Use native format in interpreter -

(old code mixed the 3 alternatives: native, [lo, hi], [hi, lo])

This fixes problem with auto increment on different byte order

(This also make adding of signed ints really simple...)


ndb/src/kernel/blocks/dbtup/DbtupExecQuery.cpp:
  Use native format in interpreter
  (old code mixed the 3 alternatives: native, [lo, hi], [hi, lo])
ndb/src/ndbapi/Ndb.cpp:
  Use native format in interpreter
  (old code mixed the 3 alternatives: native, [lo, hi], [hi, lo])
ndb/src/ndbapi/NdbOperationInt.cpp:
  Use native format in interpreter
  (old code mixed the 3 alternatives: native, [lo, hi], [hi, lo])

ndb/src/kernel/blocks/dbtup/DbtupExecQuery.cpp

@@ -1505,6 +1505,8 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	    // the register to indicate a NULL value.
 	    /* ------------------------------------------------------------- */
 	    TregMemBuffer[theRegister] = 0;
+	    TregMemBuffer[theRegister + 1] = 0;
+	    TregMemBuffer[theRegister + 2] = 0;
 	  } else if (TnoDataRW == (Uint32)-1) {
 	    jam();
 	    tupkeyErrorLab(signal);
@@ -1593,23 +1595,22 @@ int Dbtup::interpreterNextLab(Signal* signal,
       case Interpreter::LOAD_CONST16:
 	jam();
 	TregMemBuffer[theRegister] = 0x50;	/* 32 BIT UNSIGNED CONSTANT */
-	TregMemBuffer[theRegister + 1] = theInstruction >> 16;
-	TregMemBuffer[theRegister + 2] = 0;
+	* (Int64*)(TregMemBuffer+theRegister+1) = theInstruction >> 16;
 	break;
 
       case Interpreter::LOAD_CONST32:
 	jam();
 	TregMemBuffer[theRegister] = 0x50;	/* 32 BIT UNSIGNED CONSTANT */
-	TregMemBuffer[theRegister + 1] = TcurrentProgram[TprogramCounter];
-	TregMemBuffer[theRegister + 2] = 0;
+	* (Int64*)(TregMemBuffer+theRegister+1) = * 
+	  (TcurrentProgram+TprogramCounter);
 	TprogramCounter++;
 	break;
 
       case Interpreter::LOAD_CONST64:
 	jam();
 	TregMemBuffer[theRegister] = 0x60;	/* 64 BIT UNSIGNED CONSTANT */
-	TregMemBuffer[theRegister + 1] = TcurrentProgram[TprogramCounter + 0];
-	TregMemBuffer[theRegister + 2] = TcurrentProgram[TprogramCounter + 1];
+	* (Int64*)(TregMemBuffer+theRegister+1) = * (Int64*)
+	  (TcurrentProgram+TprogramCounter);
 	TprogramCounter += 2;
 	break;
 
@@ -1620,27 +1621,16 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	  Uint32 TdestRegister = Interpreter::getReg3(theInstruction) << 2;
 
 	  Uint32 TrightType = TregMemBuffer[TrightRegister];
-	  Uint32 Tright0 = TregMemBuffer[TrightRegister + 1];
-	  Uint32 Tright1 = TregMemBuffer[TrightRegister + 2];
+	  Int64 Tright0 = * (Int64*)(TregMemBuffer + TrightRegister + 1);
+	  
 
 	  Uint32 TleftType = TregMemBuffer[theRegister];
-	  Uint32 Tleft0 = TregMemBuffer[theRegister + 1];
-	  Uint32 Tleft1 = TregMemBuffer[theRegister + 2];
-	  Uint32 Tany64bit = (((TleftType | TrightType) & 0x60) == 0x60);
+	  Int64 Tleft0 = * (Int64*)(TregMemBuffer + theRegister + 1);
          
 	  if ((TleftType | TrightType) != 0) {
-	    Uint32 Tdest0 = Tleft0 + Tright0;
-	    Uint32 Tdest1 = 0;
-	    TregMemBuffer[TdestRegister + 1] = Tdest0;
-	    TregMemBuffer[TdestRegister] = 0x50;
-	    if (Tany64bit) {
-	      TregMemBuffer[TdestRegister] = 0x60;
-	      Tdest1 = Tleft1 + Tright1;
-	      if (Tdest0 < Tleft0) { 
-		Tdest1++;
-	      }
-	    }//if
-	    TregMemBuffer[TdestRegister + 2] = Tdest1;
+	    Uint64 Tdest0 = Tleft0 + Tright0;
+	    * (Int64*)(TregMemBuffer+TdestRegister+1) = Tdest0;
+	    TregMemBuffer[TdestRegister] = 0x60;
 	  } else {
 	    return TUPKEY_abort(signal, 20);
 	  }
@@ -1654,30 +1644,18 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	  Uint32 TdestRegister = Interpreter::getReg3(theInstruction) << 2;
 
 	  Uint32 TrightType = TregMemBuffer[TrightRegister];
-	  Uint32 Tright0 = TregMemBuffer[TrightRegister + 1];
-	  Uint32 Tright1 = TregMemBuffer[TrightRegister + 2];
-
+	  Int64 Tright0 = * (Int64*)(TregMemBuffer + TrightRegister + 1);
+	  
 	  Uint32 TleftType = TregMemBuffer[theRegister];
-	  Uint32 Tleft0 = TregMemBuffer[theRegister + 1];
-	  Uint32 Tleft1 = TregMemBuffer[theRegister + 2];
-	  Uint32 Tany64bit = (((TleftType | TrightType) & 0x60) == 0x60);
+	  Int64 Tleft0 = * (Int64*)(TregMemBuffer + theRegister + 1);
          
 	  if ((TleftType | TrightType) != 0) {
-	    Uint32 Tdest0 = Tleft0 - Tright0;
-	    Uint32 Tdest1 = 0;
-	    TregMemBuffer[TdestRegister + 1] = Tdest0;
-	    TregMemBuffer[TdestRegister] = 0x50;
-	    if (Tany64bit) {
-	      TregMemBuffer[TdestRegister] = 0x60;
-	      Tdest1 = Tleft1 - Tright1;
-	      if (Tdest0 > Tleft0) {
-		Tdest1--;
-	      }//if
-	    }//if
-	    TregMemBuffer[TdestRegister + 2] = Tdest1;
+	    Int64 Tdest0 = Tleft0 - Tright0;
+	    * (Int64*)(TregMemBuffer+TdestRegister+1) = Tdest0;
+	    TregMemBuffer[TdestRegister] = 0x60;
 	  } else {
-	    return TUPKEY_abort(signal, 21);
-	  }//if
+	    return TUPKEY_abort(signal, 20);
+	  }
 	  break;
 	}
 
@@ -1754,17 +1732,16 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	{
 	  Uint32 TrightRegister = Interpreter::getReg2(theInstruction) << 2;
 
+	  Uint32 TrightType = TregMemBuffer[TrightRegister];
+	  Int64 Tright0 = * (Int64*)(TregMemBuffer + TrightRegister + 1);
+	  
 	  Uint32 TleftType = TregMemBuffer[theRegister];
-	  Uint32 Tleft0    = TregMemBuffer[theRegister + 1];
-	  Uint32 Tleft1    = TregMemBuffer[theRegister + 2];
+	  Int64 Tleft0 = * (Int64*)(TregMemBuffer + theRegister + 1);
+         
 
-	  Uint32 TrightType = TregMemBuffer[TrightRegister];
-	  Uint32 Tright0 = TregMemBuffer[TrightRegister + 1];
-	  Uint32 Tright1 = TregMemBuffer[TrightRegister + 2];
 	  if ((TrightType | TleftType) != 0) {
 	    jam();
-	    if ((Tleft0 < Tright0) || ((Tleft0 == Tright0) &&
-				       (Tleft1 < Tright1))) {
+	    if (Tleft0 < Tright0) {
 	      TprogramCounter = brancher(theInstruction, TprogramCounter);
 	    }//if
 	  } else {
@@ -1777,17 +1754,16 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	{
 	  Uint32 TrightRegister = Interpreter::getReg2(theInstruction) << 2;
 
+	  Uint32 TrightType = TregMemBuffer[TrightRegister];
+	  Int64 Tright0 = * (Int64*)(TregMemBuffer + TrightRegister + 1);
+	  
 	  Uint32 TleftType = TregMemBuffer[theRegister];
-	  Uint32 Tleft0    = TregMemBuffer[theRegister + 1];
-	  Uint32 Tleft1    = TregMemBuffer[theRegister + 2];
+	  Int64 Tleft0 = * (Int64*)(TregMemBuffer + theRegister + 1);
+	  
 
-	  Uint32 TrightType = TregMemBuffer[TrightRegister];
-	  Uint32 Tright0 = TregMemBuffer[TrightRegister + 1];
-	  Uint32 Tright1 = TregMemBuffer[TrightRegister + 2];
 	  if ((TrightType | TleftType) != 0) {
 	    jam();
-	    if ((Tleft0 < Tright0) || ((Tleft0 == Tright0) &&
-				       (Tleft1 <= Tright1))) {
+	    if (Tleft0 <= Tright0) {
 	      TprogramCounter = brancher(theInstruction, TprogramCounter);
 	    }//if
 	  } else {
@@ -1800,17 +1776,16 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	{
 	  Uint32 TrightRegister = Interpreter::getReg2(theInstruction) << 2;
 
+	  Uint32 TrightType = TregMemBuffer[TrightRegister];
+	  Int64 Tright0 = * (Int64*)(TregMemBuffer + TrightRegister + 1);
+	  
 	  Uint32 TleftType = TregMemBuffer[theRegister];
-	  Uint32 Tleft0    = TregMemBuffer[theRegister + 1];
-	  Uint32 Tleft1    = TregMemBuffer[theRegister + 2];
+	  Int64 Tleft0 = * (Int64*)(TregMemBuffer + theRegister + 1);
+	  
 
-	  Uint32 TrightType = TregMemBuffer[TrightRegister];
-	  Uint32 Tright0 = TregMemBuffer[TrightRegister + 1];
-	  Uint32 Tright1 = TregMemBuffer[TrightRegister + 2];
 	  if ((TrightType | TleftType) != 0) {
 	    jam();
-	    if ((Tleft0 > Tright0) || ((Tleft0 == Tright0) &&
-				       (Tleft1 > Tright1))) {
+	    if (Tleft0 > Tright0){
 	      TprogramCounter = brancher(theInstruction, TprogramCounter);
 	    }//if
 	  } else {
@@ -1823,17 +1798,16 @@ int Dbtup::interpreterNextLab(Signal* signal,
 	{
 	  Uint32 TrightRegister = Interpreter::getReg2(theInstruction) << 2;
 
+	  Uint32 TrightType = TregMemBuffer[TrightRegister];
+	  Int64 Tright0 = * (Int64*)(TregMemBuffer + TrightRegister + 1);
+	  
 	  Uint32 TleftType = TregMemBuffer[theRegister];
-	  Uint32 Tleft0    = TregMemBuffer[theRegister + 1];
-	  Uint32 Tleft1    = TregMemBuffer[theRegister + 2];
+	  Int64 Tleft0 = * (Int64*)(TregMemBuffer + theRegister + 1);
+	  
 
-	  Uint32 TrightType = TregMemBuffer[TrightRegister];
-	  Uint32 Tright0 = TregMemBuffer[TrightRegister + 1];
-	  Uint32 Tright1 = TregMemBuffer[TrightRegister + 2];
 	  if ((TrightType | TleftType) != 0) {
 	    jam();
-	    if ((Tleft0 > Tright0) || ((Tleft0 == Tright0) &&
-				       (Tleft1 >= Tright1))) {
+	    if (Tleft0 >= Tright0){
 	      TprogramCounter = brancher(theInstruction, TprogramCounter);
 	    }//if
 	  } else {

ndb/src/ndbapi/Ndb.cpp

@@ -859,15 +859,7 @@ Ndb::opTupleIdOnNdb(Uint32 aTableId, Uint64 opValue, Uint32 op)
     case 0:
       tOperation->interpretedUpdateTuple();
       tOperation->equal("SYSKEY_0", aTableId );
-      {
-#ifdef WORDS_BIGENDIAN
-        Uint64 cacheSize64 = opValue;           // XXX interpreter bug on Uint32
-        tOperation->incValue("NEXTID", cacheSize64);
-#else
-        Uint32 cacheSize32 = opValue;           // XXX for little-endian
-        tOperation->incValue("NEXTID", cacheSize32);
-#endif
-      }
+      tOperation->incValue("NEXTID", opValue);
       tRecAttrResult = tOperation->getValue("NEXTID");
 
       if (tConnection->execute( Commit ) == -1 )

ndb/src/ndbapi/NdbOperationInt.cpp

@@ -408,9 +408,7 @@ NdbOperation::incValue(const NdbColumnImpl* tNdbColumnImpl, Uint64 aValue)
 // Load aValue into register 7
   if (insertATTRINFO( Interpreter::LoadConst64(7)) == -1)
     goto incValue_error1;
-  if (insertATTRINFO((Uint32)(aValue >> 32)) == -1)
-    goto incValue_error1;
-  if (insertATTRINFO(Uint32(aValue & 0xFFFFFFFF)) == -1)
+  if (insertATTRINFOloop((Uint32*)&aValue, 2) == -1)
     goto incValue_error1;
   // Add register 6 and 7 and put result in register 7
   if (insertATTRINFO( Interpreter::Add(7, 6, 7)) == -1)
@@ -451,9 +449,7 @@ NdbOperation::subValue(const NdbColumnImpl* tNdbColumnImpl, Uint64 aValue)
 // Load aValue into register 7
   if (insertATTRINFO( Interpreter::LoadConst64(7)) == -1)
     goto subValue_error1;
-  if (insertATTRINFO((Uint32)(aValue >> 32)) == -1)
-    goto subValue_error1;
-  if (insertATTRINFO(Uint32(aValue & 0xFFFFFFFF)) == -1)
+  if (insertATTRINFOloop((Uint32*)&aValue, 2) == -1)
     goto subValue_error1;
 // Subtract register 6 and 7 and put result in register 7
   if (insertATTRINFO( Interpreter::Sub(7, 6, 7)) == -1)
@@ -690,8 +686,6 @@ int
 NdbOperation::load_const_u64(Uint32 RegDest, Uint64 Constant)
 {
   INT_DEBUG(("load_const_u64 %u %llu", RegDest, Constant));
-  Uint32 tTemp1;
-  Uint32 tTemp2;
   if (initial_interpreterCheck() == -1)
     return -1;
   if (RegDest >= 8)
@@ -699,15 +693,11 @@ NdbOperation::load_const_u64(Uint32 RegDest, Uint64 Constant)
     setErrorCodeAbort(4229);
     return -1;
   }
-  tTemp1 = (Uint32)(Constant >> 32);
-  tTemp2 = (Uint32)(Constant & 0xFFFFFFFF);
-
+  
   // 64 bit value
   if (insertATTRINFO( Interpreter::LoadConst64(RegDest)) == -1)
     return -1;
-  if (insertATTRINFO(tTemp1) == -1)
-    return -1;
-  if (insertATTRINFO(tTemp2) == -1)
+  if (insertATTRINFOloop((Uint32*)&Constant, 2) == -1)
     return -1;
   theErrorLine++;
   return 0;