which is calculated from the dot product. + * + * @param vector The vector to get the angle between. + * @return The angle between this vector and the vector passed in. + */ + double getAngle(@NotNull IVector vector); + + /** + * This method returns the length of this vector. + * The length is the distance between the origin and the desired point. + * The length is calculated from the X Y Z mods as + * sqrt(x * x + y * y + z * z). + * + * @return The length of this vector. + */ + double length(); + + /** + * This method returns the length of this vector squared. + * The length is determined by sqrt(x * x + y * y + z * z). + * + * @return The length of this vector squared. + * @see #length() + */ + double lengthSquared(); + + /** + * This method returns the distance between this vector and the vector + * passed in. The distance is the length of the vector between the two + * vectors. The distance is calculated from the X Y Z mods as + * sqrt(distanceSquared(vector)); + * + * @see #distanceSquared(IVector) + * + * @param vector The vector to get the distance between. + * @return The distance between this vector and the vector passed in. + */ + double distance(@NotNull IVector vector); + + /** + * This method returns the distance between this vector and the vector + * passed in squared. The distance is the length of the vector between the two + * vectors. The distance is calculated from the X Y Z mods as + * (x - x1) * (x - x1) + (y - y1) * (y - y1) + (z - z1) * (z - z1). + * + * @param vector The vector to get the distance between. + * @return The distance between this vector and the vector passed in squared. + */ + double distanceSquared(@NotNull IVector vector); + + /** + * @return The X mod of this vector. + */ + double getX(); + + /** + * @return The Y mod of this vector. + */ + double getY(); + + /** + * @return The Z mod of this vector. + */ + double getZ(); + + /** + * This method returns a new vector with the X Y Z mods rotated + * by the quaternion passed in. The length is recalculated. + * + * @param quaternion The quaternion to rotate the vector by. + * @return A new vector with the X Y Z mods rotated by the quaternion passed in. + */ + IVector rotate(@NotNull IQuaternion quaternion); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Phi.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Phi.java new file mode 100644 index 0000000..a22f746 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Phi.java @@ -0,0 +1,24 @@ +package io.github.simplexdev.polarize.api.units; + +/** + * This is a functional interface representing a mathematical function Phi, which returns the azimuth value. + *

+ * The interface has a single method 'getAzimuth' which returns a double value representing the azimuth. + *

+ * This interface is marked with the @FunctionalInterface annotation which indicates that it should be + *

+ * used as a functional interface with a single abstract method (SAM). + * + * @see Azimuth + */ +@FunctionalInterface +public interface Phi +{ + + /** + * This method returns a double value representing the azimuth. + * + * @return the azimuth value as a double + */ + double getAzimuth(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Radius.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Radius.java new file mode 100644 index 0000000..f5b0a76 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Radius.java @@ -0,0 +1,23 @@ +package io.github.simplexdev.polarize.api.units; + +/** + * This is a functional interface representing a mathematical function Radius, which returns the length of the radius. + *

+ * The interface has a single method 'length' which returns a double value representing the length of the radius. + *

+ * This interface is marked with the @FunctionalInterface annotation which indicates that it should be + *

+ * used as a functional interface with a single abstract method (SAM). + * + * @see Radius + */ +@FunctionalInterface +public interface Radius +{ + /** + * This method returns a double value representing the length of the radius. + * + * @return the length of the radius as a double + */ + double length(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Theta.java b/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Theta.java new file mode 100644 index 0000000..ca11b5e --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/api/units/Theta.java @@ -0,0 +1,6 @@ +package io.github.simplexdev.polarize.api.units; + +@FunctionalInterface +public interface Theta { + double getZenith(); +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianUnit.java b/Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianUnit.java new file mode 100644 index 0000000..c62734b --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianUnit.java @@ -0,0 +1,45 @@ +package io.github.simplexdev.polarize.cartesian; + +import io.github.simplexdev.polarize.api.IPoint2D; +import io.github.simplexdev.polarize.api.IPoint3D; +import io.github.simplexdev.polarize.math.Point2D; +import io.github.simplexdev.polarize.math.Point3D; + +/** + * CartesianUnit is a class that contains a 3D point and a 2D point + * which share the same x and z values for the horizontal plane. + */ +public class CartesianUnit { + private final IPoint3D point3d; + private final IPoint2D point2d; + + /** + * Creates a new CartesianUnit with the given x, y, and z values. + * + * @param x The x value of the 3D point and the 2D point. + * @param y The y value of the 3D point. + * @param z The z value of the 3D point and the 2D point. + */ + public CartesianUnit(double x, double y, double z) { + this.point3d = new Point3D(x, y, z); + this.point2d = new Point2D(x, z); + } + + /** + * Returns the 3D point of the CartesianUnit. + * + * @return The 3D point of the CartesianUnit. + */ + public IPoint3D getPoint3D() { + return this.point3d; + } + + /** + * Returns the 2D point of the CartesianUnit. + * + * @return The 2D point of the CartesianUnit. + */ + public IPoint2D getPoint2D() { + return this.point2d; + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianVector.java b/Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianVector.java new file mode 100644 index 0000000..9da5a70 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/cartesian/CartesianVector.java @@ -0,0 +1,143 @@ +package io.github.simplexdev.polarize.cartesian; + +import io.github.simplexdev.polarize.api.IQuaternion; +import io.github.simplexdev.polarize.api.IVector; +import io.github.simplexdev.polarize.math.Quaternion; +import org.jetbrains.annotations.NotNull; + +import java.util.Objects; + +public class CartesianVector implements IVector { + + private final double x; + private final double y; + private final double z; + private final double length; + + public CartesianVector(double x, double y, double z) { + this.x = x; + this.y = y; + this.z = z; + this.length = Math.sqrt(x * x + y * y + z * z); + } + + private CartesianVector(double x, double y, double z, double length) { + this.x = x; + this.y = y; + this.z = z; + this.length = length; + } + + @Override + public IVector add(@NotNull IVector vector) { + Objects.requireNonNull(vector); + return new CartesianVector( + this.x + vector.getX(), + this.y + vector.getY(), + this.z + vector.getZ()); + } + + @Override + public IVector multiply(@NotNull IVector vector) { + return new CartesianVector( + this.x * vector.getX(), + this.y * vector.getY(), + this.z * vector.getZ()); + } + + @Override + public IVector add(double value) { + return new CartesianVector( + this.x + value, + this.y + value, + this.z + value); + } + + @Override + public IVector multiply(double value) { + return new CartesianVector( + this.x * value, + this.y * value, + this.z * value); + } + + @Override + public IVector inverse() { + return new CartesianVector( + this.x * -1.0, + this.y * -1.0, + this.z * -1.0); + } + + @Override + public IVector normalize() { + if (this.length == 0) { + return new CartesianVector(0, 0, 0); + } + return new CartesianVector( + this.x / this.length, + this.y / this.length, + this.z / this.length, + 1); + } + + @Override + public double dot(@NotNull IVector vector) { + return this.x * vector.getX() + this.y * vector.getY() + this.z * vector.getZ(); + } + + @Override + public double getAngle(@NotNull IVector vector) { + double dot = this.dot(vector); + return Math.acos(dot / (this.length() * vector.length())); + } + + @Override + public double length() { + return this.length; + } + + @Override + public double lengthSquared() { + return this.length * this.length; + } + + @Override + public double distance(@NotNull IVector vector) { + Objects.requireNonNull(vector); + return Math.sqrt(distanceSquared(vector)); + } + + @Override + public double distanceSquared(@NotNull IVector vector) { + Objects.requireNonNull(vector); + double dx = this.x - vector.getX(); + double dy = this.y - vector.getY(); + double dz = this.z - vector.getZ(); + return dx * dx + dy * dy + dz * dz; + } + + @Override + public double getX() { + return this.x; + } + + @Override + public double getY() { + return this.y; + } + + @Override + public double getZ() { + return this.z; + } + + @Override + public IVector rotate(@NotNull IQuaternion quaternion) { + IQuaternion q = quaternion.normalize(); + IQuaternion p = new Quaternion(0, this.x, this.y, this.z); + IQuaternion pRotated = q.multiply(p).multiply(q.conjugate()); + + return new CartesianVector(pRotated.getX(), pRotated.getY(), pRotated.getZ()); + } +} \ No newline at end of file diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/math/Point2D.java b/Commons/src/main/java/io/github/simplexdev/polarize/math/Point2D.java new file mode 100644 index 0000000..0d1a4fe --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/math/Point2D.java @@ -0,0 +1,24 @@ +package io.github.simplexdev.polarize.math; + +import io.github.simplexdev.polarize.api.IPoint2D; + +public class Point2D implements IPoint2D { + + private final double x; + private final double z; + + public Point2D(double x, double z) { + this.x = x; + this.z = z; + } + + @Override + public double getX() { + return this.x; + } + + @Override + public double getZ() { + return this.z; + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/math/Point3D.java b/Commons/src/main/java/io/github/simplexdev/polarize/math/Point3D.java new file mode 100644 index 0000000..cce532f --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/math/Point3D.java @@ -0,0 +1,30 @@ +package io.github.simplexdev.polarize.math; + +import io.github.simplexdev.polarize.api.IPoint3D; + +public class Point3D implements IPoint3D { + private final double x; + private final double y; + private final double z; + + public Point3D(double x, double y, double z) { + this.x = x; + this.y = y; + this.z = z; + } + + @Override + public double getX() { + return x; + } + + @Override + public double getY() { + return y; + } + + @Override + public double getZ() { + return z; + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/math/Quaternion.java b/Commons/src/main/java/io/github/simplexdev/polarize/math/Quaternion.java new file mode 100644 index 0000000..7de7314 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/math/Quaternion.java @@ -0,0 +1,90 @@ +package io.github.simplexdev.polarize.math; + +import io.github.simplexdev.polarize.api.IQuaternion; + +public class Quaternion implements IQuaternion { + private double w, x, y, z; + + public Quaternion(double w, double x, double y, double z) { + this.w = w; + this.x = x; + this.y = y; + this.z = z; + } + + @Override + public double getW() { + return w; + } + + @Override + public double getX() { + return x; + } + + @Override + public double getY() { + return y; + } + + @Override + public double getZ() { + return z; + } + + @Override + public IQuaternion add(double scalar) { + return new Quaternion(this.w + scalar, this.x, this.y, this.z); + } + + @Override + public IQuaternion add(IQuaternion q) { + return new Quaternion(this.w + q.getW(), this.x + q.getX(), this.y + q.getY(), this.z + q.getZ()); + } + + @Override + public IQuaternion multiply(double scalar) { + return new Quaternion(this.w * scalar, this.x * scalar, this.y * scalar, this.z * scalar); + } + + @Override + public IQuaternion multiply(IQuaternion q) { + double w1 = this.w, + x1 = this.x, + y1 = this.y, + z1 = this.z; + double w2 = q.getW(), + x2 = q.getX(), + y2 = q.getY(), + z2 = q.getZ(); + + double w = w1 * w2 - x1 * x2 - y1 * y2 - z1 * z2; + double x = w1 * x2 + x1 * w2 + y1 * z2 - z1 * y2; + double y = w1 * y2 + y1 * w2 + z1 * x2 - x1 * z2; + double z = w1 * z2 + z1 * w2 + x1 * y2 - y1 * x2; + + return new Quaternion(w, x, y, z); + } + + @Override + public IQuaternion normalize() { + double magnitude = this.getMagnitude(); + return new Quaternion(this.w / magnitude, this.x / magnitude, this.y / magnitude, this.z / magnitude); + } + + @Override + public IQuaternion inverse() { + double magnitudeSquared = this.getMagnitude() * this.getMagnitude(); + return new Quaternion(this.w / magnitudeSquared, -this.x / magnitudeSquared, -this.y / magnitudeSquared, -this.z / magnitudeSquared); + } + + @Override + public IQuaternion conjugate() { + return new Quaternion(this.w, -this.x, -this.y, -this.z); + } + + @Override + public double getMagnitude() { + return Math.sqrt(w * w + x * x + y * y + z * z); + } +} \ No newline at end of file diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/polar/Delta.java b/Commons/src/main/java/io/github/simplexdev/polarize/polar/Delta.java new file mode 100644 index 0000000..67ce3a3 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/polar/Delta.java @@ -0,0 +1,30 @@ +package io.github.simplexdev.polarize.polar; + +import io.github.simplexdev.polarize.api.units.Phi; +import io.github.simplexdev.polarize.api.units.Theta; + +public class Delta { + private final Theta theta; + private final Phi phi; + + public Delta(double theta, double phi) { + this.theta = () -> theta; + this.phi = () -> phi; + } + + public Theta getTheta() { + return theta; + } + + public Phi getPhi() { + return phi; + } + + public double theta() { + return theta.getZenith(); + } + + public double phi() { + return phi.getAzimuth(); + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/polar/PolarUnit.java b/Commons/src/main/java/io/github/simplexdev/polarize/polar/PolarUnit.java new file mode 100644 index 0000000..d79c0dd --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/polar/PolarUnit.java @@ -0,0 +1,30 @@ +package io.github.simplexdev.polarize.polar; + +import io.github.simplexdev.polarize.api.units.Radius; +import io.github.simplexdev.polarize.api.units.Theta; + +public class PolarUnit { + private final Radius radius; + private final Theta theta; + + public PolarUnit(double radius, double theta) { + this.radius = () -> radius; + this.theta = () -> theta; + } + + public Radius getRadius() { + return radius; + } + + public Theta getTheta() { + return theta; + } + + public double radius() { + return radius.length(); + } + + public double theta() { + return theta.getZenith(); + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/polar/Scalar.java b/Commons/src/main/java/io/github/simplexdev/polarize/polar/Scalar.java new file mode 100644 index 0000000..2d09ac8 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/polar/Scalar.java @@ -0,0 +1,81 @@ +package io.github.simplexdev.polarize.polar; + +import io.github.simplexdev.polarize.api.IQuaternion; +import io.github.simplexdev.polarize.api.IScalar; + +public class Scalar implements IScalar { + private final double magnitude; + private final double origin; + + public Scalar(double magnitude, double origin) { + this.magnitude = magnitude; + this.origin = origin; + } + + @Override + public double getMagnitude() { + return this.magnitude; + } + + @Override + public double getOrigin() { + return this.origin; + } + + @Override + public IScalar add(double add) { + double sumValue = getMagnitude() + add; + return new Scalar(sumValue, getOrigin()); + } + + @Override + public IScalar add(IScalar scalar) { + double sumValue = getMagnitude() + scalar.getMagnitude(); + return new Scalar(sumValue, getOrigin()); + } + + + @Override + public IScalar multiply(double multiply) { + double productValue = getMagnitude() * multiply; + return new Scalar(productValue, getOrigin()); + } + + @Override + public IScalar multiply(IScalar scalar) { + double productValue = getMagnitude() * scalar.getMagnitude(); + return new Scalar(productValue, getOrigin()); + } + + @Override + public IScalar multiply(IQuaternion quaternion) { + double productValue = getMagnitude() * quaternion.getW(); + return new Scalar(productValue, getOrigin()); + } + + @Override + public IScalar normalize() { + double magnitude = getMagnitude(); + if (magnitude == 0.0) { + return new Scalar(0.0, getOrigin()); + } + double normalizedMagnitude = 1.0 / magnitude; + double normalizedValue = getMagnitude() * normalizedMagnitude; + return new Scalar(normalizedValue, getOrigin()); + } + + @Override + public IScalar inverse() throws ArithmeticException { + if (getMagnitude() == 0.0) { + throw new ArithmeticException("Cannot compute inverse of scalar with magnitude 0."); + } + double reciprocalValue = 1.0 / getMagnitude(); + return new Scalar(reciprocalValue, getOrigin()); + } + + @Override + public IScalar negate() { + double negatedValue = -getMagnitude(); + return new Scalar(negatedValue, getOrigin()); + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/polar/SphericalUnit.java b/Commons/src/main/java/io/github/simplexdev/polarize/polar/SphericalUnit.java new file mode 100644 index 0000000..3a62834 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/polar/SphericalUnit.java @@ -0,0 +1,41 @@ +package io.github.simplexdev.polarize.polar; + +import io.github.simplexdev.polarize.api.units.Phi; +import io.github.simplexdev.polarize.api.units.Radius; +import io.github.simplexdev.polarize.api.units.Theta; + +public class SphericalUnit { + private final Radius radius; + private final Theta theta; + private final Phi phi; + + public SphericalUnit(double radius, double theta, double phi) { + this.radius = () -> radius; + this.theta = () -> theta; + this.phi = () -> phi; + } + + public Radius getRadius() { + return this.radius; + } + + public Theta getTheta() { + return this.theta; + } + + public Phi getPhi() { + return this.phi; + } + + public double radius() { + return this.radius.length(); + } + + public double theta() { + return this.theta.getZenith(); + } + + public double phi() { + return this.phi.getAzimuth(); + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/util/Interpolator.java b/Commons/src/main/java/io/github/simplexdev/polarize/util/Interpolator.java new file mode 100644 index 0000000..ac3634d --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/util/Interpolator.java @@ -0,0 +1,422 @@ +package io.github.simplexdev.polarize.util; + +import io.github.simplexdev.polarize.api.IScalar; +import io.github.simplexdev.polarize.api.IVector; +import io.github.simplexdev.polarize.cartesian.CartesianUnit; +import io.github.simplexdev.polarize.polar.PolarUnit; +import io.github.simplexdev.polarize.polar.SphericalUnit; + +import java.util.HashSet; +import java.util.Set; + +/** + * A utility class for generating sets of coordinate units based on different coordinate systems. + *

+ * This class provides several methods for generating sets of coordinate units based on different + * coordinate systems like Cartesian, Polar and Spherical. These methods take input vectors and scalars, + * and generate corresponding coordinate units by iterating through angles in specific steps. + *

+ * The generated sets of coordinate units can be used for interpolation and other mathematical operations + * involving coordinates in different coordinate systems. + * + * @see CartesianUnit + * @see PolarUnit + * @see SphericalUnit + * @see IVector + * @see IScalar + */ +public class Interpolator { + private Interpolator() { + throw new AssertionError(); + } + + /** + * Generates a set of CartesianUnits using the given IVector and step value. + * This method generates the CartesianUnits by iterating through angles i and j in steps of the given value, + * up to 45 degrees, and then computing their respective x, y and z values using the magnitude + * and azimuth and polar angles of the input vector. + * + * @param vector the input vector used to generate the CartesianUnits + * @param step the step value used for the angles 'i' and 'j' + * @return a set of CartesianUnits generated from the input vector and step value + * @see Cartesian coordinate system + * @see Unit vector + * @see IVector + */ + public static Set cartesian45(IVector vector, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_45; i += step) { + for (int j = 0; j <= Utilities.RADIAN_45; j += step) { + CartesianUnit unit = new CartesianUnit(vector.length() * Math.sin(i) * Math.cos(j), vector.length() * Math.cos(i), vector.length() * Math.sin(i) * Math.sin(j)); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of CartesianUnits using the given IVector and step value. + * This method generates the CartesianUnits by iterating through angles i and j in steps of the given value, + * up to 90 degrees, and then computing their respective x, y and z values using the magnitude + * and azimuth and polar angles of the input vector. + * + * @param vector the input vector used to generate the CartesianUnits + * @param step the step value used for the angles 'i' and 'j' + * @return a set of CartesianUnits generated from the input vector and step value + * @see Cartesian coordinate system + * @see Unit vector + * @see IVector + */ + public static Set cartesian90(IVector vector, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_90; i += step) { + for (int j = 0; j <= Utilities.RADIAN_90; j += step) { + CartesianUnit unit = new CartesianUnit(vector.length() * Math.sin(i) * Math.cos(j), vector.length() * Math.cos(i), vector.length() * Math.sin(i) * Math.sin(j)); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of CartesianUnits using the given IVector and step value. + * This method generates the CartesianUnits by iterating through angles i and j in steps of the given value, + * up to 180 degrees, and then computing their respective x, y and z values using the magnitude + * and azimuth and polar angles of the input vector. + * + * @param vector the input vector used to generate the CartesianUnits + * @param step the step value used for the angles 'i' and 'j' + * @return a set of CartesianUnits generated from the input vector and step value + * @see Cartesian coordinate system + * @see Unit vector + * @see IVector + */ + public static Set cartesian180(IVector vector, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_180; i += step) { + for (int j = 0; j <= Utilities.RADIAN_180; j += step) { + CartesianUnit unit = new CartesianUnit(vector.length() * Math.sin(i) * Math.cos(j), vector.length() * Math.cos(i), vector.length() * Math.sin(i) * Math.sin(j)); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of CartesianUnits using the given IVector and step value. + * This method generates the CartesianUnits by iterating through angles i and j in steps of the given value, + * up to 270 degrees, and then computing their respective x, y and z values using the magnitude + * and azimuth and polar angles of the input vector. + * + * @param vector the input vector used to generate the CartesianUnits + * @param step the step value used for the angles 'i' and 'j' + * @return a set of CartesianUnits generated from the input vector and step value + * @see Cartesian coordinate system + * @see Unit vector + * @see IVector + */ + public static Set cartesian270(IVector vector, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_270; i += step) { + for (int j = 0; j <= Utilities.RADIAN_270; j += step) { + CartesianUnit unit = new CartesianUnit(vector.length() * Math.sin(i) * Math.cos(j), vector.length() * Math.cos(i), vector.length() * Math.sin(i) * Math.sin(j)); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of CartesianUnits using the given IVector and step value. + * This method generates the CartesianUnits by iterating through angles i and j in steps of the given value, + * up to 360 degrees, and then computing their respective x, y and z values using the magnitude + * and azimuth and polar angles of the input vector. + * + * @param vector the input vector used to generate the CartesianUnits + * @param step the step value used for the angles 'i' and 'j' + * @return a set of CartesianUnits generated from the input vector and step value + * @see Cartesian coordinate system + * @see Unit vector + * @see IVector + */ + public static Set cartesian360(IVector vector, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_360; i += step) { + for (int j = 0; j <= Utilities.RADIAN_360; j += step) { + CartesianUnit unit = new CartesianUnit(vector.length() * Math.sin(i) * Math.cos(j), vector.length() * Math.cos(i), vector.length() * Math.sin(i) * Math.sin(j)); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of PolarUnits using the given IScalar and step value. + *

+ * This method generates the PolarUnits by iterating through angles in steps of the given value, + * up to a maximum of 45 degrees, and then computing their respective magnitude and angle values + * using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the PolarUnits. + * @param step The step value used to increment angles while generating the PolarUnits. + * @return A set of PolarUnits generated from the input scalar and step value. + * @see Polar coordinate system + * @see Magnitude + * @see IScalar + */ + public static Set polarSet45(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_45; i += step) { + PolarUnit unit = new PolarUnit(scalar.getMagnitude(), i); + unitSet.add(unit); + } + + return unitSet; + } + + /** + * Generates a set of PolarUnits using the given IScalar and step value. + *

+ * This method generates the PolarUnits by iterating through angles in steps of the given value, + * up to a maximum of 90 degrees, and then computing their respective magnitude and angle values + * using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the PolarUnits. + * @param step The step value used to increment angles while generating the PolarUnits. + * @return A set of PolarUnits generated from the input scalar and step value. + * @see Polar coordinate system + * @see Magnitude + * @see IScalar + */ + public static Set polarSet90(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_90; i += step) { + PolarUnit unit = new PolarUnit(scalar.getMagnitude(), i); + unitSet.add(unit); + } + + return unitSet; + } + + /** + * Generates a set of PolarUnits using the given IScalar and step value. + *

+ * This method generates the PolarUnits by iterating through angles in steps of the given value, + * up to a maximum of 180 degrees, and then computing their respective magnitude and angle values + * using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the PolarUnits. + * @param step The step value used to increment angles while generating the PolarUnits. + * @return A set of PolarUnits generated from the input scalar and step value. + * @see Polar coordinate system + * @see Magnitude + * @see IScalar + */ + public static Set polarSet180(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_180; i += step) { + PolarUnit unit = new PolarUnit(scalar.getMagnitude(), i); + unitSet.add(unit); + } + + return unitSet; + } + + /** + * Generates a set of PolarUnits using the given IScalar and step value. + *

+ * This method generates the PolarUnits by iterating through angles in steps of the given value, + * up to a maximum of 270 degrees, and then computing their respective magnitude and angle values + * using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the PolarUnits. + * @param step The step value used to increment angles while generating the PolarUnits. + * @return A set of PolarUnits generated from the input scalar and step value. + * @see Polar coordinate system + * @see Magnitude + * @see IScalar + */ + public static Set polarSet270(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_270; i += step) { + PolarUnit unit = new PolarUnit(scalar.getMagnitude(), i); + unitSet.add(unit); + } + + return unitSet; + } + + /** + * Generates a set of PolarUnits using the given IScalar and step value. + *

+ * This method generates the PolarUnits by iterating through angles in steps of the given value, + * up to a maximum of 45 degrees, and then computing their respective magnitude and angle values + * using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the PolarUnits. + * @param step The step value used to increment angles while generating the PolarUnits. + * @return A set of PolarUnits generated from the input scalar and step value. + * @see Polar coordinate system + * @see Magnitude + * @see IScalar + */ + public static Set polarSet360(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i < Utilities.RADIAN_360; i += step) { + PolarUnit unit = new PolarUnit(scalar.getMagnitude(), i); + unitSet.add(unit); + } + + return unitSet; + } + + /** + * Generates a set of SphericalUnits using the given IScalar and step value. + * This method generates the SphericalUnits by iterating through angles i and j in steps of the given value, + * up to a maximum of 45 degrees, and then computing their respective magnitude, zenith and azimuth + * values using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the SphericalUnits. + * @param step The step value used to increment angles i and j while generating the SphericalUnits. + * @return A set of SphericalUnits generated from the input scalar and step value. + * @see Spherical coordinate system + * @see Inclination + * @see Azimuth + * @see IScalar + */ + public static Set sphericalUnit45(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_45; i += step) { + for (int j = 0; j <= Utilities.RADIAN_45; j += step) { + SphericalUnit unit = new SphericalUnit(i, j, scalar.getMagnitude()); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of SphericalUnits using the given IScalar and step value. + * This method generates the SphericalUnits by iterating through angles i and j in steps of the given value, + * up to a maximum of 90 degrees, and then computing their respective magnitude, zenith and azimuth + * values using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the SphericalUnits. + * @param step The step value used to increment angles i and j while generating the SphericalUnits. + * @return A set of SphericalUnits generated from the input scalar and step value. + * @see Spherical coordinate system + * @see Inclination + * @see Azimuth + * @see IScalar + */ + public static Set sphericalUnit90(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_90; i += step) { + for (int j = 0; j <= Utilities.RADIAN_90; j += step) { + SphericalUnit unit = new SphericalUnit(i, j, scalar.getMagnitude()); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of SphericalUnits using the given IScalar and step value. + * This method generates the SphericalUnits by iterating through angles i and j in steps of the given value, + * up to a maximum of 180 degrees, and then computing their respective magnitude, zenith and azimuth + * values using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the SphericalUnits. + * @param step The step value used to increment angles i and j while generating the SphericalUnits. + * @return A set of SphericalUnits generated from the input scalar and step value. + * @see Spherical coordinate system + * @see Inclination + * @see Azimuth + * @see IScalar + */ + public static Set sphericalUnit180(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_180; i += step) { + for (int j = 0; j <= Math.PI; j += step) { + SphericalUnit unit = new SphericalUnit(i, j, scalar.getMagnitude()); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of SphericalUnits using the given IScalar and step value. + * This method generates the SphericalUnits by iterating through angles i and j in steps of the given value, + * up to a maximum of 270 degrees, and then computing their respective magnitude, zenith and azimuth + * values using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the SphericalUnits. + * @param step The step value used to increment angles i and j while generating the SphericalUnits. + * @return A set of SphericalUnits generated from the input scalar and step value. + * @see Spherical coordinate system + * @see Inclination + * @see Azimuth + * @see IScalar + */ + public static Set sphericalUnit270(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i <= Utilities.RADIAN_270; i += step) { + for (int j = 0; j <= Utilities.RADIAN_270; j += step) { + SphericalUnit unit = new SphericalUnit(i, j, scalar.getMagnitude()); + unitSet.add(unit); + } + } + + return unitSet; + } + + /** + * Generates a set of SphericalUnits using the given IScalar and step value. + * This method generates the SphericalUnits by iterating through angles i and j in steps of the given value, + * up to a maximum of 360 degrees, and then computing their respective magnitude, zenith and azimuth + * values using the magnitude of the input scalar. + * + * @param scalar The input scalar used to generate the SphericalUnits. + * @param step The step value used to increment angles i and j while generating the SphericalUnits. + * @return A set of SphericalUnits generated from the input scalar and step value. + * @see Spherical coordinate system + * @see Inclination + * @see Azimuth + * @see IScalar + */ + public static Set sphericalUnit360(IScalar scalar, double step) { + Set unitSet = new HashSet<>(); + + for (int i = 0; i < Utilities.RADIAN_360; i += step) { + for (int j = 0; j < Utilities.RADIAN_360; j += step) { + SphericalUnit unit = new SphericalUnit(i, j, scalar.getMagnitude()); + unitSet.add(unit); + } + } + + return unitSet; + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/util/Polarizer.java b/Commons/src/main/java/io/github/simplexdev/polarize/util/Polarizer.java new file mode 100644 index 0000000..96b1b4b --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/util/Polarizer.java @@ -0,0 +1,235 @@ +package io.github.simplexdev.polarize.util; + +import io.github.simplexdev.polarize.api.IPoint2D; +import io.github.simplexdev.polarize.api.IPoint3D; +import io.github.simplexdev.polarize.api.IScalar; +import io.github.simplexdev.polarize.api.IVector; +import io.github.simplexdev.polarize.api.units.Phi; +import io.github.simplexdev.polarize.api.units.Theta; +import io.github.simplexdev.polarize.cartesian.CartesianUnit; +import io.github.simplexdev.polarize.polar.PolarUnit; +import io.github.simplexdev.polarize.polar.SphericalUnit; + +/** + * This class provides static methods for converting between different polar coordinate systems and their Cartesian equivalents. + * It includes methods for converting to and from polar coordinates in 2D and 3D, as well as to and from spherical coordinates. + */ +public class Polarizer +{ + private Polarizer() { + throw new AssertionError(); + } + + /** + * Converts a {@link PolarUnit} to a {@link CartesianUnit}. + * This method takes a PolarUnit and converts it to a corresponding CartesianUnit by computing its x and z values. + * The x and z values are computed using the radius and theta angles of the input PolarUnit, and assuming that the y + * coordinate of the resulting CartesianUnit is zero. + * + * @param unit The input PolarUnit to convert to a CartesianUnit. + * @return A new CartesianUnit instance generated from the input PolarUnit. + * @see Polar coordinate system + * @see Cartesian coordinate system + */ + public static CartesianUnit toCartesianUnit(PolarUnit unit) + { + double x = unit.radius() * Math.sin(unit.theta()); + double z = unit.radius() * Math.cos(unit.theta()); + return new CartesianUnit(x, 0, z); + } + + /** + * Converts a {@link IScalar} and a {@link Theta} instance to a {@link CartesianUnit}. + * This method takes a scalar magnitude and a {@link Theta} instance and computes the corresponding x and z values + * for the resulting CartesianUnit, with a y coordinate of zero. The x and z values are computed using the scalar + * magnitude and the zenith angle of the input Theta instance. + * + * @param scalar The scalar magnitude of the input. + * @param theta The input Theta instance containing the zenith angle. + * @return A new CartesianUnit instance generated from the input scalar and theta values. + * @see Spherical coordinate system + * @see Cartesian coordinate system + */ + public static CartesianUnit toCartesianUnit(IScalar scalar, Theta theta) + { + double x = scalar.getMagnitude() * Math.sin(theta.getZenith()); + double z = scalar.getMagnitude() * Math.cos(theta.getZenith()); + return new CartesianUnit(x, 0, z); + } + + /** + * Converts a radius and a theta value to a {@link CartesianUnit}. + * This method takes a radius value and a theta value and computes the corresponding x and z values for the resulting + * CartesianUnit, with a y coordinate of zero. The x and z values are computed using the radius value and the input theta + * value. + * + * @param radius The radius value of the input. + * @param theta The input theta value containing the zenith angle in radians. + * @return A new CartesianUnit instance generated from the input radius and theta values. + * @see Spherical coordinate system + * @see Cartesian coordinate system + */ + public static CartesianUnit toCartesianUnit(double radius, double theta) + { + double x = radius * Math.sin(theta); + double z = radius * Math.cos(theta); + return new CartesianUnit(x, 0, z); + } + + /** + * Converts a {@link SphericalUnit} to a {@link CartesianUnit}. + * This method takes a {@link SphericalUnit} object and computes the corresponding x, y, and z values for the resulting + * CartesianUnit using the input's radius, theta, and phi values. The x, y, and z values are computed using the sine and + * cosine trigonometric functions of the input's theta and phi values. + * + * @param unit The {@link SphericalUnit} instance to be converted to Cartesian coordinates. + * @return A new {@link CartesianUnit} instance generated from the input {@link SphericalUnit} object. + * @see Spherical coordinate system + * @see Cartesian coordinate system + */ + public static CartesianUnit toCartesianUnit(SphericalUnit unit) + { + double x = unit.radius() * Math.sin(unit.theta()) * Math.cos(unit.phi()); + double y = unit.radius() * Math.cos(unit.theta()); + double z = unit.radius() * Math.sin(unit.theta()) * Math.sin(unit.phi()); + return new CartesianUnit(x, y, z); + } + + /** + * Converts a scalar with theta and phi coordinates to a CartesianUnit. + * + * @param scalar the scalar value of the vector + * @param theta the theta coordinate of the vector + * @param phi the phi coordinate of the vector + * @return the CartesianUnit representation of the vector + */ + public static CartesianUnit toCartesianUnit(IScalar scalar, Theta theta, Phi phi) + { + double x = scalar.getMagnitude() * Math.sin(theta.getZenith()) * Math.cos(phi.getAzimuth()); + double y = scalar.getMagnitude() * Math.cos(theta.getZenith()); + double z = scalar.getMagnitude() * Math.sin(theta.getZenith()) * Math.sin(phi.getAzimuth()); + return new CartesianUnit(x, y, z); + } + + /** + * Converts a spherical coordinate (radius, theta, phi) to Cartesian coordinates (x, y, z). + * + * @param radius the radius of the spherical coordinate + * @param theta the theta angle in radians of the spherical coordinate + * @param phi the phi angle in radians of the spherical coordinate + * @return the corresponding CartesianUnit + */ + public static CartesianUnit toCartesianUnit(double radius, double theta, double phi) + { + double x = radius * Math.sin(theta) * Math.cos(phi); + double y = radius * Math.cos(theta); + double z = radius * Math.sin(theta) * Math.sin(phi); + return new CartesianUnit(x, y, z); + } + + /** + * Converts a {@link CartesianUnit} to a {@link PolarUnit}. + * + * @param unit the CartesianUnit to be converted + * @return a PolarUnit representing the same point as the input CartesianUnit + */ + public static PolarUnit toPolarUnit(CartesianUnit unit) + { + double radius = Math.sqrt( + unit.getPoint2D().getX() * unit.getPoint2D().getX() + + unit.getPoint2D().getZ() * unit.getPoint2D().getZ()); + double theta = Math.atan2(unit.getPoint2D().getX(), unit.getPoint2D().getZ()); + return new PolarUnit(radius, theta); + } + + /** + * Converts the given {@link CartesianUnit} to a {@link PolarUnit} using the magnitude of the given {@link IVector} as + * the radius. The angle theta is calculated from the x and z components of the CartesianUnit using the {@link Math#atan2(double, double)} method. + * + * @param unit the {@link CartesianUnit} to convert + * @param vector the {@link IVector} representing the radius of the resulting {@link PolarUnit} + * @return a {@link PolarUnit} representing the same point as the given {@link CartesianUnit} + */ + public static PolarUnit toPolarUnit(CartesianUnit unit, IVector vector) + { + double radius = vector.length(); + double theta = Math.atan2(unit.getPoint2D().getX(), unit.getPoint2D().getZ()); + return new PolarUnit(radius, theta); + } + + /** + * Returns a {@link PolarUnit} representing the polar coordinates of the given 2D point in relation to the given vector. + * + * @param point the point to convert to polar coordinates + * @param vector the vector used as a reference for the polar coordinates + * @return a PolarUnit representing the polar coordinates of the given point + */ + public static PolarUnit toPolarUnit(IPoint2D point, IVector vector) + { + double radius = vector.length(); + double theta = Math.atan2(point.getX(), point.getZ()); + return new PolarUnit(radius, theta); + } + + /** + * Converts a 2D point in Cartesian coordinates to a polar unit. + * + * @param x the x-coordinate of the point + * @param z the z-coordinate of the point + * @return a {@code PolarUnit} representing the polar coordinates of the point + */ + public static PolarUnit toPolarUnit(double x, double z) + { + double radius = Math.sqrt(x * x + z * z); + double theta = Math.atan2(x, z); + return new PolarUnit(radius, theta); + } + + /** + * Converts a CartesianUnit to a SphericalUnit. + * + * @param unit the CartesianUnit to be converted. + * @return the SphericalUnit representing the same point as the input CartesianUnit. + */ + public static SphericalUnit toSphericalUnit(CartesianUnit unit) + { + double radius = Math.sqrt( + unit.getPoint3D().getX() * unit.getPoint3D().getX() + + unit.getPoint3D().getY() * unit.getPoint3D().getY() + + unit.getPoint3D().getZ() * unit.getPoint3D().getZ()); + double theta = Math.acos(unit.getPoint3D().getY() / radius); + double phi = Math.atan2(unit.getPoint3D().getX(), unit.getPoint3D().getZ()); + return new SphericalUnit(radius, theta, phi); + } + + /** + * Converts the specified {@link IPoint3D} to a {@link SphericalUnit} using the specified {@link IVector}. + * + * @param point the point to convert to a spherical unit + * @param vector the vector to use for the conversion + * @return a new {@link SphericalUnit} representing the point in spherical coordinates + */ + public static SphericalUnit toSphericalUnit(IPoint3D point, IVector vector) + { + double radius = vector.length(); + double theta = Math.acos(point.getY() / radius); + double phi = Math.atan2(point.getX(), point.getZ()); + return new SphericalUnit(radius, theta, phi); + } + + /** + * Converts the given Cartesian coordinates (x, y, z) to spherical coordinates (radius, theta, phi). + * + * @param x the x-coordinate + * @param y the y-coordinate + * @param z the z-coordinate + * @return a new {@code SphericalUnit} representing the converted spherical coordinates + */ + public static SphericalUnit toSphericalUnit(double x, double y, double z) + { + double radius = Math.sqrt(x * x + y * y + z * z); + double theta = Math.acos(y / radius); + double phi = Math.atan2(x, z); + return new SphericalUnit(radius, theta, phi); + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/util/Rotator.java b/Commons/src/main/java/io/github/simplexdev/polarize/util/Rotator.java new file mode 100644 index 0000000..2f724f2 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/util/Rotator.java @@ -0,0 +1,90 @@ +package io.github.simplexdev.polarize.util; + +import io.github.simplexdev.polarize.api.IPoint2D; +import io.github.simplexdev.polarize.api.IPoint3D; +import io.github.simplexdev.polarize.api.IQuaternion; +import io.github.simplexdev.polarize.math.Point2D; +import io.github.simplexdev.polarize.math.Point3D; +import io.github.simplexdev.polarize.math.Quaternion; +import io.github.simplexdev.polarize.polar.Delta; +import io.github.simplexdev.polarize.polar.SphericalUnit; + +public class Rotator { + private Rotator() { + throw new AssertionError(); + } + + public static IPoint3D rotateX(IPoint3D point, SphericalUnit unit) { + double x = point.getX(); + double y = point.getY() * Math.cos(unit.theta()) - point.getZ() * Math.sin(unit.theta()); + double z = point.getY() * Math.sin(unit.theta()) + point.getZ() * Math.cos(unit.theta()); + + return new Point3D(x, y, z); + } + + public static IPoint3D rotateY(IPoint3D point, SphericalUnit unit) { + double x = point.getX() * Math.cos(unit.phi()) - point.getZ() * Math.sin(unit.phi()); + double y = point.getY(); + double z = point.getX() * Math.sin(unit.phi()) + point.getZ() * Math.cos(unit.phi()); + + return new Point3D(x, y, z); + } + + public static IPoint3D rotateZ(IPoint3D point, SphericalUnit unit) { + double x = point.getX() * Math.cos(unit.theta()) - point.getY() * Math.sin(unit.theta()); + double y = point.getX() * Math.sin(unit.theta()) + point.getY() * Math.cos(unit.theta()); + double z = point.getZ(); + + return new Point3D(x, y, z); + } + + public static IPoint3D fullRotation(IPoint3D point, Delta delta, SphericalUnit unit) { + double r = unit.radius() * Math.cos(unit.theta() + delta.theta()) * Math.cos(unit.phi() + delta.phi()); + double theta = Math.atan2(point.getX(), point.getZ()) + delta.theta(); + double phi = Math.atan2(Utilities.magnitudeOf(point.getX(), point.getZ()), point.getY()) + delta.phi(); + + double xRot = r * Math.sin(theta) * Math.cos(phi); + double yRot = r * Math.cos(theta); + double zRot = r * Math.sin(theta) * Math.sin(phi); + + return new Point3D(xRot, yRot, zRot); + } + + public static IPoint2D rotateX(IPoint2D point, SphericalUnit unit) { + double x = point.getZ() * Math.cos(unit.theta()) - point.getX() * Math.sin(unit.theta()); + double z = point.getZ() * Math.sin(unit.theta()) + point.getX() * Math.cos(unit.theta()); + return new Point2D(x, z); + } + + public static IPoint2D rotateZ(IPoint2D point, SphericalUnit unit) { + double x = point.getX() * Math.cos(unit.theta()) - point.getZ() * Math.sin(unit.theta()); + double z = point.getX() * Math.sin(unit.theta()) + point.getZ() * Math.cos(unit.theta()); + return new Point2D(x, z); + } + + public static IPoint2D fullRotation(IPoint2D point, SphericalUnit unit) { + double x = point.getX() * Math.cos(unit.theta()) - point.getZ() * Math.sin(unit.theta()); + double z = point.getX() * Math.sin(unit.theta()) + point.getZ() * Math.cos(unit.theta()); + return new Point2D(x, z); + } + + public static IPoint3D rotate(IPoint3D point, IQuaternion quaternion) { + IQuaternion pQuat = new Quaternion(0.0, point.getX(), point.getY(), point.getZ()); + + IQuaternion conjugate = quaternion.conjugate(); + + IQuaternion w = conjugate.multiply(pQuat).multiply(quaternion); + + return new Point3D(w.getX(), w.getY(), w.getZ()); + } + + public static IPoint2D rotate(IPoint2D point, IQuaternion quaternion) { + IQuaternion pQuat = new Quaternion(0.0, point.getX(), 0.0, point.getZ()); + + IQuaternion conjugate = quaternion.conjugate(); + + IQuaternion w = conjugate.multiply(pQuat).multiply(quaternion); + + return new Point2D(w.getX(), w.getZ()); + } +} diff --git a/Commons/src/main/java/io/github/simplexdev/polarize/util/Utilities.java b/Commons/src/main/java/io/github/simplexdev/polarize/util/Utilities.java new file mode 100644 index 0000000..beec986 --- /dev/null +++ b/Commons/src/main/java/io/github/simplexdev/polarize/util/Utilities.java @@ -0,0 +1,59 @@ +package io.github.simplexdev.polarize.util; + +public class Utilities +{ + private Utilities() { + throw new AssertionError(); + } + + /** + * The value of pi divided by 4. + * This represents 45 degrees in radians. + */ + public static final double RADIAN_45 = Math.PI / 4; + /** + * The value of pi divided by 2. + * This represents 90 degrees in radians. + */ + public static final double RADIAN_90 = Math.PI / 2; + /** + * The value of pi. + * This represents 180 degrees in radians. + */ + public static final double RADIAN_180 = Math.PI; + /** + * The value of pi multiplied by 1.5. + * This represents 270 degrees in radians. + */ + public static final double RADIAN_270 = Math.PI * 1.5; + /** + * The value of pi multiplied by 2. + * This represents 360 degrees in radians. + */ + public static final double RADIAN_360 = Math.PI * 2; + + /** + * Calculates the magnitude of a vector in 2D Cartesian coordinate system. + * + * @param x the x-coordinate of the vector + * @param z the z-coordinate of the vector + * @return the magnitude of the vector + */ + public static double magnitudeOf(double x, double z) + { + return Math.sqrt(x * x + z * z); + } + + /** + * Calculates the magnitude of a vector in 3D Cartesian coordinate system. + * + * @param x the x-coordinate of the vector + * @param y the y-coordinate of the vector + * @param z the z-coordinate of the vector + * @return the magnitude of the vector + */ + public static double magnitudeOf(double x, double y, double z) + { + return Math.sqrt(x * x + y * y + z * z); + } +} diff --git a/Paper/.gitignore b/Paper/.gitignore new file mode 100644 index 0000000..b63da45 --- /dev/null +++ b/Paper/.gitignore @@ -0,0 +1,42 @@ +.gradle +build/ +!gradle/wrapper/gradle-wrapper.jar +!**/src/main/**/build/ +!**/src/test/**/build/ + +### IntelliJ IDEA ### +.idea/modules.xml +.idea/jarRepositories.xml +.idea/compiler.xml +.idea/libraries/ +*.iws +*.iml +*.ipr +out/ +!**/src/main/**/out/ +!**/src/test/**/out/ + +### Eclipse ### +.apt_generated +.classpath +.factorypath +.project +.settings +.springBeans +.sts4-cache +bin/ +!**/src/main/**/bin/ +!**/src/test/**/bin/ + +### NetBeans ### +/nbproject/private/ +/nbbuild/ +/dist/ +/nbdist/ +/.nb-gradle/ + +### VS Code ### +.vscode/ + +### Mac OS ### +.DS_Store \ No newline at end of file diff --git a/Paper/build.gradle b/Paper/build.gradle new file mode 100644 index 0000000..c8780a6 --- /dev/null +++ b/Paper/build.gradle @@ -0,0 +1,22 @@ +plugins { + id 'java' +} + +group = 'io.github.simplexdev' +version = '1.0-SNAPSHOT' + +repositories { + maven { + name = "spigot-repo" + url = "https://hub.spigotmc.org/nexus/content/repositories/snapshots/" + } +} + +dependencies { + compileOnly 'org.spigotmc:spigot-api:1.19.2-R0.1-SNAPSHOT' + implementation project(':Commons') +} + +test { + useJUnitPlatform() +} \ No newline at end of file diff --git a/Paper/src/main/java/io/github/simplexdev/paper/DataConverter.java b/Paper/src/main/java/io/github/simplexdev/paper/DataConverter.java new file mode 100644 index 0000000..5e56049 --- /dev/null +++ b/Paper/src/main/java/io/github/simplexdev/paper/DataConverter.java @@ -0,0 +1,77 @@ +package io.github.simplexdev.paper; + +import io.github.simplexdev.polarize.api.IPoint2D; +import io.github.simplexdev.polarize.api.IPoint3D; +import io.github.simplexdev.polarize.api.IScalar; +import io.github.simplexdev.polarize.api.IVector; +import io.github.simplexdev.polarize.cartesian.CartesianVector; +import io.github.simplexdev.polarize.math.Point2D; +import io.github.simplexdev.polarize.math.Point3D; +import io.github.simplexdev.polarize.polar.Scalar; +import org.bukkit.Location; +import org.bukkit.World; +import org.bukkit.util.Vector; + +public class DataConverter { + + public static Vector toBukkitVector(IVector vector) { + return new Vector(vector.getX(), vector.getY(), vector.getZ()); + } + + public static IVector toPolarizeVector(Vector vector) { + return new CartesianVector(vector.getX(), vector.getY(), vector.getZ()); + } + + public static Location toBukkitLocation(World world, IPoint3D point) { + return new Location(world, point.getX(), point.getY(), point.getZ()); + } + + public static Location toBukkitLocation(World world, double y, IPoint2D point) { + return new Location(world, point.getX(), y, point.getZ()); + } + + public static IPoint3D to3DPoint(Location location) { + return new Point3D(location.getX(), location.getY(), location.getZ()); + } + + public static IPoint2D to2DPoint(Location location) { + return new Point2D(location.getX(), location.getZ()); + } + + public static IScalar getScalar(Location location, Vector vector) { + return new Scalar(vector.length(), Math.sqrt( + location.getX() * location.getX() + + location.getZ() * location.getZ())); + } + + public static IScalar getScalar(Location location) { + return new Scalar(location.getDirection().length(), + Math.sqrt(location.getX() * location.getX() + + location.getZ() * location.getZ())); + } + + public static Vector fromScalar(IScalar scalar, Location location) { + double magnitude = scalar.getMagnitude(); + + double x = location.getX(), + y = location.getY(), + z = location.getZ(); + + double length = magnitude / Math.sqrt(x * x + y * y + z * z); + + double xMod = x * length, + yMod = y * length, + zMod = z * length; + + return new Vector(xMod, yMod, zMod); + } + + public static IScalar toScalar(Vector vector, double origin) { + double magnitude = Math.sqrt(vector.getX() * vector.getX() + vector.getY() * vector.getY() + vector.getZ() * vector.getZ()); + + double magnitudeDiff = magnitude - vector.length(); + double originMod = origin - magnitudeDiff; + + return new Scalar(magnitude, originMod); + } +} diff --git a/build.gradle b/build.gradle new file mode 100644 index 0000000..b3e16ef --- /dev/null +++ b/build.gradle @@ -0,0 +1,28 @@ +plugins { + id 'java' +} + +group = 'io.github.simplexdev' +version = '1.0-SNAPSHOT' + +subprojects { + apply plugin: 'java' + + repositories { + mavenCentral() + } + + dependencies { + implementation 'org.jetbrains:annotations:24.0.0' + testImplementation platform('org.junit:junit-bom:5.9.1') + testImplementation 'org.junit.jupiter:junit-jupiter' + } +} + +tasks.build { + dependsOn(":Commons:build", ":Paper:build") +} 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You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script. +DEFAULT_JVM_OPTS='"-Xmx64m" "-Xms64m"' + +# Use the maximum available, or set MAX_FD != -1 to use that value. +MAX_FD=maximum + +warn () { + echo "$*" +} >&2 + +die () { + echo + echo "$*" + echo + exit 1 +} >&2 + +# OS specific support (must be 'true' or 'false'). +cygwin=false +msys=false +darwin=false +nonstop=false +case "$( uname )" in #( + CYGWIN* ) cygwin=true ;; #( + Darwin* ) darwin=true ;; #( + MSYS* | MINGW* ) msys=true ;; #( + NONSTOP* ) nonstop=true ;; +esac + +CLASSPATH=$APP_HOME/gradle/wrapper/gradle-wrapper.jar + + +# Determine the Java command to use to start the JVM. +if [ -n "$JAVA_HOME" ] ; then + if [ -x "$JAVA_HOME/jre/sh/java" ] ; then + # IBM's JDK on AIX uses strange locations for the executables + JAVACMD=$JAVA_HOME/jre/sh/java + else + JAVACMD=$JAVA_HOME/bin/java + fi + if [ ! -x "$JAVACMD" ] ; then + die "ERROR: JAVA_HOME is set to an invalid directory: $JAVA_HOME + +Please set the JAVA_HOME variable in your environment to match the +location of your Java installation." + fi +else + JAVACMD=java + which java >/dev/null 2>&1 || die "ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH. + +Please set the JAVA_HOME variable in your environment to match the +location of your Java installation." +fi + +# Increase the maximum file descriptors if we can. +if ! "$cygwin" && ! "$darwin" && ! "$nonstop" ; then + case $MAX_FD in #( + max*) + MAX_FD=$( ulimit -H -n ) || + warn "Could not query maximum file descriptor limit" + esac + case $MAX_FD in #( + '' | soft) :;; #( + *) + ulimit -n "$MAX_FD" || + warn "Could not set maximum file descriptor limit to $MAX_FD" + esac +fi + +# Collect all arguments for the java command, stacking in reverse order: +# * args from the command line +# * the main class name +# * -classpath +# * -D...appname settings +# * --module-path (only if needed) +# * DEFAULT_JVM_OPTS, JAVA_OPTS, and GRADLE_OPTS environment variables. + +# For Cygwin or MSYS, switch paths to Windows format before running java +if "$cygwin" || "$msys" ; then + APP_HOME=$( cygpath --path --mixed "$APP_HOME" ) + CLASSPATH=$( cygpath --path --mixed "$CLASSPATH" ) + + JAVACMD=$( cygpath --unix "$JAVACMD" ) + + # Now convert the arguments - kludge to limit ourselves to /bin/sh + for arg do + if + case $arg in #( + -*) false ;; # don't mess with options #( + /?*) t=${arg#/} t=/${t%%/*} # looks like a POSIX filepath + [ -e "$t" ] ;; #( + *) false ;; + esac + then + arg=$( cygpath --path --ignore --mixed "$arg" ) + fi + # Roll the args list around exactly as many times as the number of + # args, so each arg winds up back in the position where it started, but + # possibly modified. + # + # NB: a `for` loop captures its iteration list before it begins, so + # changing the positional parameters here affects neither the number of + # iterations, nor the values presented in `arg`. + shift # remove old arg + set -- "$@" "$arg" # push replacement arg + done +fi + +# Collect all arguments for the java command; +# * $DEFAULT_JVM_OPTS, $JAVA_OPTS, and $GRADLE_OPTS can contain fragments of +# shell script including quotes and variable substitutions, so put them in +# double quotes to make sure that they get re-expanded; and +# * put everything else in single quotes, so that it's not re-expanded. + +set -- \ + "-Dorg.gradle.appname=$APP_BASE_NAME" \ + -classpath "$CLASSPATH" \ + org.gradle.wrapper.GradleWrapperMain \ + "$@" + +# Use "xargs" to parse quoted args. +# +# With -n1 it outputs one arg per line, with the quotes and backslashes removed. +# +# In Bash we could simply go: +# +# readarray ARGS < <( xargs -n1 <<<"$var" ) && +# set -- "${ARGS[@]}" "$@" +# +# but POSIX shell has neither arrays nor command substitution, so instead we +# post-process each arg (as a line of input to sed) to backslash-escape any +# character that might be a shell metacharacter, then use eval to reverse +# that process (while maintaining the separation between arguments), and wrap +# the whole thing up as a single "set" statement. +# +# This will of course break if any of these variables contains a newline or +# an unmatched quote. +# + +eval "set -- $( + printf '%s\n' "$DEFAULT_JVM_OPTS $JAVA_OPTS $GRADLE_OPTS" | + xargs -n1 | + sed ' s~[^-[:alnum:]+,./:=@_]~\\&~g; ' | + tr '\n' ' ' + )" '"$@"' + +exec "$JAVACMD" "$@" diff --git a/gradlew.bat b/gradlew.bat new file mode 100644 index 0000000..107acd3 --- /dev/null +++ b/gradlew.bat @@ -0,0 +1,89 @@ +@rem +@rem Copyright 2015 the original author or authors. +@rem +@rem Licensed under the Apache License, Version 2.0 (the "License"); +@rem you may not use this file except in compliance with the License. +@rem You may obtain a copy of the License at +@rem +@rem https://www.apache.org/licenses/LICENSE-2.0 +@rem +@rem Unless required by applicable law or agreed to in writing, software +@rem distributed under the License is distributed on an "AS IS" BASIS, +@rem WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +@rem See the License for the specific language governing permissions and +@rem limitations under the License. +@rem + +@if "%DEBUG%" == "" @echo off +@rem ########################################################################## +@rem +@rem Gradle startup script for Windows +@rem +@rem ########################################################################## + +@rem Set local scope for the variables with windows NT shell +if "%OS%"=="Windows_NT" setlocal + +set DIRNAME=%~dp0 +if "%DIRNAME%" == "" set DIRNAME=. +set APP_BASE_NAME=%~n0 +set APP_HOME=%DIRNAME% + +@rem Resolve any "." and ".." in APP_HOME to make it shorter. +for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi + +@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script. +set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m" + +@rem Find java.exe +if defined JAVA_HOME goto findJavaFromJavaHome + +set JAVA_EXE=java.exe +%JAVA_EXE% -version >NUL 2>&1 +if "%ERRORLEVEL%" == "0" goto execute + +echo. +echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH. +echo. +echo Please set the JAVA_HOME variable in your environment to match the +echo location of your Java installation. + +goto fail + +:findJavaFromJavaHome +set JAVA_HOME=%JAVA_HOME:"=% +set JAVA_EXE=%JAVA_HOME%/bin/java.exe + +if exist "%JAVA_EXE%" goto execute + +echo. +echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME% +echo. +echo Please set the JAVA_HOME variable in your environment to match the +echo location of your Java installation. + +goto fail + +:execute +@rem Setup the command line + +set CLASSPATH=%APP_HOME%\gradle\wrapper\gradle-wrapper.jar + + +@rem Execute Gradle +"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %* + +:end +@rem End local scope for the variables with windows NT shell +if "%ERRORLEVEL%"=="0" goto mainEnd + +:fail +rem Set variable GRADLE_EXIT_CONSOLE if you need the _script_ return code instead of +rem the _cmd.exe /c_ return code! +if not "" == "%GRADLE_EXIT_CONSOLE%" exit 1 +exit /b 1 + +:mainEnd +if "%OS%"=="Windows_NT" endlocal + +:omega diff --git a/settings.gradle b/settings.gradle new file mode 100644 index 0000000..1c3324f --- /dev/null +++ b/settings.gradle @@ -0,0 +1,4 @@ +rootProject.name = 'Polarize' +include 'Commons' +include 'Paper' +