/* -------------------------------------------------------------------------- * * OpenMM * * -------------------------------------------------------------------------- * * This is part of the OpenMM molecular simulation toolkit originating from * * Simbios, the NIH National Center for Physics-Based Simulation of * * Biological Structures at Stanford, funded under the NIH Roadmap for * * Medical Research, grant U54 GM072970. See https://simtk.org. * * * * Portions copyright (c) 2009 Stanford University and the Authors. * * Authors: Mark Friedrichs, Mike Houston * * Contributors: * * * * This program is free software: you can redistribute it and/or modify * * it under the terms of the GNU Lesser General Public License as published * * by the Free Software Foundation, either version 3 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU Lesser General Public License for more details. * * * * You should have received a copy of the GNU Lesser General Public License * * along with this program. If not, see . * * -------------------------------------------------------------------------- */ #include #include "openmm/OpenMMException.h" #include "BrookStreamImpl.h" using namespace OpenMM; using namespace std; /** * BrookStreamImpl constructor * * @param name stream name * @param size stream size * @param streamWidth stream width * @param type StreamImpl data type (float, float2, ...) * @param platform platform reference * */ BrookStreamImpl::BrookStreamImpl( const std::string& name, int size, int streamWidth, Stream::DataType type, const Platform& platform ) : StreamImpl( name, size, type, platform ){ // --------------------------------------------------------------------------------------- static const std::string methodName = "BrookStreamImpl::BrookStreamImpl"; // --------------------------------------------------------------------------------------- int isFloat; BrookStreamInternal::DataType internalType = getTypeMap( type, &isFloat ); if( isFloat == 1 || isFloat == 2 ){ double dangleValue = 0.0; _brookStreamInternal = new BrookFloatStreamInternal( name, size, streamWidth, internalType, dangleValue ); } else if( isFloat == 0 ){ int dangleValue = 0; _brookStreamInternal = new BrookIntStreamInternal( name, size, streamWidth, internalType, dangleValue ); } else { std::stringstream message; message << methodName << " type=" << type << " for stream=" << name << " is invalid."; throw OpenMMException( message.str() ); } } /** * BrookStreamImpl destructor * */ BrookStreamImpl::~BrookStreamImpl( ){ // --------------------------------------------------------------------------------------- //static const std::string methodName = "BrookStreamImpl::~BrookStreamImpl"; // --------------------------------------------------------------------------------------- } /** * BrookStreamImpl constructor * * @param type StreamImpl data type (float, float2, ...) * @param isFloat on output = 1 if float * 2 if double * 0 if integer * * @return BrookStreamInternal::DataType mapping to Stream::DataType type * if no match, return BrookStreamInternal::Unknown * */ BrookStreamInternal::DataType BrookStreamImpl::getTypeMap( Stream::DataType type, int* isFloat ) const { // --------------------------------------------------------------------------------------- // static const std::string methodName = "BrookStreamImpl::getTypeMap"; // --------------------------------------------------------------------------------------- *isFloat = 0; BrookStreamInternal::DataType internalType = BrookStreamInternal::Unknown; switch ( type ){ case Stream::Float: internalType = BrookStreamInternal::Float; *isFloat = 1; break; case Stream::Float2: internalType = BrookStreamInternal::Float2; *isFloat = 1; break; case Stream::Float3: internalType = BrookStreamInternal::Float3; *isFloat = 1; break; case Stream::Float4: internalType = BrookStreamInternal::Float4; *isFloat = 1; break; case Stream::Double: internalType = BrookStreamInternal::Double; *isFloat = 2; break; case Stream::Double2: internalType = BrookStreamInternal::Double2; *isFloat = 2; break; case Stream::Double3: internalType = BrookStreamInternal::Double3; *isFloat = 2; break; case Stream::Double4: internalType = BrookStreamInternal::Double4; *isFloat = 2; break; case Stream::Integer: internalType = BrookStreamInternal::Integer; *isFloat = 0; break; case Stream::Integer2: internalType = BrookStreamInternal::Integer2; *isFloat = 0; break; case Stream::Integer3: internalType = BrookStreamInternal::Integer3; *isFloat = 0; break; case Stream::Integer4: internalType = BrookStreamInternal::Integer4; *isFloat = 0; break; } return internalType; } /** * Get width * * @return width */ int BrookStreamImpl::getWidth( void ) const { return _brookStreamInternal->getWidth(); } /** * Get stream width * * @return stream width */ int BrookStreamImpl::getStreamWidth( void ) const { return _brookStreamInternal->getStreamWidth(); } /** * Get stream height * * @return stream height */ int BrookStreamImpl::getStreamHeight( void ) const { return _brookStreamInternal->getStreamHeight(); } /** * Get stream size * * @return stream size */ int BrookStreamImpl::getStreamSize( void ) const { return _brookStreamInternal->getStreamSize(); } /** * Copy the contents of an array into this stream. * * @param array a pointer to the start of the array. The array is assumed to have the same length as this stream, * and to contain elements of the correct data type for this stream. If the stream has a compound data type, all * the values should be packed into a single array: all the values for the first element, followed by all the values * for the next element, etc. */ void BrookStreamImpl::loadFromArray( const void* array ){ return _brookStreamInternal->loadFromArray( array ); } /** * Copy the contents of this stream into an array. * * @param array a pointer to the start of the array. The array is assumed to have the same length as this stream, * and to contain elements of the correct data type for this stream. If the stream has a compound data type, all * the values should be packed into a single array: all the values for the first element, followed by all the values * for the next element, etc. */ void BrookStreamImpl::saveToArray( void* array ){ return _brookStreamInternal->saveToArray( array ); } /** * Set every element of this stream to the same value. * * @param a pointer to the value. It is assumed to be of the correct data type for this stream. */ void BrookStreamImpl::fillWithValue( void* value ){ return _brookStreamInternal->fillWithValue( value ); } /** * Set every element of this stream to the same value. * * @return data array */ void* BrookStreamImpl::getData( void ){ return _brookStreamInternal->getData( ); } /** * Set every element of this stream to the same value. * * @param readFromBoard if set, read data from board * * @return data array */ void* BrookStreamImpl::getData( int readFromBoard ){ return _brookStreamInternal->getData( readFromBoard ); } /** * Get Brook stream * * @return Brook stream reference */ brook::stream& BrookStreamImpl::getBrookStream( void ){ return _brookStreamInternal->getBrookStream( ); } /** * Get Brook stream impl * * @return Brook stream impl */ BrookStreamInternal* BrookStreamImpl::getBrookStreamInternal( void ) const { return _brookStreamInternal; }