コード例 #1
0
ファイル: lasreader_mex.c プロジェクト: joa-quim/mirone
/* ---------------------------------------------------------------------------------- */
void print_header(LASHeaderH header, int bSkipVLR) {

    char *pszSignature = NULL;
    char *pszProjectId = NULL;
    char *pszSystemId = NULL;
    char *pszSoftwareId = NULL;
    /*char *pszProj4 = NULL;*/
    
    char *pszVLRUser = NULL;
    char *pszVLRDescription = NULL;
    uint16_t nVLRLength = 0;
    uint16_t nVLRRecordId = 0;
    
    LASVLRH pVLR = NULL;
    LASSRSH pSRS = NULL;
    uint32_t nVLR = 0;
    int i = 0;

#ifdef HAVE_GEOTIFF
    const GTIF* pGTIF = NULL;
#else
    const void* pGTIF = NULL;
#endif    

    pszSignature = LASHeader_GetFileSignature(header);
    pszProjectId = LASHeader_GetProjectId(header);
    pszSystemId = LASHeader_GetSystemId(header);
    pszSoftwareId = LASHeader_GetSoftwareId(header);
    
    pSRS = LASHeader_GetSRS(header);
    /*pszProj4 = LASSRS_GetProj4(pSRS);*/
    pGTIF = LASSRS_GetGTIF(pSRS);
    
    nVLR = LASHeader_GetRecordsCount(header);
 
    mexPrintf("\n---------------------------------------------------------\n");
    mexPrintf("  Header Summary\n");
    mexPrintf("---------------------------------------------------------\n");

    if (strcmp(pszSignature,"LASF") !=0) {
        LASError_Print("File signature is not 'LASF'... aborting");
        return;
    }
    mexPrintf("  Version:                    %d.%d\n", 
                    LASHeader_GetVersionMajor(header), LASHeader_GetVersionMinor(header));

    mexPrintf("  Source ID:                  %d\n", LASHeader_GetFileSourceId(header) ) ;
    mexPrintf("  Reserved:                   %d\n", LASHeader_GetReserved(header) );
    mexPrintf("  Project ID/GUID:           '%s'\n", pszProjectId);
    mexPrintf("  System Identifier:         '%s'\n", pszSystemId);
    mexPrintf("  Generating Software:       '%s'\n", pszSoftwareId);
    mexPrintf("  File Creation Day/Year:    %d/%d\n", 
                    LASHeader_GetCreationDOY(header), LASHeader_GetCreationYear(header));

    mexPrintf("  Header Size                %d\n", LASHeader_GetHeaderSize(header));
    mexPrintf("  Offset to Point Data       %d\n", LASHeader_GetDataOffset(header));
    mexPrintf("  Number Var. Length Records %d\n", LASHeader_GetRecordsCount(header));
    mexPrintf("  Point Data Format          %d\n", LASHeader_GetDataFormatId(header));
    mexPrintf("  Point Data Record Length   %d\n", LASHeader_GetDataRecordLength(header));
    mexPrintf("  Number of Point Records    %d\n", LASHeader_GetPointRecordsCount(header));
    mexPrintf("  Number of Points by Return %d %d %d %d %d\n", 
                    LASHeader_GetPointRecordsByReturnCount(header, 0), 
                    LASHeader_GetPointRecordsByReturnCount(header, 1), 
                    LASHeader_GetPointRecordsByReturnCount(header, 2), 
                    LASHeader_GetPointRecordsByReturnCount(header, 3), 
                    LASHeader_GetPointRecordsByReturnCount(header, 4));

    mexPrintf("  Scale Factor X Y Z         %.6g %.6g %.6g\n", 
                    LASHeader_GetScaleX(header), 
                    LASHeader_GetScaleY(header),
                    LASHeader_GetScaleZ(header));

    mexPrintf("  Offset X Y Z               %.6f %.6f %.6f\n", 
                    LASHeader_GetOffsetX(header), 
                    LASHeader_GetOffsetY(header), 
                    LASHeader_GetOffsetZ(header));

    mexPrintf("  Min X Y Z                  %.6f %.6f %.6f\n",
                    LASHeader_GetMinX(header), 
                    LASHeader_GetMinY(header), 
                    LASHeader_GetMinZ(header));

    mexPrintf("  Max X Y Z                  %.6f %.6f %.6f\n", 
                    LASHeader_GetMaxX(header), 
                    LASHeader_GetMaxY(header), 
                    LASHeader_GetMaxZ(header));
    
    /*mexPrintf(" Spatial Reference           %s\n", pszProj4);*/
#ifdef HAVE_LIBGEOTIFF
    if (pGTIF) GTIFPrint((GTIF*)pGTIF, 0, 0);
#endif
    if (nVLR && !bSkipVLR) {
        
    mexPrintf("\n---------------------------------------------------------\n");
    mexPrintf("  VLR Summary\n");
    mexPrintf("---------------------------------------------------------\n");

        for (i = 0; i < (int)nVLR; i++) {
            pVLR = LASHeader_GetVLR(header, i);

            if (LASError_GetLastErrorNum()) {
                LASError_Print("Unable to fetch VLR");
                return;
            }
            
            pszVLRUser = LASVLR_GetUserId(pVLR);
            pszVLRDescription = LASVLR_GetDescription(pVLR);
            nVLRLength = LASVLR_GetRecordLength(pVLR);
            nVLRRecordId = LASVLR_GetRecordId(pVLR);
            
            mexPrintf("   User: '******' - Description: '%s'\n", pszVLRUser, pszVLRDescription);
            mexPrintf("   ID: %d Length: %d\n\n", nVLRRecordId, nVLRLength);
            
            LASVLR_Destroy(pVLR);
            pVLR = NULL;
            
            LASString_Free(pszVLRUser);
            LASString_Free(pszVLRDescription);
        }
        
    }
    LASString_Free(pszSignature);
    LASString_Free(pszProjectId);
    LASString_Free(pszSystemId);
    LASString_Free(pszSoftwareId);
    /*LASString_Free(pszProj4);*/
}
コード例 #2
0
ファイル: info.c プロジェクト: rashadkm/grass_cmake
void print_lasinfo(LASHeaderH LAS_header, LASSRSH LAS_srs)
{
    char *las_srs_proj4 = LASSRS_GetProj4(LAS_srs);
    int las_point_format = LASHeader_GetDataFormatId(LAS_header);

    fprintf(stdout, "\nUsing LAS Library Version '%s'\n\n",
            LAS_GetFullVersion());
    fprintf(stdout, "LAS File Version:                  %d.%d\n",
            LASHeader_GetVersionMajor(LAS_header),
            LASHeader_GetVersionMinor(LAS_header));
    fprintf(stdout, "System ID:                         '%s'\n",
            LASHeader_GetSystemId(LAS_header));
    fprintf(stdout, "Generating Software:               '%s'\n",
            LASHeader_GetSoftwareId(LAS_header));
    fprintf(stdout, "File Creation Day/Year:            %d/%d\n",
            LASHeader_GetCreationDOY(LAS_header),
            LASHeader_GetCreationYear(LAS_header));
    fprintf(stdout, "Point Data Format:                 %d\n",
            las_point_format);
    fprintf(stdout, "Number of Point Records:           %d\n",
            LASHeader_GetPointRecordsCount(LAS_header));
    fprintf(stdout, "Number of Points by Return:        %d %d %d %d %d\n",
            LASHeader_GetPointRecordsByReturnCount(LAS_header, 0),
            LASHeader_GetPointRecordsByReturnCount(LAS_header, 1),
            LASHeader_GetPointRecordsByReturnCount(LAS_header, 2),
            LASHeader_GetPointRecordsByReturnCount(LAS_header, 3),
            LASHeader_GetPointRecordsByReturnCount(LAS_header, 4));
    fprintf(stdout, "Scale Factor X Y Z:                %g %g %g\n",
            LASHeader_GetScaleX(LAS_header),
            LASHeader_GetScaleY(LAS_header), LASHeader_GetScaleZ(LAS_header));
    fprintf(stdout, "Offset X Y Z:                      %g %g %g\n",
            LASHeader_GetOffsetX(LAS_header),
            LASHeader_GetOffsetY(LAS_header),
            LASHeader_GetOffsetZ(LAS_header));
    fprintf(stdout, "Min X Y Z:                         %g %g %g\n",
            LASHeader_GetMinX(LAS_header),
            LASHeader_GetMinY(LAS_header), LASHeader_GetMinZ(LAS_header));
    fprintf(stdout, "Max X Y Z:                         %g %g %g\n",
            LASHeader_GetMaxX(LAS_header),
            LASHeader_GetMaxY(LAS_header), LASHeader_GetMaxZ(LAS_header));
    if (las_srs_proj4 && strlen(las_srs_proj4) > 0) {
        fprintf(stdout, "Spatial Reference:\n");
        fprintf(stdout, "%s\n", las_srs_proj4);
    }
    else {
        fprintf(stdout, "Spatial Reference:                 None\n");
    }

    fprintf(stdout, "\nData Fields:\n");
    fprintf(stdout,
            "  'X'\n  'Y'\n  'Z'\n  'Intensity'\n  'Return Number'\n");
    fprintf(stdout, "  'Number of Returns'\n  'Scan Direction'\n");
    fprintf(stdout,
            "  'Flighline Edge'\n  'Classification'\n  'Scan Angle Rank'\n");
    fprintf(stdout, "  'User Data'\n  'Point Source ID'\n");
    if (las_point_format == 1 || las_point_format == 3 ||
        las_point_format == 4 || las_point_format == 5) {
        fprintf(stdout, "  'GPS Time'\n");
    }
    if (las_point_format == 2 || las_point_format == 3 ||
        las_point_format == 5) {
        fprintf(stdout, "  'Red'\n  'Green'\n  'Blue'\n");
    }
    fprintf(stdout, "\n");
    fflush(stdout);

    return;
}
コード例 #3
0
ファイル: las2txt.c プロジェクト: libLAS/libLAS-1.2
int main(int argc, char *argv[])
{
    int i;
    int use_stdin = FALSE;
    int use_stdout = FALSE;
    int skip_invalid = FALSE;

    int verbose = FALSE;
    char* file_name_in = 0;
    char* file_name_out = 0;
    char separator_sign = ' ';
    char header_comment_sign = '\0';
    char* parse_string = "xyz";
    char printstring[256];
    LASReaderH reader = NULL;
    LASHeaderH header = NULL;
    LASPointH p = NULL;
    FILE* file_out = NULL;
    int len;
    
    uint32_t index = 0;
    
    for (i = 1; i < argc; i++)
    {
        if (    strcmp(argv[i],"-h") == 0 ||
                strcmp(argv[i],"--help") == 0
            )
        {
            usage();
            exit(0);
        }
        else if (   strcmp(argv[i],"-v") == 0 ||
                    strcmp(argv[i],"--verbose") == 0
            )
        {
            verbose = TRUE;
        }
        else if (   strcmp(argv[i],"-s") == 0 ||
                    strcmp(argv[i],"--skip_invalid") == 0
            )
        {
            skip_invalid = TRUE;
        }   
        else if (   strcmp(argv[i], "--parse") == 0 ||
                    strcmp(argv[i], "-parse") == 0 
                )
        {
            i++;
            parse_string = argv[i];
        }
        else if (   strcmp(argv[i], "--sep") == 0 ||
                    strcmp(argv[i], "-sep") == 0 
                )
        {
            i++;

            if (strcmp(argv[i],"komma") == 0)
            {
                separator_sign = ',';
            }
            else if (strcmp(argv[i],"tab") == 0)
            {
                separator_sign = '\t';
            }
            else if (   strcmp(argv[i],"dot") == 0 || 
                        strcmp(argv[i],"period") == 0
                    )
            {
                separator_sign = '.';
            }
            else if (strcmp(argv[i],"colon") == 0)
            {
                separator_sign = ':';
            }
            else if (   strcmp(argv[i],"scolon") == 0 || 
                        strcmp(argv[i],"semicolon") == 0
                    )
            {
                separator_sign = ';';
            }
            else if (   strcmp(argv[i],"hyphen") == 0 || 
                        strcmp(argv[i],"minus") == 0
                    )
            {
                separator_sign = '-';
            }
            else if (strcmp(argv[i],"space") == 0)
            {
                separator_sign = ' ';
            }
            else
            {
                fprintf(stderr, "ERROR: unknown seperator '%s'\n",argv[i]);
                usage();
                exit(1);
            }
        }
        else if (   strcmp(argv[i], "--header") == 0            || 
                    strcmp(argv[i], "--comment") == 0           || 
                    strcmp(argv[i], "-header") == 0             || 
                    strcmp(argv[i], "-comment") == 0            || 
                    strcmp(argv[i], "-head") == 0  
                )
        {
            i++;
            if (strcmp(argv[i],"komma") == 0)
            {
                header_comment_sign = ',';
            }
            else if (strcmp(argv[i],"colon") == 0)
            {
                header_comment_sign = ':';
            }
            else if (   strcmp(argv[i],"scolon") == 0 || 
                        strcmp(argv[i],"semicolon") == 0
                    )
            {
                header_comment_sign = ';';
            }
            else if (   strcmp(argv[i],"pound") == 0 || 
                        strcmp(argv[i],"hash") == 0
                    )
            {
                header_comment_sign = '#';
            }
            else if (strcmp(argv[i],"percent") == 0)
            {
                header_comment_sign = '%';
            }
            else if (strcmp(argv[i],"dollar") == 0)
            {
                header_comment_sign = '$';
            }
            else if (strcmp(argv[i],"star") == 0)
            {
                header_comment_sign = '*';
            }
            else
            {
                fprintf(stderr, "ERROR: unknown comment symbol '%s'\n",argv[i]);
                usage();
                exit(1);
            }
        }
        else if (   strcmp(argv[i], "--stdin") == 0 ||
                    strcmp(argv[i], "-ilas") == 0
                ) 
        {
            use_stdin = TRUE;
        }
        else if (   strcmp(argv[i], "--stdout") == 0 
                ) 
        {
            use_stdout = TRUE;
        }
        else if (   strcmp(argv[i],"--input") == 0  ||
                    strcmp(argv[i],"-input") == 0   ||
                    strcmp(argv[i],"-i") == 0       ||
                    strcmp(argv[i],"-in") == 0
                )
        {
            i++;
            file_name_in = argv[i];
        }
        else if (   strcmp(argv[i],"--output") == 0  ||
                    strcmp(argv[i],"--out") == 0     ||
                    strcmp(argv[i],"-out") == 0     ||
                    strcmp(argv[i],"-o") == 0       
                )
        {
            i++;
            file_name_out = argv[i];
        }
        else if (i == argc - 2 && file_name_in == 0 && file_name_out == 0)
        {
            file_name_in = argv[i];
        }
        else if (i == argc - 1 && file_name_in == 0 && file_name_out == 0)
        {
            file_name_in = argv[i];
        }
        else if (i == argc - 1 && file_name_in && file_name_out == 0)
        {
            file_name_out = argv[i];
        }
        else 
        {
            fprintf(stderr, "ERROR: unknown argument '%s'\n",argv[i]);
            usage();
            exit(1);
        }
    } /* end looping through argc/argv */


    if (use_stdin) file_name_in = "stdin";
    reader = LASReader_Create(file_name_in);
    if (!reader) {
        LASError_Print("Unable to read file");
        exit(1); 
    } 
      
    header = LASReader_GetHeader(reader);
    if (!header) { 
        LASError_Print("Unable to fetch header for file");
        exit(1); 
    } 


  


    if (use_stdout)
    {
        file_out = stdout;
    }
    else
    {
        if (file_name_out == NULL)
        {
            if (file_name_in == NULL)
            {
                LASError_Print("No input filename was specified");
                usage();
                exit(1);
            }

            len = (int)strlen(file_name_in);
            file_name_out = strdup(file_name_in);
            if (file_name_out[len-3] == '.' && file_name_out[len-2] == 'g' && file_name_out[len-1] == 'z')
            {
                len = len - 4;
            }
            while (len > 0 && file_name_out[len] != '.')
            {
                len--;
            }
            file_name_out[len] = '.';
            file_name_out[len+1] = 't';
            file_name_out[len+2] = 'x';
            file_name_out[len+3] = 't';
            file_name_out[len+4] = '\0';
        }
        file_out = fopen(file_name_out, "w");

        if (file_out == 0)
        {
            LASError_Print("Could not open file for write");
            usage();
            exit(1);
        }
    }



    if (verbose)
    {
        print_header(stderr, header, file_name_in);
    }

    if (header_comment_sign)
    {

        fprintf(file_out, 
                "%c file signature:            '%s'\012", 
                header_comment_sign, 
                LASHeader_GetFileSignature(header)
                );
        fprintf(file_out, 
                "%c file source ID:            %d\012", 
                header_comment_sign, 
                LASHeader_GetFileSourceId(header)
                );
        fprintf(file_out, 
                "%c reserved:                  %d\012", 
                header_comment_sign, 
                LASHeader_GetReserved(header)
                );
        fprintf(file_out, 
                "%c project ID GUID:           %s\012", 
                header_comment_sign, 
                LASHeader_GetProjectId(header)
                );
        fprintf(file_out, 
                "%c version major.minor:       %d.%d\012", 
                header_comment_sign, 
                LASHeader_GetVersionMajor(header), 
                LASHeader_GetVersionMinor(header)
                );
        fprintf(file_out, 
                "%c system_identifier:         '%s'\012", 
                header_comment_sign, 
                LASHeader_GetSystemId(header)
                );
        fprintf(file_out, 
                "%c generating_software:       '%s'\012", 
                header_comment_sign, 
                LASHeader_GetSoftwareId(header)
                );
        fprintf(file_out,
                "%c file creation day/year:    %d/%d\012", 
                header_comment_sign, 
                LASHeader_GetCreationDOY(header), 
                LASHeader_GetCreationYear(header)
                );
        fprintf(file_out, 
                "%c header size                %d\012", 
                header_comment_sign, 
                LASHeader_GetHeaderSize(header)
                );
        fprintf(file_out, 
                "%c offset to point data       %d\012", 
                header_comment_sign, 
                LASHeader_GetDataOffset(header)
                );
        fprintf(file_out, 
                "%c number var. length records %d\012", 
                header_comment_sign, 
                LASHeader_GetRecordsCount(header)
                );
        fprintf(file_out, 
                "%c point data format          %d\012", 
                header_comment_sign, 
                LASHeader_GetDataFormatId(header)
                );
        fprintf(file_out, 
                "%c point data record length   %d\012", 
                header_comment_sign, 
                LASHeader_GetDataRecordLength(header)
                );
        fprintf(file_out,   
                "%c number of point records    %d\012", 
                header_comment_sign, 
                LASHeader_GetPointRecordsCount(header)
                );
        fprintf(file_out, 
                "%c number of points by return %d %d %d %d %d\012", 
                header_comment_sign, 
                LASHeader_GetPointRecordsByReturnCount(header, 0), 
                LASHeader_GetPointRecordsByReturnCount(header, 1), 
                LASHeader_GetPointRecordsByReturnCount(header, 2), 
                LASHeader_GetPointRecordsByReturnCount(header, 3), 
                LASHeader_GetPointRecordsByReturnCount(header, 4)
                );
        fprintf(file_out, 
                "%c  scale factor x y z         %.6f %.6f %.6f\n", 
                header_comment_sign, 
                LASHeader_GetScaleX(header), 
                LASHeader_GetScaleY(header), 
                LASHeader_GetScaleZ(header)
                );
        fprintf(file_out, 
                "%c  offset x y z               %.6f %.6f %.6f\n", 
                header_comment_sign, 
                LASHeader_GetOffsetX(header), 
                LASHeader_GetOffsetY(header), 
                LASHeader_GetOffsetZ(header)
                );
        fprintf(file_out, 
                "%c  min x y z                  %.6f %.6f %.6f\n", 
                header_comment_sign, 
                LASHeader_GetMinX(header), 
                LASHeader_GetMinY(header), 
                LASHeader_GetMinZ(header)
                );
        fprintf(file_out,   
                "%c  max x y z                  %.6f %.6f %.6f\n", 
                header_comment_sign, 
                LASHeader_GetMaxX(header), 
                LASHeader_GetMaxY(header), 
                LASHeader_GetMaxZ(header)
                );

    }



    p = LASReader_GetNextPoint(reader);
    while (p)
    {
        
        if (skip_invalid && !LASPoint_IsValid(p)) {
            if (verbose) {
                LASError_Print("Skipping writing invalid point...");
            }
            p = LASReader_GetNextPoint(reader);
            index -=1;
            continue;
        }
        
        i = 0;
        for (;;)
        {
            LASColorH color = LASPoint_GetColor(p);
            
            switch (parse_string[i])
            {
            /* // the x coordinate */      
            case 'x': 
                lidardouble2string(printstring, LASPoint_GetX(p)); fprintf(file_out, printstring);
                break;
            /* // the y coordinate */
            case 'y': 
                lidardouble2string(printstring, LASPoint_GetY(p)); fprintf(file_out, printstring);
                break;
            /* // the z coordinate */ 
            case 'z': 
                lidardouble2string(printstring, LASPoint_GetZ(p)); fprintf(file_out, printstring);
                break;
            /* // the gps-time */
            case 't': 
                lidardouble2string(printstring,LASPoint_GetTime(p)); fprintf(file_out, printstring);
                break;
            /* // the intensity */
            case 'i': 
                fprintf(file_out, "%d", LASPoint_GetIntensity(p));
                break;
            /* the scan angle */
            case 'a':
                fprintf(file_out, "%d", LASPoint_GetScanAngleRank(p));
                break;
            /* the number of the return */
            case 'r': 
                fprintf(file_out, "%d", LASPoint_GetReturnNumber(p));
                break;
            /* the classification */
            case 'c': 
                fprintf(file_out, "%d", LASPoint_GetClassification(p));
                break;
            /* the user data */
            case 'u': 
                fprintf(file_out, "%d", LASPoint_GetUserData(p));
                break;
            /* the number of returns of given pulse */
            case 'n': 
                fprintf(file_out, "%d", LASPoint_GetNumberOfReturns(p));
                break;
            /* the red channel color */
            case 'R': 
                fprintf(file_out, "%d", LASColor_GetRed(color));
                break;            
            /* the green channel color */
            case 'G': 
                fprintf(file_out, "%d", LASColor_GetGreen(color));
                break;            
            /* the blue channel color */
            case 'B': 
                fprintf(file_out, "%d", LASColor_GetBlue(color));
                break;            
            case 'M':
                fprintf(file_out, "%d", index);
                break;
/*
      case 'p': // the point source ID
        fprintf(file_out, "%d", lasreader->point.point_source_ID);
        break;
*/
   
            /* the edge of flight line flag */
            case 'e': 
                fprintf(file_out, "%d", LASPoint_GetFlightLineEdge(p));
                break;
            /* the direction of scan flag */
            case 'd': 
                fprintf(file_out, "%d", LASPoint_GetScanDirection(p));
                break;
            }
            i++;
            if (parse_string[i])
            {
                fprintf(file_out, "%c", separator_sign);
            }
            else
            {
                fprintf(file_out, "\012");
                break;
            }
            
            LASColor_Destroy(color);

        }
        
        p = LASReader_GetNextPoint(reader);
        index +=1;
    }


    LASReader_Destroy(reader);
    LASHeader_Destroy(header);



    fclose(file_out);

    return 0;
}