/// <summary> /// Initializes static members of the <see cref="JsonmParser"/> class. /// </summary> static JsonmParser() { try { MImage grammar = new MImage(@"jsonm.mx"); grammarParser = grammar.ParserFactories["jsonm.jsonm"].Create(); grammarParser.GraphBuilder = new NodeGraphBuilder(); // Remark: Alternate parser generation approach; dynamic compilation notably slower ////using (var r = new StreamReader(Environment.CurrentDirectory + @"\..\..\jsonm.mg")) ////{ //// var options = new CompilerOptions //// { //// Sources = //// { //// new TextItem //// { //// Name = "I Need A Name", //// Reader = r, //// ContentType = TextItemType.MGrammar //// } //// } //// }; //// CompilationResults results = Compiler.Compile(options); //// grammarParser = results.ParserFactories["jsonm.jsonm"].Create(); //// grammarParser.GraphBuilder = new NodeGraphBuilder(); ////} } catch (Exception ex) { // TODO: Break and post some exception here... } }
private void CheckImage(int index) { if (!_initialized) { Initialize(); } if (Images == null || index < 0 || index >= Images.Count) { return; } if (Images[index] == null) { _stream.Position = IndexList[index]; Images[index] = new MImage(_reader); } if (!Load) { return; } MImage mi = Images[index]; if (!mi.TextureValid) { _stream.Seek(IndexList[index] + 12, SeekOrigin.Begin); mi.CreateTexture(_reader); } }
internal Language(MImage image, string moduleName, string languageName) { this.image = image; this.moduleName = moduleName; this.languageName = languageName; this.factory = this.image.ParserFactories[moduleName + "." + languageName]; }
public void AddImage(Bitmap image, short x, short y) { MImage mImage = new MImage(image) { X = x, Y = y }; Count++; Images.Add(mImage); }
public async Task <int> AddImageAsync(MImage image) { const string sql = "INSERT INTO dbo.Images (Name, ContentType, Content, UserId) " + "OUTPUT INSERTED.Id " + "VALUES (@Name, @ContentType, @Content, @UserId);"; return(await connection.ExecuteScalarAsync <int>(sql, image)); }
private unsafe void blendPixel(MImage image, uint size) { byte* pixels = image.pixels(); uint i; for (i = 0; i < size; i++, pixels += 4) { pixels[3] = (byte)(pixels[3] * (1.0 - fTransparency)); } }
public void ReplaceImage(int Index, Bitmap image, short x, short y) { MImage mImage = new MImage(image) { X = x, Y = y }; Images[Index] = mImage; }
public void ToMLibrary() { string fileName = Path.ChangeExtension(FileName, ".Zl"); if (File.Exists(fileName)) { File.Delete(fileName); } Mir3Library library = new Mir3Library(fileName); library.Images.AddRange(Enumerable.Repeat(new Mir3Library.Mir3Image(), Images.Count)); //library.Save(); ParallelOptions options = new ParallelOptions { MaxDegreeOfParallelism = 8 }; try { Parallel.For(0, Images.Count, options, i => { MImage image = Images[i]; if (image.HasMask) { library.Images[i] = new Mir3Library.Mir3Image(image.Image, null, image.MaskImage) { OffSetX = image.X, OffSetY = image.Y, ShadowOffSetX = image.ShadowX, ShadowOffSetY = image.ShadowY } } ; else { library.Images[i] = new Mir3Library.Mir3Image(image.Image) { OffSetX = image.X, OffSetY = image.Y, ShadowOffSetX = image.ShadowX, ShadowOffSetY = image.ShadowY } }; }); } catch (System.Exception) { throw; } finally { library.Save(fileName); } // Operation finished. // System.Windows.Forms.MessageBox.Show("Converted " + fileName + " successfully.", // "Wemade Information", // System.Windows.Forms.MessageBoxButtons.OK, // System.Windows.Forms.MessageBoxIcon.Information, // System.Windows.Forms.MessageBoxDefaultButton.Button1); }
public void InsertImage(int index, Bitmap image, short x, short y) { MImage mImage = new MImage(image) { X = x, Y = y }; Count++; Images.Insert(index, mImage); }
public void AddImage(Bitmap image, Bitmap maskImage, short x, short y) { MImage mImage = new MImage(image, maskImage) { X = x, Y = y }; Count++; Images.Add(mImage); }
private unsafe void blendPixel(MImage image, uint size) { byte *pixels = image.pixels(); uint i; for (i = 0; i < size; i++, pixels += 4) { pixels[3] = (byte)(pixels[3] * (1.0 - fTransparency)); } }
public void InsertImage(int index, Bitmap image, short x, short y, bool removeBlack = true) { MImage mImage = new MImage(image, removeBlack) { X = x, Y = y }; Count++; Images.Insert(index, mImage); }
public static void MFactory_Image_DefaultValues() { string text = LinkText(); string url = LinkUrl(); MImage image = MFactory.Image(text, url); Assert.Equal(text, image.Text); Assert.Equal(url, image.Url); Assert.Null(image.Title); }
private WaebricParser() { //Load grammar and initialize parser and graphbuilder String grammarPath = Path.GetDirectoryName(Assembly.GetAssembly(typeof(WaebricParser)).CodeBase); grammarPath += "\\Waebric.mx"; grammarPath = grammarPath.Substring(6); Grammar = new MImage(grammarPath); Parser = Grammar.ParserFactories["Waebric.Waebric"].Create(); Parser.GraphBuilder = new NodeGraphBuilder(); }
public static void MFactory_Image() { string text = LinkText(); string url = LinkUrl(); string title = LinkTitle(); MImage image = MFactory.Image(text, url, title); Assert.Equal(text, image.Text); Assert.Equal(url, image.Url); Assert.Equal(title, image.Title); }
private async Task OnAvatarInputFileChange(InputFileChangeEventArgs e) { var imageFile = await e.File.RequestImageFileAsync(e.File.ContentType, 500, 500); avatarPreview = new MImage { ContentType = imageFile.ContentType, Name = imageFile.Name, Content = new byte[imageFile.Size] }; await imageFile.OpenReadStream(2 * 1024 * 1024).ReadAsync(avatarPreview.Content); }
public VImageModel GetImage(Ctx ctx, int ad_image_id, int size) { VImageModel obj = new VImageModel(); MImage mimg = new MImage(ctx, ad_image_id, null); var value = mimg.GetThumbnailByte(size, size); if (value != null) { obj.UsrImage = Convert.ToBase64String(value); //obj.UsrImage = Convert.ToBase64String(mimg.GetBinaryData()); } return(obj); }
/// <summary> /// Delete image /// </summary> /// <param name="ctx"></param> /// <param name="ad_image_id"></param> /// <returns></returns> public static int DeleteImage(Ctx ctx, int ad_image_id) { MImage mimg = new MImage(ctx, ad_image_id, null); if (mimg.Delete(true)) { return(1); } else { return(0); } }
/// <summary> /// 上传图片到服务器并更新数据库 /// </summary> /// <param name="sFilePath"></param> /// <param name="localpath"></param> /// <returns>0:上传失败,1:上传成功,-1:其它错误</returns> public int FileUpLoad(MImage model, string localpath, bool isMarkImg) { try { int i = -2; if (isMarkImg) { i = fileTranfer.FileUpLoad(model.MARK_IMAGE_PATH, localpath); } else { i = fileTranfer.FileUpLoad(model.IMAGE_PATH, localpath); } if (i < 0) { return(0); } int imageId = -1; if (model.IMAGE_ID == null) { i = Bimage.Add(model, ref imageId); model.IMAGE_ID = imageId; } else { i = Bimage.Update(model, "where IMAGE_ID=" + model.IMAGE_ID); } if (i < 0) { return(0); } if (!isMarkImg) { SIS_Model.MWorkList mWorkList = (SIS_Model.MWorkList)bWorkList.GetModel(model.EXAM_ACCESSION_NUM); if (mWorkList.IMAGE_COUNTS == null) { mWorkList.IMAGE_COUNTS = 1; } else { mWorkList.IMAGE_COUNTS += 1; } bWorkList.Update(mWorkList, " where EXAM_ACCESSION_NUM = '" + mWorkList.EXAM_ACCESSION_NUM + "'"); } return(1);// } catch { return(-1); } }
public void GetImage(Ctx ctx, int ad_image_id, int size) { MImage mimg = new MImage(ctx, ad_image_id, null); var value = mimg.GetThumbnailByte(size, size); if (value != null) { UsrImage = Convert.ToBase64String(value); //obj.UsrImage = Convert.ToBase64String(mimg.GetBinaryData()); if (mimg.GetBinaryData() != null) { Isdatabase = true; } } }
public static void MarkdownWriter_Write_Image_NoTitle() { MarkdownWriter mw = CreateWriter(); const string text = "ImageText"; const string url = "ImageUrl"; MImage image = Image(text + Chars, url + CharsWithoutSpaces); string expected = $"![{text + CharsSquareBracketsBacktickLessThanEscaped}]({url + CharsWithoutSpacesParenthesesEscaped})"; mw.Write(image); Assert.Equal(expected, mw.ToStringAndClear()); }
public static void MarkdownWriter_WriteImage() { MarkdownWriter mw = CreateWriter(); const string text = "ImageText"; const string url = "ImageUrl"; const string title = "ImageTitle"; MImage image = Image(text + Chars, url + CharsWithoutSpaces, title + Chars); string expected = $"![{text + CharsSquareBracketsBacktickLessThanEscaped}]" + $"({url + CharsWithoutSpacesParenthesesEscaped} \"{title + CharsDoubleQuoteEscaped}\")"; mw.WriteImage(image.Text, image.Url, image.Title); Assert.Equal(expected, mw.ToStringAndClear()); }
public override void load(MImage image, uint idx) { uint w = 512; uint h = 512; // Create a floating point image and fill it with // a pretty rainbow test image. // image.create(w, h, 3, MImage.MPixelType.kFloat); unsafe { float *pixels = image.floatPixels(); populateTestImage(pixels, w, h); } return; }
public override void load(MImage image, uint idx) { uint w = 512; uint h = 512; // Create a floating point image and fill it with // a pretty rainbow test image. // image.create( w, h, 3, MImage.MPixelType.kFloat); unsafe { float* pixels = image.floatPixels(); populateTestImage(pixels, w, h); } return; }
private ImgObj AddImgObj(string newFileName, string path) { MImage Mimage = new MImage(); Mimage.EXAM_ACCESSION_NUM = frmMainForm.examInf.ExamAccessionNum; Mimage.IMAGE_PATH = GetConfig.ServerImgDir + "/" + frmMainForm.examInf.ReqDateTime + "/" + frmMainForm.examInf.ExamAccessionNum + "/" + newFileName;//linux上文件保存路径 Mimage.IMAGE_DATE = System.DateTime.Now; ImageCopy imgCopy = new ImageCopy(); if (imgCopy.FileUpLoad(Mimage, path, false) != 1) { return(null); } ImgObj imgObj = new ImgObj(path, false, Mimage); frmMainForm.examInf.ArrayImages.Add(imgObj); return(imgObj); }
public void CheckImage(int index) { if (!_initialized) { Initialize(); } if (Images == null || index < 0 || index >= Images.Count) { return; } if (_stream == null) { return; } if (Images[index] == null) { _stream.Position = IndexList[index]; Images[index] = new MImage(_reader); } if (!Load) { return; } //MImage mi = Images[index]; //if (!mi.TextureValid) //{ // _stream.Seek(IndexList[index] + 12, SeekOrigin.Begin); // mi.CreateTexture(_reader); //} if (!Images[index].TextureValid) { _stream.Seek(IndexList[index] + 12, SeekOrigin.Begin); Images[index].CreateBmpTexture(_reader); } if (!Images[index].TextureValid) { _stream.Seek(IndexList[index] + 17, SeekOrigin.Begin); Images[index].CreateTexture(_reader); } }
//public static int SaveUserImage(Ctx ctx, byte[] buffer, string imageName, bool isSaveInDB, int productID) public static string SaveUserImage(Ctx ctx, byte[] buffer, string imageName, bool isSaveInDB, int productID) { string imageDataURL = null; MProduct user = new MProduct(ctx, productID, null); int imageID = Util.GetValueOfInt(user.GetAD_Image_ID()); //DirectoryInfo dir = new DirectoryInfo(HostingEnvironment.MapPath("~/TempFiles/ProductImages/Thumb100x100")); MImage mimg = new MImage(ctx, imageID, null); mimg.ByteArray = buffer; mimg.ImageFormat = imageName.Substring(imageName.LastIndexOf('.')); mimg.SetName(imageName); if (isSaveInDB) { mimg.SetBinaryData(buffer); //mimg.SetImageURL(string.Empty); } mimg.SetImageURL("Images/Thumb46x46");//Image Saved in File System so instead of byteArray image Url will be set if (!mimg.Save()) { return(""); } user.SetAD_Image_ID(mimg.GetAD_Image_ID()); if (!user.Save()) { return(""); } else { string filePath = Path.Combine(HostingEnvironment.MapPath("~/Images/Thumb46x46"), mimg.GetAD_Image_ID() + mimg.ImageFormat); if (File.Exists(filePath)) { byte[] imageByteData = System.IO.File.ReadAllBytes(filePath); string imageBase64Data = Convert.ToBase64String(imageByteData); imageDataURL = string.Format("data:image/png;base64,{0}", imageBase64Data); } } return(imageDataURL); //return mimg.GetAD_Image_ID(); }
public Size GetSize(int index) { if (!_initialized) { Initialize(); } if (Images == null || index < 0 || index >= Images.Count) { return(Size.Empty); } if (Images[index] == null) { _stream.Seek(IndexList[index], SeekOrigin.Begin); Images[index] = new MImage(_reader); } return(new Size(Images[index].Width, Images[index].Height)); }
private void setDepthMap(MImage image, uint width, uint height) { float [] buffer = new float[width * height]; uint c, j, i; for (c = i = 0; i < height; i++) { for (j = 0; j < width; j++, c++) { if (i > height / 2) { buffer[c] = -1.0f; } else { buffer[c] = 0.0f; } } } image.setDepthMap(buffer, width, height); }
public Point GetOffSet(int index) { if (!_initialized) { Initialize(); } if (Images == null || index < 0 || index >= Images.Count) { return(Point.Empty); } if (Images[index] == null) { _stream.Seek(IndexList[index], SeekOrigin.Begin); Images[index] = new MImage(_reader); } return(new Point(Images[index].X, Images[index].Y)); }
public void MergeToMLibrary(Mir3Library lib, int newImages) { int offset = lib.Images.Count; for (int i = 0; i < Images.Count; i++) { lib.Images.Add(null); } ParallelOptions options = new ParallelOptions { MaxDegreeOfParallelism = 8 }; try { Parallel.For(0, Images.Count, options, i => { MImage image = Images[i]; if (image.HasMask) { lib.Images[i + offset] = new Mir3Library.Mir3Image(image.Image, null, image.MaskImage) { OffSetX = image.X, OffSetY = image.Y, ShadowOffSetX = image.ShadowX, ShadowOffSetY = image.ShadowY } } ; else { lib.Images[i + offset] = new Mir3Library.Mir3Image(image.Image) { OffSetX = image.X, OffSetY = image.Y, ShadowOffSetX = image.ShadowX, ShadowOffSetY = image.ShadowY } }; }); lib.AddBlanks(newImages); } catch (System.Exception) { throw; } }
private static bool EnsureParser() { if (_parser != null) { return(true); } try { var assembly = Assembly.GetExecutingAssembly(); var grammar = (from name in assembly.GetManifestResourceNames() where name.EndsWith("ExpressionLanguage.mx") select name).Single(); var stream = assembly.GetManifestResourceStream(grammar); if (stream == null) { return(false); } using (stream) { using (var image = new MImage(stream, true)) { var factory = image.ParserFactories["Supremacy.Scripting.ExpressionLanguage"]; _parser = factory.Create(); } } _xamlTypeMap = assembly .GetTypes() .Where(o => o.Namespace == "Supremacy.Scripting.Ast" && o.IsPublic && !o.IsAbstract) .ToDictionary(o => (Identifier)o.Name, o => o); return(true); } catch { throw; } }
/// <summary> /// 保存图片并记录入图片表(注意是否打勾) /// </summary> /// <param name="arrayImg"></param> public bool SaveImage(List <ImgObj> arrayImg, SIS_Model.MWorkList worklist) { bool isSuccess = true; int j = 0; for (int i = 0; i < arrayImg.Count; i++) { ImgObj obj = (ImgObj)arrayImg[i]; MImage model = (MImage)obj.MImage; if (model == null) { model = new MImage(); model.IMAGE_PATH = CreateServerPath(obj.ImagePath); model.EXAM_ACCESSION_NUM = worklist.EXAM_ACCESSION_NUM; } else { model.IMAGE_PATH = CreateServerPath(obj.ImagePath); } model.IS_PRINT = (obj.IsCheck == true ? 1 : 0); model.IMAGE_DATE = System.DateTime.Now; if (obj.IsDeleted) { imgCopy.DeleteImg(model); } else { if (imgCopy.FileUpLoad(model, obj.ImagePath, false) != 1) { // MessageBox.Show("图片" + obj.ImagePath + "保存失败,请检查网络连接情况", "提示", MessageBoxButtons.OK, MessageBoxIcon.Warning); isSuccess = false; } else { j++; } } } worklist.IMAGE_COUNTS = j; return(isSuccess); }
public Bitmap GetPreview(int index) { if (index < 0 || index >= Images.Count) { return(new Bitmap(1, 1)); } MImage image = Images[index]; if (image == null || image.Image == null) { return(new Bitmap(1, 1)); } if (image.Preview == null) { image.CreatePreview(); } return(image.Preview); }
/// <summary> /// 更新指定的图像记录 /// </summary> /// <param name="iimage"></param> /// <param name="where"></param> /// <returns></returns> public override int Update(IModel iimage, string where) { MImage image = (MImage)iimage; Hashtable ht = new Hashtable(); ht.Add("IMAGE_ID", image.IMAGE_ID); ht.Add("EXAM_ACCESSION_NUM", image.EXAM_ACCESSION_NUM); ht.Add("IMAGE_PATH", image.IMAGE_PATH); ht.Add("IMAGE_TYPE", image.IMAGE_TYPE); ht.Add("BACK_ID", image.BACK_ID); ht.Add("VOLUMN_KEY", image.VOLUMN_KEY); ht.Add("ONLINE_ID", image.ONLINE_ID); ht.Add("IMAGE_CLASS", image.IMAGE_CLASS); ht.Add("IMAGE_EXPLAIN", image.IMAGE_EXPLAIN); ht.Add("IS_PRINT", image.IS_PRINT); ht.Add("PAGE_ORDER", image.PAGE_ORDER); ht.Add("MARK_INF", image.MARK_INF); ht.Add("IMAGE_TIME", image.IMAGE_DATE); ht.Add("MARK_IMAGE_PATH", image.MARK_IMAGE_PATH); return(ExecuteSql(StringConstructor.UpdateSql(TableName, ht, where).ToString())); }
public override void loadImageMap(string fileName, int frame, MImage image) { image.readFromFile(fileName); uint width; uint height; image.getSize(out width, out height); uint size = width * height; blendPixel(image, size); MPlug depthMap = new MPlug(thisMObject(), useDepthMap); bool value = false; depthMap.getValue(ref value); if (value) { setDepthMap(image, width, height); } return; }
public Size GetSize(int index) { if (!_initialized) Initialize(); if (Images == null || index < 0 || index >= Images.Count) return Size.Empty; if (Images[index] == null) { _stream.Seek(IndexList[index], SeekOrigin.Begin); Images[index] = new MImage(_reader); } return new Size(Images[index].Width, Images[index].Height); }
public Point GetOffSet(int index) { if (!_initialized) Initialize(); if (Images == null || index < 0 || index >= Images.Count) return Point.Empty; if (Images[index] == null) { _stream.Seek(IndexList[index], SeekOrigin.Begin); Images[index] = new MImage(_reader); } return new Point(Images[index].X, Images[index].Y); }
private void CheckImage(int index) { if (!_initialized) Initialize(); if (Images == null || index < 0 || index >= Images.Count) return; if (Images[index] == null) { _stream.Position = IndexList[index]; Images[index] = new MImage(_reader); } if (!Load) return; MImage mi = Images[index]; if (!mi.TextureValid) { _stream.Seek(IndexList[index] + 12, SeekOrigin.Begin); mi.CreateTexture(_reader); } }
public override void glBind(MDagPath shapePath) { // ONLY push and pop required attributes performance reasons... // OpenGL.glPushAttrib(OpenGL.GL_LIGHTING_BIT); lightingOn = OpenGL.glIsEnabled(OpenGL.GL_LIGHTING); if (lightingOn > 0) { OpenGL.glEnable(OpenGL.GL_COLOR_MATERIAL); OpenGL.glColorMaterial(OpenGL.GL_FRONT_AND_BACK, OpenGL.GL_DIFFUSE); } // Base colour is always white OpenGL.glColor4f(1.0f, 1.0f, 1.0f, 1.0f); // Bind texture if(libOpenMayaNet.MAYA_API_VERSION >= 800) { MObject l_object = shapePath.node; MFnMesh mesh = new MFnMesh(l_object); String uvSetName = "map1"; MObjectArray textures = new MObjectArray(); boundTexture = false; mesh.getAssociatedUVSetTextures(uvSetName, textures); if (textures.length > 0) { MImageFileInfo.MHwTextureType hwType = new MImageFileInfo.MHwTextureType(); MHwTextureManager.glBind(textures[0], ref hwType); boundTexture = true; } if( !boundTexture) { OpenGL.glDisable(OpenGL.GL_TEXTURE_2D); OpenGL.glBindTexture(OpenGL.GL_TEXTURE_2D, 0); } } else { // To get this code branch to compile, replace <change file name here> // with an appropriate file name if (id == 0) { MImage fileImage = new MImage(); fileImage.readFromFile("<change file name here>"); uint[] param = new uint[1]; OpenGL.glGenTextures(1, param); id = param[0]; OpenGL.glEnable(OpenGL.GL_TEXTURE_2D); OpenGL.glBindTexture(OpenGL.GL_TEXTURE_2D, id); unsafe { uint width = 0, height = 0; fileImage.getSize(out width, out height); byte* pPixels = fileImage.pixels(); OpenGL.glTexImage2D(OpenGL.GL_TEXTURE_2D, 0, (int)OpenGL.GL_RGBA8, (int)width, (int)height, 0, OpenGL.GL_RGBA, OpenGL.GL_UNSIGNED_BYTE, pPixels); } } else { OpenGL.glEnable(OpenGL.GL_TEXTURE_2D); OpenGL.glBindTexture(OpenGL.GL_TEXTURE_2D, id); } boundTexture = true; } if( boundTexture) { OpenGL.glTexParameteri(OpenGL.GL_TEXTURE_2D, OpenGL.GL_TEXTURE_WRAP_S, (int)OpenGL.GL_REPEAT); OpenGL.glTexParameteri(OpenGL.GL_TEXTURE_2D, OpenGL.GL_TEXTURE_WRAP_T, (int)OpenGL.GL_REPEAT); OpenGL.glTexParameteri(OpenGL.GL_TEXTURE_2D, OpenGL.GL_TEXTURE_MIN_FILTER, (int)OpenGL.GL_LINEAR); OpenGL.glTexParameteri(OpenGL.GL_TEXTURE_2D, OpenGL.GL_TEXTURE_MAG_FILTER, (int)OpenGL.GL_LINEAR); } OpenGL.glEnableClientState(OpenGL.GL_VERTEX_ARRAY); return; }
public static Language Load(MImage image, string moduleName, string languageName) { return new Language(image, moduleName, languageName); }