#------------------------------------------------------------------------------ # $File: scientific,v 1.10 2015/08/24 05:18:55 christos Exp $ # scientific: file(1) magic for scientific formats # # From: Joe Krahn ######################################################## # CCP4 data and plot files: 0 string MTZ\040 MTZ reflection file 92 string PLOT%%84 Plot84 plotting file >52 byte 1 , Little-endian >55 byte 1 , Big-endian ######################################################## # Electron density MAP/MASK formats 0 string EZD_MAP NEWEZD Electron Density Map 109 string MAP\040( Old EZD Electron Density Map 0 string/c :-)\040Origin BRIX Electron Density Map >170 string >0 , Sigma:%.12s #>4 string >0 %.178s #>4 addr x %.178s 7 string 18\040!NTITLE XPLOR ASCII Electron Density Map 9 string \040!NTITLE\012\040REMARK CNS ASCII electron density map 208 string MAP\040 CCP4 Electron Density Map # Assumes same stamp for float and double (normal case) >212 byte 17 \b, Big-endian >212 byte 34 \b, VAX format >212 byte 68 \b, Little-endian >212 byte 85 \b, Convex native ############################################################ # X-Ray Area Detector images 0 string R-AXIS4\ \ \ R-Axis Area Detector Image: >796 lelong <20 Little-endian, IP #%d, >>768 lelong >0 Size=%dx >>772 lelong >0 \b%d >796 belong <20 Big-endian, IP #%d, >>768 belong >0 Size=%dx >>772 belong >0 \b%d 0 string RAXIS\ \ \ \ \ R-Axis Area Detector Image, Win32: >796 lelong <20 Little-endian, IP #%d, >>768 lelong >0 Size=%dx >>772 lelong >0 \b%d >796 belong <20 Big-endian, IP #%d, >>768 belong >0 Size=%dx >>772 belong >0 \b%d 1028 string MMX\000\000\000\000\000\000\000\000\000\000\000\000\000 MAR Area Detector Image, >1072 ulong >1 Compressed(%d), >1100 ulong >1 %d headers, >1104 ulong >0 %d x >1108 ulong >0 %d, >1120 ulong >0 %d bits/pixel # Type: GEDCOM genealogical (family history) data # From: Giuseppe Bilotta 0 search/1/c 0\ HEAD GEDCOM genealogy text >&0 search 1\ GEDC >>&0 search 2\ VERS version >>>&1 string >\0 %s # From: Phil Endecott 0 string \000\060\000\040\000\110\000\105\000\101\000\104 GEDCOM data 0 string \060\000\040\000\110\000\105\000\101\000\104\000 GEDCOM data 0 string \376\377\000\060\000\040\000\110\000\105\000\101\000\104 GEDCOM data 0 string \377\376\060\000\040\000\110\000\105\000\101\000\104\000 GEDCOM data # PDB: Protein Data Bank files # Adam Buchbinder # # http://www.wwpdb.org/documentation/format32/sect2.html # http://www.ch.ic.ac.uk/chemime/ # # The PDB file format is fixed-field, 80 columns. From the spec: # # COLS DATA # 1 - 6 "HEADER" # 11 - 50 String(40) # 51 - 59 Date # 63 - 66 IDcode # # Thus, positions 7-10, 60-62 and 67-80 are spaces. The Date must be in the # format DD-MMM-YY, e.g., 01-JAN-70, and the IDcode consists of numbers and # uppercase letters. However, examples have been seen without the date string, # e.g., the example on the chemime site. 0 string HEADER\ \ \ \ >&0 regex/1l \^.{40} >>&0 regex/1l [0-9]{2}-[A-Z]{3}-[0-9]{2}\ {3} >>>&0 regex/1ls [A-Z0-9]{4}.{14}$ >>>>&0 regex/1l [A-Z0-9]{4} Protein Data Bank data, ID Code %s !:mime chemical/x-pdb >>>>0 regex/1l [0-9]{2}-[A-Z]{3}-[0-9]{2} \b, %s # Type: GDSII Stream file 0 belong 0x00060002 GDSII Stream file >4 byte 0x00 >>5 byte x version %d.0 >4 byte >0x00 version %d >>5 byte x \b.%d # Type: LXT (interLaced eXtensible Trace) # chrysn 0 beshort 0x0138 interLaced eXtensible Trace (LXT) file >2 beshort >0 (Version %u)