Added type conversion search routines

- PType::FindConversion() can find a path to convert one type to another.
  This is completely generic and can handle any number of conversion
  functions.
This commit is contained in:
Randy Heit 2013-10-17 23:01:04 -05:00
parent 4bd5bf310b
commit c7e817dfb9
2 changed files with 215 additions and 0 deletions

View file

@ -213,6 +213,159 @@ PType::~PType()
{ {
} }
//==========================================================================
//
// PType :: AddConversion
//
//==========================================================================
bool PType::AddConversion(PType *target, void (*convertconst)(ZCC_ExprConstant *, class FSharedStringArena &))
{
// Make sure a conversion hasn't already been registered
for (unsigned i = 0; i < Conversions.Size(); ++i)
{
if (Conversions[i].TargetType == target)
return false;
}
Conversions.Push(Conversion(target, convertconst));
return true;
}
//==========================================================================
//
// PType :: FindConversion
//
// Returns <0 if there is no path to target. Otherwise, returns the distance
// to target and fills slots (if non-NULL) with the necessary conversions
// to get there. A result of 0 means this is the target.
//
//==========================================================================
int PType::FindConversion(PType *target, const PType::Conversion **slots, int numslots)
{
if (this == target)
{
return 0;
}
// The queue is implemented as a ring buffer
VisitQueue queue;
VisitedNodeSet visited;
// Use a breadth-first search to find the shortest path to the target.
MarkPred(NULL, -1, -1);
queue.Push(this);
visited.Insert(this);
while (!queue.IsEmpty())
{
PType *t = queue.Pop();
if (t == target)
{ // found it
if (slots != NULL)
{
if (t->Distance >= numslots)
{ // Distance is too far for the output
return -2;
}
t->FillConversionPath(slots);
}
return t->Distance + 1;
}
for (unsigned i = 0; i < t->Conversions.Size(); ++i)
{
PType *succ = t->Conversions[i].TargetType;
if (!visited.Check(succ))
{
succ->MarkPred(t, i, Distance + 1);
visited.Insert(succ);
queue.Push(succ);
}
}
}
return -1;
}
//==========================================================================
//
// PType :: FillConversionPath
//
// Traces backwards from the target type to the original type and fills in
// the conversions necessary to get between them. slots must point to an
// array large enough to contain the entire path.
//
//==========================================================================
void PType::FillConversionPath(const PType::Conversion **slots)
{
for (PType *node = this; node->Distance >= 0; node = node->PredType)
{
assert(node->PredType != NULL);
slots[node->Distance] = &node->PredType->Conversions[node->PredConv];
}
}
//==========================================================================
//
// PType :: VisitQueue :: Push
//
//==========================================================================
void PType::VisitQueue::Push(PType *type)
{
Queue[In] = type;
Advance(In);
assert(!IsEmpty() && "Queue overflowed");
}
//==========================================================================
//
// PType :: VisitQueue :: Pop
//
//==========================================================================
PType *PType::VisitQueue::Pop()
{
if (IsEmpty())
{
return NULL;
}
PType *node = Queue[Out];
Advance(Out);
return node;
}
//==========================================================================
//
// PType :: VisitedNodeSet :: Insert
//
//==========================================================================
void PType::VisitedNodeSet::Insert(PType *node)
{
assert(!Check(node) && "Node was already inserted");
size_t buck = Hash(node) & (countof(Buckets) - 1);
node->VisitNext = Buckets[buck];
Buckets[buck] = node;
}
//==========================================================================
//
// PType :: VisitedNodeSet :: Check
//
//==========================================================================
bool PType::VisitedNodeSet::Check(const PType *node)
{
size_t buck = Hash(node) & (countof(Buckets) - 1);
for (const PType *probe = Buckets[buck]; probe != NULL; probe = probe->VisitNext)
{
if (probe == node)
{
return true;
}
}
return false;
}
//========================================================================== //==========================================================================
// //
// PType :: SetValue // PType :: SetValue

View file

@ -113,6 +113,7 @@ private:
// Map * * // Map * *
// Prototype *+ *+ // Prototype *+ *+
struct ZCC_ExprConstant;
class PClassType; class PClassType;
class PType : public DObject class PType : public DObject
{ {
@ -128,6 +129,15 @@ public:
typedef PClassType MetaClass; typedef PClassType MetaClass;
MetaClass *GetClass() const; MetaClass *GetClass() const;
struct Conversion
{
Conversion(PType *target, void (*convert)(ZCC_ExprConstant *, class FSharedStringArena &))
: TargetType(target), ConvertConstant(convert) {}
PType *TargetType;
void (*ConvertConstant)(ZCC_ExprConstant *val, class FSharedStringArena &strdump);
};
unsigned int Size; // this type's size unsigned int Size; // this type's size
unsigned int Align; // this type's preferred alignment unsigned int Align; // this type's preferred alignment
PType *HashNext; // next type in this type table PType *HashNext; // next type in this type table
@ -136,6 +146,10 @@ public:
PType(unsigned int size, unsigned int align); PType(unsigned int size, unsigned int align);
virtual ~PType(); virtual ~PType();
bool AddConversion(PType *target, void (*convertconst)(ZCC_ExprConstant *, class FSharedStringArena &));
int FindConversion(PType *target, const Conversion **slots, int numslots);
// Sets the value of a variable of this type at (addr) // Sets the value of a variable of this type at (addr)
virtual void SetValue(void *addr, int val); virtual void SetValue(void *addr, int val);
@ -163,6 +177,54 @@ public:
virtual void GetTypeIDs(intptr_t &id1, intptr_t &id2) const; virtual void GetTypeIDs(intptr_t &id1, intptr_t &id2) const;
static void StaticInit(); static void StaticInit();
private:
// Stuff for type conversion searches
class VisitQueue
{
public:
VisitQueue() : In(0), Out(0) {}
void Push(PType *type);
PType *Pop();
bool IsEmpty() { return In == Out; }
private:
// This is a fixed-sized ring buffer.
PType *Queue[64];
int In, Out;
void Advance(int &ptr)
{
ptr = (ptr + 1) & (countof(Queue) - 1);
}
};
class VisitedNodeSet
{
public:
VisitedNodeSet() { memset(Buckets, 0, sizeof(Buckets)); }
void Insert(PType *node);
bool Check(const PType *node);
private:
PType *Buckets[32];
size_t Hash(const PType *type) { return size_t(type) >> 4; }
};
TArray<Conversion> Conversions;
PType *PredType;
PType *VisitNext;
short PredConv;
short Distance;
void MarkPred(PType *pred, int conv, int dist)
{
PredType = pred;
PredConv = conv;
Distance = dist;
}
void FillConversionPath(const Conversion **slots);
}; };
// Not-really-a-type types -------------------------------------------------- // Not-really-a-type types --------------------------------------------------