Exemplo n.º 1
0
        void WriteModelFilFile(string strPath, List <CLabtype> listfil)
        {
            BinaryWriter bw = new BinaryWriter(new FileStream(strPath, FileMode.Append), Encoding.Default);

            for (int i = 0; i < listfil.Count; i++)
            {
                CLabtype lab = listfil[i];
                lab.ToStream(bw);
            }
            bw.Close();
        }
Exemplo n.º 2
0
        void ProcessData()
        {
            BinaryWriter fp2 = null;
            StreamWriter fp3 = null;

            string nam;
            string lbl;

            int ind = 0, len, ival;
            int slno, eltype, turn;

            double x, y, z;
            double stchn, RC, sc = 0, inc, seglen, segend;    //, seginc;
            double RCI, num, val;
            double T1, T2, R, D, lastRC = -999.999;

            /* Select a Polyline from screen */
            /* User Input data in dialog box */
            modnam = this.tbModelName_.Text;
            stglbl = this.tbStringlabel_.Text;

            stchn = this.tbStartChainage_.Value;

            inc = this.tbChainageInterval_.Value;

            string csTemp = Path.Combine(this.app.AppDataPath, "MODEL.FIL");

            fp2 = new BinaryWriter(new FileStream(csTemp, FileMode.Append), Encoding.Default);

            if (this.checkMasterString_.Checked == true)
            {
                csTemp = Path.Combine(this.app.AppDataPath, "HALIGN.FIL");
                fp3    = new StreamWriter(csTemp, true);
            }
            CLabtype lab = null;
            CPTStype pts = null;
            CModType mod = null;
            CStgType stg = null;
            ClSTtype lst = null;

            lab      = new CLabtype();
            lab.attr = CLabtype.Type.Model;
            mod      = new CModType();
            mod.name = modnam;
            lab.Tag  = mod;
            lab.ToStream(fp2);

            lab       = new CLabtype();
            lab.attr  = CLabtype.Type.String;
            stg       = new CStgType();
            stg.label = stglbl;
            lab.Tag   = stg;
            lab.ToStream(fp2);


            RC = stchn;
            //seginc=0.0;
            sx     = sy = sz = -999.999;
            T1     = T2 = R = D = 0;
            turn   = 0;
            B1     = B2 = 0.0;
            slno   = 1;
            eltype = 1;
            turn   = 1;
            ind    = 0;
            //ind1=0;


            for (int vx = 0; vx < this.ptCords.Length; vx++)
            {
                /*JBLN*/
                ex = this.ptCords[vx].X;
                ey = this.ptCords[vx].Y;
                ez = this.ptCords[vx].Z;
                //		fscanf(fp1, "%lf %lf %lf", &ex, &ey, &ez);  /* close in vc++    */

                if (ind == 0)
                {
                    lab      = new CLabtype();
                    lab.attr = CLabtype.Type.Point;
                    pts      = new CPTStype();
                    pts.mc   = RC;
                    pts.mx   = ex;
                    pts.my   = ey;
                    pts.mz   = ez;
                    lab.Tag  = pts;
                    lab.ToStream(fp2);

                    sc = RC;
                    sx = ex;
                    sy = ey;
                    sz = ez;
                    B1 = B2;

                    ind = 1;
                    continue;
                }


                if (ex == sx && ey == sy)
                {
                    continue;
                }

                tt = string.Format("{0:f0}", inc);//sprintf(tt,"%.0f", inc);

                len = tt.Length;

                RCI  = RC;
                num  = Math.Pow(10, len);
                RCI  = RCI / num;
                ival = (int)RCI;
                RCI  = ival * num;
                while (RCI < RC)
                {
                    RCI += inc;
                }
                RC = RCI;

                if (RC == sc)
                {
                    RC += inc;  /* NEW */
                }
                determine_bearing();

                seglen = Math.Sqrt((ex - sx) * (ex - sx) + (ey - sy) * (ey - sy));      /* NEW */

                segend = sc + seglen;                                                   /* NEW */

                if (this.checkMasterString_.Checked == true)
                {
                    if (B1 == 0)
                    {
                        B1 = B2;
                    }
                    D = B1 - B2; if (D < 0)
                    {
                        D += 360;
                    }
                    if (D > 360)
                    {
                        D -= 360;
                    }

                    CHalignFilData fildata = new CHalignFilData();
                    fildata.sMod       = modnam;
                    fildata.sString    = stglbl;
                    fildata.iSlno      = slno;
                    fildata.iEltype    = (short)eltype;
                    fildata.dStartchn  = sc;
                    fildata.dEndchn    = segend;
                    fildata.dHipx      = ex;
                    fildata.dHipy      = ey;
                    fildata.dT1        = T1;
                    fildata.dT2        = T2;
                    fildata.dRadius    = R;
                    fildata.dEllength  = seglen;
                    fildata.dStartx    = sx;
                    fildata.dStarty    = sy;
                    fildata.dEndx      = ex;
                    fildata.dEndy      = ey;
                    fildata.dB1        = B2;
                    fildata.dB2        = B2;
                    fildata.dDeviation = D;
                    fildata.iTurn      = (short)turn;
                    fp3.WriteLine(fildata.ToString());

                    //fprintf(fp3, "%s %s %d %d %.5f %.5f %.5f %.5f %.5f %.5f %.5f %.5f %.5f %.5f %.5f %.5f %.3f %.3f %.3f %d\n", modnam, stglbl, slno, eltype, sc, segend, ex, ey, T1, T2, R, seglen, sx, sy, ex, ey, B2, B2, D, turn);
                    slno++;     /* NEW */
                }


                val = Math.Abs(RC - segend);/* fabs will be abs in VC++*/
                if (val < 0.001)
                {
                    segend = RC;
                }


                while (true)
                {
                    if (segend < RC)
                    {
                        if (segend + inc != RC)
                        {
                            val = Math.Abs(segend - lastRC);
                            if (val > 0.001)
                            {
                                lab      = new CLabtype();
                                lab.attr = CLabtype.Type.Point;
                                pts      = new CPTStype();
                                pts.mc   = segend;
                                pts.mx   = ex;
                                pts.my   = ey;
                                pts.mz   = ez;
                                lab.Tag  = pts;
                                lab.ToStream(fp2);

                                lastRC = segend;
                            }
                        }
                        RC = segend;

                        ind = 0;
                        break;
                    }
                    else
                    {
                        if ((RC - sc) > 0.001)
                        {
                            x = sx + (RC - sc) * Math.Sin(B2 / r9);     /*  E  */
                            y = sy + (RC - sc) * Math.Cos(B2 / r9);     /*  N  */
                            z = sz + (RC - sc) * (ez - sz) / (segend - sc);

                            if (RC != lastRC)
                            {
                                lab      = new CLabtype();
                                lab.attr = CLabtype.Type.Point;
                                pts      = new CPTStype();
                                pts.mc   = RC;
                                pts.mx   = x;
                                pts.my   = y;
                                pts.mz   = z;
                                lab.Tag  = pts;
                                lab.ToStream(fp2);

                                lastRC = RC;
                            }
                        }
                        RC += inc;
                    }
                }

                sc = RC;
                sx = ex;
                sy = ey;
                sz = ez;
                B1 = B2;

                ind = 1;
            }// end for previously while

            fp2.Close();

            if (this.checkMasterString_.Checked == true)
            {
                fp3.Close();
            }

            csTemp      = Path.Combine(this.app.AppDataPath, "MODEL.LST");
            fp2         = new BinaryWriter(new FileStream(csTemp, FileMode.Append), Encoding.Default);
            lst         = new ClSTtype();
            lst.strMod1 = modnam;
            lst.strStg  = stglbl;
            lst.ToStream(fp2);
            fp2.Close();

            csTemp = Path.Combine(this.app.AppDataPath, "MODEL.FIL");
            fp2    = new BinaryWriter(new FileStream(csTemp, FileMode.Append), Encoding.Default);

            lab      = new CLabtype();
            lab.attr = CLabtype.Type.Model;
            mod      = new CModType();
            nam      = modnam + "%%";
            mod.name = nam;
            lab.Tag  = mod;
            lab.ToStream(fp2);

            lab       = new CLabtype();
            lab.attr  = CLabtype.Type.String;
            stg       = new CStgType();
            lbl       = stglbl;
            stg.label = lbl;
            lab.Tag   = stg;
            lab.ToStream(fp2);


            for (int vx = 0; vx < this.ptCords.Length; vx++)
            {
                ex = this.ptCords[vx].X;
                ey = this.ptCords[vx].Y;
                ez = this.ptCords[vx].Z;

                lab      = new CLabtype();
                lab.attr = CLabtype.Type.Point;
                pts      = new CPTStype();
                pts.mc   = RC;
                pts.mx   = ex;
                pts.my   = ey;
                pts.mz   = ez;
                lab.Tag  = pts;
                lab.ToStream(fp2);
            }

            fp2.Close();

            csTemp      = Path.Combine(this.app.AppDataPath, "MODEL.LST");
            fp2         = new BinaryWriter(new FileStream(csTemp, FileMode.Append), Encoding.Default);
            lst         = new ClSTtype();
            lst.strMod1 = nam;
            lst.strStg  = lbl;
            lst.ToStream(fp2);
            fp2.Close();
        }
Exemplo n.º 3
0
        void Write_Boundary_Offset_in_Model_File()
        {
            BinaryWriter fp2 = null;
            StreamWriter fp3 = null;

            string nam;
            string lbl;

            int ind = 0, len, ival;
            int slno, eltype, turn;

            double x, y, z;
            double stchn, RC, sc = 0, inc, seglen, segend;//, seginc;
            double RCI, num, val;
            double T1, T2, R, D, lastRC = -999.999;

            /* Select a Polyline from screen */
            /* User Input data in dialog box */
            //if (this.checkMasterString_.Checked)
            //{
            //    modnam = this.txt_make_str_Model.Text;
            //    stglbl = this.txt_make_str_String.Text;
            //}
            //else
            //{
            modnam = this.txt_model.Text;
            stglbl = this.txt_string.Text;
            //}



            stchn = Start_Chainage;

            inc = Chainage_Interval;

            string csTemp = Path.Combine(AppDataPath, "MODEL.FIL");

            fp2 = new BinaryWriter(new FileStream(csTemp, FileMode.Append), Encoding.Default);

            CLabtype lab = null;
            CPTStype pts = null;
            CModType mod = null;
            CStgType stg = null;
            ClSTtype lst = null;

            lab      = new CLabtype();
            lab.attr = CLabtype.Type.Model;
            mod      = new CModType();
            mod.name = modnam;
            lab.Tag  = mod;
            lab.ToStream(fp2);

            lab       = new CLabtype();
            lab.attr  = CLabtype.Type.String;
            stg       = new CStgType();
            stg.label = stglbl;
            lab.Tag   = stg;
            lab.ToStream(fp2);


            RC = stchn;
            //seginc=0.0;
            sx     = sy = sz = -999.999;
            T1     = T2 = R = D = 0;
            turn   = 0;
            B1     = B2 = 0.0;
            slno   = 1;
            eltype = 1;
            turn   = 1;
            ind    = 0;
            //ind1=0;


            for (int vx = 0; vx < this.ptCords.Count; vx++)
            {
                /*JBLN*/
                ex = this.ptCords[vx].x;
                ey = this.ptCords[vx].y;
                ez = this.ptCords[vx].z;

                if (ind == 0)
                {
                    lab      = new CLabtype();
                    lab.attr = CLabtype.Type.Point;
                    pts      = new CPTStype();
                    pts.mc   = RC;
                    pts.mx   = ex;
                    pts.my   = ey;
                    pts.mz   = ez;
                    lab.Tag  = pts;
                    lab.ToStream(fp2);
                    chainage_points.Add(pts); // Store Chainage Points

                    sc = RC;
                    sx = ex;
                    sy = ey;
                    sz = ez;
                    B1 = B2;

                    ind = 1;
                    continue;
                }


                if (ex == sx && ey == sy)
                {
                    continue;
                }

                tt = string.Format("{0:f0}", inc);//sprintf(tt,"%.0f", inc);

                len = tt.Length;

                RCI  = RC;
                num  = Math.Pow(10, len);
                RCI  = RCI / num;
                ival = (int)RCI;
                RCI  = ival * num;
                while (RCI < RC)
                {
                    RCI += inc;
                }
                RC = RCI;

                if (RC == sc)
                {
                    RC += inc;  /* NEW */
                }
                determine_bearing();

                seglen = Math.Sqrt((ex - sx) * (ex - sx) + (ey - sy) * (ey - sy));      /* NEW */

                segend = sc + seglen;                                                   /* NEW */


                val = Math.Abs(RC - segend);/* fabs will be abs in VC++*/
                if (val < 0.001)
                {
                    segend = RC;
                }

                sc = RC;
                sx = ex;
                sy = ey;
                sz = ez;
                B1 = B2;

                ind = 1;
            }// end for previously while

            fp2.Close();

            csTemp      = Path.Combine(this.AppDataPath, "MODEL.LST");
            fp2         = new BinaryWriter(new FileStream(csTemp, FileMode.Append), Encoding.Default);
            lst         = new ClSTtype();
            lst.strMod1 = modnam;
            lst.strStg  = stglbl;
            lst.ToStream(fp2);
            fp2.Close();
        }