void Convert(vtString &fname_in, vtString &fname_out, bool bGZip) { // Add extension, if not present if (bGZip) { if (fname_out.Right(6).CompareNoCase(".bt.gz")) fname_out += ".bt.gz"; } else { if (fname_out.Right(3).CompareNoCase(".bt")) fname_out += ".bt"; } vtElevationGrid grid; if (grid.LoadFromFile(fname_in)) { if (grid.SaveToBT(fname_out, NULL, bGZip)) { int col, row; grid.GetDimensions(col, row); printf("Successfully wrote elevation, grid size %d x %d.\n", col, row); } else printf("Failed to write output file.\n"); } else { printf("Failed to read elevation data from %s\n", (const char *) fname_in); } }
void WriteString(FILE *fp, const vtString &str) { short len = (short) str.GetLength(); fwrite(&len, 2, 1, fp); const char *buf = (const char *)str; fwrite(buf, len, 1, fp); }
bool vtTin::ReadADF(const char *fname, bool progress_callback(int)) { const vtString tnxy_name = fname; if (tnxy_name.Right(6) != "xy.adf") return false; vtString base = tnxy_name.Left(tnxy_name.GetLength()-6); vtString tnz_name = base + "z.adf"; vtString tnod_name = base + "od.adf"; FILE *fp1 = vtFileOpen(tnxy_name, "rb"); FILE *fp2 = vtFileOpen(tnz_name, "rb"); FILE *fp3 = vtFileOpen(tnod_name, "rb"); if (!fp1 || !fp2 || !fp3) return false; fseek(fp1, 0, SEEK_END); const int length_xy = ftell(fp1); rewind(fp1); // go back again uint num_points = length_xy / 16; // X and Y, each 8 byte doubles fseek(fp2, 0, SEEK_END); const int length_z = ftell(fp2); rewind(fp2); // go back again uint num_heights = length_z / 4; // Z is a 4 byte float DPoint2 p; float z; for (uint i = 0; i < num_points; i++) { if ((i%200) == 0 && progress_callback != NULL) progress_callback(i * 40 / num_points); FRead(&p.x, DT_DOUBLE, 2, fp1, BO_BIG_ENDIAN, BO_LITTLE_ENDIAN); FRead(&z, DT_FLOAT, 1, fp2, BO_BIG_ENDIAN, BO_LITTLE_ENDIAN); AddVert(p, z); } fseek(fp3, 0, SEEK_END); const int length_od = ftell(fp3); rewind(fp3); // go back again const uint num_faces = length_od / 12; // A B C as 4-byte ints int v[3]; for (uint i = 0; i < num_faces; i++) { if ((i%200) == 0 && progress_callback != NULL) progress_callback(40 + i * 40 / num_faces); FRead(v, DT_INT, 3, fp3, BO_BIG_ENDIAN, BO_LITTLE_ENDIAN); AddTri(v[0]-1, v[1]-1, v[2]-1); } fclose(fp1); fclose(fp2); fclose(fp3); // Cleanup: the ESRI TIN contains four "boundary" point far outside the // extents (directly North, South, East, and West). We should ignore // those four points and the triangles connected to them. // It seems we can assume the four 'extra' vertices are the first four. m_vert.RemoveAt(0, 4); m_z.erase(m_z.begin(), m_z.begin() + 4); m_vert_normal.RemoveAt(0, 4); // Re-index the triangles uint total = m_tri.size()/3; for (uint i = 0; i < total; i++) { if ((i%200) == 0 && progress_callback != NULL) progress_callback(80 + i * 20 / total); // Remove any triangles which referenced this vertex if (m_tri[i*3 + 0] < 4 || m_tri[i*3 + 1] < 4 || m_tri[i*3 + 2] < 4) { m_tri.erase(m_tri.begin() + i*3, m_tri.begin() + i*3 + 3); i--; total--; continue; } } // For all other triangles, adjust the indices to reflect the removal for (uint i = 0; i < m_tri.size(); i++) m_tri[i] = m_tri[i] - 4; // Test each triangle for clockwisdom, fix if needed CleanupClockwisdom(); ComputeExtents(); return true; }
// // Helper Function: Convert all accented characters to unaccented. // vtString RemoveAccents(const vtString &strInput) { vtString strOutput = ""; int len = strInput.GetLength(); for (int i = 0; i < len; i++) { uchar ch = (uchar) strInput.GetAt(i); switch (ch) { // do conversion from "ANSI western europe" character set case 0xc0: // '�' case 0xc1: // '�': case 0xc2: // '�': case 0xc3: // '�': case 0xc4: // '�': case 0xc5: // '�': strOutput += 'A'; break; case 0xc7: // '�': strOutput += 'C'; break; case 0xc8: // '�': case 0xc9: // '�': case 0xca: // '�': case 0xcb: // '�': strOutput += 'E'; break; case 0xcc: // '�': case 0xcd: // '�': case 0xce: // '�': case 0xcf: // '�': strOutput += 'I'; break; case 0xd0: // '�': strOutput += 'D'; break; case 0xd1: // '�': strOutput += 'N'; break; case 0xd2: // '�': case 0xd3: // '�': case 0xd4: // '�': case 0xd5: // '�': case 0xd6: // '�': case 0xd8: // '�': strOutput += 'O'; break; case 0xd9: // '�': case 0xda: // '�': case 0xdb: // '�': case 0xdc: // '�': strOutput += 'U'; break; case 0xdd: // '�': strOutput += 'Y'; break; case 0xdf: // '�': strOutput += 's'; // NOTE: converts to 'ss' strOutput += 's'; break; case 0xe0: // '�': case 0xe1: // '�': case 0xe2: // '�': case 0xe3: // '�': case 0xe4: // '�': case 0xe5: // '�': strOutput += 'a'; break; case 0xe7: // '�': strOutput += 'c'; break; case 0xe8: // '�': case 0xe9: // '�': case 0xea: // '�': case 0xeb: // '�': strOutput += 'e'; break; case 0xec: // '�': case 0xed: // '�': case 0xee: // '�': case 0xef: // '�': strOutput += 'i'; break; case 0xf1: // '�': strOutput += 'n'; break; case 0xf2: // '�': case 0xf3: // '�': case 0xf4: // '�': case 0xf5: // '�': case 0xf6: // '�': case 0xf8: // '�': strOutput += 'o'; break; case 0xf9: // '�': case 0xfa: // '�': case 0xfb: // '�': case 0xfc: // '�': strOutput += 'u'; break; case 0xfd: // '�': case 0xff: // '�': strOutput += 'y'; break; // Also do conversion from old DOS character set - fortunately, they // (surprisingly) don't overlap with ANSI accented characters. case 0x83: // '�' (ANSI '�') case 0x84: // '�' (ANSI '�') case 0x85: // '�' (ANSI '�') case 0x86: // '�' (ANSI '�') case 0xa0: // '�' (ANSI '�') strOutput += 'a'; break; case 0x8b: // '�' (ANSI '�') case 0x8c: // '�' (ANSI '�') case 0x8d: // '�' (ANSI '�') case 0xa1: // '�' (ANSI '�') strOutput += 'i'; break; case 0x81: // '�' (ANSI '�') case 0x96: // '�' (ANSI '�') case 0x97: // '�' (ANSI '�') case 0xa3: // '�' (ANSI '�') strOutput += 'u'; break; case 0x82: // '�' (ANSI '�') case 0x88: // '�' (ANSI '�') case 0x89: // '�' (ANSI '�') case 0x8a: // '�' (ANSI '�') strOutput += 'e'; break; case 0x93: // '�' (ANSI '�') case 0x94: // '�' (ANSI '�') case 0x95: // '�' (ANSI '�') case 0xa2: // '�' (ANSI '�') strOutput += 'o'; break; case 0x8e: // '�' (ANSI '�') case 0x8f: // '�' (ANSI '�') strOutput += 'A'; break; case 0x9a: // '�' (ANSI '�') strOutput += 'U'; break; case 0x90: // '�' (ANSI '�') strOutput += 'E'; break; case 0x99: // '�' (ANSI '�') strOutput += 'O'; break; case 0x87: // '�' (ANSI '�') strOutput += 'c'; break; case 0x80: // '�' (ANSI '�') strOutput += 'C'; break; case 0x98: // '�' (ANSI '�') strOutput += 'y'; break; case 0xa4: // '�' (ANSI '�') strOutput += 'n'; break; case 0xa5: // '�' (ANSI '�') strOutput += 'N'; break; default: strOutput += ch; } } return strOutput; }
bool Gazetteer::FindPlace(const vtString &state, const vtString &place_org, DPoint2 &geo) { vtString place = place_org; if (!place.CompareNoCase("Saint Paul")) place = "St. Paul"; if (!place.CompareNoCase("Essex Jct.")) place = "Essex Junction"; if (!place.CompareNoCase("Boise")) place = "Boise City"; if (!place.CompareNoCase("Moon Township")) place = "Carnot-Moon"; if (!place.CompareNoCase("Brick")) // New Jersey place = "Laurelton"; if (!place.CompareNoCase("Point Mugu")) // California place = "Port Hueneme"; // nearest town if (!place.CompareNoCase("N. Massapequa")) place = "North Massapequa"; if (!place.CompareNoCase("Clinton Township")) place = "Clinton"; if (!place.CompareNoCase("Ft. Rucker")) place = "Fort Rucker"; if (!place.CompareNoCase("Ft. Knox")) place = "Fort Know"; if (!place.CompareNoCase("Tampa Bay")) place = "Tampa"; if (!place.CompareNoCase("Ft. Lauderdale")) place = "Fort Lauderdale"; if (!state.Compare("GA") && !place.CompareNoCase("Augusta")) place = "Augusta-Richmond County"; if (!state.Compare("CA") && !place.CompareNoCase("Paso Robles")) place = "El Paso de Robles (Paso Robles)"; if (!place.CompareNoCase("Urbana/Champaign")) place = "Urbana"; if (!state.Compare("ME") && !place.CompareNoCase("Rockport")) place = "Camden"; // closest known town if (!state.Compare("CA") && !place.CompareNoCase("Cardiff-by-the-sea")) place = "Encinitas"; // closest known town if (!state.Compare("UT") && !place.CompareNoCase("Salt Lake")) place = "Salt Lake City"; if (!state.Compare("MA") && !place.CompareNoCase("Littleton")) place = "Littleton Common"; // Some missing places: // Valley, WA // Brooklyn, NY // Long Island City, NY // Redstone, CO // La Jolla, CA (neighboorhood of San Diego) // Littleton, MA // Saunderstown, RI // Ashburn, VA (speck outside DC) for (uint i = 0; i < m_places.size(); i++) { const Place &p = m_places[i]; if (p.m_state.Compare(state) == 0 && p.m_name.CompareNoCase(place) == 0) { geo = p.geo; return true; } } return false; }