3166 lines
193 KiB
Fortran
3166 lines
193 KiB
Fortran
!> @ingroup Library
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!> @{
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!> @defgroup Lib_VTK_IOLibrary Lib_VTK_IO
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!> @}
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!> @ingroup Interface
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!> @{
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!> @defgroup Lib_VTK_IOInterface Lib_VTK_IO
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!> @}
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!> @ingroup PrivateVarPar
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!> @{
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!> @defgroup Lib_VTK_IOPrivateVarPar Lib_VTK_IO
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!> @}
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!> @ingroup PublicProcedure
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!> @{
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!> @defgroup Lib_VTK_IOPublicProcedure Lib_VTK_IO
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!> @}
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!> @ingroup PrivateProcedure
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!> @{
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!> @defgroup Lib_VTK_IOPrivateProcedure Lib_VTK_IO
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!> @}
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!> @brief This is a library of functions for Input and Output pure Fortran data in VTK format.
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!> @details It is useful for Paraview visualization tool. Even though there are many wrappers/porting of the VTK source
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!> code (C++ code), there is not a Fortran one. This library is not a porting or a wrapper of the VTK code,
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!> but it only an exporter/importer of the VTK data format written in pure Fortran language (standard Fortran 2003)
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!> that can be used by Fortran coders (yes, there are still a lot of these brave coders...) without mixing Fortran with
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!> C++ language. Fortran is still the best language for high performance computing for scientific purpose, like CFD
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!> computing. It is necessary a tool to deal with VTK standard directly by Fortran code. The library was made to fill
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!> this empty: it is a simple Fortran module able to export native Fortran data into VTK data format and to import VTK
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!> data into a Fortran code, both in ascii and binary file format.
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!>
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!> The library provides an automatic way to deal with VTK data format: all the formatting processes is nested into the
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!> library and users communicate with it by a simple API passing only native Fortran data (native Fortran scalar, vector
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!> and matrix).
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!>
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!> The library is still in developing and testing, this is first usable release, but there are not all the features of
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!> the stable release (the importer is totally absent and the exporter is not complete). Surely there are a lot of bugs
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!> and the programming style is not the best, but the exporters are far-complete.
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!>
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!> The supported VTK features are:
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!> - Exporters:
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!> - Legacy standard:
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!> - Structured Points;
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!> - Structured Grid;
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!> - Unstructured Grid;
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!> - Polydata (\b missing);
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!> - Rectilinear Grid;
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!> - Field (\b missing);
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!> - XML standard:
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!> - serial dataset:
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!> - Image Data (\b missing);
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!> - Polydata (\b missing);
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!> - Rectilinear Grid;
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!> - Structured Grid;
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!> - Unstructured Grid;
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!> - parallel (partitioned) dataset:
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!> - Image Data (\b missing);
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!> - Polydata (\b missing);
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!> - Rectilinear Grid;
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!> - Structured Grid;
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!> - Unstructured Grid;
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!> - composite dataset:
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!> - vtkMultiBlockDataSet;
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!> - Importers are \b missing.
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!>
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!> @libvtk can handle multiple concurrent files, but it is not thread-safe (e.g. race conditions occur into OpenMP
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!> parallel framework).
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!>
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!> The library is an open source project, it is distributed under the GPL v3. Anyone is interest to use, to develop or
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!> to contribute to Lib_VTK_IO is welcome.
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!>
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!> It can be found at: https://github.com/szaghi/Lib_VTK_IO
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!>
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!> @par VTK_Standard
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!> VTK, Visualization Toolkit, is an open source software that provides a powerful framework for the computer graphic, for
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!> the images processing and for 3D rendering. It is widely used in the world and so it has a very large community of users,
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!> besides the Kitware (The Kitware homepage can be found here: http://public.kitware.com) company provides professional
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!> support. The toolkit is written in C++ and a lot of porting/wrappers for Tcl/Tk, Java and Python are provided, unlucky
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!> there aren't wrappers for Fortran.
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!>
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!> Because of its good features the VTK toolkit has been used to develop a large set of open source programs. For my work
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!> the most important family of programs is the scientific visualization programs. A lot of high-quality scientific
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!> visualization tool are available on the web but for me the best is ParaView: I think that it is one of the best
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!> scientific visualization program in the world and it is open source! Paraview is based on VTK.
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!> @par Paraview
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!> ParaView (The ParaView homepage can be found here: http://www.paraview.org) is an open source software voted to scientific
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!> visualization and able to use the power of parallel architectures. It has an architecture client-server in order to make
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!> easy the remote visualization of very large set of data. Because it is based on VTK it inherits all VTK features. ParaView
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!> is very useful for Computational Fluid Dynamics visualizations because it provides powerful post-processing tools, it
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!> provides a very large set of importers for the most used format like Plot3D and HDF (the list is very large). It is easy to
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!> extend ParaView because it supports all the scripting language supported by VTK.
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!> @note All the @libvtk functions are <b>I4P integer functions</b>: the returned integer output is 0 if the function calling has
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!> been completed right while it is >0 if some errors occur (the error handling is only at its embryonic phase). Therefore the
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!> functions calling must be done in the following way: \n
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!> @code
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!> ...
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!> integer(I4P):: E_IO
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!> ...
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!> E_IO = VTK_INI(....
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!> ... @endcode
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!> @libvtk programming style is based on two main principles: <em>portable kind-precision</em> of reals and integers
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!> variables and <em>dynamic dispatching</em>. Using <em>dynamic dispatching</em> @libvtk has a simple API. The user calls
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!> a generic procedure (VTK_INI, VTK_GEO,...) and the library, depending on the type and number of the inputs passed, calls the
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!> correct internal function (i.e. VTK_GEO for R8P real type if the input passed is R8P real type). By this interface only few
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!> functions are used without the necessity of calling a different function for every different inputs type.
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!> Dynamic dispatching is based on the internal kind-precision selecting convention: Fortran 90/95 standard has introduced some
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!> useful functions to achieve the portability of reals and integers precision and @libvtk uses these functions to define portable
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!> kind-precision; to this aim @libvtk uses IR_Precision module.
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!> @author Stefano Zaghi
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!> @version 1.1
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!> @date 2013-03-28
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!> @par News
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!> - Correct bug affecting binary output;
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!> - Implement concurrent multiple files IO capability;
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!> - Implement FieldData tag for XML files, useful for tagging dataset with global auxiliary data, e.g. time, time step, ecc;
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!> - Implement Parallel (Partitioned) XML files support (.pvtu,.pvts,.pvtr);
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!> - Implement Driver testing program for providing practical examples of @libvtk usage.
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!> @copyright GNU Public License version 3.
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!> @note The supported compilers are GNU gfortran 4.7.x (or higher) and Intel Fortran 12.x (or higher). @libvtk needs a modern
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!> compiler providing support for some Fortran standard 2003 features.
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!> @todo \b CompleteExporter: Complete the exporters
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!> @todo \b CompleteImporter: Complete the importers
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!> @todo \b DocExamples: Complete the documentation of examples
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!> @todo \b g95_test: Test g95 compiler
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!> @bug <b>Array-Reshape</b>: \n Fortran allows automatic reshape of arrays, e.g. 2D array can be automatically (in the
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!> function calling) transformed to a 1D array with the same number of element of 2D array. The use of
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!> dynamic dispatching for @libvtk functions by means of generic interfaces had disable this feature:
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!> dynamic dispatching use the array-shape information to detect, at compile-time,
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!> the correct function to be called inside the generic interface functions. Thus automatic reshaping
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!> of arrays at calling function phase is not allowed. \n
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!> Instead an explicit reshape can be used by means of the Fortran built-in function \em reshape.
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!> As an example considering a call to the generic function \em VTK_VAR_XML an explicit array reshape
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!> could be: \n \n
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!> E_IO = VTK_VAR_XML(NC_NN=nn,varname='u',var=\b reshape(u(ni1:ni2,nj1:nj2,nk1:nk2),(/nn/))) \n \n
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!> where built in function \em reshape has explicitly being used in the calling to VTK_VAR_XML.
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!> @bug <b>XML-Efficiency</b>: \n This is not properly a bug. There is an inefficiency when saving XML binary file. To write XML
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!> binary @libvtk uses a temporary scratch file to save binary data while saving all formatting data to
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!> the final XML file. Only when all XML formatting data have been written the scratch file is rewind
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!> and the binary data is saved in the final tag of XML file as \b raw data. This approach is not
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!> efficient.
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!> @bug <b>Thread-Safe</b>: \n The @libvtk is not thread-safe: if used into a parallel multi-thread framework, e.g. OpenMP threads,
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!> the IO operations are not safe and race conditions with unpredictable results happen.
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!> @ingroup Lib_VTK_IOLibrary
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module Lib_VTK_IO
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!-----------------------------------------------------------------------------------------------------------------------------------
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USE IR_Precision ! Integers and reals precision definition.
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USE, intrinsic:: ISO_FORTRAN_ENV, only: stdout=>OUTPUT_UNIT, stderr=>ERROR_UNIT ! Standard output/error logical units.
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!-----------------------------------------------------------------------------------------------------------------------------------
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!-----------------------------------------------------------------------------------------------------------------------------------
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implicit none
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private
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save
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! functions for VTK XML
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public:: VTK_INI_XML
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public:: VTK_FLD_XML
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public:: VTK_GEO_XML
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public:: VTK_CON_XML
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public:: VTK_DAT_XML
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public:: VTK_VAR_XML
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public:: VTK_END_XML
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! functions for VTM XML
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public:: VTM_INI_XML
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public:: VTM_BLK_XML
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public:: VTM_WRF_XML
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public:: VTM_END_XML
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! functions for PVTK XML
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public:: PVTK_INI_XML
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public:: PVTK_GEO_XML
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public:: PVTK_DAT_XML
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public:: PVTK_VAR_XML
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public:: PVTK_END_XML
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! functions for VTK LEGACY
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public:: VTK_INI
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public:: VTK_GEO
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public:: VTK_CON
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public:: VTK_DAT
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public:: VTK_VAR
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public:: VTK_END
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!-----------------------------------------------------------------------------------------------------------------------------------
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!-----------------------------------------------------------------------------------------------------------------------------------
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!> @brief Function for saving mesh with different topologies in VTK-legacy standard.
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!> VTK_GEO is an interface to 8 different functions, there are 2 functions for each of 4 different topologies actually supported:
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!> one function for mesh coordinates with R8P precision and one for mesh coordinates with R4P precision.
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!> @remark This function must be called after VTK_INI. It saves the mesh geometry. The inputs that must be passed change depending
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!> on the topologies chosen. Not all VTK topologies have been implemented (\em polydata topologies are absent).
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!> @note Examples of usage are: \n
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!> \b Structured points calling: \n
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!> @code ...
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!> integer(I4P):: Nx,Ny,Nz
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!> real(I8P):: X0,Y0,Z0,Dx,Dy,Dz
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!> ...
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!> E_IO=VTK_GEO(Nx,Ny,Nz,X0,Y0,Z0,Dx,Dy,Dz)
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!> ... @endcode
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!> \b Structured grid calling: \n
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!> @code ...
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!> integer(I4P):: Nx,Ny,Nz,Nnodes
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!> real(R8P):: X(1:Nnodes),Y(1:Nnodes),Z(1:Nnodes)
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!> ...
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!> E_IO=VTK_GEO(Nx,Ny,Nz,Nnodes,X,Y,Z)
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!> ... @endcode
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!> \b Rectilinear grid calling: \n
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!> @code ...
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!> integer(I4P):: Nx,Ny,Nz
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!> real(R8P):: X(1:Nx),Y(1:Ny),Z(1:Nz)
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!> ...
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!> E_IO=VTK_GEO(Nx,Ny,Nz,X,Y,Z)
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!> ... @endcode
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!> \b Unstructured grid calling: \n
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!> @code ...
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!> integer(I4P):: NN
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!> real(R4P):: X(1:NN),Y(1:NN),Z(1:NN)
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!> ...
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!> E_IO=VTK_GEO(NN,X,Y,Z)
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!> ... @endcode
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!> @ingroup Lib_VTK_IOInterface
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interface VTK_GEO
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module procedure VTK_GEO_UNST_R8, & ! real(R8P) UNSTRUCTURED_GRID
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VTK_GEO_UNST_R4, & ! real(R4P) UNSTRUCTURED_GRID
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VTK_GEO_STRP_R8, & ! real(R8P) STRUCTURED_POINTS
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VTK_GEO_STRP_R4, & ! real(R4P) STRUCTURED_POINTS
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VTK_GEO_STRG_R8, & ! real(R8P) STRUCTURED_GRID
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VTK_GEO_STRG_R4, & ! real(R4P) STRUCTURED_GRID
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VTK_GEO_RECT_R8, & ! real(R8P) RECTILINEAR_GRID
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VTK_GEO_RECT_R4 ! real(R4P) RECTILINEAR_GRID
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endinterface
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!> @brief Function for saving data variable(s) in VTK-legacy standard.
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!> VTK_VAR is an interface to 8 different functions, there are 3 functions for scalar variables, 3 functions for vectorial
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!> variables and 2 functions texture variables: scalar and vectorial data can be R8P, R4P and I4P data while texture variables can
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!> be only R8P or R4P.
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!> This function saves the data variables related to geometric mesh.
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!> @remark The inputs that must be passed change depending on the data
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!> variables type.
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!> @note Examples of usage are: \n
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!> \b Scalar data calling: \n
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!> @code ...
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!> integer(I4P):: NN
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!> real(R4P):: var(1:NN)
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!> ...
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!> E_IO=VTK_VAR(NN,'Sca',var)
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!> ... @endcode
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!> \b Vectorial data calling: \n
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!> @code ...
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!> integer(I4P):: NN
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!> real(R4P):: varX(1:NN),varY(1:NN),varZ(1:NN)
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!> ...
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!> E_IO=VTK_VAR('vect',NN,'Vec',varX,varY,varZ)
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!> ... @endcode
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!> @ingroup Lib_VTK_IOInterface
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interface VTK_VAR
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module procedure VTK_VAR_SCAL_R8, & ! real(R8P) scalar
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VTK_VAR_SCAL_R4, & ! real(R4P) scalar
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VTK_VAR_SCAL_I4, & ! integer(I4P) scalar
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VTK_VAR_VECT_R8, & ! real(R8P) vectorial
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VTK_VAR_VECT_R4, & ! real(R4P) vectorial
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VTK_VAR_VECT_I4, & ! integer(I4P) vectorial
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VTK_VAR_TEXT_R8, & ! real(R8P) vectorial (texture)
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VTK_VAR_TEXT_R4 ! real(R4P) vectorial (texture)
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endinterface
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!> @brief Function for saving field data (global auxiliary data, eg time, step number, dataset name, etc).
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!> VTK_FLD_XML is an interface to 7 different functions, there are 2 functions for real field data, 4 functions for integer one
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!> and one function for open and close field data tag.
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!> @remark VTK_FLD_XML must be called after VTK_INI_XML and befor VTK_GEO_XML. It must always called three times at least: 1) for
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!> opening the FieldData tag, 2) for saving at least one FieldData entry and 3) for closing the FieldData tag.
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!> Examples of usage are: \n
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!> \b saving the time and step cicle counter of current dataset: \n
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!> @code ...
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!> real(R8P):: time
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!> integer(I4P):: step
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!> ...
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!> E_IO=VTK_FLD_XML(fld_action='open')
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!> E_IO=VTK_FLD_XML(fld=time,fname='TIME')
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!> E_IO=VTK_FLD_XML(fld=step,fname='CYCLE')
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!> E_IO=VTK_FLD_XML(fld_action='close')
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!> ... @endcode
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!> @ingroup Lib_VTK_IOInterface
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interface VTK_FLD_XML
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module procedure VTK_FLD_XML_OC, & ! open/close field data tag
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VTK_FLD_XML_R8, & ! real(R8P) scalar
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VTK_FLD_XML_R4, & ! real(R4P) scalar
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VTK_FLD_XML_I8, & ! integer(I8P) scalar
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VTK_FLD_XML_I4, & ! integer(I4P) scalar
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VTK_FLD_XML_I2, & ! integer(I2P) scalar
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VTK_FLD_XML_I1 ! integer(I1P) scalar
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endinterface
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!> @brief Function for saving mesh with different topologies in VTK-XML standard.
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!> VTK_GEO_XML is an interface to 7 different functions, there are 2 functions for each of 3 topologies supported and a function
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!> for closing XML pieces: one function for mesh coordinates with R8P precision and one for mesh coordinates with R4P precision.
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!> @remark VTK_GEO_XML must be called after VTK_INI_XML. It saves the mesh geometry. The inputs that must be passed
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!> change depending on the topologies chosen. Not all VTK topologies have been implemented (\em polydata topologies are absent).
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!> @note The XML standard is more powerful than legacy. XML file can contain more than 1 mesh with its
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!> associated variables. Thus there is the necessity to close each \em pieces that compose the data-set saved in the
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!> XML file. The VTK_GEO_XML called in the <em>close piece</em> format is used just to close the
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!> current piece before saving another piece or closing the file. \n
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!> Examples of usage are: \n
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!> \b Structured grid calling: \n
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!> @code ...
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!> integer(I4P):: nx1,nx2,ny1,ny2,nz1,nz2,NN
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!> real(R8P):: X(1:NN),Y(1:NN),Z(1:NN)
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!> ...
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!> E_IO=VTK_GEO_XML(nx1,nx2,ny1,ny2,nz1,nz2,Nn,X,Y,Z)
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!> ... @endcode
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!> \b Rectilinear grid calling: \n
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!> @code ...
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!> integer(I4P):: nx1,nx2,ny1,ny2,nz1,nz2
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!> real(R8P):: X(nx1:nx2),Y(ny1:ny2),Z(nz1:nz2)
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!> ...
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!> E_IO=VTK_GEO_XML(nx1,nx2,ny1,ny2,nz1,nz2,X,Y,Z)
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!> ... @endcode
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!> \b Unstructured grid calling: \n
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!> @code ...
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!> integer(I4P):: Nn,Nc
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!> real(R8P):: X(1:Nn),Y(1:Nn),Z(1:Nn)
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!> ...
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!> E_IO=VTK_GEO_XML(Nn,Nc,X,Y,Z)
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!> ... @endcode
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!> \b Closing piece calling: 1n
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!> @code ...
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!> E_IO=VTK_GEO_XML()
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!> ... @endcode
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!> @ingroup Lib_VTK_IOInterface
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interface VTK_GEO_XML
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module procedure VTK_GEO_XML_STRG_R4, & ! real(R4P) StructuredGrid
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VTK_GEO_XML_STRG_R8, & ! real(R8P) StructuredGrid
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VTK_GEO_XML_RECT_R8, & ! real(R8P) RectilinearGrid
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VTK_GEO_XML_RECT_R4, & ! real(R4P) RectilinearGrid
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VTK_GEO_XML_UNST_R8, & ! real(R8P) UnstructuredGrid
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VTK_GEO_XML_UNST_R4, & ! real(R4P) UnstructuredGrid
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VTK_GEO_XML_CLOSEP ! closing tag "Piece" function
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endinterface
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!> @brief Function for saving data variable(s) in VTK-XML standard.
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!> VTK_VAR_XML is an interface to 18 different functions, there are 6 functions for scalar variables, 6 functions for vectorial
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!> variables and 6 functions for list variables: for all of 3 types of data the precision can be R8P, R4P, I8P, I4P, I2P and I1P.
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!> This function saves the data variables related to geometric mesh.
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!> @remark The inputs that must be passed change depending on the data variables type.
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!> @note Examples of usage are: \n
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!> \b Scalar data calling: \n
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!> @code ...
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!> integer(I4P):: NN
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!> real(R8P):: var(1:NN)
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!> ...
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!> E_IO=VTK_VAR_XML(NN,'Sca',var)
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!> ... @endcode
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!> \b Vectorial data calling: \n
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!> @code ...
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!> integer(I4P):: NN
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!> real(R8P):: varX(1:NN),varY(1:NN),varZ(1:NN),
|
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!> ...
|
|
!> E_IO=VTK_VAR_XML(NN,'Vec',varX,varY,varZ)
|
|
!> ... @endcode
|
|
!> @ingroup Lib_VTK_IOInterface
|
|
interface VTK_VAR_XML
|
|
module procedure VTK_VAR_XML_SCAL_R8, & ! real(R8P) scalar
|
|
VTK_VAR_XML_SCAL_R4, & ! real(R4P) scalar
|
|
VTK_VAR_XML_SCAL_I8, & ! integer(I8P) scalar
|
|
VTK_VAR_XML_SCAL_I4, & ! integer(I4P) scalar
|
|
VTK_VAR_XML_SCAL_I2, & ! integer(I2P) scalar
|
|
VTK_VAR_XML_SCAL_I1, & ! integer(I1P) scalar
|
|
VTK_VAR_XML_VECT_R8, & ! real(R8P) vectorial
|
|
VTK_VAR_XML_VECT_R4, & ! real(R4P) vectorial
|
|
VTK_VAR_XML_VECT_I8, & ! integer(I4P) vectorial
|
|
VTK_VAR_XML_VECT_I4, & ! integer(I4P) vectorial
|
|
VTK_VAR_XML_VECT_I2, & ! integer(I4P) vectorial
|
|
VTK_VAR_XML_VECT_I1, & ! integer(I4P) vectorial
|
|
VTK_VAR_XML_LIST_R8, & ! real(R8P) list
|
|
VTK_VAR_XML_LIST_R4, & ! real(R4P) list
|
|
VTK_VAR_XML_LIST_I8, & ! integer(I4P) list
|
|
VTK_VAR_XML_LIST_I4, & ! integer(I4P) list
|
|
VTK_VAR_XML_LIST_I2, & ! integer(I2P) list
|
|
VTK_VAR_XML_LIST_I1 ! integer(I1P) list
|
|
endinterface
|
|
!-----------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!-----------------------------------------------------------------------------------------------------------------------------------
|
|
!> @ingroup Lib_VTK_IOPrivateVarPar
|
|
!> @{
|
|
! The library uses a small set of internal variables that are private (not accessible from the outside). The following are
|
|
! private variables.
|
|
! Parameters:
|
|
integer(I4P), parameter:: maxlen = 500 !< Max number of characters of static string.
|
|
character(1), parameter:: end_rec = char(10) !< End-character for binary-record finalize.
|
|
integer(I4P), parameter:: ascii = 0 !< Ascii-output-format parameter identifier.
|
|
integer(I4P), parameter:: binary = 1 !< Binary-output-format parameter identifier.
|
|
! VTK file data:
|
|
type Type_VTK_File
|
|
integer(I4P):: f = ascii !< Current output-format (initialized to ascii format).
|
|
character(len=maxlen):: topology = '' !< Mesh topology.
|
|
integer(I4P):: u = 0_I4P !< Logical unit.
|
|
integer(I4P):: ua = 0_I4P !< Logical unit for raw binary XML append file.
|
|
#ifdef HUGE
|
|
integer(I8P):: N_Byte = 0_I8P !< Number of byte to be written/read.
|
|
#else
|
|
integer(I4P):: N_Byte = 0_I4P !< Number of byte to be written/read.
|
|
#endif
|
|
integer(I8P):: ioffset = 0_I8P !< Offset pointer.
|
|
integer(I4P):: indent = 0_I4P !< Indent pointer.
|
|
endtype Type_VTK_File
|
|
type(Type_VTK_File), allocatable:: vtk(:) !< Global data of VTK files [1:Nvtk].
|
|
integer(I4P):: Nvtk = 0_I4P !< Number of (concurrent) VTK files.
|
|
integer(I4P):: f = 0_I4P !< Current VTK file index.
|
|
! VTM file data:
|
|
type Type_VTM_File
|
|
integer(I4P):: u = 0_I4P !< Logical unit.
|
|
integer(I4P):: blk = 0_I4P !< Block index.
|
|
integer(I4P):: indent = 0_I4P !< Indent pointer.
|
|
endtype Type_VTM_File
|
|
type(Type_VTM_File):: vtm !< Global data of VTM files.
|
|
!> @}
|
|
!-----------------------------------------------------------------------------------------------------------------------------------
|
|
contains
|
|
! The library uses two auxiliary functions that are not connected with the VTK standard. These functions are private and so they
|
|
! cannot be called outside the library.
|
|
|
|
!> @ingroup Lib_VTK_IOPrivateProcedure
|
|
!> @{
|
|
!> @brief Function for getting a free logic unit. The users of @libvtk does not know which is the logical
|
|
!> unit: @libvtk uses this information without boring the users. The logical unit used is safe-free: if the program
|
|
!> calling @libvtk has others logical units used @libvtk will never use these units, but will choice one that is free.
|
|
!>@return Free_Unit
|
|
integer function Get_Unit(Free_Unit)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer, intent(OUT), optional:: Free_Unit !< Free logic unit.
|
|
integer:: n1 !< Counter.
|
|
integer:: ios !< Inquiring flag.
|
|
logical:: lopen !< Inquiring flag.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
Get_Unit = -1
|
|
n1=1
|
|
do
|
|
if ((n1/=stdout).AND.(n1/=stderr)) then
|
|
inquire (unit=n1,opened=lopen,iostat=ios)
|
|
if (ios==0) then
|
|
if (.NOT.lopen) then
|
|
Get_Unit = n1 ; if (present(Free_Unit)) Free_Unit = Get_Unit
|
|
return
|
|
endif
|
|
endif
|
|
endif
|
|
n1=n1+1
|
|
enddo
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction Get_Unit
|
|
|
|
!> @brief Function for converting lower case characters of a string to upper case ones. @libvtk uses this function in
|
|
!> order to achieve case-insensitive: all character variables used within @libvtk functions are pre-processed by
|
|
!> Uppper_Case function before these variables are used. So the users can call @libvtk functions without pay attention of
|
|
!> the case of the keywords passed to the functions: calling the function VTK_INI with the string
|
|
!> <em>E_IO = VTK_INI('Ascii',...)</em> is equivalent to <em>E_IO = VTK_INI('ASCII',...)</em>.
|
|
!>@return Upper_Case
|
|
function Upper_Case(string)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(len=*), intent(IN):: string !< String to be converted.
|
|
character(len=len(string)):: Upper_Case !< Converted string.
|
|
integer:: n1 !< Characters counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
Upper_Case = string
|
|
do n1=1,len(string)
|
|
select case(ichar(string(n1:n1)))
|
|
case(97:122)
|
|
Upper_Case(n1:n1)=char(ichar(string(n1:n1))-32) ! Upper case conversion
|
|
endselect
|
|
enddo
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction Upper_Case
|
|
|
|
!> @brief Subroutine for updating vtk(f)%ioffset pointer.
|
|
subroutine ioffset_update(N_Byte)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
#ifdef HUGE
|
|
integer(I8P), intent(IN):: N_Byte !< Number of bytes saved.
|
|
#else
|
|
integer(I4P), intent(IN):: N_Byte !< Number of bytes saved.
|
|
#endif
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
#ifdef HUGE
|
|
vtk(f)%ioffset = vtk(f)%ioffset + BYI8P + N_Byte
|
|
#else
|
|
vtk(f)%ioffset = vtk(f)%ioffset + BYI4P + N_Byte
|
|
#endif
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endsubroutine ioffset_update
|
|
|
|
!> @brief Subroutine for updating (adding and removing elements into) vtk array.
|
|
subroutine vtk_update(act)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(*), intent(IN):: act !< Action on vtk array: 'ADD' one more element, 'REMOVE' current element file.
|
|
type(Type_VTK_File), allocatable:: vtk_tmp(:) !< Temporary array of VTK files data.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(Upper_Case(trim(act)))
|
|
case('ADD')
|
|
if (Nvtk>0_I4P) then
|
|
allocate(vtk_tmp(1:Nvtk))
|
|
vtk_tmp = vtk
|
|
deallocate(vtk)
|
|
Nvtk = Nvtk + 1
|
|
allocate(vtk(1:Nvtk))
|
|
vtk(1:Nvtk-1) = vtk_tmp
|
|
deallocate(vtk_tmp)
|
|
f = Nvtk
|
|
else
|
|
Nvtk = 1_I4P
|
|
allocate(vtk(1:Nvtk))
|
|
f = Nvtk
|
|
endif
|
|
case('REMOVE')
|
|
if (Nvtk>1_I4P) then
|
|
allocate(vtk_tmp(1:Nvtk-1))
|
|
if (f==Nvtk) then
|
|
vtk_tmp = vtk(1:Nvtk-1)
|
|
else
|
|
vtk_tmp(1:f-1) = vtk(1 :f-1)
|
|
vtk_tmp(f: ) = vtk(f+1: )
|
|
endif
|
|
deallocate(vtk)
|
|
Nvtk = Nvtk - 1
|
|
allocate(vtk(1:Nvtk))
|
|
vtk = vtk_tmp
|
|
deallocate(vtk_tmp)
|
|
f = 1_I4P
|
|
else
|
|
Nvtk = 0_I4P
|
|
if (allocated(vtk)) deallocate(vtk)
|
|
f = Nvtk
|
|
endif
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endsubroutine vtk_update
|
|
!> @}
|
|
|
|
!> @brief Function for initializing VTK-XML file.
|
|
!> The XML standard is more powerful than legacy one. It is flexible but on the other hand is (but not so more using a library
|
|
!> like @libvtk...) complex than legacy standard. The output of XML functions is a well-formated XML file at least for the ascii
|
|
!> format (in the binary format @libvtk uses raw-data format that does not produce a well formated XML file).
|
|
!> Note that the XML functions have the same name of legacy functions with the suffix \em XML.
|
|
!> @remark This function must be the first to be called.
|
|
!> @note An example of usage is: \n
|
|
!> @code ...
|
|
!> integer(I4P):: nx1,nx2,ny1,ny2,nz1,nz2
|
|
!> ...
|
|
!> E_IO = VTK_INI_XML('BINARY','XML_RECT_BINARY.vtr','RectilinearGrid',nx1=nx1,nx2=nx2,ny1=ny1,ny2=ny2,nz1=nz1,nz2=nz2)
|
|
!> ... @endcode
|
|
!> Note that the file extension is necessary in the file name. The XML standard has different extensions for each
|
|
!> different topologies (e.g. \em vtr for rectilinear topology). See the VTK-standard file for more information.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_INI_XML(cf,nx1,nx2,ny1,ny2,nz1,nz2,output_format,filename,mesh_topology) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(OUT), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN), optional:: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN), optional:: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN), optional:: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN), optional:: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN), optional:: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN), optional:: nz2 !< Final node of z axis.
|
|
character(*), intent(IN):: output_format !< Output format: ASCII or BINARY.
|
|
character(*), intent(IN):: filename !< File name.
|
|
character(*), intent(IN):: mesh_topology !< Mesh topology.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (.not.ir_initialized) call IR_Init
|
|
call vtk_update(act='add')
|
|
if (present(cf)) cf = f
|
|
vtk(f)%topology = trim(mesh_topology)
|
|
select case(trim(Upper_Case(output_format)))
|
|
case('ASCII')
|
|
vtk(f)%f = ascii
|
|
open(unit=Get_Unit(vtk(f)%u),file=trim(filename),form='FORMATTED',&
|
|
access='SEQUENTIAL',action='WRITE',status='REPLACE',iostat=E_IO)
|
|
! writing header of file
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'<?xml version="1.0"?>'
|
|
if (endian==endianL) then
|
|
s_buffer = '<VTKFile type="'//trim(vtk(f)%topology)//'" version="0.1" byte_order="LittleEndian">'
|
|
else
|
|
s_buffer = '<VTKFile type="'//trim(vtk(f)%topology)//'" version="0.1" byte_order="BigEndian">'
|
|
endif
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = 2
|
|
select case(trim(vtk(f)%topology))
|
|
case('RectilinearGrid','StructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//' WholeExtent="'//&
|
|
trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
case('UnstructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//'>'
|
|
endselect
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('BINARY')
|
|
vtk(f)%f = binary
|
|
open(unit=Get_Unit(vtk(f)%u),file=trim(filename),form='UNFORMATTED',access='STREAM',action='WRITE',status='REPLACE',iostat=E_IO)
|
|
! writing header of file
|
|
write(unit=vtk(f)%u,iostat=E_IO)'<?xml version="1.0"?>'//end_rec
|
|
if (endian==endianL) then
|
|
s_buffer = '<VTKFile type="'//trim(vtk(f)%topology)//'" version="0.1" byte_order="LittleEndian">'
|
|
else
|
|
s_buffer = '<VTKFile type="'//trim(vtk(f)%topology)//'" version="0.1" byte_order="BigEndian">'
|
|
endif
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = 2
|
|
select case(trim(vtk(f)%topology))
|
|
case('RectilinearGrid','StructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//' WholeExtent="'//&
|
|
trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
case('UnstructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//'>'
|
|
endselect
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
! opening the SCRATCH file used for appending raw binary data
|
|
open(unit=Get_Unit(vtk(f)%ua), form='UNFORMATTED', access='STREAM', action='READWRITE', status='SCRATCH', iostat=E_IO)
|
|
vtk(f)%ioffset = 0 ! initializing offset pointer
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_INI_XML
|
|
|
|
!> @ingroup Lib_VTK_IOPrivateProcedure
|
|
!> @{
|
|
!> Function for open/close field data tag.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_OC(cf,fld_action) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
character(*), intent(IN):: fld_action !< Field data tag action: OPEN or CLOSE tag.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(trim(Upper_Case(fld_action)))
|
|
case('OPEN')
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<FieldData>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<FieldData>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
endselect
|
|
case('CLOSE')
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</FieldData>'
|
|
case(binary)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</FieldData>'//end_rec
|
|
endselect
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_OC
|
|
|
|
!> Function for saving field data (global auxiliary data, e.g. time, step number, data set name...) (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_R8(cf,fld,fname) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
real(R8P), intent(IN):: fld !< Field data value.
|
|
character(*), intent(IN):: fname !< Field data name.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" NumberOfTuples="1" Name="'//trim(fname)//'" format="ascii">'//&
|
|
trim(str(n=fld))//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" NumberOfTuples="1" Name="'//trim(fname)// &
|
|
'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',1_I4P
|
|
write(unit=vtk(f)%ua,iostat=E_IO)fld
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_R8
|
|
|
|
!> Function for saving field data (global auxiliary data, e.g. time, step number, data set name...) (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_R4(cf,fld,fname) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
real(R4P), intent(IN):: fld !< Field data value.
|
|
character(*), intent(IN):: fname !< Field data name.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" NumberOfTuples="1" Name="'//trim(fname)//'" format="ascii">'//&
|
|
trim(str(n=fld))//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" NumberOfTuples="1" Name="'//trim(fname)// &
|
|
'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',1_I4P
|
|
write(unit=vtk(f)%ua,iostat=E_IO)fld
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_R4
|
|
|
|
!> Function for saving field data (global auxiliary data, e.g. time, step number, data set name...) (I8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_I8(cf,fld,fname) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I8P), intent(IN):: fld !< Field data value.
|
|
character(*), intent(IN):: fname !< Field data name.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" NumberOfTuples="1" Name="'//trim(fname)//'" format="ascii">'// &
|
|
trim(str(n=fld))//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" NumberOfTuples="1" Name="'//trim(fname)// &
|
|
'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = BYI8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I8',1_I4P
|
|
write(unit=vtk(f)%ua,iostat=E_IO)fld
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_I8
|
|
|
|
!> Function for saving field data (global auxiliary data, e.g. time, step number, data set name...) (I4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_I4(cf,fld,fname) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: fld !< Field data value.
|
|
character(*), intent(IN):: fname !< Field data name.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" NumberOfTuples="1" Name="'//trim(fname)//'" format="ascii">'// &
|
|
trim(str(n=fld))//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" NumberOfTuples="1" Name="'//trim(fname)// &
|
|
'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = BYI4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I4',1_I4P
|
|
write(unit=vtk(f)%ua,iostat=E_IO)fld
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_I4
|
|
|
|
!> Function for saving field data (global auxiliary data, e.g. time, step number, data set name...) (I2P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_I2(cf,fld,fname) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I2P), intent(IN):: fld !< Field data value.
|
|
character(*), intent(IN):: fname !< Field data name.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" NumberOfTuples="1" Name="'//trim(fname)//'" format="ascii">'// &
|
|
trim(str(n=fld))//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" NumberOfTuples="1" Name="'//trim(fname)// &
|
|
'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = BYI2P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I2',1_I4P
|
|
write(unit=vtk(f)%ua,iostat=E_IO)fld
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_I2
|
|
|
|
!> Function for saving field data (global auxiliary data, e.g. time, step number, data set name...) (I1P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_FLD_XML_I1(cf,fld,fname) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I1P), intent(IN):: fld !< Field data value.
|
|
character(*), intent(IN):: fname !< Field data name.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" NumberOfTuples="1" Name="'//trim(fname)//'" format="ascii">'// &
|
|
trim(str(n=fld))//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" NumberOfTuples="1" Name="'//trim(fname)// &
|
|
'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = BYI1P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I1',1_I4P
|
|
write(unit=vtk(f)%ua,iostat=E_IO)fld
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_FLD_XML_I1
|
|
|
|
!> Function for saving mesh with \b StructuredGrid topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_STRG_R8(cf,nx1,nx2,ny1,ny2,nz1,nz2,NN,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN):: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN):: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN):: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN):: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN):: nz2 !< Final node of z axis.
|
|
integer(I4P), intent(IN):: NN !< Number of all nodes.
|
|
real(R8P), intent(IN):: X(1:NN) !< X coordinates.
|
|
real(R8P), intent(IN):: Y(1:NN) !< Y coordinates.
|
|
real(R8P), intent(IN):: Z(1:NN) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" NumberOfComponents="3" Name="Points" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FR8P//',1X))',iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)// &
|
|
'<DataArray type="Float64" NumberOfComponents="3" Name="Points" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NN*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',3*NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_STRG_R8
|
|
|
|
!> Function for saving mesh with \b StructuredGrid topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_STRG_R4(cf,nx1,nx2,ny1,ny2,nz1,nz2,NN,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN):: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN):: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN):: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN):: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN):: nz2 !< Final node of z axis.
|
|
integer(I4P), intent(IN):: NN !< Number of all nodes.
|
|
real(R4P), intent(IN):: X(1:NN) !< X coordinates.
|
|
real(R4P), intent(IN):: Y(1:NN) !< Y coordinates.
|
|
real(R4P), intent(IN):: Z(1:NN) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" NumberOfComponents="3" Name="Points" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FR4P//',1X))',iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)// &
|
|
'<DataArray type="Float32" NumberOfComponents="3" Name="Points" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NN*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',3*NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_STRG_R4
|
|
|
|
!> Function for saving mesh with \b RectilinearGrid topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_RECT_R8(cf,nx1,nx2,ny1,ny2,nz1,nz2,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN):: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN):: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN):: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN):: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN):: nz2 !< Final node of z axis.
|
|
real(R8P), intent(IN):: X(nx1:nx2) !< X coordinates.
|
|
real(R8P), intent(IN):: Y(ny1:ny2) !< Y coordinates.
|
|
real(R8P), intent(IN):: Z(nz1:nz2) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Coordinates>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="X" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)(X(n1),n1=nx1,nx2)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="Y" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)(Y(n1),n1=ny1,ny2)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="Z" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)(Z(n1),n1=nz1,nz2)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Coordinates>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Coordinates>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="X" format="appended" offset="'//&
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = (nx2-nx1+1)*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',(nx2-nx1+1)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(X(n1),n1=nx1,nx2)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="Y" format="appended" offset="'//&
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = (ny2-ny1+1)*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',(ny2-ny1+1)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(Y(n1),n1=ny1,ny2)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="Z" format="appended" offset="'//&
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = (nz2-nz1+1)*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',(nz2-nz1+1)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(Z(n1),n1=nz1,nz2)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Coordinates>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_RECT_R8
|
|
|
|
!> Function for saving mesh with \b RectilinearGrid topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_RECT_R4(cf,nx1,nx2,ny1,ny2,nz1,nz2,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN):: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN):: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN):: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN):: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN):: nz2 !< Final node of z axis.
|
|
real(R4P), intent(IN):: X(nx1:nx2) !< X coordinates.
|
|
real(R4P), intent(IN):: Y(ny1:ny2) !< Y coordinates.
|
|
real(R4P), intent(IN):: Z(nz1:nz2) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Coordinates>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="X" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)(X(n1),n1=nx1,nx2)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="Y" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)(Y(n1),n1=ny1,ny2)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="Z" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)(Z(n1),n1=nz1,nz2)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Coordinates>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'//trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'">'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Coordinates>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="X" format="appended" offset="'//&
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = (nx2-nx1+1)*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',(nx2-nx1+1)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(X(n1),n1=nx1,nx2)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="Y" format="appended" offset="'//&
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = (ny2-ny1+1)*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',(ny2-ny1+1)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(Y(n1),n1=ny1,ny2)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="Z" format="appended" offset="'//&
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = (nz2-nz1+1)*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',(nz2-nz1+1)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(Z(n1),n1=nz1,nz2)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Coordinates>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_RECT_R4
|
|
|
|
!> Function for saving mesh with \b UnstructuredGrid topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_UNST_R8(cf,NN,NC,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NN !< Number of nodes.
|
|
integer(I4P), intent(IN):: NC !< Number of cells.
|
|
real(R8P), intent(IN):: X(1:NN) !< X coordinates.
|
|
real(R8P), intent(IN):: Y(1:NN) !< Y coordinates.
|
|
real(R8P), intent(IN):: Z(1:NN) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece NumberOfPoints="'//trim(str(n=NN))//'" NumberOfCells="'//trim(str(n=NC))//'">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" NumberOfComponents="3" Name="Points" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FR8P//',1X))',iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece NumberOfPoints="'//trim(str(n=NN))//'" NumberOfCells="'//trim(str(n=NC))//'">'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)// &
|
|
'<DataArray type="Float64" NumberOfComponents="3" Name="Points" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NN*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',3*NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_UNST_R8
|
|
|
|
!> Function for saving mesh with \b UnstructuredGrid topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_UNST_R4(cf,NN,NC,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NN !< Number of nodes.
|
|
integer(I4P), intent(IN):: NC !< Number of cells.
|
|
real(R4P), intent(IN):: X(1:NN) !< X coordinates.
|
|
real(R4P), intent(IN):: Y(1:NN) !< Y coordinates.
|
|
real(R4P), intent(IN):: Z(1:NN) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece NumberOfPoints="'//trim(str(n=NN))//'" NumberOfCells="'//trim(str(n=NC))//'">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" NumberOfComponents="3" Name="Points" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FR4P//',1X))',iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece NumberOfPoints="'//trim(str(n=NN))//'" NumberOfCells="'//trim(str(n=NC))//'">'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Points>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)// &
|
|
'<DataArray type="Float32" NumberOfComponents="3" Name="Points" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NN*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',3*NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Points>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_UNST_R4
|
|
|
|
!> @brief Function for closing mesh block data.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_XML_CLOSEP(cf) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
vtk(f)%indent = vtk(f)%indent - 2
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Piece>'
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Piece>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_XML_CLOSEP
|
|
!> @}
|
|
|
|
!> Function that \b must be used when unstructured grid is used, it saves the connectivity of the unstructured gird.
|
|
!> @note The vector \b connect must follow the VTK-legacy standard. It is passed as \em assumed-shape array
|
|
!> because its dimensions is related to the mesh dimensions in a complex way. Its dimensions can be calculated by the following
|
|
!> equation: \f$dc = dc = \sum\limits_{i = 1}^{NC} {nvertex_i }\f$.
|
|
!> Note that this equation is different from the legacy one. The XML connectivity convention is quite different from the
|
|
!> legacy standard. As an example suppose we have a mesh composed by 2 cells, one hexahedron (8 vertices) and one pyramid with
|
|
!> square basis (5 vertices) and suppose that the basis of pyramid is constitute by a face of the hexahedron and so the two cells
|
|
!> share 4 vertices. The above equation gives \f$dc=8+5=13\f$. The connectivity vector for this mesh can be: \n
|
|
!> first cell \n
|
|
!> connect(1) = 0 identification flag of \f$1^\circ\f$ vertex of 1° cell \n
|
|
!> connect(2) = 1 identification flag of \f$2^\circ\f$ vertex of 1° cell \n
|
|
!> connect(3) = 2 identification flag of \f$3^\circ\f$ vertex of 1° cell \n
|
|
!> connect(4) = 3 identification flag of \f$4^\circ\f$ vertex of 1° cell \n
|
|
!> connect(5) = 4 identification flag of \f$5^\circ\f$ vertex of 1° cell \n
|
|
!> connect(6) = 5 identification flag of \f$6^\circ\f$ vertex of 1° cell \n
|
|
!> connect(7) = 6 identification flag of \f$7^\circ\f$ vertex of 1° cell \n
|
|
!> connect(8) = 7 identification flag of \f$8^\circ\f$ vertex of 1° cell \n
|
|
!> second cell \n
|
|
!> connect(9 ) = 0 identification flag of \f$1^\circ\f$ vertex of 2° cell \n
|
|
!> connect(10) = 1 identification flag of \f$2^\circ\f$ vertex of 2° cell \n
|
|
!> connect(11) = 2 identification flag of \f$3^\circ\f$ vertex of 2° cell \n
|
|
!> connect(12) = 3 identification flag of \f$4^\circ\f$ vertex of 2° cell \n
|
|
!> connect(13) = 8 identification flag of \f$5^\circ\f$ vertex of 2° cell \n
|
|
!> Therefore this connectivity vector convention is more simple than the legacy convention, now we must create also the
|
|
!> \em offset vector that contains the data now missing in the \em connect vector. The offset
|
|
!> vector for this mesh can be: \n
|
|
!> first cell \n
|
|
!> offset(1) = 8 => summ of nodes of \f$1^\circ\f$ cell \n
|
|
!> second cell \n
|
|
!> offset(2) = 13 => summ of nodes of \f$1^\circ\f$ and \f$2^\circ\f$ cells \n
|
|
!> The value of every cell-offset can be calculated by the following equation: \f$offset_c=\sum\limits_{i=1}^{c}{nvertex_i}\f$
|
|
!> where \f$offset_c\f$ is the value of \f$c^{th}\f$ cell and \f$nvertex_i\f$ is the number of vertices of \f$i^{th}\f$ cell.
|
|
!> The function VTK_CON_XML does not calculate the connectivity and offset vectors: it writes the connectivity and offset
|
|
!> vectors conforming the VTK-XML standard, but does not calculate them.
|
|
!> The vector variable \em cell_type must conform the VTK-XML standard (see the file VTK-Standard at the
|
|
!> Kitware homepage) that is the same of the legacy standard. It contains the
|
|
!> \em type of each cells. For the above example this vector is: \n
|
|
!> first cell \n
|
|
!> cell_type(1) = 12 hexahedron type of \f$1^\circ\f$ cell \n
|
|
!> second cell \n
|
|
!> cell_type(2) = 14 pyramid type of \f$2^\circ\f$ cell \n
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_CON_XML(cf,NC,connect,offset,cell_type) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC !< Number of cells.
|
|
integer(I4P), intent(IN):: connect(:) !< Mesh connectivity.
|
|
integer(I4P), intent(IN):: offset(1:NC) !< Cell offset.
|
|
integer(I1P), intent(IN):: cell_type(1:NC) !< VTK cell type.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Cells>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//&
|
|
'<DataArray type="Int32" Name="connectivity" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FI4P, iostat=E_IO)(connect(n1),n1=1,size(connect))
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="offsets" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FI4P, iostat=E_IO)(offset(n1),n1=1,NC)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="types" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt=FI1P, iostat=E_IO)(cell_type(n1),n1=1,NC)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>' ; vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Cells>'
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Cells>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="connectivity" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = size(connect)*BYI4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I4',size(connect)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(connect(n1),n1=1,size(connect))
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="offsets" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC*BYI4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I4',NC
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(offset(n1),n1=1,NC)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="types" format="appended" offset="'// &
|
|
trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC*BYI1P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I1',NC
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(cell_type(n1),n1=1,NC)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</Cells>'//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_CON_XML
|
|
|
|
!> Function that \b must be called before saving the data related to geometric mesh, this function initializes the
|
|
!> saving of data variables indicating the \em type (node or cell centered) of variables that will be saved.
|
|
!> @note A single file can contain both cell and node centered variables. In this case the VTK_DAT_XML function must be
|
|
!> called two times, before saving cell-centered variables and before saving node-centered variables.
|
|
!> Examples of usage are: \n
|
|
!> \b Opening node piece: \n
|
|
!> @code ...
|
|
!> E_IO=VTK_DAT_XML('node','OPEN')
|
|
!> ... @endcode
|
|
!> \b Closing node piece: \n
|
|
!> @code ...
|
|
!> E_IO=VTK_DAT_XML('node','CLOSE')
|
|
!> ... @endcode
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTK_DAT_XML(cf,var_location,var_block_action) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
character(*), intent(IN):: var_location !< Location of saving variables: CELL or NODE centered.
|
|
character(*), intent(IN):: var_block_action !< Variables block action: OPEN or CLOSE block.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
select case(trim(Upper_Case(var_location)))
|
|
case('CELL')
|
|
select case(trim(Upper_Case(var_block_action)))
|
|
case('OPEN')
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<CellData>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('CLOSE')
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</CellData>'
|
|
endselect
|
|
case('NODE')
|
|
select case(trim(Upper_Case(var_block_action)))
|
|
case('OPEN')
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PointData>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('CLOSE')
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PointData>'
|
|
endselect
|
|
endselect
|
|
case(binary)
|
|
select case(trim(Upper_Case(var_location)))
|
|
case('CELL')
|
|
select case(trim(Upper_Case(var_block_action)))
|
|
case('OPEN')
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<CellData>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('CLOSE')
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</CellData>'//end_rec
|
|
endselect
|
|
case('NODE')
|
|
select case(trim(Upper_Case(var_block_action)))
|
|
case('OPEN')
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PointData>'//end_rec ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('CLOSE')
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PointData>'//end_rec
|
|
endselect
|
|
endselect
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_DAT_XML
|
|
|
|
!> @ingroup Lib_VTK_IOPrivateProcedure
|
|
!> @{
|
|
|
|
!> Function for saving field of scalar variable (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_SCAL_R8(cf,NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R8P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="1" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt=FR8P,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="1" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC_NN*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_SCAL_R8
|
|
|
|
!> Function for saving field of scalar variable (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_SCAL_R4(cf,NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R4P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="1" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt=FR4P,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="1" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC_NN*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_SCAL_R4
|
|
|
|
!> Function for saving field of scalar variable (I8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_SCAL_I8(cf,NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I8P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="1" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt=FI8P,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="1" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC_NN*BYI8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I8',NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_SCAL_I8
|
|
|
|
!> Function for saving field of scalar variable (I4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_SCAL_I4(cf,NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I4P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="1" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt=FI4P,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="1" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC_NN*BYI4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I4',NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_SCAL_I4
|
|
|
|
!> Function for saving field of scalar variable (I2P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_SCAL_I2(cf,NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I2P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="1" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt=FI2P, iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="1" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC_NN*BYI2P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I2',NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_SCAL_I2
|
|
|
|
!> Function for saving field of scalar variable (I1P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_SCAL_I1(cf,NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I1P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer=repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="'//trim(varname)//'" NumberOfComponents="1" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt=FI1P, iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer=repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="1" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = NC_NN*BYI1P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I1',NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(var(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_SCAL_I1
|
|
|
|
!> Function for saving field of vectorial variable (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_VECT_R8(cf,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R8P), intent(IN):: varX(1:NC_NN) !< X component.
|
|
real(R8P), intent(IN):: varY(1:NC_NN) !< Y component.
|
|
real(R8P), intent(IN):: varZ(1:NC_NN) !< Z component.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="3" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FR8P//',1X))',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="3" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NC_NN*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',3*NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_VECT_R8
|
|
|
|
!> Function for saving field of vectorial variable (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_VECT_R4(cf,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R4P), intent(IN):: varX(1:NC_NN) !< X component.
|
|
real(R4P), intent(IN):: varY(1:NC_NN) !< Y component.
|
|
real(R4P), intent(IN):: varZ(1:NC_NN) !< Z component.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="3" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FR4P//',1X))',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="3" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NC_NN*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',3*NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_VECT_R4
|
|
|
|
!> Function for saving field of vectorial variable (I8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_VECT_I8(cf,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I8P), intent(IN):: varX(1:NC_NN) !< X component.
|
|
integer(I8P), intent(IN):: varY(1:NC_NN) !< Y component.
|
|
integer(I8P), intent(IN):: varZ(1:NC_NN) !< Z component.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="3" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FI8P//',1X))',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="3" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NC_NN*BYI8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I8',3*NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_VECT_I8
|
|
|
|
!> Function for saving field of vectorial variable (I4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_VECT_I4(cf,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I4P), intent(IN):: varX(1:NC_NN) !< X component.
|
|
integer(I4P), intent(IN):: varY(1:NC_NN) !< Y component.
|
|
integer(I4P), intent(IN):: varZ(1:NC_NN) !< Z component.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="3" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FI4P//',1X))',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="3" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NC_NN*BYI4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I4',3*NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_VECT_I4
|
|
|
|
!> Function for saving field of vectorial variable (I2P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_VECT_I2(cf,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I2P), intent(IN):: varX(1:NC_NN) !< X component.
|
|
integer(I2P), intent(IN):: varY(1:NC_NN) !< Y component.
|
|
integer(I2P), intent(IN):: varZ(1:NC_NN) !< Z component.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="3" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FI2P//',1X))',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="3" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NC_NN*BYI2P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I2',3*NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_VECT_I2
|
|
|
|
!> Function for saving field of vectorial variable (I1P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_VECT_I1(cf,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I1P), intent(IN):: varX(1:NC_NN) !< X component.
|
|
integer(I1P), intent(IN):: varY(1:NC_NN) !< Y component.
|
|
integer(I1P), intent(IN):: varZ(1:NC_NN) !< Z component.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer=repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="'//trim(varname)//'" NumberOfComponents="3" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
write(unit=vtk(f)%u,fmt='(3('//FI1P//',1X))',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer=repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="'//trim(varname)// &
|
|
'" NumberOfComponents="3" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = 3*NC_NN*BYI1P
|
|
call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I1',3*NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_VECT_I1
|
|
|
|
!> Function for saving field of list variable (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_LIST_R8(cf,NC_NN,N_COL,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
integer(I4P), intent(IN):: N_COL !< Number of columns.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R8P), intent(IN):: var(1:,1:) !< Components.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%u,fmt=FR8P,iostat=E_IO)(var(n1,n2),n2=1,N_COL)
|
|
enddo
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float64" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = N_COL*NC_NN*BYR8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R8',N_COL*NC_NN
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)var(n1,:)
|
|
enddo
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_LIST_R8
|
|
|
|
!> Function for saving field of list variable (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_LIST_R4(cf,NC_NN,N_COL,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
integer(I4P), intent(IN):: N_COL !< Number of columns.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R4P), intent(IN):: var(1:,1:) !< Components.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%u,fmt=FR4P,iostat=E_IO)(var(n1,n2),n2=1,N_COL)
|
|
enddo
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Float32" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = N_COL*NC_NN*BYR4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'R4',N_COL*NC_NN
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)var(n1,:)
|
|
enddo
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_LIST_R4
|
|
|
|
!> Function for saving field of list variable (I8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_LIST_I8(cf,NC_NN,N_COL,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
integer(I4P), intent(IN):: N_COL !< Number of columns.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I8P), intent(IN):: var(1:,1:) !< Components.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%u,fmt=FI8P,iostat=E_IO)(var(n1,n2),n2=1,N_COL)
|
|
enddo
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int64" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = N_COL*NC_NN*BYI8P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I8',N_COL*NC_NN
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)var(n1,:)
|
|
enddo
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_LIST_I8
|
|
|
|
!> Function for saving field of list variable (I4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_LIST_I4(cf,NC_NN,N_COL,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
integer(I4P), intent(IN):: N_COL !< Number of columns.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I4P), intent(IN):: var(1:,1:) !< Components.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%u,fmt=FI4P,iostat=E_IO)(var(n1,n2),n2=1,N_COL)
|
|
enddo
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int32" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = N_COL*NC_NN*BYI4P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I4',N_COL*NC_NN
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)var(n1,:)
|
|
enddo
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_LIST_I4
|
|
|
|
!> Function for saving field of list variable (I2P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_LIST_I2(cf,NC_NN,N_COL,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
integer(I4P), intent(IN):: N_COL !< Number of columns.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I2P), intent(IN):: var(1:,1:) !< Components.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%u,fmt=FI2P,iostat=E_IO)(var(n1,n2),n2=1,N_COL)
|
|
enddo
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int16" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = N_COL*NC_NN*BYI2P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I2',N_COL*NC_NN
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)var(n1,:)
|
|
enddo
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_LIST_I2
|
|
|
|
!> Function for saving field of list variable (I1P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_XML_LIST_I1(cf,NC_NN,N_COL,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes.
|
|
integer(I4P), intent(IN):: N_COL !< Number of columns.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I1P), intent(IN):: var(1:,1:) !< Components.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="ascii">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%u,fmt=FI1P,iostat=E_IO)(var(n1,n2),n2=1,N_COL)
|
|
enddo
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</DataArray>'
|
|
case(binary)
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<DataArray type="Int8" Name="'//trim(varname)//'" NumberOfComponents="'// &
|
|
trim(str(.true.,N_COL))//'" format="appended" offset="'//trim(str(.true.,vtk(f)%ioffset))//'"/>'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
vtk(f)%N_Byte = N_COL*NC_NN*BYI1P ; call ioffset_update(vtk(f)%N_Byte)
|
|
write(unit=vtk(f)%ua,iostat=E_IO)vtk(f)%N_Byte,'I1',N_COL*NC_NN
|
|
do n1=1,NC_NN
|
|
write(unit=vtk(f)%ua,iostat=E_IO)var(n1,:)
|
|
enddo
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_XML_LIST_I1
|
|
!> @}
|
|
|
|
!> @brief Function for finalizing the VTK-XML file.
|
|
!> @note An example of usage is: \n
|
|
!> @code ...
|
|
!> E_IO = VTK_END_XML()
|
|
!> ... @endcode
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTK_END_XML(cf) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(INOUT), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(2):: var_type !< Varable type = R8,R4,I8,I4,I2,I1.
|
|
real(R8P), allocatable:: v_R8(:) !< R8 vector for IO in AppendData.
|
|
real(R4P), allocatable:: v_R4(:) !< R4 vector for IO in AppendData.
|
|
integer(I8P), allocatable:: v_I8(:) !< I8 vector for IO in AppendData.
|
|
integer(I4P), allocatable:: v_I4(:) !< I4 vector for IO in AppendData.
|
|
integer(I2P), allocatable:: v_I2(:) !< I2 vector for IO in AppendData.
|
|
integer(I1P), allocatable:: v_I1(:) !< I1 vector for IO in AppendData.
|
|
#ifdef HUGE
|
|
integer(I8P):: N_v !< Vector dimension.
|
|
integer(I8P):: n1 !< Counter.
|
|
#else
|
|
integer(I4P):: N_v !< Vector dimension.
|
|
integer(I4P):: n1 !< Counter.
|
|
#endif
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</'//trim(vtk(f)%topology)//'>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'</VTKFile>'
|
|
case(binary)
|
|
vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit =vtk(f)%u, iostat=E_IO)repeat(' ',vtk(f)%indent)//'</'//trim(vtk(f)%topology)//'>'//end_rec
|
|
write(unit =vtk(f)%u, iostat=E_IO)repeat(' ',vtk(f)%indent)//'<AppendedData encoding="raw">'//end_rec
|
|
write(unit =vtk(f)%u, iostat=E_IO)'_'
|
|
endfile(unit=vtk(f)%ua,iostat=E_IO)
|
|
rewind(unit =vtk(f)%ua,iostat=E_IO)
|
|
do
|
|
read(unit=vtk(f)%ua,iostat=E_IO,end=100)vtk(f)%N_Byte,var_type,N_v
|
|
select case(var_type)
|
|
case('R8')
|
|
allocate(v_R8(1:N_v))
|
|
read(unit =vtk(f)%ua,iostat=E_IO)(v_R8(n1),n1=1,N_v)
|
|
write(unit=vtk(f)%u, iostat=E_IO)int(vtk(f)%N_Byte,I4P),(v_R8(n1),n1=1,N_v)
|
|
deallocate(v_R8)
|
|
case('R4')
|
|
allocate(v_R4(1:N_v))
|
|
read(unit =vtk(f)%ua,iostat=E_IO)(v_R4(n1),n1=1,N_v)
|
|
write(unit=vtk(f)%u, iostat=E_IO)int(vtk(f)%N_Byte,I4P),(v_R4(n1),n1=1,N_v)
|
|
deallocate(v_R4)
|
|
case('I8')
|
|
allocate(v_I8(1:N_v))
|
|
read(unit =vtk(f)%ua,iostat=E_IO)(v_I8(n1),n1=1,N_v)
|
|
write(unit=vtk(f)%u, iostat=E_IO)int(vtk(f)%N_Byte,I4P),(v_I8(n1),n1=1,N_v)
|
|
deallocate(v_I8)
|
|
case('I4')
|
|
allocate(v_I4(1:N_v))
|
|
read(unit =vtk(f)%ua,iostat=E_IO)(v_I4(n1),n1=1,N_v)
|
|
write(unit=vtk(f)%u, iostat=E_IO)int(vtk(f)%N_Byte,I4P),(v_I4(n1),n1=1,N_v)
|
|
deallocate(v_I4)
|
|
case('I2')
|
|
allocate(v_I2(1:N_v))
|
|
read(unit =vtk(f)%ua,iostat=E_IO)(v_I2(n1),n1=1,N_v)
|
|
write(unit=vtk(f)%u, iostat=E_IO)int(vtk(f)%N_Byte,I4P),(v_I2(n1),n1=1,N_v)
|
|
deallocate(v_I2)
|
|
case('I1')
|
|
allocate(v_I1(1:N_v))
|
|
read(unit =vtk(f)%ua,iostat=E_IO)(v_I1(n1),n1=1,N_v)
|
|
write(unit=vtk(f)%u, iostat=E_IO)int(vtk(f)%N_Byte,I4P),(v_I1(n1),n1=1,N_v)
|
|
deallocate(v_I1)
|
|
case default
|
|
E_IO = 1
|
|
write (stderr,'(A)')' bad var_type = '//var_type
|
|
write (stderr,'(A)')' N_Byte = '//trim(str(n=vtk(f)%N_Byte))//' N_v = '//trim(str(n=N_v))
|
|
return
|
|
endselect
|
|
enddo
|
|
100 continue
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)repeat(' ',vtk(f)%indent)//'</AppendedData>'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)'</VTKFile>'//end_rec
|
|
close(unit=vtk(f)%ua,iostat=E_IO)
|
|
endselect
|
|
close(unit=vtk(f)%u,iostat=E_IO)
|
|
call vtk_update(act='remove')
|
|
if (present(cf)) cf = f
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_END_XML
|
|
|
|
!> The VTK_VTM_XML function is used for initializing a VTM (VTK Multiblocks) XML file that is a wrapper to a set of VTK-XML files.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTM_INI_XML(filename) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(*), intent(IN):: filename !< File name of output VTM file.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (.not.ir_initialized) call IR_Init
|
|
if (endian==endianL) then
|
|
s_buffer='<VTKFile type="vtkMultiBlockDataSet" version="1.0" byte_order="LittleEndian">'
|
|
else
|
|
s_buffer='<VTKFile type="vtkMultiBlockDataSet" version="1.0" byte_order="BigEndian">'
|
|
endif
|
|
open(unit=Get_Unit(vtm%u),file=trim(filename),form='FORMATTED',access='SEQUENTIAL',action='WRITE',status='REPLACE',iostat=E_IO)
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)'<?xml version="1.0"?>'
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtm%indent = 2
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)repeat(' ',vtm%indent)//'<vtkMultiBlockDataSet>' ; vtm%indent = vtm%indent + 2
|
|
vtm%blk = -1
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTM_INI_XML
|
|
|
|
!> The VTM_BLK_XML function is used for opening or closing a block level of a VTM file.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTM_BLK_XML(block_action) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(*), intent(IN):: block_action !< Block action: OPEN or CLOSE block.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(trim(Upper_Case(block_action)))
|
|
case('OPEN')
|
|
vtm%blk = vtm%blk + 1
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)repeat(' ',vtm%indent)//'<Block index="'//trim(str(.true.,vtm%blk))//'">'
|
|
vtm%indent = vtm%indent + 2
|
|
case('CLOSE')
|
|
vtm%indent = vtm%indent - 2 ; write(unit=vtm%u,fmt='(A)',iostat=E_IO)repeat(' ',vtm%indent)//'</Block>'
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTM_BLK_XML
|
|
|
|
!> The VTM_WRF_XML function is used for saving the list of VTK-XML wrapped files by the actual block of the mutliblock VTM file.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTM_WRF_XML(flist) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(*), intent(IN):: flist(:) !< List of VTK-XML wrapped files.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: 0 if IO is done, > 0 if IO is not done.
|
|
integer(I4P):: f !< File counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
do f=1,size(flist)
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)repeat(' ',vtm%indent)//'<DataSet index="'//trim(str(.true.,f-1))//'" file="'// &
|
|
adjustl(trim(flist(f)))//'"/>'
|
|
enddo
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTM_WRF_XML
|
|
|
|
!> Function for finalizing open file, it has not inputs, @libvtk manages the file unit without the
|
|
!> user's action.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTM_END_XML() result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
vtm%indent = vtm%indent - 2
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)repeat(' ',vtm%indent)//'</vtkMultiBlockDataSet>'
|
|
write(unit=vtm%u,fmt='(A)',iostat=E_IO)'</VTKFile>'
|
|
close(unit=vtm%u)
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTM_END_XML
|
|
|
|
!> @brief Function for initializing parallel (partitioned) VTK-XML file.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function PVTK_INI_XML(cf,nx1,nx2,ny1,ny2,nz1,nz2,filename,mesh_topology,tp) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(OUT), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN), optional:: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN), optional:: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN), optional:: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN), optional:: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN), optional:: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN), optional:: nz2 !< Final node of z axis.
|
|
character(*), intent(IN):: filename !< File name.
|
|
character(*), intent(IN):: mesh_topology !< Mesh topology.
|
|
character(*), intent(IN):: tp !< Type of geometry representation (Float32, Float64, ecc).
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (.not.ir_initialized) call IR_Init
|
|
call vtk_update(act='add')
|
|
if (present(cf)) cf = f
|
|
vtk(f)%topology = trim(mesh_topology)
|
|
open(unit=Get_Unit(vtk(f)%u),file=trim(filename),form='FORMATTED',access='SEQUENTIAL',action='WRITE',status='REPLACE',iostat=E_IO)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'<?xml version="1.0"?>'
|
|
if (endian==endianL) then
|
|
s_buffer = '<VTKFile type="'//trim(vtk(f)%topology)//'" version="0.1" byte_order="LittleEndian">'
|
|
else
|
|
s_buffer = '<VTKFile type="'//trim(vtk(f)%topology)//'" version="0.1" byte_order="BigEndian">'
|
|
endif
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = 2
|
|
select case(trim(vtk(f)%topology))
|
|
case('PRectilinearGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//' WholeExtent="'//&
|
|
trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'" GhostLevel="#">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PCoordinates>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'"/>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'"/>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'"/>'
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PCoordinates>'
|
|
case('PStructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//' WholeExtent="'//&
|
|
trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'" GhostLevel="#">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PPoints>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'" NumberOfComponents="3" Name="Points"/>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PPoints>'
|
|
case('PUnstructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<'//trim(vtk(f)%topology)//' GhostLevel="0">'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer) ; vtk(f)%indent = vtk(f)%indent + 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PPoints>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'" NumberOfComponents="3" Name="Points"/>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PPoints>'
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction PVTK_INI_XML
|
|
|
|
!> Function for saving piece geometry source for parallel (partitioned) VTK-XML file.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function PVTK_GEO_XML(cf,nx1,nx2,ny1,ny2,nz1,nz2,source) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN), optional:: nx1 !< Initial node of x axis.
|
|
integer(I4P), intent(IN), optional:: nx2 !< Final node of x axis.
|
|
integer(I4P), intent(IN), optional:: ny1 !< Initial node of y axis.
|
|
integer(I4P), intent(IN), optional:: ny2 !< Final node of y axis.
|
|
integer(I4P), intent(IN), optional:: nz1 !< Initial node of z axis.
|
|
integer(I4P), intent(IN), optional:: nz2 !< Final node of z axis.
|
|
character(*), intent(IN):: source !< Source file name containing the piece data.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case (vtk(f)%topology)
|
|
case('PRectilinearGrid','PStructuredGrid')
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<Piece Extent="'// &
|
|
trim(str(n=nx1))//' '//trim(str(n=nx2))//' '// &
|
|
trim(str(n=ny1))//' '//trim(str(n=ny2))//' '// &
|
|
trim(str(n=nz1))//' '//trim(str(n=nz2))//'" Source="'//trim(source)//'"/>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
case('PUnstructuredGrid')
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<Piece Source="'//trim(source)//'"/>'
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction PVTK_GEO_XML
|
|
|
|
!> Function that \b must be called before saving the data related to geometric mesh, this function initializes the
|
|
!> saving of data variables indicating the \em type (node or cell centered) of variables that will be saved.
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function PVTK_DAT_XML(cf,var_location,var_block_action) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
character(*), intent(IN):: var_location !< Location of saving variables: CELL or NODE centered.
|
|
character(*), intent(IN):: var_block_action !< Variables block action: OPEN or CLOSE block.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
select case(trim(Upper_Case(var_location)))
|
|
case('CELL')
|
|
select case(trim(Upper_Case(var_block_action)))
|
|
case('OPEN')
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PCellData>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('CLOSE')
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PCellData>'
|
|
endselect
|
|
case('NODE')
|
|
select case(trim(Upper_Case(var_block_action)))
|
|
case('OPEN')
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'<PPointData>' ; vtk(f)%indent = vtk(f)%indent + 2
|
|
case('CLOSE')
|
|
vtk(f)%indent = vtk(f)%indent - 2 ; write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</PPointData>'
|
|
endselect
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction PVTK_DAT_XML
|
|
|
|
!> Function for saving variable associated to nodes or cells geometry.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function PVTK_VAR_XML(cf,Nc,varname,tp) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P), intent(IN), optional:: Nc !< Number of components of variable.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
character(*), intent(IN):: tp !< Type of data representation (Float32, Float64, ecc).
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
if (present(Nc)) then
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'" Name="'//trim(varname)//&
|
|
'" NumberOfComponents="'//trim(str(.true.,Nc))//'"/>'
|
|
else
|
|
s_buffer = repeat(' ',vtk(f)%indent)//'<PDataArray type="'//trim(tp)//'" Name="'//trim(varname)//'"/>'
|
|
endif
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(s_buffer)
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction PVTK_VAR_XML
|
|
|
|
!> @brief Function for finalizing the parallel (partitioned) VTK-XML file.
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function PVTK_END_XML(cf) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(INOUT), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
vtk(f)%indent = vtk(f)%indent - 2
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)repeat(' ',vtk(f)%indent)//'</'//trim(vtk(f)%topology)//'>'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'</VTKFile>'
|
|
close(unit=vtk(f)%u,iostat=E_IO)
|
|
call vtk_update(act='remove')
|
|
if (present(cf)) cf = f
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction PVTK_END_XML
|
|
|
|
!> @brief Function for initializing VTK-legacy file.
|
|
!> @remark This function must be the first to be called.
|
|
!> @note An example of usage is: \n
|
|
!> @code ...
|
|
!> E_IO=VTK_INI('Binary','example.vtk','VTK legacy file','UNSTRUCTURED_GRID')
|
|
!> ... @endcode
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTK_INI(cf,output_format,filename,title,mesh_topology) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(OUT), optional:: cf !< Current file index (for concurrent files IO).
|
|
character(*), intent(IN):: output_format !< Output format: ASCII or BINARY.
|
|
character(*), intent(IN):: filename !< Name of file.
|
|
character(*), intent(IN):: title !< Title.
|
|
character(*), intent(IN):: mesh_topology !< Mesh topology.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (.not.ir_initialized) call IR_Init
|
|
call vtk_update(act='add')
|
|
if (present(cf)) cf = f
|
|
vtk(f)%topology = trim(mesh_topology)
|
|
select case(trim(Upper_Case(output_format)))
|
|
case('ASCII')
|
|
vtk(f)%f = ascii
|
|
open(unit=Get_Unit(vtk(f)%u),file=trim(filename),form='FORMATTED',&
|
|
access='SEQUENTIAL',action='WRITE',status='REPLACE',iostat=E_IO)
|
|
! writing header of file
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'# vtk DataFile Version 3.0'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(title)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)trim(Upper_Case(output_format))
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'DATASET '//trim(vtk(f)%topology)
|
|
case('BINARY')
|
|
vtk(f)%f = binary
|
|
open(unit=Get_Unit(vtk(f)%u),file=trim(filename),form='UNFORMATTED',access='STREAM',action='WRITE',status='REPLACE',iostat=E_IO)
|
|
! writing header of file
|
|
write(unit=vtk(f)%u,iostat=E_IO)'# vtk DataFile Version 3.0'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(title)//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(Upper_Case(output_format))//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)'DATASET '//trim(vtk(f)%topology)//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_INI
|
|
|
|
!> @ingroup Lib_VTK_IOPrivateProcedure
|
|
!> @{
|
|
!> Function for saving mesh with \b STRUCTURED_POINTS topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_STRP_R8(Nx,Ny,Nz,X0,Y0,Z0,Dx,Dy,Dz) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: Nx !< Number of nodes in x direction.
|
|
integer(I4P), intent(IN):: Ny !< Number of nodes in y direction.
|
|
integer(I4P), intent(IN):: Nz !< Number of nodes in z direction.
|
|
real(R8P), intent(IN):: X0 !< X coordinate of origin.
|
|
real(R8P), intent(IN):: Y0 !< Y coordinate of origin.
|
|
real(R8P), intent(IN):: Z0 !< Z coordinate of origin.
|
|
real(R8P), intent(IN):: Dx !< Space step in x direction.
|
|
real(R8P), intent(IN):: Dy !< Space step in y direction.
|
|
real(R8P), intent(IN):: Dz !< Space step in z direction.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FR8P//')', iostat=E_IO)'ORIGIN ',X0,Y0,Z0
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FR8P//')', iostat=E_IO)'SPACING ',Dx,Dy,Dz
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,3'//FR8P//')', iostat=E_IO)'ORIGIN ',X0,Y0,Z0
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,3'//FR8P//')', iostat=E_IO)'SPACING ',Dx,Dy,Dz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_STRP_R8
|
|
|
|
!> Function for saving mesh with \b STRUCTURED_POINTS topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_STRP_R4(Nx,Ny,Nz,X0,Y0,Z0,Dx,Dy,Dz) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: Nx !< Number of nodes in x direction.
|
|
integer(I4P), intent(IN):: Ny !< Number of nodes in y direction.
|
|
integer(I4P), intent(IN):: Nz !< Number of nodes in z direction.
|
|
real(R4P), intent(IN):: X0 !< X coordinate of origin.
|
|
real(R4P), intent(IN):: Y0 !< Y coordinate of origin.
|
|
real(R4P), intent(IN):: Z0 !< Z coordinate of origin.
|
|
real(R4P), intent(IN):: Dx !< Space step in x direction.
|
|
real(R4P), intent(IN):: Dy !< Space step in y direction.
|
|
real(R4P), intent(IN):: Dz !< Space step in z direction.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FR4P//')', iostat=E_IO)'ORIGIN ',X0,Y0,Z0
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FR4P//')', iostat=E_IO)'SPACING ',Dx,Dy,Dz
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,3'//FR4P//')', iostat=E_IO)'ORIGIN ',X0,Y0,Z0
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,3'//FR4P//')', iostat=E_IO)'SPACING ',Dx,Dy,Dz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_STRP_R4
|
|
|
|
!> Function for saving mesh with \b STRUCTURED_GRID topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_STRG_R8(Nx,Ny,Nz,NN,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: Nx !< Number of nodes in x direction.
|
|
integer(I4P), intent(IN):: Ny !< Number of nodes in y direction.
|
|
integer(I4P), intent(IN):: Nz !< Number of nodes in z direction.
|
|
integer(I4P), intent(IN):: NN !< Number of all nodes.
|
|
real(R8P), intent(IN):: X(1:NN) !< X coordinates.
|
|
real(R8P), intent(IN):: Y(1:NN) !< Y coordinates.
|
|
real(R8P), intent(IN):: Z(1:NN) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' double'
|
|
write(unit=vtk(f)%u,fmt='(3'//FR8P//')', iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' double'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_STRG_R8
|
|
|
|
!> Function for saving mesh with \b STRUCTURED_GRID topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_STRG_R4(Nx,Ny,Nz,NN,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: Nx !< Number of nodes in x direction.
|
|
integer(I4P), intent(IN):: Ny !< Number of nodes in y direction.
|
|
integer(I4P), intent(IN):: Nz !< Number of nodes in z direction.
|
|
integer(I4P), intent(IN):: NN !< Number of all nodes.
|
|
real(R4P), intent(IN):: X(1:NN) !< X coordinates.
|
|
real(R4P), intent(IN):: Y(1:NN) !< Y coordinates.
|
|
real(R4P), intent(IN):: Z(1:NN) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' float'
|
|
write(unit=vtk(f)%u,fmt='(3'//FR4P//')', iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' float'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_STRG_R4
|
|
|
|
!> Function for saving mesh with \b RECTILINEAR_GRID topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_RECT_R8(Nx,Ny,Nz,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: Nx !< Number of nodes in x direction.
|
|
integer(I4P), intent(IN):: Ny !< Number of nodes in y direction.
|
|
integer(I4P), intent(IN):: Nz !< Number of nodes in z direction.
|
|
real(R8P), intent(IN):: X(1:Nx) !< X coordinates.
|
|
real(R8P), intent(IN):: Y(1:Ny) !< Y coordinates.
|
|
real(R8P), intent(IN):: Z(1:Nz) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'X_COORDINATES ',Nx,' double'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)(X(n1),n1=1,Nx)
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'Y_COORDINATES ',Ny,' double'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)(Y(n1),n1=1,Ny)
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'Z_COORDINATES ',Nz,' double'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)(Z(n1),n1=1,Nz)
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'X_COORDINATES ',Nx,' double'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(X(n1),n1=1,Nx)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'Y_COORDINATES ',Ny,' double'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(Y(n1),n1=1,Ny)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'Z_COORDINATES ',Nz,' double'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(Z(n1),n1=1,Nz)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_RECT_R8
|
|
|
|
!> Function for saving mesh with \b RECTILINEAR_GRID topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_RECT_R4(Nx,Ny,Nz,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: Nx !< Number of nodes in x direction.
|
|
integer(I4P), intent(IN):: Ny !< Number of nodes in y direction.
|
|
integer(I4P), intent(IN):: Nz !< Number of nodes in z direction.
|
|
real(R4P), intent(IN):: X(1:Nx) !< X coordinates.
|
|
real(R4P), intent(IN):: Y(1:Ny) !< Y coordinates.
|
|
real(R4P), intent(IN):: Z(1:Nz) !< Z coordinates.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'X_COORDINATES ',Nx,' float'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)(X(n1),n1=1,Nx)
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'Y_COORDINATES ',Ny,' float'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)(Y(n1),n1=1,Ny)
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'Z_COORDINATES ',Nz,' float'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)(Z(n1),n1=1,Nz)
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,3'//FI4P//')', iostat=E_IO)'DIMENSIONS ',Nx,Ny,Nz
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'X_COORDINATES ',Nx,' float'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(X(n1),n1=1,Nx)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'Y_COORDINATES ',Ny,' float'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(Y(n1),n1=1,Ny)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'Z_COORDINATES ',Nz,' float'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(Z(n1),n1=1,Nz)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_RECT_R4
|
|
|
|
!> Function for saving mesh with \b UNSTRUCTURED_GRID topology (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_UNST_R8(NN,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NN !< Number of nodes.
|
|
real(R8P), intent(IN):: X(1:NN) !< X coordinates of all nodes.
|
|
real(R8P), intent(IN):: Y(1:NN) !< Y coordinates of all nodes.
|
|
real(R8P), intent(IN):: Z(1:NN) !< Z coordinates of all nodes.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' double'
|
|
write(unit=vtk(f)%u,fmt='(3'//FR8P//')', iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' double'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_UNST_R8
|
|
|
|
!> Function for saving mesh with \b UNSTRUCTURED_GRID topology (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_GEO_UNST_R4(NN,X,Y,Z) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NN !< number of nodes.
|
|
real(R4P), intent(IN):: X(1:NN) !< x coordinates of all nodes.
|
|
real(R4P), intent(IN):: Y(1:NN) !< y coordinates of all nodes.
|
|
real(R4P), intent(IN):: Z(1:NN) !< z coordinates of all nodes.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< buffer string.
|
|
integer(I4P):: n1 !< counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' float'
|
|
write(unit=vtk(f)%u,fmt='(3'//FR4P//')', iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,'//FI4P//',A)',iostat=E_IO)'POINTS ',NN,' float'
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)(X(n1),Y(n1),Z(n1),n1=1,NN)
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_GEO_UNST_R4
|
|
!> @}
|
|
|
|
!> Function that \b must be used when unstructured grid is used, it saves the connectivity of the unstructured gird.
|
|
!> @note The vector \b connect must follow the VTK-legacy standard. It is passed as \em assumed-shape array
|
|
!> because its dimensions is related to the mesh dimensions in a complex way. Its dimensions can be calculated by the following
|
|
!> equation: \f$dc = NC + \sum\limits_{i = 1}^{NC} {nvertex_i }\f$
|
|
!> where \f$dc\f$ is connectivity vector dimension and \f$nvertex_i\f$ is the number of vertices of \f$i^{th}\f$ cell. The VTK-
|
|
!> legacy standard for the mesh connectivity is quite obscure at least at first sight. It is more simple analyzing an example.
|
|
!> Suppose we have a mesh composed by 2 cells, one hexahedron (8 vertices) and one pyramid with square basis (5 vertices) and
|
|
!> suppose that the basis of pyramid is constitute by a face of the hexahedron and so the two cells share 4 vertices.
|
|
!> The above equation !> gives \f$dc=2+8+5=15\f$. The connectivity vector for this mesh can be: \n
|
|
!> first cell \n
|
|
!> connect(1) = 8 number of vertices of \f$1^\circ\f$ cell \n
|
|
!> connect(2) = 0 identification flag of \f$1^\circ\f$ vertex of 1° cell \n
|
|
!> connect(3) = 1 identification flag of \f$2^\circ\f$ vertex of 1° cell \n
|
|
!> connect(4) = 2 identification flag of \f$3^\circ\f$ vertex of 1° cell \n
|
|
!> connect(5) = 3 identification flag of \f$4^\circ\f$ vertex of 1° cell \n
|
|
!> connect(6) = 4 identification flag of \f$5^\circ\f$ vertex of 1° cell \n
|
|
!> connect(7) = 5 identification flag of \f$6^\circ\f$ vertex of 1° cell \n
|
|
!> connect(8) = 6 identification flag of \f$7^\circ\f$ vertex of 1° cell \n
|
|
!> connect(9) = 7 identification flag of \f$8^\circ\f$ vertex of 1° cell \n
|
|
!> second cell \n
|
|
!> connect(10) = 5 number of vertices of \f$2^\circ \f$cell \n
|
|
!> connect(11) = 0 identification flag of \f$1^\circ\f$ vertex of 2° cell \n
|
|
!> connect(12) = 1 identification flag of \f$2^\circ\f$ vertex of 2° cell \n
|
|
!> connect(13) = 2 identification flag of \f$3^\circ\f$ vertex of 2° cell \n
|
|
!> connect(14) = 3 identification flag of \f$4^\circ\f$ vertex of 2° cell \n
|
|
!> connect(15) = 8 identification flag of \f$5^\circ\f$ vertex of 2° cell \n
|
|
!> Note that the first 4 identification flags of pyramid vertices as the same of the first 4 identification flags of
|
|
!> the hexahedron because the two cells share this face. It is also important to note that the identification flags start
|
|
!> form $0$ value: this is impose to the VTK standard. The function VTK_CON does not calculate the connectivity vector: it
|
|
!> writes the connectivity vector conforming the VTK standard, but does not calculate it.
|
|
!> The vector variable \em cell_type must conform the VTK-legacy standard (see the file VTK-Standard at the
|
|
!> Kitware homepage). It contains the
|
|
!> \em type of each cells. For the above example this vector is: \n
|
|
!> first cell \n
|
|
!> cell_type(1) = 12 hexahedron type of \f$1^\circ\f$ cell \n
|
|
!> second cell \n
|
|
!> cell_type(2) = 14 pyramid type of \f$2^\circ\f$ cell \n
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTK_CON(NC,connect,cell_type) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC !< Number of cells.
|
|
integer(I4P), intent(IN):: connect(:) !< Mesh connectivity.
|
|
integer(I4P), intent(IN):: cell_type(1:NC) !< VTK cell type.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I4P):: ncon !< Dimension of connectivity vector.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
ncon = size(connect,1)
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,2'//FI4P//')',iostat=E_IO)'CELLS ',NC,ncon
|
|
write(unit=vtk(f)%u,fmt=FI4P, iostat=E_IO)connect
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//')', iostat=E_IO)'CELL_TYPES ',NC
|
|
write(unit=vtk(f)%u,fmt=FI4P, iostat=E_IO)cell_type
|
|
case(binary)
|
|
write(s_buffer, fmt='(A,2'//FI4P//')',iostat=E_IO)'CELLS ',NC,ncon
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)connect
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
write(s_buffer, fmt='(A,'//FI4P//')', iostat=E_IO)'CELL_TYPES ',NC
|
|
write(unit=vtk(f)%u, iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u, iostat=E_IO)cell_type
|
|
write(unit=vtk(f)%u, iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_CON
|
|
|
|
!> Function that \b must be called before saving the data related to geometric mesh, this function initializes the
|
|
!> saving of data variables indicating the \em type (node or cell centered) of variables that will be saved.
|
|
!> @note A single file can contain both cell and node centered variables. In this case the VTK_DAT function must be
|
|
!> called two times, before saving cell-centered variables and before saving node-centered variables.
|
|
!> Examples of usage are: \n
|
|
!> \b Node piece: \n
|
|
!> @code ...
|
|
!> E_IO=VTK_DAT(50,'node')
|
|
!> ... @endcode
|
|
!> \b Cell piece: \n
|
|
!> @code ...
|
|
!> E_IO=VTK_DAT(50,'cell')
|
|
!> ... @endcode
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTK_DAT(NC_NN,var_location) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of cells or nodes of field.
|
|
character(*), intent(IN):: var_location !< Location of saving variables: cell for cell-centered, node for node-centered.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
select case(trim(Upper_Case(var_location)))
|
|
case('CELL')
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//')',iostat=E_IO)'CELL_DATA ',NC_NN
|
|
case('NODE')
|
|
write(unit=vtk(f)%u,fmt='(A,'//FI4P//')',iostat=E_IO)'POINT_DATA ',NC_NN
|
|
endselect
|
|
case(binary)
|
|
select case(trim(Upper_Case(var_location)))
|
|
case('CELL')
|
|
write(s_buffer,fmt='(A,'//FI4P//')',iostat=E_IO)'CELL_DATA ',NC_NN
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
case('NODE')
|
|
write(s_buffer,fmt='(A,'//FI4P//')',iostat=E_IO)'POINT_DATA ',NC_NN
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
endselect
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_DAT
|
|
|
|
!> @ingroup Lib_VTK_IOPrivateProcedure
|
|
!> @{
|
|
!> Function for saving field of scalar variable (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_SCAL_R8(NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R8P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'SCALARS '//trim(varname)//' double 1'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'LOOKUP_TABLE default'
|
|
write(unit=vtk(f)%u,fmt=FR8P, iostat=E_IO)var
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)'SCALARS '//trim(varname)//' double 1'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)'LOOKUP_TABLE default'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)var
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_SCAL_R8
|
|
|
|
!> Function for saving field of scalar variable (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_SCAL_R4(NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R4P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'SCALARS '//trim(varname)//' float 1'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'LOOKUP_TABLE default'
|
|
write(unit=vtk(f)%u,fmt=FR4P, iostat=E_IO)var
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)'SCALARS '//trim(varname)//' float 1'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)'LOOKUP_TABLE default'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)var
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_SCAL_R4
|
|
|
|
!> Function for saving field of scalar variable (I4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_SCAL_I4(NC_NN,varname,var) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I4P), intent(IN):: var(1:NC_NN) !< Variable to be saved.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'SCALARS '//trim(varname)//' int 1'
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'LOOKUP_TABLE default'
|
|
write(unit=vtk(f)%u,fmt=FI4P, iostat=E_IO)var
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)'SCALARS '//trim(varname)//' int 1'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)'LOOKUP_TABLE default'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)var
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_SCAL_I4
|
|
|
|
!> Function for saving field of vectorial variable (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_VECT_R8(vec_type,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(*), intent(IN):: vec_type !< Vector type: vect = generic vector , norm = normal vector.
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R8P), intent(IN):: varX(1:NC_NN) !< X component of vector.
|
|
real(R8P), intent(IN):: varY(1:NC_NN) !< Y component of vector.
|
|
real(R8P), intent(IN):: varZ(1:NC_NN) !< Z component of vector.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
integer(I8P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
select case(Upper_Case(trim(vec_type)))
|
|
case('VECT')
|
|
write(unit=vtk(f)%u,fmt='(A)', iostat=E_IO)'VECTORS '//trim(varname)//' double'
|
|
case('NORM')
|
|
write(unit=vtk(f)%u,fmt='(A)', iostat=E_IO)'NORMALS '//trim(varname)//' double'
|
|
endselect
|
|
write(unit=vtk(f)%u,fmt='(3'//FR8P//')',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
case(binary)
|
|
select case(Upper_Case(trim(vec_type)))
|
|
case('VECT')
|
|
write(unit=vtk(f)%u,iostat=E_IO)'VECTORS '//trim(varname)//' double'//end_rec
|
|
case('NORM')
|
|
write(unit=vtk(f)%u,iostat=E_IO)'NORMALS '//trim(varname)//' double'//end_rec
|
|
endselect
|
|
write(unit=vtk(f)%u,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_VECT_R8
|
|
|
|
!> Function for saving field of vectorial variable (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_VECT_R4(vec_type,NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
character(*), intent(IN):: vec_type !< Vector type: vect = generic vector , norm = normal vector.
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R4P), intent(IN):: varX(1:NC_NN) !< X component of vector.
|
|
real(R4P), intent(IN):: varY(1:NC_NN) !< Y component of vector.
|
|
real(R4P), intent(IN):: varZ(1:NC_NN) !< Z component of vector.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
integer(I8P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
select case(Upper_Case(trim(vec_type)))
|
|
case('vect')
|
|
write(unit=vtk(f)%u,fmt='(A)', iostat=E_IO)'VECTORS '//trim(varname)//' float'
|
|
case('norm')
|
|
write(unit=vtk(f)%u,fmt='(A)', iostat=E_IO)'NORMALS '//trim(varname)//' float'
|
|
endselect
|
|
write(unit=vtk(f)%u,fmt='(3'//FR4P//')',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
case(binary)
|
|
select case(Upper_Case(trim(vec_type)))
|
|
case('vect')
|
|
write(unit=vtk(f)%u,iostat=E_IO)'VECTORS '//trim(varname)//' float'//end_rec
|
|
case('norm')
|
|
write(unit=vtk(f)%u,iostat=E_IO)'NORMALS '//trim(varname)//' float'//end_rec
|
|
endselect
|
|
write(unit=vtk(f)%u,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_VECT_R4
|
|
|
|
!> Function for saving field of vectorial variable (I4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_VECT_I4(NC_NN,varname,varX,varY,varZ) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
integer(I4P), intent(IN):: varX(1:NC_NN) !< X component of vector.
|
|
integer(I4P), intent(IN):: varY(1:NC_NN) !< Y component of vector.
|
|
integer(I4P), intent(IN):: varZ(1:NC_NN) !< Z component of vector.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
integer(I8P):: n1 !< Counter.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A)',iostat=E_IO)'VECTORS '//trim(varname)//' int'
|
|
write(unit=vtk(f)%u,fmt='(3'//FI4P//')',iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
case(binary)
|
|
write(unit=vtk(f)%u,iostat=E_IO)'VECTORS '//trim(varname)//' int'//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)(varX(n1),varY(n1),varZ(n1),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_VECT_I4
|
|
|
|
!> Function for saving texture variable (R8P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_TEXT_R8(NC_NN,dimm,varname,textCoo) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
integer(I4P), intent(IN):: dimm !< Texture dimensions.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R8P), intent(IN):: textCoo(1:NC_NN,1:dimm) !< Texture.
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
character(len=maxlen):: s_buffer !< Buffer string.
|
|
integer(I8P):: n1,n2 !< Counters.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
|
|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,1X,'//FI4P//',1X,A)',iostat=E_IO)'TEXTURE_COORDINATES '//trim(varname),dimm,' double'
|
|
write(s_buffer,fmt='(I1)',iostat=E_IO)dimm
|
|
s_buffer='('//trim(s_buffer)//FR4P//')'
|
|
write(unit=vtk(f)%u,fmt=trim(s_buffer),iostat=E_IO)((textCoo(n1,n2),n2=1,dimm),n1=1,NC_NN)
|
|
case(binary)
|
|
write(s_buffer,fmt='(A,1X,'//FI4P//',1X,A)',iostat=E_IO)'TEXTURE_COORDINATES '//trim(varname),dimm,' double'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)((textCoo(n1,n2),n2=1,dimm),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_TEXT_R8
|
|
|
|
!> Function for saving texture variable (R4P).
|
|
!> @return E_IO: integer(I4P) error flag
|
|
function VTK_VAR_TEXT_R4(NC_NN,dimm,varname,textCoo) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
!! Function for saving texture variable (R4P).
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(IN):: NC_NN !< Number of nodes or cells.
|
|
integer(I4P), intent(IN):: dimm !< Texture dimensions.
|
|
character(*), intent(IN):: varname !< Variable name.
|
|
real(R4P), intent(IN):: textCoo(1:NC_NN,1:dimm) !< Texture.
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integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
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|
character(len=maxlen):: s_buffer !< Buffer string.
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|
integer(I8P):: n1,n2 !< Counters.
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|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
select case(vtk(f)%f)
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|
case(ascii)
|
|
write(unit=vtk(f)%u,fmt='(A,1X,'//FI4P//',1X,A)',iostat=E_IO)'TEXTURE_COORDINATES '//trim(varname),dimm,' float'
|
|
write(s_buffer,fmt='(I1)',iostat=E_IO)dimm
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|
s_buffer='('//trim(s_buffer)//FR4P//')'
|
|
write(unit=vtk(f)%u,fmt=trim(s_buffer),iostat=E_IO)((textCoo(n1,n2),n2=1,dimm),n1=1,NC_NN)
|
|
case(binary)
|
|
write(s_buffer,fmt='(A,1X,'//FI4P//',1X,A)',iostat=E_IO)'TEXTURE_COORDINATES '//trim(varname),dimm,' float'
|
|
write(unit=vtk(f)%u,iostat=E_IO)trim(s_buffer)//end_rec
|
|
write(unit=vtk(f)%u,iostat=E_IO)((textCoo(n1,n2),n2=1,dimm),n1=1,NC_NN)
|
|
write(unit=vtk(f)%u,iostat=E_IO)end_rec
|
|
endselect
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_VAR_TEXT_R4
|
|
!> @}
|
|
|
|
!>Function for finalizing open file, it has not inputs, @libvtk manages the file unit without the
|
|
!>user's action.
|
|
!> @note An example of usage is: \n
|
|
!> @code ...
|
|
!> E_IO=VTK_END()
|
|
!> ... @endcode
|
|
!> @return E_IO: integer(I4P) error flag
|
|
!> @ingroup Lib_VTK_IOPublicProcedure
|
|
function VTK_END(cf) result(E_IO)
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
implicit none
|
|
integer(I4P), intent(INOUT), optional:: cf !< Current file index (for concurrent files IO).
|
|
integer(I4P):: E_IO !< Input/Output inquiring flag: $0$ if IO is done, $> 0$ if IO is not done.
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
if (present(cf)) f = cf
|
|
close(unit=vtk(f)%u,iostat=E_IO)
|
|
call vtk_update(act='remove')
|
|
if (present(cf)) cf = f
|
|
return
|
|
!---------------------------------------------------------------------------------------------------------------------------------
|
|
endfunction VTK_END
|
|
endmodule Lib_VTK_IO
|