import * as THREE from 'three'; const vpTemp = new THREE.Vector4(); class ViewHelper extends THREE.Object3D { constructor( editorCamera, dom ) { super(); this.isViewHelper = true; this.animating = false; this.controls = null; const color1 = new THREE.Color( '#ff3653' ); const color2 = new THREE.Color( '#8adb00' ); const color3 = new THREE.Color( '#2c8fff' ); const interactiveObjects = []; const raycaster = new THREE.Raycaster(); const mouse = new THREE.Vector2(); const dummy = new THREE.Object3D(); const camera = new THREE.OrthographicCamera( - 2, 2, 2, - 2, 0, 4 ); camera.position.set( 0, 0, 2 ); const geometry = new THREE.BoxGeometry( 0.8, 0.05, 0.05 ).translate( 0.4, 0, 0 ); const xAxis = new THREE.Mesh( geometry, getAxisMaterial( color1 ) ); const yAxis = new THREE.Mesh( geometry, getAxisMaterial( color2 ) ); const zAxis = new THREE.Mesh( geometry, getAxisMaterial( color3 ) ); yAxis.rotation.z = Math.PI / 2; zAxis.rotation.y = - Math.PI / 2; this.add( xAxis ); this.add( zAxis ); this.add( yAxis ); const posXAxisHelper = new THREE.Sprite( getSpriteMaterial( color1, 'X' ) ); posXAxisHelper.userData.type = 'posX'; const posYAxisHelper = new THREE.Sprite( getSpriteMaterial( color2, 'Y' ) ); posYAxisHelper.userData.type = 'posY'; const posZAxisHelper = new THREE.Sprite( getSpriteMaterial( color3, 'Z' ) ); posZAxisHelper.userData.type = 'posZ'; const negXAxisHelper = new THREE.Sprite( getSpriteMaterial( color1 ) ); negXAxisHelper.userData.type = 'negX'; const negYAxisHelper = new THREE.Sprite( getSpriteMaterial( color2 ) ); negYAxisHelper.userData.type = 'negY'; const negZAxisHelper = new THREE.Sprite( getSpriteMaterial( color3 ) ); negZAxisHelper.userData.type = 'negZ'; posXAxisHelper.position.x = 1; posYAxisHelper.position.y = 1; posZAxisHelper.position.z = 1; negXAxisHelper.position.x = - 1; negXAxisHelper.scale.setScalar( 0.8 ); negYAxisHelper.position.y = - 1; negYAxisHelper.scale.setScalar( 0.8 ); negZAxisHelper.position.z = - 1; negZAxisHelper.scale.setScalar( 0.8 ); this.add( posXAxisHelper ); this.add( posYAxisHelper ); this.add( posZAxisHelper ); this.add( negXAxisHelper ); this.add( negYAxisHelper ); this.add( negZAxisHelper ); interactiveObjects.push( posXAxisHelper ); interactiveObjects.push( posYAxisHelper ); interactiveObjects.push( posZAxisHelper ); interactiveObjects.push( negXAxisHelper ); interactiveObjects.push( negYAxisHelper ); interactiveObjects.push( negZAxisHelper ); const point = new THREE.Vector3(); const dim = 128; const turnRate = 2 * Math.PI; // turn rate in angles per second this.render = function ( renderer ) { this.quaternion.copy( editorCamera.quaternion ).invert(); this.updateMatrixWorld(); point.set( 0, 0, 1 ); point.applyQuaternion( editorCamera.quaternion ); if ( point.x >= 0 ) { posXAxisHelper.material.opacity = 1; negXAxisHelper.material.opacity = 0.5; } else { posXAxisHelper.material.opacity = 0.5; negXAxisHelper.material.opacity = 1; } if ( point.y >= 0 ) { posYAxisHelper.material.opacity = 1; negYAxisHelper.material.opacity = 0.5; } else { posYAxisHelper.material.opacity = 0.5; negYAxisHelper.material.opacity = 1; } if ( point.z >= 0 ) { posZAxisHelper.material.opacity = 1; negZAxisHelper.material.opacity = 0.5; } else { posZAxisHelper.material.opacity = 0.5; negZAxisHelper.material.opacity = 1; } // const x = dom.offsetWidth - dim; renderer.clearDepth(); renderer.getViewport( vpTemp ); renderer.setViewport( x, 0, dim, dim ); renderer.render( this, camera ); renderer.setViewport( vpTemp.x, vpTemp.y, vpTemp.z, vpTemp.w ); }; const targetPosition = new THREE.Vector3(); const targetQuaternion = new THREE.Quaternion(); const q1 = new THREE.Quaternion(); const q2 = new THREE.Quaternion(); let radius = 0; this.handleClick = function ( event ) { if ( this.animating === true ) return false; const rect = dom.getBoundingClientRect(); const offsetX = rect.left + ( dom.offsetWidth - dim ); const offsetY = rect.top + ( dom.offsetHeight - dim ); mouse.x = ( ( event.clientX - offsetX ) / ( rect.width - offsetX ) ) * 2 - 1; mouse.y = - ( ( event.clientY - offsetY ) / ( rect.bottom - offsetY ) ) * 2 + 1; raycaster.setFromCamera( mouse, camera ); const intersects = raycaster.intersectObjects( interactiveObjects ); if ( intersects.length > 0 ) { const intersection = intersects[ 0 ]; const object = intersection.object; prepareAnimationData( object, this.controls.center ); this.animating = true; return true; } else { return false; } }; this.update = function ( delta ) { const step = delta * turnRate; const focusPoint = this.controls.center; // animate position by doing a slerp and then scaling the position on the unit sphere q1.rotateTowards( q2, step ); editorCamera.position.set( 0, 0, 1 ).applyQuaternion( q1 ).multiplyScalar( radius ).add( focusPoint ); // animate orientation editorCamera.quaternion.rotateTowards( targetQuaternion, step ); if ( q1.angleTo( q2 ) === 0 ) { this.animating = false; } }; this.dispose = function () { geometry.dispose(); xAxis.material.dispose(); yAxis.material.dispose(); zAxis.material.dispose(); posXAxisHelper.material.map.dispose(); posYAxisHelper.material.map.dispose(); posZAxisHelper.material.map.dispose(); negXAxisHelper.material.map.dispose(); negYAxisHelper.material.map.dispose(); negZAxisHelper.material.map.dispose(); posXAxisHelper.material.dispose(); posYAxisHelper.material.dispose(); posZAxisHelper.material.dispose(); negXAxisHelper.material.dispose(); negYAxisHelper.material.dispose(); negZAxisHelper.material.dispose(); }; function prepareAnimationData( object, focusPoint ) { switch ( object.userData.type ) { case 'posX': targetPosition.set( 1, 0, 0 ); targetQuaternion.setFromEuler( new THREE.Euler( 0, Math.PI * 0.5, 0 ) ); break; case 'posY': targetPosition.set( 0, 1, 0 ); targetQuaternion.setFromEuler( new THREE.Euler( - Math.PI * 0.5, 0, 0 ) ); break; case 'posZ': targetPosition.set( 0, 0, 1 ); targetQuaternion.setFromEuler( new THREE.Euler() ); break; case 'negX': targetPosition.set( - 1, 0, 0 ); targetQuaternion.setFromEuler( new THREE.Euler( 0, - Math.PI * 0.5, 0 ) ); break; case 'negY': targetPosition.set( 0, - 1, 0 ); targetQuaternion.setFromEuler( new THREE.Euler( Math.PI * 0.5, 0, 0 ) ); break; case 'negZ': targetPosition.set( 0, 0, - 1 ); targetQuaternion.setFromEuler( new THREE.Euler( 0, Math.PI, 0 ) ); break; default: console.error( 'ViewHelper: Invalid axis.' ); } // radius = editorCamera.position.distanceTo( focusPoint ); targetPosition.multiplyScalar( radius ).add( focusPoint ); dummy.position.copy( focusPoint ); dummy.lookAt( editorCamera.position ); q1.copy( dummy.quaternion ); dummy.lookAt( targetPosition ); q2.copy( dummy.quaternion ); } function getAxisMaterial( color ) { return new THREE.MeshBasicMaterial( { color: color, toneMapped: false } ); } function getSpriteMaterial( color, text = null ) { const canvas = document.createElement( 'canvas' ); canvas.width = 64; canvas.height = 64; const context = canvas.getContext( '2d' ); context.beginPath(); context.arc( 32, 32, 16, 0, 2 * Math.PI ); context.closePath(); context.fillStyle = color.getStyle(); context.fill(); if ( text !== null ) { context.font = '24px Arial'; context.textAlign = 'center'; context.fillStyle = '#000000'; context.fillText( text, 32, 41 ); } const texture = new THREE.CanvasTexture( canvas ); return new THREE.SpriteMaterial( { map: texture, toneMapped: false } ); } } } export { ViewHelper };