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yap-6.3/BEAM/eamamasm.c
2015-11-05 15:04:12 +00:00

589 lines
14 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: abstract machine assembler *
*************************************************************************/
#ifdef BEAM
#include "Yap.h"
#include "compile.h"
#include "clause.h"
#include "eam.h"
#include "eamamasm.h"
#include <stdio.h>
#include <stdlib.h>
Cell *inst_code;
int pass=0;
Cell *labels[1000];
Cell *Code_Start;
Cell Area_Code[200000];
Cell area_code=0;
extern Cell inst_am(int n);
void emit_inst(long int i);
void emit_par(long int i);
void emit_upar(Cell i);
Cell *get_addr(void);
int Is_X_Var(Ventry *ve);
int Is_P_Var(Ventry *ve);
int X_Var(Ventry *ve);
int Y_Var(Ventry *ve);
void eam_pass(CInstr *ppc);
Cell *eam_assemble(CInstr *code);
int next_not_nop_inst(CInstr *ppc);
extern void *alloc_mem(Cell);
void emit_inst(long int i)
{
if (pass) *inst_code=inst_am(i);
inst_code++;
}
void emit_par(long int i)
{
if (pass) *inst_code=i;
inst_code++;
}
void emit_upar(Cell i)
{
if (pass) *inst_code=i;
inst_code++;
}
Cell *get_addr(void)
{
return(inst_code);
}
int Is_P_Var(Ventry *ve)
{
if (ve->FirstOfVE>0) return (1); /* var aparece pela primeira no corpo da clausula */
return(0);
}
int Is_X_Var(Ventry *ve)
{
if (ve->KindOfVE == PermVar) return(0);
if (ve->KindOfVE == VoidVar) return(0);
return(1);
}
int X_Var(Ventry *ve)
{
int var;
if (ve->KindOfVE == PermVar || ve->KindOfVE == VoidVar ) {
printf("Erro no tipo de variavel X ->eamamas.c \n");
exit(1);
}
var = ((ve->NoOfVE) & MaskVarAdrs);
return (var);
}
extern int nperm;
int Y_Var(Ventry *ve)
{
int var;
if (ve->KindOfVE != PermVar) {
printf("Erro no tipo de variavel Y ->eamamas.c \n");
exit(1);
}
var = ((ve->NoOfVE) & MaskVarAdrs);
return (var);
}
int next_not_nop_inst(CInstr *ppc) {
while(ppc) {
if ((int) ppc->op!=nop_op) return ((int) ppc->op);
ppc = ppc->nextInst;
}
return exit_op;
}
void eam_pass(CInstr *ppc)
{
int alloc_found=0;
int body=0;
while (ppc) {
switch ((int) ppc->op) {
case get_var_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_get_var_X_op);
emit_par(ppc->new1);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_get_var_Y_op);
emit_par(ppc->new1);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case get_val_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_get_val_X_op);
emit_par(ppc->new1);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_get_val_Y_op);
emit_par(ppc->new1);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case get_num_op:
case get_atom_op:
emit_inst(_get_atom_op);
emit_par(ppc->new1);
emit_par(ppc->new4);
break;
case get_list_op:
emit_inst(_get_list_op);
emit_par(ppc->new1);
break;
case get_struct_op:
emit_inst(_get_struct_op);
emit_par(ppc->new1);
emit_par(ppc->new4);
emit_par(ArityOfFunctor((Functor ) ppc->new4));
break;
case unify_last_local_op:
case unify_local_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_unify_local_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_unify_local_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case unify_last_val_op:
case unify_val_op:
if (((Ventry *)(ppc->new4))->KindOfVE!=VoidVar) {
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_unify_val_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_unify_val_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
} else { emit_inst(_unify_void_op); }
break;
case unify_last_var_op:
case unify_var_op:
if (((Ventry *)(ppc->new4))->KindOfVE!=VoidVar) {
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_unify_var_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_unify_var_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
} else { emit_inst(_unify_void_op); }
break;
case unify_last_atom_op:
case unify_last_num_op:
emit_inst(_unify_last_atom_op);
emit_par(ppc->new4);
break;
case unify_num_op:
case unify_atom_op:
emit_inst(_unify_atom_op);
emit_par(ppc->new4);
break;
case unify_list_op:
emit_inst(_unify_list_op);
break;
case unify_last_list_op:
emit_inst(_unify_last_list_op);
break;
case unify_struct_op:
emit_inst(_unify_struct_op);
emit_par(ppc->new4);
emit_par(ArityOfFunctor((Functor )ppc->new4));
break;
case unify_last_struct_op:
emit_inst(_unify_last_struct_op);
emit_par(ppc->new4);
emit_par(ArityOfFunctor((Functor )ppc->new4));
break;
case put_unsafe_op:
/*
printf("Got a put_unsafe...\n");
emit_inst(_put_unsafe_op);
emit_par(ppc->new1);
emit_par(Y_Var((Ventry *) ppc->new4));
break;
*/
case put_val_op:
/*
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_put_val_X_op);
emit_par(ppc->new1);
emit_par(X_Var((Ventry *) ppc->new4));
break;
} else {
emit_inst(_put_val_Y_op);
emit_par(ppc->new1);
emit_par(Y_Var((Ventry *) ppc->new4));
break;
}
*/
case put_var_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_put_var_X_op);
emit_par(ppc->new1);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
if (Is_P_Var((Ventry *) ppc->new4)) emit_inst(_put_var_P_op);
else emit_inst(_put_var_Y_op);
emit_par(ppc->new1);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case put_num_op:
case put_atom_op:
emit_inst(_put_atom_op);
emit_par(ppc->new1);
emit_par(ppc->new4);
break;
case put_list_op:
emit_inst(_put_list_op);
emit_par(ppc->new1);
break;
case put_struct_op:
emit_inst(_put_struct_op);
emit_par(ppc->new1);
emit_par(ppc->new4);
emit_par(ArityOfFunctor((Functor )ppc->new4));
break;
case write_local_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_write_local_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_write_local_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case write_val_op:
if (((Ventry *)(ppc->new4))->KindOfVE!=VoidVar) {
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_write_val_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_write_val_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
} else emit_inst(_write_void);
break;
case write_var_op:
if (((Ventry *)(ppc->new4))->KindOfVE!=VoidVar) {
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_write_var_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
if (Is_P_Var((Ventry *) ppc->new4)) emit_inst(_write_var_P_op);
else emit_inst(_write_var_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
} else emit_inst(_write_void);
break;
case write_num_op:
case write_atom_op:
emit_inst(_write_atom_op);
emit_par(ppc->new4);
break;
case write_list_op:
emit_inst(_write_list_op);
break;
case write_last_list_op:
emit_inst(_write_last_list_op);
break;
case write_struct_op:
emit_inst(_write_struct_op);
emit_par(ppc->new4);
emit_par(ArityOfFunctor((Functor )ppc->new4));
break;
case write_last_struct_op:
emit_inst(_write_last_struct_op);
emit_par(ppc->new4);
emit_par(ArityOfFunctor((Functor )ppc->new4));
break;
case fail_op:
emit_inst(_fail_op);
break;
case cutexit_op:
printf("cutexit \n");
exit(1);
break;
case cut_op:
emit_inst(_cut_op);
break;
case commit_op:
emit_inst(_commit_op);
break;
case procceed_op:
emit_inst(_proceed_op);
break;
case pop_op:
emit_inst(_pop_op);
emit_par(ppc->new4);
break;
case save_b_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_save_b_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_save_b_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case save_pair_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_save_pair_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_save_pair_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case save_appl_op:
if (Is_X_Var((Ventry *) ppc->new4)) {
emit_inst(_save_appl_X_op);
emit_par(X_Var((Ventry *) ppc->new4));
} else {
emit_inst(_save_appl_Y_op);
emit_par(Y_Var((Ventry *) ppc->new4));
}
break;
case std_base_op:
emit_inst(_std_base+ppc->new4);
break;
case safe_call_op:
if (ppc->new1==1) {
emit_inst(_safe_call_unary_op);
} else if (ppc->new1==2) {
emit_inst(_safe_call_binary_op);
} else {
emit_inst(_safe_call_op);
}
emit_par(ppc->new4);
break;
case direct_safe_call_op:
if (ppc->new1==1) {
emit_inst(_direct_safe_call_unary_op);
} else if (ppc->new1==2) {
emit_inst(_direct_safe_call_binary_op);
} else {
emit_inst(_direct_safe_call_op);
}
emit_par(ppc->new4);
break;
case call_op:
emit_inst(_call_op);
emit_par(ppc->new4);
break;
case skip_while_var_op:
emit_inst(_skip_while_var);
break;
case wait_while_var_op:
emit_inst(_wait_while_var);
break;
case force_wait_op:
emit_inst(_force_wait);
break;
case write_op:
if (ppc->new1=='\n') {
static Atom a=NULL;
if (a==NULL) a=Yap_LookupAtom("\n");
emit_inst(_put_atom_op);
emit_par(1);
emit_par((Cell) MkAtomTerm(a));
}
emit_inst(_write_call);
break;
case is_op:
emit_inst(_is_call);
break;
case equal_op:
emit_inst(_equal_call);
break;
case either_op:
emit_inst(_either_op);
emit_par(ppc->new1);
emit_upar((Cell) Code_Start+ (Cell) labels[ppc->new4]);
break;
case orelse_op:
emit_inst(_orelse_op);
emit_upar((Cell) Code_Start+ (Cell) labels[ppc->new4]);
break;
case orlast_op:
emit_inst(_orlast_op);
break;
case create_first_box_op:
case create_box_op:
case create_last_box_op:
emit_upar((Cell) Code_Start+ (Cell) labels[ppc->new4]);
alloc_found=1;
break;
case remove_box_op:
case remove_last_box_op:
break;
case jump_op:
emit_inst(_jump_op);
emit_upar((Cell) Code_Start+ (Cell) labels[ppc->new4]);
break;
case label_op:
if (pass==0) labels[ppc->new4] = get_addr();
break;
case run_op:
/* se ficar vazio, retirar no eam_am.c o +5 das linhas pc=clause->code+5 no only_1_clause e no call */
emit_inst(_try_me_op);
emit_par(0);
emit_par(0);
emit_par(0);
emit_par(0);
break;
case only_1_clause_op:
emit_inst(_only_1_clause_op);
emit_par(ppc->new4);
emit_par(((struct Clauses *)ppc->new4)->predi->arity);
emit_par(((struct Clauses *)ppc->new4)->nr_vars);
emit_par(0); /* Nr da alternativa */
break;
case try_me_op:
emit_inst(_try_me_op);
emit_par(ppc->new4);
emit_par(((struct Clauses *)ppc->new4)->predi->arity);
emit_par(((struct Clauses *)ppc->new4)->nr_vars);
emit_par(0); /* Nr da alternativa */
break;
case retry_me_op:
emit_inst(_retry_me_op);
emit_par(ppc->new4);
emit_par(((struct Clauses *)ppc->new4)->predi->arity);
emit_par(((struct Clauses *)ppc->new4)->nr_vars);
emit_par(ppc->new1);
break;
case trust_me_op:
emit_inst(_trust_me_op);
emit_par(ppc->new4);
emit_par(((struct Clauses *)ppc->new4)->predi->arity);
emit_par(((struct Clauses *)ppc->new4)->nr_vars);
emit_par(ppc->new1);
break;
case body_op:
if (next_not_nop_inst(ppc->nextInst)==procceed_op) {
//emit_inst(_proceed_op);
break;
} else if (next_not_nop_inst(ppc->nextInst)==fail_op) {
//emit_inst(_fail_op);
break;
}
if (ppc->new4!=0) {
emit_inst(_prepare_calls);
emit_par(ppc->new4); /* nr_calls */
}
body=1;
break;
case prepare_tries:
emit_inst(_prepare_tries);
emit_par(ppc->new1);
emit_par(ppc->new4);
break;
case exit_op:
emit_inst(_exit_eam);
break;
case mark_initialized_pvars_op:
break;
case fetch_args_for_bccall:
case bccall_op:
printf("[ Fatal Error: fetch and bccall instructions not supported ]\n");
exit(1);
break;
case endgoal_op:
case nop_op:
case name_op:
break;
default:
if (pass) {
printf("[ Sorry, there is at least one unsupported instruction in your code... %3d] %d\n",ppc->op,exit_op);
printf("[ please note that beam still does not support a lot of builtins ]\n");
}
emit_inst(_fail_op);
}
ppc = ppc->nextInst;
}
emit_inst(_exit_eam);
emit_par(-1);
}
Cell *eam_assemble(CInstr *code)
{
Code_Start=0;
pass=0;
inst_code=0;
eam_pass(code);
pass=1;
Code_Start=alloc_mem((Cell) inst_code);
inst_code=Code_Start;
eam_pass(code);
return(Code_Start);
}
#endif /* BEAM */