import Image from './interface-types/image.js' import CastImageOptions from './cast-image-options.js' import PixelTypes from './interface-types/pixel-types.js' import IntTypes from './interface-types/int-types.js' import FloatTypes from './interface-types/float-types.js' /** * Cast an image to another PixelType and/or ComponentType * * @param {Image} image - The input image * @param {CastImageOptions} options - specify the componentType and/or pixelType of the output */ function castImage (inputImage: Image, options?: CastImageOptions): Image { const outputImageType = { ...inputImage.imageType } if (typeof options !== 'undefined' && typeof options.pixelType !== 'undefined') { outputImageType.pixelType = options.pixelType if (options.pixelType === PixelTypes.Scalar && outputImageType.components !== 1) { throw new Error('Cannot cast multi-component image to a scalar image') } } if (typeof options !== 'undefined' && typeof options.componentType !== 'undefined' && options.componentType !== inputImage.imageType.componentType) { outputImageType.componentType = options.componentType } const outputImage = new Image(outputImageType) outputImage.name = inputImage.name outputImage.origin = Array.from(inputImage.origin) outputImage.spacing = Array.from(inputImage.spacing) outputImage.direction = inputImage.direction.slice() outputImage.size = Array.from(inputImage.size) // Deep copy the map outputImage.metadata = new Map(JSON.parse(JSON.stringify(Array.from(inputImage.metadata)))) if (inputImage.data !== null) { if (typeof options !== 'undefined' && typeof options.componentType !== 'undefined' && options.componentType !== inputImage.imageType.componentType) { switch (inputImage.imageType.componentType) { case IntTypes.UInt8: case IntTypes.Int8: case IntTypes.UInt16: case IntTypes.Int16: case IntTypes.UInt32: case IntTypes.Int32: case FloatTypes.Float32: case FloatTypes.Float64: switch (outputImage.imageType.componentType) { case IntTypes.UInt8: outputImage.data = new Uint8Array(inputImage.data) break case IntTypes.Int8: outputImage.data = new Int8Array(inputImage.data) break case IntTypes.UInt16: outputImage.data = new Uint16Array(inputImage.data) break case IntTypes.Int16: outputImage.data = new Int16Array(inputImage.data) break case IntTypes.UInt32: outputImage.data = new Uint32Array(inputImage.data) break case IntTypes.Int32: outputImage.data = new Int32Array(inputImage.data) break case FloatTypes.Float32: outputImage.data = new Float32Array(inputImage.data) break case FloatTypes.Float64: outputImage.data = new Float64Array(inputImage.data) break case IntTypes.UInt64: outputImage.data = new BigUint64Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = BigInt.asIntN(64, BigInt(inputImage.data[idx])) } break case IntTypes.Int64: outputImage.data = new BigInt64Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = BigInt.asUintN(64, BigInt(inputImage.data[idx])) } break } break case IntTypes.UInt64: case IntTypes.Int64: switch (outputImage.imageType.componentType) { case IntTypes.UInt8: outputImage.data = new Uint8Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case IntTypes.Int8: outputImage.data = new Int8Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case IntTypes.UInt16: outputImage.data = new Uint16Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case IntTypes.Int16: outputImage.data = new Int16Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case IntTypes.UInt32: outputImage.data = new Uint32Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case IntTypes.Int32: outputImage.data = new Int32Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case FloatTypes.Float32: outputImage.data = new Float32Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case FloatTypes.Float64: outputImage.data = new Float64Array(inputImage.data.length) for (let idx = 0; idx < outputImage.data.length; idx++) { outputImage.data[idx] = Number(inputImage.data[idx]) } break case IntTypes.UInt64: outputImage.data = new BigUint64Array(inputImage.data) break case IntTypes.Int64: outputImage.data = new BigInt64Array(inputImage.data) break } break } } else { // copy const CTor = inputImage.data.constructor as new(length: number) => typeof inputImage.data outputImage.data = new CTor(inputImage.data.length) if (outputImage.data != null) { // @ts-expect-error: error TS2345: Argument of type 'TypedArray' is not assignable to parameter of type 'ArrayLike & ArrayLike' outputImage.data.set(inputImage.data, 0) } } } return outputImage } export default castImage