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Podhorszki, Norbert authored
Some code for joined array reading in adios1 engine, incomplete. Rather should support it in adios1 itself. Committed only to have a working Write/Read API so that we can have examples with global arrays finalized.
Podhorszki, Norbert authoredSome code for joined array reading in adios1 engine, incomplete. Rather should support it in adios1 itself. Committed only to have a working Write/Read API so that we can have examples with global arrays finalized.
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ADIOS1Writer.cpp 15.69 KiB
/*
* Distributed under the OSI-approved Apache License, Version 2.0. See
* accompanying file Copyright.txt for details.
*
* ADIOS1Writer.cpp
* Class to write files using old adios 1.x library.
* It requires adios 1.x installed
*
* Created on: Mar 27, 2017
* Author: pnb
*/
#include "ADIOS1Writer.h"
#include "adios2/core/adiosFunctions.h"
extern int adios_verbose_level;
extern int adios_errno;
namespace adios
{
ADIOS1Writer::ADIOS1Writer(ADIOS &adios, const std::string &name,
const std::string accessMode, MPI_Comm mpiComm,
const Method &method)
: Engine(adios, "ADIOS1Writer", name, accessMode, mpiComm, method,
" ADIOS1Writer constructor (or call to ADIOS Open).\n"),
m_groupname{method.m_Name.c_str()}, m_filename{name.c_str()}, m_comm{mpiComm}
{
Init();
adios_open(&m_adios_file, m_groupname, m_filename, accessMode.c_str(),
m_comm);
if (adios_errno == err_no_error)
{
m_IsFileOpen = true;
}
}
ADIOS1Writer::~ADIOS1Writer()
{
if (m_IsFileOpen)
{
adios_close(m_adios_file);
m_IsFileOpen = false;
}
}
void ADIOS1Writer::Init()
{
if (!m_initialized)
{
adios_init_noxml(m_comm);
m_initialized = true;
}
adios_declare_group(&m_adios_group, m_groupname, "", adios_stat_default);
InitParameters();
InitTransports();
}
bool ADIOS1Writer::ReOpenAsNeeded()
{
if (!m_IsFileOpen)
{
adios_open(&m_adios_file, m_groupname, m_filename, "a", m_comm);
if (adios_errno == err_no_error)
{
m_IsFileOpen = true;
adios_delete_vardefs(m_adios_group);
} }
return m_IsFileOpen;
}
void ADIOS1Writer::DefineVariable(std::string name, VarClass varclass,
enum ADIOS_DATATYPES vartype,
std::string ldims, std::string gdims,
std::string offs)
{
switch (varclass)
{
case VarClass::GlobalValue:
adios_define_var(m_adios_group, name.c_str(), "", vartype, "", "", "");
break;
case VarClass::LocalValue:
adios_define_var(m_adios_group, name.c_str(), "", vartype, "", "", "");
adios_define_attribute(m_adios_group, "ReadAsArray", name.c_str(),
adios_byte, "1", nullptr);
break;
case VarClass::GlobalArray:
case VarClass::LocalArray:
case VarClass::JoinedArray:
adios_define_var(m_adios_group, name.c_str(), "", vartype,
ldims.c_str(), gdims.c_str(), offs.c_str());
break;
}
}
void ADIOS1Writer::WriteVariable(std::string name, VarClass varclass,
enum ADIOS_DATATYPES vartype,
std::string ldims, std::string gdims,
std::string offs, const void *values)
{
if (ReOpenAsNeeded())
{
DefineVariable(name, varclass, vartype, ldims, gdims, offs);
adios_write(m_adios_file, name.c_str(), values);
}
}
static std::string DimsToCSV_LocalAware(const std::vector<std::size_t> &dims)
{
std::string dimsCSV;
bool localVar = false;
for (const auto dim : dims)
{
dimsCSV += std::to_string(dim) + ",";
if (dim == JoinedDim || dim == IrregularDim)
localVar = true;
}
if (dimsCSV.empty() == false)
{
dimsCSV.pop_back();
}
/*if (localVar)
{
dimsCSV.clear();
}*/
return dimsCSV;
}
void ADIOS1Writer::Write(Variable<char> &variable, const char *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_byte,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape), DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<unsigned char> &variable,
const unsigned char *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_unsigned_byte,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<short> &variable, const short *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_short,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<unsigned short> &variable,
const unsigned short *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_unsigned_short,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<int> &variable, const int *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_integer,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<unsigned int> &variable,
const unsigned int *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_unsigned_integer,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<long int> &variable, const long int *values)
{
enum ADIOS_DATATYPES type =
adios_integer; // long int is usually 4 bytes which is adios_integer
if (sizeof(long int) == 8)
{
type = adios_long;
}
WriteVariable(variable.m_Name, variable.m_VarClass, type,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<unsigned long int> &variable,
const unsigned long int *values)
{
enum ADIOS_DATATYPES type =
adios_unsigned_integer; // long int is usually 4 bytes
if (sizeof(long int) == 8)
{
type = adios_unsigned_long;
}
WriteVariable(variable.m_Name, variable.m_VarClass, type, DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<long long int> &variable,
const long long int *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_long,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<unsigned long long int> &variable,
const unsigned long long int *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_unsigned_long,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<float> &variable, const float *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_real,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<double> &variable, const double *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_double,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<long double> &variable,
const long double *values)
{
/* TODO: This is faulty: adios_long_double expects 16 bytes per elements,
* but
* long double is compiler dependent */
WriteVariable(variable.m_Name, variable.m_VarClass, adios_long_double,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<std::complex<float>> &variable,
const std::complex<float> *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_complex,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<std::complex<double>> &variable,
const std::complex<double> *values)
{
WriteVariable(variable.m_Name, variable.m_VarClass, adios_double_complex,
DimsToCSV_LocalAware(variable.m_Count),
DimsToCSV_LocalAware(variable.m_Shape),
DimsToCSV_LocalAware(variable.m_Start), values);
}
void ADIOS1Writer::Write(Variable<std::complex<long double>> &variable, const std::complex<long double> *values)
{
throw std::invalid_argument(
"ERROR: Adios 1.x does not support complex<long "
"double> type, so it cannot write variable " +
variable.m_Name + "\n");
}
void ADIOS1Writer::Write(VariableCompound &variable, const void *values)
{
throw std::invalid_argument("ERROR: Adios 1.x does not support compound "
"types, so it cannot write variable " +
variable.m_Name + "\n");
}
// String version
void ADIOS1Writer::Write(const std::string &variableName, const char *values)
{
Write(m_ADIOS.GetVariable<char>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const unsigned char *values)
{
Write(m_ADIOS.GetVariable<unsigned char>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName, const short *values)
{
Write(m_ADIOS.GetVariable<short>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const unsigned short *values)
{
Write(m_ADIOS.GetVariable<unsigned short>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName, const int *values)
{
Write(m_ADIOS.GetVariable<int>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const unsigned int *values)
{
Write(m_ADIOS.GetVariable<unsigned int>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const long int *values)
{
Write(m_ADIOS.GetVariable<long int>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const unsigned long int *values)
{
Write(m_ADIOS.GetVariable<unsigned long int>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const long long int *values)
{
Write(m_ADIOS.GetVariable<long long int>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const unsigned long long int *values)
{ Write(m_ADIOS.GetVariable<unsigned long long int>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName, const float *values)
{
Write(m_ADIOS.GetVariable<float>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName, const double *values)
{
Write(m_ADIOS.GetVariable<double>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const long double *values)
{
Write(m_ADIOS.GetVariable<long double>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const std::complex<float> *values)
{
Write(m_ADIOS.GetVariable<std::complex<float>>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const std::complex<double> *values)
{
Write(m_ADIOS.GetVariable<std::complex<double>>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const std::complex<long double> *values)
{
Write(m_ADIOS.GetVariable<std::complex<long double>>(variableName), values);
}
void ADIOS1Writer::Write(const std::string &variableName,
const void *values) // Compound type
{
throw std::invalid_argument("ERROR: Adios 1.x does not support compound "
"types, so it cannot write variable " +
variableName + "\n");
}
void ADIOS1Writer::Advance(const float /*timeout_sec*/)
{
if (m_IsFileOpen)
{
adios_close(m_adios_file);
m_IsFileOpen = false;
}
}
void ADIOS1Writer::Close(const int transportIndex)
{
if (m_IsFileOpen)
{
adios_close(m_adios_file);
m_IsFileOpen = false;
}
}
// PRIVATE FUNCTIONS
void ADIOS1Writer::InitParameters()
{
auto itMaxBufferSize = m_Method.m_Parameters.find("max_size_MB");
if (itMaxBufferSize != m_Method.m_Parameters.end())
{
adios_set_max_buffer_size(std::stoul(itMaxBufferSize->second)); }
auto itVerbosity = m_Method.m_Parameters.find("verbose");
if (itVerbosity != m_Method.m_Parameters.end())
{
int verbosity = std::stoi(itVerbosity->second);
if (m_DebugMode == true)
{
if (verbosity < 0 || verbosity > 5)
throw std::invalid_argument(
"ERROR: Method verbose argument must be an "
"integer in the range [0,5], in call to "
"Open or Engine constructor\n");
}
adios_verbose_level = verbosity;
}
}
void ADIOS1Writer::InitTransports()
{
if (m_DebugMode == true)
{
if (TransportNamesUniqueness() == false)
{
throw std::invalid_argument(
"ERROR: two transports of the same kind (e.g file IO) "
"can't have the same name, modify with name= in Method "
"AddTransport\n");
}
}
for (const auto ¶meters : m_Method.m_TransportParameters)
{
auto itTransport = parameters.find("transport");
if (itTransport->second == "file" || itTransport->second == "File")
{
auto itLibrary = parameters.find("library");
if (itLibrary == parameters.end() ||
itLibrary->second == "POSIX") // use default POSIX
{
adios_select_method(m_adios_group, "POSIX", "", "");
}
else if (itLibrary->second == "MPI_File" ||
itLibrary->second == "MPI-IO")
{
adios_select_method(m_adios_group, "MPI", "", "");
}
else
{
if (m_DebugMode == true)
throw std::invalid_argument(
"ERROR: file transport library " + itLibrary->second +
" not supported, in " + m_Name + m_EndMessage);
}
}
else
{
if (m_DebugMode == true)
throw std::invalid_argument(
"ERROR: transport " + itTransport->second +
" (you mean File?) not supported, in " + m_Name +
m_EndMessage);
}
}
}
} // end namespace adios