Example 1 with FfunctionType
use of claw.tatsu.xcodeml.xnode.fortran.FfunctionType in project claw-compiler by C2SM-RCM.
the class ScaForward method transformStd.
/**
* Do the standard transformation for the forward directive. This transformation
* adapt the function call and replicates any necessary changes to the
* containing subroutine.
*
* @param xcodeml Current XcodeML file unit.
* @param translator Current translator.
* @throws Exception If something goes wrong.
*/
private void transformStd(XcodeProgram xcodeml, Translator translator) throws Exception {
ClawTranslator trans = (ClawTranslator) translator;
final Context context = trans.context();
final Configuration cfg = trans.cfg();
FfunctionDefinition fDef = _claw.getPragma().findParentFunction();
if (fDef == null) {
throw new IllegalTransformationException("SCA directive is not " + "nested in a function/subroutine.", _claw.getPragma().lineNo());
}
FfunctionType parentFctType = xcodeml.getTypeTable().getFunctionType(fDef);
if (_fctType.isElemental() || _fctType.getBooleanAttribute(Xattr.WAS_ELEMENTAL)) {
_flatten = true;
}
List<Xnode> params = _fctType.getParameters();
/*
* Compute the position of the first new arguments. In the case of a type-bound
* procedure call, the first parameter declared in the procedure is not actually
* passed as an argument. In this case, we add an offset of one to the starting
* arguments. TODO the check might be change to fit with the XcodeML/F2008
* specs. The TODO cont: attribute data_ref will probably be gone and replaced
* by a TODO cont: FmemberRef element
*/
int argOffset = 0;
if (!params.isEmpty() && FortranType.STRUCT.isOfType(params.get(0).getType()) && _fCall.isTbpCall()) {
argOffset = 1;
}
// 1. Adapt function call with potential new arguments
for (int i = 0; i < params.size(); i++) {
Xnode p = params.get(i);
String varId = p.value();
String type;
FbasicType paramType = xcodeml.getTypeTable().getBasicType(p);
if (!p.getBooleanAttribute(Xattr.IS_INSERTED)) {
continue;
}
if (!fDef.getSymbolTable().contains(varId)) {
if (_flatten && !paramType.getBooleanAttribute(Xattr.IS_OPTIONAL)) {
throw new IllegalTransformationException("Variable " + varId + " must be locally defined where the last call to one_column " + "is made.", _claw.getPragma().lineNo());
}
// Size variable have to be declared
FbasicType bt = xcodeml.createBasicType(FortranType.INTEGER, Intent.IN);
xcodeml.getTypeTable().add(bt);
xcodeml.createIdAndDecl(varId, bt.getType(), XstorageClass.F_PARAM, fDef, DeclarationPosition.FIRST);
type = bt.getType();
Xnode param = xcodeml.createAndAddParam(varId, type, parentFctType);
param.setBooleanAttribute(Xattr.IS_INSERTED, true);
} else {
// Var exists already. Add to the parameters if not here.
type = fDef.getSymbolTable().get(varId).getType();
/*
* If flatten mode, we do not add extra parameters to the function definition.
*/
if (!_flatten && !fDef.getSymbolTable().contains(varId)) {
Xnode param = xcodeml.createAndAddParamIfNotExists(varId, type, parentFctType);
if (param != null) {
param.setBooleanAttribute(Xattr.IS_INSERTED, true);
}
}
}
// Add variable in the function call before the optional parameters
Xnode arg = xcodeml.createNamedValue(varId);
arg.append(xcodeml.createVar(type, varId, Xscope.LOCAL));
Xnode hook = _fCall.arguments().get((i - 1) - argOffset);
if (hook != null) {
hook.insertAfter(arg);
} else {
_fCall.addArguments(arg);
}
}
// In flatten mode, arguments are demoted if needed.
if (_flatten) {
for (Xnode arg : _fCall.arguments()) {
if (arg.is(Xcode.F_ARRAY_REF) && arg.matchDirectDescendant(Arrays.asList(Xcode.INDEX_RANGE, Xcode.ARRAY_INDEX)) != null) {
List<Xnode> arrayIndexes = arg.matchAll(Xcode.ARRAY_INDEX);
for (Xnode n : arrayIndexes) {
if (_doStatements != null && XnodeUtil.isInductionIndex(n, _doStatements.getInductionVariables())) {
n.insertAfter(xcodeml.createEmptyAssumedShaped());
XnodeUtil.safeDelete(n);
}
}
}
}
} else {
// 2. Adapt function/subroutine in which the function call is nested
for (Xnode pBase : _fctType.getParameters()) {
String originalParam = pBase.value();
if (_fctCallMapping.containsKey(originalParam)) {
originalParam = _fctCallMapping.get(originalParam);
}
Xnode pUpdate = null;
for (Xnode param : parentFctType.getParameters()) {
if (originalParam.equals(param.value())) {
pUpdate = param;
}
}
if (pUpdate == null) {
// field is not a parameter but maybe out field
Xnode d = fDef.getDeclarationTable().get(originalParam);
if (d != null) {
pUpdate = d.matchSeq(Xcode.NAME);
}
}
if (pUpdate != null) {
if (pUpdate.getType() == null || FortranType.isBuiltInType(pUpdate.getType())) {
continue;
}
FbasicType typeBase = (_localFct) ? xcodeml.getTypeTable().getBasicType(pBase) : _mod.getTypeTable().getBasicType(pBase);
FbasicType typeToUpdate = xcodeml.getTypeTable().getBasicType(pUpdate);
int targetDim = typeBase.getDimensions();
int baseDim = typeToUpdate.getDimensions();
// Types have different dimensions
if (typeBase.getDimensions() > typeToUpdate.getDimensions()) {
PromotionInfo promotionInfo = new PromotionInfo(originalParam);
promotionInfo.readDimensionsFromString(pBase.getAttribute(Xattr.PROMOTION_INFO));
FbasicType type = _localFct ? Type.duplicateWithDimension(typeBase, typeToUpdate, xcodeml, xcodeml, promotionInfo.getDimensions()) : Type.duplicateWithDimension(typeBase, typeToUpdate, _mod, xcodeml, promotionInfo.getDimensions());
pUpdate.setType(type);
Xid id = fDef.getSymbolTable().get(originalParam);
if (id != null) {
id.setType(type);
}
Xnode varDecl = fDef.getDeclarationTable().get(originalParam);
if (varDecl != null) {
varDecl.matchSeq(Xcode.NAME).setType(type);
}
promotionInfo.setBaseDimension(baseDim);
promotionInfo.setTargetDimension(targetDim);
promotionInfo.setTargetType(type);
_promotions.put(originalParam, promotionInfo);
_promotedVar.add(originalParam);
pBase.copyAttribute(pUpdate, Xattr.PROMOTION_INFO);
}
}
}
if (!parentFctType.getBooleanAttribute(Xattr.IS_PRIVATE)) {
// 3. Replicate the change in a potential module file
FmoduleDefinition modDef = fDef.findParentModule();
if (modDef != null) {
Xmod.updateSignature(modDef.getName(), xcodeml, fDef, parentFctType, false);
}
} else if (_fCall.matchSeq(Xcode.NAME).hasAttribute(Xattr.DATA_REF)) {
/*
* The function/subroutine is private but accessible through the type as a
* type-bound procedure. In this case, the function is not in the type table of
* the .xmod file. We need to insert it first and then we can update it.
*/
FmoduleDefinition modDef = fDef.findParentModule();
if (modDef != null) {
Xmod.updateSignature(modDef.getName(), xcodeml, fDef, parentFctType, true);
}
}
}
updateResultVar(xcodeml);
propagatePromotion(xcodeml, (ClawTranslator) translator);
Xnode fctCallAncestor = _fCall.matchAncestor(Xcode.EXPR_STATEMENT);
if (fctCallAncestor == null) {
fctCallAncestor = _fCall.matchAncestor(Xcode.F_ASSIGN_STATEMENT);
}
if (_claw.hasClause(ClawClause.CREATE) && context.isTarget(Target.GPU)) {
List<String> creates = _fCall.gatherArguments(xcodeml, _fctType, _mod, Intent.INOUT, true, false);
if (_fctType.isFunction()) {
String returnValue = XnodeUtil.gatherReturnValue(xcodeml, _fCall);
if (returnValue != null) {
creates.add(returnValue);
}
}
Xblock fctCallBlock = new Xblock(fctCallAncestor);
Directive.generateDataRegionClause(xcodeml, Collections.emptyList(), creates, fctCallBlock);
}
// Serialization input
if (_claw.hasClause(ClawClause.SAVEPOINT)) {
List<String> inFields = _fCall.gatherArguments(xcodeml, _fctType, _mod != null ? _mod : xcodeml, Intent.IN, true, false);
Serialization.insertImports(cfg, xcodeml, _fCall.findParentFunction());
if (context.isTarget(Target.CPU)) {
Serialization.generateWriteSavepoint(cfg, xcodeml, fctCallAncestor, _claw.getMetadataMap(), inFields, _claw.value(ClawClause.SAVEPOINT), SerializationStep.SER_IN);
} else {
Serialization.generateReadSavepoint(cfg, xcodeml, fctCallAncestor, _claw.getMetadataMap(), inFields, _claw.value(ClawClause.SAVEPOINT), SerializationStep.SER_IN);
}
}
Xnode postHook = fctCallAncestor;
if (_claw.hasClause(ClawClause.UPDATE) && context.isTarget(Target.GPU) && cfg.getBooleanParameter(Configuration.SCA_FORWARD_UPDATE_ENABLED)) {
// Generate update from HOST TO DEVICE
if ((_claw.getUpdateClauseValue() == DataMovement.TWO_WAY || _claw.getUpdateClauseValue() == DataMovement.HOST_TO_DEVICE) && cfg.updateAtInput()) {
List<String> in = _fCall.gatherArguments(xcodeml, _fctType, _mod != null ? _mod : xcodeml, Intent.IN, true, false);
Directive.generateUpdate(xcodeml, fctCallAncestor, in, DataMovement.HOST_TO_DEVICE);
}
// Generate update from DEVICE to HOST
if ((_claw.getUpdateClauseValue() == DataMovement.TWO_WAY || _claw.getUpdateClauseValue() == DataMovement.DEVICE_TO_HOST) && cfg.updateAtOutput()) {
List<String> out = _fCall.gatherArguments(xcodeml, _fctType, _mod != null ? _mod : xcodeml, Intent.OUT, true, false);
if (_fctType.isFunction()) {
String returnValue = XnodeUtil.gatherReturnValue(xcodeml, _fCall);
if (returnValue != null) {
out.add(returnValue);
}
}
postHook = Directive.generateUpdate(xcodeml, fctCallAncestor, out, DataMovement.DEVICE_TO_HOST);
}
}
if (_claw.hasClause(ClawClause.PARALLEL) && context.isTarget(Target.GPU)) {
Directive.generateParallelRegion(xcodeml, fctCallAncestor, fctCallAncestor);
}
// Serialization output
if (_claw.hasClause(ClawClause.SAVEPOINT)) {
List<String> outFields = _fCall.gatherArguments(xcodeml, _fctType, _mod != null ? _mod : xcodeml, Intent.OUT, true, false);
Serialization.insertImports(cfg, xcodeml, _fCall.findParentFunction());
Serialization.generateWriteSavepoint(cfg, xcodeml, postHook, _claw.getMetadataMap(), outFields, _claw.value(ClawClause.SAVEPOINT), SerializationStep.SER_OUT);
}
}
Also used :
Context(claw.tatsu.common.Context)
Configuration(claw.wani.x2t.configuration.Configuration)
FfunctionType(claw.tatsu.xcodeml.xnode.fortran.FfunctionType)
PromotionInfo(claw.tatsu.xcodeml.abstraction.PromotionInfo)
FbasicType(claw.tatsu.xcodeml.xnode.fortran.FbasicType)
Xnode(claw.tatsu.xcodeml.xnode.common.Xnode)
Xid(claw.tatsu.xcodeml.xnode.common.Xid)
FfunctionDefinition(claw.tatsu.xcodeml.xnode.fortran.FfunctionDefinition)
IllegalTransformationException(claw.tatsu.xcodeml.exception.IllegalTransformationException)
Xblock(claw.tatsu.xcodeml.abstraction.Xblock)
FmoduleDefinition(claw.tatsu.xcodeml.xnode.fortran.FmoduleDefinition)
ClawTranslator(claw.wani.x2t.translator.ClawTranslator)
Example 2 with FfunctionType
use of claw.tatsu.xcodeml.xnode.fortran.FfunctionType in project claw-compiler by C2SM-RCM.
the class Serialization method createBaseSerFctCall.
/**
* Create the skeletion of a function call for serialization functions.
*
* @param xcodeml Current XcodeML translation unit.
* @param callType Type of call for the
* @return Newly create functionCall node.
*/
private static FunctionCall createBaseSerFctCall(XcodeProgram xcodeml, SerializationCall callType) {
FfunctionType serType = xcodeml.createSubroutineType();
Xnode savepointArg = xcodeml.createVar(FortranType.STRUCT, SER_PPSER_SAVEPOINT, Xscope.GLOBAL);
String serFctName;
switch(callType) {
case SER_READ:
case SER_READ_PERTURB:
serFctName = SER_FS_READ_FIELD;
break;
case SER_ADD_METAINFO:
serFctName = SER_FS_ADD_SP_METAINFO;
break;
case SER_WRITE:
default:
serFctName = SER_FS_WRITE_FIELD;
}
FunctionCall serCall = xcodeml.createFctCall(serType, serFctName);
if (callType == SerializationCall.SER_WRITE) {
Xnode serializerArg = xcodeml.createVar(FortranType.STRUCT, SER_PPSER_SERIALIZER, Xscope.GLOBAL);
serCall.addArguments(serializerArg);
} else if (callType == SerializationCall.SER_READ || callType == SerializationCall.SER_READ_PERTURB) {
Xnode serializerArg = xcodeml.createVar(FortranType.STRUCT, SER_PPSER_SERIALIZER_REF, Xscope.GLOBAL);
serCall.addArguments(serializerArg);
}
serCall.addArguments(savepointArg);
return serCall;
}
Also used :
Xnode(claw.tatsu.xcodeml.xnode.common.Xnode)
FfunctionType(claw.tatsu.xcodeml.xnode.fortran.FfunctionType)
FunctionCall(claw.tatsu.xcodeml.abstraction.FunctionCall)
Example 3 with FfunctionType
use of claw.tatsu.xcodeml.xnode.fortran.FfunctionType in project claw-compiler by C2SM-RCM.
the class XcodeML method createIdAndDecl.
/**
* Create the id and varDecl nodes and add them to the symbol/declaration table.
*
* @param name Name of the variable.
* @param type Type of the variable.
* @param sclass Scope class of the variable (from Xname).
* @param fctDef Function definition in which id and decl are created.
* @param declPos Position of the newly inserted declaration.
*/
public void createIdAndDecl(String name, String type, XstorageClass sclass, FfunctionDefinition fctDef, DeclarationPosition declPos) {
Xid id = createId(type, sclass, name);
fctDef.getSymbolTable().add(id);
Xnode decl = createVarDecl(type, name);
Xnode hook = null;
// Check where is the last dummy arguments in the declaration
if (declPos == DeclarationPosition.AFTER_DUMMY) {
FfunctionType fctType = getTypeTable().getFunctionType(fctDef);
List<String> parameters = fctType.getParamsNames();
for (Xnode n : fctDef.getDeclarationTable().values()) {
if (n.is(Xcode.VAR_DECL)) {
String varId = n.matchDirectDescendant(Xcode.NAME).value();
if (n.lineNo() == 0 || varId.equalsIgnoreCase(fctDef.getName())) {
continue;
}
if (parameters.contains(varId.toLowerCase())) {
hook = n;
} else {
break;
}
}
}
} else if (declPos == DeclarationPosition.FIRST) {
for (Xnode n : fctDef.getDeclarationTable().values()) {
if (n.is(Xcode.F_USE_DECL) || n.is(Xcode.F_USE_ONLY_DECL)) {
hook = n;
} else {
break;
}
}
}
// Insert the new declaration
if (declPos == DeclarationPosition.FIRST && hook == null) {
fctDef.getDeclarationTable().addFirst(decl);
} else if (hook == null) {
fctDef.getDeclarationTable().add(decl);
} else {
hook.insertAfter(decl);
}
}
Also used :
FfunctionType(claw.tatsu.xcodeml.xnode.fortran.FfunctionType)
Example 4 with FfunctionType
use of claw.tatsu.xcodeml.xnode.fortran.FfunctionType in project claw-compiler by C2SM-RCM.
the class XtypeTable method readTable.
/**
* Read the type table.
*/
private void readTable() {
List<Xnode> elements = children();
for (Xnode n : elements) {
switch(n.opcode()) {
case F_BASIC_TYPE:
FbasicType bt = new FbasicType(n);
_table.put(bt.getType(), bt);
break;
case F_FUNCTION_TYPE:
FfunctionType ft = new FfunctionType(n);
_table.put(ft.getType(), ft);
break;
case F_STRUCT_TYPE:
FstructType st = new FstructType(n);
_table.put(st.getType(), st);
break;
default:
break;
}
}
}
Also used :
FfunctionType(claw.tatsu.xcodeml.xnode.fortran.FfunctionType)
FstructType(claw.tatsu.xcodeml.xnode.fortran.FstructType)
FbasicType(claw.tatsu.xcodeml.xnode.fortran.FbasicType)
Example 5 with FfunctionType
use of claw.tatsu.xcodeml.xnode.fortran.FfunctionType in project claw-compiler by C2SM-RCM.
the class XmlHelper method createXfctTypeFromString.
public static FfunctionType createXfctTypeFromString(String xml) {
Xnode n = XmlHelper.getElementFromString(xml);
assertNotNull(n);
return new FfunctionType(n);
}
Also used :
Xnode(claw.tatsu.xcodeml.xnode.common.Xnode)
FfunctionType(claw.tatsu.xcodeml.xnode.fortran.FfunctionType)
Aggregations
FfunctionType (claw.tatsu.xcodeml.xnode.fortran.FfunctionType)11
Xnode (claw.tatsu.xcodeml.xnode.common.Xnode)6
Context (claw.tatsu.common.Context)4
FbasicType (claw.tatsu.xcodeml.xnode.fortran.FbasicType)4
FunctionCall (claw.tatsu.xcodeml.abstraction.FunctionCall)3
IllegalTransformationException (claw.tatsu.xcodeml.exception.IllegalTransformationException)3
Xid (claw.tatsu.xcodeml.xnode.common.Xid)3
PromotionInfo (claw.tatsu.xcodeml.abstraction.PromotionInfo)2
FfunctionDefinition (claw.tatsu.xcodeml.xnode.fortran.FfunctionDefinition)2
ClawTranslator (claw.wani.x2t.translator.ClawTranslator)2
Xblock (claw.tatsu.xcodeml.abstraction.Xblock)1
Xattr (claw.tatsu.xcodeml.xnode.common.Xattr)1
XdeclTable (claw.tatsu.xcodeml.xnode.common.XdeclTable)1
XsymbolTable (claw.tatsu.xcodeml.xnode.common.XsymbolTable)1
FmoduleDefinition (claw.tatsu.xcodeml.xnode.fortran.FmoduleDefinition)1
FortranModule (claw.tatsu.xcodeml.xnode.fortran.FortranModule)1
FstructType (claw.tatsu.xcodeml.xnode.fortran.FstructType)1
ClawMapping (claw.wani.language.ClawMapping)1
ClawMappingVar (claw.wani.language.ClawMappingVar)1
Configuration (claw.wani.x2t.configuration.Configuration)1
