/* C O D E G E N E R A T I O N R O U T I N E S */
#include <stdlib.h>
#include <string.h>
#include "parameters.h"
#include "debug.h"
#include <assert.h>
#include <em.h>
#include <em_reg.h>
#include <em_abs.h>
#include "LLlex.h"
#include "Lpars.h"
#include "def.h"
#include "desig.h"
#include "f_info.h"
#include "idf.h"
#include "main.h"
#include "misc.h"
#include "node.h"
#include "required.h"
#include "scope.h"
#include "type.h"
#include "code.h"
#include "tmpvar.h"
#include "typequiv.h"
#include "error.h"
int fp_used;
static void CodeUoper(register struct node *);
static void CodeBoper(register struct node *, /* the expression tree itself */
label);
static void CodeSet(register struct node *);
static void CodeEl(register struct node *, register struct type *);
static void CodePString(struct node *, struct type *);
/* General internal system API calls */
static void CodeStd(struct node *);
static void genrck(register struct type *);
static void RegisterMessages(register struct def *);
static void CodeConfDescr(register struct type *, register struct type *);
extern void call_ini(void);
static void CodeFil(void)
{
if (!options['L'])
C_fil_dlb((label ) 1, (arith) 0);
}
void routine_label(register struct def * df)
{
df->prc_label = ++data_label;
C_df_dlb(df->prc_label);
C_rom_scon(df->df_idf->id_text, (arith)(strlen(df->df_idf->id_text) + 1));
}
void RomString(register struct node *nd)
{
C_df_dlb(++data_label);
/* A string of the string_type is null-terminated. */
if (nd->nd_type == string_type)
C_rom_scon(nd->nd_STR, nd->nd_SLE + 1); /* with trailing '\0' */
else
C_rom_scon(nd->nd_STR, nd->nd_SLE); /* no trailing '\0' */
nd->nd_SLA = data_label;
}
void RomReal(register struct node *nd)
{
if (!nd->nd_RLA)
{
C_df_dlb(++data_label);
nd->nd_RLA = data_label;
C_rom_fcon(nd->nd_REL, nd->nd_type->tp_size);
}
}
void BssVar(void)
{
/* generate bss segments for global variables */
register struct def *df = GlobalScope->sc_def;
while (df)
{
if (df->df_kind == D_VARIABLE)
{
C_df_dnam(df->var_name);
/* ??? undefined value ??? */
C_bss_cst(df->df_type->tp_size, (arith) 0, 0);
}
df = df->df_nextinscope;
}
}
static arith CodeGtoDescr(register struct scope *sc)
{
/* Create code for goto descriptors
*/
register struct node *lb = sc->sc_lablist;
int first = 1;
while (lb)
{
if (lb->nd_def->lab_descr)
{
if (first)
{
/* create local for target SP */
sc->sc_off = -WA(pointer_size - sc->sc_off);
C_ms_gto();
first = 0;
}
C_df_dlb(lb->nd_def->lab_descr);
C_rom_ilb(lb->nd_def->lab_no);
C_rom_cst(sc->sc_off);
}
lb = lb->nd_next;
}
if (!first)
return sc->sc_off;
else
return (arith) 0;
}
arith CodeBeginBlock(register struct def *df)
{
/* Generate code at the beginning of the main program,
procedure or function.
*/
arith StackAdjustment = 0;
arith offset = 0; /* offset to save StackPointer */
TmpOpen(df->prc_vis->sc_scope);
if (df->df_kind == D_MODULE) /* nothing */
;
else if (df->df_kind == D_PROGRAM)
{
C_exp("_m_a_i_n");
C_pro_narg("_m_a_i_n");
C_ms_par((arith) 0);
offset = CodeGtoDescr(df->prc_vis->sc_scope);
CodeFil();
/* initialize external files */
call_ini();
/* ignore floating point underflow */C_lim();
C_loc((arith)(1 << EFUNFL));
C_ior(int_size);
C_sim();
}
else if (df->df_kind & (D_PROCEDURE | D_FUNCTION))
{
struct type *tp;
register struct paramlist *param;
C_pro_narg(df->prc_name);
C_ms_par(df->df_type->prc_nbpar);
offset = CodeGtoDescr(df->prc_vis->sc_scope);
CodeFil();
if (options['t'])
{
C_lae_dlb(df->prc_label, (arith) 0);
C_cal("procentry");
C_asp(pointer_size);
}
/* prc_bool is the local variable that indicates if the
* function result is assigned. This and can be disabled
* with the -R option. The variable, however, is always
* allocated and initialized.
*/
if (df->prc_res)
{
C_zer((arith) int_size);
C_stl(df->prc_bool);
}
for (param = ParamList(df->df_type) ; param; param = param->next)
{
if (!IsVarParam(param))
{
tp = TypeOfParam(param);
if (IsConformantArray(tp))
{
/* Here, we have to make a copy of the
array. We must also remember how much
room is reserved for copies, because
we have to adjust the stack pointer
before we return.
*/
if (!StackAdjustment)
{
/* First time we get here
*/
StackAdjustment = NewInt(0);
C_loc((arith) 0);
C_stl(StackAdjustment);
}
/* Address of array */
C_lol(param->par_def->var_off);
/* First compute size of the array */
C_lol(tp->arr_cfdescr + word_size);
C_inc();
/* gives number of elements */
C_lol(tp->arr_cfdescr + 2 * word_size);
/* size of elements */
C_mli(word_size);
C_loc(word_size - 1);
C_adi(word_size);
C_loc(word_size - 1);
C_com(word_size);
C_and(word_size);
C_dup(word_size);
C_lol(StackAdjustment);
C_adi(word_size);
C_stl(StackAdjustment);
/* remember stack adjustments */
C_los(word_size); /* copy */
C_lor((arith) 1);
/* push new address of array
... downwards ... ???
*/
C_stl(param->par_def->var_off);
}
}
}
}
else
{
crash("(CodeBeginBlock)");
/*NOTREACHED*/
}
if (offset)
{
/* save SP for non-local jump */
C_lor((arith) 1);
C_stl(offset);
}
return StackAdjustment;
}
void CodeEndBlock(register struct def *df, arith StackAdjustment)
{
if (df->df_kind == D_PROGRAM)
{
C_loc((arith) 0);
C_cal("_hlt");
}
else if (df->df_kind & (D_PROCEDURE | D_FUNCTION))
{
struct type *tp;
if (StackAdjustment)
{
/* remove copies of conformant arrays */
C_lol(StackAdjustment);
C_ass(word_size);
FreeInt(StackAdjustment);
}
if (!options['n'])
RegisterMessages(df->prc_vis->sc_scope->sc_def);
if (options['t'])
{
C_lae_dlb(df->prc_label, (arith) 0);
C_cal("procexit");
C_asp(pointer_size);
}
if ( (tp = ResultType(df->df_type)) )
{
if (!options['R'])
{
C_lin((arith) LineNumber);
C_lol(df->prc_bool);
C_cal("_nfa");
C_asp(word_size);
}
if (tp->tp_size == word_size)
C_lol(-tp->tp_size);
else if (tp->tp_size == 2 * word_size)
C_ldl(-tp->tp_size);
else
{
C_lal(-tp->tp_size);
C_loi(tp->tp_size);
}
C_ret(tp->tp_size);
}
else
C_ret((arith) 0);
}
else
{
crash("(CodeEndBlock)");
/*NOTREACHED*/
}
C_end(-df->prc_vis->sc_scope->sc_off);
TmpClose();
}
void CodeExpr(register struct node *nd, register struct desig *ds,
label true_label)
{
register struct type *tp = nd->nd_type;
if (tp->tp_fund == T_REAL)
fp_used = 1;
switch (nd->nd_class)
{
case Value:
switch (nd->nd_symb)
{
case INTEGER:
C_loc(nd->nd_INT);
break;
case REAL:
RomReal(nd);
C_lae_dlb(nd->nd_RLA, (arith) 0);
C_loi(tp->tp_size);
break;
case STRING:
if (tp->tp_fund == T_CHAR)
C_loc(nd->nd_INT);
else
C_lae_dlb(nd->nd_SLA, (arith) 0);
break;
case NIL:
C_zer(pointer_size);
break;
default:
crash("(CodeExpr Value)");
/*NOTREACHED*/
}
ds->dsg_kind = DSG_LOADED;
break;
case Uoper:
CodeUoper(nd);
ds->dsg_kind = DSG_LOADED;
break;
case Boper:
CodeBoper(nd, true_label);
ds->dsg_kind = DSG_LOADED;
true_label = NO_LABEL;
break;
case Set:
{
register arith *st = nd->nd_set;
register int i;
ds->dsg_kind = DSG_LOADED;
if (!st)
{
C_zer(tp->tp_size);
break;
}
for (i = tp->tp_size / word_size, st += i; i > 0; i--)
C_loc(*--st);
}
break;
case Xset:
CodeSet(nd);
ds->dsg_kind = DSG_LOADED;
break;
case Call:
CodeCall(nd);
ds->dsg_kind = DSG_LOADED;
break;
case NameOrCall:
{
/* actual procedure/function parameter */
struct node *left = nd->nd_left;
struct def *df = left->nd_def;
if (df->df_kind & D_ROUTINE)
{
int level = df->df_scope->sc_level;
if (level <= 0 || (df->df_flags & D_EXTERNAL))
C_zer(pointer_size);
else
C_lxl((arith)(proclevel - level));
C_lpi(df->prc_name);
ds->dsg_kind = DSG_LOADED;
break;
}
assert(df->df_kind == D_VARIABLE);
assert(df->df_type->tp_fund & T_ROUTINE);
CodeDesig(left, ds);
break;
}
case Arrow:
case Arrsel:
case Def:
case LinkDef:
CodeDesig(nd, ds);
break;
case Cast:
{
/* convert integer to real */
struct node *right = nd->nd_right;
CodePExpr(right);
Int2Real(right->nd_type->tp_size);
ds->dsg_kind = DSG_LOADED;
break;
}
case IntCoerc:
{
/* convert integer to long integer */
struct node *right = nd->nd_right;
CodePExpr(right);
Int2Long();
ds->dsg_kind = DSG_LOADED;
break;
}
case IntReduc:
{
/* convert a long to an integer */
struct node *right = nd->nd_right;
CodePExpr(right);
Long2Int();
ds->dsg_kind = DSG_LOADED;
break;
}
default:
crash("(CodeExpr : bad node type)");
/*NOTREACHED*/
} /* switch class */
if (true_label)
{
/* Only for boolean expressions
*/
CodeValue(ds, tp);
C_zeq(true_label);
}
}
static void CodeUoper(register struct node *nd)
{
register struct type *tp = nd->nd_type;
CodePExpr(nd->nd_right);
switch (nd->nd_symb)
{
case '-':
assert(tp->tp_fund & T_NUMERIC);
if (tp->tp_fund == T_INTEGER || tp->tp_fund == T_LONG)
C_ngi(tp->tp_size);
else
C_ngf(tp->tp_size);
break;
case NOT:
C_teq();
break;
case '(':
break;
default:
crash("(CodeUoper)");
/*NOTREACHED*/
}
}
/* truthvalue() serves as an auxiliary function of CodeBoper */
static void truthvalue(int relop)
{
switch (relop)
{
case '<':
C_tlt();
break;
case LESSEQUAL:
C_tle();
break;
case '>':
C_tgt();
break;
case GREATEREQUAL:
C_tge();
break;
case '=':
C_teq();
break;
case NOTEQUAL:
C_tne();
break;
default:
crash("(truthvalue)");
/*NOTREACHED*/
}
}
static void Operands(register struct node *leftop, register struct node *rightop)
{
CodePExpr(leftop);
CodePExpr(rightop);
}
static void CodeBoper(register struct node *expr, /* the expression tree itself */
label true_label) /* label to jump to in logical exprs */
{
register struct node *leftop = expr->nd_left;
register struct node *rightop = expr->nd_right;
register struct type *tp = expr->nd_type;
switch (expr->nd_symb)
{
case '+':
Operands(leftop, rightop);
switch (tp->tp_fund)
{
case T_INTEGER:
case T_LONG:
C_adi(tp->tp_size);
break;
case T_REAL:
C_adf(tp->tp_size);
break;
case T_SET:
C_ior(tp->tp_size);
break;
default:
crash("(CodeBoper: bad type +)");
}
break;
case '-':
Operands(leftop, rightop);
switch (tp->tp_fund)
{
case T_INTEGER:
case T_LONG:
C_sbi(tp->tp_size);
break;
case T_REAL:
C_sbf(tp->tp_size);
break;
case T_SET:
C_com(tp->tp_size);
C_and(tp->tp_size);
break;
default:
crash("(CodeBoper: bad type -)");
}
break;
case '*':
Operands(leftop, rightop);
switch (tp->tp_fund)
{
case T_INTEGER:
case T_LONG:
C_mli(tp->tp_size);
break;
case T_REAL:
C_mlf(tp->tp_size);
break;
case T_SET:
C_and(tp->tp_size);
break;
default:
crash("(CodeBoper: bad type *)");
}
break;
case '/':
Operands(leftop, rightop);
if (tp->tp_fund == T_REAL)
C_dvf(tp->tp_size);
else
crash("(CodeBoper: bad type /)");
break;
case DIV:
case MOD:
Operands(leftop, rightop);
if (tp->tp_fund == T_INTEGER)
{
C_cal(expr->nd_symb == MOD ? "_mdi" : "_dvi");
C_asp(2 * tp->tp_size);
C_lfr(tp->tp_size);
}
else if (tp->tp_fund == T_LONG)
{
C_cal(expr->nd_symb == MOD ? "_mdil" : "_dvil");
C_asp(2 * tp->tp_size);
C_lfr(tp->tp_size);
}
else
crash("(CodeBoper: bad type MOD)");
break;
case '<':
case LESSEQUAL:
case '>':
case GREATEREQUAL:
case '=':
case NOTEQUAL:
CodePExpr(leftop);
CodePExpr(rightop);
tp = BaseType(rightop->nd_type);
switch (tp->tp_fund)
{
case T_INTEGER:
case T_LONG:
C_cmi(tp->tp_size);
break;
case T_REAL:
C_cmf(tp->tp_size);
break;
case T_ENUMERATION:
case T_CHAR:
C_cmu(word_size);
break;
case T_POINTER:
C_cmp();
break;
case T_SET:
if (expr->nd_symb == GREATEREQUAL)
{
/* A >= B is the same as A equals A + B
*/
C_dup(2 * tp->tp_size);
C_asp(tp->tp_size);
C_ior(tp->tp_size);
expr->nd_symb = '=';
}
else if (expr->nd_symb == LESSEQUAL)
{
/* A <= B is the same as A - B = []
*/
C_com(tp->tp_size);
C_and(tp->tp_size);
C_zer(tp->tp_size);
expr->nd_symb = '=';
}
C_cms(tp->tp_size);
break;
case T_STRINGCONST:
case T_ARRAY:
C_loc((arith) IsString(tp));
C_cal("_bcp");
C_asp(2 * pointer_size + word_size);
C_lfr(word_size);
break;
case T_STRING:
C_cmp();
break;
default:
crash("(CodeBoper : bad type COMPARE)");
}
truthvalue(expr->nd_symb);
if (true_label != NO_LABEL )
C_zeq(true_label);
break;
case IN:
/* In this case, evaluate right hand side first! The INN
instruction expects the bit number on top of the stack
*/
CodePExpr(rightop);
CodePExpr(leftop);
if (rightop->nd_type == emptyset_type)
C_and(rightop->nd_type->tp_size);
else
C_inn(rightop->nd_type->tp_size);
if (true_label != NO_LABEL )
C_zeq(true_label);
break;
case AND:
case OR:
Operands(leftop, rightop);
if (expr->nd_symb == AND)
C_and(tp->tp_size);
else
C_ior(tp->tp_size);
if (true_label != NO_LABEL )
C_zeq(true_label);
break;
default:
crash("(CodeBoper Bad operator %s\n)", symbol2str(expr->nd_symb));
}
}
static void CodeSet(register struct node *nd)
{
register struct type *tp = nd->nd_type;
C_zer(tp->tp_size);
nd = nd->nd_right;
while (nd)
{
assert(nd->nd_class == Link && nd->nd_symb == ',');
CodeEl(nd->nd_left, tp);
nd = nd->nd_right;
}
}
static void CodeEl(register struct node *nd, register struct type *tp)
{
if (nd->nd_class == Link && nd->nd_symb == UPTO)
{
Operands(nd->nd_left, nd->nd_right);
C_loc(tp->tp_size); /* push size */
C_cal("_bts"); /* library routine to fill set */
C_asp(3 * word_size);
}
else
{
CodePExpr(nd);
C_set(tp->tp_size);
C_ior(tp->tp_size);
}
}
static struct type * CodeParameters(struct paramlist *param, struct node *arg)
{
register struct type *tp, *left_tp, *last_tp = (struct type *) 0;
struct node *left;
struct desig ds;
assert(param && arg);
if (param->next)
last_tp = CodeParameters(param->next, arg->nd_right);
tp = TypeOfParam(param);
left = arg->nd_left;
left_tp = left->nd_type;
if (IsConformantArray(tp))
{
if (last_tp != tp)
/* push descriptors only once */
CodeConfDescr(tp, left_tp);
CodeDAddress(left);
return tp;
}
if (IsVarParam(param))
{
CodeDAddress(left);
return tp;
}
if (left_tp->tp_fund == T_STRINGCONST)
{
CodePString(left, tp);
return tp;
}
ds = InitDesig;
CodeExpr(left, &ds, NO_LABEL );
CodeValue(&ds, left_tp);
RangeCheck(tp, left_tp);
if (tp == real_type && BaseType(left_tp) == int_type)
Int2Real(int_size);
return tp;
}
static void CodeConfDescr(register struct type *ftp, register struct type *atp)
{
struct type *elemtp = ftp->arr_elem;
if (IsConformantArray(elemtp))
CodeConfDescr(elemtp, atp->arr_elem);
if (atp->tp_fund == T_STRINGCONST)
{
C_loc((arith) 1);
C_loc(atp->tp_psize - 1);
C_loc((arith) 1);
}
else if (IsConformantArray(atp))
{
if (atp->arr_sclevel < proclevel)
{
C_lxa((arith) proclevel - atp->arr_sclevel);
C_adp(atp->arr_cfdescr);
}
else
C_lal(atp->arr_cfdescr);
C_loi(3 * word_size);
}
else
{ /* normal array */
assert(atp->tp_fund == T_ARRAY);
assert(!IsConformantArray(atp));
C_lae_dlb(atp->arr_ardescr, (arith) 0);
C_loi(3 * word_size);
}
}
static void CodePString(struct node *nd, struct type *tp)
{
/* no null padding */
C_lae_dlb(nd->nd_SLA, (arith) 0);
C_loi(tp->tp_size);
}
void CodeCall(register struct node *nd)
{
/* Generate code for a procedure call. Checking of parameters
and result is already done.
*/
register struct node *left = nd->nd_left;
register struct node *right = nd->nd_right;
register struct def *df = left->nd_def;
register struct type *result_tp;
assert(IsProcCall(left));
if (left->nd_type == std_type)
{
CodeStd(nd);
return;
}
if (right)
(void) CodeParameters(ParamList(left->nd_type), right);
assert(left->nd_class == Def);
if (df->df_kind & D_ROUTINE)
{
int level = df->df_scope->sc_level;
if (level > 0 && !(df->df_flags & D_EXTERNAL))
C_lxl((arith)(proclevel - level));
C_cal(df->prc_name);
C_asp(left->nd_type->prc_nbpar);
}
else
{
label l1 = ++text_label;
label l2 = ++text_label;
assert(df->df_kind == D_VARIABLE);
/* Push value of procedure/function parameter */
CodePExpr(left);
/* Test if value is a global or local procedure/function */
C_exg(pointer_size);
C_dup(pointer_size);
C_zer(pointer_size);
C_cmp();
C_zeq(l1);
/* At this point, on top of the stack the LB */
C_exg(pointer_size);
/* Now, the name of the procedure/function */C_cai();
C_asp(pointer_size + left->nd_type->prc_nbpar);
C_bra(l2);
/* value is a global procedure/function */
C_df_ilb(l1);
C_asp(pointer_size); /* no LB needed */
C_cai();
C_asp(left->nd_type->prc_nbpar);
C_df_ilb(l2);
}
if ( (result_tp = ResultType(left->nd_type)) )
C_lfr(result_tp->tp_size);
}
static void CodeStd(struct node *nd)
{
register struct node *arg = nd->nd_right;
register struct node *left = arg->nd_left;
register struct type *tp = BaseType(left->nd_type);
int req = nd->nd_left->nd_def->df_value.df_reqname;
assert(arg->nd_class == Link && arg->nd_symb == ',');
switch (req)
{
case R_ABS:
CodePExpr(left);
if (tp == int_type)
C_cal("_abi");
else if (tp == long_type)
C_cal("_abl");
else
C_cal("_abr");
C_asp(tp->tp_size);
C_lfr(tp->tp_size);
break;
case R_SQR:
CodePExpr(left);
C_dup(tp->tp_size);
if (tp == int_type || tp == long_type)
C_mli(tp->tp_size);
else
C_mlf(real_size);
break;
case R_SIN:
case R_COS:
case R_EXP:
case R_LN:
case R_SQRT:
case R_ARCTAN:
assert(tp == real_type);
CodePExpr(left);
switch (req)
{
case R_SIN:
C_cal("_sin");
break;
case R_COS:
C_cal("_cos");
break;
case R_EXP:
C_cal("_exp");
break;
case R_LN:
C_cal("_log");
break;
case R_SQRT:
C_cal("_sqt");
break;
case R_ARCTAN:
C_cal("_atn");
break;
default:
crash("(CodeStd)");
/*NOTREACHED*/
}
C_asp(real_size);
C_lfr(real_size);
break;
case R_TRUNC:
assert(tp == real_type);
CodePExpr(left);
Real2Int();
break;
case R_ROUND:
assert(tp == real_type);
CodePExpr(left);
C_cal("_rnd");
C_asp(real_size);
C_lfr(real_size);
Real2Int();
break;
case R_ORD:
CodePExpr(left);
break;
case R_CHR:
CodePExpr(left);
genrck(char_type);
break;
case R_SUCC:
case R_PRED:
CodePExpr(left);
C_loc((arith) 1);
if (tp == long_type)
Int2Long();
if (req == R_SUCC)
C_adi(tp->tp_size);
else
C_sbi(tp->tp_size);
if (bounded(left->nd_type))
genrck(left->nd_type);
break;
case R_ODD:
CodePExpr(left);
C_loc((arith) 1);
if (tp == long_type)
Int2Long();
C_and(tp->tp_size);
if (tp == long_type)
Long2Int(); /* bool_size == int_size */
break;
case R_EOF:
case R_EOLN:
CodeDAddress(left);
if (req == R_EOF)
C_cal("_efl");
else
C_cal("_eln");
C_asp(pointer_size);
C_lfr(word_size);
break;
case R_REWRITE:
case R_RESET:
CodeDAddress(left);
if (tp == text_type)
C_loc((arith) 0);
else
C_loc(tp->next->tp_psize);
/* ??? elements of packed size ??? */
if (req == R_REWRITE)
C_cal("_cre");
else
C_cal("_opn");
C_asp(pointer_size + word_size);
break;
case R_PUT:
case R_GET:
CodeDAddress(left);
if (req == R_PUT)
C_cal("_put");
else
C_cal("_get");
C_asp(pointer_size);
break;
case R_PAGE:
CodeDAddress(left);
C_cal("_pag");
C_asp(pointer_size);
break;
case R_PACK:
{
label lba = tp->arr_ardescr;
CodeDAddress(left);
arg = arg->nd_right;
left = arg->nd_left;
CodePExpr(left);
arg = arg->nd_right;
left = arg->nd_left;
CodeDAddress(left);
C_lae_dlb(left->nd_type->arr_ardescr, (arith) 0);
C_lae_dlb(lba, (arith) 0);
C_cal("_pac");
C_asp(4 * pointer_size + word_size);
break;
}
case R_UNPACK:
{
/* change sequence of arguments of the library routine
_unp to merge code of R_PACK and R_UNPACK.
*/
label lba, lbz = tp->arr_ardescr;
tp = tp->arr_elem;
if (tp->tp_fund == T_SUBRANGE && tp->sub_lb >= 0)
{
C_loc((arith) 1);
}
else
C_loc((arith) 0);
CodeDAddress(left);
arg = arg->nd_right;
left = arg->nd_left;
CodeDAddress(left);
lba = left->nd_type->arr_ardescr;
arg = arg->nd_right;
left = arg->nd_left;
CodePExpr(left);
C_lae_dlb(lbz, (arith) 0);
C_lae_dlb(lba, (arith) 0);
C_cal("_unp");
C_asp(4 * pointer_size + 2 * word_size);
break;
}
case R_NEW:
case R_DISPOSE:
CodeDAddress(left);
C_loc(PointedtoType(tp)->tp_size);
if (req == R_NEW)
C_cal("_new");
else
C_cal("_dis");
C_asp(pointer_size + word_size);
break;
case R_HALT:
if (left)
CodePExpr(left);
else
C_zer(int_size);
C_cal("_hlt"); /* can't return */
C_asp(int_size); /* help the optimizer(s) */
break;
default:
crash("(CodeStd)");
/*NOTREACHED*/
}
}
void Long2Int(void)
{
/* convert a long to integer */
if (int_size == long_size)
return;
C_loc(long_size);
C_loc(int_size);
C_cii();
}
void Int2Long(void)
{
/* convert integer to long */
if (int_size == long_size)
return;
C_loc(int_size);
C_loc(long_size);
C_cii();
}
void Int2Real(arith size)
/* size is different for integers and longs */
{
/* convert integer to real */
C_loc(size);
C_loc(real_size);
C_cif();
}
void Real2Int(void)
{
/* convert real to integer */
C_loc(real_size);
C_loc(int_size);
C_cfi();
}
void RangeCheck(register struct type *tpl, register struct type *tpr)
{
/* Generate a range check if neccessary
*/
arith llo, lhi, rlo, rhi;
if (bounded(tpl))
{
/* in this case we might need a range check */
if (!bounded(tpr))
/* yes, we need one */
genrck(tpl);
else
{
/* both types are restricted. check the bounds to see
whether we need a range check. We don't need one
if the range of values of the right hand side is a
subset of the range of values of the left hand side.
*/
getbounds(tpl, &llo, &lhi);
getbounds(tpr, &rlo, &rhi);
if (llo > rlo || lhi < rhi)
genrck(tpl);
}
}
}
static void genrck(register struct type *tp)
{
/* Generate a range check descriptor for type "tp" when
necessary. Return its label.
*/
arith lb, ub;
register label o1;
int newlabel = 0;
if (options['R'])
return;
getbounds(tp, &lb, &ub);
if (tp->tp_fund == T_SUBRANGE)
{
if (!(o1 = tp->sub_rck))
{
tp->sub_rck = o1 = ++data_label;
newlabel = 1;
}
}
else if (!(o1 = tp->enm_rck))
{
tp->enm_rck = o1 = ++data_label;
newlabel = 1;
}
if (newlabel)
{
C_df_dlb(o1);
C_rom_cst(lb);
C_rom_cst(ub);
}
C_lae_dlb(o1, (arith) 0);
C_rck(word_size);
}
void CodePExpr(register struct node *nd)
{
/* Generate code to push the value of the expression "nd"
on the stack.
*/
struct desig designator;
struct type *tp = BaseType(nd->nd_type);
designator = InitDesig;
CodeExpr(nd, &designator, NO_LABEL );
if (tp->tp_fund & (T_ARRAY | T_RECORD))
CodeAddress(&designator);
else
CodeValue(&designator, nd->nd_type);
}
void CodeDAddress(struct node *nd)
{
/* Generate code to push the address of the designator "nd"
on the stack.
*/
struct desig designator;
designator = InitDesig;
CodeDesig(nd, &designator);
CodeAddress(&designator);
}
void CodeDStore(register struct node *nd)
{
/* Generate code to store the expression on the stack
into the designator "nd".
*/
struct desig designator;
designator = InitDesig;
CodeDesig(nd, &designator);
CodeStore(&designator, nd->nd_type);
}
static void RegisterMessages(register struct def *df)
{
register struct type *tp;
for (; df; df = df->df_nextinscope)
{
if (df->df_kind == D_VARIABLE && !(df->df_flags & D_NOREG))
{
/* Examine type and size
*/
tp = BaseType(df->df_type);
if (df->df_flags & D_VARPAR || tp->tp_fund & T_POINTER)
C_ms_reg(df->var_off, pointer_size, reg_pointer, 0);
else if (df->df_flags & D_LOOPVAR)
C_ms_reg(df->var_off, tp->tp_size, reg_loop, 2);
else if (tp->tp_fund & T_NUMERIC)
C_ms_reg(df->var_off, tp->tp_size,
tp->tp_fund == T_REAL ? reg_float : reg_any, 0);
}
}
}