three 基础库
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( function () {
const _raycaster = new THREE.Raycaster();
const _tempVector = new THREE.Vector3();
const _tempVector2 = new THREE.Vector3();
const _tempQuaternion = new THREE.Quaternion();
const _unit = {
X: new THREE.Vector3( 1, 0, 0 ),
Y: new THREE.Vector3( 0, 1, 0 ),
Z: new THREE.Vector3( 0, 0, 1 )
};
const _changeEvent = {
type: 'change'
};
const _mouseDownEvent = {
type: 'mouseDown'
};
const _mouseUpEvent = {
type: 'mouseUp',
mode: null
};
const _objectChangeEvent = {
type: 'objectChange'
};
class TransformControls extends THREE.Object3D {
constructor( camera, domElement ) {
super();
if ( domElement === undefined ) {
console.warn( 'THREE.TransformControls: The second parameter "domElement" is now mandatory.' );
domElement = document;
}
this.visible = false;
this.domElement = domElement;
this.domElement.style.touchAction = 'none'; // disable touch scroll
const _gizmo = new TransformControlsGizmo();
this._gizmo = _gizmo;
this.add( _gizmo );
const _plane = new TransformControlsPlane();
this._plane = _plane;
this.add( _plane );
const scope = this; // Defined getter, setter and store for a property
function defineProperty( propName, defaultValue ) {
let propValue = defaultValue;
Object.defineProperty( scope, propName, {
get: function () {
return propValue !== undefined ? propValue : defaultValue;
},
set: function ( value ) {
if ( propValue !== value ) {
propValue = value;
_plane[ propName ] = value;
_gizmo[ propName ] = value;
scope.dispatchEvent( {
type: propName + '-changed',
value: value
} );
scope.dispatchEvent( _changeEvent );
}
}
} );
scope[ propName ] = defaultValue;
_plane[ propName ] = defaultValue;
_gizmo[ propName ] = defaultValue;
} // Define properties with getters/setter
// Setting the defined property will automatically trigger change event
// Defined properties are passed down to gizmo and plane
defineProperty( 'camera', camera );
defineProperty( 'object', undefined );
defineProperty( 'enabled', true );
defineProperty( 'axis', null );
defineProperty( 'mode', 'translate' );
defineProperty( 'translationSnap', null );
defineProperty( 'rotationSnap', null );
defineProperty( 'scaleSnap', null );
defineProperty( 'space', 'world' );
defineProperty( 'size', 1 );
defineProperty( 'dragging', false );
defineProperty( 'showX', true );
defineProperty( 'showY', true );
defineProperty( 'showZ', true ); // Reusable utility variables
const worldPosition = new THREE.Vector3();
const worldPositionStart = new THREE.Vector3();
const worldQuaternion = new THREE.Quaternion();
const worldQuaternionStart = new THREE.Quaternion();
const cameraPosition = new THREE.Vector3();
const cameraQuaternion = new THREE.Quaternion();
const pointStart = new THREE.Vector3();
const pointEnd = new THREE.Vector3();
const rotationAxis = new THREE.Vector3();
const rotationAngle = 0;
const eye = new THREE.Vector3(); // TODO: remove properties unused in plane and gizmo
defineProperty( 'worldPosition', worldPosition );
defineProperty( 'worldPositionStart', worldPositionStart );
defineProperty( 'worldQuaternion', worldQuaternion );
defineProperty( 'worldQuaternionStart', worldQuaternionStart );
defineProperty( 'cameraPosition', cameraPosition );
defineProperty( 'cameraQuaternion', cameraQuaternion );
defineProperty( 'pointStart', pointStart );
defineProperty( 'pointEnd', pointEnd );
defineProperty( 'rotationAxis', rotationAxis );
defineProperty( 'rotationAngle', rotationAngle );
defineProperty( 'eye', eye );
this._offset = new THREE.Vector3();
this._startNorm = new THREE.Vector3();
this._endNorm = new THREE.Vector3();
this._cameraScale = new THREE.Vector3();
this._parentPosition = new THREE.Vector3();
this._parentQuaternion = new THREE.Quaternion();
this._parentQuaternionInv = new THREE.Quaternion();
this._parentScale = new THREE.Vector3();
this._worldScaleStart = new THREE.Vector3();
this._worldQuaternionInv = new THREE.Quaternion();
this._worldScale = new THREE.Vector3();
this._positionStart = new THREE.Vector3();
this._quaternionStart = new THREE.Quaternion();
this._scaleStart = new THREE.Vector3();
this._getPointer = getPointer.bind( this );
this._onPointerDown = onPointerDown.bind( this );
this._onPointerHover = onPointerHover.bind( this );
this._onPointerMove = onPointerMove.bind( this );
this._onPointerUp = onPointerUp.bind( this );
this.domElement.addEventListener( 'pointerdown', this._onPointerDown );
this.domElement.addEventListener( 'pointermove', this._onPointerHover );
this.domElement.ownerDocument.addEventListener( 'pointerup', this._onPointerUp );
} // updateMatrixWorld updates key transformation variables
updateMatrixWorld() {
if ( this.object !== undefined ) {
this.object.updateMatrixWorld();
if ( this.object.parent === null ) {
console.error( 'TransformControls: The attached 3D object must be a part of the scene graph.' );
} else {
this.object.parent.matrixWorld.decompose( this._parentPosition, this._parentQuaternion, this._parentScale );
}
this.object.matrixWorld.decompose( this.worldPosition, this.worldQuaternion, this._worldScale );
this._parentQuaternionInv.copy( this._parentQuaternion ).invert();
this._worldQuaternionInv.copy( this.worldQuaternion ).invert();
}
this.camera.updateMatrixWorld();
this.camera.matrixWorld.decompose( this.cameraPosition, this.cameraQuaternion, this._cameraScale );
this.eye.copy( this.cameraPosition ).sub( this.worldPosition ).normalize();
super.updateMatrixWorld( this );
}
pointerHover( pointer ) {
if ( this.object === undefined || this.dragging === true ) return;
_raycaster.setFromCamera( pointer, this.camera );
const intersect = intersectObjectWithRay( this._gizmo.picker[ this.mode ], _raycaster );
if ( intersect ) {
this.axis = intersect.object.name;
} else {
this.axis = null;
}
}
pointerDown( pointer ) {
if ( this.object === undefined || this.dragging === true || pointer.button !== 0 ) return;
if ( this.axis !== null ) {
_raycaster.setFromCamera( pointer, this.camera );
const planeIntersect = intersectObjectWithRay( this._plane, _raycaster, true );
if ( planeIntersect ) {
let space = this.space;
if ( this.mode === 'scale' ) {
space = 'local';
} else if ( this.axis === 'E' || this.axis === 'XYZE' || this.axis === 'XYZ' ) {
space = 'world';
}
if ( space === 'local' && this.mode === 'rotate' ) {
const snap = this.rotationSnap;
if ( this.axis === 'X' && snap ) this.object.rotation.x = Math.round( this.object.rotation.x / snap ) * snap;
if ( this.axis === 'Y' && snap ) this.object.rotation.y = Math.round( this.object.rotation.y / snap ) * snap;
if ( this.axis === 'Z' && snap ) this.object.rotation.z = Math.round( this.object.rotation.z / snap ) * snap;
}
this.object.updateMatrixWorld();
this.object.parent.updateMatrixWorld();
this._positionStart.copy( this.object.position );
this._quaternionStart.copy( this.object.quaternion );
this._scaleStart.copy( this.object.scale );
this.object.matrixWorld.decompose( this.worldPositionStart, this.worldQuaternionStart, this._worldScaleStart );
this.pointStart.copy( planeIntersect.point ).sub( this.worldPositionStart );
}
this.dragging = true;
_mouseDownEvent.mode = this.mode;
this.dispatchEvent( _mouseDownEvent );
}
}
pointerMove( pointer ) {
const axis = this.axis;
const mode = this.mode;
const object = this.object;
let space = this.space;
if ( mode === 'scale' ) {
space = 'local';
} else if ( axis === 'E' || axis === 'XYZE' || axis === 'XYZ' ) {
space = 'world';
}
if ( object === undefined || axis === null || this.dragging === false || pointer.button !== - 1 ) return;
_raycaster.setFromCamera( pointer, this.camera );
const planeIntersect = intersectObjectWithRay( this._plane, _raycaster, true );
if ( ! planeIntersect ) return;
this.pointEnd.copy( planeIntersect.point ).sub( this.worldPositionStart );
if ( mode === 'translate' ) {
// Apply translate
this._offset.copy( this.pointEnd ).sub( this.pointStart );
if ( space === 'local' && axis !== 'XYZ' ) {
this._offset.applyQuaternion( this._worldQuaternionInv );
}
if ( axis.indexOf( 'X' ) === - 1 ) this._offset.x = 0;
if ( axis.indexOf( 'Y' ) === - 1 ) this._offset.y = 0;
if ( axis.indexOf( 'Z' ) === - 1 ) this._offset.z = 0;
if ( space === 'local' && axis !== 'XYZ' ) {
this._offset.applyQuaternion( this._quaternionStart ).divide( this._parentScale );
} else {
this._offset.applyQuaternion( this._parentQuaternionInv ).divide( this._parentScale );
}
object.position.copy( this._offset ).add( this._positionStart ); // Apply translation snap
if ( this.translationSnap ) {
if ( space === 'local' ) {
object.position.applyQuaternion( _tempQuaternion.copy( this._quaternionStart ).invert() );
if ( axis.search( 'X' ) !== - 1 ) {
object.position.x = Math.round( object.position.x / this.translationSnap ) * this.translationSnap;
}
if ( axis.search( 'Y' ) !== - 1 ) {
object.position.y = Math.round( object.position.y / this.translationSnap ) * this.translationSnap;
}
if ( axis.search( 'Z' ) !== - 1 ) {
object.position.z = Math.round( object.position.z / this.translationSnap ) * this.translationSnap;
}
object.position.applyQuaternion( this._quaternionStart );
}
if ( space === 'world' ) {
if ( object.parent ) {
object.position.add( _tempVector.setFromMatrixPosition( object.parent.matrixWorld ) );
}
if ( axis.search( 'X' ) !== - 1 ) {
object.position.x = Math.round( object.position.x / this.translationSnap ) * this.translationSnap;
}
if ( axis.search( 'Y' ) !== - 1 ) {
object.position.y = Math.round( object.position.y / this.translationSnap ) * this.translationSnap;
}
if ( axis.search( 'Z' ) !== - 1 ) {
object.position.z = Math.round( object.position.z / this.translationSnap ) * this.translationSnap;
}
if ( object.parent ) {
object.position.sub( _tempVector.setFromMatrixPosition( object.parent.matrixWorld ) );
}
}
}
} else if ( mode === 'scale' ) {
if ( axis.search( 'XYZ' ) !== - 1 ) {
let d = this.pointEnd.length() / this.pointStart.length();
if ( this.pointEnd.dot( this.pointStart ) < 0 ) d *= - 1;
_tempVector2.set( d, d, d );
} else {
_tempVector.copy( this.pointStart );
_tempVector2.copy( this.pointEnd );
_tempVector.applyQuaternion( this._worldQuaternionInv );
_tempVector2.applyQuaternion( this._worldQuaternionInv );
_tempVector2.divide( _tempVector );
if ( axis.search( 'X' ) === - 1 ) {
_tempVector2.x = 1;
}
if ( axis.search( 'Y' ) === - 1 ) {
_tempVector2.y = 1;
}
if ( axis.search( 'Z' ) === - 1 ) {
_tempVector2.z = 1;
}
} // Apply scale
object.scale.copy( this._scaleStart ).multiply( _tempVector2 );
if ( this.scaleSnap ) {
if ( axis.search( 'X' ) !== - 1 ) {
object.scale.x = Math.round( object.scale.x / this.scaleSnap ) * this.scaleSnap || this.scaleSnap;
}
if ( axis.search( 'Y' ) !== - 1 ) {
object.scale.y = Math.round( object.scale.y / this.scaleSnap ) * this.scaleSnap || this.scaleSnap;
}
if ( axis.search( 'Z' ) !== - 1 ) {
object.scale.z = Math.round( object.scale.z / this.scaleSnap ) * this.scaleSnap || this.scaleSnap;
}
}
} else if ( mode === 'rotate' ) {
this._offset.copy( this.pointEnd ).sub( this.pointStart );
const ROTATION_SPEED = 20 / this.worldPosition.distanceTo( _tempVector.setFromMatrixPosition( this.camera.matrixWorld ) );
if ( axis === 'E' ) {
this.rotationAxis.copy( this.eye );
this.rotationAngle = this.pointEnd.angleTo( this.pointStart );
this._startNorm.copy( this.pointStart ).normalize();
this._endNorm.copy( this.pointEnd ).normalize();
this.rotationAngle *= this._endNorm.cross( this._startNorm ).dot( this.eye ) < 0 ? 1 : - 1;
} else if ( axis === 'XYZE' ) {
this.rotationAxis.copy( this._offset ).cross( this.eye ).normalize();
this.rotationAngle = this._offset.dot( _tempVector.copy( this.rotationAxis ).cross( this.eye ) ) * ROTATION_SPEED;
} else if ( axis === 'X' || axis === 'Y' || axis === 'Z' ) {
this.rotationAxis.copy( _unit[ axis ] );
_tempVector.copy( _unit[ axis ] );
if ( space === 'local' ) {
_tempVector.applyQuaternion( this.worldQuaternion );
}
this.rotationAngle = this._offset.dot( _tempVector.cross( this.eye ).normalize() ) * ROTATION_SPEED;
} // Apply rotation snap
if ( this.rotationSnap ) this.rotationAngle = Math.round( this.rotationAngle / this.rotationSnap ) * this.rotationSnap; // Apply rotate
if ( space === 'local' && axis !== 'E' && axis !== 'XYZE' ) {
object.quaternion.copy( this._quaternionStart );
object.quaternion.multiply( _tempQuaternion.setFromAxisAngle( this.rotationAxis, this.rotationAngle ) ).normalize();
} else {
this.rotationAxis.applyQuaternion( this._parentQuaternionInv );
object.quaternion.copy( _tempQuaternion.setFromAxisAngle( this.rotationAxis, this.rotationAngle ) );
object.quaternion.multiply( this._quaternionStart ).normalize();
}
}
this.dispatchEvent( _changeEvent );
this.dispatchEvent( _objectChangeEvent );
}
pointerUp( pointer ) {
if ( pointer.button !== 0 ) return;
if ( this.dragging && this.axis !== null ) {
_mouseUpEvent.mode = this.mode;
this.dispatchEvent( _mouseUpEvent );
}
this.dragging = false;
this.axis = null;
}
dispose() {
this.domElement.removeEventListener( 'pointerdown', this._onPointerDown );
this.domElement.removeEventListener( 'pointermove', this._onPointerHover );
this.domElement.ownerDocument.removeEventListener( 'pointermove', this._onPointerMove );
this.domElement.ownerDocument.removeEventListener( 'pointerup', this._onPointerUp );
this.traverse( function ( child ) {
if ( child.geometry ) child.geometry.dispose();
if ( child.material ) child.material.dispose();
} );
} // Set current object
attach( object ) {
this.object = object;
this.visible = true;
return this;
} // Detatch from object
detach() {
this.object = undefined;
this.visible = false;
this.axis = null;
return this;
} // TODO: deprecate
getMode() {
return this.mode;
}
setMode( mode ) {
this.mode = mode;
}
setTranslationSnap( translationSnap ) {
this.translationSnap = translationSnap;
}
setRotationSnap( rotationSnap ) {
this.rotationSnap = rotationSnap;
}
setScaleSnap( scaleSnap ) {
this.scaleSnap = scaleSnap;
}
setSize( size ) {
this.size = size;
}
setSpace( space ) {
this.space = space;
}
update() {
console.warn( 'THREE.TransformControls: update function has no more functionality and therefore has been deprecated.' );
}
}
TransformControls.prototype.isTransformControls = true; // mouse / touch event handlers
function getPointer( event ) {
if ( this.domElement.ownerDocument.pointerLockElement ) {
return {
x: 0,
y: 0,
button: event.button
};
} else {
const rect = this.domElement.getBoundingClientRect();
return {
x: ( event.clientX - rect.left ) / rect.width * 2 - 1,
y: - ( event.clientY - rect.top ) / rect.height * 2 + 1,
button: event.button
};
}
}
function onPointerHover( event ) {
if ( ! this.enabled ) return;
switch ( event.pointerType ) {
case 'mouse':
case 'pen':
this.pointerHover( this._getPointer( event ) );
break;
}
}
function onPointerDown( event ) {
if ( ! this.enabled ) return;
this.domElement.ownerDocument.addEventListener( 'pointermove', this._onPointerMove );
this.pointerHover( this._getPointer( event ) );
this.pointerDown( this._getPointer( event ) );
}
function onPointerMove( event ) {
if ( ! this.enabled ) return;
this.pointerMove( this._getPointer( event ) );
}
function onPointerUp( event ) {
if ( ! this.enabled ) return;
this.domElement.ownerDocument.removeEventListener( 'pointermove', this._onPointerMove );
this.pointerUp( this._getPointer( event ) );
}
function intersectObjectWithRay( object, raycaster, includeInvisible ) {
const allIntersections = raycaster.intersectObject( object, true );
for ( let i = 0; i < allIntersections.length; i ++ ) {
if ( allIntersections[ i ].object.visible || includeInvisible ) {
return allIntersections[ i ];
}
}
return false;
} //
// Reusable utility variables
const _tempEuler = new THREE.Euler();
const _alignVector = new THREE.Vector3( 0, 1, 0 );
const _zeroVector = new THREE.Vector3( 0, 0, 0 );
const _lookAtMatrix = new THREE.Matrix4();
const _tempQuaternion2 = new THREE.Quaternion();
const _identityQuaternion = new THREE.Quaternion();
const _dirVector = new THREE.Vector3();
const _tempMatrix = new THREE.Matrix4();
const _unitX = new THREE.Vector3( 1, 0, 0 );
const _unitY = new THREE.Vector3( 0, 1, 0 );
const _unitZ = new THREE.Vector3( 0, 0, 1 );
const _v1 = new THREE.Vector3();
const _v2 = new THREE.Vector3();
const _v3 = new THREE.Vector3();
class TransformControlsGizmo extends THREE.Object3D {
constructor() {
super();
this.type = 'TransformControlsGizmo'; // shared materials
const gizmoMaterial = new THREE.MeshBasicMaterial( {
depthTest: false,
depthWrite: false,
fog: false,
toneMapped: false,
transparent: true
} );
const gizmoLineMaterial = new THREE.LineBasicMaterial( {
depthTest: false,
depthWrite: false,
fog: false,
toneMapped: false,
transparent: true
} ); // Make unique material for each axis/color
const matInvisible = gizmoMaterial.clone();
matInvisible.opacity = 0.15;
const matHelper = gizmoLineMaterial.clone();
matHelper.opacity = 0.5;
const matRed = gizmoMaterial.clone();
matRed.color.setHex( 0xff0000 );
const matGreen = gizmoMaterial.clone();
matGreen.color.setHex( 0x00ff00 );
const matBlue = gizmoMaterial.clone();
matBlue.color.setHex( 0x0000ff );
const matRedTransparent = gizmoMaterial.clone();
matRedTransparent.color.setHex( 0xff0000 );
matRedTransparent.opacity = 0.5;
const matGreenTransparent = gizmoMaterial.clone();
matGreenTransparent.color.setHex( 0x00ff00 );
matGreenTransparent.opacity = 0.5;
const matBlueTransparent = gizmoMaterial.clone();
matBlueTransparent.color.setHex( 0x0000ff );
matBlueTransparent.opacity = 0.5;
const matWhiteTransparent = gizmoMaterial.clone();
matWhiteTransparent.opacity = 0.25;
const matYellowTransparent = gizmoMaterial.clone();
matYellowTransparent.color.setHex( 0xffff00 );
matYellowTransparent.opacity = 0.25;
const matYellow = gizmoMaterial.clone();
matYellow.color.setHex( 0xffff00 );
const matGray = gizmoMaterial.clone();
matGray.color.setHex( 0x787878 ); // reusable geometry
const arrowGeometry = new THREE.CylinderGeometry( 0, 0.04, 0.1, 12 );
arrowGeometry.translate( 0, 0.05, 0 );
const scaleHandleGeometry = new THREE.BoxGeometry( 0.08, 0.08, 0.08 );
scaleHandleGeometry.translate( 0, 0.04, 0 );
const lineGeometry = new THREE.BufferGeometry();
lineGeometry.setAttribute( 'position', new THREE.Float32BufferAttribute( [ 0, 0, 0, 1, 0, 0 ], 3 ) );
const lineGeometry2 = new THREE.CylinderGeometry( 0.0075, 0.0075, 0.5, 3 );
lineGeometry2.translate( 0, 0.25, 0 );
function CircleGeometry( radius, arc ) {
const geometry = new THREE.TorusGeometry( radius, 0.0075, 3, 64, arc * Math.PI * 2 );
geometry.rotateY( Math.PI / 2 );
geometry.rotateX( Math.PI / 2 );
return geometry;
} // Special geometry for transform helper. If scaled with position vector it spans from [0,0,0] to position
function TranslateHelperGeometry() {
const geometry = new THREE.BufferGeometry();
geometry.setAttribute( 'position', new THREE.Float32BufferAttribute( [ 0, 0, 0, 1, 1, 1 ], 3 ) );
return geometry;
} // Gizmo definitions - custom hierarchy definitions for setupGizmo() function
const gizmoTranslate = {
X: [[ new THREE.Mesh( arrowGeometry, matRed ), [ 0.5, 0, 0 ], [ 0, 0, - Math.PI / 2 ]], [ new THREE.Mesh( arrowGeometry, matRed ), [ - 0.5, 0, 0 ], [ 0, 0, Math.PI / 2 ]], [ new THREE.Mesh( lineGeometry2, matRed ), [ 0, 0, 0 ], [ 0, 0, - Math.PI / 2 ]]],
Y: [[ new THREE.Mesh( arrowGeometry, matGreen ), [ 0, 0.5, 0 ]], [ new THREE.Mesh( arrowGeometry, matGreen ), [ 0, - 0.5, 0 ], [ Math.PI, 0, 0 ]], [ new THREE.Mesh( lineGeometry2, matGreen ) ]],
Z: [[ new THREE.Mesh( arrowGeometry, matBlue ), [ 0, 0, 0.5 ], [ Math.PI / 2, 0, 0 ]], [ new THREE.Mesh( arrowGeometry, matBlue ), [ 0, 0, - 0.5 ], [ - Math.PI / 2, 0, 0 ]], [ new THREE.Mesh( lineGeometry2, matBlue ), null, [ Math.PI / 2, 0, 0 ]]],
XYZ: [[ new THREE.Mesh( new THREE.OctahedronGeometry( 0.1, 0 ), matWhiteTransparent.clone() ), [ 0, 0, 0 ]]],
XY: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.15, 0.15, 0.01 ), matBlueTransparent.clone() ), [ 0.15, 0.15, 0 ]]],
YZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.15, 0.15, 0.01 ), matRedTransparent.clone() ), [ 0, 0.15, 0.15 ], [ 0, Math.PI / 2, 0 ]]],
XZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.15, 0.15, 0.01 ), matGreenTransparent.clone() ), [ 0.15, 0, 0.15 ], [ - Math.PI / 2, 0, 0 ]]]
};
const pickerTranslate = {
X: [[ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0.3, 0, 0 ], [ 0, 0, - Math.PI / 2 ]], [ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ - 0.3, 0, 0 ], [ 0, 0, Math.PI / 2 ]]],
Y: [[ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, 0.3, 0 ]], [ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, - 0.3, 0 ], [ 0, 0, Math.PI ]]],
Z: [[ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, 0, 0.3 ], [ Math.PI / 2, 0, 0 ]], [ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, 0, - 0.3 ], [ - Math.PI / 2, 0, 0 ]]],
XYZ: [[ new THREE.Mesh( new THREE.OctahedronGeometry( 0.2, 0 ), matInvisible ) ]],
XY: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.01 ), matInvisible ), [ 0.15, 0.15, 0 ]]],
YZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.01 ), matInvisible ), [ 0, 0.15, 0.15 ], [ 0, Math.PI / 2, 0 ]]],
XZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.01 ), matInvisible ), [ 0.15, 0, 0.15 ], [ - Math.PI / 2, 0, 0 ]]]
};
const helperTranslate = {
START: [[ new THREE.Mesh( new THREE.OctahedronGeometry( 0.01, 2 ), matHelper ), null, null, null, 'helper' ]],
END: [[ new THREE.Mesh( new THREE.OctahedronGeometry( 0.01, 2 ), matHelper ), null, null, null, 'helper' ]],
DELTA: [[ new THREE.Line( TranslateHelperGeometry(), matHelper ), null, null, null, 'helper' ]],
X: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ - 1e3, 0, 0 ], null, [ 1e6, 1, 1 ], 'helper' ]],
Y: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ 0, - 1e3, 0 ], [ 0, 0, Math.PI / 2 ], [ 1e6, 1, 1 ], 'helper' ]],
Z: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ 0, 0, - 1e3 ], [ 0, - Math.PI / 2, 0 ], [ 1e6, 1, 1 ], 'helper' ]]
};
const gizmoRotate = {
XYZE: [[ new THREE.Mesh( CircleGeometry( 0.5, 1 ), matGray ), null, [ 0, Math.PI / 2, 0 ]]],
X: [[ new THREE.Mesh( CircleGeometry( 0.5, 0.5 ), matRed ) ]],
Y: [[ new THREE.Mesh( CircleGeometry( 0.5, 0.5 ), matGreen ), null, [ 0, 0, - Math.PI / 2 ]]],
Z: [[ new THREE.Mesh( CircleGeometry( 0.5, 0.5 ), matBlue ), null, [ 0, Math.PI / 2, 0 ]]],
E: [[ new THREE.Mesh( CircleGeometry( 0.75, 1 ), matYellowTransparent ), null, [ 0, Math.PI / 2, 0 ]]]
};
const helperRotate = {
AXIS: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ - 1e3, 0, 0 ], null, [ 1e6, 1, 1 ], 'helper' ]]
};
const pickerRotate = {
XYZE: [[ new THREE.Mesh( new THREE.SphereGeometry( 0.25, 10, 8 ), matInvisible ) ]],
X: [[ new THREE.Mesh( new THREE.TorusGeometry( 0.5, 0.1, 4, 24 ), matInvisible ), [ 0, 0, 0 ], [ 0, - Math.PI / 2, - Math.PI / 2 ]]],
Y: [[ new THREE.Mesh( new THREE.TorusGeometry( 0.5, 0.1, 4, 24 ), matInvisible ), [ 0, 0, 0 ], [ Math.PI / 2, 0, 0 ]]],
Z: [[ new THREE.Mesh( new THREE.TorusGeometry( 0.5, 0.1, 4, 24 ), matInvisible ), [ 0, 0, 0 ], [ 0, 0, - Math.PI / 2 ]]],
E: [[ new THREE.Mesh( new THREE.TorusGeometry( 0.75, 0.1, 2, 24 ), matInvisible ) ]]
};
const gizmoScale = {
X: [[ new THREE.Mesh( scaleHandleGeometry, matRed ), [ 0.5, 0, 0 ], [ 0, 0, - Math.PI / 2 ]], [ new THREE.Mesh( lineGeometry2, matRed ), [ 0, 0, 0 ], [ 0, 0, - Math.PI / 2 ]], [ new THREE.Mesh( scaleHandleGeometry, matRed ), [ - 0.5, 0, 0 ], [ 0, 0, Math.PI / 2 ]]],
Y: [[ new THREE.Mesh( scaleHandleGeometry, matGreen ), [ 0, 0.5, 0 ]], [ new THREE.Mesh( lineGeometry2, matGreen ) ], [ new THREE.Mesh( scaleHandleGeometry, matGreen ), [ 0, - 0.5, 0 ], [ 0, 0, Math.PI ]]],
Z: [[ new THREE.Mesh( scaleHandleGeometry, matBlue ), [ 0, 0, 0.5 ], [ Math.PI / 2, 0, 0 ]], [ new THREE.Mesh( lineGeometry2, matBlue ), [ 0, 0, 0 ], [ Math.PI / 2, 0, 0 ]], [ new THREE.Mesh( scaleHandleGeometry, matBlue ), [ 0, 0, - 0.5 ], [ - Math.PI / 2, 0, 0 ]]],
XY: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.15, 0.15, 0.01 ), matBlueTransparent ), [ 0.15, 0.15, 0 ]]],
YZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.15, 0.15, 0.01 ), matRedTransparent ), [ 0, 0.15, 0.15 ], [ 0, Math.PI / 2, 0 ]]],
XZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.15, 0.15, 0.01 ), matGreenTransparent ), [ 0.15, 0, 0.15 ], [ - Math.PI / 2, 0, 0 ]]],
XYZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.1, 0.1, 0.1 ), matWhiteTransparent.clone() ) ]]
};
const pickerScale = {
X: [[ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0.3, 0, 0 ], [ 0, 0, - Math.PI / 2 ]], [ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ - 0.3, 0, 0 ], [ 0, 0, Math.PI / 2 ]]],
Y: [[ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, 0.3, 0 ]], [ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, - 0.3, 0 ], [ 0, 0, Math.PI ]]],
Z: [[ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, 0, 0.3 ], [ Math.PI / 2, 0, 0 ]], [ new THREE.Mesh( new THREE.CylinderGeometry( 0.2, 0, 0.6, 4 ), matInvisible ), [ 0, 0, - 0.3 ], [ - Math.PI / 2, 0, 0 ]]],
XY: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.01 ), matInvisible ), [ 0.15, 0.15, 0 ]]],
YZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.01 ), matInvisible ), [ 0, 0.15, 0.15 ], [ 0, Math.PI / 2, 0 ]]],
XZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.01 ), matInvisible ), [ 0.15, 0, 0.15 ], [ - Math.PI / 2, 0, 0 ]]],
XYZ: [[ new THREE.Mesh( new THREE.BoxGeometry( 0.2, 0.2, 0.2 ), matInvisible ), [ 0, 0, 0 ]]]
};
const helperScale = {
X: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ - 1e3, 0, 0 ], null, [ 1e6, 1, 1 ], 'helper' ]],
Y: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ 0, - 1e3, 0 ], [ 0, 0, Math.PI / 2 ], [ 1e6, 1, 1 ], 'helper' ]],
Z: [[ new THREE.Line( lineGeometry, matHelper.clone() ), [ 0, 0, - 1e3 ], [ 0, - Math.PI / 2, 0 ], [ 1e6, 1, 1 ], 'helper' ]]
}; // Creates an THREE.Object3D with gizmos described in custom hierarchy definition.
function setupGizmo( gizmoMap ) {
const gizmo = new THREE.Object3D();
for ( const name in gizmoMap ) {
for ( let i = gizmoMap[ name ].length; i --; ) {
const object = gizmoMap[ name ][ i ][ 0 ].clone();
const position = gizmoMap[ name ][ i ][ 1 ];
const rotation = gizmoMap[ name ][ i ][ 2 ];
const scale = gizmoMap[ name ][ i ][ 3 ];
const tag = gizmoMap[ name ][ i ][ 4 ]; // name and tag properties are essential for picking and updating logic.
object.name = name;
object.tag = tag;
if ( position ) {
object.position.set( position[ 0 ], position[ 1 ], position[ 2 ] );
}
if ( rotation ) {
object.rotation.set( rotation[ 0 ], rotation[ 1 ], rotation[ 2 ] );
}
if ( scale ) {
object.scale.set( scale[ 0 ], scale[ 1 ], scale[ 2 ] );
}
object.updateMatrix();
const tempGeometry = object.geometry.clone();
tempGeometry.applyMatrix4( object.matrix );
object.geometry = tempGeometry;
object.renderOrder = Infinity;
object.position.set( 0, 0, 0 );
object.rotation.set( 0, 0, 0 );
object.scale.set( 1, 1, 1 );
gizmo.add( object );
}
}
return gizmo;
} // Gizmo creation
this.gizmo = {};
this.picker = {};
this.helper = {};
this.add( this.gizmo[ 'translate' ] = setupGizmo( gizmoTranslate ) );
this.add( this.gizmo[ 'rotate' ] = setupGizmo( gizmoRotate ) );
this.add( this.gizmo[ 'scale' ] = setupGizmo( gizmoScale ) );
this.add( this.picker[ 'translate' ] = setupGizmo( pickerTranslate ) );
this.add( this.picker[ 'rotate' ] = setupGizmo( pickerRotate ) );
this.add( this.picker[ 'scale' ] = setupGizmo( pickerScale ) );
this.add( this.helper[ 'translate' ] = setupGizmo( helperTranslate ) );
this.add( this.helper[ 'rotate' ] = setupGizmo( helperRotate ) );
this.add( this.helper[ 'scale' ] = setupGizmo( helperScale ) ); // Pickers should be hidden always
this.picker[ 'translate' ].visible = false;
this.picker[ 'rotate' ].visible = false;
this.picker[ 'scale' ].visible = false;
} // updateMatrixWorld will update transformations and appearance of individual handles
updateMatrixWorld( force ) {
const space = this.mode === 'scale' ? 'local' : this.space; // scale always oriented to local rotation
const quaternion = space === 'local' ? this.worldQuaternion : _identityQuaternion; // Show only gizmos for current transform mode
this.gizmo[ 'translate' ].visible = this.mode === 'translate';
this.gizmo[ 'rotate' ].visible = this.mode === 'rotate';
this.gizmo[ 'scale' ].visible = this.mode === 'scale';
this.helper[ 'translate' ].visible = this.mode === 'translate';
this.helper[ 'rotate' ].visible = this.mode === 'rotate';
this.helper[ 'scale' ].visible = this.mode === 'scale';
let handles = [];
handles = handles.concat( this.picker[ this.mode ].children );
handles = handles.concat( this.gizmo[ this.mode ].children );
handles = handles.concat( this.helper[ this.mode ].children );
for ( let i = 0; i < handles.length; i ++ ) {
const handle = handles[ i ]; // hide aligned to camera
handle.visible = true;
handle.rotation.set( 0, 0, 0 );
handle.position.copy( this.worldPosition );
let factor;
if ( this.camera.isOrthographicCamera ) {
factor = ( this.camera.top - this.camera.bottom ) / this.camera.zoom;
} else {
factor = this.worldPosition.distanceTo( this.cameraPosition ) * Math.min( 1.9 * Math.tan( Math.PI * this.camera.fov / 360 ) / this.camera.zoom, 7 );
}
handle.scale.set( 1, 1, 1 ).multiplyScalar( factor * this.size / 4 ); // TODO: simplify helpers and consider decoupling from gizmo
if ( handle.tag === 'helper' ) {
handle.visible = false;
if ( handle.name === 'AXIS' ) {
handle.position.copy( this.worldPositionStart );
handle.visible = !! this.axis;
if ( this.axis === 'X' ) {
_tempQuaternion.setFromEuler( _tempEuler.set( 0, 0, 0 ) );
handle.quaternion.copy( quaternion ).multiply( _tempQuaternion );
if ( Math.abs( _alignVector.copy( _unitX ).applyQuaternion( quaternion ).dot( this.eye ) ) > 0.9 ) {
handle.visible = false;
}
}
if ( this.axis === 'Y' ) {
_tempQuaternion.setFromEuler( _tempEuler.set( 0, 0, Math.PI / 2 ) );
handle.quaternion.copy( quaternion ).multiply( _tempQuaternion );
if ( Math.abs( _alignVector.copy( _unitY ).applyQuaternion( quaternion ).dot( this.eye ) ) > 0.9 ) {
handle.visible = false;
}
}
if ( this.axis === 'Z' ) {
_tempQuaternion.setFromEuler( _tempEuler.set( 0, Math.PI / 2, 0 ) );
handle.quaternion.copy( quaternion ).multiply( _tempQuaternion );
if ( Math.abs( _alignVector.copy( _unitZ ).applyQuaternion( quaternion ).dot( this.eye ) ) > 0.9 ) {
handle.visible = false;
}
}
if ( this.axis === 'XYZE' ) {
_tempQuaternion.setFromEuler( _tempEuler.set( 0, Math.PI / 2, 0 ) );
_alignVector.copy( this.rotationAxis );
handle.quaternion.setFromRotationMatrix( _lookAtMatrix.lookAt( _zeroVector, _alignVector, _unitY ) );
handle.quaternion.multiply( _tempQuaternion );
handle.visible = this.dragging;
}
if ( this.axis === 'E' ) {
handle.visible = false;
}
} else if ( handle.name === 'START' ) {
handle.position.copy( this.worldPositionStart );
handle.visible = this.dragging;
} else if ( handle.name === 'END' ) {
handle.position.copy( this.worldPosition );
handle.visible = this.dragging;
} else if ( handle.name === 'DELTA' ) {
handle.position.copy( this.worldPositionStart );
handle.quaternion.copy( this.worldQuaternionStart );
_tempVector.set( 1e-10, 1e-10, 1e-10 ).add( this.worldPositionStart ).sub( this.worldPosition ).multiplyScalar( - 1 );
_tempVector.applyQuaternion( this.worldQuaternionStart.clone().invert() );
handle.scale.copy( _tempVector );
handle.visible = this.dragging;
} else {
handle.quaternion.copy( quaternion );
if ( this.dragging ) {
handle.position.copy( this.worldPositionStart );
} else {
handle.position.copy( this.worldPosition );
}
if ( this.axis ) {
handle.visible = this.axis.search( handle.name ) !== - 1;
}
} // If updating helper, skip rest of the loop
continue;
} // Align handles to current local or world rotation
handle.quaternion.copy( quaternion );
if ( this.mode === 'translate' || this.mode === 'scale' ) {
// Hide translate and scale axis facing the camera
const AXIS_HIDE_TRESHOLD = 0.99;
const PLANE_HIDE_TRESHOLD = 0.2;
if ( handle.name === 'X' ) {
if ( Math.abs( _alignVector.copy( _unitX ).applyQuaternion( quaternion ).dot( this.eye ) ) > AXIS_HIDE_TRESHOLD ) {
handle.scale.set( 1e-10, 1e-10, 1e-10 );
handle.visible = false;
}
}
if ( handle.name === 'Y' ) {
if ( Math.abs( _alignVector.copy( _unitY ).applyQuaternion( quaternion ).dot( this.eye ) ) > AXIS_HIDE_TRESHOLD ) {
handle.scale.set( 1e-10, 1e-10, 1e-10 );
handle.visible = false;
}
}
if ( handle.name === 'Z' ) {
if ( Math.abs( _alignVector.copy( _unitZ ).applyQuaternion( quaternion ).dot( this.eye ) ) > AXIS_HIDE_TRESHOLD ) {
handle.scale.set( 1e-10, 1e-10, 1e-10 );
handle.visible = false;
}
}
if ( handle.name === 'XY' ) {
if ( Math.abs( _alignVector.copy( _unitZ ).applyQuaternion( quaternion ).dot( this.eye ) ) < PLANE_HIDE_TRESHOLD ) {
handle.scale.set( 1e-10, 1e-10, 1e-10 );
handle.visible = false;
}
}
if ( handle.name === 'YZ' ) {
if ( Math.abs( _alignVector.copy( _unitX ).applyQuaternion( quaternion ).dot( this.eye ) ) < PLANE_HIDE_TRESHOLD ) {
handle.scale.set( 1e-10, 1e-10, 1e-10 );
handle.visible = false;
}
}
if ( handle.name === 'XZ' ) {
if ( Math.abs( _alignVector.copy( _unitY ).applyQuaternion( quaternion ).dot( this.eye ) ) < PLANE_HIDE_TRESHOLD ) {
handle.scale.set( 1e-10, 1e-10, 1e-10 );
handle.visible = false;
}
}
} else if ( this.mode === 'rotate' ) {
// Align handles to current local or world rotation
_tempQuaternion2.copy( quaternion );
_alignVector.copy( this.eye ).applyQuaternion( _tempQuaternion.copy( quaternion ).invert() );
if ( handle.name.search( 'E' ) !== - 1 ) {
handle.quaternion.setFromRotationMatrix( _lookAtMatrix.lookAt( this.eye, _zeroVector, _unitY ) );
}
if ( handle.name === 'X' ) {
_tempQuaternion.setFromAxisAngle( _unitX, Math.atan2( - _alignVector.y, _alignVector.z ) );
_tempQuaternion.multiplyQuaternions( _tempQuaternion2, _tempQuaternion );
handle.quaternion.copy( _tempQuaternion );
}
if ( handle.name === 'Y' ) {
_tempQuaternion.setFromAxisAngle( _unitY, Math.atan2( _alignVector.x, _alignVector.z ) );
_tempQuaternion.multiplyQuaternions( _tempQuaternion2, _tempQuaternion );
handle.quaternion.copy( _tempQuaternion );
}
if ( handle.name === 'Z' ) {
_tempQuaternion.setFromAxisAngle( _unitZ, Math.atan2( _alignVector.y, _alignVector.x ) );
_tempQuaternion.multiplyQuaternions( _tempQuaternion2, _tempQuaternion );
handle.quaternion.copy( _tempQuaternion );
}
} // Hide disabled axes
handle.visible = handle.visible && ( handle.name.indexOf( 'X' ) === - 1 || this.showX );
handle.visible = handle.visible && ( handle.name.indexOf( 'Y' ) === - 1 || this.showY );
handle.visible = handle.visible && ( handle.name.indexOf( 'Z' ) === - 1 || this.showZ );
handle.visible = handle.visible && ( handle.name.indexOf( 'E' ) === - 1 || this.showX && this.showY && this.showZ ); // highlight selected axis
handle.material._color = handle.material._color || handle.material.color.clone();
handle.material._opacity = handle.material._opacity || handle.material.opacity;
handle.material.color.copy( handle.material._color );
handle.material.opacity = handle.material._opacity;
if ( this.enabled && this.axis ) {
if ( handle.name === this.axis ) {
handle.material.color.setHex( 0xffff00 );
handle.material.opacity = 1.0;
} else if ( this.axis.split( '' ).some( function ( a ) {
return handle.name === a;
} ) ) {
handle.material.color.setHex( 0xffff00 );
handle.material.opacity = 1.0;
}
}
}
super.updateMatrixWorld( force );
}
}
TransformControlsGizmo.prototype.isTransformControlsGizmo = true; //
class TransformControlsPlane extends THREE.Mesh {
constructor() {
super( new THREE.PlaneGeometry( 100000, 100000, 2, 2 ), new THREE.MeshBasicMaterial( {
visible: false,
wireframe: true,
side: THREE.DoubleSide,
transparent: true,
opacity: 0.1,
toneMapped: false
} ) );
this.type = 'TransformControlsPlane';
}
updateMatrixWorld( force ) {
let space = this.space;
this.position.copy( this.worldPosition );
if ( this.mode === 'scale' ) space = 'local'; // scale always oriented to local rotation
_v1.copy( _unitX ).applyQuaternion( space === 'local' ? this.worldQuaternion : _identityQuaternion );
_v2.copy( _unitY ).applyQuaternion( space === 'local' ? this.worldQuaternion : _identityQuaternion );
_v3.copy( _unitZ ).applyQuaternion( space === 'local' ? this.worldQuaternion : _identityQuaternion ); // Align the plane for current transform mode, axis and space.
_alignVector.copy( _v2 );
switch ( this.mode ) {
case 'translate':
case 'scale':
switch ( this.axis ) {
case 'X':
_alignVector.copy( this.eye ).cross( _v1 );
_dirVector.copy( _v1 ).cross( _alignVector );
break;
case 'Y':
_alignVector.copy( this.eye ).cross( _v2 );
_dirVector.copy( _v2 ).cross( _alignVector );
break;
case 'Z':
_alignVector.copy( this.eye ).cross( _v3 );
_dirVector.copy( _v3 ).cross( _alignVector );
break;
case 'XY':
_dirVector.copy( _v3 );
break;
case 'YZ':
_dirVector.copy( _v1 );
break;
case 'XZ':
_alignVector.copy( _v3 );
_dirVector.copy( _v2 );
break;
case 'XYZ':
case 'E':
_dirVector.set( 0, 0, 0 );
break;
}
break;
case 'rotate':
default:
// special case for rotate
_dirVector.set( 0, 0, 0 );
}
if ( _dirVector.length() === 0 ) {
// If in rotate mode, make the plane parallel to camera
this.quaternion.copy( this.cameraQuaternion );
} else {
_tempMatrix.lookAt( _tempVector.set( 0, 0, 0 ), _dirVector, _alignVector );
this.quaternion.setFromRotationMatrix( _tempMatrix );
}
super.updateMatrixWorld( force );
}
}
TransformControlsPlane.prototype.isTransformControlsPlane = true;
THREE.TransformControls = TransformControls;
THREE.TransformControlsGizmo = TransformControlsGizmo;
THREE.TransformControlsPlane = TransformControlsPlane;
} )();