CFITSIO is built as an accessible library of C and Fortran subroutines for reading and writing data files in FITS (Flexible Image Transport System) data format. CFITSIO provides simple high-level routines for reading and writing FITS files that insulate the programmer from the internal complexities of the FITS format. CFITSIO also provides many advanced features for manipulating and filtering the information in FITS files. A set of Fortran-callable wrapper routines are also included for the convenience of Fortran programmers. CFITSIO will probably run on most other Unix platforms without modification. Cray supercomputers and IBM mainframe computers are currently not supported.
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CFITSIO Cracked Version provides functions for reading and writing FITS and FITS3 data files. FITS is a standard file format used in astronomy. CFITSIO is designed to be accessed through C or C++ programs and interacts with the rest of the FITS library and compiler-support facilities. The basic task of CFITSIO is to convert user FITS data files into and from a internally consistent binary file format. The CFITSIO library is written in C and can be used with the C-callable functions provided by the FITS package. The library is distributed as a collection of C source files, each in the package directory. It includes a file description of the format and an implementation of several standard FITS readers and writers. CFITSIO is a stand-alone library and will not be compiled as part of the FITS package. CFITSIO has a number of features. These are described in the manual, which can be downloaded from the CFITS IO web page. These features include: FITS support: Advanced FITS support for reading and writing. Units support: Unit-based reading, writing, and conversion of specified units. Format support: Support for input and output of most FITS file formats. Properties support: Support for reading and writing of most properties. Writing support: Support for most writing operations. Fits file format description: This document describes the format of the CFITSIO library. It explains which supported formats are read and written by the library. There are detailed descriptions of many CFITSIO-supported readers and writers. Units support: This section describes the units support provided by CFITSIO. The documentation on each format includes information about the units this format has. Format support: This section describes the CFITSIO support for various FITS file formats. Each format is supported in several major versions. CFITSIO includes documentation that describes how to deal with formats and version differences. Properties support: This section describes the properties supported by CFITSIO, including information on the FITS Properties File Format. Writing support: This section describes the writing support provided by CFITSIO. This is what enables CFITSIO to read and write FITS files. Other functions: Functions that aren’t described in the main documentation. Optional Features: These are optional features that don’t appear in the documentation in the main document but
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CFITSIO is distributed as a set of subroutines written in C and Fortran, that implements the FITS standard for transport of multipurpose image and spectral data files and data cubes. A FITS data cube is a 3D array of data cubes, made up of one or more intensity scales, grouped in a rectangular arrangement. CFITSIO subroutines are provided for most of the common operations that may be performed on FITS images and data cubes. The file format is described in the documentation for FITS, and the following are only a general description of the low level operations that CFITSIO provides. The documentation for each subroutine is in the appropriate directory, `doc’. Reading FITS Data CFITSIO provides many different interfaces for reading FITS files. The most basic interface reads a file as a whole, and produces scalar arrays of data corresponding to the observed quantities and/or the pixel locations in the image. The ReadImage command returns arrays corresponding to all observed quantities, for each pixel location in the file. The next level of interface is the ReadTable command, which reads only a single table of scalar data. There is also a ReadBinTable command for reading a headerless binary table, followed by the ReadBinSeq and ReadBinAry interfaces for reading a headerless column-array and row-array, respectively. It is important to understand that a column-array is a sparse form of a row-array, in that the number of bins per column is much smaller than the number of pixels in the image. In ReadTable, the number of pixels for which data is returned is specified as a single number, which is subdivided into images of the desired size. The data may be returned as an array of integers or, as required by the FITS standard, as a single floating point number (`F8.1′ in FITS) for each pixel location. There are also two interfaces, ReadHdu and ReadHduList, for reading headerless HDU’s. The FITS standard defines a header for data files, which consists of two header blocks. The first block contains a number of metadata parameters, and the second contains the data itself. CFITSIO provides routines for reading each of these blocks, 2f7fe94e24
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CFITSIO is a library of high-level routines that can be used to read data from and write data to files in the FITS format. This handles most of the complexities that arise when reading and writing data in the FITS format. CFITSIO is designed to allow the user to treat FITS data as a stream of bytes, which makes it an ideal format for dealing with large amounts of data on the disk or over a network line. FITS provides a means to encapsulate the data into a collection of fields, each of which represents an easily accessible collection of data. CFITSIO is also designed to make it easy to deal with multi-dimensional data. For example, it is possible to provide a single data value for each row (image) and a different data value for each column (exposure) in a two-dimensional image. CFITSIO will operate on any format supported by FITSIO. However, the library’s primary targets are as follows: * Extensive support for the 3.9 version of FITS * Support for the static binary-only (compressed) FITS file format * Support for the static binary-only (uncompressed) FITS file format * On-disk image support using the HFFITS interface * On-disk image support using the BFFITS interface * Extension support for other formats that will be added to FITSIO as needed. In addition to supporting FITS files in their native format, CFITSIO also provides support for some additional file formats: * Supports ASCII based text files with header information. (See TextInput/TextOutput) * Supports ASCII based text files with header information. (See TextInput/TextOutput) * Supports data files based on the data model provided by the FITS Level2 Service. (See I3D10) * Supports ASCII based binary files that have a standard shape. (See BinaryInput/BinaryOutput) * Supports ASCII based binary files that have a standard shape. (See BinaryInput/BinaryOutput) * Supports ASCII based binary files that are in a compressed format. (See BinaryInput/BinaryOutput) * Supports ASCII based binary files that are in a compressed format. (See BinaryInput/BinaryOutput) * Supports ASCII based binary files with a standard shape. (See BinaryInput/BinaryOutput) * Supports ASCII based binary
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CFITSIO is designed for use in astronomical data reduction applications, especially in those situations where a data stream with a moderate volume of data and the FITS files for both images and spectral data are to be read and/or written. CFITSIO is also useful when one needs to access, read, and write various types of FITS data files in an object oriented programming environment and is available in C, FORTRAN, C++ and Java programming languages. Although CFITSIO supports many different FITS data file types, its design focus is on the following: a. mapping of data and dimension values into CFITS format, b. handling arrays of data including pixel offset tables, c. manipulation of individual columns of data into arrays, d. fast reading of input data files, e. fast writing of output files, f. convenient use of disk files. CFITSIO is a library of subroutines which can be called from other software code in the following ways: calling routines from C language. calling routines from Fortran language. Wrapper routine for calling CFITSIO routines from Fortran. The FITS file format is described in detail in the documentation of the FITS standard in the Readme file that accompanies this documentation. be upon so puny a thing? With the question of what is reprehensible in certain acts of sexual violence, I am struck by how those who commit such acts are often civilized and educated, able to handle the world. But even if those who commit these acts are fully aware of the impulses that led to them, there remain the impulses themselves, which are, in turn, derivatives of the human condition, and not something to be ashamed of. This reminds me of a truly wonderful sentence in a review of the latest mystery, in which the reviewer notes that the murder in the book takes place in the middle of the night and consists of two people in a room using whatever weapons they have. Yes, writes Bryan Davis, and that is what is so special about this novel. “The lines are more richly drawn and the conflicts more nuanced than in a story about a serial murderer.” In many ways, the case at hand may be the most interesting, because it deals with the question of why these guys got caught; and there is a little sex to it, but what I find most compelling about it is how the author brings into focus the true nature of the political conflict.
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