MWCC/compiler_and_linker/unsorted/IroVars.c

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#include "compiler/IroVars.h"
#include "compiler/IroDump.h"
#include "compiler/IroFlowgraph.h"
#include "compiler/IroJump.h"
#include "compiler/IroLinearForm.h"
#include "compiler/IroMalloc.h"
#include "compiler/IroPointerAnalysis.h"
#include "compiler/IroUtil.h"
#include "compiler/IROUseDef.h"
#include "compiler/CClass.h"
#include "compiler/CError.h"
#include "compiler/CExpr.h"
#include "compiler/CFunc.h"
#include "compiler/CParser.h"
#include "compiler/CompilerTools.h"
#include "compiler/Exceptions.h"
#include "compiler/objects.h"
#include "compiler/InlineAsm.h"
#include "compiler/InlineAsmPPC.h"
#include "compiler/BitVector.h"
#ifdef __MWERKS__
#pragma options align=mac68k
#endif
typedef struct IndirectRecordMatch {
IROLinear *nd;
struct IndirectRecordMatch *otherMatches;
} IndirectRecordMatch;
typedef struct IndirectRecord {
IROLinear *linear;
unsigned char flags;
VarRecord *var;
SInt32 addend;
SInt32 size;
int startbit;
int endbit;
Type *type;
struct IndirectRecord *next;
IndirectRecordMatch *matches;
IROLinear *x26;
} IndirectRecord;
#ifdef __MWERKS__
#pragma options align=reset
#endif
static IndirectRecord *IRO_FirstIndirectRecord;
static IndirectRecord *IRO_LastIndirectRecord;
static IROLinear *TheBaseTerm;
VarRecord *IRO_FirstVar;
VarRecord *IRO_LastVar;
SInt32 IRO_NumVars;
Boolean IRO_IsBitField;
SInt32 IRO_BaseTerms;
SInt32 IRO_VarTerms;
Boolean IRO_IsModifyOp[MAXEXPR];
Boolean IRO_IsAssignOp[MAXEXPR];
// forward decls
static Boolean CheckAddress(IROLinear *nd, Boolean *resultFlag);
static Boolean CheckAddressConsistency(IROLinear *nd, VarRecord *var, SInt32 addend, Type *type);
static void DisableEntries(IndirectRecord *irec);
static void DisableAddressedEntries(void);
static UInt32 ObjectIsArg(Object *obj);
void IRO_InitializeIRO_IsModifyOpArray(void) {
int i;
for (i = 0; i < MAXEXPR; i++)
IRO_IsModifyOp[i] = 0;
IRO_IsModifyOp[EPOSTINC] = 1;
IRO_IsModifyOp[EPOSTDEC] = 1;
IRO_IsModifyOp[EPREINC] = 1;
IRO_IsModifyOp[EPREDEC] = 1;
IRO_IsModifyOp[EINDIRECT] = 0;
IRO_IsModifyOp[EMONMIN] = 0;
IRO_IsModifyOp[EBINNOT] = 0;
IRO_IsModifyOp[ELOGNOT] = 0;
IRO_IsModifyOp[EFORCELOAD] = 0;
IRO_IsModifyOp[EMUL] = 0;
IRO_IsModifyOp[EMULV] = 0;
IRO_IsModifyOp[EDIV] = 0;
IRO_IsModifyOp[EMODULO] = 0;
IRO_IsModifyOp[EADDV] = 0;
IRO_IsModifyOp[ESUBV] = 0;
IRO_IsModifyOp[EADD] = 0;
IRO_IsModifyOp[ESUB] = 0;
IRO_IsModifyOp[ESHL] = 0;
IRO_IsModifyOp[ESHR] = 0;
IRO_IsModifyOp[ELESS] = 0;
IRO_IsModifyOp[EGREATER] = 0;
IRO_IsModifyOp[ELESSEQU] = 0;
IRO_IsModifyOp[EGREATEREQU] = 0;
IRO_IsModifyOp[EEQU] = 0;
IRO_IsModifyOp[ENOTEQU] = 0;
IRO_IsModifyOp[EAND] = 0;
IRO_IsModifyOp[EXOR] = 0;
IRO_IsModifyOp[EOR] = 0;
IRO_IsModifyOp[ELAND] = 0;
IRO_IsModifyOp[ELOR] = 0;
IRO_IsModifyOp[EASS] = 0;
IRO_IsModifyOp[EMULASS] = 1;
IRO_IsModifyOp[EDIVASS] = 1;
IRO_IsModifyOp[EMODASS] = 1;
IRO_IsModifyOp[EADDASS] = 1;
IRO_IsModifyOp[ESUBASS] = 1;
IRO_IsModifyOp[ESHLASS] = 1;
IRO_IsModifyOp[ESHRASS] = 1;
IRO_IsModifyOp[EANDASS] = 1;
IRO_IsModifyOp[EXORASS] = 1;
IRO_IsModifyOp[EORASS] = 1;
IRO_IsModifyOp[ECOMMA] = 0;
IRO_IsModifyOp[EPMODULO] = 1;
IRO_IsModifyOp[EROTL] = 1;
IRO_IsModifyOp[EROTR] = 1;
IRO_IsModifyOp[EBCLR] = 1;
IRO_IsModifyOp[EBTST] = 1;
IRO_IsModifyOp[EBSET] = 1;
IRO_IsModifyOp[ETYPCON] = 0;
IRO_IsModifyOp[EBITFIELD] = 0;
IRO_IsModifyOp[EINTCONST] = 0;
IRO_IsModifyOp[EFLOATCONST] = 0;
IRO_IsModifyOp[ESTRINGCONST] = 0;
IRO_IsModifyOp[ECOND] = 0;
IRO_IsModifyOp[EFUNCCALL] = 0;
IRO_IsModifyOp[EFUNCCALLP] = 0;
IRO_IsModifyOp[EOBJREF] = 0;
IRO_IsModifyOp[EMFPOINTER] = 0;
IRO_IsModifyOp[ENULLCHECK] = 0;
IRO_IsModifyOp[EPRECOMP] = 0;
IRO_IsModifyOp[ETEMP] = 0;
IRO_IsModifyOp[EARGOBJ] = 0;
IRO_IsModifyOp[ELOCOBJ] = 0;
IRO_IsModifyOp[ELABEL] = 0;
IRO_IsModifyOp[ESETCONST] = 0;
IRO_IsModifyOp[ENEWEXCEPTION] = 0;
IRO_IsModifyOp[ENEWEXCEPTIONARRAY] = 0;
IRO_IsModifyOp[EOBJLIST] = 0;
IRO_IsModifyOp[EMEMBER] = 0;
IRO_IsModifyOp[ETEMPLDEP] = 0;
IRO_IsModifyOp[EINSTRUCTION] = 0;
IRO_IsModifyOp[EDEFINE] = 0;
IRO_IsModifyOp[EREUSE] = 0;
IRO_IsModifyOp[EASSBLK] = 0;
IRO_IsModifyOp[EVECTOR128CONST] = 0;
IRO_IsModifyOp[ECONDASS] = 1;
}
void IRO_InitializeIRO_IsAssignOpArray(void) {
int i;
for (i = 0; i < MAXEXPR; i++)
IRO_IsAssignOp[i] = 0;
IRO_IsAssignOp[EPOSTINC] = 1;
IRO_IsAssignOp[EPOSTDEC] = 1;
IRO_IsAssignOp[EPREINC] = 1;
IRO_IsAssignOp[EPREDEC] = 1;
IRO_IsAssignOp[EINDIRECT] = 0;
IRO_IsAssignOp[EMONMIN] = 0;
IRO_IsAssignOp[EBINNOT] = 0;
IRO_IsAssignOp[ELOGNOT] = 0;
IRO_IsAssignOp[EFORCELOAD] = 0;
IRO_IsAssignOp[EMUL] = 0;
IRO_IsAssignOp[EMULV] = 0;
IRO_IsAssignOp[EDIV] = 0;
IRO_IsAssignOp[EMODULO] = 0;
IRO_IsAssignOp[EADDV] = 0;
IRO_IsAssignOp[ESUBV] = 0;
IRO_IsAssignOp[EADD] = 0;
IRO_IsAssignOp[ESUB] = 0;
IRO_IsAssignOp[ESHL] = 0;
IRO_IsAssignOp[ESHR] = 0;
IRO_IsAssignOp[ELESS] = 0;
IRO_IsAssignOp[EGREATER] = 0;
IRO_IsAssignOp[ELESSEQU] = 0;
IRO_IsAssignOp[EGREATEREQU] = 0;
IRO_IsAssignOp[EEQU] = 0;
IRO_IsAssignOp[ENOTEQU] = 0;
IRO_IsAssignOp[EAND] = 0;
IRO_IsAssignOp[EXOR] = 0;
IRO_IsAssignOp[EOR] = 0;
IRO_IsAssignOp[ELAND] = 0;
IRO_IsAssignOp[ELOR] = 0;
IRO_IsAssignOp[EASS] = 1;
IRO_IsAssignOp[EMULASS] = 1;
IRO_IsAssignOp[EDIVASS] = 1;
IRO_IsAssignOp[EMODASS] = 1;
IRO_IsAssignOp[EADDASS] = 1;
IRO_IsAssignOp[ESUBASS] = 1;
IRO_IsAssignOp[ESHLASS] = 1;
IRO_IsAssignOp[ESHRASS] = 1;
IRO_IsAssignOp[EANDASS] = 1;
IRO_IsAssignOp[EXORASS] = 1;
IRO_IsAssignOp[EORASS] = 1;
IRO_IsAssignOp[ECOMMA] = 0;
IRO_IsAssignOp[EPMODULO] = 1;
IRO_IsAssignOp[EROTL] = 1;
IRO_IsAssignOp[EROTR] = 1;
IRO_IsAssignOp[EBCLR] = 1;
IRO_IsAssignOp[EBTST] = 1;
IRO_IsAssignOp[EBSET] = 1;
IRO_IsAssignOp[ETYPCON] = 0;
IRO_IsAssignOp[EBITFIELD] = 0;
IRO_IsAssignOp[EINTCONST] = 0;
IRO_IsAssignOp[EFLOATCONST] = 0;
IRO_IsAssignOp[ESTRINGCONST] = 0;
IRO_IsAssignOp[ECOND] = 0;
IRO_IsAssignOp[EFUNCCALL] = 0;
IRO_IsAssignOp[EFUNCCALLP] = 0;
IRO_IsAssignOp[EOBJREF] = 0;
IRO_IsAssignOp[EMFPOINTER] = 0;
IRO_IsAssignOp[ENULLCHECK] = 0;
IRO_IsAssignOp[EPRECOMP] = 0;
IRO_IsAssignOp[ETEMP] = 0;
IRO_IsAssignOp[EARGOBJ] = 0;
IRO_IsAssignOp[ELOCOBJ] = 0;
IRO_IsAssignOp[ELABEL] = 0;
IRO_IsAssignOp[ESETCONST] = 0;
IRO_IsAssignOp[ENEWEXCEPTION] = 0;
IRO_IsAssignOp[ENEWEXCEPTIONARRAY] = 0;
IRO_IsAssignOp[EOBJLIST] = 0;
IRO_IsAssignOp[EMEMBER] = 0;
IRO_IsAssignOp[ETEMPLDEP] = 0;
IRO_IsAssignOp[EINSTRUCTION] = 0;
IRO_IsAssignOp[EDEFINE] = 0;
IRO_IsAssignOp[EREUSE] = 0;
IRO_IsAssignOp[EASSBLK] = 0;
IRO_IsAssignOp[EVECTOR128CONST] = 0;
IRO_IsAssignOp[ECONDASS] = 1;
}
VarRecord *IRO_FindVar(Object *object, Boolean flag1, Boolean flag2) {
VarRecord *var;
VarInfo *vi;
var = object->varptr;
if (!var && flag1) {
vi = NULL;
if (object->datatype == DLOCAL)
vi = object->u.var.info;
if (vi)
vi->usage = 0;
var = oalloc(sizeof(VarRecord));
var->object = object;
var->index = ++IRO_NumVars;
var->x6 = 0;
var->xA = 0;
var->next = NULL;
var->defs = NULL;
var->uses = NULL;
var->x1A = NULL;
var->x1E = NULL;
var->xB = 0;
if (IRO_FirstVar)
IRO_LastVar->next = var;
else
IRO_FirstVar = var;
IRO_LastVar = var;
object->varptr = var;
}
if (var && !flag2) {
var->xB = 1;
if (object->datatype == DLOCAL && object->u.var.info && object->u.var.info->noregister == 0)
object->u.var.info->noregister = 2;
}
return var;
}
static void ResetVars(void) {
VarRecord *var;
for (var = IRO_FirstVar; var; var = var->next) {
var->xB = 0;
if (var->object && var->object->datatype == DLOCAL && var->object->u.var.info) {
if (var->object->u.var.info->noregister == 2)
var->object->u.var.info->noregister = 0;
}
}
}
static void IRO_HandleExceptionActions(IROLinear *linear) {
ExceptionAction *action;
for (action = linear->stmt->dobjstack; action; action = action->prev) {
switch (action->type) {
case EAT_DESTROYLOCAL:
IRO_FindVar(action->data.destroy_local.local, 1, 0);
break;
case EAT_DESTROYLOCALCOND:
IRO_FindVar(action->data.destroy_local_cond.local, 1, 0);
break;
case EAT_DESTROYLOCALOFFSET:
IRO_FindVar(action->data.destroy_local_offset.local, 1, 0);
break;
case EAT_DESTROYLOCALARRAY:
IRO_FindVar(action->data.destroy_local_array.localarray, 1, 0);
break;
case EAT_DESTROYMEMBER:
case EAT_DESTROYBASE:
IRO_FindVar(action->data.destroy_member.objectptr, 1, 0);
break;
case EAT_DESTROYMEMBERCOND:
IRO_FindVar(action->data.destroy_member_cond.objectptr, 1, 0);
break;
case EAT_DESTROYMEMBERARRAY:
IRO_FindVar(action->data.destroy_member_array.objectptr, 1, 0);
break;
case EAT_CATCHBLOCK:
if (action->data.catch_block.catch_object)
IRO_FindVar(action->data.catch_block.catch_object, 1, 0);
IRO_FindVar(action->data.catch_block.catch_info_object, 1, 0);
break;
case EAT_ACTIVECATCHBLOCK:
IRO_FindVar(action->data.active_catch_block.catch_info_object, 1, 0);
break;
}
}
}
void IRO_FindAllVars(void) {
IROLinear *linear;
VarRecord *var;
linear = IRO_FirstLinear;
IRO_NumVars = 0;
IRO_FirstVar = IRO_LastVar = NULL;
while (linear) {
if (IS_LINEAR_ENODE(linear, EOBJREF)) {
if (Inline_IsObjectData(linear->u.node->data.objref) || linear->u.node->data.objref->datatype == DLOCAL)
IRO_FindVar(linear->u.node->data.objref, 1, (linear->flags & IROLF_Ind) != 0);
else
linear->u.node->data.objref->varptr = NULL;
} else if (linear->type == IROLinearFunccall) {
if (linear->stmt && IRO_FunctionCallMightThrowException(linear))
IRO_HandleExceptionActions(linear);
} else if (linear->type == IROLinearAsm) {
IAEffects effects;
int i;
CodeGen_GetAsmEffects(linear->u.asm_stmt, &effects);
for (i = 0; i < effects.numoperands; i++)
IRO_FindVar(effects.operands[i].object, 1, effects.operands[i].type != IAEffect_3);
}
linear = linear->next;
}
var = IRO_FirstVar;
Bv_AllocVector(&IRO_FuncKills, IRO_NumVars + 1);
Bv_SetBit(0, IRO_FuncKills);
while (var) {
if (Inline_IsObjectData(var->object) || var->xB)
Bv_SetBit(var->index, IRO_FuncKills);
var = var->next;
}
IRO_CheckForUserBreak();
}
void IRO_ZapVarPtrs(void) {
VarRecord *var;
for (var = IRO_FirstVar; var; var = var->next)
var->object->varptr = NULL;
}
void IRO_UpdateVars(void) {
IROLinear *linear;
VarRecord *var;
ResetVars();
for (linear = IRO_FirstLinear; linear; linear = linear->next) {
if (IS_LINEAR_ENODE(linear, EOBJREF)) {
if (Inline_IsObjectData(linear->u.node->data.objref) || linear->u.node->data.objref->datatype == DLOCAL)
IRO_FindVar(linear->u.node->data.objref, 0, (linear->flags & IROLF_Ind) || !(linear->flags & IROLF_Reffed));
} else if (linear->type == IROLinearFunccall) {
if (linear->stmt && IRO_FunctionCallMightThrowException(linear))
IRO_HandleExceptionActions(linear);
} else if (linear->type == IROLinearAsm) {
IAEffects effects;
int i;
CodeGen_GetAsmEffects(linear->u.asm_stmt, &effects);
for (i = 0; i < effects.numoperands; i++)
IRO_FindVar(effects.operands[i].object, 0, effects.operands[i].type != IAEffect_3);
}
}
var = IRO_FirstVar;
Bv_AllocVector(&IRO_FuncKills, IRO_NumVars + 1);
Bv_SetBit(0, IRO_FuncKills);
while (var) {
if (Inline_IsObjectData(var->object) || var->xB)
Bv_SetBit(var->index, IRO_FuncKills);
var = var->next;
}
}
void IRO_AddElmToList(IROLinear *linear, IROElmList **list) {
IROElmList *l = oalloc(sizeof(IROElmList));
l->element = linear;
l->next = NULL;
if (!*list) {
*list = l;
} else {
l->next = *list;
*list = l;
}
}
void IRO_DecomposeAddressExpression(IROLinear *linear, IROAddrRecord *rec) {
if (IS_LINEAR_DIADIC(linear->u.diadic.left, EADD)) {
IRO_DecomposeAddressExpression(linear->u.diadic.left, rec);
} else if (IS_LINEAR_ENODE(linear->u.diadic.left, EINTCONST)) {
rec->numInts++;
IRO_AddElmToList(linear->u.diadic.left, &rec->ints);
} else if (IS_LINEAR_ENODE(linear->u.diadic.left, EOBJREF)) {
rec->numObjRefs++;
IRO_AddElmToList(linear->u.diadic.left, &rec->objRefs);
} else {
rec->numMisc++;
IRO_AddElmToList(linear->u.diadic.left, &rec->misc);
}
if (IS_LINEAR_DIADIC(linear->u.diadic.right, EADD)) {
IRO_DecomposeAddressExpression(linear->u.diadic.right, rec);
} else if (IS_LINEAR_ENODE(linear->u.diadic.right, EINTCONST)) {
rec->numInts++;
IRO_AddElmToList(linear->u.diadic.right, &rec->ints);
} else if (IS_LINEAR_ENODE(linear->u.diadic.right, EOBJREF)) {
rec->numObjRefs++;
IRO_AddElmToList(linear->u.diadic.right, &rec->objRefs);
} else {
rec->numMisc++;
IRO_AddElmToList(linear->u.diadic.right, &rec->misc);
}
}
void IRO_DecomposeAddressExpression_Cheap(IROLinear *linear) {
if (IS_LINEAR_DIADIC(linear->u.diadic.left, EADD)) {
IRO_DecomposeAddressExpression_Cheap(linear->u.diadic.left);
} else if (!IS_LINEAR_ENODE(linear->u.diadic.left, EINTCONST)) {
if (IS_LINEAR_ENODE(linear->u.diadic.left, EOBJREF)) {
IRO_BaseTerms++;
TheBaseTerm = linear->u.diadic.left;
} else {
IRO_VarTerms++;
}
}
if (IS_LINEAR_DIADIC(linear->u.diadic.right, EADD)) {
IRO_DecomposeAddressExpression_Cheap(linear->u.diadic.right);
} else if (!IS_LINEAR_ENODE(linear->u.diadic.right, EINTCONST)) {
if (IS_LINEAR_ENODE(linear->u.diadic.right, EOBJREF)) {
IRO_BaseTerms++;
TheBaseTerm = linear->u.diadic.right;
} else {
IRO_VarTerms++;
}
}
}
VarRecord *IRO_FindAssigned(IROLinear *linear) {
VarRecord *rec;
IRO_IsBitField = 0;
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if (linear->type == IROLinearOp2Arg)
linear = linear->u.diadic.left;
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else if (linear->type == IROLinearOp1Arg)
linear = linear->u.monadic;
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else
CError_FATAL(818);
if (IS_LINEAR_MONADIC(linear, EINDIRECT))
linear = linear->u.monadic;
if (IS_LINEAR_MONADIC(linear, EBITFIELD)) {
IRO_IsBitField = 1;
linear = linear->u.monadic;
}
if (IS_LINEAR_DIADIC(linear, EADD)) {
if (IS_LINEAR_ENODE(linear->u.diadic.left, EOBJREF) && IS_LINEAR_ENODE(linear->u.diadic.right, EINTCONST)) {
linear = linear->u.diadic.left;
} else {
IRO_BaseTerms = 0;
IRO_DecomposeAddressExpression_Cheap(linear);
if (IRO_BaseTerms == 1)
linear = TheBaseTerm;
}
}
if (!IS_LINEAR_ENODE(linear, EOBJREF))
return NULL;
if ((rec = IRO_FindVar(linear->u.node->data.objref, 0, 1)))
return rec;
else
return NULL;
}
static void GetKillsByIndirectAssignment(IROLinear *linear) {
IROListNode *resultList;
IROLinear *nd;
IROListNode *list;
IROListNode *scan;
IROLinear *inner;
Boolean result;
Boolean foundLinear;
result = 0;
if (linear->type == IROLinearOp2Arg)
linear = linear->u.diadic.left;
else
linear = linear->u.monadic;
if (
linear &&
linear->type == IROLinearOp1Arg &&
linear->nodetype == EINDIRECT &&
(inner = linear->u.monadic) &&
copts.opt_pointer_analysis &&
inner->pointsToFunction &&
FunctionName
)
{
resultList = NULL;
PointerAnalysis_LookupLinearNodePointerExpr(FunctionName, inner, &resultList);
if ((list = resultList)) {
for (scan = list; scan; scan = scan->nextList) {
if (!scan->list.head || !scan->list.tail) {
result = 1;
break;
}
foundLinear = 0;
for (nd = scan->list.head; nd != scan->list.tail->next; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
foundLinear = 1;
break;
}
}
if (!foundLinear) {
result = 1;
break;
}
}
if (!result) {
while (list) {
for (nd = list->list.head; nd != list->list.tail->next; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
Object *obj;
VarRecord *var;
int index;
obj = nd->u.node->data.objref;
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CError_ASSERT(952, obj != NULL);
var = IRO_FindVar(obj, 1, 1);
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CError_ASSERT(954, var != NULL);
index = var->index;
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CError_ASSERT(956, index != 0);
Bv_SetBit(index, IRO_VarKills);
}
}
list = list->nextList;
}
}
while (resultList) {
IROListNode *next = resultList->nextList;
IRO_free(resultList);
resultList = next;
}
} else {
result = 1;
}
} else {
result = 1;
}
if (result)
Bv_Or(IRO_FuncKills, IRO_VarKills);
}
static void GetKillsByFunctionCall(IROLinear *linear) {
IROListNode *resultList;
IROLinear *nd;
IROListNode *list;
IROListNode *scan;
IROLinear *inner;
Boolean result;
Boolean foundLinear;
Object *obj;
ObjectList *killList;
ObjectList *olist;
result = 0;
if (
(inner = linear->u.funccall.linear8) &&
copts.opt_pointer_analysis &&
inner->pointsToFunction &&
FunctionName
)
{
resultList = NULL;
PointerAnalysis_LookupLinearNodePointerExpr(FunctionName, inner, &resultList);
if (resultList) {
for (scan = resultList; scan; scan = scan->nextList) {
if (!scan->list.head || !scan->list.tail) {
result = 1;
break;
}
foundLinear = 0;
for (nd = scan->list.head; nd != scan->list.tail->next; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
foundLinear = 1;
obj = nd->u.node->data.objref;
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CError_ASSERT(1028, obj != NULL);
killList = NULL;
PointerAnalysis_GetFunctionKills(obj, linear, &killList);
for (olist = killList; olist; olist = olist->next) {
if (!olist->object) {
result = 1;
break;
}
}
while (killList) {
ObjectList *next = killList->next;
IRO_free(killList);
killList = next;
}
if (result)
break;
}
}
if (!foundLinear)
result = 1;
if (result)
break;
}
if (!result) {
for (scan = resultList; scan; scan = scan->nextList) {
for (nd = scan->list.head; nd != scan->list.tail->next; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
obj = nd->u.node->data.objref;
killList = NULL;
PointerAnalysis_GetFunctionKills(obj, linear, &killList);
for (olist = killList; olist; olist = olist->next) {
VarRecord *var;
int index;
var = IRO_FindVar(olist->object, 1, 1);
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CError_ASSERT(1079, var != NULL);
index = var->index;
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CError_ASSERT(1081, index != 0);
Bv_SetBit(index, IRO_VarKills);
}
while (killList) {
ObjectList *next = killList->next;
IRO_free(killList);
killList = next;
}
}
}
}
}
while (resultList) {
IROListNode *next = resultList->nextList;
IRO_free(resultList);
resultList = next;
}
} else {
result = 1;
}
} else {
result = 1;
}
if (result)
Bv_Or(IRO_FuncKills, IRO_VarKills);
}
void IRO_GetKills(IROLinear *linear) {
VarRecord *var;
switch (linear->type) {
case IROLinearOp1Arg:
case IROLinearOp2Arg:
if (IRO_IsAssignOp[linear->nodetype]) {
IROLinear *assigned;
int index;
var = IRO_FindAssigned(linear);
index = 0;
if (var) index = var->index;
Bv_SetBit(index, IRO_VarKills);
if (!index)
GetKillsByIndirectAssignment(linear);
}
break;
case IROLinearFunccall:
GetKillsByFunctionCall(linear);
break;
case IROLinearAsm: {
IAEffects effects;
int i;
CodeGen_GetAsmEffects(linear->u.asm_stmt, &effects);
for (i = 0; i < effects.numoperands; i++) {
switch (effects.operands[i].type) {
case IAEffect_1:
case IAEffect_2:
case IAEffect_4:
if ((var = IRO_FindVar(effects.operands[i].object, 0, 1)))
Bv_SetBit(var->index, IRO_VarKills);
break;
}
}
if (effects.x1 || effects.x4)
Bv_Or(IRO_FuncKills, IRO_VarKills);
break;
}
}
}
void IRO_CheckInit(void) {
IRONode *fnode;
IROLinear *nd;
VarRecord *var;
ObjectList *olist;
int flag;
int i;
BitVector *bv;
IRO_MakeReachable(IRO_FirstNode);
fnode = IRO_FirstNode;
Bv_AllocVector(&IRO_VarKills, IRO_NumVars + 1);
while (fnode) {
Bv_AllocVector(&fnode->x16, IRO_NumVars + 1);
Bv_AllocVector(&fnode->x1E, IRO_NumVars + 1);
for (nd = fnode->first; nd; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
if (nd->flags & IROLF_Ind) {
if (!(nd->flags & IROLF_Assigned) || (nd->flags & IROLF_Used)) {
if ((var = IRO_FindVar(nd->u.node->data.objref, 0, 1))) {
if (!Bv_IsBitSet(var->index, fnode->x1E))
Bv_SetBit(var->index, fnode->x16);
}
}
} else {
if ((var = IRO_FindVar(nd->u.node->data.objref, 0, 0))) {
Bv_SetBit(var->index, fnode->x1E);
}
}
} else if (nd->type == IROLinearOp2Arg && nd->nodetype == EASS) {
if ((var = IRO_FindAssigned(nd)))
Bv_SetBit(var->index, fnode->x1E);
} else if (nd->type == IROLinearAsm) {
IAEffects effects;
CodeGen_GetAsmEffects(nd->u.asm_stmt, &effects);
for (i = 0; i < effects.numoperands; i++) {
var = IRO_FindVar(effects.operands[i].object, 0, 1);
switch (effects.operands[i].type) {
case IAEffect_1:
case IAEffect_2:
case IAEffect_4:
Bv_SetBit(var->index, fnode->x1E);
break;
}
}
}
if (nd == fnode->last)
break;
}
fnode = fnode->nextnode;
}
Bv_AllocVector(&bv, IRO_NumVars + 1);
do {
flag = 0;
for (fnode = IRO_FirstNode; fnode; fnode = fnode->nextnode) {
Bv_Copy(fnode->x1E, bv);
for (i = 0; i < fnode->numpred; i++)
Bv_Or(IRO_NodeTable[fnode->pred[i]]->x1E, bv);
if (!Bv_Compare(bv, fnode->x1E)) {
Bv_Copy(bv, fnode->x1E);
flag = 1;
}
}
} while (flag);
Bv_Clear(IRO_VarKills);
for (fnode = IRO_FirstNode; fnode; fnode = fnode->nextnode) {
if (fnode->x36) {
Bv_Copy(fnode->x16, bv);
for (i = 0; i < fnode->numpred; i++)
Bv_Minus(IRO_NodeTable[fnode->pred[i]]->x1E, bv);
Bv_Or(bv, IRO_VarKills);
}
}
for (olist = locals; olist; olist = olist->next) {
if ((var = IRO_FindVar(olist->object, 0, 1)) && Bv_IsBitSet(var->index, IRO_VarKills)) {
VarInfo *vi = olist->object->u.var.info;
if (!IsTempName(olist->object->name) && !is_volatile_object(olist->object)) {
if (!IS_TYPE_CLASS(olist->object->type) || !CClass_IsEmpty(TYPE_CLASS(olist->object->type))) {
CError_SetErrorToken(&vi->deftoken);
CError_Warning(CErrorStr185, olist->object->name->name);
}
}
}
}
IRO_CheckForUserBreak();
}
static void RewriteIndDec(void) {
IROLinear *add;
IROLinear *indirect;
IROLinear *Int;
IROLinear *nd;
CInt64 value;
IROList list;
for (nd = IRO_FirstLinear; nd; nd = nd->next) {
if (
nd->type == IROLinearOp1Arg &&
(nd->nodetype == EPOSTINC || nd->nodetype == EPOSTDEC) &&
!(nd->flags & IROLF_Reffed)
) {
indirect = nd->u.monadic;
if (
indirect->type == IROLinearOp1Arg &&
indirect->nodetype == EINDIRECT &&
indirect->u.monadic->type == IROLinearOp1Arg &&
indirect->u.monadic->nodetype == EBITFIELD
) {
value = IRO_GetSelfAssignmentVal(nd);
IRO_InitList(&list);
nd->type = IROLinearOp2Arg;
nd->nodetype = EASS;
nd->u.diadic.left = indirect;
IRO_DuplicateExpr(indirect, &list);
Int = IRO_NewIntConst(value, indirect->rtype);
Int->flags |= IROLF_Used | IROLF_Reffed;
add = IRO_NewLinear(IROLinearOp2Arg);
add->nodetype = EADD;
add->u.diadic.left = list.tail;
add->u.diadic.left->flags = 0;
add->u.diadic.left->flags |= IROLF_Used | IROLF_Reffed;
add->u.diadic.right = Int;
add->rtype = indirect->rtype;
add->flags = 0;
add->flags |= IROLF_Used | IROLF_Reffed;
nd->u.diadic.right = add;
IRO_AddToList(Int, &list);
IRO_AddToList(add, &list);
IRO_PasteAfter(list.head, list.tail, indirect);
}
}
}
}
void IRO_RewriteBitFieldTemps(void) {
IROLinear *nd;
IROLinear *expr2;
Object *obj;
VarRecord *var;
IROList list;
for (nd = IRO_FirstLinear; nd; nd = nd->next) {
if ((obj = IRO_IsVariable(nd)) && (nd->flags & IROLF_BitfieldIndirect)) {
var = IRO_FindVar(obj, 0, 1);
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CError_ASSERT(1526, var != NULL);
expr2 = var->x1E;
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CError_ASSERT(1532, expr2 != NULL);
IRO_InitList(&list);
IRO_DuplicateExpr(expr2, &list);
IRO_NopOut(nd->u.monadic);
nd->u.monadic = list.tail;
IRO_Paste(list.head, list.tail, nd);
}
}
}
static Boolean FunctionCallMightUseOrKillAnyAddressedVar(IROLinear *funccall) {
IROLinear *funcnd;
IROLinear *nd;
IROListNode *scan;
IROListNode *resultList;
ObjectList *olist;
ObjectList *killList;
VarRecord *var;
Boolean result;
Boolean foundObjRef;
Object *obj;
result = 0;
funcnd = funccall->u.funccall.linear8;
if (funcnd && copts.opt_pointer_analysis && funcnd->pointsToFunction && FunctionName) {
resultList = NULL;
PointerAnalysis_LookupLinearNodePointerExpr(FunctionName, funcnd, &resultList);
if (resultList) {
for (scan = resultList; scan; scan = scan->nextList) {
if (!scan->list.head || !scan->list.tail) {
result = 1;
break;
}
foundObjRef = 0;
for (nd = scan->list.head; nd != scan->list.tail->next; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
foundObjRef = 1;
obj = nd->u.node->data.objref;
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CError_ASSERT(1592, obj != NULL);
killList = NULL;
PointerAnalysis_GetFunctionKills(obj, funccall, &killList);
for (olist = killList; olist; olist = olist->next) {
if (!olist->object) {
result = 1;
} else {
var = IRO_FindVar(olist->object, 1, 1);
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CError_ASSERT(1604, var != NULL);
if (var->xB)
result = 1;
}
if (result)
break;
}
while (killList) {
ObjectList *next = killList->next;
IRO_free(killList);
killList = next;
}
if (!result) {
killList = NULL;
PointerAnalysis_GetFunctionDependencies(obj, funccall, &killList);
for (olist = killList; olist; olist = olist->next) {
if (!olist->object) {
result = 1;
} else {
var = IRO_FindVar(olist->object, 1, 1);
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CError_ASSERT(1632, var != NULL);
if (var->xB)
result = 1;
}
if (result)
break;
}
while (killList) {
ObjectList *next = killList->next;
IRO_free(killList);
killList = next;
}
}
if (result)
break;
}
}
if (!foundObjRef)
result = 1;
if (result)
break;
}
while (resultList) {
IROListNode *next = resultList->nextList;
IRO_free(resultList);
resultList = next;
}
} else {
result = 1;
}
} else {
result = 1;
}
return result;
}
static Boolean IndirectMightUseOrKillAnyAddressedVar(IROLinear *indirect) {
Boolean result;
IROLinear *inner;
IROLinear *nd;
IROListNode *scan;
IROListNode *resultList;
Boolean foundObjRef;
Object *obj;
VarRecord *var;
result = 0;
if (
indirect &&
indirect->type == IROLinearOp1Arg &&
indirect->nodetype == EINDIRECT &&
(inner = indirect->u.monadic) &&
copts.opt_pointer_analysis &&
inner->pointsToFunction &&
FunctionName
) {
resultList = NULL;
PointerAnalysis_LookupLinearNodePointerExpr(FunctionName, inner, &resultList);
if (resultList) {
for (scan = resultList; scan; scan = scan->nextList) {
if (!scan->list.head || !scan->list.tail) {
result = 1;
break;
}
foundObjRef = 0;
for (nd = scan->list.head; nd != scan->list.tail->next; nd = nd->next) {
if (nd->type == IROLinearOperand && nd->u.node->type == EOBJREF) {
foundObjRef = 1;
obj = nd->u.node->data.objref;
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CError_ASSERT(1723, obj != NULL);
var = IRO_FindVar(obj, 1, 1);
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CError_ASSERT(1725, var != NULL);
if (var->xB)
result = 1;
}
}
if (!foundObjRef)
result = 1;
if (result)
break;
}
while (resultList) {
IROListNode *next = resultList->nextList;
IRO_free(resultList);
resultList = next;
}
} else {
result = 1;
}
} else {
result = 1;
}
return result;
}
void IRO_ScalarizeClassDataMembers(void) {
IROLinear *nd;
VarRecord *var;
Boolean flag;
Object *obj;
IndirectRecord *irec;
IndirectRecordMatch *match;
IROLinear *tmp;
nd = IRO_FirstLinear;
IRO_FirstIndirectRecord = NULL;
IRO_LastIndirectRecord = NULL;
RewriteIndDec();
IRO_DumpAfterPhase("RewriteIndDec", 0);
flag = 0;
while (nd) {
if (nd->type == IROLinearOp1Arg && nd->nodetype == EINDIRECT) {
CheckAddress(nd, &flag);
}
if (nd->type == IROLinearAsm) {
IAEffects effects;
int i;
CodeGen_GetAsmEffects(nd->u.asm_stmt, &effects);
for (i = 0; i < effects.numoperands; i++) {
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if ((var = IRO_FindVar(effects.operands[i].object, 0, 1)))
CheckAddressConsistency(nd, var, -1, &stvoid);
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else
CError_FATAL(1823);
}
}
if (nd->type == IROLinearFunccall && !flag)
flag = FunctionCallMightUseOrKillAnyAddressedVar(nd);
nd = nd->next;
}
if (flag)
DisableAddressedEntries();
for (irec = IRO_FirstIndirectRecord; irec; irec = irec->next) {
if (!(irec->flags & 1)) {
IROList list1;
IROList list2;
obj = create_temp_object(irec->type);
var = IRO_FindVar(obj, 1, 1);
for (match = irec->matches; match; match = match->otherMatches) {
IRO_InitList(&list1);
IRO_InitList(&list2);
IRO_DuplicateExpr(match->nd, &list1);
IRO_DuplicateExpr(match->nd, &list2);
if (match->nd->type == IROLinearOperand && match->nd->u.node->type == EOBJREF) {
tmp = IRO_LocateFather(match->nd);
if (irec->flags & 2) {
tmp->flags |= IROLF_BitfieldIndirect;
var->x1A = match->nd->rtype;
var->x1E = list2.tail;
}
match->nd->u.node = create_objectrefnode(obj);
irec->x26 = list2.tail;
} else {
tmp = IRO_LocateFather(match->nd);
if (irec->flags & 2) {
tmp->flags |= IROLF_BitfieldIndirect;
var->x1A = match->nd->rtype;
var->x1E = list2.tail;
}
irec->x26 = list2.tail;
IRO_NopOut(tmp->u.monadic);
tmp->u.monadic = IRO_NewLinear(IROLinearOperand);
tmp->u.monadic->u.node = create_objectrefnode(obj);
tmp->u.monadic->rtype = match->nd->rtype;
tmp->u.monadic->index = ++IRO_NumLinear;
tmp->u.monadic->flags |= IROLF_Ind | IROLF_Reffed;
IRO_NopOut(match->nd);
IRO_PasteAfter(tmp->u.monadic, tmp->u.monadic, match->nd);
}
}
if (ObjectIsArg(irec->var->object)) {
IROLinear *op1;
IROLinear *op2;
IROLinear *op3;
IROLinear *op4;
IROLinear *op5;
op1 = IRO_NewLinear(IROLinearOperand);
op1->u.node = create_objectrefnode(obj);
op1->rtype = op1->u.node->data.objref->type;
op1->index = ++IRO_NumLinear;
op1->flags |= IROLF_Ind | IROLF_Assigned;
op2 = list1.tail;
op3 = IRO_NewLinear(IROLinearOp1Arg);
op3->nodetype = EINDIRECT;
op3->rtype = irec->type;
op3->u.monadic = op1;
op3->index = ++IRO_NumLinear;
op3->flags |= IROLF_Assigned;
op4 = IRO_NewLinear(IROLinearOp1Arg);
op4->nodetype = EINDIRECT;
op4->rtype = irec->type;
op4->u.monadic = op2;
op4->index = ++IRO_NumLinear;
op4->flags |= IROLF_Reffed;
op5 = IRO_NewLinear(IROLinearOp2Arg);
op5->nodetype = EASS;
op5->u.diadic.left = op3;
op5->u.diadic.right = op4;
op5->rtype = irec->type;
op5->index = ++IRO_NumLinear;
op2->next = op4;
op4->next = op1;
op1->next = op3;
op3->next = op5;
IRO_PasteAfter(list1.head, op5, IRO_FirstLinear);
}
}
}
IRO_CheckForUserBreak();
}
static Boolean CheckAddress(IROLinear *nd, Boolean *resultFlag) {
IROLinear *inner;
VarRecord *var;
Boolean result;
inner = nd->u.monadic;
if (inner->type == IROLinearOp1Arg && inner->nodetype == EBITFIELD)
inner = inner->u.monadic;
result = 0;
if (inner->type == IROLinearOperand && inner->u.node->type == EOBJREF) {
if (IS_TYPE_CLASS(inner->u.node->data.objref->type) || IS_TYPE_STRUCT(inner->u.node->data.objref->type) ||
IS_TYPE_ARRAY(inner->u.node->data.objref->type)) {
if (inner->u.node->data.objref->datatype == DLOCAL) {
var = IRO_FindVar(inner->u.node->data.objref, 0, 1);
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CError_ASSERT(2240, var != NULL);
CheckAddressConsistency(nd, var, 0, nd->rtype);
result = 1;
}
}
} else if (
inner->type == IROLinearOp2Arg &&
inner->nodetype == EADD &&
inner->u.diadic.left->type == IROLinearOperand &&
inner->u.diadic.left->u.node->type == EOBJREF) {
if (
inner->u.diadic.right->type == IROLinearOperand &&
inner->u.diadic.right->u.node->type == EINTCONST &&
inner->u.diadic.right->u.node->data.intval.hi == 0) {
if (
IS_TYPE_CLASS(inner->u.diadic.left->u.node->data.objref->type) ||
IS_TYPE_STRUCT(inner->u.diadic.left->u.node->data.objref->type) ||
IS_TYPE_ARRAY(inner->u.diadic.left->u.node->data.objref->type)
) {
if (inner->u.diadic.left->u.node->data.objref->datatype == DLOCAL) {
var = IRO_FindVar(inner->u.diadic.left->u.node->data.objref, 0, 1);
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CError_ASSERT(2267, var != NULL);
CheckAddressConsistency(nd, var, inner->u.diadic.right->u.node->data.intval.lo, nd->rtype);
result = 1;
}
}
} else {
if (
IS_TYPE_CLASS(inner->u.diadic.left->u.node->data.objref->type) ||
IS_TYPE_STRUCT(inner->u.diadic.left->u.node->data.objref->type) ||
IS_TYPE_ARRAY(inner->u.diadic.left->u.node->data.objref->type)
) {
if (inner->u.diadic.left->u.node->data.objref->datatype == DLOCAL) {
var = IRO_FindVar(inner->u.diadic.left->u.node->data.objref, 0, 1);
CheckAddressConsistency(nd, var, -1, nd->rtype);
result = 1;
}
}
}
}
if (!result && !*resultFlag) {
*resultFlag = IndirectMightUseOrKillAnyAddressedVar(nd);
}
return 0;
}
static Boolean CheckAddressConsistency(IROLinear *nd, VarRecord *var, SInt32 addend, Type *type) {
IndirectRecord *rp;
IndirectRecordMatch *match;
UInt32 flag;
IROLinear *inner;
UInt32 start_bit;
UInt32 end_bit;
flag = 0;
inner = nd->u.monadic;
if (inner->type == IROLinearOp1Arg && inner->nodetype == EBITFIELD) {
start_bit = TYPE_BITFIELD(inner->rtype)->unkA + 8 * addend;
end_bit = start_bit + TYPE_BITFIELD(inner->rtype)->unkB - 1;
} else {
start_bit = 8 * addend;
end_bit = start_bit + 8 * type->size - 1;
}
if (var->xB && !copts.opt_pointer_analysis)
return 0;
if (nd->rtype && CParser_IsVolatile(nd->rtype, nd->nodeflags & ENODE_FLAG_QUALS))
addend = -1;
if (is_volatile_object(var->object))
addend = -1;
for (rp = IRO_FirstIndirectRecord; rp; rp = rp->next) {
if (rp->var->index == var->index) {
if (rp->flags & 1)
return 0;
if (addend == -1) {
flag = 1;
break;
}
if (IRO_TypesEqual(rp->type, type) && rp->startbit == start_bit && rp->endbit == end_bit) {
match = oalloc(sizeof(IndirectRecordMatch));
match->nd = inner;
match->otherMatches = NULL;
if (!rp->matches) {
rp->matches = match;
} else {
match->otherMatches = rp->matches;
rp->matches = match;
}
IRO_Dump("Exact Match of Type and bits at %d and %d\n", rp->linear->index, nd->index);
IRO_Dump("Rp->startbit=%d,Rp->endbit=%d,start_bit=%d,end_bit=%d\n", rp->startbit, rp->endbit, start_bit, end_bit);
return 1;
}
if (rp->startbit == start_bit && rp->endbit == end_bit && !IRO_TypesEqual(rp->type, type)) {
IRO_Dump("match on bits but mismatch on type %d and %d\n", rp->linear->index, nd->index);
IRO_Dump("Rp->startbit=%d,Rp->endbit=%d,start_bit=%d,end_bit=%d\n", rp->startbit, rp->endbit, start_bit, end_bit);
flag = 1;
break;
}
if (rp->startbit >= start_bit && end_bit >= rp->startbit) {
IRO_Dump("Overlap detected --1 %d and %d\n", rp->linear->index, nd->index);
IRO_Dump("Rp->startbit=%d,Rp->endbit=%d,start_bit=%d,end_bit=%d\n", rp->startbit, rp->endbit, start_bit, end_bit);
flag = 1;
break;
}
if (rp->startbit < start_bit && rp->endbit >= start_bit) {
IRO_Dump("Overlap detected --2 %d and %d\n", rp->linear->index, nd->index);
IRO_Dump("Rp->startbit=%d,Rp->endbit=%d,start_bit=%d,end_bit=%d\n", rp->startbit, rp->endbit, start_bit, end_bit);
flag = 1;
break;
}
}
}
if (flag) {
DisableEntries(rp);
if (addend >= 0)
return 0;
}
IRO_Dump("Create Entry at %d\n", nd->index);
IRO_Dump("start_bit=%d,end_bit=%d\n", start_bit, end_bit);
rp = oalloc(sizeof(IndirectRecord));
rp->linear = nd;
rp->flags = 0;
rp->var = var;
rp->addend = addend;
rp->size = type->size;
rp->type = type;
rp->next = NULL;
rp->matches = oalloc(sizeof(IndirectRecordMatch));
rp->matches->nd = inner;
rp->matches->otherMatches = NULL;
rp->startbit = start_bit;
rp->endbit = end_bit;
if (nd->type == IROLinearOp1Arg && nd->nodetype == EINDIRECT &&
nd->u.monadic->type == IROLinearOp1Arg && nd->u.monadic->nodetype == EBITFIELD)
rp->flags |= 2;
if (!(IS_TYPE_FLOAT(type) || IS_TYPE_INT(type) || IS_TYPE_POINTER_ONLY(type)) ||
addend == -1 || ((inner->flags & IROLF_4000) && ObjectIsArg(var->object)))
rp->flags |= 1;
if (IRO_FirstIndirectRecord)
IRO_LastIndirectRecord->next = rp;
else
IRO_FirstIndirectRecord = rp;
IRO_LastIndirectRecord = rp;
return 1;
}
static void DisableEntries(IndirectRecord *irec) {
IndirectRecord *scan;
for (scan = IRO_FirstIndirectRecord; scan; scan = scan->next) {
if (irec->var->index == scan->var->index)
scan->flags |= 1;
}
}
static void DisableAddressedEntries(void) {
IndirectRecord *scan;
for (scan = IRO_FirstIndirectRecord; scan; scan = scan->next) {
if (scan->var->xB)
scan->flags |= 1;
}
}
static UInt32 ObjectIsArg(Object *obj) {
ObjectList *scan;
for (scan = arguments; scan; scan = scan->next) {
if (scan->object == obj)
return 1;
}
return 0;
}