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yap-6.3/H/YapHandles.h
Vítor Santos Costa 50c8724322 linux backport
file exists system predicate
$source_file -> $user source
hide and make system preds
fix check_head_and_body
user_expansion never fails
goal expansion is controlled b dynamic procedure
add must_be_of_type predicate_indicator
fix neat_call, debug flag is user controlled
use simplecudd, not ptoblogbdd
compile all of myddas
fx junk in file_name
fix warnings
use common file opening struct and funds
avoid pairs module
fix db queues
2016-01-04 14:11:09 +00:00

241 lines
8.8 KiB
C
Executable File

/*************************************************************************
* *
* YAP Prolog %W% %G% *
* Yap Prolog was developed at NCCUP - Universidade do Porto *
* *
* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 *
* *
**************************************************************************
* *
* File: YapHandles.h *
* mods: *
* comments: term handles for YAP: basic ops *
* version: $Id: Yap.h,v 1.38 2008-06-18 10:02:27 vsc Exp $ *
*************************************************************************/
#ifndef YAP_HANDLES_H
#define YAP_HANDLES_H 1
#include "Regs.h"
/**
@groupdef term_t_slots
Also known as term handles, slots are offsets to entries in the local stack. YAP
never compresses the local stack, so slots are respected by the garbage
collector,
hence providing a way to access terms without being exposed to stack shifts or
garbage-collection.
Space is released when the function terminates. Thus, slots will be
automatically released at the end
of a function. Hence, slots should always be used as local variables.
Slots are organized as follows:
---- Offset of next pointer in chain (tagged as an handle_t)
---- Number of entries (tagged as handle_t), in the example TAG(INT,4)
Entry
Entry
Entry
Entry
---- Number of entries (tagged as handle_t), in the example TAG(INT,4)
Slots are not known to the yaam. Instead, A new set of slots is created when the
emulator calls user C-code.
(see YAP_Execute* functions). They are also created:
- by SWI's PL_foreign_frame() function,
- by the YAP_RunGoal() routines and friends, when they exit successfully.
Notice that all handles created by c-goals within
a `Goal` execution should not be used afterwards.
This section lists the main internal functions for slot management. These
functions are then exported through corresponding FLI C-functions
*************************************************************************************************/
#include <stdio.h>
/// @brief reboot the slot system.
/// Used when wwe start from scratch (Reset).
#define Yap_RebootSlots(wid) Yap_RebootSlots__(wid PASS_REGS)
static inline void Yap_RebootSlots__(int wid USES_REGS) {
// fprintf(stderr, " StartSlots = %ld", LOCAL_CurSlot);
REMOTE_CurSlot(wid) = 1;
}
/// @brief declares a new set of slots.
/// Used to tell how many slots we had when we entered a segment of code.
//#define Yap_StartSlots() (
// printf("[<<<%s,%s,%d-%ld\n",__FILE__,__FUNCTION__,__LINE__,LOCAL_CurSlot)?Yap_StartSlots__(PASS_REGS1):
//-1)
#define Yap_StartSlots() Yap_StartSlots__(PASS_REGS1)
INLINE_ONLY inline EXTERN yhandle_t Yap_StartSlots__(USES_REGS1);
INLINE_ONLY inline EXTERN yhandle_t Yap_StartSlots__(USES_REGS1) {
// // fprintf(stderr, " StartSlots = %ld", LOCAL_CurSlot);
// fprintf(stderr,"SS %s:%d\n", __FILE__, __LINE__);;
if (LOCAL_CurSlot < 0) {
Yap_Error(SYSTEM_ERROR_INTERNAL, 0L, " StartSlots = %ld", LOCAL_CurSlot);
}
return LOCAL_CurSlot;
}
/// @brief reset slots to a well-known position in the stack
//#define Yap_CloseSlots(slot) ( printf("- %s,%s,%d
//%ld>>>]\n",__FILE__,__FUNCTION__,__LINE__, slot)?Yap_CloseSlots__(slot
// PASS_REGS):-1)
#define Yap_CloseSlots(slot) Yap_CloseSlots__(slot PASS_REGS)
INLINE_ONLY inline EXTERN void Yap_CloseSlots__(yhandle_t slot USES_REGS);
INLINE_ONLY inline EXTERN void Yap_CloseSlots__(yhandle_t slot USES_REGS) {
// fprintf(stderr,"CS %s:%d\n", __FILE__, __LINE__);;
LOCAL_CurSlot = slot;
}
#define Yap_CurrentSlot() Yap_CurrentSlot__(PASS_REGS1)
/// @brief report the current position of the slots, assuming that they occupy
/// the top of the stack.
INLINE_ONLY inline EXTERN yhandle_t Yap_CurrentSlot__(USES_REGS1);
INLINE_ONLY inline EXTERN yhandle_t Yap_CurrentSlot__(USES_REGS1) {
return LOCAL_CurSlot;
}
#define Yap_GetFromSlot(slot) Yap_GetFromSlot__(slot PASS_REGS)
/// @brief read from a slot.
INLINE_ONLY inline EXTERN Term Yap_GetFromSlot__(yhandle_t slot USES_REGS);
INLINE_ONLY inline EXTERN Term Yap_GetFromSlot__(yhandle_t slot USES_REGS) {
// fprintf(stderr, "GS %s:%d\n", __FILE__, __LINE__);
return Deref(LOCAL_SlotBase[slot]);
}
#define Yap_GetDerefedFromSlot( slot ) Yap_GetDerefedFromSlot__(slot PASS_REGS)
/// @brief read from a slot. but does not try to dereference the slot.
INLINE_ONLY inline EXTERN Term Yap_GetDerefedFromSlot__(yhandle_t slot USES_REGS);
INLINE_ONLY inline EXTERN Term Yap_GetDerefedFromSlot__(yhandle_t slot USES_REGS) {
// fprintf(stderr,"GDS %s:%d\n", __FILE__, __LINE__);
return LOCAL_SlotBase[slot];
}
#define Yap_GetPtrFromSlot( slot ) Yap_GetPtrFromSlot__(slot PASS_REGS)
/// @brief read the object in a slot. but do not try to dereference the slot.
INLINE_ONLY inline EXTERN Term *Yap_GetPtrFromSlot__(yhandle_t slot USES_REGS);
INLINE_ONLY inline EXTERN Term *Yap_GetPtrFromSlot__(yhandle_t slot USES_REGS) {
// fprintf(stderr,"GPS %s:%d\n", __FILE__, __LINE__);
return (Term *)LOCAL_SlotBase[slot];
}
#define Yap_AddressFromSlot(slot) Yap_AddressFromSlot__(slot PASS_REGS)
INLINE_ONLY inline EXTERN CELL *Yap_AddressFromSlot__(yhandle_t slot USES_REGS);
INLINE_ONLY inline EXTERN CELL *Yap_AddressFromSlot__(yhandle_t slot USES_REGS) {
/// @brief get the memory address of a slot
return LOCAL_SlotBase + slot;
}
#define Yap_PutInSlot(slot, t) Yap_PutInSlot__(slot, t PASS_REGS)
/// @brief store term in a slot
INLINE_ONLY inline EXTERN void Yap_PutInSlot__(yhandle_t slot, Term t USES_REGS);
INLINE_ONLY inline EXTERN void Yap_PutInSlot__(yhandle_t slot, Term t USES_REGS) {
// fprintf(stderr,"PS %s:%d\n", __FILE__, __LINE__);
LOCAL_SlotBase[slot] = t;
}
#ifndef max
#define max(X, Y) (X > Y ? X : Y)
#endif
INLINE_ONLY inline EXTERN void ensure_slots(int N USES_REGS) {
if (LOCAL_CurSlot + N >= LOCAL_NSlots) {
size_t inc = max(16 * 1024, LOCAL_NSlots / 2); // measured in cells
inc = max(inc, N + 16); // measured in cells
LOCAL_SlotBase =
(CELL *)realloc(LOCAL_SlotBase, (inc + LOCAL_NSlots) * sizeof(CELL));
LOCAL_NSlots += inc;
if (!LOCAL_SlotBase) {
unsigned long int kneeds = ((inc + LOCAL_NSlots) * sizeof(CELL)) / 1024;
Yap_Error(
SYSTEM_ERROR_INTERNAL, 0 /* TermNil */,
"Out of memory for the term handles (term_t) aka slots, l needed",
kneeds);
}
}
}
/// @brief create a new slot with term t
// #define Yap_InitSlot(t)
// (printf("+%d %ld %s,%s,%d>>>]\n", 1, LOCAL_CurSlot,__FILE__, __FUNCTION__, __LINE__)
// ? Yap_InitSlot__(t PASS_REGS)
// : -1)
#define Yap_InitSlot(t) Yap_InitSlot__(t PASS_REGS)
INLINE_ONLY inline EXTERN yhandle_t Yap_InitSlot__(Term t USES_REGS);
INLINE_ONLY inline EXTERN yhandle_t Yap_InitSlot__(Term t USES_REGS) {
yhandle_t old_slots = LOCAL_CurSlot;
ensure_slots(1 PASS_REGS);
LOCAL_SlotBase[old_slots] = t;
LOCAL_CurSlot++;
return old_slots;
}
//#define Yap_NewSlots(n) ( printf("+%d %ld %s,%s,%d>>>]\n",n,LOCAL_CurSlot,__FILE__,__FUNCTION__,__LINE__) ?Yap_NewSlots__(n PASS_REGS):-1)
#define Yap_NewSlots(n) Yap_NewSlots__(n PASS_REGS)
INLINE_ONLY inline EXTERN yhandle_t Yap_NewSlots__(int n USES_REGS);
INLINE_ONLY inline EXTERN yhandle_t Yap_NewSlots__(int n USES_REGS) {
yhandle_t old_slots = LOCAL_CurSlot;
int i;
//fprintf(stderr, "NS %s:%d\n", __FILE__, __LINE__);
ensure_slots(n PASS_REGS);
for (i = 0; i < n; i++) {
LOCAL_SlotBase[old_slots + i] = MkVarTerm();
}
LOCAL_CurSlot += n;
return old_slots;
}
//#define Yap_InitSlots(n, ts)
// (printf("+%d %d %s,%s,%d>>>]\n", n, LOCAL_CurSlot, __FILE__, __FUNCTION__, __LINE__)
// ? Yap_InitSlots__(n, ts PASS_REGS)
// : -1)
#define Yap_InitSlots(n, ts) Yap_InitSlots__(n, ts PASS_REGS)
/// @brief create n new slots with terms ts[]
INLINE_ONLY inline EXTERN yhandle_t Yap_InitSlots__(int n, Term *ts USES_REGS);
INLINE_ONLY inline EXTERN yhandle_t Yap_InitSlots__(int n, Term *ts USES_REGS) {
yhandle_t old_slots = LOCAL_CurSlot;
int i;
ensure_slots(n PASS_REGS);
for (i = 0; i < n; i++)
LOCAL_SlotBase[old_slots + i] = ts[i];
LOCAL_CurSlot += n;
return old_slots;
}
#define Yap_RecoverSlots(n, ts) Yap_RecoverSlots__(n, ts PASS_REGS)
/// @brief Succeeds if it is to recover the space allocated for $n$ contiguos
/// slots starting at topSlot.
static inline bool Yap_RecoverSlots__(int n, yhandle_t topSlot USES_REGS);
static inline bool Yap_RecoverSlots__(int n, yhandle_t topSlot USES_REGS) {
if (topSlot + n < LOCAL_CurSlot)
return false;
#ifdef DEBUG
if (n > LOCAL_CurSlot) {
Yap_Error(SYSTEM_ERROR_INTERNAL, 0,
"Inconsistent slot state in Yap_RecoverSlots.", 0);
return false;
}
#endif
LOCAL_CurSlot -= n;
//fprintf(stderr,"RS %ld %s:%d\n", LOCAL_CurSlot, __FILE__, __LINE__);
return true;
}
#endif