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yap-6.3/BEAM/eam.h
2009-02-16 12:33:37 +00:00

296 lines
11 KiB
C

/*************************************************************************
* *
* BEAM -> Basic Extended Andorra Model *
* BEAM extends the YAP Prolog system to support the EAM *
* *
* Copyright: Ricardo Lopes and NCC - University of Porto, Portugal *
* *
**************************************************************************
* comments: eam compiler data structures and routines *
*************************************************************************/
#define Print_Code 0
/* To help on compiler debuging
1 -> show predicates info
2 -> show YAP abstract machine code (YAAM)
4 -> show YAAM after transformation
8 -> show indexing code
16 -> show EAM intermediate code
32 -> show EAM intermediate code with direct_calls
128 -> show EAM abstrac machine code
*/
#define Variavel 1
#define Lista 2
#define Estrutura 4
#define Constante 8
typedef unsigned long Cell;
typedef struct PCODE{
struct PCODE *nextInst;
int op, new1;
unsigned long new4;
} CInstr;
struct Clauses {
unsigned int idx; /* info for indexing on first arg */
Cell val; /* atom or functor in first arg */
unsigned int nr_vars; /* nr of local vars */
struct Predicates *predi; /* predicate struct */
int side_effects; /* clause has side effects */
Cell *code;
struct Clauses *next; /* next clause within the same predicate */
};
struct HASH_TABLE {
Cell value;
Cell *code;
struct HASH_TABLE *next;
};
struct Predicates { /* To register information about predicates */
unsigned long id;
unsigned char *name;
unsigned int arity;
unsigned int nr_alt; /* nr of alternativas */
unsigned int calls; /* nr of existent calls to this predicate */
struct Clauses *first;
struct Clauses *last;
int idx; /* is code indexed ? 0= needs compilation -1= no indexing possible 1= indexed */
unsigned int idx_var; /* nr clauses with 1st argument var */
unsigned int idx_list; /* nr clauses with 1st argument list */
unsigned int idx_atom; /* nr clauses with 1st argument atom */
unsigned int idx_functor; /* nr clauses with 1st argument functor */
short int eager_split; /* allow eager splitting */
Cell *code; /* try, retry and trust code or Indexing code */
struct HASH_TABLE **atom;
struct HASH_TABLE **functor;
Cell *list;
Cell *vars;
struct Predicates *next;
};
/**************************** EAM TRUE STUFF *************/
struct SUSPENSIONS {
struct AND_BOX *and_box; /* And_box where the variable has suspended */
short int reason; /* suspended before executing call number nr_call */
struct SUSPENSIONS *next; /* Pointer to the next suspention */
struct SUSPENSIONS *prev;
};
struct SUSPENSIONS_VAR {
struct AND_BOX *and_box; /* And_box where the variable has suspended */
struct SUSPENSIONS_VAR *next; /* Pointer to the next suspention */
};
struct PERM_VAR {
Cell value; /* value assigned to the variable */
struct AND_BOX *home; /* pointer to the goal_box structure of the variable */
Cell *yapvar;
struct SUSPENSIONS_VAR *suspensions; /* Pointer to a Suspension List */
struct PERM_VAR *next;
};
struct EXTERNAL_VAR { /* to be used as some kind of trail */
Cell value; /* value assign to the variable */
struct PERM_VAR *var; /* pointer to the local_var struct */
struct EXTERNAL_VAR *next;
};
struct status_and {
struct OR_BOX *call; /* POINTER TO A OR_BOX */
Cell *locals; /* temporary vars vector */
Cell *code; /* Pointer to the start code */
int state; /* State of the OR_BOX */
struct status_and *previous;
struct status_and *next;
};
struct status_or {
struct AND_BOX *alternative; /* POINTER TO A AND_BOX */
Cell *args; /* Saved Arguments */
Cell *code; /* Pointer to Start Code */
int state; /* State of the AND_BOX */
struct status_or *previous;
struct status_or *next;
};
struct OR_BOX {
struct AND_BOX *parent;
struct status_and *nr_call; /* order of this box */
short int nr_all_alternatives; /* number of existing alternatives */
struct status_or *alternatives; /* alternatives of the or_box */
short int eager_split;
};
struct AND_BOX {
struct OR_BOX *parent; /* pointer to the parent or-box */
struct status_or *nr_alternative; /* This box is alternative id */
short int nr_all_calls; /* numger of all goals */
struct PERM_VAR *perms;
struct status_and *calls;
short int level; /* indicates the level in the tree */
struct EXTERNAL_VAR *externals; /* pointer to a list of external_vars */
struct SUSPENSIONS *suspended; /* pointer to a list of suspended boxes */
short int side_effects; /* to mark if are calls to builtins with side_efects (like write) */
};
/* TYPE OF STATES */
#define ZERO 0 /* No State yet */
#define SUCCESS 1
#define FAILS 2
#define READY 4 /* Is ready to start execution */
#define RUNNING 8 /* Is running */
#define RUNAGAIN 16 /* Is running again */
#define SUSPEND 32 /* Has suspended */
#define WAKE 64 /* Was Suspended, but now is Ready again */
#define CHANGED 128 /* Has received some change on it's external variables, needs to re-run */
#define END 256 /* Has suspended on end, on wake up can pass to a success state */
#define WAITING 512 /* The clause is waiting for the previous predicates to leave the Suspended state */
#define FAILED 1024 /* has failed */
#define CUT_RIGHT 2048
#define SKIP_VAR 4096
#define LEFTMOST_PARENT 8192
#define FIRST 16384
#define LEFTMOST 32768
#define WAITING_TO_BE_FIRST (WAITING + FIRST)
#define WAITING_TO_BE_LEFTMOST (WAITING + LEFTMOST)
#define WAITING_TO_BE_LEFTMOST_PARENT (WAITING + LEFTMOST_PARENT)
#define WAITING_TO_CUT (WAITING + CUT_RIGHT)
#define WAITING_SKIP_VAR (WAITING + SKIP_VAR)
#define SUSPEND_END (SUSPEND+END)
#define WAKE_END (WAKE+END)
#define NORMAL_SUSPENSION 0
#define LEFTMOST_SUSPENSION 1
#define WAIT_SUSPENSION 2
#define CUT_SUSPENSION 3
#define WRITE_SUSPENSION 4
#define VAR_SUSPENSION 5
#define YAP_VAR_SUSPENSION 6
/* TYPE OF SIDE_EFFECTS */
#define WRITE 1
#define COMMIT 2
#define VAR 4
#define SEQUENCIAL 8
#define CUT 32 /* Greater than 32 always cut */
/**********************************************************************************/
struct EAM_TEMP {
struct EAM_TEMP *previous;
struct EAM_TEMP *next;
};
struct EAM_Global {
Cell *pc;
Cell *_H;
Cell *_S;
short _Mode; /* read or write mode */
short ES; /* goal shoud do Eager Split yes or no ? */
short MemGoing; /* Direction the that stacks use to grow */
Cell *varlocals; /* local vars to the working AND-BOX */
struct AND_BOX *ABX; /* working AND-BOX */
struct OR_BOX *OBX; /* working OR-BOX */
struct SUSPENSIONS *su; /* list with suspended work */
struct AND_BOX *top;
struct status_and *USE_SAME_ANDBOX; /* when only 1 alternative */
struct status_or *nr_alternative; /* working alternative */
struct status_and *nr_call; /* working goal */
Cell *VAR_TRAIL;
int VAR_TRAIL_NR;
int Mem_FULL; /* if mem_full, then perform GC */
int nr_call_forking; /* number of splits already performed */
unsigned long START_ADDR_HEAP, START_ADDR_BOXES, END_BOX, END_H;
unsigned int nr_gc_heap;
unsigned int nr_gc_boxed;
Cell **IndexFree;
Cell *NextFree;
Cell *sp;
struct PERM_VAR *NextVar;
#if Memory_Stat
unsigned long TOTAL_MEM, MEM_REUSED, TOTAL_TEMPS,TEMPS_REUSED, TOTAL_PERMS, PERMS_REUSED;
unsigned long Memory_STAT[5000][5];
#endif
};
#define beam_X XREGS /* use the same X-Regs as YAP */
#define beam_pc (eamGlobal->pc)
#define beam_H (eamGlobal->_H)
#define beam_S (eamGlobal->_S)
#define beam_Mode (eamGlobal->_Mode)
#define beam_ES (eamGlobal->ES)
#define beam_MemGoing (eamGlobal->MemGoing)
#define beam_varlocals (eamGlobal->varlocals)
#define beam_ABX (eamGlobal->ABX)
#define beam_OBX (eamGlobal->OBX)
#define beam_su (eamGlobal->su)
#define beam_top (eamGlobal->top)
#define beam_USE_SAME_ANDBOX (eamGlobal->USE_SAME_ANDBOX)
#define beam_nr_alternative (eamGlobal->nr_alternative)
#define beam_nr_call (eamGlobal->nr_call)
#define beam_VAR_TRAIL (eamGlobal->VAR_TRAIL)
#define beam_VAR_TRAIL_NR (eamGlobal->VAR_TRAIL_NR)
#define beam_Mem_FULL (eamGlobal->Mem_FULL)
#define beam_nr_call_forking (eamGlobal->nr_call_forking)
#define beam_START_ADDR_HEAP (eamGlobal->START_ADDR_HEAP)
#define beam_START_ADDR_BOXES (eamGlobal->START_ADDR_BOXES)
#define beam_END_BOX (eamGlobal->END_BOX)
#define beam_END_H (eamGlobal->END_H)
#define beam_nr_gc_heap (eamGlobal->nr_gc_heap)
#define beam_nr_gc_boxed (eamGlobal->nr_gc_boxed)
#define beam_IndexFree (eamGlobal->IndexFree)
#define beam_NextFree (eamGlobal->NextFree)
#define beam_sp (eamGlobal->sp)
#define beam_NextVar (eamGlobal->NextVar)
#if Memory_Stat
#define beam_TOTAL_MEM (eamGlobal->TOTAL_MEM)
#define beam_MEM_REUSED (eamGlobal->MEM_REUSED)
#define beam_TOTAL_TEMPS (eamGlobal->TOTAL_TEMPS)
#define beam_TEMPS_REUSED (eamGlobal->TEMPS_REUSED)
#define beam_TOTAL_PERMS (eamGlobal->TOTAL_PERMS)
#define beam_PERMS_REUSED (eamGlobal->PERMS_REUSED)
#define beam_Memory_STAT (eamGlobal->Memory_STAT)
#endif
#define arg1 *(beam_pc+1)
#define arg2 *(beam_pc+2)
#define arg3 *(beam_pc+3)
#define arg4 *(beam_pc+4)
#define CELL_SIZE (sizeof(Cell))
#define POINTER_SIZE (sizeof(Cell *))
#define ANDBOX_SIZE (sizeof(struct AND_BOX))
#define ORBOX_SIZE (sizeof(struct OR_BOX))
#define PERM_VAR_SIZE (sizeof(struct PERM_VAR))
#define EXTERNAL_VAR_SIZE (sizeof(struct EXTERNAL_VAR))
#define SUSPENSIONS_SIZE (sizeof(struct SUSPENSIONS))
#define SUSPENSIONS_VAR_SIZE (sizeof(struct SUSPENSIONS_VAR))
#define STATUS_AND_SIZE (sizeof(struct status_and))
#define STATUS_OR_SIZE (sizeof(struct status_or))