char* _Stg_ComponentFactory_GetString( void* cf, Name componentName, Dictionary_Entry_Key key, const char* const defaultVal ) {
return Dictionary_Entry_Value_AsString(
_Stg_ComponentFactory_GetDictionaryValue( cf, componentName, key,
Dictionary_Entry_Value_FromString( defaultVal ) ) );
}
char* Stg_ComponentFactory_PluginGetString( void* cf, void* codelet, Dictionary_Entry_Key key, const char* const defaultVal ) {
return Dictionary_Entry_Value_AsString(
_Stg_ComponentFactory_PluginGetDictionaryValue( cf, codelet, key,
Dictionary_Entry_Value_FromString( defaultVal ) ) );
}
void stgGenerateFlattenedXML( Dictionary* dictionary, Dictionary* sources, char* timeStamp ) {
XML_IO_Handler* ioHandler;
char* outputPath;
char* flatFilename;
char* flatFilenameStamped;
char* slimFilename;
Stream* s;
Bool isEnabled;
Bool ret;
Bool outputSlim;
s = Journal_Register( Info_Type, (Name)XML_IO_Handler_Type );
/* Avoid confusing messages from XML_IO_Handler. Turn it off temporarily. */
isEnabled = Stream_IsEnable( s );
Stream_EnableSelfOnly( s, False );
ioHandler = XML_IO_Handler_New();
if( sources == NULL )
ioHandler->writeSources = False;
outputPath = StG_Strdup( Dictionary_Entry_Value_AsString( Dictionary_GetDefault( dictionary,
(Dictionary_Entry_Key)"outputPath", Dictionary_Entry_Value_FromString( "./" ) ) ) );
outputSlim = Dictionary_Entry_Value_AsBool( Dictionary_GetDefault( dictionary,
(Dictionary_Entry_Key)"outputSlimmedXML", Dictionary_Entry_Value_FromBool( True ) ) );
if( ! Stg_DirectoryExists( outputPath ) ) {
if( Stg_FileExists( outputPath ) )
Journal_Firewall( 0, s, "outputPath '%s' is a file an not a directory! Exiting...\n", outputPath );
Journal_Printf( s, "outputPath '%s' does not exist, attempting to create...\n", outputPath );
ret = Stg_CreateDirectory( outputPath );
Journal_Firewall( ret, s, "Unable to create non-existing outputPath to '%s'\n", outputPath );
Journal_Printf( s, "outputPath '%s' successfully created!\n", outputPath );
}
/* Set file names. */
Stg_asprintf( &flatFilename, "%s/%s", outputPath, "input.xml" );
IO_Handler_WriteAllToFile( ioHandler, flatFilename, dictionary, sources );
/* Format; path/input-YYYY.MM.DD-HH.MM.SS.xml. */
if (timeStamp) {
Stg_asprintf( &flatFilenameStamped, "%s/%s-%s.%s",
outputPath, "input", timeStamp, "xml" );
IO_Handler_WriteAllToFile( ioHandler, flatFilenameStamped, dictionary, sources );
Memory_Free( flatFilenameStamped );
}
if( outputSlim && timeStamp ) {
ioHandler->writeSources = False;
Stg_asprintf( &slimFilename, "%s/%s-%s.%s",
outputPath, "input-basic", timeStamp, "xml" );
IO_Handler_WriteAllToFile( ioHandler, slimFilename, dictionary, NULL);
}
Stream_EnableSelfOnly( s, isEnabled );
Stg_Class_Delete( ioHandler );
Memory_Free( flatFilename );
}
void WallVCSuite_TestWallVC( WallVCSuiteData* data ) {
unsigned nDomains;
unsigned nDims = 3;
unsigned meshSize[3] = {3, 3, 3};
int procToWatch;
double minCrds[3] = {0.0, 0.0, 0.0};
double maxCrds[3] = {1.0, 1.0, 1.0};
char* vcKey[] = {"WallVC_Front", "WallVC_Back", "WallVC_Left", "WallVC_Right",
"WallVC_Top", "WallVC_Bottom"};
char* vcKeyName[] = {"WallVC_FrontName", "WallVC_BackName", "WallVC_LeftName", "WallVC_RightName",
"WallVC_TopName", "WallVC_BottomName"};
char* varName[] = {"x", "y", "z", "vx", "vy", "vz", "temp"};
char input_file[PCU_PATH_MAX];
char expected_file[PCU_PATH_MAX];
Mesh* mesh;
Variable_Register* variable_Register;
ConditionFunction* quadCF;
ConditionFunction* expCF;
ConditionFunction_Register* conFunc_Register;
ExtensionManager_Register* extensionMgr_Register;
Dictionary* dictionary;
Dictionary* sources;
Stream* stream;
XML_IO_Handler* io_handler;
Variable* var[7];
double* array[7];
VariableCondition* vc;
Index i;
procToWatch = data->nProcs >=2 ? 1 : 0;
io_handler = XML_IO_Handler_New();
stream = Journal_Register( Info_Type, (Name)"WallVCStream" );
Stream_RedirectFile( stream, "testWallVC.dat" );
dictionary = Dictionary_New();
sources = Dictionary_New();
Dictionary_Add( dictionary, (Dictionary_Entry_Key)"outputPath", Dictionary_Entry_Value_FromString("./output") );
/* Input file */
pcu_filename_input( "wallVC.xml", input_file );
IO_Handler_ReadAllFromFile( io_handler, input_file, dictionary, sources );
fflush( stdout );
extensionMgr_Register = ExtensionManager_Register_New();
/* Create a mesh. */
mesh = (Mesh*) WallVCSuite_buildMesh( nDims, meshSize, minCrds, maxCrds, extensionMgr_Register );
nDomains = Mesh_GetDomainSize( mesh, MT_VERTEX );
/* Create CF stuff */
quadCF = ConditionFunction_New( WallVCSuite_quadratic, (Name)"quadratic", NULL );
expCF = ConditionFunction_New( WallVCSuite_exponential, (Name)"exponential", NULL);
conFunc_Register = ConditionFunction_Register_New( );
ConditionFunction_Register_Add(conFunc_Register, quadCF);
ConditionFunction_Register_Add(conFunc_Register, expCF);
/* Create variable register */
variable_Register = Variable_Register_New();
/* Create variables */
for (i = 0; i < 6; i++) {
array[i] = Memory_Alloc_Array( double, nDomains, "array[i]" );
var[i] = Variable_NewScalar( varName[i], NULL, Variable_DataType_Double, (Index*)&nDomains, NULL, (void**)&array[i], 0 );
Variable_Register_Add(variable_Register, var[i]);
}
array[6] = Memory_Alloc_Array( double, nDomains * 5, "array[6]" );
var[6] = Variable_NewVector( varName[6], NULL, Variable_DataType_Double, 5, &nDomains, NULL, (void**)&array[6], 0 );
Variable_Register_Add(variable_Register, var[6]);
Variable_Register_BuildAll(variable_Register);
for (i = 0; i < 6; i++) {
Index j, k;
vc = (VariableCondition*) WallVC_New( vcKeyName[i], NULL, vcKey[i], variable_Register, conFunc_Register, dictionary, mesh );
Stg_Component_Build( vc, 0, False );
for (j = 0; j < 6; j++)
memset(array[j], 0, sizeof(double)* nDomains );
memset(array[6], 0, sizeof(double)* nDomains * 5);
VariableCondition_Apply(vc, NULL);
if (data->rank == procToWatch) {
Journal_Printf( stream,"Testing for %s\n", vcKey[i]);
for (j = 0; j < 6; j++) {
Journal_Printf( stream,"\nvar[%u]: %.2lf", j, array[j][0]);
for (k = 1; k < nDomains; k++)
Journal_Printf( stream,", %.2lf", array[j][k]);
}
Journal_Printf( stream,"\nvar[6]: %.2lf", array[6][0]);
for (j = 1; j < nDomains*5; j++)
Journal_Printf( stream,", %.2lf", array[6][j]);
Journal_Printf( stream,"\n\n");
for (j = 0; j < 7; j++) {
for (k = 0; k < nDomains; k++)
Journal_Printf( stream,"%s ", VariableCondition_IsCondition(vc, k, j) ? "True " : "False");
Journal_Printf( stream,"\n");
} Journal_Printf( stream,"\n");
for (j = 0; j < 7; j++) {
for (k = 0; k < nDomains; k++) {
VariableCondition_ValueIndex valIndex;
valIndex = VariableCondition_GetValueIndex(vc, k, j);
if (valIndex != (unsigned)-1)
Journal_Printf( stream,"%03u ", valIndex);
else
Journal_Printf( stream,"XXX ");
} Journal_Printf( stream,"\n");
} Journal_Printf( stream,"\n");
}
Stg_Class_Delete(vc);
}
if (data->rank == procToWatch) {
pcu_filename_expected( "testWallVC.expected", expected_file );
pcu_check_fileEq( "testWallVC.dat", expected_file );
remove( "testWallVC.dat" );
}
Stg_Class_Delete(variable_Register);
for (i = 0; i < 7; i++) {
Stg_Class_Delete(var[i]);
if (array[i]) Memory_Free(array[i]);
}
Stg_Class_Delete(extensionMgr_Register);
Stg_Class_Delete(io_handler);
Stg_Class_Delete(conFunc_Register);
Stg_Class_Delete(quadCF);
Stg_Class_Delete(expCF);
Stg_Class_Delete(dictionary);
Stg_Class_Delete(sources);
FreeObject( mesh );
}
void _SnacRemesher_ConstructExtensions( void* _context, void* data ) {
Snac_Context* context = (Snac_Context*)_context;
SnacRemesher_Context* contextExt = ExtensionManager_Get(
context->extensionMgr,
context,
SnacRemesher_ContextHandle );
Mesh* mesh = context->mesh;
SnacRemesher_Mesh* meshExt = ExtensionManager_Get(
context->meshExtensionMgr,
mesh,
SnacRemesher_MeshHandle );
char* conditionStr;
Dictionary_Entry_Value* conditionCriterion;
Dictionary* meshDict;
Stream* error = Journal_Register( Error_Type, "Remesher" );
char tmpBuf[PATH_MAX];
Journal_Printf( context->debug, "In: %s\n", __func__ );
contextExt->debugIC = Journal_Register( Debug_Type, "Remesher-ICs" );
contextExt->debugCoords = Journal_Register( Debug_Type, "Remesher-Coords" );
contextExt->debugNodes = Journal_Register( Debug_Type, "Remesher-Nodes" );
contextExt->debugElements = Journal_Register( Debug_Type, "Remesher-Elements" );
contextExt->debugSync = Journal_Register( Debug_Type, "Remesher-Sync" );
/* Additional tables required over the nodeElementTbl already required by core Snac */
Mesh_ActivateNodeNeighbourTbl( mesh );
Mesh_ActivateElementNeighbourTbl( mesh );
/* Work out condition to remesh on */
if( !Dictionary_Get( context->dictionary, CONDITION_STR ) ) {
Journal_Printf(
error,
"Warning: No \"%s\" entry in dictionary... will default to \"%s\"\n",
CONDITION_STR,
OFF_STR );
}
conditionStr = Dictionary_Entry_Value_AsString(
Dictionary_GetDefault( context->dictionary, CONDITION_STR, Dictionary_Entry_Value_FromString( OFF_STR ) ) );
contextExt->OnTimeStep = 0;
contextExt->onMinLengthScale = 0;
if( !strcmp( conditionStr, OFF_STR ) ) {
contextExt->condition = SnacRemesher_Off;
Journal_Printf( context->snacInfo, "Remesher is off\n" );
}
else if( !strcmp( conditionStr, ONTIMESTEP_STR ) ) {
contextExt->condition = SnacRemesher_OnTimeStep;
conditionCriterion = Dictionary_Get( context->dictionary, TIMESTEPCRITERION_STR );
Journal_Printf( context->snacInfo, "Remesher is on... activated based on timeStep\n" );
if( conditionCriterion ) {
contextExt->OnTimeStep = Dictionary_Entry_Value_AsUnsignedInt( conditionCriterion );
}
else {
}
Journal_Printf( context->snacInfo, "Remeshing every %u timeSteps\n", contextExt->OnTimeStep );
}
else if( !strcmp( conditionStr, ONMINLENGTHSCALE_STR ) ) {
contextExt->condition = SnacRemesher_OnMinLengthScale;
conditionCriterion = Dictionary_Get( context->dictionary, LENGTHCRITERION_STR );
Journal_Printf( context->snacInfo, "Remesher is on... activated by minLengthScale\n" );
if( conditionCriterion ) {
contextExt->onMinLengthScale = Dictionary_Entry_Value_AsDouble( conditionCriterion );
}
else {
}
Journal_Printf( context->snacInfo, "Remesh when minLengthScale < %g\n", contextExt->onMinLengthScale );
}
else if( !strcmp( conditionStr, ONBOTHTIMESTEPLENGTH_STR ) ) {
contextExt->condition = SnacRemesher_OnBothTimeStepLength;
conditionCriterion = Dictionary_Get( context->dictionary, TIMESTEPCRITERION_STR );
Journal_Printf( context->snacInfo, "Remesher is on... activated by both timeStep and minLengthScale\n" );
if( conditionCriterion ) {
contextExt->OnTimeStep = Dictionary_Entry_Value_AsUnsignedInt( conditionCriterion );
conditionCriterion = Dictionary_Get( context->dictionary, LENGTHCRITERION_STR );
contextExt->onMinLengthScale = Dictionary_Entry_Value_AsDouble( conditionCriterion );
}
else {
}
Journal_Printf( context->snacInfo, "Remesh every %u timeSteps or wheen minLengthScale < %g\n", contextExt->OnTimeStep, contextExt->onMinLengthScale );
}
else {
contextExt->condition = SnacRemesher_Off;
Journal_Printf( context->snacInfo, "Remesher is defaulting to off\n" );
Journal_Printf( error, "Provided remesh condition \"%s\" unrecognised\n", conditionStr );
}
/* Work out the mesh type */
meshDict = Dictionary_Entry_Value_AsDictionary( Dictionary_Get( context->dictionary, MESH_STR ) );
if( meshDict ) {
char* meshTypeStr;
if( !Dictionary_Get( meshDict, MESHTYPE_STR ) ) {
Journal_Printf(
error,
"Warning: No \"%s\" entry in \"%s\"... will default to \"%s\"\n",
MESHTYPE_STR,
MESH_STR,
CARTESIAN_STR );
}
meshTypeStr = Dictionary_Entry_Value_AsString(
Dictionary_GetDefault( meshDict, MESHTYPE_STR, Dictionary_Entry_Value_FromString( CARTESIAN_STR ) ) );
if( !strcmp( meshTypeStr, SPHERICAL_STR ) ) {
meshExt->meshType = SnacRemesher_Spherical;
Journal_Printf( context->snacInfo, "Remesher knows mesh as a spherical mesh\n" );
}
else if( !strcmp( meshTypeStr, CARTESIAN_STR ) ) {
meshExt->meshType = SnacRemesher_Cartesian;
Journal_Printf( context->snacInfo, "Remesher knows mesh as a cartesian mesh\n" );
}
else {
meshExt->meshType = SnacRemesher_Cartesian;
Journal_Printf( context->snacInfo, "Remesher assuming mesh as a cartesian mesh\n" );
Journal_Printf( error, "Provided mesh type \"%s\" unrecognised!\n", meshTypeStr );
}
}
else {
meshExt->meshType = SnacRemesher_Cartesian;
Journal_Printf( context->snacInfo, "Remesher assuming mesh as a cartesian mesh\n" );
Journal_Printf( error, "No \"%s\" entry in dictionary!\n", MESH_STR );
}
/* Decide whether to restore the bottom surface */
contextExt->bottomRestore = 0;
if( !strcmp( Dictionary_Entry_Value_AsString( Dictionary_GetDefault( context->dictionary, "bottomRestore", Dictionary_Entry_Value_FromString( OFF_STR ) ) ), ON_STR) )
contextExt->bottomRestore = 1;
/* Register these functions for use in VCs */
ConditionFunction_Register_Add(
context->condFunc_Register,
ConditionFunction_New( _SnacRemesher_TestCondFunc, "SnacRemesher_TestCondFunc" ) );
/* Register these functions for use in VCs */
ConditionFunction_Register_Add(
context->condFunc_Register,
ConditionFunction_New( _SnacRemesher_XFunc, "SnacRemesher_XFunc" ) );
/* Register these functions for use in VCs */
ConditionFunction_Register_Add(
context->condFunc_Register,
ConditionFunction_New( _SnacRemesher_YFunc, "SnacRemesher_YFunc" ) );
/* Obtain the keys for the our new entry points... having the keys saves doing a string compare at run time */
contextExt->recoverNodeK = EntryPoint_Register_GetHandle(
context->entryPoint_Register,
SnacRemesher_EP_RecoverNode );
contextExt->interpolateNodeK = EntryPoint_Register_GetHandle(
context->entryPoint_Register,
SnacRemesher_EP_InterpolateNode );
contextExt->interpolateElementK = EntryPoint_Register_GetHandle(
context->entryPoint_Register,
SnacRemesher_EP_InterpolateElement );
/* Prepare the dump file */
if( context->rank == 0) {
sprintf( tmpBuf, "%s/remeshInfo.%u", context->outputPath, context->rank );
if( (contextExt->remesherOut = fopen( tmpBuf, "w+" )) == NULL ) {
assert( contextExt->remesherOut /* failed to open file for writing */ );
}
}
/* initialize remeshing counter */
contextExt->remeshingCount = 0;
}
Dictionary_Entry_Value* Dictionary_Entry_Value_Copy(
Dictionary_Entry_Value* self,
Bool deep )
{
Dictionary_Entry_Value* copy = NULL;
switch (self->type) {
case Dictionary_Entry_Value_Type_String:
copy = Dictionary_Entry_Value_FromString( self->as.typeString );
break;
case Dictionary_Entry_Value_Type_Double:
copy = Dictionary_Entry_Value_FromDouble( self->as.typeDouble );
break;
case Dictionary_Entry_Value_Type_UnsignedInt:
copy = Dictionary_Entry_Value_FromUnsignedInt( self->as.typeUnsignedInt );
break;
case Dictionary_Entry_Value_Type_Int:
copy = Dictionary_Entry_Value_FromInt( self->as.typeInt );
break;
case Dictionary_Entry_Value_Type_UnsignedLong:
copy = Dictionary_Entry_Value_FromUnsignedLong( self->as.typeUnsignedLong );
break;
case Dictionary_Entry_Value_Type_Bool:
copy = Dictionary_Entry_Value_FromBool( self->as.typeBool );
break;
case Dictionary_Entry_Value_Type_List:
if ( False == deep ) {
Stream* errorStream = Journal_Register( Error_Type, "Dictionary_Entry_Value" );
Journal_Firewall( False, errorStream, "In func %s: Shallow copy operation of list DEV not supported.\n", __func__ );
}
else {
Dictionary_Entry_Value* cur = self->as.typeList->first;
Dictionary_Entry_Value* copiedEntry = NULL;
copy = Dictionary_Entry_Value_NewList();
while ( cur ) {
copiedEntry = Dictionary_Entry_Value_Copy( cur, True );
Dictionary_Entry_Value_AddElement( copy, copiedEntry );
cur = cur->next;
}
}
break;
case Dictionary_Entry_Value_Type_Struct:
if ( False == deep ) {
copy = Dictionary_Entry_Value_FromStruct( self->as.typeStruct );
}
else {
Dictionary* copiedDict;
copiedDict = (Dictionary*)Stg_Class_Copy( self->as.typeStruct,
NULL, True, NULL, NULL );
copy = Dictionary_Entry_Value_FromStruct( copiedDict );
}
break;
default: {
Stream* errorStream = Journal_Register( Error_Type, "Dictionary_Entry_Value" );
Journal_Firewall( False, errorStream, "In func %s: self->type '%d' is invalid.\n", __func__, self->type );
}
}
return copy;
}
int main( int argc, char* argv[] ) {
MPI_Comm CommWorld;
int rank;
int numProcessors;
int procToWatch;
Dictionary* dictionary;
Snac_Context* snacContext;
Element_LocalIndex elementIndex;
Node_LocalIndex nodeIndex;
double minLengthScale;
double speedOfSound;
Mass mass;
Mass inertialMass;
Force force;
Snac_Node* node;
Force balance;
Stream* stream;
Index elementNode_lI;
Coord *coord;
Index timeStep;
Dictionary_Entry_Value* pluginsList;
Dictionary_Entry_Value* velocityBCs;
Dictionary_Entry_Value* vcList;
Dictionary_Entry_Value* varStruct;
Dictionary_Entry_Value* eachVarList;
Dictionary_Entry_Value* vxStruct;
/* Initialise MPI, get world info */
MPI_Init( &argc, &argv );
Snac_Init( &argc, &argv );
MPI_Comm_dup( MPI_COMM_WORLD, &CommWorld );
MPI_Comm_size( CommWorld, &numProcessors );
MPI_Comm_rank( CommWorld, &rank );
stream = Journal_Register (InfoStream_Type, "myStream");
if( argc >= 2 ) {
procToWatch = atoi( argv[1] );
}
else {
procToWatch = 0;
}
if( rank == procToWatch ) printf( "Watching rank: %i\n", rank );
/* Read input */
dictionary = Dictionary_New();
dictionary->add( dictionary, "rank", Dictionary_Entry_Value_FromUnsignedInt( rank ) );
dictionary->add( dictionary, "numProcessors", Dictionary_Entry_Value_FromUnsignedInt( numProcessors ) );
dictionary->add( dictionary, "meshSizeI", Dictionary_Entry_Value_FromUnsignedInt( 3 ) );
dictionary->add( dictionary, "meshSizeJ", Dictionary_Entry_Value_FromUnsignedInt( 3 ) );
dictionary->add( dictionary, "meshSizeK", Dictionary_Entry_Value_FromUnsignedInt( 3 ) );
dictionary->add( dictionary, "minX", Dictionary_Entry_Value_FromDouble( 0.0f ) );
dictionary->add( dictionary, "minY", Dictionary_Entry_Value_FromDouble( -1.0f ) );
dictionary->add( dictionary, "minZ", Dictionary_Entry_Value_FromDouble( 0.0f ) );
dictionary->add( dictionary, "maxX", Dictionary_Entry_Value_FromDouble( 1.0f ) );
dictionary->add( dictionary, "maxY", Dictionary_Entry_Value_FromDouble( 0.0f ) );
dictionary->add( dictionary, "maxZ", Dictionary_Entry_Value_FromDouble( 1.0f ) );
dictionary->add( dictionary, "gravity", Dictionary_Entry_Value_FromDouble( 0 ) );
dictionary->add( dictionary, "dtType", Dictionary_Entry_Value_FromString( "constant" ) );
dictionary->add( dictionary, "timeStep", Dictionary_Entry_Value_FromDouble( 1.0 ) );
dictionary->add( dictionary, "topo_kappa", Dictionary_Entry_Value_FromDouble( 0 ) );
dictionary->add( dictionary, "alpha", Dictionary_Entry_Value_FromDouble( 0 ) );
dictionary->add( dictionary, "forceCalcType", Dictionary_Entry_Value_FromString( "complete" ) );
pluginsList = Dictionary_Entry_Value_NewList();
Dictionary_Add( dictionary, "plugins", pluginsList );
velocityBCs = Dictionary_Entry_Value_NewStruct();
vcList = Dictionary_Entry_Value_NewList();
/* left wall */
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vx" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 0.0 ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "WallVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "wall", Dictionary_Entry_Value_FromString( "left" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
/* right wall */
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vx" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 0.01 ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "WallVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "wall", Dictionary_Entry_Value_FromString( "right" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
/* back wall */
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vz" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 0.0 ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "WallVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "wall", Dictionary_Entry_Value_FromString( "back" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
/* front wall */
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vz" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 0.0 ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "WallVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "wall", Dictionary_Entry_Value_FromString( "front" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
/* bottom wall */
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vy" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 0.0 ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "WallVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "wall", Dictionary_Entry_Value_FromString( "bottom" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
/* top wall */
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vy" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 0.0 ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "WallVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "wall", Dictionary_Entry_Value_FromString( "top" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
/* add to dictionary */
Dictionary_Entry_Value_AddMember( velocityBCs, "vcList", vcList );
Dictionary_Add( dictionary, "velocityBCs", velocityBCs );
/* Build the context */
snacContext = Snac_Context_New( 0.0f, 10.0f, sizeof(Snac_Node), sizeof(Snac_Element), CommWorld, dictionary );
/* Construction phase -----------------------------------------------------------------------------------------------*/
Stg_Component_Construct( snacContext, 0 /* dummy */, &snacContext, True );
/* Building phase ---------------------------------------------------------------------------------------------------*/
Stg_Component_Build( snacContext, 0 /* dummy */, False );
/* Initialisaton phase ----------------------------------------------------------------------------------------------*/
Stg_Component_Initialise( snacContext, 0 /* dummy */, False );
/* Check the coordinates of the nodes. */
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex ++ ) {
printf( "Element: %u, Coords: ", elementIndex );
for( elementNode_lI = 0; elementNode_lI < 8; elementNode_lI++ ) {
printf( "(%g %g %g) ",
Snac_Element_NodeCoord( snacContext, elementIndex, elementNode_lI )[0],
Snac_Element_NodeCoord( snacContext, elementIndex, elementNode_lI )[1],
Snac_Element_NodeCoord( snacContext, elementIndex, elementNode_lI )[2] );
}
printf( "\n" );
}
/* Check the velocity field. */
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex ++ ) {
printf( "Element: %u, Vel: ",elementIndex );
for( elementNode_lI = 0; elementNode_lI < 8; elementNode_lI++ ) {
printf( "(%g %g %g) ",
Snac_Element_Node_P( snacContext, elementIndex, elementNode_lI )->velocity[0],
Snac_Element_Node_P( snacContext, elementIndex, elementNode_lI )->velocity[1],
Snac_Element_Node_P( snacContext, elementIndex, elementNode_lI )->velocity[2] );
}
printf( "\n" );
}
/* Check the coordinates of the nodes. */
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex ++ ) {
printf( "Element: %u, Coords: ", elementIndex );
for( elementNode_lI = 0; elementNode_lI < 8; elementNode_lI++ ) {
printf( "(%g %g %g) ",
Snac_Element_NodeCoord( snacContext, elementIndex, elementNode_lI )[0],
Snac_Element_NodeCoord( snacContext, elementIndex, elementNode_lI )[1],
Snac_Element_NodeCoord( snacContext, elementIndex, elementNode_lI )[2] );
}
printf( "\n" );
}
/* Loop until the static solution is reached. */
timeStep = 0;
while( timeStep < 10 ) {
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex++ ) {
double elementMinLengthScale;
Snac_UpdateElementMomentum( snacContext, elementIndex, &elementMinLengthScale );
if( elementMinLengthScale < minLengthScale ) {
minLengthScale = elementMinLengthScale;
}
}
/* Find the global minLengthScale, and then calculate the new dt and speed of sound, assuming frac=0.5,
* strain_inert=1.0e-5f & vbc_max=3.0e-10f */
{
double localMinLengthScale = minLengthScale;
MPI_Allreduce( &localMinLengthScale, &minLengthScale, 1, MPI_DOUBLE, MPI_MIN, CommWorld );
//snacContext->dt = minLengthScale * 0.5f * 1.0e-5f / 3.0e-10f;
speedOfSound = minLengthScale * 0.5f / snacContext->dt;
}
/* For each element, calculate strain-rate and then stress */
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex++ ) {
Snac_StrainRate( (Context*)snacContext, elementIndex );
SnacTest_Stress( (Context*)snacContext, elementIndex );
}
for( nodeIndex = 0; nodeIndex < snacContext->mesh->nodeLocalCount; nodeIndex++ ) {
node = Snac_Node_At( snacContext, nodeIndex );
Snac_Force( snacContext, nodeIndex, speedOfSound, &mass, &inertialMass, &force, &balance );
Snac_UpdateNodeMomentum_PreProcess( snacContext, nodeIndex, inertialMass, force );
Snac_UpdateNodeMomentum( snacContext, nodeIndex, inertialMass, force );
}
timeStep++;
}
/* Check coordinates. */
for( nodeIndex = 0; nodeIndex < snacContext->mesh->nodeLocalCount; nodeIndex++ ) {
coord = Snac_NodeCoord_P( snacContext, nodeIndex );
printf( "Node %u : coord = %g %g %g\n", nodeIndex, (*coord)[0],(*coord)[1],(*coord)[2]);
}
/* Stg_Class_Delete stuff */
Stg_Class_Delete( snacContext );
Stg_Class_Delete( dictionary );
/* Close off MPI */
MPI_Finalize();
return 0; /* success */
}
int main( int argc, char* argv[] ) {
MPI_Comm CommWorld;
int rank;
int numProcessors;
int procToWatch;
Dictionary* dictionary;
Snac_Context* snacContext;
Element_LocalIndex elementIndex;
Node_LocalIndex nodeIndex;
double minLengthScale;
double speedOfSound;
Mass mass;
Mass inertialMass;
Force force;
Force balance;
Stream* stream;
Dictionary_Entry_Value* nodeICs;
Dictionary_Entry_Value* vcList;
Dictionary_Entry_Value* varStruct;
Dictionary_Entry_Value* eachVarList;
Dictionary_Entry_Value* vxStruct;
Dictionary_Entry_Value* vyStruct;
Dictionary_Entry_Value* vzStruct;
/* Initialise MPI, get world info */
MPI_Init( &argc, &argv );
Snac_Init( &argc, &argv );
MPI_Comm_dup( MPI_COMM_WORLD, &CommWorld );
MPI_Comm_size( CommWorld, &numProcessors );
MPI_Comm_rank( CommWorld, &rank );
stream = Journal_Register (Info_Type, "myStream");
if( argc >= 2 ) {
procToWatch = atoi( argv[1] );
}
else {
procToWatch = 0;
}
if( rank == procToWatch ) printf( "Watching rank: %i\n", rank );
/* Read input */
dictionary = Dictionary_New();
dictionary->add( dictionary, "rank", Dictionary_Entry_Value_FromUnsignedInt( rank ) );
dictionary->add( dictionary, "numProcessors", Dictionary_Entry_Value_FromUnsignedInt( numProcessors ) );
dictionary->add( dictionary, "meshSizeI", Dictionary_Entry_Value_FromUnsignedInt( 4 ) );
dictionary->add( dictionary, "meshSizeJ", Dictionary_Entry_Value_FromUnsignedInt( 4 ) );
dictionary->add( dictionary, "meshSizeK", Dictionary_Entry_Value_FromUnsignedInt( 4 ) );
dictionary->add( dictionary, "minX", Dictionary_Entry_Value_FromDouble( 0.0f ) );
dictionary->add( dictionary, "minY", Dictionary_Entry_Value_FromDouble( -300.0f ) );
dictionary->add( dictionary, "minZ", Dictionary_Entry_Value_FromDouble( 0.0f ) );
dictionary->add( dictionary, "maxX", Dictionary_Entry_Value_FromDouble( 300.0f ) );
dictionary->add( dictionary, "maxY", Dictionary_Entry_Value_FromDouble( 0.0f ) );
dictionary->add( dictionary, "maxZ", Dictionary_Entry_Value_FromDouble( 300.0f ) );
nodeICs = Dictionary_Entry_Value_NewStruct();
vcList = Dictionary_Entry_Value_NewList();
varStruct = Dictionary_Entry_Value_NewStruct();
eachVarList = Dictionary_Entry_Value_NewList();
vxStruct = Dictionary_Entry_Value_NewStruct();
vyStruct = Dictionary_Entry_Value_NewStruct();
vzStruct = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( vxStruct, "name", Dictionary_Entry_Value_FromString( "vx" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vxStruct, "value", Dictionary_Entry_Value_FromDouble( 3.0e-10f ) );
Dictionary_Entry_Value_AddMember( vyStruct, "name", Dictionary_Entry_Value_FromString( "vy" ) );
Dictionary_Entry_Value_AddMember( vyStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vyStruct, "value", Dictionary_Entry_Value_FromDouble( 3.0e-10f ) );
Dictionary_Entry_Value_AddMember( vzStruct, "name", Dictionary_Entry_Value_FromString( "vz" ) );
Dictionary_Entry_Value_AddMember( vzStruct, "type", Dictionary_Entry_Value_FromString( "double" ) );
Dictionary_Entry_Value_AddMember( vzStruct, "value", Dictionary_Entry_Value_FromDouble( 6.0e-10f ) );
Dictionary_Entry_Value_AddElement( eachVarList, vxStruct );
Dictionary_Entry_Value_AddElement( eachVarList, vyStruct );
Dictionary_Entry_Value_AddElement( eachVarList, vzStruct );
Dictionary_Entry_Value_AddMember( varStruct, "type", Dictionary_Entry_Value_FromString( "AllNodesVC" ) );
Dictionary_Entry_Value_AddMember( varStruct, "variables", eachVarList );
Dictionary_Entry_Value_AddElement( vcList, varStruct );
Dictionary_Entry_Value_AddMember( nodeICs, "vcList", vcList );
Dictionary_Add( dictionary, "nodeICs", nodeICs );
/* Build the context */
snacContext = Snac_Context_New( 0.0f, 10.0f, sizeof(Snac_Node), sizeof(Snac_Element), CommWorld, dictionary );
/* Construction phase -----------------------------------------------------------------------------------------------*/
Stg_Component_Construct( snacContext, 0 /* dummy */, &snacContext, True );
/* Building phase ---------------------------------------------------------------------------------------------------*/
Stg_Component_Build( snacContext, 0 /* dummy */, False );
/* Initialisaton phase ----------------------------------------------------------------------------------------------*/
Stg_Component_Initialise( snacContext, 0 /* dummy */, False );
/* Work out the first element's tetrahedra values, and print them. */
printf( "Element: 0, Coords: (%g %g %g), (%g %g %g), (%g %g %g), (%g %g %g), (%g %g %g) (%g %g %g) (%g %g %g) (%g %g %g)\n",
Snac_Element_NodeCoord( snacContext, 0, 0 )[0],
Snac_Element_NodeCoord( snacContext, 0, 0 )[1],
Snac_Element_NodeCoord( snacContext, 0, 0 )[2],
Snac_Element_NodeCoord( snacContext, 0, 1 )[0],
Snac_Element_NodeCoord( snacContext, 0, 1 )[1],
Snac_Element_NodeCoord( snacContext, 0, 1 )[2],
Snac_Element_NodeCoord( snacContext, 0, 3 )[0],
Snac_Element_NodeCoord( snacContext, 0, 3 )[1],
Snac_Element_NodeCoord( snacContext, 0, 3 )[2],
Snac_Element_NodeCoord( snacContext, 0, 2 )[0],
Snac_Element_NodeCoord( snacContext, 0, 2 )[1],
Snac_Element_NodeCoord( snacContext, 0, 2 )[2],
Snac_Element_NodeCoord( snacContext, 0, 4 )[0],
Snac_Element_NodeCoord( snacContext, 0, 4 )[1],
Snac_Element_NodeCoord( snacContext, 0, 4 )[2],
Snac_Element_NodeCoord( snacContext, 0, 5 )[0],
Snac_Element_NodeCoord( snacContext, 0, 5 )[1],
Snac_Element_NodeCoord( snacContext, 0, 5 )[2],
Snac_Element_NodeCoord( snacContext, 0, 7 )[0],
Snac_Element_NodeCoord( snacContext, 0, 7 )[1],
Snac_Element_NodeCoord( snacContext, 0, 7 )[2],
Snac_Element_NodeCoord( snacContext, 0, 6 )[0],
Snac_Element_NodeCoord( snacContext, 0, 6 )[1],
Snac_Element_NodeCoord( snacContext, 0, 6 )[2] );
printf( "Element: 0, Vel: (%g %g %g), (%g %g %g), (%g %g %g), (%g %g %g), (%g %g %g) (%g %g %g) (%g %g %g) (%g %g %g)\n",
Snac_Element_Node_P( snacContext, 0, 0 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 0 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 0 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 1 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 1 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 1 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 3 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 3 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 3 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 2 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 2 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 2 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 4 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 4 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 4 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 5 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 5 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 5 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 7 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 7 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 7 )->velocity[2],
Snac_Element_Node_P( snacContext, 0, 6 )->velocity[0],
Snac_Element_Node_P( snacContext, 0, 6 )->velocity[1],
Snac_Element_Node_P( snacContext, 0, 6 )->velocity[2] );
/* Snac_Material_Print( &snacContext->materialProperty[Snac_Element_At( snacContext, 0 )->material_I], stream ); */
/* Update all the elements, and in the process work out this processor's minLengthScale */
elementIndex = 0;
Snac_UpdateElementMomentum( (Context*)snacContext, elementIndex, &minLengthScale );
for( elementIndex = 1; elementIndex < snacContext->mesh->elementLocalCount; elementIndex++ ) {
double elementMinLengthScale;
Snac_UpdateElementMomentum( (Context*)snacContext, elementIndex, &elementMinLengthScale );
if( elementMinLengthScale < minLengthScale ) {
minLengthScale = elementMinLengthScale;
}
}
/* Find the global minLengthScale, and then calculate the new dt and speed of sound, assuming frac=0.5,
* strain_inert=1.0e-5f & vbc_max=3.0e-10f */
{
double localMinLengthScale = minLengthScale;
MPI_Allreduce( &localMinLengthScale, &minLengthScale, 1, MPI_DOUBLE, MPI_MIN, CommWorld );
snacContext->dt = minLengthScale * 0.5f * 1.0e-5f / 3.0e-10f;
speedOfSound = minLengthScale * 0.5f / snacContext->dt;
}
printf( "Global minLengthScale: %g\n", minLengthScale );
printf( "Dt: %g\n", snacContext->dt );
printf( "Speed of sound: %g\n", speedOfSound );
/* For each element, calculate strain-rate and then stress */
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex++ ) {
Snac_StrainRate( (Context*)snacContext, elementIndex );
SnacTest_Stress( (Context*)snacContext, elementIndex );
}
/* For each node, calculate the mass, force, veloity and coordinates */
for( nodeIndex = 0; nodeIndex < snacContext->mesh->nodeLocalCount; nodeIndex++ ) {
Snac_Force( (Context*)snacContext, nodeIndex, speedOfSound, &mass, &inertialMass, &force, &balance );
Snac_UpdateNodeMomentum( (Context*)snacContext, nodeIndex, inertialMass, force );
}
/* For each element... just print out the info... too complicated to work out which ones have the same value */
for( elementIndex = 0; elementIndex < snacContext->mesh->elementLocalCount; elementIndex++ ) {
double elementMinLengthScale;
Tetrahedra_Index tetra_I;
Snac_UpdateElementMomentum( (Context*)snacContext, elementIndex, &elementMinLengthScale );
for( tetra_I = 0; tetra_I < Tetrahedra_Count; tetra_I++ ) {
printf( "Element: %u, tetrahedra: %u, strain: (%g %g %g) (%g %g %g)\n", elementIndex, tetra_I,
Snac_Element_At( snacContext, elementIndex )->tetra[tetra_I].strain[0][0],
Snac_Element_At( snacContext, elementIndex )->tetra[tetra_I].strain[1][1],
Snac_Element_At( snacContext, elementIndex )->tetra[tetra_I].strain[2][2],
Snac_Element_At( snacContext, elementIndex )->tetra[tetra_I].strain[0][1],
Snac_Element_At( snacContext, elementIndex )->tetra[tetra_I].strain[0][2],
Snac_Element_At( snacContext, elementIndex )->tetra[tetra_I].strain[1][2] );
}
}
/* Stg_Class_Delete stuff */
Stg_Class_Delete( snacContext );
Stg_Class_Delete( dictionary );
/* Close off MPI */
MPI_Finalize();
return 0; /* success */
}
void TimeIntegrationSuite_TestDriver( TimeIntegrationSuiteData* data, char *_name, char *_DerivName0, char *_DerivName1, int _order ) {
Stg_ComponentFactory* cf;
Stream* stream;
Dictionary* dictionary;
TimeIntegrator* timeIntegrator;
TimeIntegrand* timeIntegrand;
TimeIntegrand* timeIntegrandList[2];
DomainContext* context;
Variable* variable;
Variable* variableList[2];
double* array;
double* array2;
Index size0 = 11;
Index size1 = 7;
Index array_I;
Index timestep = 0;
Index maxTimesteps = 10;
Bool simultaneous;
unsigned order;
double error = 0.0;
Name derivName;
double tolerance = 0.001;
Index integrand_I;
Index integrandCount = 2;
char expected_file[PCU_PATH_MAX];
dictionary = Dictionary_New();
Dictionary_Add( dictionary, (Dictionary_Entry_Key)"outputPath", Dictionary_Entry_Value_FromString("./output") );
Dictionary_Add( dictionary, (Dictionary_Entry_Key)"DerivName0", Dictionary_Entry_Value_FromString(_DerivName0) );
Dictionary_Add( dictionary, (Dictionary_Entry_Key)"DerivName1", Dictionary_Entry_Value_FromString(_DerivName1) );
context = DomainContext_New( "context", 0, 0, MPI_COMM_WORLD, NULL );
cf = stgMainConstruct( dictionary, NULL, data->comm, context );
stgMainBuildAndInitialise( cf );
ContextEP_Append( context, AbstractContext_EP_Dt, TimeIntegrationSuite_GetDt );
/* Create Stuff */
order = _order;
simultaneous = False;
variableList[0] = Variable_NewVector( "testVariable", (AbstractContext*)context, Variable_DataType_Double, 2, &size0, NULL, (void**)&array, NULL );
variableList[1] = Variable_NewVector( "testVariable2", (AbstractContext*)context, Variable_DataType_Double, 2, &size1, NULL, (void**)&array2, NULL );
timeIntegrator = TimeIntegrator_New( "testTimeIntegrator", order, simultaneous, NULL, NULL );
timeIntegrator->context = context;
timeIntegrandList[0] = TimeIntegrand_New( "testTimeIntegrand0", context, timeIntegrator, variableList[0], 0, NULL, True );
timeIntegrandList[1] = TimeIntegrand_New( "testTimeIntegrand1", context, timeIntegrator, variableList[1], 0, NULL, True );
Journal_Enable_AllTypedStream( True );
stream = Journal_Register( Info_Type, (Name)"EulerStream" );
Stream_RedirectFile( stream, _name );
Stream_Enable( timeIntegrator->info, False );
derivName = Dictionary_GetString( dictionary, (Dictionary_Entry_Key)"DerivName0" );
timeIntegrandList[0]->_calculateTimeDeriv = TimeIntegrationSuite_GetFunctionPtr( derivName );
Journal_Printf( stream, "DerivName0 - %s\n", derivName );
derivName = Dictionary_GetString( dictionary, (Dictionary_Entry_Key)"DerivName1" );
timeIntegrandList[1]->_calculateTimeDeriv = TimeIntegrationSuite_GetFunctionPtr( derivName );
Journal_Printf( stream, "DerivName1 - %s\n", derivName );
/* Print Stuff to file */
Journal_PrintValue( stream, order );
Journal_PrintBool( stream, simultaneous );
/* Add stuff to EPs */
TimeIntegrator_AppendSetupEP( timeIntegrator, "start1", TimeIntegrationSuite_TestContextType, CURR_MODULE_NAME, context );
TimeIntegrator_AppendFinishEP( timeIntegrator, "finish1", TimeIntegrationSuite_TestVariableType, CURR_MODULE_NAME, variableList[0] );
TimeIntegrator_PrependSetupEP( timeIntegrator, "start0", TimeIntegrationSuite_TestVariableType, CURR_MODULE_NAME, variableList[0] );
TimeIntegrator_PrependFinishEP( timeIntegrator, "finish0", TimeIntegrationSuite_TestContextType, CURR_MODULE_NAME, context );
/* Build */
Stg_Component_Build( variableList[0], context, False );
Stg_Component_Build( variableList[1], context, False );
Stg_Component_Build( timeIntegrator, context, False );
Stg_Component_Build( timeIntegrandList[0], context, False );
Stg_Component_Build( timeIntegrandList[1], context, False );
array = Memory_Alloc_Array( double, 2 * size0, "name" );
array2 = Memory_Alloc_Array( double, 2 * size1, "name" );
/* Initialise */
memset( array, 0, sizeof(double) * 2 * size0 );
memset( array2, 0, sizeof(double) * 2 * size1 );
Stg_Component_Initialise( timeIntegrator, context, False );
Stg_Component_Initialise( variableList[0], context, False );
Stg_Component_Initialise( variableList[1], context, False );
Stg_Component_Initialise( timeIntegrandList[0], context, False );
Stg_Component_Initialise( timeIntegrandList[1], context, False );
for ( timestep = 0.0 ; timestep < maxTimesteps ; timestep ++ ) {
Journal_Printf( stream, "Step %u - Time = %.3g\n", timestep, context->currentTime );
Stg_Component_Execute( timeIntegrator, context, True );
context->currentTime += AbstractContext_Dt( context );
for ( integrand_I = 0 ; integrand_I < integrandCount ; integrand_I++ ) {
timeIntegrand = timeIntegrandList[ integrand_I ];
variable = variableList[ integrand_I ];
for ( array_I = 0 ; array_I < variable->arraySize ; array_I++ ) {
if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_ConstantTimeDeriv ) {
error += fabs( Variable_GetValueAtDouble( variable, array_I, 0 ) - 2.0 * array_I * context->currentTime );
error += fabs( Variable_GetValueAtDouble( variable, array_I, 1 ) + array_I * context->currentTime );
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_ConstantTimeDeriv2 ) {
error += fabs( Variable_GetValueAtDouble( variable, array_I, 0 ) + 0.5 * array_I * context->currentTime );
error += fabs( Variable_GetValueAtDouble( variable, array_I, 1 ) - 3 * array_I * context->currentTime );
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_LinearTimeDeriv ) {
error += fabs( Variable_GetValueAtDouble( variable, array_I, 0 ) - array_I * context->currentTime * context->currentTime );
error += fabs( Variable_GetValueAtDouble( variable, array_I, 1 ) + 0.5 * array_I * context->currentTime * context->currentTime );
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_LinearTimeDeriv2 ) {
error += fabs( Variable_GetValueAtDouble( variable, array_I, 0 ) + 0.25 * array_I * context->currentTime * context->currentTime );
error += fabs( Variable_GetValueAtDouble( variable, array_I, 1 ) - 1.5 * array_I * context->currentTime * context->currentTime );
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_CubicTimeDeriv ) {
error += fabs( Variable_GetValueAtDouble( variable, array_I, 0 ) - 2.0 * array_I * ( 0.25 * pow( context->currentTime, 4.0 ) - pow( context->currentTime, 3.0)/3.0));
error += fabs( Variable_GetValueAtDouble( variable, array_I, 1 ) + array_I * ( 0.25 * pow( context->currentTime, 4.0 ) - pow( context->currentTime, 3.0 )/3.0));
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_CubicTimeDeriv2 ) {
error += fabs( Variable_GetValueAtDouble( variable, array_I, 0 ) + 0.5 * array_I * ( 0.25 * pow( context->currentTime, 4.0 ) - pow( context->currentTime, 3.0)/3.0));
error += fabs( Variable_GetValueAtDouble( variable, array_I, 1 ) - 3.0 * array_I * ( 0.25 * pow( context->currentTime, 4.0 ) - pow( context->currentTime, 3.0 )/3.0));
}
else
Journal_Firewall( 0 , Journal_Register( Error_Type, (Name)CURR_MODULE_NAME ), "Don't understand _calculateTimeDeriv = %p\n", timeIntegrand->_calculateTimeDeriv );
}
}
}
pcu_check_lt( error, tolerance );
if ( error < tolerance )
Journal_Printf( stream, "Passed\n" );
else
Journal_Printf( stream, "Failed - Error = %lf\n", error );
Journal_Enable_AllTypedStream( False );
if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_ConstantTimeDeriv
|| timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_ConstantTimeDeriv2 ) {
pcu_filename_expected( "testTimeIntegrationEulerOutput.expected", expected_file );
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_LinearTimeDeriv
|| timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_LinearTimeDeriv2 ) {
pcu_filename_expected( "testTimeIntegrationRK2Output.expected", expected_file );
}
else if ( timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_CubicTimeDeriv
|| timeIntegrand->_calculateTimeDeriv == TimeIntegrationSuite_CubicTimeDeriv2 ) {
pcu_filename_expected( "testTimeIntegrationRK4Output.expected", expected_file );
}
pcu_check_fileEq( _name, expected_file );
/* Destroy stuff */
Stream_CloseAndFreeFile( stream );
Memory_Free( array );
Memory_Free( array2 );
Stg_Class_Delete( variable );
_Stg_Component_Delete( timeIntegrator );
_Stg_Component_Delete( timeIntegrandList[0] );
_Stg_Component_Delete( timeIntegrandList[1] );
remove( _name );
}
void DictionarySuite_TestReadAllParamFromCommandLine( DictionarySuiteData* data ) {
int argc;
char** argv;
char** expectedKeys;
Dictionary_Entry_Value** expectedVals;
Index ii;
Dictionary_Entry_Value* tmpStruct=NULL;
Dictionary_Entry_Value* tmpStruct2=NULL;
Dictionary_Entry_Value* tmpList=NULL;
Index numExp = 7;
argc = 16;
argv = Memory_Alloc_Array_Unnamed( char*, argc );
expectedVals = Memory_Alloc_Array_Unnamed( Dictionary_Entry_Value*, numExp );
expectedKeys = Memory_Alloc_Array_Unnamed( char*, numExp );
/* Now fill in our mock command line, and create the expected values to test
* against along the way */
Stg_asprintf( &argv[0], "./testStGermain");
Stg_asprintf( &argv[1], "-param=hey");
Stg_asprintf( &argv[2], "--option");
Stg_asprintf( &argv[3], "--output-dir=");
Stg_asprintf( &expectedKeys[0], "output-dir" );
expectedVals[0] = Dictionary_Entry_Value_FromString( "" );
Stg_asprintf( &argv[4], "--Ra=1.0e4");
Stg_asprintf( &expectedKeys[1], "Ra" );
expectedVals[1] = Dictionary_Entry_Value_FromDouble( 1.0e4 );
Stg_asprintf( &argv[5], "--foo.bar=5");
Stg_asprintf( &expectedKeys[2], "foo" );
expectedVals[2] = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( expectedVals[2], (Dictionary_Entry_Key)"bar", Dictionary_Entry_Value_FromDouble( 5 ) );
Stg_asprintf( &argv[6], "--hot.tub.times=fun");
Stg_asprintf( &expectedKeys[3], "hot" );
expectedVals[3] = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( expectedVals[3], (Dictionary_Entry_Key)"tub", tmpStruct = Dictionary_Entry_Value_NewStruct() );
Dictionary_Entry_Value_AddMember( tmpStruct, (Dictionary_Entry_Key)"times", Dictionary_Entry_Value_FromString( "fun" ) );
Stg_asprintf( &argv[7], "--foo.bot=7");
Dictionary_Entry_Value_AddMember( expectedVals[2], (Dictionary_Entry_Key)"bot", Dictionary_Entry_Value_FromDouble( 7 ) );
Stg_asprintf( &argv[8], "--sports[]=hockey");
Stg_asprintf( &expectedKeys[4], "sports" );
expectedVals[4] = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( expectedVals[4], Dictionary_Entry_Value_FromString( "hockey" ) );
Stg_asprintf( &argv[9], "--sports[]=chess");
/* This should be overwritten by next entry, so ignore */
Stg_asprintf( &argv[10], "--sports[1]=tennis");
Dictionary_Entry_Value_AddElement( expectedVals[4], Dictionary_Entry_Value_FromString( "tennis" ) );
Stg_asprintf( &argv[11], "--sles[].name=pressure");
Stg_asprintf( &expectedKeys[5], "sles" );
expectedVals[5] = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( expectedVals[5], tmpStruct = Dictionary_Entry_Value_NewStruct() );
Dictionary_Entry_Value_AddMember( tmpStruct, (Dictionary_Entry_Key)"name", Dictionary_Entry_Value_FromString( "pressure" ) );
Stg_asprintf( &argv[12], "--sles[].name=temperature");
Dictionary_Entry_Value_AddElement( expectedVals[5], tmpStruct2 = Dictionary_Entry_Value_NewStruct() );
Dictionary_Entry_Value_AddMember( tmpStruct2, (Dictionary_Entry_Key)"name", Dictionary_Entry_Value_FromString( "temperature" ) );
Stg_asprintf( &argv[13], "--sles[0].solver=mg");
Dictionary_Entry_Value_AddMember( tmpStruct, (Dictionary_Entry_Key)"solver", Dictionary_Entry_Value_FromString( "mg" ) );
Stg_asprintf( &argv[14], "--sles[1].solver=direct");
Dictionary_Entry_Value_AddMember( tmpStruct2, (Dictionary_Entry_Key)"solver", Dictionary_Entry_Value_FromString( "direct" ) );
Stg_asprintf( &argv[15], "--some.crazy[].shit=here");
Stg_asprintf( &expectedKeys[6], "some" );
expectedVals[6] = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( expectedVals[6], (Dictionary_Entry_Key)"crazy", tmpList = Dictionary_Entry_Value_NewList() );
Dictionary_Entry_Value_AddElement( tmpList, tmpStruct = Dictionary_Entry_Value_NewStruct() );
Dictionary_Entry_Value_AddMember( tmpStruct, (Dictionary_Entry_Key)"shit", Dictionary_Entry_Value_FromString( "here" ) );
Dictionary_ReadAllParamFromCommandLine( data->dict, argc, argv );
for (ii=0; ii < numExp; ii++) {
pcu_check_true( Dictionary_Entry_Compare( data->dict->entryPtr[ii], expectedKeys[ii]));
pcu_check_true( Dictionary_Entry_Value_Compare( expectedVals[ii], data->dict->entryPtr[ii]->value ));
}
for (ii=0; ii < argc; ii++) {
Memory_Free( argv[ii] );
}
Memory_Free( argv );
for (ii=0; ii < numExp; ii++) {
Memory_Free( expectedKeys[ii] );
Memory_Free( expectedVals[ii] );
}
Memory_Free( expectedKeys );
Memory_Free( expectedVals );
}
void DictionarySuite_TestMerge( DictionarySuiteData* data ) {
Dictionary_Entry_Value* testStruct2=NULL;
Dictionary_Entry_Value* testGeomStruct2=NULL;
Dictionary_Entry_Value* mergedStruct=NULL;
Dictionary_Entry_Value* expectedMergedStruct=NULL;
testStruct2 = Dictionary_Entry_Value_NewStruct( );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"height", Dictionary_Entry_Value_FromDouble( data->testDD->testStruct->height ) );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"anisotropic", Dictionary_Entry_Value_FromBool( False ) );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"new_person", Dictionary_Entry_Value_FromString( "Luke" ) );
testGeomStruct2 = Dictionary_Entry_Value_NewStruct( );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"geom", testGeomStruct2 );
Dictionary_Entry_Value_AddMember( testGeomStruct2, (Dictionary_Entry_Key)"startx", Dictionary_Entry_Value_FromUnsignedInt( data->testDD->testStruct->geom.startx ) );
Dictionary_Entry_Value_AddMember( testGeomStruct2, (Dictionary_Entry_Key)"startz", Dictionary_Entry_Value_FromUnsignedInt( 222 ) );
/* Testing Merge_Append */
DictionarySuite_PopulateDictWithTestValues( data->dict, data->testDD );
/* Do a copy of the DEV during merge, since we don't want it being deleted */
Dictionary_AddMerge( data->dict, "test_struct", Dictionary_Entry_Value_Copy( testStruct2, True ), Dictionary_MergeType_Append );
/* OK: since this was an append, we expect _two_ entries called "test_struct",
* one preceding the other, one with the orig data, one with new data */
pcu_check_true( (data->testDD->testEntriesCount+1) == data->dict->count );
pcu_check_true( Dictionary_Entry_Value_Compare( data->testDD->testValues[8], Dictionary_Get( data->dict, (Dictionary_Entry_Key)"test_struct" ) ) );
pcu_check_true( Dictionary_Entry_Value_Compare( testStruct2, data->dict->entryPtr[9]->value ) );
Dictionary_Empty( data->dict );
/* Testing Merge_Merge */
DictionarySuite_PopulateDictWithTestValues( data->dict, data->testDD );
/* The nicest way for this test I think is to manually build a merged struct
* to compare against */
expectedMergedStruct = Dictionary_Entry_Value_Copy( data->testDD->testValues[8], True );
Dictionary_Set( expectedMergedStruct->as.typeStruct, (Dictionary_Entry_Key)"anisotropic", Dictionary_Entry_Value_FromBool( False ) );
Dictionary_Add( expectedMergedStruct->as.typeStruct, (Dictionary_Entry_Key)"new_person", Dictionary_Entry_Value_FromString( "Luke" ) );
Dictionary_Set( (Dictionary_Get( expectedMergedStruct->as.typeStruct, (Dictionary_Entry_Key)"geom" ) )->as.typeStruct, "startz", Dictionary_Entry_Value_FromUnsignedInt( 222 ) );
Dictionary_AddMerge( data->dict, "test_struct", Dictionary_Entry_Value_Copy( testStruct2, True ), Dictionary_MergeType_Merge );
/* This time, the new struct should be merged into the existing one */
pcu_check_true( data->testDD->testEntriesCount == data->dict->count );
mergedStruct = Dictionary_Get( data->dict, (Dictionary_Entry_Key)"test_struct" );
pcu_check_true( Dictionary_Entry_Value_Compare( mergedStruct, expectedMergedStruct ) );
Dictionary_Empty( data->dict );
Dictionary_Entry_Value_Delete( expectedMergedStruct );
/* Testing Merge_Replace */
DictionarySuite_PopulateDictWithTestValues( data->dict, data->testDD );
Dictionary_AddMerge( data->dict, "test_struct", Dictionary_Entry_Value_Copy( testStruct2, True ), Dictionary_MergeType_Replace );
pcu_check_true( data->testDD->testEntriesCount == data->dict->count );
pcu_check_true( Dictionary_Entry_Value_Compare( testStruct2, Dictionary_Get( data->dict, (Dictionary_Entry_Key)"test_struct" ) ) );
Dictionary_Empty( data->dict );
Dictionary_Entry_Value_Delete( testStruct2 );
}
void DictionarySuite_SetupTestDictData( DictionarySuite_TestDictData* testDD ) {
Index ii=0;
Index iter=0;
Dictionary_Entry_Value* testStruct;
Dictionary_Entry_Value* testStruct2;
Dictionary_Entry_Value* testList;
testDD->testEntriesCount = 9;
testDD->testKeys = Memory_Alloc_Array_Unnamed( char*, testDD->testEntriesCount );
testDD->testValues = Memory_Alloc_Array_Unnamed( Dictionary_Entry_Value*,
testDD->testEntriesCount );
for ( ii=0; ii< testDD->testEntriesCount; ii++ ) {
testDD->testKeys[ii] = NULL;
testDD->testValues[ii] = NULL;
}
Stg_asprintf( &testDD->testString, "hello" );
Stg_asprintf( &testDD->testPlaceHolder, "test_double" );
testDD->testDouble=45.567;
testDD->testUint = 5;
testDD->testInt = -5;
testDD->testUnsignedlong = 52342423;
testDD->testBool = True;
iter = 0;
Stg_asprintf( &testDD->testKeys[iter], "test_cstring" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromString( testDD->testString );
Stg_asprintf( &testDD->testKeys[++iter], "test_double" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromDouble( testDD->testDouble );
Stg_asprintf( &testDD->testKeys[++iter], "test_uint" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromUnsignedInt( testDD->testUint );
Stg_asprintf( &testDD->testKeys[++iter], "test_int" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromInt( testDD->testInt );
Stg_asprintf( &testDD->testKeys[++iter], "test_unsignedlong" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromUnsignedLong( testDD->testUnsignedlong );
Stg_asprintf( &testDD->testKeys[++iter], "test_bool" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromUnsignedInt( testDD->testBool );
Stg_asprintf( &testDD->testKeys[++iter], "test_placeholder" );
testDD->testValues[iter] = Dictionary_Entry_Value_FromString( testDD->testPlaceHolder );
/* adding a list */
testDD->testListCount = 5;
testDD->testList = Memory_Alloc_Array_Unnamed( double, testDD->testListCount );
for (ii=0; ii<testDD->testListCount; ii++ ) {
testDD->testList[ii] = 10.0 * ii;
}
testList = Dictionary_Entry_Value_NewList();
Stg_asprintf( &testDD->testKeys[++iter], "test_list" );
testDD->testValues[iter] = testList;
for (ii=0; ii < testDD->testListCount; ii++ ) {
Dictionary_Entry_Value_AddElement( testList, Dictionary_Entry_Value_FromDouble(testDD->testList[ii]) );
}
/* Adding members to a struct */
testDD->testStruct = Memory_Alloc_Unnamed( TestStruct );
testDD->testStruct->height = 37;
testDD->testStruct->anisotropic = True;
Stg_asprintf( &testDD->testStruct->person, "Patrick" );
testDD->testStruct->geom.startx = 45;
testDD->testStruct->geom.starty = 60;
testDD->testStruct->geom.startz = 70;
testStruct = Dictionary_Entry_Value_NewStruct();
Stg_asprintf( &testDD->testKeys[++iter], "test_struct" );
testDD->testValues[iter] = testStruct;
Dictionary_Entry_Value_AddMember( testStruct, (Dictionary_Entry_Key)"height", Dictionary_Entry_Value_FromDouble( testDD->testStruct->height ) );
Dictionary_Entry_Value_AddMember( testStruct, (Dictionary_Entry_Key)"anisotropic", Dictionary_Entry_Value_FromBool( testDD->testStruct->anisotropic ) );
Dictionary_Entry_Value_AddMember( testStruct, (Dictionary_Entry_Key)"person", Dictionary_Entry_Value_FromString( testDD->testStruct->person ) );
/* Adding a 2nd struct within the first struct */
testStruct2 = Dictionary_Entry_Value_NewStruct( );
Dictionary_Entry_Value_AddMember( testStruct, (Dictionary_Entry_Key)"geom", testStruct2 );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"startx", Dictionary_Entry_Value_FromUnsignedInt( testDD->testStruct->geom.startx ) );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"starty", Dictionary_Entry_Value_FromUnsignedInt( testDD->testStruct->geom.starty ) );
Dictionary_Entry_Value_AddMember( testStruct2, (Dictionary_Entry_Key)"startz", Dictionary_Entry_Value_FromUnsignedInt( testDD->testStruct->geom.startz ) );
}
int main( int argc, char* argv[] ) {
Stream* stream = NULL;
Dictionary* dictionary;
Dictionary_Entry_Value* tmpVal0;
Dictionary_Entry_Value* tmpVal1;
MPI_Init( &argc, &argv );
BaseFoundation_Init( &argc, &argv );
BaseIO_Init( &argc, &argv );
stream = Journal_Register (Info_Type, "myStream");
dictionary = Dictionary_New();
tmpVal0 = Dictionary_Entry_Value_NewStruct();
tmpVal1 = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( tmpVal1, "name", Dictionary_Entry_Value_FromString( "bill" ) );
Dictionary_Entry_Value_AddMember( tmpVal1, "value", Dictionary_Entry_Value_FromDouble( 1.0f ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "inside", tmpVal1 );
tmpVal1 = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "bottom" ) );
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "top" ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "list_one", tmpVal1 );
Dictionary_Add( dictionary, "one", tmpVal0 );
tmpVal0 = Dictionary_Entry_Value_NewStruct();
tmpVal1 = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( tmpVal1, "new_name", Dictionary_Entry_Value_FromString( "frank" ) );
Dictionary_Entry_Value_AddMember( tmpVal1, "value", Dictionary_Entry_Value_FromDouble( 2.0f ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "inside", tmpVal1 );
tmpVal1 = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "left" ) );
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "right" ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "list_one", tmpVal1 );
Dictionary_AddMerge( dictionary, "one", tmpVal0, Dictionary_MergeType_Append );
Print( dictionary, stream );
Stg_Class_Delete( dictionary );
dictionary = Dictionary_New();
tmpVal0 = Dictionary_Entry_Value_NewStruct();
tmpVal1 = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( tmpVal1, "name", Dictionary_Entry_Value_FromString( "bill" ) );
Dictionary_Entry_Value_AddMember( tmpVal1, "value", Dictionary_Entry_Value_FromDouble( 1.0f ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "inside", tmpVal1 );
tmpVal1 = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "bottom" ) );
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "top" ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "list_one", tmpVal1 );
Dictionary_Add( dictionary, "one", tmpVal0 );
tmpVal0 = Dictionary_Entry_Value_NewStruct();
tmpVal1 = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( tmpVal1, "new_name", Dictionary_Entry_Value_FromString( "frank" ) );
Dictionary_Entry_Value_AddMember( tmpVal1, "value", Dictionary_Entry_Value_FromDouble( 2.0f ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "inside", tmpVal1 );
tmpVal1 = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "left" ) );
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "right" ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "list_one", tmpVal1 );
Dictionary_AddMerge( dictionary, "one", tmpVal0, Dictionary_MergeType_Merge );
Print( dictionary, stream );
Stg_Class_Delete( dictionary );
dictionary = Dictionary_New();
tmpVal0 = Dictionary_Entry_Value_NewStruct();
tmpVal1 = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( tmpVal1, "name", Dictionary_Entry_Value_FromString( "bill" ) );
Dictionary_Entry_Value_AddMember( tmpVal1, "value", Dictionary_Entry_Value_FromDouble( 1.0f ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "inside", tmpVal1 );
tmpVal1 = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "bottom" ) );
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "top" ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "list_one", tmpVal1 );
Dictionary_Add( dictionary, "one", tmpVal0 );
tmpVal0 = Dictionary_Entry_Value_NewStruct();
tmpVal1 = Dictionary_Entry_Value_NewStruct();
Dictionary_Entry_Value_AddMember( tmpVal1, "new_name", Dictionary_Entry_Value_FromString( "frank" ) );
Dictionary_Entry_Value_AddMember( tmpVal1, "value", Dictionary_Entry_Value_FromDouble( 2.0f ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "inside", tmpVal1 );
tmpVal1 = Dictionary_Entry_Value_NewList();
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "left" ) );
Dictionary_Entry_Value_AddElement( tmpVal1, Dictionary_Entry_Value_FromString( "right" ) );
Dictionary_Entry_Value_AddMember( tmpVal0, "list_one", tmpVal1 );
Dictionary_AddMerge( dictionary, "one", tmpVal0, Dictionary_MergeType_Replace );
Print( dictionary, stream );
Stg_Class_Delete( dictionary );
BaseIO_Finalise();
BaseFoundation_Finalise();
MPI_Finalize();
return EXIT_SUCCESS;
}
