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type.c
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type.c
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/* picoc data type module. This manages a tree of data types and has facilities
* for parsing data types. */
#include "interpreter.h"
/* some basic types */
static int PointerAlignBytes;
static int IntAlignBytes;
/* add a new type to the set of types we know about */
struct ValueType *TypeAdd(Picoc *pc, struct ParseState *Parser, struct ValueType *ParentType, enum BaseType Base, int ArraySize, const char *Identifier, int Sizeof, int AlignBytes)
{
struct ValueType *NewType = VariableAlloc(pc, Parser, sizeof(struct ValueType), TRUE);
NewType->Base = Base;
NewType->ArraySize = ArraySize;
NewType->Sizeof = Sizeof;
NewType->AlignBytes = AlignBytes;
NewType->Identifier = Identifier;
NewType->Members = NULL;
NewType->FromType = ParentType;
NewType->DerivedTypeList = NULL;
NewType->OnHeap = TRUE;
NewType->Next = ParentType->DerivedTypeList;
ParentType->DerivedTypeList = NewType;
return NewType;
}
/* given a parent type, get a matching derived type and make one if necessary.
* Identifier should be registered with the shared string table. */
struct ValueType *TypeGetMatching(Picoc *pc, struct ParseState *Parser, struct ValueType *ParentType, enum BaseType Base, int ArraySize, const char *Identifier, int AllowDuplicates)
{
int Sizeof;
int AlignBytes;
struct ValueType *ThisType = ParentType->DerivedTypeList;
while (ThisType != NULL && (ThisType->Base != Base || ThisType->ArraySize != ArraySize || ThisType->Identifier != Identifier))
ThisType = ThisType->Next;
if (ThisType != NULL)
{
if (AllowDuplicates)
return ThisType;
else
ProgramFail(Parser, "data type '%s' is already defined", Identifier);
}
switch (Base)
{
case TypePointer: Sizeof = sizeof(void *); AlignBytes = PointerAlignBytes; break;
case TypeArray: Sizeof = ArraySize * ParentType->Sizeof; AlignBytes = ParentType->AlignBytes; break;
case TypeEnum: Sizeof = sizeof(int); AlignBytes = IntAlignBytes; break;
default: Sizeof = 0; AlignBytes = 0; break; /* structs and unions will get bigger when we add members to them */
}
return TypeAdd(pc, Parser, ParentType, Base, ArraySize, Identifier, Sizeof, AlignBytes);
}
/* stack space used by a value */
int TypeStackSizeValue(struct Value *Val)
{
if (Val != NULL && Val->ValOnStack)
return TypeSizeValue(Val, FALSE);
else
return 0;
}
/* memory used by a value */
int TypeSizeValue(struct Value *Val, int Compact)
{
if (IS_INTEGER_NUMERIC(Val) && !Compact)
return sizeof(ALIGN_TYPE); /* allow some extra room for type extension */
else if (Val->Typ->Base != TypeArray)
return Val->Typ->Sizeof;
else
return Val->Typ->FromType->Sizeof * Val->Typ->ArraySize;
}
/* memory used by a variable given its type and array size */
int TypeSize(struct ValueType *Typ, int ArraySize, int Compact)
{
if (IS_INTEGER_NUMERIC_TYPE(Typ) && !Compact)
return sizeof(ALIGN_TYPE); /* allow some extra room for type extension */
else if (Typ->Base != TypeArray)
return Typ->Sizeof;
else
return Typ->FromType->Sizeof * ArraySize;
}
/* add a base type */
void TypeAddBaseType(Picoc *pc, struct ValueType *TypeNode, enum BaseType Base, int Sizeof, int AlignBytes)
{
TypeNode->Base = Base;
TypeNode->ArraySize = 0;
TypeNode->Sizeof = Sizeof;
TypeNode->AlignBytes = AlignBytes;
TypeNode->Identifier = pc->StrEmpty;
TypeNode->Members = NULL;
TypeNode->FromType = NULL;
TypeNode->DerivedTypeList = NULL;
TypeNode->OnHeap = FALSE;
TypeNode->Next = pc->UberType.DerivedTypeList;
pc->UberType.DerivedTypeList = TypeNode;
}
/* initialise the type system */
void TypeInit(Picoc *pc)
{
struct IntAlign { char x; int y; } ia;
struct ShortAlign { char x; short y; } sa;
struct CharAlign { char x; char y; } ca;
struct LongAlign { char x; long y; } la;
#ifndef NO_FP
struct DoubleAlign { char x; double y; } da;
#endif
struct PointerAlign { char x; void *y; } pa;
IntAlignBytes = (char *)&ia.y - &ia.x;
PointerAlignBytes = (char *)&pa.y - &pa.x;
pc->UberType.DerivedTypeList = NULL;
TypeAddBaseType(pc, &pc->IntType, TypeInt, sizeof(int), IntAlignBytes);
TypeAddBaseType(pc, &pc->ShortType, TypeShort, sizeof(short), (char *)&sa.y - &sa.x);
TypeAddBaseType(pc, &pc->CharType, TypeChar, sizeof(char), (char *)&ca.y - &ca.x);
TypeAddBaseType(pc, &pc->LongType, TypeLong, sizeof(long), (char *)&la.y - &la.x);
TypeAddBaseType(pc, &pc->UnsignedIntType, TypeUnsignedInt, sizeof(unsigned int), IntAlignBytes);
TypeAddBaseType(pc, &pc->UnsignedShortType, TypeUnsignedShort, sizeof(unsigned short), (char *)&sa.y - &sa.x);
TypeAddBaseType(pc, &pc->UnsignedLongType, TypeUnsignedLong, sizeof(unsigned long), (char *)&la.y - &la.x);
TypeAddBaseType(pc, &pc->UnsignedCharType, TypeUnsignedChar, sizeof(unsigned char), (char *)&ca.y - &ca.x);
TypeAddBaseType(pc, &pc->VoidType, TypeVoid, 0, 1);
TypeAddBaseType(pc, &pc->FunctionType, TypeFunction, sizeof(int), IntAlignBytes);
TypeAddBaseType(pc, &pc->MacroType, TypeMacro, sizeof(int), IntAlignBytes);
TypeAddBaseType(pc, &pc->GotoLabelType, TypeGotoLabel, 0, 1);
#ifndef NO_FP
TypeAddBaseType(pc, &pc->FPType, TypeFP, sizeof(double), (char *)&da.y - &da.x);
TypeAddBaseType(pc, &pc->TypeType, Type_Type, sizeof(double), (char *)&da.y - &da.x); /* must be large enough to cast to a double */
#else
TypeAddBaseType(pc, &pc->TypeType, Type_Type, sizeof(struct ValueType *), PointerAlignBytes);
#endif
pc->CharArrayType = TypeAdd(pc, NULL, &pc->CharType, TypeArray, 0, pc->StrEmpty, sizeof(char), (char *)&ca.y - &ca.x);
pc->CharPtrType = TypeAdd(pc, NULL, &pc->CharType, TypePointer, 0, pc->StrEmpty, sizeof(void *), PointerAlignBytes);
pc->CharPtrPtrType = TypeAdd(pc, NULL, pc->CharPtrType, TypePointer, 0, pc->StrEmpty, sizeof(void *), PointerAlignBytes);
pc->VoidPtrType = TypeAdd(pc, NULL, &pc->VoidType, TypePointer, 0, pc->StrEmpty, sizeof(void *), PointerAlignBytes);
}
/* deallocate heap-allocated types */
void TypeCleanupNode(Picoc *pc, struct ValueType *Typ)
{
struct ValueType *SubType;
struct ValueType *NextSubType;
/* clean up and free all the sub-nodes */
for (SubType = Typ->DerivedTypeList; SubType != NULL; SubType = NextSubType)
{
NextSubType = SubType->Next;
TypeCleanupNode(pc, SubType);
if (SubType->OnHeap)
{
/* if it's a struct or union deallocate all the member values */
if (SubType->Members != NULL)
{
VariableTableCleanup(pc, SubType->Members);
HeapFreeMem(pc, SubType->Members);
}
/* free this node */
HeapFreeMem(pc, SubType);
}
}
}
void TypeCleanup(Picoc *pc)
{
TypeCleanupNode(pc, &pc->UberType);
}
/* parse a struct or union declaration */
void TypeParseStruct(struct ParseState *Parser, struct ValueType **Typ, int IsStruct)
{
struct Value *LexValue;
struct ValueType *MemberType;
char *MemberIdentifier;
char *StructIdentifier;
struct Value *MemberValue;
enum LexToken Token;
int AlignBoundary;
Picoc *pc = Parser->pc;
Token = LexGetToken(Parser, &LexValue, FALSE);
if (Token == TokenIdentifier)
{
LexGetToken(Parser, &LexValue, TRUE);
StructIdentifier = LexValue->Val->Identifier;
Token = LexGetToken(Parser, NULL, FALSE);
}
else
{
static char TempNameBuf[7] = "^s0000";
StructIdentifier = PlatformMakeTempName(pc, TempNameBuf);
}
*Typ = TypeGetMatching(pc, Parser, &Parser->pc->UberType, IsStruct ? TypeStruct : TypeUnion, 0, StructIdentifier, TRUE);
if (Token == TokenLeftBrace && (*Typ)->Members != NULL)
ProgramFail(Parser, "data type '%t' is already defined", *Typ);
Token = LexGetToken(Parser, NULL, FALSE);
if (Token != TokenLeftBrace)
{
/* use the already defined structure */
#if 0
if ((*Typ)->Members == NULL)
ProgramFail(Parser, "structure '%s' isn't defined", LexValue->Val->Identifier);
#endif
return;
}
if (pc->TopStackFrame != NULL)
ProgramFail(Parser, "struct/union definitions can only be globals");
LexGetToken(Parser, NULL, TRUE);
(*Typ)->Members = VariableAlloc(pc, Parser, sizeof(struct Table) + STRUCT_TABLE_SIZE * sizeof(struct TableEntry), TRUE);
(*Typ)->Members->HashTable = (struct TableEntry **)((char *)(*Typ)->Members + sizeof(struct Table));
TableInitTable((*Typ)->Members, (struct TableEntry **)((char *)(*Typ)->Members + sizeof(struct Table)), STRUCT_TABLE_SIZE, TRUE);
do {
TypeParse(Parser, &MemberType, &MemberIdentifier, NULL);
if (MemberType == NULL || MemberIdentifier == NULL)
ProgramFail(Parser, "invalid type in struct");
MemberValue = VariableAllocValueAndData(pc, Parser, sizeof(int), FALSE, NULL, TRUE);
MemberValue->Typ = MemberType;
if (IsStruct)
{
/* allocate this member's location in the struct */
AlignBoundary = MemberValue->Typ->AlignBytes;
if (((*Typ)->Sizeof & (AlignBoundary-1)) != 0)
(*Typ)->Sizeof += AlignBoundary - ((*Typ)->Sizeof & (AlignBoundary-1));
MemberValue->Val->Integer = (*Typ)->Sizeof;
(*Typ)->Sizeof += TypeSizeValue(MemberValue, TRUE);
}
else
{
/* union members always start at 0, make sure it's big enough to hold the largest member */
MemberValue->Val->Integer = 0;
if (MemberValue->Typ->Sizeof > (*Typ)->Sizeof)
(*Typ)->Sizeof = TypeSizeValue(MemberValue, TRUE);
}
/* make sure to align to the size of the largest member's alignment */
if ((*Typ)->AlignBytes < MemberValue->Typ->AlignBytes)
(*Typ)->AlignBytes = MemberValue->Typ->AlignBytes;
/* define it */
if (!TableSet(pc, (*Typ)->Members, MemberIdentifier, MemberValue, Parser->FileName, Parser->Line, Parser->CharacterPos))
ProgramFail(Parser, "member '%s' already defined", &MemberIdentifier);
if (LexGetToken(Parser, NULL, TRUE) != TokenSemicolon)
ProgramFail(Parser, "semicolon expected");
} while (LexGetToken(Parser, NULL, FALSE) != TokenRightBrace);
/* now align the structure to the size of its largest member's alignment */
AlignBoundary = (*Typ)->AlignBytes;
if (((*Typ)->Sizeof & (AlignBoundary-1)) != 0)
(*Typ)->Sizeof += AlignBoundary - ((*Typ)->Sizeof & (AlignBoundary-1));
LexGetToken(Parser, NULL, TRUE);
}
/* create a system struct which has no user-visible members */
struct ValueType *TypeCreateOpaqueStruct(Picoc *pc, struct ParseState *Parser, const char *StructName, int Size)
{
struct ValueType *Typ = TypeGetMatching(pc, Parser, &pc->UberType, TypeStruct, 0, StructName, FALSE);
/* create the (empty) table */
Typ->Members = VariableAlloc(pc, Parser, sizeof(struct Table) + STRUCT_TABLE_SIZE * sizeof(struct TableEntry), TRUE);
Typ->Members->HashTable = (struct TableEntry **)((char *)Typ->Members + sizeof(struct Table));
TableInitTable(Typ->Members, (struct TableEntry **)((char *)Typ->Members + sizeof(struct Table)), STRUCT_TABLE_SIZE, TRUE);
Typ->Sizeof = Size;
return Typ;
}
/* parse an enum declaration */
void TypeParseEnum(struct ParseState *Parser, struct ValueType **Typ)
{
struct Value *LexValue;
struct Value InitValue;
enum LexToken Token;
int EnumValue = 0;
char *EnumIdentifier;
Picoc *pc = Parser->pc;
Token = LexGetToken(Parser, &LexValue, FALSE);
if (Token == TokenIdentifier)
{
LexGetToken(Parser, &LexValue, TRUE);
EnumIdentifier = LexValue->Val->Identifier;
Token = LexGetToken(Parser, NULL, FALSE);
}
else
{
static char TempNameBuf[7] = "^e0000";
EnumIdentifier = PlatformMakeTempName(pc, TempNameBuf);
}
TypeGetMatching(pc, Parser, &pc->UberType, TypeEnum, 0, EnumIdentifier, Token != TokenLeftBrace);
*Typ = &pc->IntType;
if (Token != TokenLeftBrace)
{
/* use the already defined enum */
if ((*Typ)->Members == NULL)
ProgramFail(Parser, "enum '%s' isn't defined", EnumIdentifier);
return;
}
if (pc->TopStackFrame != NULL)
ProgramFail(Parser, "enum definitions can only be globals");
LexGetToken(Parser, NULL, TRUE);
(*Typ)->Members = &pc->GlobalTable;
memset((void *)&InitValue, '\0', sizeof(struct Value));
InitValue.Typ = &pc->IntType;
InitValue.Val = (union AnyValue *)&EnumValue;
do {
if (LexGetToken(Parser, &LexValue, TRUE) != TokenIdentifier)
ProgramFail(Parser, "identifier expected");
EnumIdentifier = LexValue->Val->Identifier;
if (LexGetToken(Parser, NULL, FALSE) == TokenAssign)
{
LexGetToken(Parser, NULL, TRUE);
EnumValue = ExpressionParseInt(Parser);
}
VariableDefine(pc, Parser, EnumIdentifier, &InitValue, NULL, FALSE);
Token = LexGetToken(Parser, NULL, TRUE);
if (Token != TokenComma && Token != TokenRightBrace)
ProgramFail(Parser, "comma expected");
EnumValue++;
} while (Token == TokenComma);
}
/* parse a type - just the basic type */
int TypeParseFront(struct ParseState *Parser, struct ValueType **Typ, int *IsStatic)
{
struct ParseState Before;
struct Value *LexerValue;
enum LexToken Token;
int Unsigned = FALSE;
struct Value *VarValue;
int StaticQualifier = FALSE;
Picoc *pc = Parser->pc;
*Typ = NULL;
/* ignore leading type qualifiers */
ParserCopy(&Before, Parser);
Token = LexGetToken(Parser, &LexerValue, TRUE);
while (Token == TokenStaticType || Token == TokenAutoType || Token == TokenRegisterType || Token == TokenExternType)
{
if (Token == TokenStaticType)
StaticQualifier = TRUE;
Token = LexGetToken(Parser, &LexerValue, TRUE);
}
if (IsStatic != NULL)
*IsStatic = StaticQualifier;
/* handle signed/unsigned with no trailing type */
if (Token == TokenSignedType || Token == TokenUnsignedType)
{
enum LexToken FollowToken = LexGetToken(Parser, &LexerValue, FALSE);
Unsigned = (Token == TokenUnsignedType);
if (FollowToken != TokenIntType && FollowToken != TokenLongType && FollowToken != TokenShortType && FollowToken != TokenCharType)
{
if (Token == TokenUnsignedType)
*Typ = &pc->UnsignedIntType;
else
*Typ = &pc->IntType;
return TRUE;
}
Token = LexGetToken(Parser, &LexerValue, TRUE);
}
switch (Token)
{
case TokenIntType: *Typ = Unsigned ? &pc->UnsignedIntType : &pc->IntType; break;
case TokenShortType: *Typ = Unsigned ? &pc->UnsignedShortType : &pc->ShortType; break;
case TokenCharType: *Typ = Unsigned ? &pc->UnsignedCharType : &pc->CharType; break;
case TokenLongType: *Typ = Unsigned ? &pc->UnsignedLongType : &pc->LongType; break;
#ifndef NO_FP
case TokenFloatType: case TokenDoubleType: *Typ = &pc->FPType; break;
#endif
case TokenVoidType: *Typ = &pc->VoidType; break;
case TokenStructType: case TokenUnionType:
if (*Typ != NULL)
ProgramFail(Parser, "bad type declaration");
TypeParseStruct(Parser, Typ, Token == TokenStructType);
break;
case TokenEnumType:
if (*Typ != NULL)
ProgramFail(Parser, "bad type declaration");
TypeParseEnum(Parser, Typ);
break;
case TokenIdentifier:
/* we already know it's a typedef-defined type because we got here */
VariableGet(pc, Parser, LexerValue->Val->Identifier, &VarValue);
*Typ = VarValue->Val->Typ;
break;
default: ParserCopy(Parser, &Before); return FALSE;
}
return TRUE;
}
/* parse a type - the part at the end after the identifier. eg. array specifications etc. */
struct ValueType *TypeParseBack(struct ParseState *Parser, struct ValueType *FromType)
{
enum LexToken Token;
struct ParseState Before;
ParserCopy(&Before, Parser);
Token = LexGetToken(Parser, NULL, TRUE);
if (Token == TokenLeftSquareBracket)
{
/* add another array bound */
if (LexGetToken(Parser, NULL, FALSE) == TokenRightSquareBracket)
{
/* an unsized array */
LexGetToken(Parser, NULL, TRUE);
return TypeGetMatching(Parser->pc, Parser, TypeParseBack(Parser, FromType), TypeArray, 0, Parser->pc->StrEmpty, TRUE);
}
else
{
/* get a numeric array size */
enum RunMode OldMode = Parser->Mode;
int ArraySize;
Parser->Mode = RunModeRun;
ArraySize = ExpressionParseInt(Parser);
Parser->Mode = OldMode;
if (LexGetToken(Parser, NULL, TRUE) != TokenRightSquareBracket)
ProgramFail(Parser, "']' expected");
return TypeGetMatching(Parser->pc, Parser, TypeParseBack(Parser, FromType), TypeArray, ArraySize, Parser->pc->StrEmpty, TRUE);
}
}
else
{
/* the type specification has finished */
ParserCopy(Parser, &Before);
return FromType;
}
}
/* parse a type - the part which is repeated with each identifier in a declaration list */
void TypeParseIdentPart(struct ParseState *Parser, struct ValueType *BasicTyp, struct ValueType **Typ, char **Identifier)
{
struct ParseState Before;
enum LexToken Token;
struct Value *LexValue;
int Done = FALSE;
*Typ = BasicTyp;
*Identifier = Parser->pc->StrEmpty;
while (!Done)
{
ParserCopy(&Before, Parser);
Token = LexGetToken(Parser, &LexValue, TRUE);
switch (Token)
{
case TokenOpenBracket:
if (*Typ != NULL)
ProgramFail(Parser, "bad type declaration");
TypeParse(Parser, Typ, Identifier, NULL);
if (LexGetToken(Parser, NULL, TRUE) != TokenCloseBracket)
ProgramFail(Parser, "')' expected");
break;
case TokenAsterisk:
if (*Typ == NULL)
ProgramFail(Parser, "bad type declaration");
*Typ = TypeGetMatching(Parser->pc, Parser, *Typ, TypePointer, 0, Parser->pc->StrEmpty, TRUE);
break;
case TokenIdentifier:
if (*Typ == NULL || *Identifier != Parser->pc->StrEmpty)
ProgramFail(Parser, "bad type declaration");
*Identifier = LexValue->Val->Identifier;
Done = TRUE;
break;
default: ParserCopy(Parser, &Before); Done = TRUE; break;
}
}
if (*Typ == NULL)
ProgramFail(Parser, "bad type declaration");
if (*Identifier != Parser->pc->StrEmpty)
{
/* parse stuff after the identifier */
*Typ = TypeParseBack(Parser, *Typ);
}
}
/* parse a type - a complete declaration including identifier */
void TypeParse(struct ParseState *Parser, struct ValueType **Typ, char **Identifier, int *IsStatic)
{
struct ValueType *BasicType;
TypeParseFront(Parser, &BasicType, IsStatic);
TypeParseIdentPart(Parser, BasicType, Typ, Identifier);
}
/* check if a type has been fully defined - otherwise it's just a forward declaration */
int TypeIsForwardDeclared(struct ParseState *Parser, struct ValueType *Typ)
{
if (Typ->Base == TypeArray)
return TypeIsForwardDeclared(Parser, Typ->FromType);
if ( (Typ->Base == TypeStruct || Typ->Base == TypeUnion) && Typ->Members == NULL)
return TRUE;
return FALSE;
}