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guile/lib/jit_arm.c
pcpa 60c1c545fc Implement the "live" code to explicitly tell a register is live. 
*include/lightning.h, lib/lightning.c: Add the new jit_live code
	to explicitly mark a register as live. It is required to avoid
	assuming functions always return a value in the gpr and fpr return
	register, and to avoid the need of some very specialized codes
	that vary too much from backend to backend, to instruct the
	optimization code the return register is live.

	* lib/jit_arm.c, lib/jit_mips.c, lib/jit_ppc.c, lib/jit_print.c,
	lib/jit_x86.c: Update for the new jit_live code.

	* check/ret.ok, check/ret.tst: New files implementing a simple
	test case that would previously fail at least in ix86/x86_64.

	* check/Makefile.am: Update for new "ret" test case.
2013-02-05 14:14:25 -02:00

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/*
* Copyright (C) 2012 Free Software Foundation, Inc.
*
* This is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* Authors:
* Paulo Cesar Pereira de Andrade
*/
#if defined(__linux__)
# include <stdio.h>
#endif
#define rc(value) jit_class_##value
#define rn(reg) (jit_regno(_rvs[jit_regno(reg)].spec))
#define arm_patch_node 0x80000000
#define arm_patch_word 0x40000000
#define arm_patch_jump 0x20000000
#define arm_patch_load 0x00000000
#define jit_fpr_p(rn) ((rn) > 15)
/* Assume functions called never match jit instruction set, that is
* libc, gmp, mpfr, etc functions are in thumb mode and jit is in
* arm mode, what may cause a crash upon return of that function
* if generating jit for a relative jump.
*/
#define jit_exchange_p() 1
/* FIXME is it really required to not touch _R10? */
/*
* Types
*/
typedef union _jit_thumb_t {
jit_int32_t i;
jit_int16_t s[2];
} jit_thumb_t;
/*
* Prototypes
*/
#define jit_get_reg_pair() _jit_get_reg_pair(_jit)
static jit_int32_t _jit_get_reg_pair(jit_state_t*);
#define jit_unget_reg_pair(rn) _jit_unget_reg_pair(_jit,rn)
static void _jit_unget_reg_pair(jit_state_t*,jit_int32_t);
#define load_const(uniq,r0,i0) _load_const(_jit,uniq,r0,i0)
static void _load_const(jit_state_t*,jit_bool_t,jit_int32_t,jit_word_t);
#define flush_consts() _flush_consts(_jit)
static void _flush_consts(jit_state_t*);
#define invalidate_consts() _invalidate_consts(_jit)
static void _invalidate_consts(jit_state_t*);
#define patch(instr, node) _patch(_jit, instr, node)
static void _patch(jit_state_t*,jit_word_t,jit_node_t*);
/* libgcc */
extern void __clear_cache(void *, void *);
#define PROTO 1
# include "jit_arm-cpu.c"
# include "jit_arm-swf.c"
# include "jit_arm-vfp.c"
#undef PROTO
/*
* Initialization
*/
jit_cpu_t jit_cpu;
jit_flags_t jit_flags;
jit_register_t _rvs[] = {
{ rc(gpr) | 0x0c, "ip" },
{ rc(sav) | rc(gpr) | 0x04, "r4" },
{ rc(sav) | rc(gpr) | 0x05, "r5" },
{ rc(sav) | rc(gpr) | 0x06, "r6" },
{ rc(sav) | rc(gpr) | 0x07, "r7" },
{ rc(sav) | rc(gpr) | 0x08, "r8" },
{ rc(sav) | rc(gpr) | 0x09, "r9" },
{ rc(sav) | 0x0a, "sl" },
{ rc(sav) | 0x0b, "fp" },
{ rc(sav) | 0x0d, "sp" },
{ rc(sav) | 0x0e, "lr" },
{ 0x0f, "pc" },
{ rc(arg) | rc(gpr) | 0x03, "r3" },
{ rc(arg) | rc(gpr) | 0x02, "r2" },
{ rc(arg) | rc(gpr) | 0x01, "r1" },
{ rc(arg) | rc(gpr) | 0x00, "r0" },
{ rc(fpr) | 0x20, "d8" },
{ 0x21, "s17" },
{ rc(fpr) | 0x22, "d9" },
{ 0x23, "s19" },
{ rc(fpr) | 0x24, "d10" },
{ 0x25, "s21" },
{ rc(fpr) | 0x26, "d11" },
{ 0x27, "s23" },
{ rc(fpr) | 0x28, "d12" },
{ 0x29, "s25" },
{ rc(fpr) | 0x2a, "d13" },
{ 0x2b, "s27" },
{ rc(fpr) | 0x2c, "d14" },
{ 0x2d, "s29" },
{ rc(fpr) | 0x2e, "d15" },
{ 0x2f, "s31" },
{ rc(arg) | 0x1f, "s15" },
{ rc(arg)|rc(sft)|rc(fpr)|0x1e, "d7" },
{ rc(arg) | 0x1d, "s13" },
{ rc(arg)|rc(sft)|rc(fpr)|0x1c, "d6" },
{ rc(arg) | 0x1b, "s11" },
{ rc(arg)|rc(sft)|rc(fpr)|0x1a, "d5" },
{ rc(arg) | 0x19, "s9" },
{ rc(arg)|rc(sft)|rc(fpr)|0x18, "d4" },
{ rc(arg) | 0x17, "s7" },
{ rc(arg)|rc(sft)|rc(fpr)|0x16, "d3" },
{ rc(arg) | 0x15, "s5" },
{ rc(arg)|rc(sft)|rc(fpr)|0x14, "d2" },
{ rc(arg) | 0x13, "s3" },
{ rc(arg)|rc(sft)|rc(fpr)|0x12, "d1" },
{ rc(arg) | 0x11, "s1" },
{ rc(arg)|rc(sft)|rc(fpr)|0x10, "d0" },
{ _NOREG, "<none>" },
};
/*
* Implementation
*/
void
jit_get_cpu(void)
{
#if defined(__linux__)
FILE *fp;
char *ptr;
char buf[128];
if ((fp = fopen("/proc/cpuinfo", "r")) == NULL)
return;
while (fgets(buf, sizeof(buf), fp)) {
if (strncmp(buf, "CPU architecture:", 17) == 0) {
jit_cpu.version = strtol(buf + 17, &ptr, 10);
while (*ptr) {
if (*ptr == 'T' || *ptr == 't') {
++ptr;
jit_cpu.thumb = 1;
}
else if (*ptr == 'E' || *ptr == 'e') {
jit_cpu.extend = 1;
++ptr;
}
else
++ptr;
}
}
else if (strncmp(buf, "Features\t:", 10) == 0) {
if ((ptr = strstr(buf + 10, "vfpv")))
jit_cpu.vfp = strtol(ptr + 4, NULL, 0);
if ((ptr = strstr(buf + 10, "neon")))
jit_cpu.neon = 1;
if ((ptr = strstr(buf + 10, "thumb")))
jit_cpu.thumb = 1;
}
}
fclose(fp);
#endif
#if defined(__ARM_PCS_VFP)
if (!jit_cpu.vfp)
jit_cpu.vfp = 3;
if (!jit_cpu.version)
jit_cpu.version = 7;
jit_cpu.abi = 1;
#endif
/* armv6t2 todo (software float and thumb2) */
if (!jit_cpu.vfp && jit_cpu.thumb)
jit_cpu.thumb = 0;
}
void
_jit_init(jit_state_t *_jit)
{
jit_int32_t regno;
static jit_bool_t first = 1;
_jit->reglen = jit_size(_rvs) - 1;
if (first) {
/* jit_get_cpu() should have been already called, and only once */
if (!jit_cpu.vfp) {
/* cause register to never be allocated, because simple
* software float only allocates stack space for 8 slots */
for (regno = _D8; regno < _D7; regno++)
_rvs[regno].spec = 0;
}
if (!jit_cpu.abi) {
for (regno = _S15; regno <= _D0; regno++)
_rvs[regno].spec &= ~rc(arg);
}
first = 0;
}
}
void
_jit_prolog(jit_state_t *_jit)
{
jit_int32_t offset;
if (_jit->function)
jit_epilog();
assert(jit_regset_cmp_ui(_jit->regarg, 0) == 0);
jit_regset_set_ui(_jit->regsav, 0);
offset = _jit->functions.offset;
if (offset >= _jit->functions.length) {
_jit->functions.ptr = realloc(_jit->functions.ptr,
(_jit->functions.length + 16) *
sizeof(jit_function_t));
memset(_jit->functions.ptr + _jit->functions.length, 0,
16 * sizeof(jit_function_t));
_jit->functions.length += 16;
}
_jit->function = _jit->functions.ptr + _jit->functions.offset++;
_jit->function->self.size = stack_framesize;
if (jit_cpu.abi)
_jit->function->self.size += 64;
_jit->function->self.argi = _jit->function->self.argf =
_jit->function->self.alen = 0;
if (jit_swf_p())
/* 8 soft float registers */
_jit->function->self.aoff = -64;
else
_jit->function->self.aoff = 0;
_jit->function->self.call = jit_call_default;
_jit->function->regoff = calloc(_jit->reglen, sizeof(jit_int32_t));
_jit->function->prolog = jit_new_node_no_link(jit_code_prolog);
jit_link(_jit->function->prolog);
_jit->function->prolog->w.w = offset;
_jit->function->epilog = jit_new_node_no_link(jit_code_epilog);
/* u: label value
* v: offset in blocks vector
* w: offset in functions vector
*/
_jit->function->epilog->w.w = offset;
jit_regset_new(_jit->function->regset);
}
jit_int32_t
_jit_allocai(jit_state_t *_jit, jit_int32_t length)
{
assert(_jit->function);
switch (length) {
case 0: case 1: break;
case 2: _jit->function->self.aoff &= -2; break;
case 3: case 4: _jit->function->self.aoff &= -4; break;
default: _jit->function->self.aoff &= -8; break;
}
_jit->function->self.aoff -= length;
return (_jit->function->self.aoff);
}
void
_jit_ret(jit_state_t *_jit)
{
jit_node_t *instr;
assert(_jit->function);
/* jump to epilog */
instr = jit_jmpi();
jit_patch_at(instr, _jit->function->epilog);
}
void
_jit_retr(jit_state_t *_jit, jit_int32_t u)
{
if (JIT_RET != u)
jit_movr(JIT_RET, u);
else
jit_live(JIT_RET);
jit_ret();
}
void
_jit_reti(jit_state_t *_jit, jit_word_t u)
{
jit_movi(JIT_RET, u);
jit_ret();
}
void
_jit_retr_f(jit_state_t *_jit, jit_int32_t u)
{
if (jit_cpu.abi) {
if (u != JIT_FRET)
jit_movr_f(JIT_FRET, u);
else
jit_live(JIT_FRET);
}
else {
if (u != JIT_RET)
jit_movr_f_w(JIT_RET, u);
else
jit_live(JIT_RET);
}
jit_ret();
}
void
_jit_reti_f(jit_state_t *_jit, jit_float32_t u)
{
if (jit_cpu.abi)
jit_movi_f(JIT_FRET, u);
else
jit_movi_f_w(JIT_RET, u);
jit_ret();
}
void
_jit_retr_d(jit_state_t *_jit, jit_int32_t u)
{
if (jit_cpu.abi) {
if (u != JIT_FRET)
jit_movr_d(JIT_FRET, u);
else
jit_live(JIT_FRET);
}
else {
if (u != JIT_RET)
jit_movr_d_ww(JIT_RET, _R1, u);
else
jit_live(JIT_RET);
}
jit_ret();
}
void
_jit_reti_d(jit_state_t *_jit, jit_float64_t u)
{
if (jit_cpu.abi)
jit_movi_d(JIT_FRET, u);
else
jit_movi_d_ww(JIT_RET, _R1, u);
jit_ret();
}
/* must be called internally only */
void
_jit_epilog(jit_state_t *_jit)
{
assert(_jit->function);
assert(_jit->function->epilog->next == NULL);
jit_link(_jit->function->epilog);
_jit->function = NULL;
}
jit_node_t *
_jit_arg(jit_state_t *_jit)
{
jit_int32_t offset;
assert(_jit->function);
if (_jit->function->self.argi < 4)
offset = _jit->function->self.argi++;
else {
offset = _jit->function->self.size;
_jit->function->self.size += sizeof(jit_word_t);
}
return (jit_new_node_w(jit_code_arg, offset));
}
jit_bool_t
_jit_arg_reg_p(jit_state_t *_jit, jit_int32_t offset)
{
return (offset >= 0 && offset < 4);
}
jit_node_t *
_jit_arg_f(jit_state_t *_jit)
{
jit_int32_t offset;
assert(_jit->function);
if (jit_cpu.abi && !(_jit->function->self.call & jit_call_varargs)) {
if (_jit->function->self.argf < 16)
offset = _jit->function->self.argf++;
else {
offset = _jit->function->self.size;
_jit->function->self.size += sizeof(jit_word_t);
}
}
else {
if (_jit->function->self.argi < 4)
offset = _jit->function->self.argi++;
else {
offset = _jit->function->self.size;
_jit->function->self.size += sizeof(jit_float32_t);
}
}
return (jit_new_node_w(jit_code_arg_f, offset));
}
jit_bool_t
_jit_arg_f_reg_p(jit_state_t *_jit, jit_int32_t offset)
{
return (jit_arg_reg_p(offset));
}
jit_node_t *
_jit_arg_d(jit_state_t *_jit)
{
jit_int32_t offset;
assert(_jit->function);
if (jit_cpu.abi && !(_jit->function->self.call & jit_call_varargs)) {
if (_jit->function->self.argf < 15) {
if (_jit->function->self.argf & 1)
++_jit->function->self.argf;
offset = _jit->function->self.argf;
_jit->function->self.argf += 2;
goto done;
}
}
else {
if (_jit->function->self.argi < 3) {
if (_jit->function->self.argi & 1)
++_jit->function->self.argi;
offset = _jit->function->self.argi;
_jit->function->self.argi += 2;
goto done;
}
}
if (_jit->function->self.size & 7)
_jit->function->self.size += 4;
offset = _jit->function->self.size;
_jit->function->self.size += sizeof(jit_float64_t);
done:
return (jit_new_node_w(jit_code_arg_d, offset));
}
jit_bool_t
_jit_arg_d_reg_p(jit_state_t *_jit, jit_int32_t offset)
{
return (jit_arg_reg_p(offset));
}
void
_jit_getarg_c(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_swf_p())
jit_ldxi_c(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else if (v->u.w < 4)
jit_extr_c(u, JIT_RA0 - v->u.w);
else
jit_ldxi_c(u, JIT_FP, v->u.w);
}
void
_jit_getarg_uc(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_swf_p())
jit_ldxi_uc(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else if (v->u.w < 4)
jit_extr_uc(u, JIT_RA0 - v->u.w);
else
jit_ldxi_uc(u, JIT_FP, v->u.w);
}
void
_jit_getarg_s(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_swf_p())
jit_ldxi_s(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else if (v->u.w < 4)
jit_extr_s(u, JIT_RA0 - v->u.w);
else
jit_ldxi_s(u, JIT_FP, v->u.w);
}
void
_jit_getarg_us(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_swf_p())
jit_ldxi_us(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else if (v->u.w < 4)
jit_extr_us(u, JIT_RA0 - v->u.w);
else
jit_ldxi_us(u, JIT_FP, v->u.w);
}
void
_jit_getarg_i(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_swf_p())
jit_ldxi_i(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else if (v->u.w < 4)
jit_movr(u, JIT_RA0 - v->u.w);
else
jit_ldxi_i(u, JIT_FP, v->u.w);
}
void
_jit_getarg_f(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_cpu.abi) {
if (v->u.w < 16)
jit_movr_f(u, JIT_FA0 - v->u.w);
else
jit_ldxi_f(u, JIT_FP, v->u.w);
}
else if (jit_swf_p())
jit_ldxi_f(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else {
if (v->u.w < 4)
jit_movr_w_f(u, JIT_RA0 - v->u.w);
else
jit_ldxi_f(u, JIT_FP, v->u.w);
}
}
void
_jit_getarg_d(jit_state_t *_jit, jit_int32_t u, jit_node_t *v)
{
if (jit_cpu.abi) {
if (v->u.w < 16)
jit_movr_d(u, JIT_FA0 - v->u.w);
else
jit_ldxi_d(u, JIT_FP, v->u.w);
}
else if (jit_swf_p())
jit_ldxi_d(u, JIT_FP, v->u.w < 4 ? v->u.w << 2 : v->u.w);
else {
if (v->u.w < 4)
jit_movr_ww_d(u, JIT_RA0 - v->u.w, JIT_RA0 - (v->u.w + 1));
else
jit_ldxi_d(u, JIT_FP, v->u.w);
}
}
void
_jit_pushargr(jit_state_t *_jit, jit_int32_t u)
{
assert(_jit->function);
if (_jit->function->call.argi < 4) {
jit_movr(JIT_RA0 - _jit->function->call.argi, u);
++_jit->function->call.argi;
}
else {
jit_stxi(_jit->function->call.size, JIT_SP, u);
_jit->function->call.size += sizeof(jit_word_t);
}
}
void
_jit_pushargi(jit_state_t *_jit, jit_word_t u)
{
jit_int32_t regno;
assert(_jit->function);
if (_jit->function->call.argi < 4) {
jit_movi(JIT_RA0 - _jit->function->call.argi, u);
++_jit->function->call.argi;
}
else {
regno = jit_get_reg(jit_class_gpr);
jit_movi(regno, u);
jit_stxi(_jit->function->call.size, JIT_SP, regno);
jit_unget_reg(regno);
_jit->function->call.size += sizeof(jit_word_t);
}
}
void
_jit_pushargr_f(jit_state_t *_jit, jit_int32_t u)
{
assert(_jit->function);
if (jit_cpu.abi && !(_jit->function->call.call & jit_call_varargs)) {
if (_jit->function->call.argf < 16) {
jit_movr_f(JIT_FA0 - _jit->function->call.argf, u);
++_jit->function->call.argf;
return;
}
}
else {
if (_jit->function->call.argi < 4) {
jit_movr_f_w(JIT_RA0 - _jit->function->call.argi, u);
++_jit->function->call.argi;
return;
}
}
jit_stxi_f(_jit->function->call.size, JIT_SP, u);
_jit->function->call.size += sizeof(jit_word_t);
}
void
_jit_pushargi_f(jit_state_t *_jit, jit_float32_t u)
{
jit_int32_t regno;
assert(_jit->function);
if (jit_cpu.abi && !(_jit->function->call.call & jit_call_varargs)) {
if (_jit->function->call.argf < 16) {
jit_movi_f(JIT_FA0 - _jit->function->call.argf, u);
++_jit->function->call.argf;
return;
}
}
else {
if (_jit->function->call.argi < 4) {
jit_movi_f_w(JIT_RA0 - _jit->function->call.argi, u);
++_jit->function->call.argi;
return;
}
}
regno = jit_get_reg(jit_class_fpr);
jit_movi_f(regno, u);
jit_stxi_f(_jit->function->call.size, JIT_SP, regno);
jit_unget_reg(regno);
_jit->function->call.size += sizeof(jit_word_t);
}
void
_jit_pushargr_d(jit_state_t *_jit, jit_int32_t u)
{
assert(_jit->function);
if (jit_cpu.abi && !(_jit->function->call.call & jit_call_varargs)) {
if (_jit->function->call.argf < 15) {
if (_jit->function->call.argf & 1)
++_jit->function->call.argf;
jit_movr_d(JIT_FA0 - _jit->function->call.argf, u);
_jit->function->call.argf += 2;
return;
}
}
else {
if (_jit->function->call.argi & 1)
++_jit->function->call.argi;
if (_jit->function->call.argi < 4) {
jit_movr_d_ww(JIT_RA0 - _jit->function->call.argi,
JIT_RA0 - (_jit->function->call.argi + 1),
u);
_jit->function->call.argi += 2;
return;
}
}
if (_jit->function->call.size & 7)
_jit->function->call.size += 4;
jit_stxi_d(_jit->function->call.size, JIT_SP, u);
_jit->function->call.size += sizeof(jit_float64_t);
}
void
_jit_pushargi_d(jit_state_t *_jit, jit_float64_t u)
{
jit_int32_t regno;
assert(_jit->function);
if (jit_cpu.abi && !(_jit->function->call.call & jit_call_varargs)) {
if (_jit->function->call.argf < 15) {
if (_jit->function->call.argf & 1)
++_jit->function->call.argf;
jit_movi_d(JIT_FA0 - _jit->function->call.argf, u);
_jit->function->call.argf += 2;
return;
}
}
else {
if (_jit->function->call.argi & 1)
++_jit->function->call.argi;
if (_jit->function->call.argi < 4) {
jit_movi_d_ww(JIT_RA0 - _jit->function->call.argi,
JIT_RA0 - (_jit->function->call.argi + 1),
u);
_jit->function->call.argi += 2;
return;
}
}
if (_jit->function->call.size & 7)
_jit->function->call.size += 4;
regno = jit_get_reg(jit_class_fpr);
jit_movi_d(regno, u);
jit_stxi_d(_jit->function->call.size, JIT_SP, regno);
jit_unget_reg(regno);
_jit->function->call.size += sizeof(jit_float64_t);
}
jit_bool_t
_jit_regarg_p(jit_state_t *_jit, jit_node_t *node, jit_int32_t regno)
{
jit_int32_t spec;
spec = jit_class(_rvs[regno].spec);
if (spec & jit_class_arg) {
regno = JIT_RA0 - regno;
if (regno >= 0 && regno < node->v.w)
return (1);
if (jit_cpu.abi && spec & jit_class_fpr) {
regno = JIT_FA0 - regno;
if (regno >= 0 && regno < node->w.w)
return (1);
}
}
return (0);
}
void
_jit_finishr(jit_state_t *_jit, jit_int32_t r0)
{
jit_node_t *node;
assert(_jit->function);
if (_jit->function->self.alen < _jit->function->call.size)
_jit->function->self.alen = _jit->function->call.size;
node = jit_callr(r0);
node->v.w = _jit->function->self.argi;
node->w.w = _jit->function->call.argf;
_jit->function->call.argi = _jit->function->call.argf =
_jit->function->call.size = 0;
_jit->prepare = 0;
}
jit_node_t *
_jit_finishi(jit_state_t *_jit, jit_pointer_t i0)
{
jit_node_t *node;
assert(_jit->function);
if (_jit->function->self.alen < _jit->function->call.size)
_jit->function->self.alen = _jit->function->call.size;
node = jit_calli(i0);
node->v.w = _jit->function->call.argi;
node->w.w = _jit->function->call.argf;
_jit->function->call.argi = _jit->function->call.argf =
_jit->function->call.size = 0;
_jit->prepare = 0;
return (node);
}
void
_jit_retval_c(jit_state_t *_jit, jit_int32_t r0)
{
jit_extr_c(r0, JIT_RET);
}
void
_jit_retval_uc(jit_state_t *_jit, jit_int32_t r0)
{
jit_extr_uc(r0, JIT_RET);
}
void
_jit_retval_s(jit_state_t *_jit, jit_int32_t r0)
{
jit_extr_s(r0, JIT_RET);
}
void
_jit_retval_us(jit_state_t *_jit, jit_int32_t r0)
{
jit_extr_us(r0, JIT_RET);
}
void
_jit_retval_i(jit_state_t *_jit, jit_int32_t r0)
{
if (r0 != JIT_RET)
jit_movr(r0, JIT_RET);
}
void
_jit_retval_f(jit_state_t *_jit, jit_int32_t r0)
{
if (jit_cpu.abi) {
if (r0 != JIT_FRET)
jit_movr_f(r0, JIT_FRET);
}
else if (r0 != JIT_RET)
jit_movr_w_f(r0, JIT_RET);
}
void
_jit_retval_d(jit_state_t *_jit, jit_int32_t r0)
{
if (jit_cpu.abi) {
if (r0 != JIT_FRET)
jit_movr_d(r0, JIT_FRET);
}
else if (r0 != JIT_RET)
jit_movr_ww_d(r0, JIT_RET, _R1);
}
jit_pointer_t
_emit_code(jit_state_t *_jit)
{
jit_node_t *node;
jit_node_t *temp;
jit_word_t word;
jit_int32_t value;
jit_int32_t offset;
struct {
jit_node_t *node;
jit_uint8_t *data;
jit_word_t word;
jit_uword_t thumb;
jit_int32_t info_offset;
jit_int32_t const_offset;
jit_int32_t patch_offset;
} undo;
_jit->function = NULL;
jit_reglive_setup();
undo.word = 0;
undo.node = NULL;
undo.data = NULL;
undo.thumb = 0;
undo.info_offset = undo.const_offset = undo.patch_offset = 0;
# define assert_data(node) /**/
#define case_rr(name, type) \
case jit_code_##name##r##type: \
name##r##type(rn(node->u.w), rn(node->v.w)); \
break
#define case_rw(name, type) \
case jit_code_##name##i##type: \
name##i##type(rn(node->u.w), node->v.w); \
break
#define case_vv(name, type) \
case jit_code_##name##r##type: \
if (jit_swf_p()) \
swf_##name##r##type(rn(node->u.w), rn(node->v.w)); \
else \
vfp_##name##r##type(rn(node->u.w), rn(node->v.w)); \
break
#define case_vw(name, type) \
case jit_code_##name##i##type: \
if (jit_swf_p()) \
swf_##name##i##type(rn(node->u.w), node->v.w); \
else \
vfp_##name##i##type(rn(node->u.w), node->v.w); \
break
#define case_wr(name, type) \
case jit_code_##name##i##type: \
name##i##type(node->u.w, rn(node->v.w)); \
break
#define case_wv(name, type) \
case jit_code_##name##i##type: \
if (jit_swf_p()) \
swf_##name##i##type(node->u.w, rn(node->v.w)); \
else \
vfp_##name##i##type(node->u.w, rn(node->v.w)); \
break
#define case_rrr(name, type) \
case jit_code_##name##r##type: \
name##r##type(rn(node->u.w), \
rn(node->v.w), rn(node->w.w)); \
break
#define case_rrrr(name, type) \
case jit_code_##name##r##type: \
name##r##type(rn(node->u.q.l), rn(node->u.q.h), \
rn(node->v.w), rn(node->w.w)); \
break
#define case_vvv(name, type) \
case jit_code_##name##r##type: \
if (jit_swf_p()) \
swf_##name##r##type(rn(node->u.w), \
rn(node->v.w), rn(node->w.w)); \
else \
vfp_##name##r##type(rn(node->u.w), \
rn(node->v.w), rn(node->w.w)); \
break
#define case_rrw(name, type) \
case jit_code_##name##i##type: \
name##i##type(rn(node->u.w), rn(node->v.w), node->w.w); \
break
#define case_rrrw(name, type) \
case jit_code_##name##i##type: \
name##i##type(rn(node->u.q.l), rn(node->u.q.h), \
rn(node->v.w), node->w.w); \
break
#define case_vvw(name, type) \
case jit_code_##name##i##type: \
if (jit_swf_p()) \
swf_##name##i##type(rn(node->u.w), \
rn(node->v.w), node->w.w); \
else \
vfp_##name##i##type(rn(node->u.w), \
rn(node->v.w), node->w.w); \
break
#define case_vvf(name) \
case jit_code_##name##i_f: \
assert_data(node); \
if (jit_swf_p()) \
swf_##name##i_f(rn(node->u.w), rn(node->v.w), \
node->w.f); \
else \
vfp_##name##i_f(rn(node->u.w), rn(node->v.w), \
node->w.f); \
break
#define case_vvd(name) \
case jit_code_##name##i_d: \
assert_data(node); \
if (jit_swf_p()) \
swf_##name##i_d(rn(node->u.w), rn(node->v.w), \
node->w.d); \
else \
vfp_##name##i_d(rn(node->u.w), rn(node->v.w), \
node->w.d); \
break
#define case_wrr(name, type) \
case jit_code_##name##i##type: \
name##i##type(node->u.w, rn(node->v.w), rn(node->w.w)); \
break
#define case_wvv(name, type) \
case jit_code_##name##i##type: \
if (jit_swf_p()) \
swf_##name##i##type(node->u.w, \
rn(node->v.w), rn(node->w.w)); \
else \
vfp_##name##i##type(node->u.w, \
rn(node->v.w), rn(node->w.w)); \
break
#define case_brr(name, type) \
case jit_code_##name##r##type: \
temp = node->u.n; \
assert(temp->code == jit_code_label || \
temp->code == jit_code_epilog); \
if (temp->flag & jit_flag_patch) \
name##r##type(temp->u.w, rn(node->v.w), \
rn(node->w.w)); \
else { \
word = name##r##type(_jit->pc.w, \
rn(node->v.w), rn(node->w.w)); \
patch(word, node); \
} \
break
#define case_bvv(name, type) \
case jit_code_##name##r##type: \
temp = node->u.n; \
assert(temp->code == jit_code_label || \
temp->code == jit_code_epilog); \
if (temp->flag & jit_flag_patch) { \
if (jit_swf_p()) \
swf_##name##r##type(temp->u.w, rn(node->v.w), \
rn(node->w.w)); \
else \
vfp_##name##r##type(temp->u.w, rn(node->v.w), \
rn(node->w.w)); \
} \
else { \
if (jit_swf_p()) \
word = swf_##name##r##type(_jit->pc.w, \
rn(node->v.w), \
rn(node->w.w)); \
else \
word = vfp_##name##r##type(_jit->pc.w, \
rn(node->v.w), \
rn(node->w.w)); \
patch(word, node); \
} \
break
#define case_brw(name, type) \
case jit_code_##name##i##type: \
temp = node->u.n; \
assert(temp->code == jit_code_label || \
temp->code == jit_code_epilog); \
if (temp->flag & jit_flag_patch) \
name##i##type(temp->u.w, \
rn(node->v.w), node->w.w); \
else { \
word = name##i##type(_jit->pc.w, \
rn(node->v.w), node->w.w); \
patch(word, node); \
} \
break;
#define case_bvf(name) \
case jit_code_##name##i_f: \
temp = node->u.n; \
assert(temp->code == jit_code_label || \
temp->code == jit_code_epilog); \
if (temp->flag & jit_flag_patch) { \
if (jit_swf_p()) \
swf_##name##i_f(temp->u.w, rn(node->v.w), \
node->w.f); \
else \
vfp_##name##i_f(temp->u.w, rn(node->v.w), \
node->w.f); \
} \
else { \
if (jit_swf_p()) \
word = swf_##name##i_f(_jit->pc.w, \
rn(node->v.w), \
node->w.f); \
else \
word = vfp_##name##i_f(_jit->pc.w, \
rn(node->v.w), \
node->w.f); \
patch(word, node); \
} \
break
#define case_bvd(name) \
case jit_code_##name##i_d: \
temp = node->u.n; \
assert(temp->code == jit_code_label || \
temp->code == jit_code_epilog); \
if (temp->flag & jit_flag_patch) { \
if (jit_swf_p()) \
swf_##name##i_d(temp->u.w, rn(node->v.w), \
node->w.d); \
else \
vfp_##name##i_d(temp->u.w, rn(node->v.w), \
node->w.d); \
} \
else { \
if (jit_swf_p()) \
word = swf_##name##i_d(_jit->pc.w, \
rn(node->v.w), \
node->w.d); \
else \
word = vfp_##name##i_d(_jit->pc.w, \
rn(node->v.w), \
node->w.d); \
patch(word, node); \
} \
break
for (node = _jit->head; node; node = node->next) {
if (_jit->pc.uc >= _jit->code.end)
return (NULL);
value = jit_classify(node->code);
jit_regarg_set(node, value);
switch (node->code) {
case jit_code_note: case jit_code_name:
node->u.w = _jit->pc.w;
break;
case jit_code_label:
/* remember label is defined */
node->flag |= jit_flag_patch;
node->u.w = _jit->pc.w;
break;
case_rrr(add,);
case_rrw(add,);
case_rrr(addc,);
case_rrw(addc,);
case_rrr(addx,);
case_rrw(addx,);
case_rrr(sub,);
case_rrw(sub,);
case_rrr(subc,);
case_rrw(subc,);
case_rrr(subx,);
case_rrw(subx,);
case_rrr(mul,);
case_rrw(mul,);
case_rrrr(qmul,);
case_rrrw(qmul,);
case_rrrr(qmul, _u);
case_rrrw(qmul, _u);
case_rrr(div,);
case_rrw(div,);
case_rrr(div, _u);
case_rrw(div, _u);
case_rrrr(qdiv,);
case_rrrw(qdiv,);
case_rrrr(qdiv, _u);
case_rrrw(qdiv, _u);
case_rrr(rem,);
case_rrw(rem,);
case_rrr(rem, _u);
case_rrw(rem, _u);
case_rrr(lsh,);
case_rrw(lsh,);
case_rrr(rsh,);
case_rrw(rsh,);
case_rrr(rsh, _u);
case_rrw(rsh, _u);
case_rr(neg,);
case_rr(com,);
case_rrr(and,);
case_rrw(and,);
case_rrr(or,);
case_rrw(or,);
case_rrr(xor,);
case_rrw(xor,);
case_vv(trunc, _f_i);
case_vv(trunc, _d_i);
case_rr(ld, _c);
case_rw(ld, _c);
case_rr(ld, _uc);
case_rw(ld, _uc);
case_rr(ld, _s);
case_rw(ld, _s);
case_rr(ld, _us);
case_rw(ld, _us);
case_rr(ld, _i);
case_rw(ld, _i);
case_rrr(ldx, _c);
case_rrw(ldx, _c);
case_rrr(ldx, _uc);
case_rrw(ldx, _uc);
case_rrr(ldx, _s);
case_rrw(ldx, _s);
case_rrr(ldx, _us);
case_rrw(ldx, _us);
case_rrr(ldx, _i);
case_rrw(ldx, _i);
case_rr(st, _c);
case_wr(st, _c);
case_rr(st, _s);
case_wr(st, _s);
case_rr(st, _i);
case_wr(st, _i);
case_rrr(stx, _c);
case_wrr(stx, _c);
case_rrr(stx, _s);
case_wrr(stx, _s);
case_rrr(stx, _i);
case_wrr(stx, _i);
case_rr(hton,);
case_rr(ext, _c);
case_rr(ext, _uc);
case_rr(ext, _s);
case_rr(ext, _us);
case_rr(mov,);
case jit_code_movi:
if (node->flag & jit_flag_node) {
temp = node->v.n;
if (temp->code == jit_code_data ||
(temp->code == jit_code_label &&
(temp->flag & jit_flag_patch)))
movi(rn(node->u.w), temp->u.w);
else {
assert(temp->code == jit_code_label ||
temp->code == jit_code_epilog);
word = movi_p(rn(node->u.w), temp->u.w);
patch(word, node);
}
}
else
movi(rn(node->u.w), node->v.w);
break;
case_rrr(lt,);
case_rrw(lt,);
case_rrr(lt, _u);
case_rrw(lt, _u);
case_rrr(le,);
case_rrw(le,);
case_rrr(le, _u);
case_rrw(le, _u);
case_rrr(eq,);
case_rrw(eq,);
case_rrr(ge,);
case_rrw(ge,);
case_rrr(ge, _u);
case_rrw(ge, _u);
case_rrr(gt,);
case_rrw(gt,);
case_rrr(gt, _u);
case_rrw(gt, _u);
case_rrr(ne,);
case_rrw(ne,);
case_brr(blt,);
case_brw(blt,);
case_brr(blt, _u);
case_brw(blt, _u);
case_brr(ble,);
case_brw(ble,);
case_brr(ble, _u);
case_brw(ble, _u);
case_brr(beq,);
case_brw(beq,);
case_brr(bge,);
case_brw(bge,);
case_brr(bge, _u);
case_brw(bge, _u);
case_brr(bgt,);
case_brw(bgt,);
case_brr(bgt, _u);
case_brw(bgt, _u);
case_brr(bne,);
case_brw(bne,);
case_brr(boadd,);
case_brw(boadd,);
case_brr(boadd, _u);
case_brw(boadd, _u);
case_brr(bxadd,);
case_brw(bxadd,);
case_brr(bxadd, _u);
case_brw(bxadd, _u);
case_brr(bosub,);
case_brw(bosub,);
case_brr(bosub, _u);
case_brw(bosub, _u);
case_brr(bxsub,);
case_brw(bxsub,);
case_brr(bxsub, _u);
case_brw(bxsub, _u);
case_brr(bms,);
case_brw(bms,);
case_brr(bmc,);
case_brw(bmc,);
case_vvv(add, _f);
case_vvf(add);
case_vvv(sub, _f);
case_vvf(sub);
case_vvv(mul, _f);
case_vvf(mul);
case_vvv(div, _f);
case_vvf(div);
case_vv(abs, _f);
case_vv(neg, _f);
case_vv(sqrt, _f);
case_vv(ext, _f);
case_vv(ld, _f);
case_vw(ld, _f);
case_vvv(ldx, _f);
case_vvw(ldx, _f);
case_vv(st, _f);
case_wv(st, _f);
case_vvv(stx, _f);
case_wvv(stx, _f);
case_vv(mov, _f);
case jit_code_movi_f:
assert_data(node);
if (jit_swf_p())
swf_movi_f(rn(node->u.w), node->v.f);
else
vfp_movi_f(rn(node->u.w), node->v.f);
break;
case_vv(ext, _d_f);
case_vvv(lt, _f);
case_vvf(lt);
case_vvv(le, _f);
case_vvf(le);
case_vvv(eq, _f);
case_vvf(eq);
case_vvv(ge, _f);
case_vvf(ge);
case_vvv(gt, _f);
case_vvf(gt);
case_vvv(ne, _f);
case_vvf(ne);
case_vvv(unlt, _f);
case_vvf(unlt);
case_vvv(unle, _f);
case_vvf(unle);
case_vvv(uneq, _f);
case_vvf(uneq);
case_vvv(unge, _f);
case_vvf(unge);
case_vvv(ungt, _f);
case_vvf(ungt);
case_vvv(ltgt, _f);
case_vvf(ltgt);
case_vvv(ord, _f);
case_vvf(ord);
case_vvv(unord, _f);
case_vvf(unord);
case_bvv(blt, _f);
case_bvf(blt);
case_bvv(ble, _f);
case_bvf(ble);
case_bvv(beq, _f);
case_bvf(beq);
case_bvv(bge, _f);
case_bvf(bge);
case_bvv(bgt, _f);
case_bvf(bgt);
case_bvv(bne, _f);
case_bvf(bne);
case_bvv(bunlt, _f);
case_bvf(bunlt);
case_bvv(bunle, _f);
case_bvf(bunle);
case_bvv(buneq, _f);
case_bvf(buneq);
case_bvv(bunge, _f);
case_bvf(bunge);
case_bvv(bungt, _f);
case_bvf(bungt);
case_bvv(bltgt, _f);
case_bvf(bltgt);
case_bvv(bord, _f);
case_bvf(bord);
case_bvv(bunord, _f);
case_bvf(bunord);
case_vvv(add, _d);
case_vvd(add);
case_vvv(sub, _d);
case_vvd(sub);
case_vvv(mul, _d);
case_vvd(mul);
case_vvv(div, _d);
case_vvd(div);
case_vv(abs, _d);
case_vv(neg, _d);
case_vv(sqrt, _d);
case_vv(ext, _d);
case_vv(ld, _d);
case_vw(ld, _d);
case_vvv(ldx, _d);
case_vvw(ldx, _d);
case_vv(st, _d);
case_wv(st, _d);
case_vvv(stx, _d);
case_wvv(stx, _d);
case_vv(mov, _d);
case jit_code_movi_d:
assert_data(node);
if (jit_swf_p())
swf_movi_d(rn(node->u.w), node->v.d);
else
vfp_movi_d(rn(node->u.w), node->v.d);
break;
case_vv(ext, _f_d);
case_vvv(lt, _d);
case_vvd(lt);
case_vvv(le, _d);
case_vvd(le);
case_vvv(eq, _d);
case_vvd(eq);
case_vvv(ge, _d);
case_vvd(ge);
case_vvv(gt, _d);
case_vvd(gt);
case_vvv(ne, _d);
case_vvd(ne);
case_vvv(unlt, _d);
case_vvd(unlt);
case_vvv(unle, _d);
case_vvd(unle);
case_vvv(uneq, _d);
case_vvd(uneq);
case_vvv(unge, _d);
case_vvd(unge);
case_vvv(ungt, _d);
case_vvd(ungt);
case_vvv(ltgt, _d);
case_vvd(ltgt);
case_vvv(ord, _d);
case_vvd(ord);
case_vvv(unord, _d);
case_vvd(unord);
case_bvv(blt, _d);
case_bvd(blt);
case_bvv(ble, _d);
case_bvd(ble);
case_bvv(beq, _d);
case_bvd(beq);
case_bvv(bge, _d);
case_bvd(bge);
case_bvv(bgt, _d);
case_bvd(bgt);
case_bvv(bne, _d);
case_bvd(bne);
case_bvv(bunlt, _d);
case_bvd(bunlt);
case_bvv(bunle, _d);
case_bvd(bunle);
case_bvv(buneq, _d);
case_bvd(buneq);
case_bvv(bunge, _d);
case_bvd(bunge);
case_bvv(bungt, _d);
case_bvd(bungt);
case_bvv(bltgt, _d);
case_bvd(bltgt);
case_bvv(bord, _d);
case_bvd(bord);
case_bvv(bunord, _d);
case_bvd(bunord);
case jit_code_jmpr:
jmpr(rn(node->u.w));
flush_consts();
break;
case jit_code_jmpi:
temp = node->u.n;
assert(temp->code == jit_code_label ||
temp->code == jit_code_epilog);
if (temp->flag & jit_flag_patch)
jmpi(temp->u.w);
else {
word = jmpi_p(_jit->pc.w);
patch(word, node);
}
flush_consts();
break;
case jit_code_callr:
callr(rn(node->u.w));
break;
case jit_code_calli:
if (node->flag & jit_flag_node) {
temp = node->u.n;
assert(temp->code == jit_code_label ||
temp->code == jit_code_epilog);
if (temp->flag & jit_flag_patch)
calli(temp->u.w);
else {
word = calli_p(_jit->pc.w);
patch(word, node);
}
}
else
calli(node->u.w);
break;
case jit_code_prolog:
_jit->function = _jit->functions.ptr + node->w.w;
undo.node = node;
undo.word = _jit->pc.w;
undo.data = _jit->consts.data;
undo.thumb = _jit->thumb;
undo.const_offset = _jit->consts.offset;
undo.patch_offset = _jit->patches.offset;
if (_jit->data_info.ptr)
undo.info_offset = _jit->data_info.offset;
restart_function:
_jit->again = 0;
prolog(node);
break;
case jit_code_epilog:
assert(_jit->function == _jit->functions.ptr + node->w.w);
if (_jit->again) {
for (temp = undo.node->next;
temp != node; temp = temp->next) {
if (temp->code == jit_code_label ||
temp->code == jit_code_epilog)
temp->flag &= ~jit_flag_patch;
}
node = undo.node;
_jit->pc.w = undo.word;
invalidate_consts();
_jit->consts.data = undo.data;
_jit->thumb = undo.thumb;
_jit->consts.offset = undo.const_offset;
_jit->patches.offset = undo.patch_offset;
if (_jit->data_info.ptr)
_jit->data_info.offset = undo.info_offset;
goto restart_function;
}
/* remember label is defined */
node->flag |= jit_flag_patch;
node->u.w = _jit->pc.w;
epilog(node);
_jit->function = NULL;
flush_consts();
break;
case jit_code_movr_w_f:
if (jit_swf_p())
swf_movr_f(rn(node->u.w), rn(node->v.w));
else
vfp_movr_f(rn(node->u.w), rn(node->v.w));
break;
case jit_code_movr_f_w:
if (jit_swf_p())
swf_movr_f(rn(node->u.w), rn(node->v.w));
else
vfp_movr_f(rn(node->u.w), rn(node->v.w));
break;
case jit_code_movi_f_w:
assert_data(node);
if (jit_swf_p())
swf_movi_f(rn(node->u.w), node->v.f);
else
vfp_movi_f(rn(node->u.w), node->v.f);
break;
case jit_code_movr_ww_d:
if (jit_swf_p())
swf_movr_d(rn(node->u.w), rn(node->v.w));
else
vfp_movr_d(rn(node->u.w), rn(node->v.w));
break;
case jit_code_movr_d_ww:
if (jit_swf_p())
swf_movr_d(rn(node->u.w), rn(node->w.w));
else
vfp_movr_d(rn(node->u.w), rn(node->w.w));
break;
case jit_code_movi_d_ww:
assert_data(node);
if (jit_swf_p())
swf_movi_d(rn(node->u.w), node->w.d);
else
vfp_movi_d(rn(node->u.w), node->w.d);
break;
case jit_code_live:
case jit_code_arg:
case jit_code_arg_f: case jit_code_arg_d:
break;
default:
abort();
}
jit_regarg_clr(node, value);
/* update register live state */
jit_reglive(node);
if (_jit->consts.length && _jit->pc.uc - _jit->consts.data >= 3968) {
/* longest sequence should be 64 bytes, but preventively
* do not let it go past 128 remaining bytes before a flush */
if (node->next &&
node->next->code != jit_code_jmpi &&
node->next->code != jit_code_jmpr &&
node->next->code != jit_code_epilog) {
/* insert a jump, flush constants and continue */
word = _jit->pc.w;
assert(!jit_thumb_p());
B(0);
flush_consts();
patch_at(arm_patch_jump, word, _jit->pc.w);
}
}
}
#undef case_bvd
#undef case_bvf
#undef case_brw
#undef case_bvv
#undef case_brr
#undef case_wvv
#undef case_wrr
#undef case_vvd
#undef case_vvf
#undef case_vvw
#undef case_rrw
#undef case_vvv
#undef case_rrr
#undef case_wv
#undef case_wr
#undef case_vw
#undef case_vv
#undef case_rw
#undef case_rr
flush_consts();
for (offset = 0; offset < _jit->patches.offset; offset++) {
assert(_jit->patches.ptr[offset].kind & arm_patch_node);
node = _jit->patches.ptr[offset].node;
word = _jit->patches.ptr[offset].inst;
if (!jit_thumb_p() &&
(node->code == jit_code_movi || node->code == jit_code_calli)) {
/* calculate where to patch word */
value = *(jit_int32_t *)word;
assert((value & 0x0f700000) == ARM_LDRI);
/* offset may become negative (-4) if last instruction
* before unconditional branch and data following
* FIXME can this cause issues in the preprocessor prefetch
* or something else? should not, as the constants are after
* an unconditional jump */
if (value & ARM_P) value = value & 0x00000fff;
else value = -(value & 0x00000fff);
word = word + 8 + value;
}
value = node->code == jit_code_movi ? node->v.n->u.w : node->u.n->u.w;
patch_at(_jit->patches.ptr[offset].kind & ~arm_patch_node, word, value);
}
__clear_cache(_jit->code.ptr, _jit->pc.uc);
return (_jit->code.ptr);
}
#define CODE 1
# include "jit_arm-cpu.c"
# include "jit_arm-swf.c"
# include "jit_arm-vfp.c"
#undef CODE
void
_emit_ldxi(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0)
{
ldxi_i(rn(r0), rn(r1), i0);
}
void
_emit_stxi(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1)
{
stxi_i(i0, rn(r0), rn(r1));
}
void
_emit_ldxi_d(jit_state_t *_jit, jit_int32_t r0, jit_int32_t r1, jit_word_t i0)
{
if (jit_swf_p())
swf_ldxi_d(rn(r0), rn(r1), i0);
else
vfp_ldxi_d(rn(r0), rn(r1), i0);
}
void
_emit_stxi_d(jit_state_t *_jit, jit_word_t i0, jit_int32_t r0, jit_int32_t r1)
{
if (jit_swf_p())
swf_stxi_d(i0, rn(r0), rn(r1));
else
vfp_stxi_d(i0, rn(r0), rn(r1));
}
static jit_int32_t
_jit_get_reg_pair(jit_state_t *_jit)
{
/* bypass jit_get_reg() with argument or'ed with jit_class_chk
* and try to find an consecutive, even free register pair, or
* return JIT_NOREG if fail, as the cost of spills is greater
* than splitting a double load/store in two operations. */
if (jit_reg_free_p(_R0) && jit_reg_free_p(_R1)) {
jit_regset_setbit(_jit->regarg, _R0);
jit_regset_setbit(_jit->regarg, _R1);
return (_R0);
}
if (jit_reg_free_p(_R2) && jit_reg_free_p(_R3)) {
jit_regset_setbit(_jit->regarg, _R2);
jit_regset_setbit(_jit->regarg, _R3);
return (_R2);
}
if (jit_reg_free_p(_R4) && jit_reg_free_p(_R5)) {
jit_regset_setbit(_jit->regarg, _R4);
jit_regset_setbit(_jit->regarg, _R5);
return (_R4);
}
if (jit_reg_free_p(_R6) && jit_reg_free_p(_R7)) {
jit_regset_setbit(_jit->regarg, _R6);
jit_regset_setbit(_jit->regarg, _R7);
return (_R6);
}
if (jit_reg_free_p(_R8) && jit_reg_free_p(_R9)) {
jit_regset_setbit(_jit->regarg, _R8);
jit_regset_setbit(_jit->regarg, _R9);
return (_R8);
}
return (JIT_NOREG);
}
static void
_jit_unget_reg_pair(jit_state_t *_jit, jit_int32_t reg)
{
jit_unget_reg(reg);
switch (reg) {
case _R0: jit_unget_reg(_R1); break;
case _R2: jit_unget_reg(_R3); break;
case _R4: jit_unget_reg(_R5); break;
case _R6: jit_unget_reg(_R7); break;
case _R8: jit_unget_reg(_R9); break;
default: abort();
}
}
static void
_load_const(jit_state_t *_jit, jit_bool_t uniq, jit_int32_t r0, jit_word_t i0)
{
jit_word_t w;
jit_word_t d;
jit_word_t base;
jit_int32_t *data;
jit_int32_t size;
jit_int32_t offset;
assert(!jit_thumb_p());
if (!uniq) {
/* use zero, a valid directly encoded immediate, to avoid the
* need of a bitmask to know what offsets will be patched, so
* that comparison will always fail for constants that cannot
* be encoded */
assert(i0 != 0);
/* Actually, code is (currently at least) not self modifying,
* so, any value reachable backwards is valid as a constant. */
/* FIXME a quickly updateable/mutable hash table could be
* better here, but most times only a few comparisons
* should be done
*/
/* search in previous constant pool */
if ((data = (jit_int32_t *)_jit->consts.data)) {
w = (jit_word_t)data;
/* maximum backwards offset */
base = (_jit->pc.w + 8) - 4092;
if (base <= w)
/* can scan all possible available backward constants */
base = 0;
else
base = (base - w) >> 2;
size = _jit->consts.size >> 2;
for (offset = size - 1; offset >= base; offset--) {
if (data[offset] == i0) {
w = (jit_word_t)(data + offset);
d = (_jit->pc.w + 8) - w;
LDRIN(r0, _R15_REGNO, d);
return;
}
}
}
}
else
assert(i0 == 0);
_jit->consts.patches[_jit->consts.offset++] = _jit->pc.w;
/* (probably) positive forward offset */
LDRI(r0, _R15_REGNO, 0);
if (!uniq) {
/* search already requested values */
for (offset = 0; offset < _jit->consts.length; offset++) {
if (_jit->consts.values[offset] == i0) {
_jit->consts.patches[_jit->consts.offset++] = offset;
return;
}
}
}
#if DEBUG
/* cannot run out of space because of limited range
* but assert anyway to catch logic errors */
assert(_jit->consts.length < 1024);
assert(_jit->consts.offset < 2048);
#endif
_jit->consts.patches[_jit->consts.offset++] = _jit->consts.length;
_jit->consts.values[_jit->consts.length++] = i0;
}
static void
_flush_consts(jit_state_t *_jit)
{
jit_word_t word;
jit_int32_t offset;
/* if no forward constants */
if (!_jit->consts.length)
return;
assert(!jit_thumb_p());
word = _jit->pc.w;
_jit->consts.data = _jit->pc.uc;
_jit->consts.size = _jit->consts.length << 2;
/* FIXME check will not overrun, otherwise, need to reallocate
* code buffer and start over */
memcpy(_jit->consts.data, _jit->consts.values, _jit->consts.size);
_jit->pc.w += _jit->consts.size;
if (_jit->data_info.ptr) {
if (_jit->data_info.offset >= _jit->data_info.length) {
_jit->data_info.ptr = realloc(_jit->data_info.ptr,
(_jit->data_info.length + 1024) *
sizeof(jit_data_info_t));
memset(_jit->data_info.ptr + _jit->data_info.length, 0,
1024 * sizeof(jit_data_info_t));
_jit->data_info.length += 1024;
}
_jit->data_info.ptr[_jit->data_info.offset].code = word;
_jit->data_info.ptr[_jit->data_info.offset].length = _jit->consts.size;
++_jit->data_info.offset;
}
for (offset = 0; offset < _jit->consts.offset; offset += 2)
patch_at(arm_patch_load, _jit->consts.patches[offset],
word + (_jit->consts.patches[offset + 1] << 2));
_jit->consts.length = _jit->consts.offset = 0;
}
/* to be called if needing to start over a function */
static void
_invalidate_consts(jit_state_t *_jit)
{
/* if no forward constants */
if (_jit->consts.length)
_jit->consts.length = _jit->consts.offset = 0;
}
static void
_patch(jit_state_t *_jit, jit_word_t instr, jit_node_t *node)
{
jit_int32_t flag;
jit_int32_t kind;
assert(node->flag & jit_flag_node);
if (node->code == jit_code_movi) {
flag = node->v.n->flag;
kind = arm_patch_word;
}
else {
flag = node->u.n->flag;
if (node->code == jit_code_calli)
kind = arm_patch_word;
else
kind = arm_patch_jump;
}
assert(!(flag & jit_flag_patch));
kind |= arm_patch_node;
if (_jit->patches.offset >= _jit->patches.length) {
_jit->patches.ptr = realloc(_jit->patches.ptr,
(_jit->patches.length + 1024) *
sizeof(jit_patch_t));
memset(_jit->patches.ptr + _jit->patches.length, 0,
1024 * sizeof(jit_patch_t));
_jit->patches.length += 1024;
}
_jit->patches.ptr[_jit->patches.offset].kind = kind;
_jit->patches.ptr[_jit->patches.offset].inst = instr;
_jit->patches.ptr[_jit->patches.offset].node = node;
++_jit->patches.offset;
}
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