Example 6 with BMapType
use of org.ballerinalang.model.types.BMapType in project ballerina by ballerina-lang.
the class ProgramFileReader method getBTypeFromDescriptor.
private BType getBTypeFromDescriptor(String desc) {
char ch = desc.charAt(0);
switch(ch) {
case 'I':
return BTypes.typeInt;
case 'F':
return BTypes.typeFloat;
case 'S':
return BTypes.typeString;
case 'B':
return BTypes.typeBoolean;
case 'Y':
return BTypes.typeDesc;
case 'L':
return BTypes.typeBlob;
case 'A':
return BTypes.typeAny;
case 'R':
return BTypes.getTypeFromName(desc.substring(1, desc.length() - 1));
case 'M':
BType constrainedType = getBTypeFromDescriptor(desc.substring(1));
if (constrainedType == BTypes.typeAny) {
return BTypes.typeMap;
} else {
return new BMapType(constrainedType);
}
case 'C':
case 'X':
case 'J':
case 'T':
case 'E':
case 'H':
case 'Z':
case 'D':
String typeName = desc.substring(1, desc.length() - 1);
String[] parts = typeName.split(":");
if (parts.length == 1) {
if (ch == 'J') {
return BTypes.typeJSON;
} else if (ch == 'D') {
return BTypes.typeTable;
} else if (ch == 'H') {
// TODO:CHECK
return BTypes.typeStream;
}
}
String pkgPath = parts[0];
String name = parts[1];
PackageInfo packageInfoOfType = programFile.getPackageInfo(pkgPath);
if (ch == 'J') {
return new BJSONType(packageInfoOfType.getStructInfo(name).getType());
} else if (ch == 'C') {
return packageInfoOfType.getConnectorInfo(name).getType();
} else if (ch == 'X') {
return packageInfoOfType.getServiceInfo(name).getType();
} else if (ch == 'D') {
return new BTableType(packageInfoOfType.getStructInfo(name).getType());
} else if (ch == 'H') {
return new BStreamType(packageInfoOfType.getStructInfo(name).getType());
} else if (ch == 'E') {
return packageInfoOfType.getEnumInfo(name).getType();
} else {
return packageInfoOfType.getStructInfo(name).getType();
}
case '[':
BType elemType = getBTypeFromDescriptor(desc.substring(1));
return new BArrayType(elemType);
case 'U':
// TODO : Fix this for type casting.
return new BFunctionType();
case 'O':
case 'P':
Stack<BType> typeStack = new Stack<BType>();
createBTypeFromSig(desc.toCharArray(), 0, typeStack, null);
return typeStack.pop();
case 'N':
return BTypes.typeNull;
default:
throw new ProgramFileFormatException("unsupported base type char: " + ch);
}
}
Also used :
BArrayType(org.ballerinalang.model.types.BArrayType)
BJSONType(org.ballerinalang.model.types.BJSONType)
BFunctionType(org.ballerinalang.model.types.BFunctionType)
ProgramFileFormatException(org.ballerinalang.util.exceptions.ProgramFileFormatException)
BStreamType(org.ballerinalang.model.types.BStreamType)
Stack(java.util.Stack)
BMapType(org.ballerinalang.model.types.BMapType)
BType(org.ballerinalang.model.types.BType)
BTableType(org.ballerinalang.model.types.BTableType)
Example 7 with BMapType
use of org.ballerinalang.model.types.BMapType in project ballerina by ballerina-lang.
the class CPU method tryExec.
@SuppressWarnings("rawtypes")
private static void tryExec(WorkerExecutionContext ctx) {
BLangScheduler.workerRunning(ctx);
int i;
int j;
int cpIndex;
FunctionCallCPEntry funcCallCPEntry;
FunctionRefCPEntry funcRefCPEntry;
TypeRefCPEntry typeRefCPEntry;
FunctionInfo functionInfo;
InstructionCALL callIns;
boolean debugEnabled = ctx.programFile.getDebugger().isDebugEnabled();
WorkerData currentSF, callersSF;
int callersRetRegIndex;
while (ctx.ip >= 0) {
if (ctx.stop) {
BLangScheduler.workerDone(ctx);
return;
}
if (debugEnabled && debug(ctx)) {
return;
}
Instruction instruction = ctx.code[ctx.ip];
int opcode = instruction.getOpcode();
int[] operands = instruction.getOperands();
ctx.ip++;
WorkerData sf = ctx.workerLocal;
switch(opcode) {
case InstructionCodes.ICONST:
cpIndex = operands[0];
i = operands[1];
sf.longRegs[i] = ((IntegerCPEntry) ctx.constPool[cpIndex]).getValue();
break;
case InstructionCodes.FCONST:
cpIndex = operands[0];
i = operands[1];
sf.doubleRegs[i] = ((FloatCPEntry) ctx.constPool[cpIndex]).getValue();
break;
case InstructionCodes.SCONST:
cpIndex = operands[0];
i = operands[1];
sf.stringRegs[i] = ((StringCPEntry) ctx.constPool[cpIndex]).getValue();
break;
case InstructionCodes.ICONST_0:
i = operands[0];
sf.longRegs[i] = 0;
break;
case InstructionCodes.ICONST_1:
i = operands[0];
sf.longRegs[i] = 1;
break;
case InstructionCodes.ICONST_2:
i = operands[0];
sf.longRegs[i] = 2;
break;
case InstructionCodes.ICONST_3:
i = operands[0];
sf.longRegs[i] = 3;
break;
case InstructionCodes.ICONST_4:
i = operands[0];
sf.longRegs[i] = 4;
break;
case InstructionCodes.ICONST_5:
i = operands[0];
sf.longRegs[i] = 5;
break;
case InstructionCodes.FCONST_0:
i = operands[0];
sf.doubleRegs[i] = 0;
break;
case InstructionCodes.FCONST_1:
i = operands[0];
sf.doubleRegs[i] = 1;
break;
case InstructionCodes.FCONST_2:
i = operands[0];
sf.doubleRegs[i] = 2;
break;
case InstructionCodes.FCONST_3:
i = operands[0];
sf.doubleRegs[i] = 3;
break;
case InstructionCodes.FCONST_4:
i = operands[0];
sf.doubleRegs[i] = 4;
break;
case InstructionCodes.FCONST_5:
i = operands[0];
sf.doubleRegs[i] = 5;
break;
case InstructionCodes.BCONST_0:
i = operands[0];
sf.intRegs[i] = 0;
break;
case InstructionCodes.BCONST_1:
i = operands[0];
sf.intRegs[i] = 1;
break;
case InstructionCodes.RCONST_NULL:
i = operands[0];
sf.refRegs[i] = null;
break;
case InstructionCodes.IMOVE:
case InstructionCodes.FMOVE:
case InstructionCodes.SMOVE:
case InstructionCodes.BMOVE:
case InstructionCodes.LMOVE:
case InstructionCodes.RMOVE:
case InstructionCodes.IALOAD:
case InstructionCodes.FALOAD:
case InstructionCodes.SALOAD:
case InstructionCodes.BALOAD:
case InstructionCodes.LALOAD:
case InstructionCodes.RALOAD:
case InstructionCodes.JSONALOAD:
case InstructionCodes.IGLOAD:
case InstructionCodes.FGLOAD:
case InstructionCodes.SGLOAD:
case InstructionCodes.BGLOAD:
case InstructionCodes.LGLOAD:
case InstructionCodes.RGLOAD:
case InstructionCodes.IFIELDLOAD:
case InstructionCodes.FFIELDLOAD:
case InstructionCodes.SFIELDLOAD:
case InstructionCodes.BFIELDLOAD:
case InstructionCodes.LFIELDLOAD:
case InstructionCodes.RFIELDLOAD:
case InstructionCodes.MAPLOAD:
case InstructionCodes.JSONLOAD:
case InstructionCodes.ENUMERATORLOAD:
execLoadOpcodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.IASTORE:
case InstructionCodes.FASTORE:
case InstructionCodes.SASTORE:
case InstructionCodes.BASTORE:
case InstructionCodes.LASTORE:
case InstructionCodes.RASTORE:
case InstructionCodes.JSONASTORE:
case InstructionCodes.IGSTORE:
case InstructionCodes.FGSTORE:
case InstructionCodes.SGSTORE:
case InstructionCodes.BGSTORE:
case InstructionCodes.LGSTORE:
case InstructionCodes.RGSTORE:
case InstructionCodes.IFIELDSTORE:
case InstructionCodes.FFIELDSTORE:
case InstructionCodes.SFIELDSTORE:
case InstructionCodes.BFIELDSTORE:
case InstructionCodes.LFIELDSTORE:
case InstructionCodes.RFIELDSTORE:
case InstructionCodes.MAPSTORE:
case InstructionCodes.JSONSTORE:
execStoreOpcodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.IADD:
case InstructionCodes.FADD:
case InstructionCodes.SADD:
case InstructionCodes.XMLADD:
case InstructionCodes.ISUB:
case InstructionCodes.FSUB:
case InstructionCodes.IMUL:
case InstructionCodes.FMUL:
case InstructionCodes.IDIV:
case InstructionCodes.FDIV:
case InstructionCodes.IMOD:
case InstructionCodes.FMOD:
case InstructionCodes.INEG:
case InstructionCodes.FNEG:
case InstructionCodes.BNOT:
case InstructionCodes.IEQ:
case InstructionCodes.FEQ:
case InstructionCodes.SEQ:
case InstructionCodes.BEQ:
case InstructionCodes.REQ:
case InstructionCodes.TEQ:
case InstructionCodes.INE:
case InstructionCodes.FNE:
case InstructionCodes.SNE:
case InstructionCodes.BNE:
case InstructionCodes.RNE:
case InstructionCodes.TNE:
execBinaryOpCodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.LENGTHOF:
calculateLength(ctx, operands, sf);
break;
case InstructionCodes.TYPELOAD:
cpIndex = operands[0];
j = operands[1];
TypeRefCPEntry typeEntry = (TypeRefCPEntry) ctx.constPool[cpIndex];
sf.refRegs[j] = new BTypeDescValue(typeEntry.getType());
break;
case InstructionCodes.TYPEOF:
i = operands[0];
j = operands[1];
BValue val = sf.refRegs[i];
if (val == null || (val instanceof BString && ((BString) val).value() == null)) {
sf.refRegs[j] = new BTypeDescValue(BTypes.typeNull);
break;
}
sf.refRegs[j] = new BTypeDescValue(sf.refRegs[i].getType());
break;
case InstructionCodes.HALT:
ctx = handleHalt(ctx);
if (ctx == null) {
return;
}
break;
case InstructionCodes.IGT:
case InstructionCodes.FGT:
case InstructionCodes.IGE:
case InstructionCodes.FGE:
case InstructionCodes.ILT:
case InstructionCodes.FLT:
case InstructionCodes.ILE:
case InstructionCodes.FLE:
case InstructionCodes.REQ_NULL:
case InstructionCodes.RNE_NULL:
case InstructionCodes.BR_TRUE:
case InstructionCodes.BR_FALSE:
case InstructionCodes.GOTO:
case InstructionCodes.SEQ_NULL:
case InstructionCodes.SNE_NULL:
execCmpAndBranchOpcodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.TR_RETRY:
i = operands[0];
j = operands[1];
int l = operands[2];
retryTransaction(ctx, i, j, l);
break;
case InstructionCodes.CALL:
callIns = (InstructionCALL) instruction;
ctx = BLangFunctions.invokeCallable(callIns.functionInfo, ctx, callIns.argRegs, callIns.retRegs, false, callIns.flags);
if (ctx == null) {
return;
}
break;
case InstructionCodes.VCALL:
InstructionVCALL vcallIns = (InstructionVCALL) instruction;
ctx = invokeVirtualFunction(ctx, vcallIns.receiverRegIndex, vcallIns.functionInfo, vcallIns.argRegs, vcallIns.retRegs, vcallIns.flags);
if (ctx == null) {
return;
}
break;
case InstructionCodes.ACALL:
InstructionACALL acallIns = (InstructionACALL) instruction;
ctx = invokeAction(ctx, acallIns.actionName, acallIns.argRegs, acallIns.retRegs, acallIns.flags);
if (ctx == null) {
return;
}
break;
case InstructionCodes.TCALL:
InstructionTCALL tcallIns = (InstructionTCALL) instruction;
ctx = BLangFunctions.invokeCallable(tcallIns.transformerInfo, ctx, tcallIns.argRegs, tcallIns.retRegs, false, tcallIns.flags);
if (ctx == null) {
return;
}
break;
case InstructionCodes.TR_BEGIN:
i = operands[0];
j = operands[1];
int k = operands[2];
int h = operands[3];
beginTransaction(ctx, i, j, k, h);
break;
case InstructionCodes.TR_END:
i = operands[0];
j = operands[1];
endTransaction(ctx, i, j);
break;
case InstructionCodes.WRKSEND:
InstructionWRKSendReceive wrkSendIns = (InstructionWRKSendReceive) instruction;
handleWorkerSend(ctx, wrkSendIns.dataChannelInfo, wrkSendIns.types, wrkSendIns.regs);
break;
case InstructionCodes.WRKRECEIVE:
InstructionWRKSendReceive wrkReceiveIns = (InstructionWRKSendReceive) instruction;
if (!handleWorkerReceive(ctx, wrkReceiveIns.dataChannelInfo, wrkReceiveIns.types, wrkReceiveIns.regs)) {
return;
}
break;
case InstructionCodes.FORKJOIN:
InstructionFORKJOIN forkJoinIns = (InstructionFORKJOIN) instruction;
ctx = invokeForkJoin(ctx, forkJoinIns);
if (ctx == null) {
return;
}
break;
case InstructionCodes.THROW:
i = operands[0];
if (i >= 0) {
BStruct error = (BStruct) sf.refRegs[i];
if (error == null) {
handleNullRefError(ctx);
break;
}
BLangVMErrors.attachStackFrame(error, ctx);
ctx.setError(error);
}
handleError(ctx);
break;
case InstructionCodes.ERRSTORE:
i = operands[0];
sf.refRegs[i] = ctx.getError();
// clear error
ctx.setError(null);
break;
case InstructionCodes.FPCALL:
i = operands[0];
if (sf.refRegs[i] == null) {
handleNullRefError(ctx);
break;
}
cpIndex = operands[1];
funcCallCPEntry = (FunctionCallCPEntry) ctx.constPool[cpIndex];
funcRefCPEntry = ((BFunctionPointer) sf.refRegs[i]).value();
functionInfo = funcRefCPEntry.getFunctionInfo();
ctx = BLangFunctions.invokeCallable(functionInfo, ctx, funcCallCPEntry.getArgRegs(), funcCallCPEntry.getRetRegs(), false);
if (ctx == null) {
return;
}
break;
case InstructionCodes.FPLOAD:
i = operands[0];
j = operands[1];
funcRefCPEntry = (FunctionRefCPEntry) ctx.constPool[i];
sf.refRegs[j] = new BFunctionPointer(funcRefCPEntry);
break;
case InstructionCodes.I2ANY:
case InstructionCodes.F2ANY:
case InstructionCodes.S2ANY:
case InstructionCodes.B2ANY:
case InstructionCodes.L2ANY:
case InstructionCodes.ANY2I:
case InstructionCodes.ANY2F:
case InstructionCodes.ANY2S:
case InstructionCodes.ANY2B:
case InstructionCodes.ANY2L:
case InstructionCodes.ANY2JSON:
case InstructionCodes.ANY2XML:
case InstructionCodes.ANY2MAP:
case InstructionCodes.ANY2TYPE:
case InstructionCodes.ANY2E:
case InstructionCodes.ANY2T:
case InstructionCodes.ANY2C:
case InstructionCodes.ANY2DT:
case InstructionCodes.NULL2JSON:
case InstructionCodes.CHECKCAST:
case InstructionCodes.B2JSON:
case InstructionCodes.JSON2I:
case InstructionCodes.JSON2F:
case InstructionCodes.JSON2S:
case InstructionCodes.JSON2B:
case InstructionCodes.NULL2S:
case InstructionCodes.IS_ASSIGNABLE:
case InstructionCodes.CHECK_CONVERSION:
execTypeCastOpcodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.I2F:
case InstructionCodes.I2S:
case InstructionCodes.I2B:
case InstructionCodes.I2JSON:
case InstructionCodes.F2I:
case InstructionCodes.F2S:
case InstructionCodes.F2B:
case InstructionCodes.F2JSON:
case InstructionCodes.S2I:
case InstructionCodes.S2F:
case InstructionCodes.S2B:
case InstructionCodes.S2JSON:
case InstructionCodes.B2I:
case InstructionCodes.B2F:
case InstructionCodes.B2S:
case InstructionCodes.DT2XML:
case InstructionCodes.DT2JSON:
case InstructionCodes.T2MAP:
case InstructionCodes.T2JSON:
case InstructionCodes.MAP2T:
case InstructionCodes.JSON2T:
case InstructionCodes.XMLATTRS2MAP:
case InstructionCodes.S2XML:
case InstructionCodes.S2JSONX:
case InstructionCodes.XML2S:
case InstructionCodes.ANY2SCONV:
execTypeConversionOpcodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.INEWARRAY:
i = operands[0];
sf.refRegs[i] = new BIntArray();
break;
case InstructionCodes.ARRAYLEN:
i = operands[0];
j = operands[1];
BValue value = sf.refRegs[i];
if (value == null) {
handleNullRefError(ctx);
break;
}
if (value.getType().getTag() == TypeTags.JSON_TAG) {
sf.longRegs[j] = ((BJSON) value).value().size();
break;
}
sf.longRegs[j] = ((BNewArray) value).size();
break;
case InstructionCodes.FNEWARRAY:
i = operands[0];
sf.refRegs[i] = new BFloatArray();
break;
case InstructionCodes.SNEWARRAY:
i = operands[0];
sf.refRegs[i] = new BStringArray();
break;
case InstructionCodes.BNEWARRAY:
i = operands[0];
sf.refRegs[i] = new BBooleanArray();
break;
case InstructionCodes.LNEWARRAY:
i = operands[0];
sf.refRegs[i] = new BBlobArray();
break;
case InstructionCodes.RNEWARRAY:
i = operands[0];
cpIndex = operands[1];
typeRefCPEntry = (TypeRefCPEntry) ctx.constPool[cpIndex];
sf.refRegs[i] = new BRefValueArray(typeRefCPEntry.getType());
break;
case InstructionCodes.JSONNEWARRAY:
i = operands[0];
j = operands[1];
// This is a temporary solution to create n-valued JSON array
StringJoiner stringJoiner = new StringJoiner(",", "[", "]");
for (int index = 0; index < sf.longRegs[j]; index++) {
stringJoiner.add(null);
}
sf.refRegs[i] = new BJSON(stringJoiner.toString());
break;
case InstructionCodes.NEWSTRUCT:
createNewStruct(ctx, operands, sf);
break;
case InstructionCodes.NEWCONNECTOR:
createNewConnector(ctx, operands, sf);
break;
case InstructionCodes.NEWMAP:
i = operands[0];
cpIndex = operands[1];
typeRefCPEntry = (TypeRefCPEntry) ctx.constPool[cpIndex];
BMapType mapType = (BMapType) typeRefCPEntry.getType();
sf.refRegs[i] = new BMap<String, BRefType>(mapType);
break;
case InstructionCodes.NEWJSON:
i = operands[0];
cpIndex = operands[1];
typeRefCPEntry = (TypeRefCPEntry) ctx.constPool[cpIndex];
sf.refRegs[i] = new BJSON("{}", typeRefCPEntry.getType());
break;
case InstructionCodes.NEWTABLE:
i = operands[0];
cpIndex = operands[1];
typeRefCPEntry = (TypeRefCPEntry) ctx.constPool[cpIndex];
sf.refRegs[i] = new BTable(typeRefCPEntry.getType());
break;
case InstructionCodes.NEWSTREAM:
i = operands[0];
cpIndex = operands[1];
typeRefCPEntry = (TypeRefCPEntry) ctx.constPool[cpIndex];
StringCPEntry name = (StringCPEntry) ctx.constPool[operands[2]];
BStream stream = new BStream(typeRefCPEntry.getType(), name.getValue());
sf.refRegs[i] = stream;
break;
case InstructionCodes.NEW_INT_RANGE:
createNewIntRange(operands, sf);
break;
case InstructionCodes.IRET:
i = operands[0];
j = operands[1];
currentSF = ctx.workerLocal;
callersSF = ctx.workerResult;
callersRetRegIndex = ctx.retRegIndexes[i];
callersSF.longRegs[callersRetRegIndex] = currentSF.longRegs[j];
break;
case InstructionCodes.FRET:
i = operands[0];
j = operands[1];
currentSF = ctx.workerLocal;
callersSF = ctx.workerResult;
callersRetRegIndex = ctx.retRegIndexes[i];
callersSF.doubleRegs[callersRetRegIndex] = currentSF.doubleRegs[j];
break;
case InstructionCodes.SRET:
i = operands[0];
j = operands[1];
currentSF = ctx.workerLocal;
callersSF = ctx.workerResult;
callersRetRegIndex = ctx.retRegIndexes[i];
callersSF.stringRegs[callersRetRegIndex] = currentSF.stringRegs[j];
break;
case InstructionCodes.BRET:
i = operands[0];
j = operands[1];
currentSF = ctx.workerLocal;
callersSF = ctx.workerResult;
callersRetRegIndex = ctx.retRegIndexes[i];
callersSF.intRegs[callersRetRegIndex] = currentSF.intRegs[j];
break;
case InstructionCodes.LRET:
i = operands[0];
j = operands[1];
currentSF = ctx.workerLocal;
callersSF = ctx.workerResult;
callersRetRegIndex = ctx.retRegIndexes[i];
callersSF.byteRegs[callersRetRegIndex] = currentSF.byteRegs[j];
break;
case InstructionCodes.RRET:
i = operands[0];
j = operands[1];
currentSF = ctx.workerLocal;
callersSF = ctx.workerResult;
callersRetRegIndex = ctx.retRegIndexes[i];
callersSF.refRegs[callersRetRegIndex] = currentSF.refRegs[j];
break;
case InstructionCodes.RET:
ctx = handleReturn(ctx);
if (ctx == null) {
return;
}
break;
case InstructionCodes.XMLATTRSTORE:
case InstructionCodes.XMLATTRLOAD:
case InstructionCodes.XML2XMLATTRS:
case InstructionCodes.S2QNAME:
case InstructionCodes.NEWQNAME:
case InstructionCodes.NEWXMLELEMENT:
case InstructionCodes.NEWXMLCOMMENT:
case InstructionCodes.NEWXMLTEXT:
case InstructionCodes.NEWXMLPI:
case InstructionCodes.XMLSEQSTORE:
case InstructionCodes.XMLSEQLOAD:
case InstructionCodes.XMLLOAD:
case InstructionCodes.XMLLOADALL:
case InstructionCodes.NEWXMLSEQ:
execXMLOpcodes(ctx, sf, opcode, operands);
break;
case InstructionCodes.ITR_NEW:
case InstructionCodes.ITR_NEXT:
case InstructionCodes.ITR_HAS_NEXT:
execIteratorOperation(ctx, sf, instruction);
break;
case InstructionCodes.LOCK:
InstructionLock instructionLock = (InstructionLock) instruction;
if (!handleVariableLock(ctx, instructionLock.types, instructionLock.varRegs)) {
return;
}
break;
case InstructionCodes.UNLOCK:
InstructionLock instructionUnLock = (InstructionLock) instruction;
handleVariableUnlock(ctx, instructionUnLock.types, instructionUnLock.varRegs);
break;
case InstructionCodes.AWAIT:
ctx = execAwait(ctx, operands);
if (ctx == null) {
return;
}
break;
default:
throw new UnsupportedOperationException();
}
}
}
Also used :
BTable(org.ballerinalang.model.values.BTable)
StringCPEntry(org.ballerinalang.util.codegen.cpentries.StringCPEntry)
BValue(org.ballerinalang.model.values.BValue)
InstructionTCALL(org.ballerinalang.util.codegen.Instruction.InstructionTCALL)
InstructionWRKSendReceive(org.ballerinalang.util.codegen.Instruction.InstructionWRKSendReceive)
BString(org.ballerinalang.model.values.BString)
FunctionCallCPEntry(org.ballerinalang.util.codegen.cpentries.FunctionCallCPEntry)
Instruction(org.ballerinalang.util.codegen.Instruction)
BIntArray(org.ballerinalang.model.values.BIntArray)
BTypeDescValue(org.ballerinalang.model.values.BTypeDescValue)
InstructionLock(org.ballerinalang.util.codegen.Instruction.InstructionLock)
StringJoiner(java.util.StringJoiner)
InstructionFORKJOIN(org.ballerinalang.util.codegen.Instruction.InstructionFORKJOIN)
BFunctionPointer(org.ballerinalang.model.values.BFunctionPointer)
BRefType(org.ballerinalang.model.values.BRefType)
BStruct(org.ballerinalang.model.values.BStruct)
TypeRefCPEntry(org.ballerinalang.util.codegen.cpentries.TypeRefCPEntry)
BString(org.ballerinalang.model.values.BString)
FunctionInfo(org.ballerinalang.util.codegen.FunctionInfo)
AttachedFunctionInfo(org.ballerinalang.util.codegen.AttachedFunctionInfo)
BRefValueArray(org.ballerinalang.model.values.BRefValueArray)
InstructionCALL(org.ballerinalang.util.codegen.Instruction.InstructionCALL)
InstructionVCALL(org.ballerinalang.util.codegen.Instruction.InstructionVCALL)
BJSON(org.ballerinalang.model.values.BJSON)
BStringArray(org.ballerinalang.model.values.BStringArray)
BBlobArray(org.ballerinalang.model.values.BBlobArray)
BMapType(org.ballerinalang.model.types.BMapType)
FunctionRefCPEntry(org.ballerinalang.util.codegen.cpentries.FunctionRefCPEntry)
InstructionACALL(org.ballerinalang.util.codegen.Instruction.InstructionACALL)
BBooleanArray(org.ballerinalang.model.values.BBooleanArray)
BStream(org.ballerinalang.model.values.BStream)
BFloatArray(org.ballerinalang.model.values.BFloatArray)
Aggregations
BMapType (org.ballerinalang.model.types.BMapType)7
BArrayType (org.ballerinalang.model.types.BArrayType)4
BType (org.ballerinalang.model.types.BType)4
BRefValueArray (org.ballerinalang.model.values.BRefValueArray)4
BStructType (org.ballerinalang.model.types.BStructType)3
BBooleanArray (org.ballerinalang.model.values.BBooleanArray)3
BFloatArray (org.ballerinalang.model.values.BFloatArray)3
BIntArray (org.ballerinalang.model.values.BIntArray)3
BJSON (org.ballerinalang.model.values.BJSON)3
BRefType (org.ballerinalang.model.values.BRefType)3
BString (org.ballerinalang.model.values.BString)3
BStringArray (org.ballerinalang.model.values.BStringArray)3
ArrayList (java.util.ArrayList)2
BFunctionType (org.ballerinalang.model.types.BFunctionType)2
BJSONType (org.ballerinalang.model.types.BJSONType)2
BStreamType (org.ballerinalang.model.types.BStreamType)2
BTableType (org.ballerinalang.model.types.BTableType)2
BUnionType (org.ballerinalang.model.types.BUnionType)2
BBlobArray (org.ballerinalang.model.values.BBlobArray)2
BallerinaException (org.ballerinalang.util.exceptions.BallerinaException)2
