C# (CSharp) gView.SDEWrapper.a10 Wrapper10 Exemples

Langage de programmation: C# (CSharp)

Espace de nommage/Pack: gView.SDEWrapper.a10

Class/Type: Wrapper10

Exemples au hotexamples.com: 2

C# (CSharp) gView.SDEWrapper.a10 Wrapper10 - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de gView.SDEWrapper.a10.Wrapper10 extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Méthodes fréquemment utilisées

Afficher Cacher

SE_reginfo_free(1)

SE_reginfo_get_table_name(1)

SE_reginfo_has_layer(1)

SE_registration_get_info_list(1)

SE_shape_generate_line(1)

SE_shape_generate_point(1)

SE_shape_generate_polygon(1)

SE_shape_generate_rectangle(1)

Méthodes fréquemment utilisées

SE_reginfo_free (1)

SE_reginfo_get_table_name (1)

SE_reginfo_has_layer (1)

SE_registration_get_info_list (1)

SE_shape_generate_line (1)

SE_shape_generate_point (1)

SE_shape_generate_polygon (1)

SE_shape_generate_rectangle (1)

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Exemple #1

0

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public static string[] TableNames(SE_CONNECTION connection) { try { unsafe { Pointer2Pointer ptr = new Pointer2Pointer(); System.Int32 num = 0; if (Wrapper10.SE_registration_get_info_list(connection, ref ptr, ref num) != 0) { return(null); } IntPtr *reginfo = (System.IntPtr *)ptr.pointer[0]; StringBuilder sb = new StringBuilder(); for (int i = 0; i < num; i++) { Int32 result = Wrapper10.SE_reginfo_has_layer(reginfo[i]); if (result != 0) { byte[] buffer = new byte[CONST.SE_QUALIFIED_TABLE_NAME]; Wrapper10.SE_reginfo_get_table_name(reginfo[i], buffer); string table = System.Text.Encoding.ASCII.GetString(buffer).Replace("\0", ""); sb.Append(table); /* * buffer = new byte[CONST.SE_MAX_DESCRIPTION_LEN]; * Wrapper10.SE_reginfo_get_description(reginfo[i], buffer); * string descr = System.Text.Encoding.ASCII.GetString(buffer).Replace("\0", ""); * sb.Append(" ("+descr+")" + ";"); * */ } Wrapper10.SE_reginfo_free(reginfo[i]); } return(sb.ToString().Split(';')); } } catch (Exception ex) { return(null); } }

Exemple #2

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public static System.Int32 SE_GenerateGeometry(SE_SHAPE shape, IGeometry geometry, SE_ENVELOPE maxExtent) { if (geometry == null) { return(-1); } unsafe { SE_POINT * points = null; System.Int32 *parts = null; switch (geometry.GeometryType) { case geometryType.Envelope: SE_ENVELOPE seEnvelope = new SE_ENVELOPE(); IEnvelope env = geometry.Envelope; seEnvelope.minx = Math.Max(env.minx, maxExtent.minx); seEnvelope.miny = Math.Max(env.miny, maxExtent.miny); seEnvelope.maxx = Math.Min(env.maxx, maxExtent.maxx); seEnvelope.maxy = Math.Min(env.maxy, maxExtent.maxy); if (seEnvelope.minx == seEnvelope.maxx && seEnvelope.miny == seEnvelope.maxy) { /* fudge a rectangle so we have a valid one for generate_rectangle */ /* FIXME: use the real shape for the query and set the filter_type * to be an appropriate type */ seEnvelope.minx = seEnvelope.minx - 0.001; seEnvelope.maxx = seEnvelope.maxx + 0.001; seEnvelope.miny = seEnvelope.miny - 0.001; seEnvelope.maxy = seEnvelope.maxy + 0.001; } return(Wrapper10.SE_shape_generate_rectangle(ref seEnvelope, shape)); case geometryType.Point: points = (SE_POINT *)Marshal.AllocHGlobal(sizeof(SE_POINT) * 1); points[0].x = ((IPoint)geometry).X; points[0].y = ((IPoint)geometry).Y; return(Wrapper10.SE_shape_generate_point(1, (IntPtr)points, (IntPtr)null, (IntPtr)null, shape)); case geometryType.Polyline: IPointCollection col1 = gView.Framework.SpatialAlgorithms.Algorithm.GeometryPoints(geometry, false); IPolyline polyline = (IPolyline)geometry; points = (SE_POINT *)Marshal.AllocHGlobal(sizeof(SE_POINT) * (col1.PointCount)); parts = (Int32 *)Marshal.AllocHGlobal(sizeof(Int32) * polyline.PathCount); int pos1 = 0; for (int i = 0; i < polyline.PathCount; i++) { parts[i] = pos1; IPath path = polyline[i]; if (path.PointCount == 0) { continue; } for (int p = 0; p < path.PointCount; p++) { points[pos1].x = path[p].X; points[pos1].y = path[p].Y; pos1++; } } return(Wrapper10.SE_shape_generate_line(pos1, polyline.PathCount, (IntPtr)parts, (IntPtr)points, (IntPtr)null, (IntPtr)null, shape)); case geometryType.Polygon: IPointCollection col2 = gView.Framework.SpatialAlgorithms.Algorithm.GeometryPoints(geometry, false); IPolygon polygon = (IPolygon)geometry; points = (SE_POINT *)Marshal.AllocHGlobal(sizeof(SE_POINT) * (col2.PointCount + polygon.RingCount)); parts = (Int32 *)Marshal.AllocHGlobal(sizeof(Int32) * polygon.RingCount); int pos2 = 0; for (int i = 0; i < polygon.RingCount; i++) { parts[i] = pos2; IRing ring = polygon[i]; if (ring.PointCount == 0) { continue; } for (int p = 0; p < ring.PointCount; p++) { points[pos2].x = ring[p].X; points[pos2].y = ring[p].Y; pos2++; } points[pos2].x = ring[0].X; points[pos2].y = ring[0].Y; pos2++; } return(Wrapper10.SE_shape_generate_polygon(pos2, polygon.RingCount, (IntPtr)parts, (IntPtr)points, (IntPtr)null, (IntPtr)null, shape)); case geometryType.Aggregate: if (((AggregateGeometry)geometry).GeometryCount == 1) { return(SE_GenerateGeometry(shape, ((AggregateGeometry)geometry)[0], maxExtent)); } //else //{ // Polygon polygon = new Polygon(); // for (int i = 0; i < ((AggregateGeometry)geometry).GeometryCount; i++) // { // IGeometry g = ((AggregateGeometry)geometry)[i]; // if (g is IPolygon) // { // for (int p = 0; p < ((IPolygon)g).RingCount; p++) // polygon.AddRing(((Polygon)g)[p]); // } // } // if (polygon.RingCount > 0) return SE_GenerateGeometry(shape, polygon, maxExtent); //} return(-1); } } return(-1); }