/// <summary> /// Age detection /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="imageInfo">Image data</param> /// <param name="multiFaceInfo">Face detection results</param> /// <returns>Age detection structures</returns> public static ASF_AgeInfo AgeEstimation(IntPtr pEngine, ImageInfo imageInfo, ASF_MultiFaceInfo multiFaceInfo) { IntPtr pMultiFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_MultiFaceInfo>()); MemoryUtil.StructureToPtr(multiFaceInfo, pMultiFaceInfo); if (multiFaceInfo.faceNum == 0) { return(new ASF_AgeInfo()); } //Face information processing int retCode = ASFFunctions.ASFProcess(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pMultiFaceInfo, FaceEngineMask.ASF_AGE); //Get age information IntPtr pAgeInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_AgeInfo>()); retCode = ASFFunctions.ASFGetAge(pEngine, pAgeInfo); Console.WriteLine("Get Age Result:" + retCode); ASF_AgeInfo ageInfo = MemoryUtil.PtrToStructure <ASF_AgeInfo>(pAgeInfo); //Release memory MemoryUtil.Free(pMultiFaceInfo); MemoryUtil.Free(pAgeInfo); return(ageInfo); }
/// <summary> /// Gender tests /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="imageInfo">Image data</param> /// <param name="multiFaceInfo">Face detection results</param> /// <returns>Save the gender detection result structure</returns> public static ASF_GenderInfo GenderEstimation(IntPtr pEngine, ImageInfo imageInfo, ASF_MultiFaceInfo multiFaceInfo, out int retCode) { retCode = -1; IntPtr pMultiFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_MultiFaceInfo>()); MemoryUtil.StructureToPtr(multiFaceInfo, pMultiFaceInfo); if (multiFaceInfo.faceNum == 0) { return(new ASF_GenderInfo()); } //Face information processing retCode = ASFFunctions.ASFProcess(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pMultiFaceInfo, FaceEngineMask.ASF_GENDER); if (retCode == 0) { //Access to gender information IntPtr pGenderInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_GenderInfo>()); retCode = ASFFunctions.ASFGetGender(pEngine, pGenderInfo); Console.WriteLine("Get Gender Result:" + retCode); ASF_GenderInfo genderInfo = MemoryUtil.PtrToStructure <ASF_GenderInfo>(pGenderInfo); //Release memory MemoryUtil.Free(pMultiFaceInfo); MemoryUtil.Free(pGenderInfo); return(genderInfo); } else { return(new ASF_GenderInfo()); } }
/// <summary> /// Face 3D Angle detection /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="imageInfo">Image data</param> /// <param name="multiFaceInfo">Face detection results</param> /// <returns>Save face 3D Angle detection results structure</returns> public static ASF_Face3DAngle Face3DAngleDetection(IntPtr pEngine, ImageInfo imageInfo, ASF_MultiFaceInfo multiFaceInfo, out int retCode) { IntPtr pMultiFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_MultiFaceInfo>()); MemoryUtil.StructureToPtr(multiFaceInfo, pMultiFaceInfo); if (multiFaceInfo.faceNum == 0) { retCode = -1; return(new ASF_Face3DAngle()); } //Face information processing retCode = ASFFunctions.ASFProcess(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pMultiFaceInfo, FaceEngineMask.ASF_FACE3DANGLE); if (retCode == 0) { //Get the 3D Angle of the face IntPtr pFace3DAngleInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_Face3DAngle>()); retCode = ASFFunctions.ASFGetFace3DAngle(pEngine, pFace3DAngleInfo); Console.WriteLine("Get Face3D Angle Result:" + retCode); ASF_Face3DAngle face3DAngle = MemoryUtil.PtrToStructure <ASF_Face3DAngle>(pFace3DAngleInfo); //Release memory MemoryUtil.Free(pMultiFaceInfo); MemoryUtil.Free(pFace3DAngleInfo); return(face3DAngle); } else { return(new ASF_Face3DAngle()); } }
/// <summary> /// Extracting facial features /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="imageInfo">picture data</param> /// <param name="multiFaceInfo">Face detection results</param> /// <returns>Save the face feature structure pointer</returns> public static IntPtr ExtractFeature(IntPtr pEngine, ImageInfo imageInfo, ASF_MultiFaceInfo multiFaceInfo, out ASF_SingleFaceInfo singleFaceInfo) { singleFaceInfo = new ASF_SingleFaceInfo(); if (multiFaceInfo.faceRects == null) { ASF_FaceFeature emptyFeature = new ASF_FaceFeature(); IntPtr pEmptyFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(emptyFeature, pEmptyFeature); return(pEmptyFeature); } singleFaceInfo.faceRect = MemoryUtil.PtrToStructure <MRECT>(multiFaceInfo.faceRects); singleFaceInfo.faceOrient = MemoryUtil.PtrToStructure <int>(multiFaceInfo.faceOrients); IntPtr pSingleFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_SingleFaceInfo>()); MemoryUtil.StructureToPtr(singleFaceInfo, pSingleFaceInfo); IntPtr pFaceFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); int retCode = ASFFunctions.ASFFaceFeatureExtract(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pSingleFaceInfo, pFaceFeature); Console.WriteLine("FR Extract Feature result:" + retCode); if (retCode != 0) { //Release the pointer MemoryUtil.Free(pSingleFaceInfo); MemoryUtil.Free(pFaceFeature); ASF_FaceFeature emptyFeature = new ASF_FaceFeature(); IntPtr pEmptyFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(emptyFeature, pEmptyFeature); return(pEmptyFeature); } //Face feature feature filtering ASF_FaceFeature faceFeature = MemoryUtil.PtrToStructure <ASF_FaceFeature>(pFaceFeature); byte[] feature = new byte[faceFeature.featureSize]; MemoryUtil.Copy(faceFeature.feature, feature, 0, faceFeature.featureSize); ASF_FaceFeature localFeature = new ASF_FaceFeature(); localFeature.feature = MemoryUtil.Malloc(feature.Length); MemoryUtil.Copy(feature, 0, localFeature.feature, feature.Length); localFeature.featureSize = feature.Length; IntPtr pLocalFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(localFeature, pLocalFeature); //Release pointer MemoryUtil.Free(pSingleFaceInfo); MemoryUtil.Free(pFaceFeature); return(pLocalFeature); }
/// <summary> /// Face detection /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="imageInfo">image data</param> /// <returns>Face detection results</returns> public static ASF_MultiFaceInfo DetectFace(IntPtr pEngine, ImageInfo imageInfo) { ASF_MultiFaceInfo multiFaceInfo = new ASF_MultiFaceInfo(); IntPtr pMultiFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_MultiFaceInfo>()); int retCode = ASFFunctions.ASFDetectFaces(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pMultiFaceInfo); if (retCode != 0) { MemoryUtil.Free(pMultiFaceInfo); return(multiFaceInfo); } multiFaceInfo = MemoryUtil.PtrToStructure <ASF_MultiFaceInfo>(pMultiFaceInfo); MemoryUtil.Free(pMultiFaceInfo); return(multiFaceInfo); }
/// <summary> /// Infrared in vivo detection /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="imageInfo">Image data</param> /// <param name="multiFaceInfo">In vivo test results</param> /// <returns>Preserve the structure of in vivo detection results</returns> public static ASF_LivenessInfo LivenessInfo_IR(IntPtr pEngine, ImageInfo imageInfo, ASF_MultiFaceInfo multiFaceInfo, out int retCode) { IntPtr pMultiFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_MultiFaceInfo>()); MemoryUtil.StructureToPtr(multiFaceInfo, pMultiFaceInfo); if (multiFaceInfo.faceNum == 0) { retCode = -1; //Release memory MemoryUtil.Free(pMultiFaceInfo); return(new ASF_LivenessInfo()); } try { //Face information processing retCode = ASFFunctions.ASFProcess_IR(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pMultiFaceInfo, FaceEngineMask.ASF_IR_LIVENESS); if (retCode == 0) { //Obtain in vivo test results IntPtr pLivenessInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_LivenessInfo>()); retCode = ASFFunctions.ASFGetLivenessScore_IR(pEngine, pLivenessInfo); Console.WriteLine("Get Liveness Result:" + retCode); ASF_LivenessInfo livenessInfo = MemoryUtil.PtrToStructure <ASF_LivenessInfo>(pLivenessInfo); //Release memory MemoryUtil.Free(pMultiFaceInfo); MemoryUtil.Free(pLivenessInfo); return(livenessInfo); } else { //Release memory MemoryUtil.Free(pMultiFaceInfo); return(new ASF_LivenessInfo()); } } catch { retCode = -1; //Release memory MemoryUtil.Free(pMultiFaceInfo); return(new ASF_LivenessInfo()); } }
/// <summary> /// Single face gender test /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="image">Image</param> /// <param name="singleFaceInfo">Single face information</param> /// <returns>Gender estimation results</returns> public static ASF_GenderInfo GenderEstimation(IntPtr pEngine, Image image, ASF_SingleFaceInfo singleFaceInfo) { ImageInfo imageInfo = ImageUtil.ReadBMP(image); if (imageInfo == null) { return(new ASF_GenderInfo()); } ASF_MultiFaceInfo multiFaceInfo = new ASF_MultiFaceInfo(); multiFaceInfo.faceRects = MemoryUtil.Malloc(MemoryUtil.SizeOf <MRECT>()); MemoryUtil.StructureToPtr <MRECT>(singleFaceInfo.faceRect, multiFaceInfo.faceRects); multiFaceInfo.faceOrients = MemoryUtil.Malloc(MemoryUtil.SizeOf <int>()); MemoryUtil.StructureToPtr <int>(singleFaceInfo.faceOrient, multiFaceInfo.faceOrients); multiFaceInfo.faceNum = 1; ASF_GenderInfo genderInfo = GenderEstimation(pEngine, imageInfo, multiFaceInfo); MemoryUtil.Free(imageInfo.imgData); return(genderInfo); }
/// <summary> /// Get picture information /// </summary> /// <param name="image">photograph</param> /// <returns>Success or failure</returns> public static ImageInfo ReadBMP(Image image) { ImageInfo imageInfo = new ImageInfo(); Image <Bgr, byte> my_Image = null; Bitmap bitmap = null; try { bitmap = new Bitmap(image); if (bitmap == null) { return(null); } my_Image = new Image <Bgr, byte>(bitmap); imageInfo.format = ASF_ImagePixelFormat.ASVL_PAF_RGB24_B8G8R8; imageInfo.width = my_Image.Width; imageInfo.height = my_Image.Height; imageInfo.imgData = MemoryUtil.Malloc(my_Image.Bytes.Length); MemoryUtil.Copy(my_Image.Bytes, 0, imageInfo.imgData, my_Image.Bytes.Length); return(imageInfo); } catch (Exception ex) { Console.WriteLine(ex.Message); } finally { if (my_Image != null) { my_Image.Dispose(); } if (bitmap != null) { bitmap.Dispose(); } } return(null); }
/// <summary> /// Get image IR information /// </summary> /// <param name="image">photograph</param> /// <returns>Success or failure</returns> public static ImageInfo ReadBMP_IR(Bitmap bitmap) { ImageInfo imageInfo = new ImageInfo(); Image <Bgr, byte> my_Image = null; Image <Gray, byte> gray_image = null; try { //Image grayscale conversion my_Image = new Image <Bgr, byte>(bitmap); gray_image = my_Image.Convert <Gray, byte>(); //Graying function imageInfo.format = ASF_ImagePixelFormat.ASVL_PAF_GRAY; imageInfo.width = gray_image.Width; imageInfo.height = gray_image.Height; imageInfo.imgData = MemoryUtil.Malloc(gray_image.Bytes.Length); MemoryUtil.Copy(gray_image.Bytes, 0, imageInfo.imgData, gray_image.Bytes.Length); return(imageInfo); } catch (Exception ex) { Console.WriteLine(ex.Message); } finally { if (my_Image != null) { my_Image.Dispose(); } if (gray_image != null) { gray_image.Dispose(); } } return(null); }
/// <summary> /// Extracting facial features /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="image">image</param> /// <returns>Save the face feature structure pointer</returns> public static IntPtr ExtractFeature(IntPtr pEngine, Image image, out ASF_SingleFaceInfo singleFaceInfo) { if (image.Width > 1536 || image.Height > 1536) { image = ImageUtil.ScaleImage(image, 1536, 1536); } else { image = ImageUtil.ScaleImage(image, image.Width, image.Height); } if (image == null) { singleFaceInfo = new ASF_SingleFaceInfo(); ASF_FaceFeature emptyFeature = new ASF_FaceFeature(); IntPtr pEmptyFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(emptyFeature, pEmptyFeature); return(pEmptyFeature); } ImageInfo imageInfo = ImageUtil.ReadBMP(image); if (imageInfo == null) { singleFaceInfo = new ASF_SingleFaceInfo(); ASF_FaceFeature emptyFeature = new ASF_FaceFeature(); IntPtr pEmptyFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(emptyFeature, pEmptyFeature); return(pEmptyFeature); } ASF_MultiFaceInfo multiFaceInfo = DetectFace(pEngine, imageInfo); singleFaceInfo = new ASF_SingleFaceInfo(); IntPtr pFaceModel = ExtractFeature(pEngine, imageInfo, multiFaceInfo, out singleFaceInfo); MemoryUtil.Free(imageInfo.imgData); return(pFaceModel); }
/// <summary> /// Extract single face feature /// </summary> /// <param name="pEngine">Engine Handle</param> /// <param name="image">photograph</param> /// <param name="singleFaceInfo">Single face information</param> /// <returns>Features of single face</returns> public static IntPtr ExtractFeature(IntPtr pEngine, Image image, ASF_SingleFaceInfo singleFaceInfo) { ImageInfo imageInfo = ImageUtil.ReadBMP(image); if (imageInfo == null) { ASF_FaceFeature emptyFeature = new ASF_FaceFeature(); IntPtr pEmptyFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(emptyFeature, pEmptyFeature); return(pEmptyFeature); } IntPtr pSingleFaceInfo = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_SingleFaceInfo>()); MemoryUtil.StructureToPtr(singleFaceInfo, pSingleFaceInfo); IntPtr pFaceFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); int retCode = -1; try { retCode = ASFFunctions.ASFFaceFeatureExtract(pEngine, imageInfo.width, imageInfo.height, imageInfo.format, imageInfo.imgData, pSingleFaceInfo, pFaceFeature); } catch (Exception e) { Console.WriteLine(e.Message); } Console.WriteLine("FR Extract Feature result:" + retCode); if (retCode != 0) { //Release the pointer MemoryUtil.Free(pSingleFaceInfo); MemoryUtil.Free(pFaceFeature); MemoryUtil.Free(imageInfo.imgData); ASF_FaceFeature emptyFeature = new ASF_FaceFeature(); IntPtr pEmptyFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(emptyFeature, pEmptyFeature); return(pEmptyFeature); } //Face feature feature filtering ASF_FaceFeature faceFeature = MemoryUtil.PtrToStructure <ASF_FaceFeature>(pFaceFeature); byte[] feature = new byte[faceFeature.featureSize]; MemoryUtil.Copy(faceFeature.feature, feature, 0, faceFeature.featureSize); ASF_FaceFeature localFeature = new ASF_FaceFeature(); localFeature.feature = MemoryUtil.Malloc(feature.Length); MemoryUtil.Copy(feature, 0, localFeature.feature, feature.Length); localFeature.featureSize = feature.Length; IntPtr pLocalFeature = MemoryUtil.Malloc(MemoryUtil.SizeOf <ASF_FaceFeature>()); MemoryUtil.StructureToPtr(localFeature, pLocalFeature); //Release the pointer MemoryUtil.Free(pSingleFaceInfo); MemoryUtil.Free(pFaceFeature); MemoryUtil.Free(imageInfo.imgData); return(pLocalFeature); }