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parser_util.c
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parser_util.c
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/*
* parser_util.c
*
* Intermediate Code Compiler for Parrot.
*
* Copyright (C) 2002 Melvin Smith <melvin.smith@mindspring.com>
* Copyright (C) 2002-2009, Parrot Foundation.
*
* parser support functions
*
*
*/
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#define _PARSER
#include "imc.h"
#include "parrot/dynext.h"
#include "pmc/pmc_sub.h"
#include "pmc/pmc_callcontext.h"
#include "pbc.h"
#include "parser.h"
#include "optimizer.h"
/*
=head1 NAME
compilers/imcc/parser_util.c
=head1 DESCRIPTION
ParserUtil - Parser support functions.
=cut
*/
/* HEADERIZER HFILE: compilers/imcc/imc.h */
/* HEADERIZER BEGIN: static */
/* Don't modify between HEADERIZER BEGIN / HEADERIZER END. Your changes will be lost. */
PARROT_WARN_UNUSED_RESULT
static int change_op_arg_to_num(
ARGMOD(imc_info_t * imcc),
ARGMOD(IMC_Unit *unit),
ARGMOD(SymReg **r),
int num,
int emit)
__attribute__nonnull__(1)
__attribute__nonnull__(2)
__attribute__nonnull__(3)
FUNC_MODIFIES(* imcc)
FUNC_MODIFIES(*unit)
FUNC_MODIFIES(*r);
PARROT_WARN_UNUSED_RESULT
PARROT_CAN_RETURN_NULL
static op_info_t * try_find_op(
ARGMOD(imc_info_t * imcc),
ARGMOD(IMC_Unit *unit),
ARGIN(const char *name),
ARGMOD(SymReg **r),
int n,
int keyvec,
int emit)
__attribute__nonnull__(1)
__attribute__nonnull__(2)
__attribute__nonnull__(3)
__attribute__nonnull__(4)
FUNC_MODIFIES(* imcc)
FUNC_MODIFIES(*unit)
FUNC_MODIFIES(*r);
PARROT_WARN_UNUSED_RESULT
PARROT_CAN_RETURN_NULL
static const char * try_rev_cmp(ARGIN(const char *name), ARGMOD(SymReg **r))
__attribute__nonnull__(1)
__attribute__nonnull__(2)
FUNC_MODIFIES(*r);
PARROT_MALLOC
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
static Instruction * var_arg_ins(
ARGMOD(imc_info_t * imcc),
ARGMOD(IMC_Unit *unit),
ARGIN(const char *name),
ARGMOD(SymReg **r),
int n,
int emit)
__attribute__nonnull__(1)
__attribute__nonnull__(2)
__attribute__nonnull__(3)
__attribute__nonnull__(4)
FUNC_MODIFIES(* imcc)
FUNC_MODIFIES(*unit)
FUNC_MODIFIES(*r);
#define ASSERT_ARGS_change_op_arg_to_num __attribute__unused__ int _ASSERT_ARGS_CHECK = (\
PARROT_ASSERT_ARG(imcc) \
, PARROT_ASSERT_ARG(unit) \
, PARROT_ASSERT_ARG(r))
#define ASSERT_ARGS_try_find_op __attribute__unused__ int _ASSERT_ARGS_CHECK = (\
PARROT_ASSERT_ARG(imcc) \
, PARROT_ASSERT_ARG(unit) \
, PARROT_ASSERT_ARG(name) \
, PARROT_ASSERT_ARG(r))
#define ASSERT_ARGS_try_rev_cmp __attribute__unused__ int _ASSERT_ARGS_CHECK = (\
PARROT_ASSERT_ARG(name) \
, PARROT_ASSERT_ARG(r))
#define ASSERT_ARGS_var_arg_ins __attribute__unused__ int _ASSERT_ARGS_CHECK = (\
PARROT_ASSERT_ARG(imcc) \
, PARROT_ASSERT_ARG(unit) \
, PARROT_ASSERT_ARG(name) \
, PARROT_ASSERT_ARG(r))
/* Don't modify between HEADERIZER BEGIN / HEADERIZER END. Your changes will be lost. */
/* HEADERIZER END: static */
/*
* used in -D20 to print files with the output of every PIR compilation
* this can't be attached to the imcc->interpreter or packfile because it has to be
* absolutely global to prevent the files from being overwritten.
*
*/
/*
=head2 Functions
=over
=item C<void op_fullname(char *dest, const char *name, SymReg * const *args, int
narg, int keyvec)>
Lookup the full opcode given the short name
set I0, 5 -> set_i_ic
set I0, I1 -> set_i_i
Obviously the registers must be examined before returning the correct
opcode.
=cut
*/
void
op_fullname(ARGOUT(char *dest), ARGIN(const char *name),
ARGIN(SymReg * const *args), int narg, int keyvec)
{
ASSERT_ARGS(op_fullname)
int i;
const size_t namelen = strlen(name);
memcpy(dest, name, namelen+1);
dest += namelen;
for (i = 0; i < narg && args[i]; i++) {
*dest++ = '_';
if (args[i]->type == VTADDRESS) {
*dest++ = 'i';
*dest++ = 'c';
continue;
}
/* if one ever wants num keys, they go with 'S' */
if (keyvec & KEY_BIT(i)) {
*dest++ = 'k';
if (args[i]->set=='S' || args[i]->set=='N' || args[i]->set=='K') {
*dest++ = 'c';
continue;
}
else if (args[i]->set == 'P')
continue;
}
if (args[i]->set == 'K')
*dest++ = 'p';
else
*dest++ = (char)tolower((unsigned char)args[i]->set);
if (args[i]->type & (VTCONST|VT_CONSTP)) {
*dest++ = 'c';
}
}
*dest = '\0';
}
/*
=item C<void check_op(imc_info_t * imcc, op_info_t **op_info, char *fullname,
const char *name, SymReg * const * r, int narg, int keyvec)>
Return opcode value for op name
=cut
*/
void
check_op(ARGMOD(imc_info_t * imcc), ARGOUT(op_info_t **op_info), ARGOUT(char *fullname),
ARGIN(const char *name), ARGIN(SymReg * const * r), int narg, int keyvec)
{
ASSERT_ARGS(check_op)
op_fullname(fullname, name, r, narg, keyvec);
*op_info = (op_info_t *)Parrot_hash_get(imcc->interp, imcc->interp->op_hash, fullname);
if (*op_info && !STREQ((*op_info)->full_name, fullname))
*op_info = NULL;
}
/*
=item C<int is_op(imc_info_t * imcc, const char *name)>
Is instruction a parrot opcode?
=cut
*/
PARROT_WARN_UNUSED_RESULT
int
is_op(ARGMOD(imc_info_t * imcc), ARGIN(const char *name))
{
ASSERT_ARGS(is_op)
return Parrot_hash_exists(imcc->interp, imcc->interp->op_hash, name);
}
/*
=item C<static Instruction * var_arg_ins(imc_info_t * imcc, IMC_Unit *unit,
const char *name, SymReg **r, int n, int emit)>
Create an C<Instruction> object for an instruction that takes a variable
number of arguments.
=cut
*/
PARROT_MALLOC
PARROT_CANNOT_RETURN_NULL
PARROT_WARN_UNUSED_RESULT
static Instruction *
var_arg_ins(ARGMOD(imc_info_t * imcc), ARGMOD(IMC_Unit *unit), ARGIN(const char *name),
ARGMOD(SymReg **r), int n, int emit)
{
ASSERT_ARGS(var_arg_ins)
op_info_t *op;
Instruction *ins;
char fullname[64];
/* in constant */
int dirs = 1;
/* XXX: Maybe the check for n == 0 is the only one required
* and the other must be assertions? */
if (n == 0 || r[0] == NULL || r[0]->name == NULL)
IMCC_fataly(imcc, EXCEPTION_SYNTAX_ERROR,
"The opcode '%s' needs arguments", name);
if (r[0]->set == 'S') {
r[0] = mk_const(imcc, r[0]->name, 'P');
r[0]->pmc_type = enum_class_FixedIntegerArray;
}
op_fullname(fullname, name, r, 1, 0);
op = (op_info_t *)Parrot_hash_get(imcc->interp, imcc->interp->op_hash, fullname);
PARROT_ASSERT(op && STREQ(op->full_name, fullname));
ins = _mk_instruction(name, "", n, r, dirs);
ins->op = op;
ins->opsize = n + 1;
if (emit)
emitb(imcc, unit, ins);
return ins;
}
/*
=item C<Instruction * INS(imc_info_t * imcc, IMC_Unit *unit, const char *name,
const char *fmt, SymReg **r, int n, int keyvec, int emit)>
Makes an instruction.
name ... op name
fmt ... optional format
regs ... SymReg **
n ... number of params
keyvec ... see KEY_BIT()
emit ... if true, append to instructions
see imc.c for usage
=cut
*/
PARROT_IGNORABLE_RESULT
PARROT_CAN_RETURN_NULL
Instruction *
INS(ARGMOD(imc_info_t * imcc), ARGMOD(IMC_Unit *unit), ARGIN(const char *name),
ARGIN_NULLOK(const char *fmt), ARGIN(SymReg **r), int n, int keyvec,
int emit)
{
ASSERT_ARGS(INS)
if (STREQ(name, ".annotate")) {
Instruction *ins = _mk_instruction(name, "", n, r, 0);
if (emit)
return emitb(imcc, unit, ins);
else
return ins;
}
if ((STREQ(name, "set_args"))
|| (STREQ(name, "get_results"))
|| (STREQ(name, "get_params"))
|| (STREQ(name, "set_returns")))
return var_arg_ins(imcc, unit, name, r, n, emit);
else {
Instruction *ins;
int i, len;
int dirs = 0;
op_info_t *op;
char fullname[64] = "", format[128] = "";
op_fullname(fullname, name, r, n, keyvec);
op = (op_info_t *)Parrot_hash_get(imcc->interp, imcc->interp->op_hash, fullname);
if (op && !STREQ(op->full_name, fullname))
op = NULL;
/* maybe we have a fullname */
if (!op) {
op = (op_info_t *)Parrot_hash_get(imcc->interp, imcc->interp->op_hash, name);
if (op && !STREQ(op->full_name, name))
op = NULL;
}
/* still wrong, try reverse compare */
if (!op) {
const char * const n_name = try_rev_cmp(name, r);
if (n_name) {
name = n_name;
op_fullname(fullname, name, r, n, keyvec);
op = (op_info_t *)Parrot_hash_get(imcc->interp, imcc->interp->op_hash, fullname);
if (op && !STREQ(op->full_name, fullname))
op = NULL;
}
}
/* still wrong, try to find an existing op */
if (!op)
op = try_find_op(imcc, unit, name, r, n, keyvec, emit);
if (!op) {
int ok = 0;
/* check mixed constants */
ins = IMCC_subst_constants_umix(imcc, unit, name, r, n + 1);
if (ins)
goto found_ins;
/* and finally multiple constants */
ins = IMCC_subst_constants(imcc, unit, name, r, n + 1, &ok);
if (ok) {
if (ins)
goto found_ins;
else
return NULL;
}
}
else
strcpy(fullname, name);
if (!op)
IMCC_fataly(imcc, EXCEPTION_SYNTAX_ERROR,
"The opcode '%s' (%s<%d>) was not found. "
"Check the type and number of the arguments",
fullname, name, n);
*format = '\0';
/* info->op_count is args + 1
* build instruction format
* set LV_in / out flags */
if (n != op->op_count - 1)
IMCC_fataly(imcc, EXCEPTION_SYNTAX_ERROR,
"arg count mismatch: op #%d '%s' needs %d given %d",
op, fullname, op->op_count-1, n);
/* XXX Speed up some by keep track of the end of format ourselves */
for (i = 0; i < n; i++) {
switch (op->dirs[i]) {
case PARROT_ARGDIR_INOUT:
dirs |= 1 << (16 + i);
/* go on */
case PARROT_ARGDIR_IN:
dirs |= 1 << i ;
break;
case PARROT_ARGDIR_OUT:
dirs |= 1 << (16 + i);
break;
default:
PARROT_ASSERT(0);
};
if (keyvec & KEY_BIT(i)) {
/* XXX Assert that len > 2 */
len = strlen(format) - 2;
PARROT_ASSERT(len >= 0);
format[len] = '\0';
strcat(format, "[%s], ");
}
else if (r[i]->set == 'K')
strcat(format, "[%s], ");
else
strcat(format, "%s, ");
}
len = strlen(format);
if (len >= 2)
len -= 2;
format[len] = '\0';
if (fmt && *fmt) {
strncpy(format, fmt, sizeof (format) - 1);
format[sizeof (format) - 1] = '\0';
}
IMCC_debug(imcc, DEBUG_PARSER, "%s %s\t%s\n", name, format, fullname);
/* make the instruction */
ins = _mk_instruction(name, format, n, r, dirs);
ins->keys |= keyvec;
/* fill in oplib's info */
ins->op = op;
ins->opsize = n + 1;
/* mark end as absolute branch */
if (STREQ(name, "end") || STREQ(name, "ret")) {
ins->type |= ITBRANCH | IF_goto;
}
else if (STREQ(name, "yield")) {
if (!imcc->cur_unit->instructions->symregs[0])
IMCC_fataly(imcc, EXCEPTION_SYNTAX_ERROR,
"Cannot yield from non-continuation\n");
imcc->cur_unit->instructions->symregs[0]->pcc_sub->yield = 1;
}
/* set up branch flags
* mark registers that are labels */
for (i = 0; i < op->op_count - 1; i++) {
if (op->labels[i])
ins->type |= ITBRANCH | (1 << i);
else {
if (r[i]->type == VTADDRESS)
IMCC_fataly(imcc, EXCEPTION_SYNTAX_ERROR,
"undefined identifier '%s'\n", r[i]->name);
}
}
if (op->jump) {
ins->type |= ITBRANCH;
/* TODO use opnum constants */
if (STREQ(name, "branch")
|| STREQ(name, "tailcall")
|| STREQ(name, "returncc"))
ins->type |= IF_goto;
else if (STREQ(fullname, "jump_i")
|| STREQ(fullname, "branch_i"))
imcc->dont_optimize = 1;
}
found_ins:
if (emit)
emitb(imcc, unit, ins);
return ins;
}
}
/*
=item C<static int change_op_arg_to_num(imc_info_t * imcc, IMC_Unit *unit,
SymReg **r, int num, int emit)>
Change one argument of an op to be numeric in stead of integral. Used when
integer argument op variants don't exist.
=cut
*/
PARROT_WARN_UNUSED_RESULT
static int
change_op_arg_to_num(ARGMOD(imc_info_t * imcc), ARGMOD(IMC_Unit *unit),
ARGMOD(SymReg **r), int num, int emit)
{
ASSERT_ARGS(change_op_arg_to_num)
int changed = 0;
if (r[num]->type & (VTCONST|VT_CONSTP)) {
/* make a number const */
const SymReg *c = r[num];
if (c->type & VT_CONSTP)
c = c->reg;
r[num] = mk_const(imcc, c->name, 'N');
changed = 1;
}
else if (emit) {
/* emit
* set $N0, Iy
* op Nx, $N0
* or
* op Nx, ..., $N0
*/
SymReg *rr[2];
rr[0] = mk_temp_reg(imcc, 'N');
rr[1] = r[num];
INS(imcc, unit, "set", NULL, rr, 2, 0, 1);
r[num] = rr[0];
changed = 1;
/* need to allocate the temp - run reg_alloc */
imcc->optimizer_level |= OPT_PASM;
}
return changed;
}
/*
=item C<static op_info_t * try_find_op(imc_info_t * imcc, IMC_Unit *unit, const
char *name, SymReg **r, int n, int keyvec, int emit)>
Try to find valid op doing the same operation e.g.
add_n_i_n => add_n_n_i
div_n_ic_n => div_n_nc_n
div_n_i_n => set_n_i ; div_n_n_n
ge_n_ic_ic => ge_n_nc_ic
acos_n_i => acos_n_n
=cut
*/
PARROT_WARN_UNUSED_RESULT
PARROT_CAN_RETURN_NULL
static op_info_t *
try_find_op(ARGMOD(imc_info_t * imcc), ARGMOD(IMC_Unit *unit), ARGIN(const char *name),
ARGMOD(SymReg **r), int n, int keyvec, int emit)
{
ASSERT_ARGS(try_find_op)
char fullname[64];
int changed = 0;
if (n == 3 && r[0]->set == 'N') {
if (r[1]->set == 'I') {
const SymReg * const r1 = r[1];
changed |= change_op_arg_to_num(imcc, unit, r, 1, emit);
/* op Nx, Iy, Iy: reuse generated temp Nz */
if (r[2]->set == 'I' && r[2]->type != VTADDRESS && r[2] == r1)
r[2] = r[1];
}
if (r[2]->set == 'I' && r[2]->type != VTADDRESS)
changed |= change_op_arg_to_num(imcc, unit, r, 2, emit);
}
/* handle eq_i_n_ic */
else if (n == 3 && r[1]->set == 'N' && r[0]->set == 'I' &&
r[2]->type == VTADDRESS) {
changed |= change_op_arg_to_num(imcc, unit, r, 0, emit);
}
else if (n == 2 && r[0]->set == 'N' && r[1]->set == 'I') {
/*
* transcendentals e.g. acos N, I
*/
if (!STREQ(name, "fact"))
changed = change_op_arg_to_num(imcc, unit, r, 1, emit);
}
if (changed) {
op_info_t *op;
op_fullname(fullname, name, r, n, keyvec);
op = (op_info_t *)Parrot_hash_get(imcc->interp, imcc->interp->op_hash, fullname);
if (op && !STREQ(op->full_name, fullname))
op = NULL;
return op;
}
return NULL;
}
/*
=item C<static const char * try_rev_cmp(const char *name, SymReg **r)>
Try to find a valid op doing the same thing by reversing comparisons.
=cut
*/
PARROT_WARN_UNUSED_RESULT
PARROT_CAN_RETURN_NULL
static const char *
try_rev_cmp(ARGIN(const char *name), ARGMOD(SymReg **r))
{
ASSERT_ARGS(try_rev_cmp)
static const struct br_pairs {
PARROT_OBSERVER const char * const op;
PARROT_OBSERVER const char * const nop;
const int to_swap;
} br_pairs[] = {
{ "gt", "lt", 0 },
{ "ge", "le", 0 },
{ "isgt", "islt", 1 },
{ "isge", "isle", 1 },
};
unsigned int i;
for (i = 0; i < N_ELEMENTS(br_pairs); i++) {
if (STREQ(name, br_pairs[i].op)) {
const int to_swap = br_pairs[i].to_swap;
SymReg *t;
if (r[to_swap + 1]->set == 'P')
return NULL;
t = r[to_swap];
r[to_swap] = r[to_swap + 1];
r[to_swap + 1] = t;
return br_pairs[i].nop;
}
}
return NULL;
}
/*
=item C<int imcc_vfprintf(imc_info_t * imcc, PMC *io, const char *format,
va_list ap)>
Formats a given series of arguments per a given format string and prints it to
the given Parrot IO PMC.
=cut
*/
PARROT_IGNORABLE_RESULT
int
imcc_vfprintf(ARGMOD(imc_info_t * imcc), ARGMOD(PMC *io),
ARGIN(const char *format), va_list ap)
{
ASSERT_ARGS(imcc_vfprintf)
return Parrot_io_putps(imcc->interp, io, Parrot_vsprintf_c(imcc->interp, format, ap));
}
/*
=item C<int imcc_string_ends_with(imc_info_t * imcc, const STRING *str, const
char *ext)>
Checks whether string C<str> has extension C<ext>.
=cut
*/
int
imcc_string_ends_with(ARGMOD(imc_info_t * imcc), ARGIN(const STRING *str),
ARGIN(const char *ext))
{
ASSERT_ARGS(imcc_string_ends_with)
STRING *ext_str = Parrot_str_new(imcc->interp, ext, 0);
STRING *substr;
INTVAL ext_len = STRING_length(ext_str);
INTVAL len = STRING_length(str);
if (ext_len >= len)
return 0;
substr = STRING_substr(imcc->interp, str, len - ext_len, ext_len);
return STRING_equal(imcc->interp, substr, ext_str);
}
/*
=back
=cut
*/
/*
* Local variables:
* c-file-style: "parrot"
* End:
* vim: expandtab shiftwidth=4 cinoptions='\:2=2' :
*/