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import Frozen from "./Frozen.js";
import defined from "./defined.js";
import DeveloperError from "./DeveloperError.js";
import CesiumMath from "./Math.js";
import PerspectiveOffCenterFrustum from "./PerspectiveOffCenterFrustum.js";
/**
* The viewing frustum is defined by 6 planes.
* Each plane is represented by a {@link Cartesian4} object, where the x, y, and z components
* define the unit vector normal to the plane, and the w component is the distance of the
* plane from the origin/camera position.
*
* @alias PerspectiveFrustum
* @constructor
*
* @param {object} [options] An object with the following properties:
* @param {number} [options.fov] The angle of the field of view (FOV), in radians.
* @param {number} [options.aspectRatio] The aspect ratio of the frustum's width to it's height.
* @param {number} [options.near=1.0] The distance of the near plane.
* @param {number} [options.far=500000000.0] The distance of the far plane.
* @param {number} [options.xOffset=0.0] The offset in the x direction.
* @param {number} [options.yOffset=0.0] The offset in the y direction.
*
* @example
* const frustum = new Cesium.PerspectiveFrustum({
* fov : Cesium.Math.PI_OVER_THREE,
* aspectRatio : canvas.clientWidth / canvas.clientHeight
* near : 1.0,
* far : 1000.0
* });
*
* @see PerspectiveOffCenterFrustum
*/
function PerspectiveFrustum(options) {
options = options ?? Frozen.EMPTY_OBJECT;
this._offCenterFrustum = new PerspectiveOffCenterFrustum();
/**
* The angle of the field of view (FOV), in radians. This angle will be used
* as the horizontal FOV if the width is greater than the height, otherwise
* it will be the vertical FOV.
* @type {number|undefined}
* @default undefined
*/
this.fov = options.fov;
this._fov = undefined;
this._fovy = undefined;
this._sseDenominator = undefined;
/**
* The aspect ratio of the frustum's width to it's height.
* @type {number|undefined}
* @default undefined
*/
this.aspectRatio = options.aspectRatio;
this._aspectRatio = undefined;
/**
* The distance of the near plane.
* @type {number}
* @default 1.0
*/
this.near = options.near ?? 1.0;
this._near = this.near;
/**
* The distance of the far plane.
* @type {number}
* @default 500000000.0
*/
this.far = options.far ?? 500000000.0;
this._far = this.far;
/**
* Offsets the frustum in the x direction.
* @type {number}
* @default 0.0
*/
this.xOffset = options.xOffset ?? 0.0;
this._xOffset = this.xOffset;
/**
* Offsets the frustum in the y direction.
* @type {number}
* @default 0.0
*/
this.yOffset = options.yOffset ?? 0.0;
this._yOffset = this.yOffset;
}
/**
* The number of elements used to pack the object into an array.
* @type {number}
*/
PerspectiveFrustum.packedLength = 6;
/**
* Stores the provided instance into the provided array.
*
* @param {PerspectiveFrustum} value The value to pack.
* @param {number[]} array The array to pack into.
* @param {number} [startingIndex=0] The index into the array at which to start packing the elements.
*
* @returns {number[]} The array that was packed into
*/
PerspectiveFrustum.pack = function (value, array, startingIndex) {
//>>includeStart('debug', pragmas.debug);
Check.typeOf.object("value", value);
Check.defined("array", array);
//>>includeEnd('debug');
startingIndex = startingIndex ?? 0;
array[startingIndex++] = value.fov;
array[startingIndex++] = value.aspectRatio;
array[startingIndex++] = value.near;
array[startingIndex++] = value.far;
array[startingIndex++] = value.xOffset;
array[startingIndex] = value.yOffset;
return array;
};
/**
* Retrieves an instance from a packed array.
*
* @param {number[]} array The packed array.
* @param {number} [startingIndex=0] The starting index of the element to be unpacked.
* @param {PerspectiveFrustum} [result] The object into which to store the result.
* @returns {PerspectiveFrustum} The modified result parameter or a new PerspectiveFrustum instance if one was not provided.
*/
PerspectiveFrustum.unpack = function (array, startingIndex, result) {
//>>includeStart('debug', pragmas.debug);
Check.defined("array", array);
//>>includeEnd('debug');
startingIndex = startingIndex ?? 0;
if (!defined(result)) {
result = new PerspectiveFrustum();
}
result.fov = array[startingIndex++];
result.aspectRatio = array[startingIndex++];
result.near = array[startingIndex++];
result.far = array[startingIndex++];
result.xOffset = array[startingIndex++];
result.yOffset = array[startingIndex];
return result;
};
function update(frustum) {
//>>includeStart('debug', pragmas.debug);
if (
!defined(frustum.fov) ||
!defined(frustum.aspectRatio) ||
!defined(frustum.near) ||
!defined(frustum.far)
) {
throw new DeveloperError(
"fov, aspectRatio, near, or far parameters are not set.",
);
}
//>>includeEnd('debug');
const changed =
frustum.fov !== frustum._fov ||
frustum.aspectRatio !== frustum._aspectRatio ||
frustum.near !== frustum._near ||
frustum.far !== frustum._far ||
frustum.xOffset !== frustum._xOffset ||
frustum.yOffset !== frustum._yOffset;
if (!changed) {
return;
}
//>>includeStart('debug', pragmas.debug);
Check.typeOf.number.greaterThanOrEquals("fov", frustum.fov, 0.0);
Check.typeOf.number.lessThan("fov", frustum.fov, Math.PI);
Check.typeOf.number.greaterThanOrEquals(
"aspectRatio",
frustum.aspectRatio,
0.0,
);
Check.typeOf.number.greaterThanOrEquals("near", frustum.near, 0.0);
if (frustum.near > frustum.far) {
throw new DeveloperError("near must be less than far.");
}
//>>includeEnd('debug');
frustum._aspectRatio = frustum.aspectRatio;
frustum._fov = frustum.fov;
frustum._fovy =
frustum.aspectRatio <= 1
? frustum.fov
: Math.atan(Math.tan(frustum.fov * 0.5) / frustum.aspectRatio) * 2.0;
frustum._near = frustum.near;
frustum._far = frustum.far;
frustum._sseDenominator = 2.0 * Math.tan(0.5 * frustum._fovy);
frustum._xOffset = frustum.xOffset;
frustum._yOffset = frustum.yOffset;
const f = frustum._offCenterFrustum;
f.top = frustum.near * Math.tan(0.5 * frustum._fovy);
f.bottom = -f.top;
f.right = frustum.aspectRatio * f.top;
f.left = -f.right;
f.near = frustum.near;
f.far = frustum.far;
f.right += frustum.xOffset;
f.left += frustum.xOffset;
f.top += frustum.yOffset;
f.bottom += frustum.yOffset;
}
Object.defineProperties(PerspectiveFrustum.prototype, {
/**
* Gets the perspective projection matrix computed from the view frustum.
* If necessary, the projection matrix will be recomputed.
*
* @memberof PerspectiveFrustum.prototype
* @type {Matrix4}
* @readonly
*
* @see PerspectiveOffCenterFrustum#projectionMatrix.
* @see PerspectiveFrustum#infiniteProjectionMatrix
*/
projectionMatrix: {
get: function () {
update(this);
return this._offCenterFrustum.projectionMatrix;
},
},
/**
* The perspective projection matrix computed from the view frustum with an infinite far plane.
* @memberof PerspectiveFrustum.prototype
* @type {Matrix4}
* @readonly
*
* @see PerspectiveFrustum#projectionMatrix
*/
infiniteProjectionMatrix: {
get: function () {
update(this);
return this._offCenterFrustum.infiniteProjectionMatrix;
},
},
/**
* Gets the angle of the vertical field of view, in radians.
* @memberof PerspectiveFrustum.prototype
* @type {number|undefined}
* @readonly
* @default undefined
*/
fovy: {
get: function () {
update(this);
return this._fovy;
},
},
/**
* @readonly
* @private
*/
sseDenominator: {
get: function () {
update(this);
return this._sseDenominator;
},
},
/**
* Gets the orthographic projection matrix computed from the view frustum.
* @memberof PerspectiveFrustum.prototype
* @type {PerspectiveOffCenterFrustum}
* @readonly
* @private
*/
offCenterFrustum: {
get: function () {
update(this);
return this._offCenterFrustum;
},
},
});
/**
* Creates a culling volume for this frustum.
*
* @param {Cartesian3} position The eye position.
* @param {Cartesian3} direction The view direction.
* @param {Cartesian3} up The up direction.
* @returns {CullingVolume} A culling volume at the given position and orientation.
*
* @example
* // Check if a bounding volume intersects the frustum.
* const cullingVolume = frustum.computeCullingVolume(cameraPosition, cameraDirection, cameraUp);
* const intersect = cullingVolume.computeVisibility(boundingVolume);
*/
PerspectiveFrustum.prototype.computeCullingVolume = function (
position,
direction,
up,
) {
update(this);
return this._offCenterFrustum.computeCullingVolume(position, direction, up);
};
/**
* Returns the pixel's width and height in meters.
*
* @param {number} drawingBufferWidth The width of the drawing buffer.
* @param {number} drawingBufferHeight The height of the drawing buffer.
* @param {number} distance The distance to the near plane in meters.
* @param {number} pixelRatio The scaling factor from pixel space to coordinate space.
* @param {Cartesian2} result The object onto which to store the result.
* @returns {Cartesian2} The modified result parameter or a new instance of {@link Cartesian2} with the pixel's width and height in the x and y properties, respectively.
*
* @exception {DeveloperError} drawingBufferWidth must be greater than zero.
* @exception {DeveloperError} drawingBufferHeight must be greater than zero.
* @exception {DeveloperError} pixelRatio must be greater than zero.
*
* @example
* // Example 1
* // Get the width and height of a pixel.
* const pixelSize = camera.frustum.getPixelDimensions(scene.drawingBufferWidth, scene.drawingBufferHeight, 1.0, scene.pixelRatio, new Cesium.Cartesian2());
*
* @example
* // Example 2
* // Get the width and height of a pixel if the near plane was set to 'distance'.
* // For example, get the size of a pixel of an image on a billboard.
* const position = camera.position;
* const direction = camera.direction;
* const toCenter = Cesium.Cartesian3.subtract(primitive.boundingVolume.center, position, new Cesium.Cartesian3()); // vector from camera to a primitive
* const toCenterProj = Cesium.Cartesian3.multiplyByScalar(direction, Cesium.Cartesian3.dot(direction, toCenter), new Cesium.Cartesian3()); // project vector onto camera direction vector
* const distance = Cesium.Cartesian3.magnitude(toCenterProj);
* const pixelSize = camera.frustum.getPixelDimensions(scene.drawingBufferWidth, scene.drawingBufferHeight, distance, scene.pixelRatio, new Cesium.Cartesian2());
*/
PerspectiveFrustum.prototype.getPixelDimensions = function (
drawingBufferWidth,
drawingBufferHeight,
distance,
pixelRatio,
result,
) {
update(this);
return this._offCenterFrustum.getPixelDimensions(
drawingBufferWidth,
drawingBufferHeight,
distance,
pixelRatio,
result,
);
};
/**
* Returns a duplicate of a PerspectiveFrustum instance.
*
* @param {PerspectiveFrustum} [result] The object onto which to store the result.
* @returns {PerspectiveFrustum} The modified result parameter or a new PerspectiveFrustum instance if one was not provided.
*/
PerspectiveFrustum.prototype.clone = function (result) {
if (!defined(result)) {
result = new PerspectiveFrustum();
}
result.aspectRatio = this.aspectRatio;
result.fov = this.fov;
result.near = this.near;
result.far = this.far;
// force update of clone to compute matrices
result._aspectRatio = undefined;
result._fov = undefined;
result._near = undefined;
result._far = undefined;
this._offCenterFrustum.clone(result._offCenterFrustum);
return result;
};
/**
* Compares the provided PerspectiveFrustum componentwise and returns
* <code>true</code> if they are equal, <code>false</code> otherwise.
*
* @param {PerspectiveFrustum} [other] The right hand side PerspectiveFrustum.
* @returns {boolean} <code>true</code> if they are equal, <code>false</code> otherwise.
*/
PerspectiveFrustum.prototype.equals = function (other) {
if (!defined(other) || !(other instanceof PerspectiveFrustum)) {
return false;
}
update(this);
update(other);
return (
this.fov === other.fov &&
this.aspectRatio === other.aspectRatio &&
this._offCenterFrustum.equals(other._offCenterFrustum)
);
};
/**
* Compares the provided PerspectiveFrustum componentwise and returns
* <code>true</code> if they pass an absolute or relative tolerance test,
* <code>false</code> otherwise.
*
* @param {PerspectiveFrustum} other The right hand side PerspectiveFrustum.
* @param {number} relativeEpsilon The relative epsilon tolerance to use for equality testing.
* @param {number} [absoluteEpsilon=relativeEpsilon] The absolute epsilon tolerance to use for equality testing.
* @returns {boolean} <code>true</code> if this and other are within the provided epsilon, <code>false</code> otherwise.
*/
PerspectiveFrustum.prototype.equalsEpsilon = function (
other,
relativeEpsilon,
absoluteEpsilon,
) {
if (!defined(other) || !(other instanceof PerspectiveFrustum)) {
return false;
}
update(this);
update(other);
return (
CesiumMath.equalsEpsilon(
this.fov,
other.fov,
relativeEpsilon,
absoluteEpsilon,
) &&
CesiumMath.equalsEpsilon(
this.aspectRatio,
other.aspectRatio,
relativeEpsilon,
absoluteEpsilon,
) &&
this._offCenterFrustum.equalsEpsilon(
other._offCenterFrustum,
relativeEpsilon,
absoluteEpsilon,
)
);
};
export default PerspectiveFrustum;
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