#include "nasal.h"
-// Notes: A CODE object is a compiled set of bytecode instructions.
-// What actually gets executed at runtime is a bound FUNC object,
-// which combines the raw code with a namespace and a pointer to
-// parent function in the lexical closure.
+#if defined(NASAL_NAN64)
+
+// On 64 bit systems, Nasal non-numeric references are stored with a
+// bitmask that sets the top 16 bits. As a double, this is a
+// signalling NaN that cannot itself be produced by normal numerics
+// code. The pointer value can be reconstructed if (and only if) we
+// are guaranteed that all memory that can be pointed to by a naRef
+// (i.e. all memory returned by naAlloc) lives in the bottom 48 bits
+// of memory. Linux on x86_64, Win64, Solaris and Irix all have such
+// policies with address spaces:
+//
+// http://msdn.microsoft.com/library/en-us/win64/win64/virtual_address_space.asp
+// http://docs.sun.com/app/docs/doc/816-5138/6mba6ua5p?a=view
+// http://techpubs.sgi.com/library/tpl/cgi-bin/getdoc.cgi/
+// ... 0650/bks/SGI_Developer/books/T_IRIX_Prog/sgi_html/ch01.html
+//
+// In the above, MS guarantees 44 bits of process address space, SGI
+// 40, and Sun 43 (Solaris *does* place the stack in the "negative"
+// address space at 0xffff..., but we don't care as naRefs will never
+// point there). Linux doesn't document this rigorously, but testing
+// shows that it allows 47 bits of address space (and current x86_64
+// implementations are limited to 48 bits of virtual space anyway). So
+// we choose 48 as the conservative compromise.
+
+#define REFMAGIC ((1UL<<48) - 1)
+
+#define _ULP(r) ((unsigned long long)((r).ptr))
+#define REFPTR(r) (_ULP(r) & REFMAGIC)
+#define IS_REF(r) ((_ULP(r) & ~REFMAGIC) == ~REFMAGIC)
+
+// Portability note: this cast from a pointer type to naPtr (a union)
+// is not defined in ISO C, it's a GCC extention that doesn't work on
+// (at least) either the SUNWspro or MSVC compilers. Unfortunately,
+// fixing this would require abandoning the naPtr union for a set of
+// PTR_<type>() macros, which is a ton of work and a lot of extra
+// code. And as all enabled 64 bit platforms are gcc anyway, and the
+// 32 bit fallback code works in any case, this is acceptable for now.
+#define PTR(r) ((naPtr)((struct naObj*)(_ULP(r) & REFMAGIC)))
+
+#define SETPTR(r, p) ((r).ptr = (void*)((unsigned long long)p | ~REFMAGIC))
+#define SETNUM(r, n) ((r).num = n)
+
+#else
+
+// On 32 bit systems where the pointer is half the width of the
+// double, we store a special magic number in the structure to make
+// the double a qNaN. This must appear in the top bits of the double,
+// which is why the structure layout is endianness-dependent.
+// qNaN (quiet NaNs) use range 0x7ff80000-0x7fffffff
+
+#define NASAL_REFTAG 0x7fff6789 // == 2,147,444,617 decimal
+#define IS_REF(r) ((r).ref.reftag == NASAL_REFTAG)
+#define PTR(r) ((r).ref.ptr)
+
+#define SETPTR(r, p) ((r).ref.ptr.obj = (void*)p, (r).ref.reftag = NASAL_REFTAG)
+#define SETNUM(r, n) ((r).ref.reftag = ~NASAL_REFTAG, (r).num = n)
+
+#endif /* platform stuff */
+
enum { T_STR, T_VEC, T_HASH, T_CODE, T_FUNC, T_CCODE, T_GHOST,
NUM_NASAL_TYPES }; // V. important that this come last!
-#define IS_REF(r) ((r).ref.reftag == NASAL_REFTAG)
-#define IS_NUM(r) ((r).ref.reftag != NASAL_REFTAG)
-#define IS_OBJ(r) (IS_REF((r)) && (r).ref.ptr.obj != 0)
-//#define IS_OBJ(r) (IS_REF((r)) && (r).ref.ptr.obj != 0 && (((r).ref.ptr.obj->type == 123) ? *(int*)0 : 1))
-#define IS_NIL(r) (IS_REF((r)) && (r).ref.ptr.obj == 0)
-#define IS_STR(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_STR)
-#define IS_VEC(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_VEC)
-#define IS_HASH(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_HASH)
-#define IS_CODE(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_CODE)
-#define IS_FUNC(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_FUNC)
-#define IS_CCODE(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_CCODE)
-#define IS_GHOST(r) (IS_OBJ((r)) && (r).ref.ptr.obj->type == T_GHOST)
+#define IS_NUM(r) (!IS_REF(r))
+#define IS_OBJ(r) (IS_REF(r) && PTR(r).obj != 0)
+#define IS_NIL(r) (IS_REF(r) && PTR(r).obj == 0)
+#define IS_STR(r) (IS_OBJ(r) && PTR(r).obj->type == T_STR)
+#define IS_VEC(r) (IS_OBJ(r) && PTR(r).obj->type == T_VEC)
+#define IS_HASH(r) (IS_OBJ(r) && PTR(r).obj->type == T_HASH)
+#define IS_CODE(r) (IS_OBJ(r) && PTR(r).obj->type == T_CODE)
+#define IS_FUNC(r) (IS_OBJ(r) && PTR(r).obj->type == T_FUNC)
+#define IS_CCODE(r) (IS_OBJ(r) && PTR(r).obj->type == T_CCODE)
+#define IS_GHOST(r) (IS_OBJ(r) && PTR(r).obj->type == T_GHOST)
#define IS_CONTAINER(r) (IS_VEC(r)||IS_HASH(r))
-#define IS_SCALAR(r) (IS_NUM((r)) || IS_STR((r)))
-#define IDENTICAL(a, b) (IS_REF(a) && IS_REF(b) \
- && a.ref.ptr.obj == b.ref.ptr.obj)
+#define IS_SCALAR(r) (IS_NUM(r) || IS_STR(r))
+#define IDENTICAL(a, b) (IS_REF(a) && IS_REF(b) && PTR(a).obj == PTR(b).obj)
+
+#define MUTABLE(r) (IS_STR(r) && PTR(r).str->hashcode == 0)
// This is a macro instead of a separate struct to allow compilers to
-// avoid padding. GCC on x86, at least, will always padd the size of
+// avoid padding. GCC on x86, at least, will always pad the size of
// an embedded struct up to 32 bits. Doing it this way allows the
// implementing objects to pack in 16 bits worth of data "for free".
#define GC_HEADER \
GC_HEADER;
};
+#define MAX_STR_EMBLEN 15
struct naStr {
GC_HEADER;
- int len;
- unsigned char* data;
+ char emblen; /* [0-15], or -1 to indicate "not embedded" */
unsigned int hashcode;
+ union {
+ unsigned char buf[16];
+ struct {
+ int len;
+ unsigned char* ptr;
+ } ref;
+ } data;
};
struct VecRec {
struct HashNode* next;
};
-struct HashRec {
- int size;
- int dels;
- int lgalloced;
- struct HashNode* nodes;
- struct HashNode* table[];
-};
-
struct naHash {
GC_HEADER;
struct HashRec* rec;
struct naCode {
GC_HEADER;
- unsigned char nArgs;
- unsigned char nOptArgs;
- unsigned char needArgVector;
+ unsigned int nArgs : 5;
+ unsigned int nOptArgs : 5;
+ unsigned int needArgVector : 1;
unsigned short nConstants;
- unsigned short nLines;
unsigned short codesz;
- unsigned short* byteCode;
- naRef* constants;
- int* argSyms; // indices into constants
- int* optArgSyms;
- int* optArgVals;
- unsigned short* lineIps; // pairs of {ip, line}
+ unsigned short restArgSym; // The "..." vector name, defaults to "arg"
+ unsigned short nLines;
naRef srcFile;
- naRef restArgSym; // The "..." vector name, defaults to "arg"
+ naRef* constants;
};
+/* naCode objects store their variable length arrays in a single block
+ * starting with their constants table. Compute indexes at runtime
+ * for space efficiency: */
+#define BYTECODE(c) ((unsigned short*)((c)->constants+(c)->nConstants))
+#define ARGSYMS(c) (BYTECODE(c)+(c)->codesz)
+#define OPTARGSYMS(c) (ARGSYMS(c)+(c)->nArgs)
+#define OPTARGVALS(c) (OPTARGSYMS(c)+(c)->nOptArgs)
+#define LINEIPS(c) (OPTARGVALS(c)+(c)->nOptArgs)
+
struct naFunc {
GC_HEADER;
naRef code;
struct naCCode {
GC_HEADER;
- naCFunction fptr;
+ union {
+ naCFunction fptr; //<! pointer to simple callback function. Invalid if
+ // fptru is not NULL.
+ struct {
+ void* user_data;
+ void(*destroy)(void*);
+ naCFunctionU fptru;
+ };
+ };
};
struct naGhost {
void naFree(void* m);
void* naAlloc(int n);
+void* naRealloc(void* buf, int sz);
void naBZero(void* m, int n);
int naTypeSize(int type);
int naStr_numeric(naRef str);
int naStr_parsenum(char* str, int len, double* result);
int naStr_tonum(naRef str, double* out);
+naRef naStr_buf(naRef str, int len);
-int naHash_tryset(naRef hash, naRef key, naRef val); // sets if exists
-int naHash_sym(struct naHash* h, struct naStr* sym, naRef* out);
-void naHash_newsym(struct naHash* h, naRef* sym, naRef* val);
+int naiHash_tryset(naRef hash, naRef key, naRef val); // sets if exists
+int naiHash_sym(struct naHash* h, struct naStr* sym, naRef* out);
+void naiHash_newsym(struct naHash* h, naRef* sym, naRef* val);
void naGC_init(struct naPool* p, int type);
struct naObj** naGC_get(struct naPool* p, int n, int* nout);
void naGC_swapfree(void** target, void* val);
void naGC_freedead();
+void naiGCMark(naRef r);
+void naiGCMarkHash(naRef h);
void naStr_gcclean(struct naStr* s);
void naVec_gcclean(struct naVec* s);
-void naHash_gcclean(struct naHash* s);
+void naiGCHashClean(struct naHash* h);
#endif // _DATA_H
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